TWI612908B - Method for manufacturing atomization unit and atomization unit - Google Patents

Method for manufacturing atomization unit and atomization unit Download PDF

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Publication number
TWI612908B
TWI612908B TW105120149A TW105120149A TWI612908B TW I612908 B TWI612908 B TW I612908B TW 105120149 A TW105120149 A TW 105120149A TW 105120149 A TW105120149 A TW 105120149A TW I612908 B TWI612908 B TW I612908B
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Taiwan
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heating element
cylindrical member
liquid holding
resistance heating
item
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TW105120149A
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Chinese (zh)
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TW201707588A (en
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Akihiko Suzuki
Manabu Takeuchi
Takuma Nakano
Manabu Yamada
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Japan Tobacco Inc
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Publication of TWI612908B publication Critical patent/TWI612908B/en

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    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B3/00Ohmic-resistance heating
    • H05B3/02Details
    • H05B3/06Heater elements structurally combined with coupling elements or holders
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/70Manufacture
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/40Constructional details, e.g. connection of cartridges and battery parts
    • A24F40/44Wicks
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/40Constructional details, e.g. connection of cartridges and battery parts
    • A24F40/46Shape or structure of electric heating means
    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B3/00Ohmic-resistance heating
    • H05B3/40Heating elements having the shape of rods or tubes
    • H05B3/42Heating elements having the shape of rods or tubes non-flexible
    • H05B3/44Heating elements having the shape of rods or tubes non-flexible heating conductor arranged within rods or tubes of insulating material
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/10Devices using liquid inhalable precursors
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/20Devices using solid inhalable precursors
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/30Devices using two or more structurally separated inhalable precursors, e.g. using two liquid precursors in two cartridges
    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B2203/00Aspects relating to Ohmic resistive heating covered by group H05B3/00
    • H05B2203/017Manufacturing methods or apparatus for heaters
    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B2203/00Aspects relating to Ohmic resistive heating covered by group H05B3/00
    • H05B2203/021Heaters specially adapted for heating liquids
    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B2203/00Aspects relating to Ohmic resistive heating covered by group H05B3/00
    • H05B2203/022Heaters specially adapted for heating gaseous material

Landscapes

  • Fuel-Injection Apparatus (AREA)
  • Resistance Heating (AREA)
  • Devices For Medical Bathing And Washing (AREA)
  • Disinfection, Sterilisation Or Deodorisation Of Air (AREA)

Abstract

一種霧化單元之製造方法,係具備:步驟A,以沿著形成於基底構件之側面的螺旋形狀之凹槽或突起的方式配置電阻發熱體,該基底構件係具有沿著預定方向延伸的軸;步驟B,以前述軸作為旋轉軸使前述基底構件旋轉,使前述電阻發熱體之至少一部分從前述凹槽或前述突起分離;以及步驟C,以接觸或接近前述電阻發熱體之至少一部分的方式,配置保持霧氣源的液體保持構件。 A method for manufacturing an atomizing unit, comprising: Step A, arranging a resistance heating element along a spiral groove or protrusion formed on a side surface of a base member, the base member having an axis extending in a predetermined direction; Step B, rotating the base member with the shaft as a rotation axis to separate at least a portion of the resistance heating element from the groove or the protrusion; and step C to contact or approach at least a portion of the resistance heating element , Configure a liquid holding member that holds the mist source.

Description

霧化單元之製造方法及霧化單元 Manufacturing method of atomization unit and atomization unit

本發明係關於一種具有不伴隨燃燒而是將霧氣(aerosol)源霧化之發熱體的霧化單元之製造方法及霧化單元。 The present invention relates to a method for manufacturing an atomizing unit and a atomizing unit having a heating element that atomizes an aerosol source without accompanying combustion.

以往,已知有一種不伴隨燃燒就吸嘗香味用的非燃燒型香味吸嘗器。非燃燒型香味吸嘗器係具備不伴隨燃燒而是將霧氣源霧化的霧化單元。霧化單元係具有:貯存器,用以蓄存霧氣源;液體保持構件,用以保持從貯存器供給來的霧氣源;以及發熱體(霧化部),用以將藉由液體保持構件所保持的霧氣源霧化。在此,發熱體,為具有螺旋形狀之線圈,且具有沿著預定方向延伸的形狀。液體保持構件,係具有沿著預定方向延伸的形狀,且在與預定方向相對的正交方向,以與發熱體之外側側面接觸的方式所配置(例如,專利文獻1、2)。 Conventionally, there has been known a non-burning type flavor inhaler for scenting without burning. The non-burning type flavor inhaler is provided with an atomizing unit that atomizes a mist source without accompanying combustion. The atomizing unit includes: a reservoir for storing a mist source; a liquid holding member for holding a mist source supplied from the reservoir; and a heating element (atomizing section) for storing the mist source through the liquid holding member. The maintained mist source is atomized. Here, the heating element is a coil having a spiral shape and having a shape extending in a predetermined direction. The liquid holding member has a shape extending in a predetermined direction, and is disposed so as to be in contact with the outer side surface of the heating element in an orthogonal direction opposite to the predetermined direction (for example, Patent Documents 1 and 2).

〔先前技術文獻〕 [Previous Technical Literature] 〔專利文獻〕 [Patent Literature]

專利文獻1:日本特表2012-517229號公報 Patent Document 1: Japanese Patent Publication No. 2012-517229

專利文獻2:日本特表2015-504652號公報 Patent Document 2: Japanese Patent Publication No. 2015-504652

第1特徵要旨在於提供一種霧化單元之製造方法,具備:步驟A,以沿著形成於基底構件之側面的螺旋形狀之凹槽或突起的方式配置電阻發熱體,該基底構件係具有沿著預定方向延伸的軸;步驟B,以前述軸作為旋轉軸使前述基底構件旋轉,使前述電阻發熱體之至少一部分從前述凹槽或前述突起分離;以及步驟C,以接觸或接近前述電阻發熱體之至少一部分的方式,配置保持霧氣源的液體保持構件。 The first feature is to provide a method for manufacturing an atomization unit, including: step A, arranging a resistance heating element along a spiral groove or protrusion formed on a side surface of a base member, the base member having An axis extending in a predetermined direction; step B, rotating the base member with the axis as a rotation axis, separating at least a portion of the resistance heating element from the groove or the projection; and step C, contacting or approaching the resistance heating element In at least a part of the arrangement, a liquid holding member that holds a mist source is provided.

第2特徵要旨在於在第1特徵中,前述步驟C係在前述步驟A之後進行,且在前述步驟B之前進行。 The second feature is that in the first feature, the aforementioned step C is performed after the aforementioned step A, and is performed before the aforementioned step B.

第3特徵要旨在於在第1特徵或第2特徵中,前述電阻發熱體係包含加熱前述霧氣源的加熱部分;前述步驟C係包含一邊使前述液體保持構件按壓前述加熱部分之內側側面或外側側面且一邊配置前述液體保持構件的步驟。 The third feature is that, in the first feature or the second feature, the resistance heating system includes a heating portion that heats the mist source; the step C includes a step in which the liquid holding member presses the inside or outside side of the heating portion and The step of disposing the aforementioned liquid holding member.

第4特徵要旨在於在第1特徵至第3特徵中之任一特徵中,前述電阻發熱體係包含加熱前述霧氣源的加熱部分;前述步驟C係包含以接觸前述加熱部分之內側側面或外側側面之全周的方式配置前述液體保持構件的步驟。 The fourth feature is intended that in any one of the first to third features, the resistance heating system includes a heating portion that heats the mist source; the step C includes contacting the inside or outside side of the heating portion. The steps of arranging the aforementioned liquid holding member in a perimeter manner.

第5特徵要旨在於在第1特徵至第4特徵中 之任一特徵中,前述步驟B係包含藉由前述電阻發熱體之分離,而形成將藉由前述電阻發熱體所霧化後的霧氣引入至前述電阻發熱體之內側的霧氣取入口的步驟。 The fifth feature is intended to be among the first to fourth features. In any one of the features, the step B includes a step of forming a mist inlet for introducing the mist atomized by the resistance heating element into the inside of the resistance heating element by separating the resistance heating element.

第6特徵要旨在於在第1特徵至第5特徵中之任一特徵中,前述步驟B係包含藉由前述電阻發熱體之分離,而在前述電阻發熱體之內側形成空氣流路之至少一部分的步驟。 The sixth feature is that in any one of the first to fifth features, the aforementioned step B includes a step of forming at least a part of an air flow path inside the resistance heating element by separation of the resistance heating element. step.

第7特徵要旨在於在第1特徵至第6特徵中之任一特徵中,前述步驟C係包含在前述基底構件之外側側面配置有前述電阻發熱體的情況下,在前述電阻發熱體之外側配置前述液體保持構件的步驟。 The seventh feature is that in any one of the first to sixth features, the step C includes arranging the resistance heating element on the outer side of the base member, and arranging the resistance heating element on the outer side. The aforementioned step of the liquid retaining member.

第8特徵要旨在於在第1特徵至第7特徵中之任一特徵中,前述基底構件為治具;前述步驟B係包含使前述電阻發熱體之全部從前述治具分離,且藉由前述電阻發熱體之分離,而在前述電阻發熱體之內側形成空氣流路之至少一部分的步驟;且在前述步驟B之前具備步驟G,該步驟G係配置形成前述空氣流路之至少一部分的流路形成構件。 The eighth feature is aimed at that in any one of the first to seventh features, the base member is a jig; the step B includes separating all of the resistor heating element from the jig, and by using the resistor A step of separating the heating element and forming at least a part of the air flow path inside the resistance heating element; and before step B, the step G is provided, and the step G is a flow path formation that forms at least a part of the air flow path member.

第9特徵要旨在於在第8特徵中,前述步驟G係包含沿著前述治具之外側側面配置前述流路形成構件的步驟。 The ninth feature is that in the eighth feature, the step G includes a step of arranging the flow path forming member along an outer side surface of the jig.

第10特徵要旨在於在第1特徵至第9特徵中之任一特徵中,前述基底構件為治具;前述步驟B係包含使前述電阻發熱體之全部從前述治具分離的步驟;且在前 述步驟B之前具備步驟E,該步驟E係在與前述預定方向正交之正交方向的前述電阻發熱體之外側側面或內側側面,配置形成空氣流路之至少一部分的具有筒狀之形狀的筒狀構件。 The tenth feature is intended that in any one of the first to ninth features, the aforementioned base member is a jig; the aforementioned step B includes a step of separating all of the aforementioned resistance heating element from the aforementioned jig; and before The step B is preceded by the step E. The step E is a cylindrical shape having at least a part of an air flow path formed on the outer side or the inner side of the resistance heating element orthogonal to the predetermined direction. Tubular member.

第11特徵要旨在於在第10特徵中,前述步驟B係在將前述筒狀構件固定於前述霧化單元之外殼之後及/或將前述電阻發熱體固定於前述筒狀構件之後進行。 The eleventh feature is that, in the tenth feature, the step B is performed after the cylindrical member is fixed to the casing of the atomizing unit and / or after the resistance heating element is fixed to the cylindrical member.

第12特徵要旨在於在第10特徵或第11特徵中,前述筒狀構件係藉由第一筒狀構件及第二筒狀構件所構成;前述步驟E係包含將前述第一筒狀構件及前述第二筒狀構件在彼此分離的狀態下配置的步驟。 The twelfth feature is that in the tenth or eleventh feature, the cylindrical member is constituted by a first cylindrical member and a second cylindrical member; the step E includes the step of combining the first cylindrical member and the foregoing A step of disposing the second cylindrical members in a state separated from each other.

第13特徵要旨在於在第12特徵中,前述第一筒狀構件之一部分或全部係藉由導電性構件所構成;前述第二筒狀構件之一部分或全部係藉由導電性構件所構成。 The thirteenth feature is that, in the twelfth feature, part or all of the first cylindrical member is constituted by a conductive member; part or all of the second cylindrical member is constituted by a conductive member.

第14特徵要旨在於在第12特徵或第13特徵中,前述治具係具備卡止前述第一筒狀構件的第一卡止部分、以及卡止前述第二筒狀部分的第二卡止部分;前述步驟E係包含:步驟E1,在能藉由前述第一卡止部分來卡止前述第一筒狀構件的位置配置前述第一筒狀構件;以及步驟E2,在能藉由前述第二卡止部分來卡止前述第二筒狀構件的位置配置前述第二筒狀構件。 The fourteenth feature is that in the twelfth or thirteenth feature, the jig is provided with a first locking portion that locks the first tubular member, and a second locking portion that locks the second tubular portion. The foregoing step E includes: step E1, disposing the first cylindrical member at a position where the first cylindrical member can be locked by the first locking portion; and step E2, where the second cylindrical member can be locked by the second The second tubular member is disposed at a position where the second tubular member is locked by the locking portion.

第15特徵要旨在於在第12特徵至第14特徵中之任一特徵中,前述治具係包含具有第一外徑的第一支 承部分、以及具有比前述第一外徑更小之第二外徑的第二支承部分;前述第一筒狀構件之內徑係與前述第一外徑對應;前述第二筒狀構件之內徑係與前述第二外徑對應;前述步驟E係包含:步驟E3,在前述正交方向的前述第一支承部分之外側側面配置前述第一筒狀構件;以及步驟E4,在前述正交方向的前述第二支承部分之外側側面配置前述第二筒狀構件。 The fifteenth feature is intended that, in any one of the twelfth to the fourteenth features, the aforementioned jig system includes a first branch having a first outer diameter. A bearing portion, and a second support portion having a second outer diameter smaller than the first outer diameter; the inner diameter of the first cylindrical member corresponds to the first outer diameter; the inner of the second cylindrical member The diameter corresponds to the second outer diameter; the step E includes: step E3, arranging the first cylindrical member on an outer side surface of the first support portion in the orthogonal direction; and step E4, in the orthogonal direction The second cylindrical member is disposed on an outer side surface of the second support portion.

第16特徵要旨在於在第12特徵至第15特徵中之任一特徵中,前述治具係包含具有第一外徑的第一支承部分、以及具有比前述第一外徑更小之第二外徑的第二支承部分;前述步驟E或E1或E3係包含使前述第一筒狀構件從前述第二支承部分側朝向前述第一支承部分側滑動的步驟;前述步驟E或E2或E4係包含使前述第二筒狀構件從前述第二支承部分側朝向前述第一支承部分側滑動的步驟。 The sixteenth feature is intended that in any one of the twelfth to fifteenth features, the jig system includes a first support portion having a first outer diameter and a second outer portion having a smaller outer diameter than the first outer diameter. Diameter second support portion; the aforementioned step E or E1 or E3 includes a step of sliding the first cylindrical member from the second supporting portion side toward the first supporting portion side; the aforementioned step E or E2 or E4 includes A step of sliding the second cylindrical member from the second support portion side toward the first support portion side.

第17特徵要旨在於在第12特徵至第16特徵中之任一特徵中,前述治具係包含具有第一外徑的第一支承部分、以及具有比前述第一外徑更小之第二外徑的第二支承部分;前述步驟C係包含使前述液體保持構件從前述第二支承部分側朝向前述第一支承部分側滑動的步驟。 The seventeenth feature is intended that, in any one of the twelfth to the sixteenth features, the jig system includes a first support portion having a first outer diameter and a second outer portion having a smaller outer diameter than the first outer diameter. The second support portion having a small diameter; the step C includes a step of sliding the liquid holding member from the second support portion side toward the first support portion side.

第18特徵要旨在於在第12特徵至第16特徵中之任一特徵中,前述治具係包含具有第一外徑的第一支承部分、以及具有比前述第一外徑更小之第二外徑的第二支承部分;前述凹槽或前述突起係設置於前述第一支承部 分之側面;前述步驟A係包含在前述第一支承部分之外側側面及前述第二筒狀構件之外側側面配置前述電阻發熱體的步驟。 The eighteenth feature is intended to be any one of the twelfth to the sixteenth features, wherein the jig system includes a first support portion having a first outer diameter and a second outer portion having a smaller outer diameter than the first outer diameter. Diameter second supporting portion; the groove or the protrusion is provided on the first supporting portion The side surface; the step A includes a step of disposing the resistance heating element on the outer side surface of the first support portion and the outer side surface of the second cylindrical member.

第19特徵要旨在於在第1特徵至第18特徵中之任一特徵中,前述步驟C係包含:步驟C1,使滑動用構件沿著與前述預定方向正交之正交方向的前述電阻發熱體之外側側面滑動;步驟C2,將前述液體保持構件沿著前述正交方向的前述滑動用構件之外側側面配置;以及步驟C3,在前述步驟C1及前述步驟C2之後,從前述液體保持構件與前述電阻發熱體之間,藉由滑動前述滑動用構件而拆除。 The nineteenth feature is that in any one of the first to eighteenth features, the aforementioned step C includes the step C1 of causing the sliding member to follow the resistance heating element in an orthogonal direction orthogonal to the predetermined direction. The outer side surface slides; step C2, the liquid holding member is arranged along the outer side surface of the sliding member in the orthogonal direction; and step C3, after the step C1 and the step C2, the liquid holding member and the The resistance heating element is removed by sliding the sliding member.

第20特徵要旨在於在第1特徵至第8特徵中之任一特徵中,前述基底構件為形成空氣流路之至少一部分的具有筒狀之形狀的筒狀構件。 A twentieth feature is that in any one of the first to eighth features, the base member is a cylindrical member having a cylindrical shape that forms at least a part of an air flow path.

第21特徵要旨在於在第20特徵中,前述筒狀構件係藉由導電性構件所構成;該製造方法並具備:步驟D,電性連接前述筒狀構件和前述電阻發熱體。 The twenty-first feature is that, in the twentieth feature, the cylindrical member is formed of a conductive member; the manufacturing method further includes: Step D, electrically connecting the cylindrical member and the resistance heating element.

第22特徵要旨在於在第20特徵或第21特徵中,前述筒狀構件係藉由第一筒狀構件及第二筒狀構件所構成;前述步驟A係包含跨越前述第一筒狀構件及前述第二筒狀構件之雙方而配置前述電阻發熱體的步驟;前述步驟B係包含在維持前述電阻發熱體已橫跨前述第一筒狀構件及前述第二筒狀構件之雙方而配置的狀態下,使前述第一筒狀構件及前述第二筒狀構件彼此分離的步驟。 The 22nd feature is that in the 20th or 21st feature, the cylindrical member is constituted by a first cylindrical member and a second cylindrical member; and the step A includes spanning the first cylindrical member and the foregoing The step of arranging the resistance heating element on both sides of the second cylindrical member; the step B includes maintaining the state in which the resistance heating element is disposed across both the first and second cylindrical members. And a step of separating the first cylindrical member and the second cylindrical member from each other.

第23特徵要旨在於在第1特徵中,前述基底構件為筒狀構件;前述步驟A係包含以沿著形成於前述筒狀構件之外側側面的螺旋形狀之凹槽或突起的方式配置前述電阻發熱體的步驟;前述步驟B及前述步驟C係包含藉由前述筒狀構件之旋轉,使前述電阻發熱體之一部分從前述筒狀構件分離,使配置於前述筒狀構件之內側的前述液體保持構件之一部分從前述筒狀構件分離,且藉由該液體保持構件之一部分的膨脹,使該液體保持構件之一部分接觸或接近該電阻發熱體之一部分的步驟。 The twenty-third feature is that in the first feature, the base member is a cylindrical member; the step A includes arranging the resistor to generate heat along a spiral-shaped groove or protrusion formed on an outer side surface of the cylindrical member. The step B and the step C include separating a part of the resistance heating element from the cylindrical member by rotating the cylindrical member, and disposing the liquid holding member disposed inside the cylindrical member. A step of separating a part from the cylindrical member and causing a part of the liquid holding member to contact or approach a part of the resistance heating element by expansion of a part of the liquid holding member.

第24特徵要旨在於提供一種霧化單元之製造方法,具備:步驟A,以沿著形成於基底構件之側面的螺旋形狀之凹槽或突起的方式配置電阻發熱體,該基底構件係具有沿著預定方向延伸的軸;步驟C,以接觸或接近前述電阻發熱體之至少一部分的方式,配置保持霧氣源的液體保持構件,或步驟C4,藉由以前述軸作為旋轉軸使前述基底構件旋轉,使前述電阻發熱體之至少一部分從前述凹槽或前述突起分離而接觸或接近前述電阻發熱體之至少一部分的方式,配置保持霧氣源的液體保持構件;以及步驟F,將前述電阻發熱體及前述液體保持構件收容於前述外殼內。 The twenty-fourth feature is to provide a method for manufacturing an atomizing unit, including: step A, arranging a resistance heating element along a spiral groove or protrusion formed on a side surface of a base member, the base member having A shaft extending in a predetermined direction; step C, disposing a liquid holding member that holds a mist source so as to contact or approach at least a part of the resistance heating element, or step C4, rotating the base member by using the shaft as a rotation axis, A liquid holding member that holds a mist source is disposed in such a manner that at least a portion of the resistance heating element is separated from the groove or the protrusion to contact or approach at least a portion of the resistance heating element; The liquid holding member is housed in the casing.

第25特徵要旨在於提供一種霧化單元,具備:基底構件,具有沿著預定方向延伸的軸;電阻發熱體,以沿著形成於前述基底構件之側面的螺旋形狀之凹槽或突起的方式所配置;液體保持構件,以接觸或接近前述電阻 發熱體之至少一部分的方式,或是,藉由以前述軸作為旋轉軸使前述基底構件旋轉,使前述電阻發熱體之至少一部分從前述凹槽或前述突起分離的步驟B而接觸或接近前述電阻發熱體之至少一部分的方式所配置,且保持霧氣源;以及外殼,收容前述電阻發熱體及前述液體保持構件。 A twenty-fifth feature is to provide an atomizing unit including a base member having an axis extending in a predetermined direction, and a resistance heating element formed as a spiral groove or protrusion formed along a side of the base member. Configuration; liquid holding member to contact or approach the aforementioned resistance The method of at least a part of the heating element, or by rotating the base member with the shaft as a rotation axis, and contacting or approaching the resistance with step B in which at least a portion of the resistance heating element is separated from the groove or the protrusion. At least a part of the heating element is arranged so as to hold a mist source; and a case that houses the resistance heating element and the liquid holding member.

在上述的第15特徵中,所謂「對應」係指以下的意義。第一、在治具(第一支承部分或第二支承部分)之外側側面與筒狀構件(第一筒狀構件及第二筒狀構件)之內側側面之間夾設電阻發熱體的事例中,「對應」係指筒狀構件之內側側面能夠沿著已配置於治具之外側側面的電阻發熱體滑動,且如已配置於治具之外側側面的電阻發熱體和筒狀構件之內側側面接觸般的筒狀構件之內徑與治具之外徑的大小之關係。第二、在治具之外側側面與筒狀構件之內側側面之間未夾設電阻發熱體的事例中,「對應」係指筒狀構件之內側側面能夠沿著治具之外側側面滑動,且如在筒狀構件已配置於治具之外側側面的狀態中筒狀構件之中心軸不從治具之中心軸偏移般的筒狀構件之內徑與治具之外徑的大小之關係。另外,在治具或筒狀構件是藉由具有彈性的構件所構成的情況下,「外徑」及「內徑」,係指筒狀構件已配置於治具之外側側面之後的狀態下之尺寸。 In the 15th feature described above, "correspondence" means the following meaning. First, in the case where a resistance heating element is sandwiched between the outer side surface of the jig (the first supporting portion or the second supporting portion) and the inner side surface of the cylindrical member (the first cylindrical member and the second cylindrical member). "Correspondence" means that the inner side of the cylindrical member can slide along the resistance heating element that has been placed on the outer side surface of the jig, and if the resistance heating element and the inside side of the cylindrical member have been placed on the outer side surface of the jig The relationship between the inner diameter of the contact-like cylindrical member and the outer diameter of the jig. Second, in the case where no resistance heating element is interposed between the outer side surface of the jig and the inner side surface of the cylindrical member, "correspondence" means that the inner side surface of the cylindrical member can slide along the outer side surface of the jig, and The relationship between the inner diameter of the cylindrical member and the outer diameter of the jig such that the central axis of the tubular member does not deviate from the central axis of the jig in a state where the cylindrical member is disposed on the outer side surface of the jig. In addition, when the jig or the cylindrical member is constituted by an elastic member, the "outer diameter" and "inner diameter" refer to a state where the cylindrical member has been disposed on the outer side surface of the jig. size.

在上面所述的第15特徵中,在正交方向的第一支承部分之外側側面配置第一筒狀構件的步驟E3,較佳是比在正交方向的第二支承部分之外側側面配置第二筒狀構件的步驟E4之前進行。藉由如此的方法,可輕易地進 行第一筒狀構件和第二筒狀構件之配置。 In the fifteenth feature described above, the step E3 of disposing the first cylindrical member on the outer side surface of the first support portion in the orthogonal direction is preferable to disposing the first cylindrical member on the outer side surface of the second support portion in the orthogonal direction. This is performed before step E4 of the two cylindrical members. With this method, you can easily enter The arrangement of the first cylindrical member and the second cylindrical member is performed.

在上述的特徵中,步驟C較佳是在步驟E之後進行。藉由如此的方法,可輕易地進行液體保持構件、第一筒狀構件、第二筒狀構件之配置。 Among the features described above, step C is preferably performed after step E. With this method, the arrangement of the liquid holding member, the first cylindrical member, and the second cylindrical member can be easily performed.

在上述的特徵中,步驟B較佳是在步驟C2及步驟C3之前進行。藉由如此的方法,可盡早使基底構件分離,在短時間內將基底構件沿用於下一個半製品製造,而可提高霧化單元之生產性。 Among the features described above, step B is preferably performed before steps C2 and C3. With this method, the base member can be separated as early as possible, and the base member can be used for the next semi-product manufacturing in a short time, and the productivity of the atomization unit can be improved.

在上述的第24特徵中,步驟F較佳是在基底構件之至少一部分已從外殼露出的狀態下進行。藉由如此的方法,容易在霧化單元使用前,藉由基底構件之旋轉使電阻發熱體從凹槽或突起分離。 In the twenty-fourth feature described above, step F is preferably performed in a state where at least a part of the base member has been exposed from the casing. With this method, it is easy to separate the resistance heating body from the groove or the protrusion by the rotation of the base member before the atomizing unit is used.

在上述的第25特徵中,基底構件之至少一部分從外殼露出為較佳。藉由如此的構成,容易在霧化單元使用前,藉由基底構件之旋轉使電阻發熱體從凹槽或突起分離。 In the 25th feature described above, it is preferable that at least a part of the base member is exposed from the casing. With such a configuration, it is easy to separate the resistance heating element from the groove or the protrusion by the rotation of the base member before the atomizing unit is used.

在上述的特徵中,電阻發熱體亦可為藉由具有螺旋形狀的金屬線所形成,而為具有沿著預定方向延伸之形狀的線圈。亦即,步驟A亦可包含以沿著形成於基底構件之側面的螺旋形狀之凹槽或突起的方式盤繞非線圈狀之金屬線,藉此使非線圈狀之金屬線成為線圈狀之金屬線的步驟。 In the above-mentioned feature, the resistance heating element may be formed of a metal wire having a spiral shape, and may be a coil having a shape extending in a predetermined direction. That is, step A may also include winding a non-coil-shaped metal wire along a spiral-shaped groove or protrusion formed on a side surface of the base member, thereby making the non-coil-shaped metal wire a coil-shaped metal wire A step of.

11‧‧‧貯存器 11‧‧‧ reservoir

12‧‧‧液體保持構件 12‧‧‧Liquid holding member

13‧‧‧發熱體 13‧‧‧heating body

13A‧‧‧加熱部分 13A‧‧‧Heating section

13B1‧‧‧第一端部分 13B 1 ‧‧‧First end

13B2‧‧‧第二端部分 13B 2 ‧‧‧ second end

13C、13D‧‧‧電力供給構件 13C, 13D‧‧‧ Power supply components

14‧‧‧筒狀構件 14‧‧‧ cylindrical member

141‧‧‧筒狀構件(第一筒狀構件) 14 1 ‧‧‧ cylindrical member (first cylindrical member)

142‧‧‧筒狀構件(第二筒狀構件) 14 2 ‧‧‧ cylindrical member (second cylindrical member)

15‧‧‧被覆構件 15‧‧‧ Covered member

16‧‧‧帽蓋 16‧‧‧ Cap

17、171、172‧‧‧凸緣 17, 17 1 , 17 2 ‧‧‧ flange

18‧‧‧導線 18‧‧‧ lead

19‧‧‧液量調整構件 19‧‧‧Liquid volume adjustment member

19A、19B‧‧‧開口 19A, 19B‧‧‧Open

21‧‧‧支承構件 21‧‧‧ support member

100‧‧‧非燃燒型香味吸嘗器(香味吸嘗器) 100‧‧‧Non-burning scent taster (scent taster)

110‧‧‧吸嘗器本體 110‧‧‧Sucker body

110X‧‧‧吸嘗器外殼 110X‧‧‧Sucker housing

111‧‧‧霧化單元 111‧‧‧Atomization unit

111C‧‧‧連接部分 111C‧‧‧Connection section

111O‧‧‧煙嘴側開口 111O‧‧‧ cigarette holder side opening

111X‧‧‧霧化單元外殼 111X‧‧‧Atomization unit housing

111X1‧‧‧外殼帽蓋體 111X 1 ‧‧‧shell cap body

111X2‧‧‧外殼筒體 111X 2 ‧‧‧ Housing

112‧‧‧電裝單元 112‧‧‧ Denso

112A‧‧‧進氣口 112A‧‧‧Air inlet

112X‧‧‧電裝單元外殼 112X‧‧‧Electrical unit housing

130‧‧‧匣體 130‧‧‧ box

130O‧‧‧出氣口 130O‧‧‧Air outlet

131‧‧‧匣體外殼 131‧‧‧ Casing shell

132‧‧‧香味源 132‧‧‧Scent Source

133A‧‧‧網格 133A‧‧‧Grid

133B‧‧‧濾嘴 133B‧‧‧Filter

300‧‧‧基底構件 300‧‧‧ base member

310‧‧‧第一支承部分 310‧‧‧First support section

320‧‧‧第二支承部分 320‧‧‧Second support section

330‧‧‧基底部分 330‧‧‧ base

340‧‧‧段差部分 340‧‧‧step difference

400‧‧‧滑動用構件 400‧‧‧Sliding member

A‧‧‧預定方向 A‧‧‧ scheduled direction

B‧‧‧正交方向 B‧‧‧ orthogonal direction

CP1‧‧‧第一接點 CP1‧‧‧First contact

CP2‧‧‧第二接點 CP2‧‧‧Second Contact

X‧‧‧軸 X‧‧‧axis

第1圖係顯示實施形態的非燃燒型香味吸嘗器100之圖。 FIG. 1 is a view showing a non-burning flavor scenting device 100 according to the embodiment.

第2圖係顯示實施形態的霧化單元111之圖。 FIG. 2 is a diagram showing the atomizing unit 111 according to the embodiment.

第3圖(A)係顯示第2圖所示的P-P剖面之圖;第3圖(B)係顯示第2圖所示的Q-Q剖面之圖。 Fig. 3 (A) is a diagram showing a P-P section shown in Fig. 2; Fig. 3 (B) is a diagram showing a Q-Q section shown in Fig. 2.

第4圖(A)至(D)係用以說明實施形態的霧化單元111之製造方法的圖。 4 (A) to 4 (D) are diagrams for explaining a method of manufacturing the atomizing unit 111 according to the embodiment.

第5圖(A)至(C)係用以說明實施形態的霧化單元111之製造方法的圖。 5 (A) to (C) are diagrams for explaining a method of manufacturing the atomizing unit 111 according to the embodiment.

第6圖(A)至(D)係用以說明變更例1的霧化單元111之製造方法的圖。 FIGS. 6 (A) to (D) are diagrams for explaining a method of manufacturing the atomizing unit 111 according to the first modification.

第7圖(A)及(B)係用以說明變更例2的霧化單元111之製造方法的圖。 7 (A) and 7 (B) are diagrams for explaining a method of manufacturing the atomizing unit 111 according to the second modification.

第8圖(A)及(B)係用以說明變更例3的霧化單元111之製造方法的圖。 8 (A) and 8 (B) are diagrams for explaining a method of manufacturing the atomizing unit 111 according to the third modification.

第9圖係用以說明變更例4的霧化單元111之圖。 FIG. 9 is a diagram for explaining the atomizing unit 111 according to the fourth modification.

第10圖係用以說明變更例5的霧化單元111之圖。 Fig. 10 is a diagram for explaining an atomizing unit 111 according to a fifth modification.

第11圖係用以說明變更例6的霧化單元111之圖。 FIG. 11 is a diagram for explaining an atomizing unit 111 according to a sixth modification.

第12圖(A)至(E)係用以說明變更例7的霧化單元111之製造方法的圖。 12 (A) to (E) are diagrams for explaining a method of manufacturing the atomizing unit 111 according to Modification 7.

第13圖(A)至(D)係用以說明變更例8的霧化單元111之製造方法的圖。 13 (A) to (D) are diagrams for explaining a method of manufacturing the atomizing unit 111 according to Modification 8.

第14圖(A)至(E)係用以說明變更例9的霧化單元111之製造方法的圖。 14 (A) to (E) are diagrams for describing a method of manufacturing the atomizing unit 111 according to Modification 9.

第15圖係用以說明變更例10的霧化單元111之圖。 FIG. 15 is a diagram for explaining an atomizing unit 111 according to Modification 10. FIG.

第16圖係用以說明變更例11的霧化單元111之圖。 FIG. 16 is a diagram for explaining an atomizing unit 111 according to Modification 11. FIG.

第17圖係用以說明變更例12的霧化單元111之圖。 Fig. 17 is a diagram for explaining an atomizing unit 111 according to Modification 12.

第18圖(A)及(B)係用以說明變更例13的霧化單元111之製造方法的圖。 18 (A) and (B) are diagrams for explaining a method of manufacturing the atomizing unit 111 according to Modification 13.

第19圖係用以說明變更例14的霧化單元111之圖。 FIG. 19 is a diagram for explaining an atomizing unit 111 according to Modification 14. FIG.

第20圖係用以說明變更例15的霧化單元111之圖。 FIG. 20 is a diagram for explaining an atomizing unit 111 according to Modification 15. FIG.

第21圖係用以說明變更例15的液量調整構件19之圖。 FIG. 21 is a diagram for explaining a liquid amount adjusting member 19 according to Modification 15. FIG.

第22圖(A)及(B)係用以說明變更例16的霧化單元111之製造方法的圖。 22 (A) and (B) are diagrams for describing a method of manufacturing the atomizing unit 111 according to Modification 16. FIG.

以下,針對實施形態加以說明。另外,以下之圖式記載中,對於相同或是類似的部分,係附記相同或是類似的符號。惟,圖式僅為示意圖,各尺寸之比率等係有與現實物不同的情況,應予留意。 Hereinafter, embodiments will be described. In addition, in the following drawings, the same or similar parts are marked with the same or similar symbols. However, the drawings are only schematic diagrams, and the ratios of the dimensions are different from the actual ones, so you should pay attention to them.

從而,具體之尺寸等應參酌以下之說明來加以判斷。又,在圖之間亦包含彼此尺寸之關係或比率有所不同的部分。 Therefore, specific dimensions and the like should be judged with reference to the following description. In addition, the drawings also include portions having different dimensional relationships or ratios.

[揭示之概要] [Summary of Revelation]

然而,在先前技術所涉及的霧化單元中,難以製造具有高品質之發熱體的霧化單元。 However, in the atomizing unit according to the prior art, it is difficult to manufacture an atomizing unit having a high-quality heating element.

揭示之概要的霧化單元之製造方法,係具備: 步驟A,以沿著形成於基底構件之側面的螺旋形狀之凹槽或突起的方式配置電阻發熱體,該基底構件係具有沿著預定方向延伸的軸;步驟B,以前述軸作為旋轉軸使前述基底構件旋轉,使前述電阻發熱體之至少一部分從前述凹槽或前述突起分離;以及步驟C,以接觸或接近前述電阻發熱體之至少一部分的方式,配置保持霧氣源的液體保持構件。 The disclosed manufacturing method of the atomization unit includes: In step A, a resistance heating element is arranged along a spiral-shaped groove or protrusion formed on a side surface of a base member having a shaft extending in a predetermined direction; and in step B, the aforementioned shaft is used as a rotation axis. The base member is rotated to separate at least a portion of the resistance heating element from the groove or the protrusion; and step C, a liquid holding member configured to hold a mist source so as to contact or approach at least a portion of the resistance heating element.

在揭示之概要中,因在霧化單元之製造步驟中,能藉由基底構件來支持電阻發熱體,故可抑制霧化單元之製造步驟中的電阻發熱體之變形,而可製造具有高品質之電阻發熱體的霧化單元。 In the disclosed outline, since the resistance heating element can be supported by the base member in the manufacturing step of the atomizing unit, the deformation of the resistance heating element in the manufacturing step of the atomizing unit can be suppressed, and high quality can be manufactured. Atomization unit of resistance heating element.

〔實施形態〕 [Embodiment]

(非燃燒型香味吸嘗器) (Non-burning type flavor inhaler)

以下,對於實施形態的非燃燒型香味吸嘗器加以說明。第1圖係顯示實施形態的非燃燒型香味吸嘗器100之圖。非燃燒型香味吸嘗器100係供以不須伴隨燃燒即可吸嘗吸煙香氣風味成分的器具,具有沿著屬於從非煙嘴端朝向煙嘴端之方向的預定方向A延伸的形狀。第2圖係顯示實施形態的霧化單元111之圖。第3圖(A)係顯示第2圖所示的霧化單元111之P-P剖面的圖;第3圖(B)係顯示第2圖所示的霧化單元111之Q-Q剖面的圖。另外,以下,會有將非燃燒型香味吸嘗器100僅稱為香味吸嘗器100之情形,應予留意。 Hereinafter, the non-burning type flavor inhaler of the embodiment will be described. FIG. 1 is a view showing a non-burning flavor scenting device 100 according to the embodiment. The non-burning type flavor inhaler 100 is a device for inhaling smoking aroma flavor components without accompanying combustion, and has a shape extending along a predetermined direction A belonging to a direction from a non-smoke end to a mouth end. FIG. 2 is a diagram showing the atomizing unit 111 according to the embodiment. FIG. 3 (A) is a diagram showing a P-P section of the atomizing unit 111 shown in FIG. 2; FIG. 3 (B) is a diagram showing a Q-Q section of the atomizing unit 111 shown in FIG. 2. It should be noted that, in the following, the non-burning type flavor taster 100 may be referred to simply as the flavor taster 100.

如第1圖所示,香味吸嘗器100係具有吸嘗器本體110以及匣體130。 As shown in FIG. 1, the flavor taster 100 includes a taster body 110 and a case 130.

吸嘗器本體110係構成香味吸嘗器100的本體,具有能夠連接匣體130的形狀。具體而言,吸嘗器本體110係具有吸嘗器外殼110X,匣體130係連接於吸嘗器外殼110X的下游端。吸嘗器本體110係具有:不須伴隨燃燒即可將霧氣源霧化的霧化單元111;以及電裝單元112。霧化單元111及電裝單元112係收容於吸嘗器外殼110X。 The taster body 110 constitutes the body of the flavor taster 100 and has a shape capable of being connected to the case 130. Specifically, the taster body 110 has a taster housing 110X, and the box 130 is connected to the downstream end of the taster housing 110X. The sucker body 110 includes an atomizing unit 111 capable of atomizing a mist source without accompanying combustion, and an electric unit 112. The atomizing unit 111 and the electric equipment unit 112 are housed in the sipper housing 110X.

在實施形態中,霧化單元111係具有構成吸嘗器外殼110X之一部分的霧化單元外殼111X。霧化單元111係具有:連接部分111C,對電裝單元112所具有的電源進行連接;以及煙嘴側開口111O,設置於連接部分111C的相反側。連接部分111C例如是與電源連接的連接器。煙嘴側開口111O為接受匣體130的開口,設置於煙嘴端側。如第2圖所示,霧化單元111係具有貯存器11、液體保持構件12、發熱體13、筒狀構件14(筒狀構件141及筒狀構件142)、被覆構件15、帽蓋16及凸緣17(凸緣171及凸緣172)。此等的構件係收容於霧化單元外殼111X。霧化單元外殼111X係具有沿著預定方向A延伸的形狀(例如,圓筒形狀)。另外,在第2圖中省略了上述的連接部分111C,但是連接部分111C係設置於凸緣172的非煙嘴端側(電裝單元112側)。 In the embodiment, the atomizing unit 111 has an atomizing unit case 111X constituting a part of the taster case 110X. The atomizing unit 111 includes a connecting portion 111C for connecting a power source included in the electric unit 112, and a cigarette holder side opening 111O provided on the opposite side of the connecting portion 111C. The connection portion 111C is, for example, a connector connected to a power source. The mouthpiece side opening 111O is an opening of the receiving box 130 and is provided on the mouthpiece end side. As shown in FIG. 2, the atomizing unit 111 includes a reservoir 11, a liquid holding member 12, a heating element 13, a cylindrical member 14 (a cylindrical member 14 1 and a cylindrical member 14 2 ), a covering member 15, and a cap. 16 and flange 17 (flange 17 1 and flange 17 2 ). These components are housed in the atomizing unit case 111X. The atomizing unit case 111X has a shape (for example, a cylindrical shape) extending along a predetermined direction A. Further, not shown in the second connecting portion 111C described above, but the connecting portion 111C is provided based on the non-mouth end of the flange 172 side (electrical unit 112 side).

貯存器11係蓄存霧氣源。貯存器11係具有適於複數次之吸吐(puff)動作所用的霧氣源之蓄存的構成 (尺寸、材料、構造等)。例如,貯存器11可為藉由樹脂網等之材料所構成的孔質體,亦可為用以蓄存霧氣源的空洞。貯存器11較佳是可於單位體積蓄存更多的霧氣源。貯存器11係只要配置於能夠對液體保持構件12供給霧氣源的位置即可,至少與液體保持構件12之一部分接觸。在實施形態中,如第3圖(A)及第3圖(B)所示,貯存器11的至少一部分在相對於預定方向A的正交方向B,配置於被覆構件15之外側為較佳。 The reservoir 11 stores a mist source. The reservoir 11 has a structure suitable for storing a mist source for a plurality of puff operations. (Size, material, construction, etc.). For example, the reservoir 11 may be a porous body made of a material such as a resin net, or may be a cavity for storing a mist source. The reservoir 11 is preferably capable of storing more mist sources per unit volume. The reservoir 11 is only required to be arranged at a position capable of supplying a mist source to the liquid holding member 12, and it is in contact with at least a part of the liquid holding member 12. In the embodiment, as shown in FIG. 3 (A) and FIG. 3 (B), it is preferable that at least a part of the reservoir 11 is disposed on the outer side of the covering member 15 in the orthogonal direction B with respect to the predetermined direction A. .

液體保持構件12係保持從貯存器11所供給的霧氣源。液體保持構件12係具有:適於使能夠蓄存於貯存器11的霧氣源之一部分(例如,一次之吸吐動作所用的霧氣源)從貯存器11移動並保持於接觸或接近發熱體13的位置的構成(尺寸、材料、構造等)。液體保持構件12亦可為使霧氣源從貯存器11藉由毛細現象移動至液體保持構件12的構件。另外,液體保持構件12係藉由與貯存器11接觸來使霧氣源移動至液體保持構件12。貯存器11為空洞的情況時,液體保持構件12與貯存器11的接觸係指液體保持構件12露出於空洞(貯存器11)。惟,液體保持構件12係在霧氣源已充填於貯存器11之後,以與已充填於空洞(貯存器11)的霧氣源接觸之方式配置,應予留意。例如,液體保持構件12係藉由玻璃纖維或多孔質陶瓷所構成。例如,液體保持構件12為藉由玻璃纖維或多孔質陶瓷所構成的芯體。液體保持構件12較佳是具有能承受發熱體13之加熱的耐熱性。如第3圖(A)及第3圖(B)所示,液體保持 構件12係具有沿著預定方向A延伸的圓筒形狀。 The liquid holding member 12 holds a mist source supplied from the reservoir 11. The liquid holding member 12 has a portion suitable for moving a part of the mist source (for example, a mist source for one-time inhalation and suction operation) that can be stored in the reservoir 11 away from the reservoir 11 and held in contact with or near the heating element 13 The composition of the location (size, material, construction, etc.). The liquid holding member 12 may be a member that moves the mist source from the reservoir 11 to the liquid holding member 12 by a capillary phenomenon. The liquid holding member 12 moves the mist source to the liquid holding member 12 by being in contact with the reservoir 11. When the reservoir 11 is hollow, the contact between the liquid holding member 12 and the reservoir 11 means that the liquid holding member 12 is exposed in the cavity (reservoir 11). However, the liquid holding member 12 is arranged after the mist source has been filled in the reservoir 11 so as to be in contact with the mist source which has been filled in the cavity (reservoir 11), and care should be taken. For example, the liquid holding member 12 is made of glass fiber or porous ceramics. For example, the liquid holding member 12 is a core made of glass fiber or porous ceramic. The liquid holding member 12 preferably has heat resistance capable of withstanding the heating of the heating element 13. As shown in Figure 3 (A) and Figure 3 (B), the liquid is retained The member 12 has a cylindrical shape extending along a predetermined direction A.

在此,在正交方向B的液體保持構件12之內側側面的至少一部分,係與發熱體13接觸或接近。另外,液體保持構件12之內側側面的至少一部分接近發熱體13,係指液體保持構件12保持有霧氣源時,發熱體13與液體保持構件12之內側側面的距離維持於使發熱體13與霧氣源的距離維持成能夠藉由發熱體13來將霧氣源霧化的程度。發熱體13與液體保持構件12之內側側面的距離雖亦取決於霧氣源、液體保持構件12的種類、發熱體13的溫度等,但是例如可考慮3mm以下,較佳為1mm以下。又,由於液體保持構件12之內側側面的至少一部分接近發熱體13係指發熱體13與液體保持構件12之內側側面的距離維持於能夠藉由發熱體13來將霧氣源霧化的程度,所以在發熱體13與霧氣源之間隔著某物而使霧氣源無法由發熱體13霧化的狀態或霧氣源之霧化受阻礙的狀態時,就不可謂液體保持構件12之內側側面的至少一部分接近發熱體13。 Here, at least a part of the inner side surface of the liquid holding member 12 in the orthogonal direction B is in contact with or close to the heating element 13. In addition, at least a part of the inner side surface of the liquid holding member 12 is close to the heating element 13, which means that when the liquid holding member 12 holds a mist source, the distance between the heating element 13 and the inner side surface of the liquid holding member 12 is maintained so that the heating element 13 and the mist The distance of the source is maintained to such an extent that the mist source can be atomized by the heating element 13. Although the distance between the heating element 13 and the inner side surface of the liquid holding member 12 also depends on the mist source, the type of the liquid holding member 12, the temperature of the heating element 13, and the like, it may be 3 mm or less, preferably 1 mm or less. In addition, since at least a part of the inner side surface of the liquid holding member 12 is close to the heating element 13 means that the distance between the heating element 13 and the inner side surface of the liquid holding member 12 is maintained to a degree that the mist source can be atomized by the heating element 13. In a state where the mist source cannot be atomized by the heater 13 or a state where the atomization of the mist source is blocked by a distance between the heating element 13 and the mist source, it is not at least a part of the inner side surface of the liquid holding member 12 Close to the heating element 13.

在實施形態中,如第3圖(A)所示,液體保持構件12之內側側面係與發熱體13之加熱部分13A接觸或接近。另一方面,如第3圖(B)所示,在液體保持構件12與第一端部分13B1之間係隔著筒狀構件141,液體保持構件12之內側側面係不與發熱體13的第一端部分13B1接觸或接近。同樣地,在液體保持構件12與第二端部分13B2之間係隔著筒狀構件142,液體保持構件12之內側側面, 係不與發熱體13的第二端部分13B2接觸或接近。 In the embodiment, as shown in FIG. 3 (A), the inner side surface of the liquid holding member 12 is in contact with or close to the heating portion 13A of the heating element 13. On the other hand, as shown in FIG. 3 (B), the cylindrical member 14 1 is interposed between the liquid holding member 12 and the first end portion 13B 1 , and the inner side surface of the liquid holding member 12 is not connected to the heating element 13. The first end portion 13B 1 touches or approaches. Similarly, the cylindrical member 14 2 is interposed between the liquid holding member 12 and the second end portion 13B 2 , and the inner side surface of the liquid holding member 12 is not in contact with or close to the second end portion 13B 2 of the heating element 13. .

又,如第3圖(A)及第3圖(B)所示,正交方向B的液體保持構件12之外側側面的至少一部分係藉由被覆構件15所被覆。 As shown in FIGS. 3 (A) and 3 (B), at least a part of the outer side surface of the liquid holding member 12 in the orthogonal direction B is covered by the covering member 15.

發熱體13係將藉由液體保持構件12所保持的霧氣源霧化的霧化部之一例。在實施形態中,發熱體13為藉由供給至發熱體13的電源輸出而發熱的電阻發熱體。再者,發熱體13為藉由具有螺旋形狀的金屬線所形成,且具有沿著預定方向A延伸之形狀的線圈。又,發熱體13的內側,係形成作為從煙嘴端(第1圖所示的出氣口130O)所吸入的空氣之流路的空氣流路之至少一部分。發熱體13之內側較佳是中空。 The heating element 13 is an example of an atomizing portion that atomizes a mist source held by the liquid holding member 12. In the embodiment, the heating element 13 is a resistance heating element that generates heat by the output of the power supplied to the heating element 13. The heating element 13 is a coil formed by a metal wire having a spiral shape and having a shape extending along a predetermined direction A. In addition, at least a part of the air flow path is formed inside the heat generating body 13 as a flow path of the air sucked in from the mouthpiece end (the air outlet 130O shown in FIG. 1). The inside of the heating element 13 is preferably hollow.

在此,發熱體13係具有加熱部分13A、第一端部分13B1及第二端部分13B2。發熱體13中,在金屬線上隔著間隔,設置有與電源之第一極電性連接的第一接點;以及與電源之第二極側電性連接的第二接點。在實施形態中,第一接點係藉由第一端部分13B1及筒狀構件141構成。同樣地,第二接點係藉由第二端部分13B2及筒狀構件142構成。 Here, the heating element 13 includes a heating portion 13A, a first end portion 13B 1, and a second end portion 13B 2 . The heating element 13 is provided with a first contact electrically connected to the first pole of the power source and a second contact electrically connected to the second pole side of the power source at intervals on the metal wire. In the embodiment, the first contact is constituted by the first end portion 13B 1 and the cylindrical member 14 1 . Similarly, the second contact is constituted by the second end portion 13B 2 and the cylindrical member 14 2 .

加熱部分13A係藉由在金屬線上配置成彼此最近的第一接點與第二接點之間的金屬線所構成。第一端部分13B1係藉由在金屬線上加熱部分13A之一方的外側的金屬線(在實施形態中,為空氣流路中之下游側的金屬線)所構成。第二端部分13B2係藉由在金屬線上加熱部分13A 之另一方的外側的金屬線(在實施形態中,為空氣流路中之上游側的金屬線)所構成。形成加熱部分13A、第一端部分13B1及第二端部分13B2的金屬線之節距為相同。另外,所謂「節距」,係指在預定方向A彼此鄰接的金屬線之間隔,應予留意。所謂金屬線之節距為相同,並非指金屬線之節距嚴密地相同,而是指金屬線之節距實質相同。所謂實質相同係指形成加熱部分13A、第一端部分13B1及第二端部分13B2的金屬線之節距未刻意設定差異,並且容許因製造誤差等所引起的程度之差異。 The heating portion 13A is constituted by a metal wire arranged between the first and second contacts closest to each other on the metal wire. The first end portion 13B 1 is formed by heating a metal wire on the outer side of one of the metal wire portions 13A (in the embodiment, the metal wire on the downstream side in the air flow path). The second end portion 13B 2 is formed by heating a metal wire on the other side of the metal wire 13A (in the embodiment, the metal wire on the upstream side in the air flow path). The pitches of the metal wires forming the heating portion 13A, the first end portion 13B 1 and the second end portion 13B 2 are the same. In addition, the "pitch" refers to the interval between metal wires adjacent to each other in a predetermined direction A, and it should be noted. The so-called pitches of the metal wires do not mean that the pitches of the metal wires are exactly the same, but that the pitches of the metal wires are substantially the same. The term “substantially the same” means that the pitches of the metal wires forming the heating portion 13A, the first end portion 13B 1 and the second end portion 13B 2 are not intentionally set to be different, and a difference in the degree due to manufacturing errors or the like is allowed.

筒狀構件14係具有筒狀形狀,包含筒狀構件141及筒狀構件142。筒狀構件141及筒狀構件142係具有形成從進氣口112A連通至出氣口130O(煙嘴端)的空氣流路之至少一部分的筒狀之形狀。亦即,筒狀構件141係構成第一筒狀構件,筒狀構件142係構成在預定方向A與筒狀構件141隔著間隔而設置的第二筒狀構件。筒狀構件141及筒狀構件142係分別在筒狀構件141及筒狀構件142之外側側面不具有開口,而是具有完全閉合的筒狀之形狀為較佳。在實施形態中,筒狀構件141之內徑係與筒狀構件142之內徑相同。 The cylindrical member 14 has a cylindrical shape, and includes a cylindrical member 14 1 and a cylindrical member 14 2 . The cylindrical member 141 and cylindrical member 142 formed in a cylindrical system having at least a portion of the shape of the communication from the intake port to the outlet port 112A 130O (mouth end) of the air flow path. That is, the cylindrical member 14 1 constitutes a first cylindrical member, and the cylindrical member 14 2 constitutes a second cylindrical member provided at a predetermined interval A from the cylindrical member 14 1 . The cylindrical member 141 and cylindrical member 142, respectively, based on 141 does not have an opening and an outer side surface of the cylindrical member 142 of the cylindrical member, but has a fully closed tubular shape is the preferred. In the embodiment, the same inner diameter as the inner diameter of the cylindrical member and the line 141 of the cylindrical member 142.

筒狀構件14係具有將藉由發熱體13所霧化後的霧氣引入至空氣流路的霧氣取入口。在實施形態中,筒狀構件14係包含筒狀構件141及筒狀構件142,霧氣取入口為筒狀構件141與筒狀構件142之間的間隔。上述的加熱部分13A係以與霧氣取入口相鄰的方式配置及於預定方 向A的霧氣取入口之全長。上述的液體保持構件12係以與霧氣取入口相鄰的方式配置及於預定方向A的霧氣取入口之全長。依據如此的構成,可有效率地使用構成發熱體13(線圈)的金屬線之端部以外的品質優異的部分作為加熱部分13A,將藉由液體保持構件12所保持的霧氣源霧化。另外,所謂「相鄰」,可指加熱部分13A(或液體保持構件12)露出於霧氣取入口的配置關係,亦可指在加熱部分13A(或液體保持構件12)與霧氣取入口之間存在間隙的配置關係,又可指加熱部分13A(或液體保持構件12)之一部分進入霧氣取入口的配置關係。另外,即便是加熱部分13A(或液體保持構件12)與霧氣取入口相鄰的態樣,加熱部分13A與液體保持構件12之內側側面的配置關係,仍是滿足上述的接觸或接近的關係,應予留意。 The cylindrical member 14 has a mist inlet for introducing the mist atomized by the heating element 13 into the air flow path. In the embodiment, the cylindrical member 14 includes a cylindrical member 14 1 and a cylindrical member 14 2 , and the mist inlet and outlet is a space between the cylindrical member 14 1 and the cylindrical member 14 2 . The heating portion 13A described above is arranged adjacent to the mist inlet and the entire length of the mist inlet in the predetermined direction A. The above-mentioned liquid holding member 12 is arranged adjacent to the mist inlet and the entire length of the mist inlet in the predetermined direction A. With such a configuration, it is possible to efficiently use, as the heating portion 13A, a portion having excellent quality other than the end portion of the metal wire constituting the heating element 13 (coil) to atomize the mist source held by the liquid holding member 12. In addition, the "adjacent" may refer to the arrangement relationship where the heating portion 13A (or the liquid holding member 12) is exposed to the mist inlet, and it may also refer to the existence between the heating portion 13A (or the liquid holding member 12) and the mist inlet. The arrangement relationship of the gap can also refer to the arrangement relationship of a part of the heating portion 13A (or the liquid holding member 12) entering the mist inlet. In addition, even if the heating portion 13A (or the liquid holding member 12) is adjacent to the mist inlet, the arrangement relationship between the heating portion 13A and the inner side surface of the liquid holding member 12 still satisfies the above-mentioned contact or close relationship. Pay attention.

筒狀構件14之一部分或是全部係藉由電阻係數比構成加熱部分13A的金屬線更低的導電性構件所構成,藉由與發熱體13接觸來構成第一接點及第二接點。筒狀構件14例如是藉由鋁或不鏽鋼(SUS)所構成。在實施形態中,筒狀構件141係構成在第一接點與第一端部分13B1接觸的第一導電構件,筒狀構件142係構成在第二接點與第二端部分13B2接觸的第二導電構件。上述的加熱部分13A係在筒狀構件141及筒狀構件142之間從筒狀構件14露出。 Part or all of the cylindrical member 14 is constituted by a conductive member having a lower resistivity than the metal wire constituting the heating portion 13A, and the first contact point and the second contact point are formed by contact with the heating element 13. The cylindrical member 14 is made of, for example, aluminum or stainless steel (SUS). In the embodiment, the cylindrical member 14 1 is configured as a first conductive member in contact with the first end portion 13B 1 at the first contact, and the cylindrical member 14 2 is configured as the second contact and the second end portion 13B 2. The second conductive member in contact. The heating portion 13A is exposed from the cylindrical member 14 between the cylindrical member 14 1 and the cylindrical member 14 2 .

在實施形態中,筒狀構件141係在正交方向B配置於液體保持構件12與第一端部分13B1之間。同樣地, 筒狀構件142係在正交方向B配置於液體保持構件12與第二端部分13B2之間。 In the embodiment, the cylindrical member 14 1 is disposed between the liquid holding member 12 and the first end portion 13B 1 in the orthogonal direction B. Similarly, the cylindrical member 14 2 is disposed between the liquid holding member 12 and the second end portion 13B 2 in the orthogonal direction B.

在實施形態中,如第3圖(B)所示,筒狀構件14係構成阻障構件,該阻障構件係具有在正交方向B位於發熱體13之外側側面與液體保持構件12之內側側面之間的外側側面。筒狀構件14之外側側面以設置於與液體保持構件12之內側側面的一部分對向的位置為較佳。再者,筒狀構件14之外側側面以設置於與被覆構件15之內側側面的一部分對向的位置為較佳。但是,筒狀構件14之外側側面亦可設置於未與被覆構件15之內側側面對向的位置。筒狀構件14較佳是具有以下的功能:抑制由被覆構件15所被覆的液體保持構件12之朝向內側方向的應力而造成的發熱體13之變形。亦即,筒狀構件14較佳是具有能承受被覆構件15在正交方向B將筒狀構件14之外側側面朝內側方向按壓的應力的強度:。從而,筒狀構件14較佳是藉由具有預定強度的導電構件(例如,不鏽鋼(SUS))所構成。在實施形態中,因構成空氣流路的筒狀構件14具有預定強度,且筒狀構件14之外側側面係設置於與被覆構件15之內側側面的一部分對向的位置,故而能抑制起因於被覆構件15之應力而造成的發熱體13之變形及空氣流路之變形。 In the embodiment, as shown in FIG. 3 (B), the cylindrical member 14 constitutes a barrier member having a side surface located on the outer side of the heating element 13 and the inner side of the liquid holding member 12 in the orthogonal direction B. Outside sides between sides. The outer side surface of the cylindrical member 14 is preferably provided at a position facing a part of the inner side surface of the liquid holding member 12. The outer side surface of the cylindrical member 14 is preferably provided at a position facing a part of the inner side surface of the covering member 15. However, the outer surface of the cylindrical member 14 may be provided at a position that does not face the inner surface of the covering member 15. The cylindrical member 14 preferably has a function of suppressing deformation of the heating element 13 caused by the stress in the inner direction of the liquid holding member 12 covered by the covering member 15. That is, the cylindrical member 14 preferably has a strength capable of withstanding the stress that the covering member 15 presses the outer side surface of the cylindrical member 14 toward the inside in the orthogonal direction B:. Therefore, the cylindrical member 14 is preferably constituted by a conductive member (for example, stainless steel (SUS)) having a predetermined strength. In the embodiment, since the cylindrical member 14 constituting the air flow path has a predetermined strength, and the outer side surface of the cylindrical member 14 is provided at a position facing a part of the inner side surface of the covering member 15, it is possible to suppress the cause from the coating. The deformation of the heating element 13 caused by the stress of the member 15 and the deformation of the air flow path.

被覆構件15係限制霧氣源對液體保持構件12的供給量。如第3圖(A)及第3圖(B)所示,被覆構件15係具有沿著預定方向A延伸的圓筒形狀。被覆構件15係藉由液體不可透過的構件所構成。被覆構件15亦可為液體 不可透過的塗層。被覆構件15較佳是藉由具有熱傳導率比霧氣源或液體保持構件12之熱傳導率較低的構件所構成。依據如此的構成,發熱體13的熱就不易傳播至蓄存於貯存器11的霧氣源。被覆構件15較佳是藉由將液體保持構件12朝內側方向按壓的構件、例如具有彈性的構件所構成。就構成被覆構件15的構件而言,例如可使用矽樹脂或聚烯烴樹脂。 The covering member 15 restricts the supply amount of the mist source to the liquid holding member 12. As shown in FIGS. 3 (A) and 3 (B), the covering member 15 has a cylindrical shape extending in a predetermined direction A. The covering member 15 is constituted by a liquid-impermeable member. The covering member 15 may be liquid Impervious coating. The covering member 15 is preferably constituted by a member having a lower thermal conductivity than that of the mist source or the liquid holding member 12. With such a configuration, the heat of the heating element 13 is not easily transmitted to the mist source stored in the reservoir 11. The covering member 15 is preferably constituted by a member that presses the liquid holding member 12 in the inner direction, for example, a member having elasticity. As the member constituting the covering member 15, for example, a silicone resin or a polyolefin resin can be used.

在實施形態中,如第2圖所示,被覆構件15,係在液體保持構件12之內側側面與發熱體13(加熱部分13A)接觸或接近的範圍,被覆液體保持構件12之外側側面及於沿著預定方向A的液體保持構件12之外側側面之全長。 In the embodiment, as shown in FIG. 2, the covering member 15 is in a range where the inner side surface of the liquid holding member 12 is in contact with or close to the heating element 13 (heating portion 13A), and the outer side surface of the covering liquid holding member 12 is The entire length of the outer side surface of the liquid holding member 12 along the predetermined direction A.

在實施形態中,如第3圖(A)所示,被覆構件15係在液體保持構件12之內側側面與發熱體13(加熱部分13A)接觸或接近的範圍,被覆液體保持構件12之外側側面及於以預定方向A為軸的圓周方向的液體保持構件12之外側側面的全周。 In the embodiment, as shown in FIG. 3 (A), the covering member 15 is in a range where the inner side surface of the liquid holding member 12 contacts or approaches the heating element 13 (heating portion 13A), and the outer side surface of the liquid holding member 12 is covered. The entire circumference of the outer side surface of the liquid holding member 12 in the circumferential direction with the predetermined direction A as an axis.

在如此的事例中,被覆構件15較佳是均等地被覆液體保持構件12之外側側面。例如,被覆構件15亦可不具有開口而被覆液體保持構件12之外側側面。或是,被覆構件15亦可在預定方向(液體保持構件12之延設方向)或/及以預定方向為軸的圓周方向具有各開口等間隔配置之10個以上的開口。或是,被覆構件15亦可如上述般地具有等間隔所配置的複數個開口,且藉由被覆構件15所被 覆的液體保持構件12之外側側面之面積的被覆面積為液體保持構件12之外側側面的面積之60%以上。或是,被覆構件15亦可如上述般地具有等間隔配置之10個以上的開口,且上述被覆面積為液體保持構件12之外側側面的面積之60%以上。被覆構件15均等地被覆液體保持構件12之外側側面的範圍,可僅為液體保持構件12之內側側面與發熱體13(加熱部分13A)接觸或接近的範圍,亦可為被覆構件15之內側側面及液體保持構件12之外側側面接觸的範圍之整體。 In such a case, the covering member 15 preferably covers the outer side surface of the liquid holding member 12 evenly. For example, the covering member 15 may cover the outer side surface of the liquid holding member 12 without an opening. Alternatively, the covering member 15 may have ten or more openings arranged at equal intervals in a predetermined direction (the extending direction of the liquid holding member 12) or / and a circumferential direction with the predetermined direction as an axis. Alternatively, the covering member 15 may have a plurality of openings arranged at equal intervals as described above, and the covering member 15 may be covered by the covering member 15. The covering area of the area of the outer side surface of the covered liquid holding member 12 is 60% or more of the area of the outer side surface of the liquid holding member 12. Alternatively, the covering member 15 may have 10 or more openings arranged at equal intervals as described above, and the covering area is 60% or more of the area on the outer side surface of the liquid holding member 12. The range in which the covering member 15 uniformly covers the outer side surface of the liquid holding member 12 may be only a range where the inner side surface of the liquid holding member 12 contacts or approaches the heating element 13 (heating portion 13A), or the inner side surface of the covering member 15 The entire area in contact with the outer side surface of the liquid holding member 12.

另外,如第2圖及第3圖(B)所示,即便是在液體保持構件12之內側側面與發熱體13(加熱部分13A)未接觸或接近的範圍,被覆構件15仍可被覆液體保持構件12之外側側面。 In addition, as shown in FIG. 2 and FIG. 3 (B), the covering member 15 can be covered with a liquid even if the inner side surface of the liquid holding member 12 is not in contact with or close to the heating element 13 (heating portion 13A). The outer side of the member 12.

例如,在發熱體13(加熱部分13A、第一端部分13B1及第二端部分13B2)之整體的外側設置有液體保持構件12的情況下,被覆構件15可在被覆構件15之內側側面及液體保持構件12之外側側面接觸的範圍,被覆液體保持構件12之外側側面及於沿著預定方向A的液體保持構件12之外側側面之全長,亦可被覆液體保持構件12之外側側面及於以預定方向A為軸之圓周方向的液體保持構件12之外側側面的全周。 For example, when the liquid holding member 12 is provided on the entire outer side of the heating element 13 (the heating portion 13A, the first end portion 13B 1, and the second end portion 13B 2 ), the covering member 15 may be on the inner side surface of the covering member 15. The area in contact with the outer side surface of the liquid holding member 12 covers the entire length of the outer side surface of the liquid holding member 12 and the outer side surface of the liquid holding member 12 along the predetermined direction A. The outer side surface of the liquid holding member 12 and the The entire periphery of the outer side surface of the liquid holding member 12 in the circumferential direction with the predetermined direction A as its axis.

在實施形態中,被覆構件15較佳是在正交方向B將液體保持構件12之外側側面朝內側方向按壓,藉此,以發熱體13不會變形之程度的應力使液體保持構件 12之內側側面接觸或接近發熱體13。又,在正交方向B,藉由被覆構件15所被覆之狀態的液體保持構件12之厚度,較佳是比未藉由被覆構件15所被覆之狀態的液體保持構件12之厚度更小。 In the embodiment, it is preferable that the covering member 15 presses the outer side surface of the liquid holding member 12 toward the inside direction in the orthogonal direction B, thereby making the liquid holding member with a stress to the extent that the heating element 13 does not deform. The inner side surface of 12 contacts or approaches the heating element 13. In the orthogonal direction B, the thickness of the liquid holding member 12 in a state covered by the covering member 15 is preferably smaller than the thickness of the liquid holding member 12 in a state not covered by the covering member 15.

另外,從施加發熱體13不會變形之程度的應力的觀點來看,被覆構件15較佳是即便在液體保持構件12之內側側面與發熱體13(加熱部分13A)並未接觸或接近的範圍,仍被覆液體保持構件12之外側側面,且在設置有第一端部分13B1的範圍,在被覆構件15之內側設置有筒狀構件141,而在第二端部分13B2的範圍,在被覆構件15之內側設置有筒狀構件142In addition, from the viewpoint of applying a stress to such an extent that the heating element 13 does not deform, the covering member 15 is preferably a range that does not contact or approach the heating element 13 (heating portion 13A) even on the inner side surface of the liquid holding member 12. The outer side surface of the liquid holding member 12 is still covered, and the first end portion 13B 1 is provided in the range, the cylindrical member 14 1 is provided inside the cover member 15, and the second end portion 13B 2 is provided in the range of A cylindrical member 14 2 is provided inside the covering member 15.

帽蓋16為遮蓋用以將霧氣源供給至貯存器11的供給口之構件。在實施形態中,供給口係設置於空氣流路之下游側的貯存器11之端(以下,稱為下游端)。換言之,供給口係以貯存器11為基準而設置於對電源進行連接的連接部分111C之相反側(即煙嘴側開口111O側)。供給口係朝向藉由發熱體13所霧化的霧氣朝向煙嘴側開口111O之方向的預定方向(第2圖中,為預定方向A的下游側)開口,帽蓋16係以從煙嘴側開口111O側遮蓋供給口的方式配置。在藉由發熱體13所霧化的霧氣朝向煙嘴側開口111O之方向的預定方向(第2圖中,為預定方向A的下游側),連接部分111C、貯存器11、帽蓋16及煙嘴側開口111O係配置於一直線上。帽蓋16較佳是固定於吸嘗器外殼110X或/及筒狀構件141。藉由帽蓋16從貯存器11分離 的移動(在此,為朝向下游的移動),使發熱體13或是電力供給構件之至少一方破損。 The cap 16 is a member covering a supply port for supplying a mist source to the reservoir 11. In the embodiment, the supply port is provided at an end (hereinafter, referred to as a downstream end) of the reservoir 11 on the downstream side of the air flow path. In other words, the supply port is provided on the opposite side (ie, the cigarette holder side opening 111O side) of the connection portion 111C that connects the power source with the reservoir 11 as a reference. The supply port is opened in a predetermined direction (the downstream side of the predetermined direction A in the second direction in FIG. 2) of the mist atomized by the heating element 13 toward the mouthpiece side opening 111O, and the cap 16 is opened from the mouthpiece side 111O The side cover is configured to cover the supply port. The connecting portion 111C, the reservoir 11, the cap 16, and the cigarette holder side are in a predetermined direction (the downstream side of the predetermined direction A in the second figure) toward the mouthpiece side opening 111O by the mist atomized by the heating element 13. The opening 111O is arranged on a straight line. The cap 16 is preferably fixed to the sampler housing 110X or / and the cylindrical member 14 1 . At least one of the heat generating body 13 or the power supply member is damaged by the movement of the cap 16 separated from the reservoir 11 (here, the movement toward the downstream).

在此,電力供給構件係只要是電性連接發熱體13和電源的構件即可。電力供給構件例如是筒狀構件14、凸緣17、筒狀構件14或凸緣17和電源連接的導線(第2圖中未圖示)等。雖然導線的配線並未特別限定,但是例如導線亦可通過霧化單元外殼111X內部而連接於電源。 Here, the power supply member may be any member that electrically connects the heating element 13 and a power source. The power supply member is, for example, the cylindrical member 14, the flange 17, the cylindrical member 14, or a lead wire (not shown in the second figure) connected to the power source, and the like. Although the wiring of the lead is not particularly limited, for example, the lead may be connected to the power source through the interior of the atomizing unit case 111X.

凸緣17係藉由導電性構件所構成,例如,可供上述的導線連接。例如,凸緣17係具有:凸緣171,可供從電源之第一極延伸的導線連接;以及凸緣172,可供從電源之第二極延伸的導線連接。凸緣171係固定於筒狀構件141,凸緣172係固定於筒狀構件142。凸緣171亦可固定於帽蓋16。如上所述般,凸緣17及連接於凸緣17的導線係電力供給構件之一例。電力供給構件係包含:第一電力供給部分(例如,凸緣172及連接於凸緣172的導線),包含從發熱體13朝向對電源進行連接之連接部分111C側延伸的部分;以及第二電力供給部分(例如,凸緣171及連接於凸緣171的導線),包含從發熱體13朝向連接部分111C之相反側(即煙嘴側開口111O側)延伸的部分。在如此的事例中,藉由帽蓋16從貯存器11分離的移動(在此,為往下游的移動),例如,使第二電力供給部分(例如,凸緣171及連接於凸緣171的導線)破損。 The flange 17 is made of a conductive member, and can be connected to the above-mentioned wire, for example. For example, the flange 17 has: a flange 17 1 for connecting wires extending from the first pole of the power source; and a flange 17 2 for connecting wires extending from the second pole of the power source. The flange 17 1 is fixed to the cylindrical member 14 1 , and the flange 17 2 is fixed to the cylindrical member 14 2 . The flange 17 1 may be fixed to the cap 16. As described above, the flange 17 and the lead-based power supply member connected to the flange 17 are examples. The power supply member includes a first power supply portion (for example, the flange 17 2 and a lead connected to the flange 17 2 ), and includes a portion extending from the heating element 13 toward the connection portion 111C side that connects the power source; and two power supply section (e.g., the flange 171 and the flange 17 is connected to the wire 1), comprising a connecting portion extending from the opposite side (i.e., side opening 111O mouthpiece side) of the heat generating element 13 toward the portion 111C. In such a case, the second power supply portion (for example, the flange 17 1 and the connection to the flange 17) is moved (for example, downstream movement) by the cap 16 from being separated from the reservoir 11 (for example, this is a movement downstream). 1 lead) is broken.

在此,所謂「破損」,係指各構件所具有的功能降低的現象。在實施形態中,「破損」係包含:發熱體 13之變形、筒狀構件14與發熱體13之接觸不良、凸緣171之脫落、導線從凸緣171之剝離、導線之斷線等的概念,應予留意。 Here, the term "broken" refers to a phenomenon in which the function of each member is reduced. In the embodiment, "breakage" system comprising: a heat generating element 13 of the modification, the cylindrical member 14 poor contact with the heat generating body 13, the flange 171 off of the wire 171 is peeled off from the flange, the breakage of wire, etc. The concept should be noted.

在實施形態中,電力供給構件係在以帽蓋16從貯存器11分離的方向作為分離方向的情況下,設置於帽蓋16之至少一部分的分離方向側。電力供給構件亦可通過帽蓋16的內部而配置。電力供給構件亦可固定於帽蓋16。 In the embodiment, the power supply member is provided on the separation direction side of at least a part of the cap 16 when the direction in which the cap 16 is separated from the reservoir 11 is taken as the separation direction. The power supply member may be arranged through the inside of the cap 16. The power supply member may be fixed to the cap 16.

例如,因帽蓋16固定於筒狀構件141,故伴隨帽蓋16之分離,會發生發熱體13之變形、筒狀構件14與發熱體13之接觸不良等。或是,因凸緣171設置於帽蓋16之下游端面,故伴隨帽蓋16之分離,會發生凸緣17之脫落、導線從凸緣17之剝離、導線之斷線等。或是,在凸緣171固定於筒狀構件141及帽蓋16的情況下,伴隨帽蓋16之分離,會發生發熱體13之變形、筒狀構件14與發熱體13之接觸不良等。 For example, since the cap 16 is fixed to the cylindrical member 14 1 , deformation of the heating element 13 and poor contact between the cylindrical member 14 and the heating element 13 occur with the separation of the cap 16. Or, because the flange 171 is provided on the downstream face 16 of the cap, so that the cover 16 separated along the cap, the flange 17 off occurs, the peeling from the flange 17 of the wire, the wire breakage and the like. Or, when the flange 17 1 is fixed to the cylindrical member 14 1 and the cap 16, the heating element 13 is deformed with the separation of the cap 16, and the contact between the cylindrical member 14 and the heating element 13 is poor. .

在實施形態中,發熱體13係比筒狀構件14、凸緣17及導線等的電力供給構件更容易破損。導線係比筒狀構件14及凸緣17更容易破損。 In the embodiment, the heating element 13 is more easily broken than the power supply member such as the cylindrical member 14, the flange 17, and the lead wire. The lead wire is more easily broken than the cylindrical member 14 and the flange 17.

霧氣源為甘油或丙二醇等的液體。霧氣源例如以上述方式,由樹脂網等之材料所構成的孔質體所保持。孔質體可藉由非香煙材料所構成,亦可藉由香煙材料所構成。另外,霧氣源亦可包含吸煙香氣風味成分(尼古丁成分等)。或是,霧氣源亦可不包含吸煙香氣風味成分。 The mist source is a liquid such as glycerin or propylene glycol. The mist source is held, for example, by a porous body made of a material such as a resin net in the manner described above. The pores can be made of non-cigarette materials, or they can be made of cigarette materials. In addition, the mist source may contain smoking aroma flavor components (such as nicotine components). Alternatively, the mist source may not include smoking aroma flavor components.

電裝單元112係具有:構成吸嘗器外殼110X 之一部分的電裝單元外殼112X。在實施形態中,電裝單元112係具有進氣口112A。如第2圖所示,從進氣口112A流入的空氣係導引至霧化單元111(發熱體13)。電裝單元112係具有驅動香味吸嘗器100的電源;以及控制香味吸嘗器100的控制電路。電源、控制電路等係收容於電裝單元外殼112X。電裝單元外殼112X係具有沿著預定方向A延伸的筒狀形狀(例如,圓筒形狀)。電源例如是鋰離子電池。控制電路例如是藉由CPU及記憶體所構成。 The Denso unit 112 is provided with a casing 110X Part of the electrical unit housing 112X. In the embodiment, the electric component unit 112 has an air inlet 112A. As shown in FIG. 2, the air flowing from the air inlet 112A is guided to the atomizing unit 111 (the heating element 13). The electric unit 112 includes a power source for driving the flavor taster 100 and a control circuit for controlling the flavor taster 100. The power supply, control circuit, and the like are housed in the electrical unit housing 112X. The electrical equipment unit case 112X has a cylindrical shape (for example, a cylindrical shape) extending along a predetermined direction A. The power source is, for example, a lithium-ion battery. The control circuit is constituted by a CPU and a memory, for example.

匣體130係構成能夠連接於構成香味吸嘗器100的吸嘗器本體110。匣體130係在從進氣口112A連通至出氣口130O(煙嘴端)的空氣流路上比霧化單元111更設置於下游。換言之,匣體130在物理空間中並不一定必須設置於比霧化單元111更靠近煙嘴端側,只要在將從霧化單元111產生的霧氣導引至煙嘴端側的空氣流路上,比霧化單元111更設置於下游即可。 The case body 130 is configured to be connected to the sipper body 110 constituting the scented taster 100. The box body 130 is provided on the air flow path communicating from the air inlet 112A to the air outlet 130O (end of the cigarette holder) more downstream than the atomizing unit 111. In other words, the box 130 does not necessarily need to be located closer to the cigarette holder end side than the atomizing unit 111 in the physical space, as long as it is on the air flow path that guides the mist generated from the atomizing unit 111 to the cigarette holder end side, The conversion unit 111 may be further disposed downstream.

例如,匣體130係具有匣體外殼131、香味源132、網格133A及濾嘴133B。 For example, the box body 130 includes a box case 131, a fragrance source 132, a grid 133A, and a filter 133B.

匣體外殼131係具有沿著預定方向A延伸的筒狀形狀(例如,圓筒形狀)。匣體外殼131係收容香味源132。在此,匣體外殼131係以能沿著預定方向A***吸嘗器外殼110X的方式而構成。 The case housing 131 has a cylindrical shape (for example, a cylindrical shape) extending along a predetermined direction A. The box case 131 is configured to receive a fragrance source 132. Here, the box case 131 is configured so that the sampler case 110X can be inserted in the predetermined direction A.

香味源132係在空氣流路上比霧化單元111更設置於下游。香味源132係對從霧氣源產生的霧氣賦予吸煙香氣風味成分。換言之,藉由香味源132賦予霧氣的 香味係被運送至煙嘴端。 The fragrance source 132 is located on the air flow path more downstream than the atomizing unit 111. The flavor source 132 imparts a smoking aroma flavor component to the mist generated from the mist source. In other words, the mist The fragrance is delivered to the end of the cigarette holder.

在實施形態中,香味源132係藉由對霧化單元111產生的霧氣賦予吸煙香氣風味成分的原料片所構成。原料片之尺寸,以0.2mm以上、1.2mm以上為佳。又,原料片之尺寸,以0.2mm以上、0.7mm以下為較佳。因構成香味源132的原料片之尺寸越小,比表面積就越大,故而吸煙香氣風味成分較容易從構成香味源132的原料片釋放。從而,在將期望量之吸煙香氣風味成分賦予霧氣源時,就可抑制原料片的量。就構成香味源132的原料片而言,可使用將煙絲、香煙原料成形為顆粒狀的成形體。但是,香味源132亦可為將香煙原料成形為薄片狀的成形體者。又,構成香味源132的原料片亦可藉由煙草以外的植物(例如,薄荷、草藥等)所構成。在香味源132中亦可賦予薄荷腦等的香料。 In the embodiment, the flavor source 132 is constituted by a raw material sheet that imparts a smoking aroma flavor component to the mist generated by the atomizing unit 111. The size of the raw material sheet is preferably 0.2 mm or more and 1.2 mm or more. The size of the raw material sheet is preferably 0.2 mm or more and 0.7 mm or less. Since the smaller the size of the raw material pieces constituting the flavor source 132, the larger the specific surface area, so that the smoking aroma flavor components are more easily released from the raw material pieces constituting the flavor source 132. Therefore, when a desired amount of the smoking aroma flavor component is given to the mist source, the amount of the raw material sheet can be suppressed. As the raw material sheet constituting the flavor source 132, a molded article obtained by shaping tobacco shreds and cigarette raw materials into a pellet shape can be used. However, the flavor source 132 may be a body formed from a cigarette material into a thin sheet. The raw material sheet constituting the flavor source 132 may be composed of plants other than tobacco (for example, mint, herbs, etc.). A flavor such as menthol may be added to the flavor source 132.

在此,構成香味源132的原料片,例如是使用符合JIS(日本工業規格)Z 8801標準的不鏽鋼篩,藉由符合JIS Z 8815標準的篩選所獲得。例如,使用具有0.71mm之篩孔的不鏽鋼篩,藉由乾燥式及機械式振動法,篩選原料片20分鐘,藉此獲得通過具有0.71mm之篩孔的不鏽鋼篩之原料片。接著,使用具有0.212mm之篩孔的不鏽鋼篩,藉由乾燥式及機械式振動法,篩選原料片20分鐘,藉此除掉通過具有0.212mm之篩孔的不鏽鋼篩之原料片。亦即,構成香味源132的原料片為通過規定上限之不鏽鋼篩(篩孔=0.71mm),而未通過規定下限之不鏽鋼篩(篩 孔=0.212mm)的原料片。從而,在實施形態中,構成香味源132的原料片之尺寸的下限,係藉由規定下限的不鏽鋼篩之篩孔所定義。另外,構成香味源132的原料片之尺寸的上限,係藉由規定上限的不鏽鋼篩之篩孔所定義。 Here, the raw material pieces constituting the flavor source 132 are obtained, for example, by using a stainless steel sieve that conforms to the JIS (Japanese Industrial Standards) Z 8801 standard and a screening that conforms to the JIS Z 8815 standard. For example, using a stainless steel sieve having a sieve hole of 0.71 mm, the raw material pieces are sieved for 20 minutes by a dry and mechanical vibration method, thereby obtaining a raw material piece that passes through a stainless steel sieve having a sieve hole of 0.71 mm. Next, using a stainless steel sieve having a sieve hole of 0.212 mm, the raw material pieces were sieved for 20 minutes by a dry type and a mechanical vibration method, thereby removing the raw material pieces that passed through the stainless steel sieve having a sieve hole of 0.212 mm. That is, the raw material pieces constituting the flavor source 132 are a stainless steel sieve (sieve opening = 0.71 mm) that passes a prescribed upper limit, and a stainless steel sieve (sieve that does not pass a prescribed lower limit) Hole = 0.212 mm). Therefore, in the embodiment, the lower limit of the size of the raw material pieces constituting the flavor source 132 is defined by the sieve opening of the stainless steel sieve having a predetermined lower limit. The upper limit of the size of the raw material pieces constituting the flavor source 132 is defined by the sieve openings of the stainless steel sieve with a predetermined upper limit.

在實施形態中,香味源132為具有鹼性之pH的香煙源。香煙源之pH以大於7為佳,以8以上為較佳。藉此,可藉由霧氣有效地取出香煙源產生的吸煙香氣風味成分。藉此,在對霧氣賦予期望量之吸煙香氣風味成分時,可抑制香煙源之量。另一方面,香煙源之pH,以14以下為佳,以10以下為較佳。藉此,可抑制對香味吸嘗器100(例如匣體130或吸嘗器本體110)的損傷(腐蝕等)。 In the embodiment, the flavor source 132 is a cigarette source having an alkaline pH. The pH of the cigarette source is preferably greater than 7, and more preferably 8 or more. Thereby, the smoking aroma flavor components generated from the cigarette source can be effectively taken out by the mist. Thereby, when a desired amount of smoking aroma flavor components are given to the mist, the amount of the cigarette source can be suppressed. On the other hand, the pH of the cigarette source is preferably 14 or less, and more preferably 10 or less. Thereby, damage (corrosion, etc.) to the flavor taster 100 (for example, the case 130 or the taster body 110) can be suppressed.

另外,從香味源132產生的吸煙香氣風味成分係能藉由霧氣來運送,而沒有必要加熱香味源132本身,應予留意。 In addition, the smoking aroma flavor components generated from the flavor source 132 can be transported by mist, and it is not necessary to heat the flavor source 132 itself, and it should be noted.

網格133A係在香味源132之上游以遮擋匣體外殼131之開口的方式所設置,濾嘴133B係在香味源132之下游以遮擋匣體外殼131之開口的方式所設置。網格133A係具有使構成香味源132之原料片不會通過的程度之疏密度。網格133A之疏密度,例如是具有0.077mm以上、0.198mm以下之篩孔。濾嘴133B係藉由具有通氣性的物質所構成。濾嘴133B例如以醋酸酯纖維濾嘴為佳。濾嘴133B係具有使構成香味源132之原料不會通過的程度之疏密度。 The grid 133A is provided upstream of the fragrance source 132 so as to cover the opening of the case housing 131, and the filter 133B is provided downstream of the fragrance source 132 so as to cover the opening of the case housing 131. The grid 133A has such a density that the raw material pieces constituting the flavor source 132 cannot pass through. The sparse density of the grid 133A is, for example, a sieve having a diameter of 0.077 mm or more and 0.198 mm or less. The filter 133B is made of a substance having air permeability. The filter 133B is preferably, for example, an acetate fiber filter. The filter 133B has such a density that the raw materials constituting the flavor source 132 cannot pass through.

(非燃燒型香味吸嘗器之使用態樣) (Usage of non-burning flavor inhaler)

以下,針對實施形態的非燃燒型香味吸嘗器之使用態樣加以說明。香味吸嘗器100係當偵測到使用者之吸嘗動作時,開始對發熱體13的電源輸出之供給。伴隨對發熱體13的電源輸出之供給開始,而開始由液體保持構件12所保持的霧氣源之霧化。另一方面,香味吸嘗器100係當未偵測到使用者之吸嘗動作時,停止對發熱體13的電源輸出之供給。伴隨對發熱體13的電源輸出之供給停止,而停止由液體保持構件12所保持的霧氣源之霧化。 Hereinafter, the use aspect of the non-burning type flavor inhaler of an embodiment is demonstrated. When the flavor taster 100 detects a taste action by the user, it starts to supply the power output to the heating element 13. As the supply of the power output to the heating element 13 starts, the atomization of the mist source held by the liquid holding member 12 starts. On the other hand, when the scent taster 100 does not detect the user's tasting action, it stops supplying the power output to the heating element 13. As the supply of power to the heating element 13 is stopped, the atomization of the mist source held by the liquid holding member 12 is stopped.

(霧化單元之製造方法) (Manufacturing method of atomization unit)

以下,針對實施形態的霧化單元之製造方法加以說明。第4圖及第5圖係用以說明實施形態的霧化單元111之製造方法的圖。 Hereinafter, a method for manufacturing the atomizing unit according to the embodiment will be described. 4 and 5 are diagrams for explaining a method of manufacturing the atomizing unit 111 according to the embodiment.

如第4圖(A)所示,以沿著已形成於基底構件300之側面的螺旋形狀之凹槽或突起的方式,配置發熱體13(步驟A),該基底構件300係具有沿著預定方向A延伸的軸X。在實施形態中,基底構件300為包含具有圓柱形狀之部分的治具。 As shown in FIG. 4 (A), the heat generating body 13 is disposed along a spiral groove or protrusion that has been formed on the side surface of the base member 300 (step A), and the base member 300 has The axis X extending in the direction A. In the embodiment, the base member 300 is a jig including a part having a cylindrical shape.

如上所述,發熱體13係藉由金屬線所構成,第4圖(A)所示的步驟係以沿著形成於基底構件300之側面的螺旋形狀之凹槽或突起的方式盤繞非線圈狀之金屬線,而藉此使非線圈狀之金屬線成為線圈狀之金屬線的步驟。 As described above, the heating element 13 is composed of a metal wire, and the step shown in FIG. 4 (A) is coiled in a non-coil shape along a spiral groove or protrusion formed on the side surface of the base member 300. A step of turning a non-coiled metal wire into a coiled metal wire.

其次,如第4圖(B)所示,使固定有凸緣172 的筒狀構件142沿著預定方向A滑動,藉此在發熱體13之外側側面配置筒狀構件142,並且使筒狀構件141沿著預定方向A滑動,藉此在發熱體13之外側側面配置筒狀構件141(步驟E)。在如此的事例中,為了露出發熱體13之加熱部分13A,而將筒狀構件141及筒狀構件142在彼此分離的狀態下配置。 Next, as FIG. 4 (B), the A slide 142 is fixed to a predetermined direction along a flange 17 of the cylindrical member 2, whereby the side surface of the heat generating element 13 disposed outside of the cylindrical member 142, and the A cylindrical member 141 slides along the predetermined direction, whereby the side surface of the heat generating element 13 disposed outside of the cylindrical member 141 (step E). In such a case, in order to expose the heating portion 13A of the heating element 13, the cylindrical member 14 1 and the cylindrical member 14 2 are arranged in a state separated from each other.

其次,如第4圖(C)所示,使構成霧化單元外殼111X之一部分的外殼帽蓋體111X1沿著預定方向A滑動,藉此使外殼帽蓋體111X1與凸緣172接觸。接著,使液體保持構件12沿著預定方向A滑動,藉此以接觸或接近發熱體13之至少一部分(加熱部分13A)的方式配置液體保持構件12(步驟C)。外殼帽蓋體111X1係固定於筒狀構件142及凸緣172Next, as shown in FIG. 4 (C), the casing cap body 111X 1 constituting a part of the atomizing unit casing 111X is slid in a predetermined direction A, thereby bringing the casing cap body 111X 1 into contact with the flange 17 2 . Next, the liquid holding member 12 is slid in a predetermined direction A, thereby disposing the liquid holding member 12 so as to contact or approach at least a part of the heating body 13 (the heating portion 13A) (step C). The housing cap body 111X 1 is fixed to the cylindrical member 14 2 and the flange 17 2 .

另外,以接觸或接近發熱體13之加熱部分13A的方式配置液體保持構件12的步驟,亦可為後述之第4圖(D)所示的藉由被覆構件15之配置,以液體保持構件12接觸或接近發熱體13之加熱部分13A的方式配置液體保持構件12的步驟。再者,配置液體保持構件12的步驟,亦可為液體保持構件12一邊按壓加熱部分13A之外側側面且一邊配置液體保持構件12的步驟。配置液體保持構件12的步驟亦可為以接觸加熱部分13A之外側側面全周的方式,配置液體保持構件12的步驟。另外,配置液體保持構件12的步驟亦可為在基底構件300(治具)之外側側面配置有發熱體13的情況下,在發熱體13之外側配置液體保持 構件12的步驟。 In addition, the step of disposing the liquid holding member 12 so as to contact or approach the heating portion 13A of the heating element 13 may be the arrangement of the covering member 15 with the liquid holding member 12 as shown in FIG. 4 (D) described later. The step of disposing the liquid holding member 12 so as to contact or approach the heating portion 13A of the heating element 13. The step of disposing the liquid holding member 12 may be a step of disposing the liquid holding member 12 while pressing the outer side surface of the heating portion 13A. The step of disposing the liquid holding member 12 may be a step of disposing the liquid holding member 12 so as to contact the entire periphery of the outer side surface of the heating portion 13A. In addition, the step of arranging the liquid holding member 12 may be a case where the heat generating body 13 is disposed on the outer side surface of the base member 300 (fixture), and the liquid holding member 13 Steps of component 12.

其次,如第4圖(D)所示,使被覆構件15沿著預定方向A滑動,藉此在液體保持構件12之外側側面配置被覆構件15。藉由被覆構件15之配置而使發熱體13之加熱部分13A與液體保持構件12良好地接觸或接近。 Next, as shown in FIG. 4 (D), the covering member 15 is slid in the predetermined direction A, whereby the covering member 15 is arranged on the outer side surface of the liquid holding member 12. By the arrangement of the covering member 15, the heating portion 13A of the heating element 13 and the liquid holding member 12 are brought into good contact or approach.

其次,如第5圖(A)所示,將構成霧化單元外殼111X之一部分的外殼筒體111X2固定於外殼帽蓋體111X1。接著,在藉由外殼帽蓋體111X1、外殼筒體111X2及筒狀構件14所構成的空間配置貯存器11。貯存器11之一部分,較佳是亦配置於被覆構件15之外側。貯存器11之配置,亦可在將外殼筒體111X2固定於外殼帽蓋體111X1之前進行。 Next, as shown in FIG. 5 (A), the casing tube 111X 2 constituting a part of the atomizing unit casing 111X is fixed to the casing cap body 111X 1 . Next, the reservoir 11 is arranged in a space constituted by the housing cap body 111X 1 , the housing cylindrical body 111X 2, and the cylindrical member 14. A part of the reservoir 11 is preferably also arranged on the outer side of the covering member 15. The arrangement of the reservoir 11 can also be performed before the casing 111X 2 is fixed to the casing cap 111X 1 .

在此,較佳是在發熱體13之外側側面配置筒狀構件14之後,將發熱體13固定於筒狀構件14。發熱體13及筒狀構件14之固定步驟,係從第4圖(B)所示的步驟之後起進行至第5圖(B)所示的步驟之前即可。發熱體13及筒狀構件14之固定步驟,較佳是在第5圖(A)所示的步驟之前進行,更佳是在第4圖(C)的步驟之前進行。藉此,就能夠在筒狀構件14之外側側面未有多餘的構件之狀態下固定發熱體13及筒狀構件14,容易固定發熱體13及筒狀構件14。 Here, it is preferable to fix the heating element 13 to the cylindrical member 14 after arranging the cylindrical member 14 on the outer side surface of the heating element 13. The steps of fixing the heating element 13 and the cylindrical member 14 may be performed after the step shown in FIG. 4 (B) and before the step shown in FIG. 5 (B). The step of fixing the heating element 13 and the cylindrical member 14 is preferably performed before the step shown in FIG. 5 (A), and more preferably before the step shown in FIG. 4 (C). Thereby, the heating body 13 and the cylindrical member 14 can be fixed in a state where there is no unnecessary member on the outer side surface of the cylindrical member 14, and the heating body 13 and the cylindrical member 14 can be easily fixed.

其次,如第5圖(B)所示,在將霧氣源充填於貯存器11之後,藉由帽蓋16來遮蓋貯存器11的下游端。帽蓋16係固定於外殼筒體111X2。另外,貯存器11之上 游端係藉由外殼帽蓋體111X1所遮蓋,應予留意。接著,在帽蓋16之下游端面配置凸緣171。凸緣171係固定於筒狀構件141Next, as shown in FIG. 5 (B), after the reservoir 11 is filled with the mist source, the downstream end of the reservoir 11 is covered by the cap 16. The cap 16 is fixed to the outer casing 111X 2 . Further, the upstream end of the line by the reservoir housing 11 covered by the cap member 111X 1, attention should be. Next, a flange 17 1 is arranged on the downstream end surface of the cap 16. The flange 17 1 is fixed to the cylindrical member 14 1 .

其次,如第5圖(C)所示,以軸X為旋轉軸而使基底構件300(治具)旋轉,使發熱體13之全部從基底構件300之凹槽或突起分離(步驟B)。在此,筒狀構件14係透過帽蓋16、凸緣17等,而固定於霧化單元外殼111X(外殼帽蓋體111X1及外殼筒體111X2),應予留意。從而,第5圖(C)所示的步驟係在將筒狀構件14固定於霧化單元外殼111X之後或/及將發熱體13固定於筒狀構件14之後進行。在此,藉由第5圖(C)所示的步驟,在發熱體13的內側形成有當作空氣流路來使用的空間,第5圖(C)所示的步驟係藉由與發熱體13之分離,而形成將藉由發熱體13所霧化後的霧氣引入至發熱體13之內側的霧氣取入口(筒狀構件141與筒狀構件142之間的間隔)的步驟。另外,因藉由使發熱體13從基底構件300分離,才使霧氣取入口與發熱體13之內側連通,故第5圖(C)所示的步驟為形成霧氣取入口的步驟,應予留意。 Next, as shown in FIG. 5 (C), the base member 300 (the jig) is rotated with the axis X as a rotation axis, so that all the heating elements 13 are separated from the grooves or protrusions of the base member 300 (step B). Here, the cylindrical member 14 is fixed to the atomizing unit casing 111X (the casing cap body 111X 1 and the casing tube body 111X 2 ) through the cap 16, the flange 17 and the like, and should be paid attention to. Therefore, the step shown in FIG. 5 (C) is performed after the cylindrical member 14 is fixed to the atomizing unit casing 111X or / and the heating element 13 is fixed to the cylindrical member 14. Here, a space used as an air flow path is formed inside the heating element 13 by the steps shown in FIG. 5 (C), and the steps shown in FIG. 5 (C) are performed with the heating element. The separation of 13 forms a step of introducing the mist generated by the heating element 13 into the mist inlet (the interval between the cylindrical member 14 1 and the cylindrical member 14 2 ) inside the heating element 13. In addition, since the heating element 13 is separated from the base member 300, the mist inlet and the inside of the heating element 13 are communicated. Therefore, the step shown in FIG. 5 (C) is a step of forming the mist inlet and should be paid attention .

再者,第5圖(C)所示的步驟係藉由與發熱體13之分離,而在發熱體13之內側形成空氣流路之至少一部分的步驟。具體而言,第5圖(C)所示的步驟,係使發熱體13之全部從基底構件300(治具)分離,藉由與發熱體13之分離而在發熱體13之內側形成空氣流路之至少一部分的步驟。在如此的事例中,較佳是在第5圖(C)所示的步驟 之前,進行配置形成空氣流路之至少一部分的流路形成構件的步驟(步驟G)。流路形成構件係例如亦可考慮上述的筒狀構件14。從而,配置流路形成構件的步驟,亦可考慮第4圖(B)所示的步驟。 The step shown in FIG. 5 (C) is a step of forming at least a part of an air flow path inside the heating element 13 by being separated from the heating element 13. Specifically, in the step shown in FIG. 5 (C), the entire heating element 13 is separated from the base member 300 (fixture), and an air flow is formed inside the heating element 13 by being separated from the heating element 13. Steps at least part of the way. In such a case, the step shown in FIG. 5 (C) is preferred. Previously, a step of disposing a flow path forming member forming at least a part of the air flow path was performed (step G). As the flow path forming member system, for example, the above-mentioned tubular member 14 may be considered. Therefore, the step of arranging the flow path forming member may also be a step shown in FIG. 4 (B).

在實施形態中,從筒狀構件14與發熱體13之電性連接的觀點來看,基底構件300之凹槽的深度或基底構件300之突起的高度,較佳是與形成發熱體13的金屬線之直徑同程度以下。另一方面,從藉由基底構件300而保持發熱體13的觀點來看,基底構件300之凹槽的深度或基底構件300之突起的高度,較佳是形成發熱體13的金屬線之直徑的一半以上。 In the embodiment, from the viewpoint of the electrical connection between the cylindrical member 14 and the heating element 13, the depth of the groove of the base member 300 or the height of the protrusion of the base member 300 is preferably the same as the metal forming the heating element 13. The diameter of the wire is below the same level. On the other hand, from the viewpoint of holding the heat generating body 13 by the base member 300, the depth of the groove of the base member 300 or the height of the protrusion of the base member 300 is preferably the diameter of the metal wire forming the heat generating body 13. more than half.

(作用及功效) (Function and effect)

在實施形態中,正交方向B的液體保持構件12之外側側面的至少一部分係藉由被覆構件15所被覆。藉由如此的構成,可抑制霧氣源過量地供給至液體保持構件12的事態(過量供給)。因過量供給的抑制,能降低漏液的風險。又,因過量供給的抑制,能抑制加熱霧化中的熱損失,且能抑制霧化效率的降低。 In the embodiment, at least a part of the outer side surface of the liquid holding member 12 in the orthogonal direction B is covered by the covering member 15. With this configuration, it is possible to suppress an excessive supply of the mist source to the liquid holding member 12 (excessive supply). The risk of liquid leakage can be reduced due to the suppression of excessive supply. In addition, the suppression of excessive supply can suppress heat loss during heating and atomization, and can suppress a decrease in atomization efficiency.

在此,被覆構件15係藉由液體不可透過的構件所構成。藉此,就能抑制霧氣源的過量供給。被覆構件15較佳是藉由具有比霧氣源或液體保持構件12之熱傳導率更低的熱傳導率的構件所構成。依據如此的構成,能抑制加熱霧化中的熱損失。被覆構件15較佳是藉由將液體保 持構件12朝內側方向按壓的構件所構成。依據如此的構成,可使液體保持構件12良好地接觸或接近發熱體13。 Here, the covering member 15 is constituted by a liquid-impermeable member. Thereby, an excessive supply of a mist source can be suppressed. The covering member 15 is preferably constituted by a member having a lower thermal conductivity than that of the mist source or the liquid holding member 12. With such a configuration, heat loss during heating and atomization can be suppressed. The covering member 15 is preferably formed by The holding member 12 is constituted by a member that is pressed in the inner direction. With such a configuration, the liquid holding member 12 can be brought into good contact with or close to the heating element 13.

在實施形態中,被覆構件15較佳是在液體保持構件12之內側側面與發熱體13(加熱部分13A)接觸或接近的範圍,被覆液體保持構件12之外側側面及於沿著預定方向A的液體保持構件12之外側側面之全長。依據如此的構成,可更進一步抑制上述的過量供給。 In the embodiment, the covering member 15 is preferably in a range where the inner side surface of the liquid holding member 12 is in contact with or close to the heating element 13 (heating portion 13A), and the outer side surface of the liquid holding member 12 is covered along the predetermined direction A. The entire length of the outer side surface of the liquid holding member 12. With such a configuration, the above-mentioned excessive supply can be further suppressed.

在實施形態中,被覆構件15較佳是在液體保持構件12之內側側面與發熱體13(加熱部分13A)接觸或接近的範圍內,被覆液體保持構件12之外側側面及於以預定方向A為軸的圓周方向的液體保持構件12之外側側面的全周。依據如此的構成,可以更進一步抑制上述的過量供給。 In the embodiment, the covering member 15 is preferably within a range where the inner side surface of the liquid holding member 12 is in contact with or close to the heating element 13 (heating portion 13A), and the outer side surface of the liquid holding member 12 is covered with the predetermined direction A as The entire circumference of the outer side surface of the liquid holding member 12 in the circumferential direction of the shaft. With such a configuration, the above-mentioned excessive supply can be further suppressed.

在實施形態中,被覆構件15較佳是均等地被覆液體保持構件12之外側側面。依據如此的構成,可對發熱體13(加熱部分13A)均勻地供給霧氣源,而可提高霧化效率。例如,被覆構件15亦可不具有開口而被覆液體保持構件12之外側側面。藉此,可更有效地抑制上述的過量供給。或是,被覆構件15亦可具有等間隔配置之10個以上的開口。藉由調整等間隔配置之10個以上的開口之數目或大小,不僅可抑制上述的過量供給,還可容易將霧氣源的供給量調整在任意的量,均勻地供給霧氣源,而可提高霧化效率。或是,被覆構件15亦可具有等間隔配置的複數個開口,藉由被覆構件15所被覆的液體保持構件12之外側 側面的面積的被覆面積,可為液體保持構件12之外側側面的面積之60%以上。藉由如此的構成,可更有效地抑制霧氣源的供給量。 In the embodiment, the covering member 15 preferably covers the outer side surface of the liquid holding member 12 evenly. According to such a configuration, the mist source can be uniformly supplied to the heating element 13 (the heating portion 13A), and the atomization efficiency can be improved. For example, the covering member 15 may cover the outer side surface of the liquid holding member 12 without an opening. Thereby, the above-mentioned excessive supply can be suppressed more effectively. Alternatively, the covering member 15 may have ten or more openings arranged at equal intervals. By adjusting the number or size of more than 10 openings arranged at equal intervals, not only the above-mentioned excessive supply can be suppressed, but also the supply amount of the mist source can be easily adjusted to supply the mist source uniformly, and the mist can be increased.化 efficient. Alternatively, the covering member 15 may have a plurality of openings arranged at equal intervals, and the outer side of the liquid holding member 12 covered by the covering member 15 may be provided. The covering area of the side surface area may be 60% or more of the area of the outer side surface of the liquid holding member 12. With this configuration, it is possible to more effectively suppress the supply amount of the mist source.

在實施形態中,藉由被覆構件15所被覆之狀態的液體保持構件12之厚度,係比未藉由被覆構件15所被覆之狀態的液體保持構件12之厚度更小,換言之,較佳是液體保持構件12能藉由被覆構件15所壓縮的構成。依據如此的構成,藉由液體保持構件12的壓縮,能抑制液體保持構件12保持過量的霧氣源的事態。 In the embodiment, the thickness of the liquid holding member 12 in the state covered by the covering member 15 is smaller than the thickness of the liquid holding member 12 in the state not covered by the covering member 15. In other words, the liquid is preferably liquid. The holding member 12 can be compressed by the covering member 15. According to such a configuration, the compression of the liquid holding member 12 can prevent the liquid holding member 12 from holding an excessive mist source.

在實施形態中,貯存器11之至少一部分較佳是在正交方向B被配置於被覆構件15之外側。依據如此的構成,就可藉由將被覆構件15之外側的空間分配給貯存器11來增大貯存器11的容量(即藉由貯存器11能夠蓄存的霧氣源之量),且藉由被覆構件15來抑制上述的過量供給。 In the embodiment, it is preferable that at least a part of the reservoir 11 is arranged on the outer side of the covering member 15 in the orthogonal direction B. According to such a structure, the capacity of the reservoir 11 (that is, the amount of the mist source that can be stored by the reservoir 11) can be increased by allocating the space outside the covering member 15 to the reservoir 11, and by The member 15 is covered to suppress the above-mentioned excessive supply.

在實施形態中,筒狀構件14係構成具有在正交方向B位於發熱體13之外側側面與被覆構件15之內側側面之間的外側側面的阻障構件。筒狀構件14之外側側面較佳是設置於與液體保持構件12之內側側面之一部分對向的位置。再者,筒狀構件14之外側側面較佳是設置於與被覆構件15之內側側面之一部分對向的位置。依據如此的構成,能抑制被覆構件15所被覆的液體保持構件12之朝向內側方向的應力而造成的發熱體13之變形。再者,筒狀構件14係構成空氣流路,並且具有預定強度(例如,能承 受被覆構件15在正交方向B將筒狀構件14之外側側面朝向內側方向按壓的應力的強度)的情況時,能抑制被覆構件15之應力而造成的發熱體13之變形及空氣流路之變形。亦即,在筒狀構件14之內側為空氣流路的態樣中,就抑制起因於被覆構件15之應力而造成的發熱體13之變形及空氣流路之變形此點,筒狀構件14係具有作為阻障構件的功能。 In the embodiment, the cylindrical member 14 is a barrier member having an outer side surface between the outer side surface of the heating element 13 and the inner side surface of the covering member 15 in the orthogonal direction B. The outer side surface of the cylindrical member 14 is preferably provided at a position facing a part of the inner side surface of the liquid holding member 12. The outer side surface of the cylindrical member 14 is preferably provided at a position facing a part of the inner side surface of the covering member 15. With such a configuration, it is possible to suppress the deformation of the heating element 13 caused by the stress in the inner direction of the liquid holding member 12 covered by the covering member 15. Further, the cylindrical member 14 constitutes an air flow path and has a predetermined strength (for example, it can support In the case where the covering member 15 presses the outer side surface of the cylindrical member 14 toward the inner direction in the orthogonal direction B), the deformation of the heating element 13 caused by the stress of the covering member 15 and the air flow path can be suppressed. Deformation. That is, in a state where the inside of the cylindrical member 14 is an air flow path, the deformation of the heating element 13 and the deformation of the air flow path caused by the stress of the covering member 15 is suppressed. The cylindrical member 14 is It has a function as a barrier member.

在實施形態中,形成空氣流路之至少一部分的筒狀構件4係藉由導電性構件所構成,且具有:在第一接點與第一端部分13B1接觸的筒狀構件141;以及在第二接點與第二端部分13B2接觸的筒狀構件142。從而,可以削減空氣流路之形成及電性接點之形成所需要的零件數。 In the embodiment, the cylindrical member 4 forming at least a part of the air flow path is made of a conductive member, and has a cylindrical member 14 1 in contact with the first end portion 13B 1 at the first contact point; and The cylindrical member 14 2 in contact with the second end portion 13B 2 at the second contact. Therefore, it is possible to reduce the number of parts required for the formation of the air flow path and the formation of the electrical contacts.

在實施形態中,係設置有遮蓋用以將霧氣源供給至貯存器11的供給口的帽蓋16。藉由帽蓋16從貯存器11分離的移動(在此,為朝向下游的移動),使發熱體13或是電力供給構件之至少一方破損。從而,可有效地抑制伴隨霧氣源對貯存器11之再注入的香味吸嘗器100之利用。另外,因帽蓋16遮蓋將貯存器作為基準而設置於對電源進行連接的連接部分111C之相反側的供給口,故能有效地抑制伴隨霧氣源之再注入的香味吸嘗器100之利用。 In the embodiment, a cap 16 is provided to cover a supply port for supplying a mist source to the reservoir 11. At least one of the heat generating body 13 or the power supply member is damaged by the movement of the cap 16 separated from the reservoir 11 (here, the movement toward the downstream). Therefore, the use of the flavor taster 100 accompanying the refilling of the reservoir 11 with the mist source can be effectively suppressed. In addition, since the cap 16 covers the supply port provided on the opposite side of the connection portion 111C that connects the power source with the reservoir as a reference, it is possible to effectively suppress the use of the flavor inhaler 100 with reinjection of the mist source.

在實施形態中,電力供給構件係包含:第一電力供給部分(例如,凸緣172及連接於凸緣172的導線),包含從發熱體13朝向對電源進行連接之連接部分111C側延伸的部分;以及第二電力供給部分(例如,凸緣171及連 接於凸緣171的導線),包含從發熱體13朝向連接部分111C之相反側(即煙嘴側開口111O側)延伸的部分。從而,容易採用第二電力供給部藉由帽蓋16從貯存器11分離的移動(在此,為往下游的移動)而破損的構成。 In the embodiment, the power supply member includes a first power supply portion (for example, the flange 17 2 and a lead wire connected to the flange 17 2 ), and includes a portion extending from the heating element 13 toward a connection portion 111C side for connecting a power source. portion; and a second power supply portion (e.g., the flange 171 and the flange 17 is connected to the wire 1), comprising a side opposite from the connection section 111C of the heat generating element 13 toward (i.e. mouthpiece side opening 111O side) portion extending . Accordingly, it is easy to adopt a configuration in which the second power supply unit is broken by the movement (here, the movement downstream) of the cap 16 from the reservoir 11 when it is separated.

在實施形態中,構成發熱體13的線圈係包含:加熱部分13A,藉由在金屬線上配置成彼此最近的第一接點與第二接點之間的金屬線所構成;第一端部分13B1,藉由在金屬線上加熱部分13A之一方的外側的金屬線所構成;以及第二端部分13B2,藉由在金屬線上加熱部分13A之另一方的外側的金屬線所構成。液體保持構件12之內側側面的至少一部分係與加熱部分13A接觸或接近。亦即,因不使用品質差之可能性較高的端部(在實施形態中,為第一端部分13B1及第二端部分13B2)作為加熱部分,而使用構成發熱體13(線圈)的金屬線之端部以外之品質良好的部分(在實施形態中,為加熱部分13A)作為加熱部分,故不依存於發熱體13之製造方法而可提高霧氣產生量的均勻性。 In the embodiment, the coil system constituting the heating element 13 includes: a heating portion 13A formed by a metal wire arranged between the first contact and the second contact closest to each other on the metal wire; and the first end portion 13B 1 is formed by heating a metal wire on the outside of one of the portions 13A on the metal wire; and the second end portion 13B 2 is formed by heating a metal wire on the outside of the other of the portion 13A on the metal wire. At least a part of the inner side surface of the liquid holding member 12 is in contact with or close to the heating portion 13A. That is, the end portions (the first end portion 13B 1 and the second end portion 13B 2 in the embodiment) that are highly likely to be of poor quality are not used as heating portions, and the heating element 13 (coil) is used. A portion of good quality other than the end portion of the metal wire (in the embodiment, the heating portion 13A) is used as the heating portion, so that the uniformity of the amount of mist generation can be improved without depending on the manufacturing method of the heating element 13.

在實施形態中,因僅使用發熱體13(線圈)之中心部分作為加熱部分13A,故容易配置液體保持構件12及於作為加熱構件13A來使用的中心部分之整體,且容易構成能量損失較少的霧化單元111。 In the embodiment, since only the central portion of the heating element 13 (coil) is used as the heating portion 13A, it is easy to arrange the liquid holding member 12 and the entire central portion used as the heating member 13A, and it is easy to constitute a small energy loss.的 phasing unit 111.

在實施形態中,筒狀構件14係藉由導電性構件所構成,且具有:在第一接點與第一端部分13B1接觸的筒狀構件141;以及在第二接點與第二端部分13B2接觸的 筒狀構件142。筒狀構件141及筒狀構件142係配置於發熱體13之側面(在實施形態中,為外側側面)。另外,所謂發熱體13之側面,係在考慮構成發熱體13的線圈為筒狀之構件時,意指線圈之外周面及內周面。從而,所謂發熱體13之側面,實際上是藉由形成線圈的金屬線之側面所構成。藉由上述的構成,能夠藉由在發熱體13之側面進行與筒狀構件14之接觸,來進行在表面的電性連接,而可進行穩定的電性連接。又,在發熱體13之側面伴隨與筒狀構件14之固定進行電性連接的情況時,係能夠進行面的固定,且可將發熱體13牢固地固定於筒狀構件14。又,可容易進行熔接等的固定。 In the embodiment, the cylindrical member 14 is made of a conductive member, and includes: a cylindrical member 14 1 in contact with the first end portion 13B 1 at a first contact point; and a second contact point with a second contact point. The end portion 13B 2 is in contact with the cylindrical member 14 2 . The cylindrical member 141 and cylindrical member 142 disposed on the side surface of the heat generating system 13 (in the embodiment, as the outer side). In addition, when the side surface of the heating element 13 is considered to be a cylindrical member of the coil which comprises the heating element 13, it means the outer peripheral surface and the inner peripheral surface of a coil. Therefore, the side surface of the heating element 13 is actually constituted by the side surface of the metal wire forming the coil. With the above-mentioned configuration, it is possible to perform electrical connection on the surface by making contact with the cylindrical member 14 on the side surface of the heating element 13, and stable electrical connection can be performed. When the side surface of the heating element 13 is electrically connected with the fixing of the cylindrical member 14, the surface can be fixed, and the heating element 13 can be firmly fixed to the cylindrical member 14. In addition, fixing such as welding can be easily performed.

再者,在實施形態中,因筒狀構件14為具有面的構件,故能夠進行面彼此之電性連接,而可進行穩定的電性連接,可將發熱體13牢固地固定於筒狀構件14。又,可容易進行熔接等的固定。 Furthermore, in the embodiment, since the cylindrical member 14 is a member having a surface, the surfaces can be electrically connected to each other, and stable electrical connection can be performed, and the heating element 13 can be firmly fixed to the cylindrical member. 14. In addition, fixing such as welding can be easily performed.

在實施形態中,筒狀構件141係在正交方向B配置於液體保持構件12與第一端部分13B1之間,筒狀構件142係在正交方向B配置於液體保持構件12與第二端部分13B2之間。從而,因發熱體13能藉由筒狀構件141及筒狀構件142所支持,故即便發熱體13之內側為中空,仍能抑制發熱體13之變形。 In the embodiment, the cylindrical member 14 1 is disposed between the liquid holding member 12 and the first end portion 13B 1 in the orthogonal direction B, and the cylindrical member 14 2 is disposed between the liquid holding member 12 and the orthogonal direction B. Second end portion 13B 2 between. Therefore, since the heating element 13 can be supported by the cylindrical member 14 1 and the cylindrical member 14 2 , even if the inside of the heating element 13 is hollow, the deformation of the heating element 13 can be suppressed.

在實施形態中,霧化單元111之製造方法係以沿著形成於基底構件300(治具)之側面的螺旋形狀之凹槽或突起的方式配置發熱體13,該基底構件300係具有沿 著預定方向A延伸的軸X,並且以軸X作為旋轉軸使基底構件300旋轉,而使發熱體13之全部從基底構件300之凹槽或突起分離。亦即,在霧化單元111之製造步驟中,因發熱體13能藉由基底構件300所支持,故可抑制霧化單元111之製造步驟中的發熱體13之變形,而可製造具有高品質之發熱體13的霧化單元111。 In the embodiment, the manufacturing method of the atomizing unit 111 is to arrange the heating element 13 along a spiral-shaped groove or protrusion formed on the side surface of the base member 300 (the jig). An axis X extending in a predetermined direction A is used, and the base member 300 is rotated with the axis X as a rotation axis, so that all of the heating element 13 is separated from the groove or protrusion of the base member 300. That is, in the manufacturing step of the atomizing unit 111, since the heating element 13 can be supported by the base member 300, the deformation of the heating element 13 in the manufacturing step of the atomizing unit 111 can be suppressed, and high quality can be manufactured. Atomizing unit 111 of the heating element 13.

在實施形態中,在使液體保持構件12接觸或接近發熱體13之加熱部分13A之後,以軸X作為旋轉軸使基底構件300(治具)旋轉,而使發熱體13之全部從基底構件300之凹槽或突起分離。以接觸或接近發熱體13之加熱部分13A的方式配置液體保持構件12的步驟(尤其是使加熱部分13A接觸或接近液體保持構件12的步驟)可抑制發熱體13之變形,且可製造具有高品質之發熱體13的霧化單元111。 In the embodiment, after the liquid holding member 12 is brought into contact with or close to the heating portion 13A of the heating element 13, the base member 300 (fixture) is rotated with the axis X as a rotation axis, and the entire heating element 13 is removed from the base member 300 The grooves or protrusions are separated. The step of disposing the liquid holding member 12 so as to contact or approach the heating portion 13A of the heating element 13 (especially the step of bringing the heating portion 13A into contact with or approaching the liquid holding member 12) can suppress the deformation of the heating element 13 and can be manufactured with Atomizing unit 111 of high-quality heating element 13.

在實施形態中,在以軸X作為旋轉軸使基底構件300(治具)旋轉,而使發熱體13之全部從基底構件300之凹槽或突起分離之前,在正交方向的發熱體13之外側側面配置筒狀構件14。換言之,在霧化單元111之製造步驟中,發熱體13能始終藉由基底構件300或筒狀構件14所支持。從而,可始終抑制霧化單元111之製造步驟中的發熱體13之變形,而可製造具有高品質之發熱體13的霧化單元111。 In the embodiment, before the base member 300 (the jig) is rotated with the axis X as a rotation axis, and all of the heat generating body 13 is separated from the groove or protrusion of the base member 300, the heat generating body 13 in the orthogonal direction is The cylindrical member 14 is arranged on the outer side surface. In other words, in the manufacturing steps of the atomizing unit 111, the heating element 13 can always be supported by the base member 300 or the cylindrical member 14. Therefore, deformation of the heating element 13 in the manufacturing step of the atomizing unit 111 can be always suppressed, and the atomizing unit 111 having the high-quality heating element 13 can be manufactured.

另外,配置液體保持構件12的步驟亦可為一邊使液體保持構件12按壓加熱部分13A之外側側面且一 邊配置液體保持構件12的步驟。配置液體保持構件12的步驟亦可為以接觸加熱部分13A之外側側面的全周的方式配置液體保持構件12的步驟。在此等的事例中,因是在將發熱體13從基底構件300分離之前配置液體保持構件12,故可在配置液體保持構件12的步驟中抑制發熱體13之變形,而可製造具有高品質之發熱體13的霧化單元111。 In addition, the step of disposing the liquid holding member 12 may also be performed while the liquid holding member 12 is pressed against the outer side surface of the heating portion 13A, and A step of disposing the liquid holding member 12. The step of arranging the liquid holding member 12 may be a step of arranging the liquid holding member 12 so as to contact the entire periphery of the outer side surface of the heating portion 13A. In these cases, since the liquid holding member 12 is disposed before the heating element 13 is separated from the base member 300, the deformation of the heating element 13 can be suppressed in the step of disposing the liquid holding member 12, and high quality can be manufactured. Atomizing unit 111 of the heating element 13.

又,亦可藉由與發熱體13之分離,在發熱體13之內側形成空氣流路之至少一部分。藉此,能在將發熱體13從基底構件300分離之前,抑制異物侵入空氣流路內部。 Also, at least a part of the air flow path may be formed inside the heating element 13 by being separated from the heating element 13. This can prevent foreign matter from entering the air flow path before the heat generating body 13 is separated from the base member 300.

在實施形態中,在將筒狀構件14固定於霧化單元外殼111X之後或/及將發熱體13固定於筒狀構件14之後,以軸X作為旋轉軸使基底構件300(治具)旋轉,而使發熱體13之全部從基底構件300之凹槽或突起分離。從而,可抑制伴隨基底構件300之旋轉造成的發熱體13之變形,而可製造具有高品質之發熱體13的霧化單元111。 In the embodiment, after the cylindrical member 14 is fixed to the atomizing unit housing 111X or / and the heating element 13 is fixed to the cylindrical member 14, the base member 300 (the jig) is rotated with the axis X as a rotation axis. All the heating elements 13 are separated from the grooves or protrusions of the base member 300. Therefore, deformation of the heating element 13 caused by the rotation of the base member 300 can be suppressed, and the atomizing unit 111 having the high-quality heating element 13 can be manufactured.

〔變更例1〕 [Change example 1]

以下,針對實施形態之變更例1加以說明。以下,主要是針對與實施形態相對的差異點加以說明。 Hereinafter, a modification example 1 of the embodiment will be described. In the following, the differences from the embodiment will be mainly described.

在變更例1中,係針對以接觸或接近發熱體13之加熱部分13A的方式配置液體保持構件12的步驟(第4圖(C)所示的步驟)之變更例加以說明。第6圖係用以說明第4圖(C)所示的步驟之變更例的圖。惟,以軸X作為旋轉 軸使基底構件300(治具)旋轉,而使發熱體13之全部從基底構件300之凹槽或突起分離的步驟,係在第4圖(C)所示的步驟之中途進行,此點係在變更例1與實施形態有所不同,應予留意。 Modification Example 1 describes a modification example of the step of disposing the liquid holding member 12 (the step shown in FIG. 4 (C)) so as to contact or approach the heating portion 13A of the heating element 13. Fig. 6 is a diagram for explaining a modification example of the steps shown in Fig. 4 (C). However, with axis X as rotation The step of rotating the base member 300 (the jig) by the shaft and separating all the heating elements 13 from the grooves or protrusions of the base member 300 is performed in the middle of the step shown in FIG. 4 (C). Note that the modification 1 is different from the embodiment.

具體而言,如第6圖(A)所示,使具有圓筒形狀的滑動用構件400沿著預定方向A滑動,藉此在發熱體13及筒狀構件14之外側側面配置滑動用構件400。亦即,沿著正交方向B的發熱體13及筒狀構件14之外側側面,使滑動用構件400滑動(步驟C1)。 Specifically, as shown in FIG. 6 (A), the sliding member 400 having a cylindrical shape is slid along the predetermined direction A, whereby the sliding member 400 is disposed on the outer side surface of the heating element 13 and the cylindrical member 14. . That is, the sliding member 400 is slid along the outer side surfaces of the heating element 13 and the cylindrical member 14 in the orthogonal direction B (step C1).

其次,如第6圖(B)所示,以軸X作為旋轉軸使基底構件300(治具)旋轉,使發熱體13之全部從基底構件300之凹槽或突起分離(步驟B)。在此,筒狀構件14係透過凸緣17等而固定於霧化單元外殼111X(外殼帽蓋體111X1),應予留意。 Next, as shown in FIG. 6 (B), the base member 300 (the jig) is rotated using the axis X as a rotation axis, and the entire heating element 13 is separated from the groove or protrusion of the base member 300 (step B). Here, the cylindrical member 14 is fixed to the atomizing unit housing 111X (housing cap body 111X 1 ) through the flange 17 or the like, and it should be noted.

其次,如第6圖(C)所示,沿著正交方向B的滑動用構件400之外側側面,使液體保持構件12滑動(步驟C2)。在此,因發熱體13係由滑動用構件400所覆蓋,故即便是在發熱體13之全部已從基底構件300(治具)分離的狀態下配置液體保持構件12,仍能抑制伴隨液體保持構件12之配置所造成的發熱體13之變形。 Next, as shown in FIG. 6 (C), the liquid holding member 12 is slid along the outer side surface of the sliding member 400 in the orthogonal direction B (step C2). Here, since the heating element 13 is covered by the sliding member 400, even if the liquid holding member 12 is disposed in a state where the entire heating element 13 is separated from the base member 300 (fixture), the accompanying liquid holding can be suppressed. Deformation of the heating element 13 caused by the arrangement of the members 12.

其次,如第6圖(D)所示,藉由使滑動用構件400沿著預定方向A滑動來拆除滑動用構件400。亦即,從液體保持構件12與發熱體13之間藉由滑動而拆除滑動用構件400(步驟C3)。藉此,以接觸或接近發熱體13之加熱 部分13A的方式配置液體保持構件12,應予留意。 Next, as shown in FIG. 6 (D), the sliding member 400 is removed by sliding the sliding member 400 in the predetermined direction A. That is, the sliding member 400 is removed from the liquid holding member 12 and the heating element 13 by sliding (step C3). Thereby, heating by contacting or approaching the heating body 13 Care should be taken when the liquid retaining member 12 is arranged in the manner of part 13A.

在如此的事例中,滑動用構件400較佳是藉由比液體保持構件12更容易沿著預定方向A滑動的構件所構成。例如,滑動用構件400係以作用於滑動用構件400之內側側面與筒狀構件14之外側側面之間的摩擦力(動摩擦力或/及靜摩擦力),比液體保持構件12之內側側面與筒狀構件14之外側側面之間的摩擦力更小的方式所構成。藉由該構成,與以單體配置液體保持構件12的事例相較,使用滑動用構件400較容易使液體保持構件12滑動並配置。在如此的事例中,滑動用構件400的剛性較佳是比液體保持構件12的剛性更高。藉由該構成,與以單體配置液體保持構件12的事例相較,由於使用滑動用構件400不易在使滑動用構件400滑動於筒狀構件141與筒狀構件142之間時卡於管件的切口,所以較容易配置液體保持構件12。 In such a case, it is preferable that the sliding member 400 is constituted by a member that slides more easily in the predetermined direction A than the liquid holding member 12. For example, the sliding member 400 has a frictional force (dynamic frictional force and / or static frictional force) acting between the inner side surface of the sliding member 400 and the outer side surface of the cylindrical member 14 than the inner side surface of the liquid holding member 12 and the cylinder. It is comprised so that the frictional force between the outer side surface of the shape member 14 may become smaller. With this configuration, it is easier to slide and arrange the liquid holding member 12 using the sliding member 400 than in the case where the liquid holding member 12 is arranged as a single body. In such a case, the rigidity of the sliding member 400 is preferably higher than the rigidity of the liquid holding member 12. With this configuration, compared with the case where the liquid holding member 12 is arranged as a single body, the sliding member 400 is less likely to be caught when the sliding member 400 is slid between the cylindrical member 14 1 and the cylindrical member 14 2 by using the sliding member 400. The cutout of the tube makes it easier to arrange the liquid holding member 12.

在第6圖所示之例中,雖然是在沿著筒狀構件14之外側側面使滑動用構件400滑動之後,沿著滑動用構件400外側側面使液體保持構件12滑動,但是變更例1不限定於此。具體而言,亦可在液體保持構件12之內側***滑動用構件400之後,在液體保持構件12之內側已***滑動用構件400的狀態下,沿著筒狀構件14之外側側面使滑動用構件400滑動。 In the example shown in FIG. 6, although the sliding member 400 is slid along the outer side surface of the cylindrical member 14, the liquid holding member 12 is slid along the outer side surface of the sliding member 400. However, the first modification is not Limited to this. Specifically, after the sliding member 400 is inserted inside the liquid holding member 12, the sliding member 400 may be inserted along the outer side surface of the cylindrical member 14 in a state where the sliding member 400 is inserted inside the liquid holding member 12. 400 sliding.

在第6圖所示之例中,雖然是在使發熱體13從基底構件300之凹槽或突起分離之後,藉由滑動來拆掉滑動用構件400,但是變更例1不限定於此。具體而言, 藉由滑動來拆掉滑動用構件400的步驟,亦可在使發熱體13從基底構件300之凹槽或突起分離的步驟之前進行。 In the example shown in FIG. 6, the sliding member 400 is removed by sliding after the heating element 13 is separated from the groove or protrusion of the base member 300, but the modification 1 is not limited to this. in particular, The step of removing the sliding member 400 by sliding may be performed before the step of separating the heating element 13 from the groove or protrusion of the base member 300.

在變更例1中,基底構件300之凹槽的深度或基底構件300之突起的高度係與實施形態同樣,較佳是與形成發熱體13的金屬線之直徑同程度以下,且為金屬線之直徑的一半以上。 In the modification 1, the depth of the groove of the base member 300 or the height of the protrusion of the base member 300 is the same as that of the embodiment, and is preferably equal to or less than the diameter of the metal wire forming the heating element 13 and is the same as that of the metal wire. More than half the diameter.

在變更例1中,使發熱體13從基底構件300之凹槽或突起分離的步驟係與實施形態同樣,較佳是將筒狀構件14固定於霧化單元外殼111X之後或/及將發熱體13固定於筒狀構件14之後進行。 In the modification 1, the steps of separating the heating element 13 from the groove or protrusion of the base member 300 are the same as in the embodiment, and it is preferable to fix the cylindrical member 14 to the atomizing unit casing 111X or / and fix the heating element. 13 is performed after being fixed to the cylindrical member 14.

(作用及功效) (Function and effect)

在變更例1中,係在以接觸或接近發熱體13之加熱部分13A的方式配置液體保持構件12之前,使發熱體13從基底構件300之凹槽或突起分離。如此,可在液體保持構件12等的構件之裝配前盡早離開基底構件300,可在短時間內將基底構件300沿用於下一個半製品製造中,而可提高霧化單元111的生產性。 In the modification 1, the heat generating body 13 is separated from the groove or protrusion of the base member 300 before the liquid holding member 12 is disposed so as to contact or approach the heating portion 13A of the heat generating body 13. In this way, the base member 300 can be separated from the base member 300 as early as possible before assembly of the components such as the liquid holding member 12, and the base member 300 can be used in the next semi-product manufacturing in a short time, and the productivity of the atomizing unit 111 can be improved.

獲得如此的功效的同時,藉由使用滑動用構件400,可在以接觸或接近發熱體13之加熱部分13A的方式配置液體保持構件12的步驟(例如,使液體保持構件12滑動的步驟)中,抑制發熱體13之變形,而可製造具有高品質之發熱體13的霧化單元111。又,容易將液體保持構件12配置於發熱體13及筒狀構件14之外側側面。 While obtaining such an effect, by using the sliding member 400, it is possible to arrange the liquid holding member 12 (for example, the step of sliding the liquid holding member 12) so as to contact or approach the heating portion 13A of the heat generating body 13 In order to suppress the deformation of the heating element 13, the atomizing unit 111 having the high-quality heating element 13 can be manufactured. Moreover, it is easy to arrange the liquid holding member 12 on the outer side surface of the heating element 13 and the cylindrical member 14.

〔變更例2〕 [Change example 2]

以下,針對實施形態之變更例2加以說明。以下,主要是針對與實施形態相對的差異點加以說明。 Hereinafter, a modification 2 of the embodiment will be described. In the following, the differences from the embodiment will be mainly described.

在實施形態中,基底構件300為具有圓柱形狀的治具。相對於此,在變更例2中,係針對基底構件300為筒狀構件14(筒狀構件141及筒狀構件142)的事例加以例示。第7圖係用以說明變更例2的霧化單元111之製造方法的圖。另外,在第7圖中,係省略了霧化單元外殼111X、帽蓋16及凸緣17等,應予留意。 In the embodiment, the base member 300 is a jig having a cylindrical shape. On the other hand, in the modification 2, the case where the base member 300 is the cylindrical member 14 (the cylindrical member 14 1 and the cylindrical member 14 2 ) is illustrated. FIG. 7 is a diagram for explaining a method of manufacturing the atomizing unit 111 according to the second modification. In addition, in FIG. 7, the atomizing unit case 111X, the cap 16, the flange 17 and the like are omitted, and it should be noted.

具體而言,如第7圖(A)所示,以沿著形成於筒狀構件14之內側側面的螺旋形狀之凹槽或突起的方式配置發熱體13,該筒狀構件14係具有沿著預定方向A延伸的軸X,並且電性連接筒狀構件14和發熱體13(步驟A及步驟D)。在此,筒狀構件14係配置於發熱體13之外側。 Specifically, as shown in FIG. 7 (A), the heating element 13 is arranged along a spiral groove or protrusion formed on the inner side surface of the cylindrical member 14. The cylindrical member 14 has The axis X extends in a predetermined direction A, and the cylindrical member 14 and the heating element 13 are electrically connected (step A and step D). Here, the cylindrical member 14 is disposed outside the heating element 13.

在變更例2中,筒狀構件141及筒狀構件142係在預定方向A連續。換言之,步驟A係跨越筒狀構件141及筒狀構件142之雙方而配置發熱體13的步驟。 In the modification 2, the cylindrical member 14 1 and the cylindrical member 14 2 are continuous in a predetermined direction A. In other words, step A is a step of disposing the heating element 13 across both the cylindrical member 14 1 and the cylindrical member 14 2 .

在此,在正交方向B的筒狀構件14(筒狀構件141及筒狀構件142)之外側側面係配置有液體保持構件12,應予留意。 Here, the liquid holding member 12 is arranged on the outer side surface of the cylindrical member 14 (the cylindrical member 14 1 and the cylindrical member 14 2 ) in the orthogonal direction B, and it should be noted.

其次,在第7圖(B)中,以軸X作為旋轉軸使筒狀構件141及筒狀構件142之至少一方旋轉,使發熱體13從凹槽或突起分離(步驟B)。亦即,步驟B係在維持發 熱體13跨越筒狀構件141及筒狀構件142之雙方而配置的狀態下,使筒狀構件141及筒狀構件142彼此分離的步驟。 Next, in FIG. 7 (B), at least one of the cylindrical member 14 1 and the cylindrical member 14 2 is rotated with the axis X as a rotation axis, and the heating element 13 is separated from the groove or protrusion (step B). That is, in Step B-based heat generating element is maintained in a state 141 and a cylindrical member disposed sides 142 of the cylindrical member 13 across the step 14 separated from each other and a cylindrical member 142 of the cylindrical member.

在變更例2中,藉由使筒狀構件141及筒狀構件142彼此分離,發熱體13之加熱部分13A就會露出於液體保持構件12。又,以接觸或接近發熱體13之加熱部分13A的方式配置液體保持構件12(步驟C或步驟C4)。在此,因是藉由第7圖(B)所示的步驟才形成筒狀構件141及筒狀構件142之間隔,故第7圖(B)所示的步驟係藉由與發熱體13之分離,而形成將藉由發熱體13所霧化後的霧氣引入至發熱體13之內側的霧氣取入口(筒狀構件141及筒狀構件142之間隔)的步驟。 In the second modification, by separating the cylindrical member 14 1 and the cylindrical member 14 2 from each other, the heating portion 13A of the heating element 13 is exposed to the liquid holding member 12. The liquid holding member 12 is disposed so as to contact or approach the heating portion 13A of the heating element 13 (step C or step C4). Here, since the interval between the cylindrical member 14 1 and the cylindrical member 14 2 is formed by the steps shown in FIG. 7 (B), the steps shown in FIG. 7 (B) are performed with the heating element. The separation of 13 forms a step of introducing the mist generated by the heating element 13 into the mist inlet (the interval between the cylindrical member 14 1 and the cylindrical member 14 2 ) inside the heating element 13.

在此,在將發熱體13固定於筒狀構件14的事例中,如此的固定步驟亦可在第7圖(B)所示的步驟之後進行。或是,亦可在固定筒狀構件141及筒狀構件142當中之一方的導電構件和發熱體13之後,使另一方的導電構件從一方的導電構件分離。電性連接筒狀構件14和發熱體13的步驟(步驟D)亦可考慮如此的固定步驟。 Here, in the case where the heating element 13 is fixed to the cylindrical member 14, such a fixing step may be performed after the step shown in FIG. 7 (B). Alternatively, after fixing one of the conductive members of the cylindrical member 14 1 and the cylindrical member 14 2 and the heating element 13, the other conductive member may be separated from one of the conductive members. The step (step D) of electrically connecting the cylindrical member 14 and the heating element 13 may also take into account such a fixing step.

另外,在筒狀構件141及筒狀構件142彼此分離之前的狀態(即第7圖(A)所示的狀態)中,筒狀構件141及筒狀構件142亦可藉由螺合所連接。 In addition, in a state before the tubular member 14 1 and the tubular member 14 2 are separated from each other (that is, a state shown in FIG. 7 (A)), the tubular member 14 1 and the tubular member 14 2 may be screwed together. Joint office connection.

(作用及功效) (Function and effect)

在變更例2中,係以沿著已形成於筒狀構件14之內側側面的螺旋形狀之凹槽或突起的方式配置發熱體13,並且 以軸X作為旋轉軸使筒狀構件141及筒狀構件142之至少一方旋轉,使發熱體13從凹槽或突起分離。亦即,在霧化單元111之製造步驟中,因發熱體13係藉由筒狀構件141及筒狀構件142所支持,故可抑制發熱體13之變形,而可製造具有高品質之發熱體13的霧化單元111。 In the second modification, the heating element 13 is arranged so as to follow the spiral grooves or protrusions formed on the inner side surface of the cylindrical member 14, and the cylindrical member 14 1 and the cylinder are made with the axis X as a rotation axis. At least one of the shape members 14 2 is rotated to separate the heating element 13 from the groove or the protrusion. That is, in the manufacturing steps of the atomizing unit 111, since the heating element 13 is supported by the cylindrical member 14 1 and the cylindrical member 14 2 , the deformation of the heating element 13 can be suppressed, and a high-quality product can be manufactured. Atomization unit 111 of the heating element 13.

在變更例2中,因筒狀構件14被當作基底構件300來使用,故不需要如實施形態般地用於發熱體13之形成的其他治具,而可簡化霧化單元111之製造步驟。 In the modification 2, since the cylindrical member 14 is used as the base member 300, other jigs for forming the heating element 13 as in the embodiment are not required, and the manufacturing steps of the atomizing unit 111 can be simplified. .

〔變更例3〕 [Change example 3]

以下,針對實施形態之變更例3加以說明。以下,主要是針對與變更例2相對的差異點加以說明。 Hereinafter, a modified example 3 of the embodiment will be described. Hereinafter, the differences from the second modification will be mainly described.

在變更例2中,係以沿著形成於筒狀構件14之內側側面的螺旋形狀之凹槽或突起的方式配置發熱體13。相對於此,在變更例3中,係以沿著形成於筒狀構件14之外側側面的螺旋形狀之凹槽或突起的方式配置發熱體13。 In the modification 2, the heating element 13 is arranged so as to follow a spiral-shaped groove or protrusion formed on the inner side surface of the cylindrical member 14. On the other hand, in the modification 3, the heat generating body 13 is arrange | positioned so that it may follow the spiral groove or protrusion formed in the outer side surface of the cylindrical member 14. As shown in FIG.

具體而言,如第8圖(A)所示,以沿著形成於筒狀構件14之外側側面的螺旋形狀之凹槽或突起的方式配置發熱體13,該筒狀構件14係具有沿著預定方向A延伸的軸X,並且電性連接筒狀構件14和發熱體13(步驟A及步驟D)。在此,筒狀構件14係配置於發熱體13之內側。 Specifically, as shown in FIG. 8 (A), the heating element 13 is arranged along a spiral groove or protrusion formed on the outer side surface of the cylindrical member 14. The axis X extends in a predetermined direction A, and the cylindrical member 14 and the heating element 13 are electrically connected (step A and step D). Here, the cylindrical member 14 is disposed inside the heating element 13.

其次,在第8圖(B)中,以軸X作為旋轉軸使筒狀構件141及筒狀構件142之至少一方旋轉,並使發熱體 13從凹槽或突起分離(步驟B)。在此,因是藉由第8圖(B)所示的步驟才形成有筒狀構件141及筒狀構件142之間隔,故第8圖(B)所示的步驟係藉由與發熱體13之分離,而形成將藉由發熱體13所霧化後的霧氣引入至發熱體13之內側的霧氣取入口(筒狀構件141及筒狀構件142之間隔)的步驟。 Next, in FIG. 8 (B), at least one of the cylindrical member 14 1 and the cylindrical member 14 2 is rotated with the axis X as a rotation axis, and the heating element 13 is separated from the groove or protrusion (step B). Here, since the interval between the cylindrical member 14 1 and the cylindrical member 14 2 is formed by the steps shown in FIG. 8 (B), the steps shown in FIG. 8 (B) are performed by heating. The separation of the body 13 forms a step of introducing the mist (a space between the cylindrical member 14 1 and the cylindrical member 14 2 ) into the mist inlet of the inside of the heating body 13 by the mist generated by the heating body 13.

(作用及功效) (Function and effect)

在變更例3中,係與變更例2同樣,可製造具有高品質之發熱體13的霧化單元111,且可簡化霧化單元111之製造步驟。 In the modified example 3, similarly to the modified example 2, the atomizing unit 111 having the high-quality heating element 13 can be manufactured, and the manufacturing steps of the atomizing unit 111 can be simplified.

〔變更例4〕 [Change Example 4]

以下,針對實施形態之變更例4加以說明。以下,主要是針對與實施形態相對的差異點加以說明。 Hereinafter, a modified example 4 of the embodiment will be described. In the following, the differences from the embodiment will be mainly described.

在實施形態中,筒狀構件141之內徑係與筒狀構件142之內徑相同。相對於此,在變更例4中,如第9圖所示,筒狀構件141之內徑及外徑,係比筒狀構件142之內徑及外徑更大。另外,在第9圖中,已省略了霧化單元外殼111X、帽蓋16及凸緣17等,應予留意。 In the embodiment, the same inner diameter as the inner diameter of the cylindrical member and the line 141 of the cylindrical member 142. On the other hand, in the modification 4, as shown in FIG. 9, the inner diameter and outer diameter of the cylindrical member 14 1 are larger than the inner diameter and outer diameter of the cylindrical member 14 2 . In addition, in FIG. 9, the atomizing unit case 111X, the cap 16, the flange 17, and the like have been omitted, and it should be noted.

在如此的事例中,如第9圖所示,發熱體13係具有加熱部分13A及第一端部分13B1,但不具有第二端部分13B2。第一端部分13B1之外側側面係與筒狀構件141之內側側面接觸。換言之,筒狀構件141係配置於發熱體 13之外側。另一方面,在筒狀構件142之外側側面或端面係連接有從加熱部分13A拉出至上游的導線。在此,導線係藉由與發熱體13相同之構件(例如,鎳鉻合金線線)所構成。導線亦可為將形成發熱體13的金屬線直接延長所得的構件。筒狀構件142之外側側面或端面及導線係構成第二接點CP2。導線係藉由熔接或焊接而固定於筒狀構件141之外側側面。 In such a case, as shown in FIG. 9, the heating element 13 includes the heating portion 13A and the first end portion 13B 1 , but does not include the second end portion 13B 2 . The outer side surface of the first end portion 13B 1 is in contact with the inner side surface of the cylindrical member 14 1 . In other words, the cylindrical member 141 is disposed outside the line of the heat generating element 13. On the other hand, a lead wire drawn from the heating portion 13A to the upstream side is connected to the outer side surface or the end surface of the cylindrical member 14 2 . Here, the lead wire is composed of the same member (for example, a nickel-chromium alloy wire) as the heating element 13. The lead wire may be a member obtained by directly extending a metal wire forming the heating element 13. The outer side surface or end surface of the cylindrical member 14 2 and the lead wire constitute a second contact CP2. By welding or soldering conductive wires fixed to the outer side surface 141 of the cylindrical member.

另外,在第9圖中,為了方便圖示而使導線***,但是實際上,導線係配置在液體保持構件12與筒狀構件14之間,應予留意。 In addition, in FIG. 9, the lead wire is raised for convenience of illustration, but in practice, the lead wire system is arranged between the liquid holding member 12 and the cylindrical member 14, and care should be taken.

(作用及功效) (Function and effect)

在變更例4中,設置於下游側的筒狀構件141之外徑,係比設置於上游側的筒狀構件142之外徑更大。從而,比起被覆構件15與筒狀構件142之間的距離,被覆構件15與筒狀構件141之間的距離較小,可抑制在下游側霧氣源對液體保持構件12的過量供給。 In Modification 4, the outer diameter of the cylindrical member is provided on the downstream side 141, the system is larger than the outer diameter is provided on the upstream side of the cylindrical member 142. Thus, compared to the distance between the covering member 15 and the cylindrical member 142, the cover member 15 and the distance between the cylindrical member 141 is small, excessive supply of suppressed holding member 12 on the downstream side of the liquid mist source.

在變更例4中,筒狀構件141係在正交方向B配置於液體保持構件12與第一端部分13B1之間。從而,因發熱體13係藉由筒狀構件141所支持,故即便發熱體13之內側為中空,仍能抑制發熱體13之變形。 In the modification 4, the cylindrical member 14 1 is disposed between the liquid holding member 12 and the first end portion 13B 1 in the orthogonal direction B. Thus, due to heat generation system 13 supported by the cylindrical member 141, so that even when the heat generating element 13 is hollow inside, able to suppress the deformation of the heat generator 13.

〔變更例5〕 [Change Example 5]

以下,針對實施形態之變更例5加以說明。以下,主 要是針對與實施形態相對的差異點加以說明。 Hereinafter, a modification 5 of the embodiment will be described. Following, the main The differences from the embodiment will be described.

在實施形態中,筒狀構件141之內徑係與筒狀構件142之內徑相同。相對於此,在變更例4中,如第10圖所示,筒狀構件141之內徑及外徑係比筒狀構件142之內徑及外徑更大。另外,在第10圖中,係省略了霧化單元外殼111X、帽蓋16及凸緣17等,應予留意。 In the embodiment, the same inner diameter as the inner diameter of the cylindrical member and the line 141 of the cylindrical member 142. In contrast, in Modification 4, as shown in FIG. 10, inner and outer diameters of the cylindrical member 141 lines of the cylindrical member is larger than inner and outer diameters of 142. In addition, in Fig. 10, the atomizing unit case 111X, the cap 16 and the flange 17 are omitted, and it should be noted.

在如此的事例中,如第10圖所示,發熱體13係具有加熱部分13A、第一端部分13B1及第二端部分13B2。但是,第二端部分13B2之外徑係比第一端部分13B1之外徑更小。第一端部分13B1之外側側面係與筒狀構件141之內側側面接觸。同樣地,第二端部分13B2之外側側面係與筒狀構件142之內側側面接觸。換言之,筒狀構件141及筒狀構件142係配置於發熱體13之外側。 In such instances, as shown in FIG. 10, the heating system 13 has a heating portion. 13A, a first end portion and a second end portion 13B 1 13B 2. However, the outer diameter of the second end portion 13B 2 is smaller than the outer diameter of the first end portion 13B 1 . The outer side surface of the first end portion 13B 1 is in contact with the inner side surface of the cylindrical member 14 1 . Similarly, the outer side surface of the second end portion 13B 2 is in contact with the inner side surface of the cylindrical member 14 2 . In other words, the cylindrical member 14 1 and the cylindrical member 14 2 are arranged outside the heating element 13.

(作用及功效) (Function and effect)

在變更例5中,設置於下游側的筒狀構件141之外徑係比設置於上游側的筒狀構件142之外徑更大。從而,與變更例4同樣,比起被覆構件15與筒狀構件142之間的距離,被覆構件15與筒狀構件141之間的距離較小,可以抑制在下游側霧氣源對液體保持構件12的過量供給。 In Modification 5, the outer diameter is provided on the line 141 is provided on the upstream side is larger than the outer diameter of the cylindrical member 142 of the downstream side of the cylindrical member. Accordingly, Example 4 and change the same than the distance between the covering member 15 and the cylindrical member 142, the cover member 15 and the distance between the cylindrical member 141 is small, it can be suppressed on the downstream side of the liquid holding mist source Excessive supply of component 12.

在變更例5中,筒狀構件141係在正交方向B配置於液體保持構件12與第一端部分13B1之間,且筒狀構件142係在正交方向B配置於液體保持構件12與第二端部分13B2之間。從而,因發熱體13係藉由筒狀構件141 所支持,故即便發熱體13之內側為中空,仍能抑制發熱體13之變形。 In Modification 5, the cylindrical member 14 1 is disposed between the liquid holding member 12 and the first end portion 13B 1 in the orthogonal direction B, and the cylindrical member 14 2 is disposed on the liquid holding member in the orthogonal direction B. 12 and the second end portion 13B 2 . Thus, due to heat generation system 13 supported by the cylindrical member 141, so that even when the heat generating element 13 is hollow inside, able to suppress the deformation of the heat generator 13.

〔變更例6〕 [Change example 6]

以下,針對實施形態之變更例6加以說明。以下,主要是針對與實施形態相對的差異點加以說明。 Hereinafter, a modification 6 of the embodiment will be described. In the following, the differences from the embodiment will be mainly described.

在實施形態中,筒狀構件141之內徑係與筒狀構件142之內徑相同。相對於此,在變更例6中,如第11圖所示,筒狀構件141之內徑及外徑係比筒狀構件142之內徑及外徑更大。另外,在第11圖中,係省略了霧化單元外殼111X、帽蓋16及凸緣17等,應予留意。 In the embodiment, the same inner diameter as the inner diameter of the cylindrical member and the line 141 of the cylindrical member 142. In contrast, in Modification Example 6, as shown in Figure 11, inner and outer diameters line of the cylindrical member 141 is larger than the outer diameter of the cylindrical member 142 and the inner diameter. In addition, in FIG. 11, the atomizing unit case 111X, the cap 16, the flange 17, and the like are omitted, and it should be noted.

在如此的事例中,如第11圖所示,發熱體13係具有加熱部分13A及第二端部分13B2,但不具有第一端部分13B1。第二端部分13B2之內側側面係與筒狀構件142之外側側面接觸。換言之,筒狀構件142係配置於發熱體13之內側。另一方面,在筒狀構件141之外側側面或端面係連接有從加熱部分13A拉出至下游的導線。筒狀構件141之外側側面或端面及導線係構成第一接點CP1。 In such a case, as shown in FIG. 11, the heating element 13 includes the heating portion 13A and the second end portion 13B 2 , but does not include the first end portion 13B 1 . The inner side surface of the second end portion 13B 2 is in contact with the outer side surface of the cylindrical member 14 2 . In other words, the cylindrical member 14 2 is disposed inside the heating element 13. On the other hand, the outer side or end lines of the cylindrical member 141 is pulled out from the heating portion is connected to the lead 13A downstream. A tubular outer member and a side or end surface 141 of conductive wires constituting the first contact point CP1.

另外,在第11圖中,為了方便圖示而使導線***,但是實際上,導線係配置在液體保持構件12與筒狀構件14之間,應予留意。 In addition, in FIG. 11, the lead wire is raised for convenience of illustration, but in practice, the lead wire system is arranged between the liquid holding member 12 and the cylindrical member 14, and care should be taken.

(作用及功效) (Function and effect)

在變更例6中,設置於下游側的筒狀構件141之外徑 係比設置於上游側的筒狀構件142之外徑更大。從而,與變更例4及變更例5同樣,比起被覆構件15與筒狀構件142之間的距離,被覆構件15與筒狀構件141之間的距離較小,可抑制在下游側霧氣源對液體保持構件12的過量供給。 In modification 6, the outer diameter is provided on the line 141 is provided on the upstream side is larger than the outer diameter of the cylindrical member 142 of the downstream side of the cylindrical member. Accordingly, with Modification Examples 4 and 5 similarly changed, compared to the distance between the covering member 15 and the cylindrical member 142, the cover member 15 and the small distance between the cylindrical member 141 is suppressed on the downstream side of the mist The source supplies an excessive supply to the liquid holding member 12.

在變更例6中,筒狀構件142係在正交方向B配置於液體保持構件12與第二端部分13B2之間。從而,因發熱體13係藉由筒狀構件142所支持,故即便發熱體13之內側為中空,仍能抑制發熱體13之變形。 In the modification 6, the cylindrical member 14 2 is disposed between the liquid holding member 12 and the second end portion 13B 2 in the orthogonal direction B. Therefore, since the heating element 13 is supported by the cylindrical member 14 2 , even if the inside of the heating element 13 is hollow, the deformation of the heating element 13 can be suppressed.

〔變更例7〕 [Change example 7]

以下,針對實施形態之變更例7加以說明。以下,主要是針對與實施形態相對的差異點加以說明。 Hereinafter, a modification 7 of the embodiment will be described. In the following, the differences from the embodiment will be mainly described.

在變更例7中,係針對變更例4(第9圖)所示的霧化單元111之製造方法加以說明。惟,因霧化單元外殼111X、被覆構件15、帽蓋16及凸緣17之安裝方法,係與實施形態大致同樣,故省略有關此等的安裝方法。在變更例7中,具有沿著預定方向延伸的軸X的基底構件300(治具)係包含:第一支承部分310,具有第一外徑;第二支承部分320,具有比第一外徑更小的第二外徑;基底部分330;以及段差部分340。筒狀構件141之內徑係與第一外徑對應,筒狀構件142之內徑係與第二外徑對應。基底部分330為支持第一支承部分310的構件,且構成卡止筒狀構件141的第一卡止部分;段差部分340為第一支承 部分310及第二支承部分320之境界部分,且構成卡止筒狀構件142的第二卡止部分。 In the modification 7, the manufacturing method of the atomizing unit 111 shown in the modification 4 (FIG. 9) is demonstrated. However, since the installation methods of the atomizing unit casing 111X, the covering member 15, the cap 16, and the flange 17 are substantially the same as those of the embodiment, these installation methods are omitted. In Modification 7, the base member 300 (the jig) having the axis X extending in a predetermined direction includes a first support portion 310 having a first outer diameter, and a second support portion 320 having a first outer diameter. A smaller second outer diameter; a base portion 330; and a stepped portion 340. The inner diameter of the outer diameter of the first system and the cylindrical member 141 corresponding to the cylindrical member and the inner diameter of the second system 142 corresponding to the outer diameter. Base portion 330 of the first support member supporting portion 310, and constitutes a first engaging portion 141 engaging the cylindrical member; stepped portion 340 for the state portion of the first support portion 310 and the second support portion 320, the configuration and engaging a second tubular member 142 of the locking portion.

在變更例7中,所謂筒狀構件141之內徑與第一外徑對應,係指筒狀構件141之內側側面能夠沿著配置於第一支承部分310之外側側面的發熱體13滑動,且如筒狀構件141之內側側面與配置於第一支承部分310的發熱體13接觸般的筒狀構件141之內徑與第一支承部分310之外徑的大小之關係。另一方面,所謂筒狀構件142之內徑與第二外徑對應,係指筒狀構件142之內側側面能夠沿著配置於第二支承部分320之外側側面的發熱體13滑動,且如在筒狀構件142配置於第二支承部分320之外側側面的狀態(例如,製造步驟)中,筒狀構件142之中心軸不從第二支承部分320之中心軸偏移般的筒狀構件142之內徑與第二支承部分320之外徑的大小之關係。 In the modification 7, the so-called inner diameter of the cylindrical member 141 and first outer diameter corresponding to the inner side surface 141 of the cylindrical member means can be arranged on the heat generating element along an outer side surface of the first support portion 310 of the slide 13 , and as the relationship between the inner diameter of the cylindrical member 13 contacts the inner side surface 141 of the body and disposed in the support portion 310 of the first heat-like cylindrical member 141 and the size of the outer diameter of the first portion 310 of the support. On the other hand, the inner diameter of the cylindrical member 14 2 corresponds to the second outer diameter, which means that the inner side surface of the cylindrical member 14 2 can slide along the heating element 13 disposed on the outer side surface of the second support portion 320, and In a state where the cylindrical member 14 2 is disposed on the outer side surface of the second support portion 320 (for example, a manufacturing process), the cylindrical member 14 2 has a central axis that does not deviate from the central axis of the second support portion 320. The relationship between the inner diameter of the shape member 14 2 and the outer diameter of the second support portion 320.

如第12圖(A)所示,以沿著已形成於第一支承部分310之外側側面的螺旋形狀之凹槽或突起的方式配置發熱體13(步驟A)。 As shown in FIG. 12 (A), the heat generating body 13 is arranged so as to follow a spiral-shaped groove or protrusion formed on the outer side surface of the first support portion 310 (step A).

其次,如第12圖(B)所示,沿著軸X使筒狀構件141滑動至能藉由基底部分330來卡止筒狀構件141之位置為止,藉此沿著第一支承部分310之外側側面配置筒狀構件141(步驟E1及步驟E3)。第12圖(B)所示的步驟,為從具有較小之外徑的第二支承部分320側朝向具有較大之外徑的第一支承部分310側配置筒狀構件141的步驟。在此,在沿著軸X的預定方向,筒狀構件141之全長係比 第一支承部分310之全長更短,應予留意。 Next, as FIG. 12 (B), along the axis X of the cylindrical member 141 can be slid to the base portion 330 to the stop position until the card 141 of the cylindrical member, whereby the support portion along a first The cylindrical member 14 1 is disposed on the outer side surface of 310 (step E1 and step E3). Step shown in FIG. 12 (B), having a larger toward the outer diameter side of the first support portion arranged cylindrical member 310 from the side of the second support portion 320 having a smaller outer diameter of the step 141. Here, in a predetermined direction along the X axis, the span line of the tubular member 141 is shorter than the full length of the first support portion 310, should be aware.

其次,如第12圖(C)所示,沿著軸X使筒狀構件142滑動至能藉由段差部分340來卡止筒狀構件142的位置為止,藉此沿著第二支承部分320之外側側面配置筒狀構件142(步驟E2及步驟E4)。第12圖(C)所示的步驟,為從具有較小之外徑的第二支承部分320側朝向具有較大之外徑的第一支承部分310側配置筒狀構件142的步驟。以段差部分340來卡止筒狀構件142,應予留意。藉此,筒狀構件141及筒狀構件142係在彼此分離的狀態下配置。 Next, as FIG. 12 (C), along the axis X of the cylindrical member 142 can be slid to the stepped portion 340 to the stop position of the card until the cylindrical member 142, whereby the second support portion along The cylindrical member 14 2 is disposed on the outer side surface of 320 (step E2 and step E4). The step shown in FIG. 12 (C) is a step of arranging the cylindrical member 14 2 from the side of the second support portion 320 having a smaller outer diameter toward the side of the first support portion 310 having a larger outer diameter. Care should be taken to lock the cylindrical member 14 2 with the step portion 340. Accordingly, the cylindrical member 141 and cylindrical member 142 arranged in lines separated from each other.

其次,如第12圖(D)所示,藉由將從加熱部分13A拉出至上游的導線連接於筒狀構件142之外側側面來構成第二接點CP2。例如,導線係藉由熔接或焊接而固定於筒狀構件142之外側側面。第二接點CP2亦可藉由將導線連接於筒狀構件142之端面所構成。 Next, as shown in FIG. 12 (D), the second contact CP2 is configured by connecting a lead wire drawn from the heating portion 13A to the upstream side to the outer side surface of the cylindrical member 14 2 . For example, the lead wire is fixed to the outer side surface of the cylindrical member 14 2 by welding or welding. The second contact point CP2 is also connected by wire to the end face of the cylindrical member 142 is constituted.

接著,沿著軸X使液體保持構件12滑動,藉此在發熱體13及筒狀構件14之外側側面配置液體保持構件12。亦即,以接觸或接近發熱體13之加熱部分13A的方式配置液體保持構件12(步驟C)。在此,以接觸或接近發熱體13之加熱部分13A的方式配置液體保持構件12的步驟,為從具有較小之外徑的第二支承部分320側朝向具有較大之外徑的第一支承部分310側配置液體保持構件12的步驟。 Next, by sliding the liquid holding member 12 along the axis X, the liquid holding member 12 is disposed on the outer side surface of the heating element 13 and the cylindrical member 14. That is, the liquid holding member 12 is arranged so as to contact or approach the heating portion 13A of the heat generating body 13 (step C). Here, the step of disposing the liquid holding member 12 so as to contact or approach the heating portion 13A of the heating element 13 is from the side of the second support portion 320 having a smaller outer diameter toward the first support having a larger outer diameter. The step of disposing the liquid holding member 12 on the part 310 side.

其次,在第12圖(E)中,以軸X作為旋轉軸使基底構件300(治具)旋轉,使發熱體13之全部從基底構 件300之凹槽或突起分離(步驟B)。藉由第12圖(E)所示的步驟形成霧氣取入口及空氣流路,此係與實施形態相同。 Next, in FIG. 12 (E), the base member 300 (the jig) is rotated with the axis X as a rotation axis, and the entire heating element 13 is removed from the base structure. The grooves or protrusions of the piece 300 are separated (step B). The mist inlet and the air flow path are formed by the steps shown in FIG. 12 (E), which is the same as the embodiment.

雖然在第12圖中省略,但是筒狀構件14係與實施形態同樣,較佳是透過帽蓋16或凸緣17等而固定於霧化單元外殼111X(外殼帽蓋體111X1及外殼筒體111X2)。亦即,第12圖(E)所示的步驟,較佳是在將筒狀構件14固定於霧化單元外殼111X之後進行。 Although omitted in FIG. 12, the cylindrical member 14 is the same as the embodiment, and is preferably fixed to the atomizing unit casing 111X (the casing cap body 111X 1 and the casing tube body) through a cap 16 or a flange 17 and the like 111X 2 ). That is, the step shown in FIG. 12 (E) is preferably performed after the cylindrical member 14 is fixed to the atomizing unit case 111X.

另外,在第12圖中,為了方便圖示而使導線***,但是實際上,導線係配置在液體保持構件12與筒狀構件14之間,應予留意。 In addition, in FIG. 12, the lead wire is raised for convenience of illustration, but in practice, the lead wire system is arranged between the liquid holding member 12 and the cylindrical member 14, and care should be taken.

(作用及功效) (Function and effect)

在變更例7中,係藉由將從加熱部分13A拉出至上游的導線連接於筒狀構件142之外側側面或端面而構成第二接點CP2。從而,可輕易地形成第二接點CP2。 In Modification 7, the second contact point CP2 is configured by connecting a lead wire drawn from the heating portion 13A to the upstream side to the outer side surface or end surface of the cylindrical member 14 2 . Accordingly, the second contact CP2 can be easily formed.

在變更例7中,能藉由基底部分330來卡止筒狀構件141,藉由段差部分340來卡止筒狀構件142。從而,容易決定筒狀構件141及筒狀構件142的位置,且容易使筒狀構件141及筒狀構件142彼此分離與加熱部分13A對應的距離。 In the modification 7, the base portion 330 can be locked to the cylindrical member 141, a stepped portion 340 by engaging the cylindrical member 142. Therefore, the positions of the cylindrical member 14 1 and the cylindrical member 14 2 can be easily determined, and the cylindrical member 14 1 and the cylindrical member 14 2 can be easily separated from each other by a distance corresponding to the heating portion 13A.

在變更例7中,係使筒狀構件141、筒狀構件142及液體保持構件12從具有較小之外徑的第二支承部分320側朝向具有較大之外徑的第一支承部分310側滑動。從而,容易使此等的構件滑動。 In Modification 7, the cylindrical member 14 1 , the cylindrical member 14 2, and the liquid holding member 12 are directed from the second supporting portion 320 side having a smaller outer diameter toward the first supporting portion having a larger outer diameter. 310 side slide. Therefore, it is easy to slide these members.

〔變更例8〕 [Change example 8]

以下,針對實施形態之變更例8加以說明。以下,主要是針對與變更例7相對的差異點加以說明。 Hereinafter, a modification 8 of the embodiment will be described. Hereinafter, the differences from the seventh modification will be mainly described.

在變更例8中,係針對變更例5(第10圖)所示的霧化單元111之製造方法加以說明。惟,因霧化單元外殼111X、被覆構件15、帽蓋16及凸緣17之安裝方法係與實施形態同樣,故省略此等的安裝方法。在變更例8中,係採用與變更例7同樣的基底構件300(治具)。 In the modification 8, the manufacturing method of the atomizing unit 111 shown in the modification 5 (FIG. 10) is demonstrated. However, since the installation methods of the atomizing unit housing 111X, the covering member 15, the cap 16, and the flange 17 are the same as those of the embodiment, these installation methods are omitted. In Modified Example 8, the same base member 300 (fixture) as in Modified Example 7 is used.

在變更例8中,所謂筒狀構件141之內徑與第一外徑對應,係指筒狀構件141之內側側面能夠沿著配置於第一支承部分310之外側側面的發熱體13滑動,且如筒狀構件141之內側側面與配置於第一支承部分310的發熱體13接觸般的筒狀構件141之內徑與第一支承部分310之外徑的大小之關係。同樣地,所謂筒狀構件142之內徑與第二外徑對應,係指筒狀構件142能夠沿著配置於第二支承部分320之外側側面的發熱體13滑動,且如筒狀構件142之內側側面與配置於第二支承部分320的發熱體13接觸般的筒狀構件142之內徑與第二支承部分320之外徑的大小之關係。 In modification 8, the so-called inner diameter of the cylindrical member 141 and first outer diameter corresponding to the inner side surface 141 of the cylindrical member means can be on the outer side of the first support portion 310 arranged along the side surface of the heat generating member 13 slides , and as the relationship between the inner diameter of the cylindrical member 13 contacts the inner side surface 141 of the body and disposed in the support portion 310 of the first heat-like cylindrical member 141 and the size of the outer diameter of the first portion 310 of the support. Similarly, the inner diameter of the cylindrical member 14 2 corresponds to the second outer diameter, which means that the cylindrical member 14 2 can slide along the heating element 13 disposed on the outer side surface of the second support portion 320, and is like a cylindrical member. The relationship between the inner diameter of the inner side surface of 14 2 and the cylindrical member 14 2 which is in contact with the heating element 13 arranged on the second support portion 320 and the outer diameter of the second support portion 320.

如第13圖(A)所示,以沿著形成於第一支承部分310之外側側面及第二支承部分320之外側側面的螺旋形狀之凹槽或突起的方式配置發熱體13(步驟A)。 As shown in FIG. 13 (A), the heating element 13 is arranged so as to follow the spiral grooves or protrusions formed on the outer side surface of the first support portion 310 and the outer side surface of the second support portion 320 (step A). .

其次,如第13圖(B)所示,沿著軸X使筒狀 構件141滑動至能藉由基底部分330來卡止筒狀構件141之位置為止,藉此沿著第一支承部分310之外側側面配置筒狀構件141(步驟E1及步驟E3)。 Next, as FIG. 13 (B), along the axis X of the cylindrical member 141 can be slid to the base portion 330 to the stop position until the card 141 of the cylindrical member, whereby the support portion along a first The cylindrical member 14 1 is disposed on the outer side surface of 310 (step E1 and step E3).

其次,如第13圖(C)所示,沿著軸X使筒狀構件142滑動至能藉由段差部分340來卡止筒狀構件142的位置為止,藉此沿著第二支承部分320之外側側面配置筒狀構件142(步驟E2及步驟E4)。接著,沿著軸X使液體保持構件12滑動,藉此在發熱體13及筒狀構件14之外側側面配置液體保持構件12。 Next, as FIG. 13 (C), along the axis X of the cylindrical member 142 can be slid to the stepped portion 340 to the stop position of the card until the cylindrical member 142, whereby the second support portion along The cylindrical member 14 2 is disposed on the outer side surface of 320 (step E2 and step E4). Next, by sliding the liquid holding member 12 along the axis X, the liquid holding member 12 is disposed on the outer side surface of the heating element 13 and the cylindrical member 14.

其次,在第13圖(D)中,以軸X作為旋轉軸使基底構件300(治具)旋轉,使發熱體13之全部從基底構件300之凹槽或突起分離(步驟B)。藉由第13圖(D)所示的步驟而形成霧氣取入口及空氣流路,此係與實施形態相同。 Next, in FIG. 13 (D), the base member 300 (the jig) is rotated with the axis X as a rotation axis, and the entire heating element 13 is separated from the groove or protrusion of the base member 300 (step B). The mist inlet and the air flow path are formed by the steps shown in FIG. 13 (D), which is the same as the embodiment.

(作用及功效) (Function and effect)

在變更例8中,能藉由基底部分330來卡止筒狀構件141,並藉由段差部分340來卡止筒狀構件142。從而,容易決定筒狀構件141及筒狀構件142的位置,且容易使筒狀構件141及筒狀構件142彼此分離達與加熱部分13A對應的距離。 In modification 8, the base portion 330 can be locked to the cylindrical member 141, and the stepped portion 340 by engaging the cylindrical member 142. Thus, easy to determine the position of the cylindrical member 141 and cylindrical member 142, and is easy to make the cylindrical member 141 and cylindrical member 142 separated from each other up to the distance corresponding to the heated portion 13A.

在變更例8中,係使筒狀構件141、筒狀構件142及液體保持構件12從具有較小之外徑的第二支承部分320側朝向具有較大之外徑的第一支承部分310側滑動。從而,容易使此等的構件滑動。 In the modification 8, the cylindrical member 14 1 , the cylindrical member 14 2, and the liquid holding member 12 are directed from the second supporting portion 320 side having a smaller outer diameter toward the first supporting portion having a larger outer diameter. 310 side slide. Therefore, it is easy to slide these members.

〔變更例9〕 [Change Example 9]

以下,針對實施形態之變更例9加以說明。以下,主要是針對與變更例7相對的差異點加以說明。 Hereinafter, a modification example 9 of the embodiment will be described. Hereinafter, the differences from the seventh modification will be mainly described.

在變更例9中,係針對變更例6(第11圖)所示的霧化單元111之製造方法加以說明。惟,因霧化單元外殼111X、被覆構件15、帽蓋16及凸緣17之安裝方法係與實施形態同樣,故省略此等的安裝方法。在變更例9中係採用與變更例7同樣的基底構件300(治具)。 In the modification 9, the manufacturing method of the atomizing unit 111 shown in the modification 6 (FIG. 11) is demonstrated. However, since the installation methods of the atomizing unit housing 111X, the covering member 15, the cap 16, and the flange 17 are the same as those of the embodiment, these installation methods are omitted. In the modification 9, the same base member 300 (fixture) as the modification 7 is used.

在變更例9中,所謂筒狀構件141之內徑與第一外徑對應,係指筒狀構件141之內側側面能夠沿著第一支承部分310之外側側面滑動,且如在筒狀構件141配置於第一支承部分310之外側側面的狀態(例如,製造步驟)中,筒狀構件141之中心軸不從第一支承部分310之中心軸偏移般的筒狀構件141之內徑與第一支承部分310之外徑的大小之關係。同樣地,所謂筒狀構件142之內徑與第二外徑對應,係指筒狀構件142之內側側面能夠沿著第二支承部分320之外側側面滑動,且如筒狀構件142配置於第二支承部分320之外側側面的狀態(例如,製造步驟)中,筒狀構件142之中心軸不從第二支承部分320之中心軸偏移般的筒狀構件142之內徑與第二支承部分320之外徑的大小之關係。 In modification 9, the so-called inner diameter of the cylindrical member 141 and first outer diameter corresponding to the inner side surface 141 of the cylindrical member means slidable along the outer side surface of the first support portion 310, and as the cylindrical state (e.g., manufacturing step) member 141 is disposed outside of the first side of the support portion 310, the central axis of the cylindrical member 141 is not from the central portion 310 of the first support shaft offset cylindrical-like member 141 The relationship between the inner diameter and the outer diameter of the first support portion 310. Similarly, the inner diameter of the cylindrical member 14 2 corresponds to the second outer diameter, which means that the inner side surface of the cylindrical member 14 2 can slide along the outer side surface of the second support portion 320 and is arranged as the cylindrical member 14 2 state to the outer side surface of the second support portion 320 (e.g., manufacturing step), the central axis of the cylindrical member 142 is not supported from the inner diameter of the second portion 320 of the central axis offset cylindrical-like member 142 of the The relationship between the size of the outer diameter of the second support portion 320.

如第14圖(A)所示,沿著軸X使筒狀構件141滑動至能藉由基底部分330來卡止筒狀構件141之位置為 止,藉此沿著第一支承部分310之外側側面配置筒狀構件141(步驟E1及步驟E3)。 As in FIG. 14 (A), along the axis X of the cylindrical member 141 can be slid to the base portion 330 to the stop position until the card 141 of the cylindrical member, whereby the first support portion 310 along the The cylindrical member 14 1 is disposed on the outer side surface (step E1 and step E3).

其次,如第14圖(B)所示,沿著軸X使筒狀構件142滑動至能藉由段差部分340來卡止筒狀構件142的位置為止,藉此沿著第二支承部分320之外側側面配置筒狀構件142(步驟E2及步驟E4)。 Next, as FIG. 14 (B), along the axis X of the cylindrical member 142 can be slid to the stepped portion 340 to the stop position of the card until the cylindrical member 142, whereby the second support portion along The cylindrical member 14 2 is disposed on the outer side surface of 320 (step E2 and step E4).

在此,在沿著第二支承部分320之外側側面使筒狀構件142滑動之後,筒狀構件142之外側側面,較佳是與第一支承部分310之外側側面未具有段差。換言之,筒狀構件142之外徑,較佳是與第一支承部分310之外徑相等。 Here, after the cylindrical member 142 slides along the second bearing portion 320 of the outer side, the outer side surface 142 of the cylindrical member, preferably with the outer side surface of the first support portion 310 has a level difference not. In other words, the outer diameter of the cylindrical member 14 2 is preferably equal to the outer diameter of the first support portion 310.

其次,如第14圖(C)所示,在第一支承部分310之外側側面及筒狀構件142之外側側面配置發熱體13(步驟A)。在此,在第一支承部分310之外側側面,係設置有螺旋形狀之凹槽或突起。再者,在筒狀構件142之外側側面,較佳亦設置有螺旋形狀之凹槽或突起。形成於筒狀構件142之外側側面的螺旋狀之凹槽或突起,較佳是與形成於第一支承部分310之外側側面的螺旋狀之凹槽或突起連續。步驟A係以沿著形成於第一支承部分310之外側側面及筒狀構件142之外側側面的螺旋狀之凹槽或突起的方式配置發熱體13的步驟。 Next, as shown in FIG. 14 (C), the heating element 13 is disposed on the outer side surface of the first support portion 310 and the outer side surface of the cylindrical member 14 2 (step A). Here, a spiral-shaped groove or protrusion is provided on the outer side surface of the first support portion 310. Furthermore, it is preferable that a spiral-shaped groove or protrusion is also provided on the outer side surface of the cylindrical member 14 2 . The spiral grooves or protrusions formed on the outer side surface of the cylindrical member 14 2 are preferably continuous with the spiral grooves or protrusions formed on the outer side surface of the first support portion 310. Step A is a step of arranging the heating element 13 along the spiral grooves or protrusions formed on the outer side surface of the first support portion 310 and the outer side surface of the cylindrical member 14 2 .

其次,如第14圖(D)所示,藉由將從加熱部分13A拉出至下游的導線連接於筒狀構件141之外側側面而構成第一接點CP1。例如,導線係藉由熔接或焊接而固 定於筒狀構件141之外側側面。第一接點CP1亦可藉由將導線連接於筒狀構件141之端面所構成。 Next, as FIG. 14 (D) shown by the heating portion 13A is pulled out from the wire connected to the downstream outer side surface 141 of the cylindrical member to form a first contact point CP1. For example, by welding or soldering conductive wires fixed to the outer side surface 141 of the cylindrical member. CP1 by the first contact may be connected to a lead end surface of the cylindrical member 141 of the configuration.

接著,沿著軸X使液體保持構件12滑動,藉此在發熱體13及筒狀構件14之外側側面配置液體保持構件12。亦即,以接觸或接近發熱體13之加熱部分13A的方式配置液體保持構件12(步驟C)。 Next, by sliding the liquid holding member 12 along the axis X, the liquid holding member 12 is disposed on the outer side surface of the heating element 13 and the cylindrical member 14. That is, the liquid holding member 12 is arranged so as to contact or approach the heating portion 13A of the heat generating body 13 (step C).

其次,在第14圖(E)中,以軸X作為旋轉軸使基底構件300(治具)旋轉,使發熱體13之全部從基底構件300之凹槽或突起分離(步驟B)。藉由第14圖(E)所示的步驟形成霧氣取入口及空氣流路,此係與實施形態同樣。 Next, in FIG. 14 (E), the base member 300 (the jig) is rotated with the axis X as a rotation axis, and the entire heating element 13 is separated from the groove or protrusion of the base member 300 (step B). The mist inlet and the air flow path are formed by the steps shown in FIG. 14 (E), which is the same as the embodiment.

另外,在第14圖中,為了方便圖示而使導線***,但是實際上,導線係配置在液體保持構件12與筒狀構件14之間,應予留意。 In addition, in FIG. 14, the lead wire is raised for convenience of illustration, but in practice, the lead wire system is arranged between the liquid holding member 12 and the cylindrical member 14, and care should be taken.

(作用及功效) (Function and effect)

在變更例9中,係藉由將從加熱部分13A拉出至下游的導線連接於筒狀構件141之外側側面或端面而構成第一接點CP1。從而,可以輕易地形成第一接點CP1。 In the modification example 9, by lines drawn from the heating portion 13A is connected to a downstream wire member to the outer cylindrical side surface or end surface 141 of the first contact is configured CP1. Therefore, the first contact CP1 can be easily formed.

在變更例9中,能藉由基底部分330來卡止筒狀構件141,並藉由段差部分340來卡止筒狀構件142。從而,容易決定筒狀構件141及筒狀構件142的位置,且容易使筒狀構件141及筒狀構件142彼此分離達與加熱部分13A對應的距離。 In the modification example 9, the base portion 330 can be locked to the cylindrical member 141, and the stepped portion 340 by engaging the cylindrical member 142. Thus, easy to determine the position of the cylindrical member 141 and cylindrical member 142, and is easy to make the cylindrical member 141 and cylindrical member 142 separated from each other up to the distance corresponding to the heated portion 13A.

在變更例9中,係使筒狀構件141、筒狀構件 142及液體保持構件12從具有較小之外徑的第二支承部分320側朝向具有較大之外徑的第一支承部分310側滑動。從而,容易使此等的構件滑動。 In the modification 9, the cylindrical member 14 1 , the cylindrical member 14 2, and the liquid holding member 12 are directed from the second support portion 320 side having a smaller outer diameter toward the first support portion having a larger outer diameter. 310 side slide. Therefore, it is easy to slide these members.

在變更例9中,較佳是以沿著形成於第一支承部分310之外側側面及筒狀構件142之外側側面的螺旋狀之凹槽或突起的方式配置發熱體13。藉由如此的構成,就不易在筒狀構件142之外側側面與第一成部分310之外側側面之間形成段差,而容易配置發熱體13。又,因發熱體13(第二端部分13B2)配置於筒狀構件142之外側側面,故容易固定筒狀構件142和發熱體13(第二端部分13B2)。 In the modification 9, it is preferable to arrange the heating element 13 along the spiral grooves or protrusions formed on the outer side surface of the first support portion 310 and the outer side surface of the cylindrical member 14 2 . With this configuration, it is difficult to form a step between the outer side surface of the cylindrical member 14 2 and the outer side surface of the first component 310, and it is easy to arrange the heating element 13. In addition, since the heating element 13 (second end portion 13B 2 ) is disposed on the outer side surface of the cylindrical member 14 2 , it is easy to fix the cylindrical member 14 2 and the heating element 13 (second end portion 13B 2 ).

〔變更例10〕 [Change example 10]

以下,針對實施形態之變更例10加以說明。以下,主要是針對與實施形態相對的差異點加以說明。 Hereinafter, a modified example 10 of the embodiment will be described. In the following, the differences from the embodiment will be mainly described.

在實施形態中,凸緣171係配置於帽蓋16之下游端面。相對於此,在變更例10中,如第15圖所示,並未特別設置有凸緣171,而是使從電源之第一極延伸的導線18連接於筒狀構件141之內側側面。導線18亦可通過霧化單元外殼111X內部而導引至筒狀構件141In the embodiment, the flange 17 1 is disposed on the downstream end surface of the cap 16. In contrast, in the modification 10, as shown in FIG. 15, the flange 17 1 is not particularly provided, but the lead wire 18 extending from the first pole of the power source is connected to the inner side surface of the cylindrical member 14 1 . . The lead wire 18 may also be guided to the cylindrical member 14 1 through the interior of the atomizing unit housing 111X.

在變更例10中,導線18係在將帽蓋16從貯存器11分離之方向的分離方向,設置於帽蓋16之下游。換言之,當欲將帽蓋16從貯存器11分離時,導線18會勾到帽蓋16。從而,因導線18被帽蓋16勾住,故會發生導線18從筒狀構件141之剝離、導線18之斷線,或起因於 筒狀構件141被導線18勾住而造成的發熱體13之變形。 In the modification 10, the lead wire 18 is provided in the separation direction of the direction in which the cap 16 is separated from the reservoir 11, and is provided downstream of the cap 16. In other words, when the cap 16 is to be detached from the reservoir 11, the wire 18 is hooked to the cap 16. Therefore, since the lead wire 18 is caught by the cap 16, peeling of the lead wire 18 from the cylindrical member 14 1 , disconnection of the lead wire 18, or a heating body caused by the hooking of the cylindrical member 14 1 by the lead 18 may occur. Deformation of 13.

又,帽蓋16係固定或嵌合於筒狀構件141。從而,當欲將帽蓋16從貯存器11分離時,就會發生起因於筒狀構件141被拉伸而造成的發熱體13之變形。 The cap 16 is fixed or fitted to the cylindrical member 14 1 . Therefore, when the cap 16 is to be separated from the reservoir 11, deformation of the heating element 13 due to the stretching of the cylindrical member 14 1 occurs.

(作用及功效) (Function and effect)

在變更例10中,導線18係在將帽蓋16從貯存器11分離之方向的分離方向比帽蓋16更設置於下游。從而,當欲將帽蓋16從貯存器11分離時,因發熱體13或電力供給構件破損,而可有效地抑制伴隨霧氣源對貯存器11之再注入的香味吸嘗器之利用。 In the modified example 10, the lead wire 18 is provided further downstream than the cap 16 in a separating direction in which the cap 16 is separated from the reservoir 11. Therefore, when the cap 16 is to be separated from the reservoir 11, the heating element 13 or the power supply member is damaged, which can effectively suppress the use of the flavor inhaler accompanying the re-injection of the reservoir 11 with the mist source.

〔變更例11〕 [Change Example 11]

以下,針對實施形態之變更例11加以說明。以下,主要是針對與實施形態相對的差異點加以說明。 Hereinafter, a modified example 11 of the embodiment will be described. In the following, the differences from the embodiment will be mainly described.

在實施形態中,凸緣171係配置於帽蓋16之下游端面。相對於此,在變更例11中,如第16圖所示,凸緣171係配置於帽蓋16之上游端面。在此,在凸緣171係連接有從電源之第一極延伸的導線18。導線18亦可通過帽蓋16之內部而導引至凸緣171In the embodiment, the flange 17 1 is disposed on the downstream end surface of the cap 16. In contrast, in Modification 11, as shown in FIG. 16, the flange 17 1 is disposed on the upstream end surface of the cap 16. Here, the flange 171 is connected to lines extending from the first lead electrode 18 of the power supply. The lead 18 can also be guided to the flange 17 1 through the inside of the cap 16.

(作用及功效) (Function and effect)

在變更例11中,與變更例10同樣,導線18係通過帽蓋16之內部而配置。從而,當欲將帽蓋16從貯存器11分 離時,因發熱體13或電力供給構件破損,可有效地抑制伴隨霧氣源對貯存器11之再注入的香味吸嘗器之利用。 In the modification 11, similar to the modification 10, the lead wires 18 are arranged through the inside of the cap 16. Therefore, when the cap 16 is to be removed from the reservoir 11 minutes At the time of leaving, because the heating element 13 or the power supply member is damaged, it is possible to effectively suppress the use of the flavor inhaler accompanying the refilling of the reservoir 11 with the mist source.

〔變更例12〕 [Change Example 12]

以下,針對實施形態之變更例12加以說明。以下,主要是針對與實施形態相對的差異點加以說明。在變更例12中,除了霧化單元111,香味吸嘗器100之構成係與實施形態同樣,應予留意。 Hereinafter, a modified example 12 of the embodiment will be described. In the following, the differences from the embodiment will be mainly described. In Modification 12, the configuration of the flavor scenting device 100 is the same as that of the embodiment except for the atomizing unit 111, and it should be noted.

在實施形態中,進氣口112A係設置於電裝單元外殼112X,且在筒狀構件14之外側側面配置有液體保持構件12,筒狀構件14係形成空氣流路。相對於此,在變更例12中,進氣口112A係設置於霧化單元外殼111X,且在筒狀構件14之內側配置有液體保持構件12,在筒狀構件14之外側形成空氣流路。 In the embodiment, the air inlet 112A is provided in the electrical unit housing 112X, and the liquid holding member 12 is disposed on the outer side surface of the cylindrical member 14, and the cylindrical member 14 forms an air flow path. In contrast, in Modification 12, the air inlet 112A is provided in the atomizing unit housing 111X, and the liquid holding member 12 is disposed inside the cylindrical member 14, and an air flow path is formed outside the cylindrical member 14.

具體而言,如第17圖所示,霧化單元111係具有貯存器11、液體保持構件12、發熱體13及筒狀構件14。貯存器11、液體保持構件12、發熱體13及筒狀構件14,係收容於具有進氣口112A的霧化單元外殼111X。液體保持構件12係具有:***筒狀構件14內的***部分;以及從筒狀構件14露出的露出部分。***部分係與蓄存於貯存器11的霧氣源接觸。露出部分係比***部分更朝向正交方向B***。 Specifically, as shown in FIG. 17, the atomizing unit 111 includes a reservoir 11, a liquid holding member 12, a heating element 13, and a cylindrical member 14. The reservoir 11, the liquid holding member 12, the heating element 13, and the cylindrical member 14 are housed in an atomizing unit case 111X having an air inlet 112A. The liquid holding member 12 includes an insertion portion inserted into the cylindrical member 14 and an exposed portion exposed from the cylindrical member 14. The insertion portion is in contact with a mist source stored in the reservoir 11. The exposed portion is raised toward the orthogonal direction B than the inserted portion.

發熱體13係跨越筒狀構件14之外側側面及液體保持構件12之露出部分的外側側面而配置。發熱體 13係以接觸或接近液體保持構件12之露出部分的方式配置。 The heating element 13 is disposed across the outer side surface of the cylindrical member 14 and the outer side surface of the exposed portion of the liquid holding member 12. heating stuff 13 is arranged so as to contact or approach the exposed portion of the liquid holding member 12.

在變更例12中,從進氣口112A導入的空氣係通過筒狀構件14及液體保持構件12之露出部分的外側側面而導引至下游,且將在發熱體13霧化後的霧氣送達至下游側。在變更例12中,筒狀構件14並未藉由導電性構件所構成,發熱體13係藉由導線等的電力供給構件來與電源連接。 In the modification 12, the air introduced from the air inlet 112A is guided downstream through the outer side surfaces of the exposed portions of the cylindrical member 14 and the liquid holding member 12, and the mist generated by the heating element 13 is delivered to Downstream side. In the modification 12, the cylindrical member 14 is not constituted by a conductive member, and the heating element 13 is connected to a power source by a power supply member such as a lead wire.

〔變更例13〕 [Change Example 13]

以下,針對實施形態之變更例13加以說明。以下,主要是針對與實施形態相對的差異點加以說明。 Hereinafter, a modification example 13 of the embodiment will be described. In the following, the differences from the embodiment will be mainly described.

在變更例13中,係針對在變更例12中所說明的霧化單元111之製造方法加以說明。第18圖係用以說明變更例13的霧化單元111之製造方法的圖。另外,在第18圖中,係省略了霧化單元外殼111X、帽蓋16及凸緣17等,應予留意。 In Modification 13, the manufacturing method of the atomizing unit 111 described in Modification 12 will be described. FIG. 18 is a diagram for explaining a method of manufacturing the atomizing unit 111 according to Modification 13. FIG. In addition, in Fig. 18, the atomizing unit case 111X, the cap 16 and the flange 17 are omitted, and it should be noted.

具體而言,如第18圖(A)所示,以沿著形成於筒狀構件14之外側側面的螺旋形狀之凹槽或突起的方式配置有發熱體13(步驟A),該筒狀構件14係具有沿著預定方向A延伸的軸X。並且,電性連接筒狀構件14和發熱體13(步驟D)。在此,在正交方向B的筒狀構件14之內側配置有液體保持構件12,應予留意。 Specifically, as shown in FIG. 18 (A), the heating element 13 is disposed along a spiral groove or protrusion formed on the outer side surface of the cylindrical member 14 (step A). The 14 series has an axis X extending along a predetermined direction A. Then, the cylindrical member 14 and the heating element 13 are electrically connected (step D). It should be noted that the liquid holding member 12 is disposed inside the cylindrical member 14 in the orthogonal direction B.

其次,在第18圖(B)中,以軸X作為旋轉軸 使筒狀構件14旋轉,使發熱體13之一部分從筒狀構件14之凹槽或突起分離(步驟B)。 Next, in Figure 18 (B), the axis X is used as the rotation axis. The cylindrical member 14 is rotated to separate a part of the heating element 13 from the groove or protrusion of the cylindrical member 14 (step B).

在變更例13中,因藉由使發熱體13之一部分從筒狀構件14之凹槽或突起分離,就能解除液體保持構件12朝向外側方向之膨脹抑制,故能以接觸或接近發熱體13的方式配置液體保持構件12(步驟C)。 In the modified example 13, since a part of the heating element 13 is separated from the groove or protrusion of the cylindrical member 14, the expansion suppression of the liquid holding member 12 toward the outside can be released, so that the heating element 13 can be contacted or approached The liquid holding member 12 is disposed in a manner (step C).

亦即,第18圖(B)所示的步驟為藉由筒狀構件14之旋轉,使發熱體13之一部分從筒狀構件14分離,且使已配置於筒狀構件14之內側的液體保持構件12之一部分從筒狀構件14分離,且藉由該液體保持構件12之一部分的膨脹來使該液體保持構件12之一部分接觸或接近發熱體13之一部分的步驟(步驟B及步驟C)。在使液體保持構件12之一部分接觸發熱體13之一部分的事例中,第18圖(B)所示的步驟為使液體保持構件12按壓發熱體13之一部分(加熱部分13A)的內側側面的狀踏下配置液體保持構件12的步驟。再者,第18圖(B)所示的步驟為以接觸發熱體13之一部分(加熱部分13A)的內側側面之全周的方式配置液體保持構件12的步驟。 That is, in the step shown in FIG. 18 (B), a portion of the heating element 13 is separated from the cylindrical member 14 by the rotation of the cylindrical member 14 and the liquid that has been disposed inside the cylindrical member 14 is retained. A step in which a part of the member 12 is separated from the cylindrical member 14 and a part of the liquid holding member 12 is brought into contact with or close to a part of the heating element 13 by the expansion of a part of the liquid holding member 12 (steps B and C). In the case where a part of the liquid holding member 12 is brought into contact with a part of the heating body 13, the step shown in FIG. The step of disposing the liquid holding member 12 is performed. In addition, the step shown in FIG. 18 (B) is a step of disposing the liquid holding member 12 so as to contact the entire periphery of the inner side surface of a part of the heating element 13 (the heating portion 13A).

在此,在使發熱體13之一部分從筒狀構件14之凹槽或突起分離的情況時,較佳是以液體保持構件12不會伴隨筒狀構件14之旋轉而沿著預定方向A移動的方式,至少固定液體保持構件12,應予留意。固定液體保持構件12的對象係只要是不會伴隨筒狀構件14之旋轉而移動者即可。 Here, when a part of the heating element 13 is separated from the groove or protrusion of the cylindrical member 14, it is preferable that the liquid holding member 12 does not move along the predetermined direction A with the rotation of the cylindrical member 14. Mode, at least fixing the liquid holding member 12 should be paid attention to. The object to which the liquid holding member 12 is fixed may be any person as long as it does not move with the rotation of the cylindrical member 14.

另外,在將發熱體13固定於筒狀構件14的事例中,如此的固定步驟,係在使發熱體13之一部分從筒狀構件14之凹槽或突起分離之後進行。 In the case where the heating element 13 is fixed to the cylindrical member 14, such a fixing step is performed after a part of the heating element 13 is separated from the groove or protrusion of the cylindrical member 14.

在變更例13中,在筒狀構件14之內側配置有液體保持構件12的狀態下,使發熱體13之一部分從筒狀構件14之凹槽或突起分離,但是亦可在使發熱體13之一部分從筒狀構件14之凹槽或突起分離之後,以接觸或接近發熱體13的方式配置液體保持構件12。例如,亦可在使發熱體13之一部分從筒狀構件14之凹槽或突起分離的狀態中,從未設置有發熱體13的一側朝向設置有發熱體13的一側,將液體保持構件12壓入於筒狀構件14,藉此使液體保持構件12之露出部分與發熱體13接觸或接近。 In Modification 13, in a state where the liquid holding member 12 is disposed inside the cylindrical member 14, a part of the heating element 13 is separated from the groove or protrusion of the cylindrical member 14. After a part is separated from the groove or protrusion of the cylindrical member 14, the liquid holding member 12 is arranged so as to contact or approach the heating element 13. For example, in a state where a part of the heating element 13 is separated from the groove or protrusion of the cylindrical member 14, the liquid holding member may be turned from the side where the heating element 13 is not provided to the side where the heating element 13 is provided. 12 is pressed into the cylindrical member 14, thereby bringing the exposed portion of the liquid holding member 12 into contact with or approaching the heating element 13.

〔變更例14〕 [Change Example 14]

以下,針對實施形態之變更例14加以說明。以下,主要是針對與實施形態相對的差異點加以說明。 Hereinafter, a modified example 14 of the embodiment will be described. In the following, the differences from the embodiment will be mainly described.

在實施形態中,具有圓柱形狀之治具的基底構件300係不包含於霧化單元111中作為霧化單元111之構成。然而,在變更例14中,基底構件300係作為霧化單元111之構成而包含於霧化單元111中。 In the embodiment, the base member 300 having a cylindrical jig is not included in the atomizing unit 111 as a structure of the atomizing unit 111. However, in Modification 14, the base member 300 is included in the atomizing unit 111 as a configuration of the atomizing unit 111.

亦即,在變更例14中,如第19圖所示,霧化單元111係至少具備:基底構件300,具有沿著預定方向A延伸的軸;發熱體13,以沿著形成於基底構件300之側面的螺旋形狀之凹槽或突起的方式所配置;液體保持構 件12,以接觸或接近發熱體13之至少一部分的方式所配置,且保持霧氣源;以及霧化單元外殼111X,收容發熱體13及液體保持構件12。基底構件300之至少一部分,較佳是從霧化單元外殼111X露出。惟,霧化單元111係與實施形態同樣,亦可包含其他的構成(例如,筒狀構件14、被覆構件15、帽蓋16及凸緣17等)。 That is, in Modification 14, as shown in FIG. 19, the atomizing unit 111 includes at least: a base member 300 having an axis extending in a predetermined direction A; and a heating element 13 formed along the base member 300. Helical grooves or protrusions on the sides; liquid holding structure The component 12 is arranged to contact or approach at least a part of the heating element 13 and maintains a mist source; and the atomizing unit housing 111X houses the heating element 13 and the liquid holding member 12. At least a part of the base member 300 is preferably exposed from the atomizing unit case 111X. However, similarly to the embodiment, the atomizing unit 111 may include other structures (for example, the cylindrical member 14, the covering member 15, the cap 16, the flange 17, and the like).

在變更例14的霧化單元111之製造方法中,係具有在基底構件300之一部分從霧化單元外殼111X露出的狀態下,將發熱體13及液體保持構件12收容於霧化單元外殼111X內的步驟(步驟F),以取代以軸X作為旋轉軸使基底構件300旋轉,使發熱體13從凹槽或突起分離的步驟(步驟B)。使發熱體13從凹槽或突起分離的步驟,例如是取得霧化單元111的使用者在使用霧化單元111時進行。 In the manufacturing method of the atomizing unit 111 of the modification 14, the heating element 13 and the liquid holding member 12 are housed in the atomizing unit case 111X in a state where a part of the base member 300 is exposed from the atomizing unit case 111X. Step (step F), instead of the step of rotating the base member 300 with the axis X as a rotation axis, and separating the heating element 13 from the groove or protrusion (step B). The step of separating the heating element 13 from the groove or the protrusion is performed by, for example, a user who obtains the atomizing unit 111 when using the atomizing unit 111.

另外,在第19圖中係與實施形態(例如,第4圖及第5圖)等同樣,例示基底構件300為治具的事例。然而,變更例14不限定於第19圖所示之例。如變更例2之第7圖(A)或變更例3之第8圖(A)所示,基底構件300亦可為筒狀構件14(筒狀構件141及筒狀構件142)。在如此的事例中,液體保持構件12係以軸X作為旋轉軸使筒狀構件14旋轉,使發熱體13從凹槽或突起分離,藉此,以接觸或接近發熱體13之至少一部分的方式配置。在具有如此之構成的霧化單元111中,筒狀構件14之一部分,較佳是從霧化單元外殼111X露出。 In addition, in FIG. 19, similarly to the embodiment (for example, FIGS. 4 and 5), the example in which the base member 300 is a jig is illustrated. However, the modified example 14 is not limited to the example shown in FIG. 19. As shown in FIG. 7 (A) of Modified Example 2 or FIG. 8 (A) of Modified Example 3, the base member 300 may be a cylindrical member 14 (a cylindrical member 14 1 and a cylindrical member 14 2 ). In such an example, the liquid holding member 12 rotates the cylindrical member 14 with the axis X as a rotation axis, and separates the heating element 13 from the groove or protrusion, thereby contacting or approaching at least a part of the heating element 13 Configuration. In the atomizing unit 111 having such a structure, a part of the cylindrical member 14 is preferably exposed from the atomizing unit casing 111X.

(作用及功效) (Function and effect)

在變更例14中,因是在使用者使用時使基底構件300從發熱體13分離,故至使用者使用霧化單元111為止,能維持藉由基底構件300保持發熱體13的狀態。從而,至使用者使用霧化單元111為止,能抑制發熱體13之變形。又,因基底構件300具有蓋子的功能,故至使用者使用霧化單元111為止,能抑制霧氣源之洩漏。再者,可明確地掌握霧化單元111之使用前後。 In the modified example 14, the base member 300 is separated from the heat generating body 13 when the user uses it, and the state in which the heat generating body 13 is held by the base member 300 can be maintained until the user uses the atomizing unit 111. Therefore, until the user uses the atomizing unit 111, deformation of the heating element 13 can be suppressed. In addition, since the base member 300 has a function of a cover, until the user uses the atomizing unit 111, leakage of the mist source can be suppressed. Moreover, the before and after use of the atomizing unit 111 can be clearly grasped.

在變更例14中,基底構件300之至少一部分較佳是從霧化單元外殼111X露出。藉由如此的構成,可容易在霧化單元111之使用前,依基底構件300之旋轉而使發熱體13從凹槽或突起分離。 In Modification 14, at least a part of the base member 300 is preferably exposed from the atomizing unit case 111X. With such a configuration, the heating element 13 can be easily separated from the groove or the protrusion according to the rotation of the base member 300 before the atomizing unit 111 is used.

在變更例14中,將發熱體13及液體保持構件12收容於霧化單元外殼111X內的步驟,較佳是在基底構件300之一部分已從霧化單元外殼111X露出的狀態下進行。藉由如此的方法,就容易在霧化單元111之使用前,藉由基底構件300之旋轉而使發熱體13從凹槽或突起分離。 In the modification 14, the step of accommodating the heating element 13 and the liquid holding member 12 in the atomizing unit case 111X is preferably performed in a state where a part of the base member 300 has been exposed from the atomizing unit case 111X. With this method, it is easy to separate the heating element 13 from the groove or protrusion by the rotation of the base member 300 before the atomizing unit 111 is used.

〔變更例15〕 [Change example 15]

以下,針對實施形態之變更例15加以說明。以下,主要是針對與實施形態相對的差異點加以說明。 Hereinafter, modification 15 of the embodiment will be described. In the following, the differences from the embodiment will be mainly described.

在實施形態中,貯存器11係在正交方向B配置於液體保持構件12之外側。相對於此,在變更例15 中,貯存器11係在預定方向A與液體保持構件12及發熱體13排列配置。 In the embodiment, the reservoir 11 is disposed outside the liquid holding member 12 in the orthogonal direction B. In contrast, in Modification Example 15 The reservoir 11 is arranged in a predetermined direction A with the liquid holding member 12 and the heating element 13.

具體而言,如第20圖所示,霧化單元111除了第2圖所示的構成,還具有支承構件21。如上述般,貯存器11係在預定方向A與液體保持構件12及發熱體13排列配置。支承構件21係支持液體保持構件12,並且支持發熱體13。 Specifically, as shown in FIG. 20, the atomizing unit 111 includes a support member 21 in addition to the configuration shown in FIG. 2. As described above, the reservoir 11 is aligned with the liquid holding member 12 and the heating element 13 in the predetermined direction A. The support member 21 supports the liquid holding member 12 and supports the heating element 13.

在變更例15中,第一端部分13B1及電力供給構件13C係由電阻係數比構成加熱部分13A的金屬線更低的導電性構件所被覆,第二端部分13B2及電力供給構件13D係由電阻係數比構成加熱部分13A的金屬線更低的導電性構件所被覆。另一方面,加熱部分13A並未由電阻係數比構成加熱部分13A的金屬線更低的導電性構件所被覆,而是使金屬線露出。依據如此的構成,可將構成發熱體13(線圈)的金屬線之端部以外之品質良好的部分作為加熱部分13A來使用。另外,第一端部分13B1、第二端部分13B2、電力供給構件13C及電力供給構件13D,較佳是在與構成加熱部分13A的金屬線相同之金屬線,具有被覆有電阻係數比金屬線更低的導電性構件的構成。藉由形成如此的構成,可容易一體地製造品質良好的第一端部分13B1、第二端部分13B2、電力供給構件13C、電力供給構件13D及加熱部分13A。另外,例如在金屬線為鎳鉻合金製的情況下,可使用銅、錫、銀等之電阻係數比鎳鉻合金更低的金屬作為導電性構件。 In Modification 15, the first end portion 13B 1 and the power supply member 13C are covered with a conductive member having a lower resistivity than the metal wire constituting the heating portion 13A, and the second end portion 13B 2 and the power supply member 13D are It is covered with a conductive member having a lower resistivity than the metal wire constituting the heating portion 13A. On the other hand, the heating portion 13A is not covered with a conductive member having a lower resistivity than the metal wire constituting the heating portion 13A, but the metal wire is exposed. With such a configuration, a portion having a good quality other than the end portion of the metal wire constituting the heating element 13 (coil) can be used as the heating portion 13A. In addition, the first end portion 13B 1 , the second end portion 13B 2 , the power supply member 13C, and the power supply member 13D are preferably the same metal wires as the metal wires constituting the heating portion 13A, and are coated with a resistivity ratio metal. The structure of a lower conductive member. With such a configuration, the first end portion 13B 1 , the second end portion 13B 2 , the power supply member 13C, the power supply member 13D, and the heating portion 13A with good quality can be easily and integrally manufactured. In addition, for example, when the metal wire is made of a nickel-chromium alloy, a metal having a lower resistivity than a nickel-chromium alloy, such as copper, tin, or silver, can be used as the conductive member.

再者,如第20圖所示,霧化單元111係具有液量調整構件19。如第21圖所示,液量調整構件19係具有開口19A及開口19B,例如具有圓盤狀之形狀的構件。開口19A為用以形成空氣流路的開口,且使筒狀構件14之內側與發熱體13之內側連通的開口。開口19B為用以從貯存器11對液體保持構件12供給霧氣源的開口,且使貯存器11和液體保持構件12連通的開口。 As shown in FIG. 20, the atomizing unit 111 includes a liquid amount adjusting member 19. As shown in FIG. 21, the liquid amount adjusting member 19 is a member having an opening 19A and an opening 19B, for example, having a disk-like shape. The opening 19A is an opening for forming an air flow path, and the inside of the cylindrical member 14 communicates with the inside of the heating element 13. The opening 19B is an opening for supplying a mist source from the reservoir 11 to the liquid holding member 12, and an opening for communicating the reservoir 11 and the liquid holding member 12.

在變更例15中,貯存器11亦可為用以蓄存霧氣源的空洞。在如此的事例中,蓄存於貯存器11的霧氣源係通過液量調整構件19之開口19B而供給至液體保持構件12。供給至液體保持構件12的霧氣源,係藉由毛細現象擴展至液體保持構件12內部,藉此移動至接觸或接近加熱部分13A的位置。藉此,霧氣源係能藉由加熱部分13A霧化。從而,液體保持構件12就能考慮是使霧氣源從貯存器11藉由毛細現象移動至液體保持構件12的構件。 In Modification 15, the reservoir 11 may be a cavity for storing a mist source. In such a case, the mist source stored in the reservoir 11 is supplied to the liquid holding member 12 through the opening 19B of the liquid amount adjusting member 19. The mist source supplied to the liquid holding member 12 is expanded into the inside of the liquid holding member 12 by a capillary phenomenon, thereby moving to a position where it contacts or approaches the heating portion 13A. Thereby, the mist source can be atomized by the heating portion 13A. Therefore, the liquid holding member 12 can be considered as a member that moves the mist source from the reservoir 11 to the liquid holding member 12 by a capillary phenomenon.

在變更例15中,第一端部分13B1及電力供給構件13C係由電阻係數比構成加熱部分13A的金屬線更低的導電性構件所被覆,第二端部分13B2及電力供給構件13D係由電阻係數比構成加熱部分13A的金屬線更低的導電性構件所被覆。然而,變更例15不限定於此。第一端部分13B1及電力供給構件13C亦可藉由電阻係數比加熱部分13A更低的導電性構件所構成。同樣地,第二端部分13B2及電力供給構件13D亦可藉由電阻係數比加熱部分13A更低的導電性構件所構成。 In Modification 15, the first end portion 13B 1 and the power supply member 13C are covered with a conductive member having a lower resistivity than the metal wire constituting the heating portion 13A, and the second end portion 13B 2 and the power supply member 13D are It is covered with a conductive member having a lower resistivity than the metal wire constituting the heating portion 13A. However, modification 15 is not limited to this. The first end portion 13B 1 and the power supply member 13C may be formed of a conductive member having a lower resistivity than the heating portion 13A. Similarly, the second end portion 13B 2 and the power supply member 13D may be formed of a conductive member having a lower resistivity than the heating portion 13A.

〔變更例16〕 [Change Example 16]

以下,針對實施形態之變更例16加以說明。以下,主要是針對與實施形態相對的差異點加以說明。 Hereinafter, a modification 16 of the embodiment will be described. In the following, the differences from the embodiment will be mainly described.

在變更例16中,係針對在變更例15中所說明的霧化單元111之製造方法加以說明。第22圖係用以說明變更例16的霧化單元111之製造方法的圖。 Modification 16 describes a method for manufacturing the atomizing unit 111 described in Modification 15. FIG. 22 is a diagram for explaining a method of manufacturing the atomizing unit 111 according to Modification 16. FIG.

如第22圖(A)所示,以沿著形成於基底構件300(治具)之側面的螺旋形狀之凹槽或突起的方式配置發熱體13(步驟A),該基底構件300係具有沿著預定方向A延伸的軸X。接著,以接觸或接近發熱體13之至少一部分的方式配置液體保持構件12(步驟C)。在此,液體保持構件12可在已組入支承構件21的狀態下配置,亦可在液體保持構件21之配置後,配置支承構件21。 As shown in FIG. 22 (A), the heat generating body 13 is arranged along a spiral groove or protrusion formed on the side surface of a base member 300 (fixture), the base member 300 having a Axis X extending in a predetermined direction A. Next, the liquid holding member 12 is placed so as to contact or approach at least a part of the heat generating body 13 (step C). Here, the liquid holding member 12 may be disposed in a state where the supporting member 21 is assembled, or the supporting member 21 may be disposed after the liquid retaining member 21 is disposed.

如第22圖(B)所示,在第22圖(A)所示的步驟(步驟A及步驟C)之後,以軸X作為旋轉軸使基底構件300(治具)旋轉,使發熱體13之全部從基底構件300之凹槽或突起分離(步驟B)。並且,配置有貯存器11、筒狀構件14、帽蓋16、液量調整構件19及霧化單元外殼111X。 As shown in FIG. 22 (B), after the steps (steps A and C) shown in FIG. 22 (A), the base member 300 (fixture) is rotated with the axis X as a rotation axis, and the heating element 13 is caused. All of them are separated from the grooves or protrusions of the base member 300 (step B). In addition, a reservoir 11, a cylindrical member 14, a cap 16, a liquid amount adjusting member 19, and an atomizing unit case 111X are arranged.

即便是在變更例16中,亦與實施形態同樣,較佳是在使發熱體13從基底構件300分離之前,進行配置形成空氣流路之至少一部分的構件(流路形成構件)的步驟(步驟G)。在變更例16中,至少液體保持構件12該當於流路形成構件,應予留意。具體而言,第22圖(A)所示的 步驟(即配置流路形成構件的步驟),係包含沿著基底構件300配置流路形成構件(液體保持構件12)的步驟。藉此,在霧化單元111之製造步驟中,能抑制液體保持構件12之變形。 Even in the modified example 16, it is the same as the embodiment, and it is preferable to perform the step (step of arranging a member (flow path forming member) forming at least a part of the air flow path) before separating the heating element 13 from the base member 300. G). In Modification 16, at least the liquid holding member 12 should be regarded as a flow path forming member, and it should be noted. Specifically, as shown in FIG. 22 (A) The step (that is, the step of arranging the flow path forming member) includes a step of arranging the flow path forming member (the liquid holding member 12) along the base member 300. Thereby, in the manufacturing process of the atomization unit 111, deformation of the liquid holding member 12 can be suppressed.

另外,在變更例16中,亦可在配置貯存器11、筒狀構件14、帽蓋16、液量調整構件19及霧化單元外殼111X之後,使發熱體13從基底構件300分離。在如此的事例中,除了液體保持構件12,筒狀構件14亦該當於流路形成構件,應予留意。 In addition, in Modification 16, after the reservoir 11, the cylindrical member 14, the cap 16, the liquid amount adjusting member 19, and the atomizing unit case 111X are arranged, the heating element 13 may be separated from the base member 300. In such a case, in addition to the liquid holding member 12, the tubular member 14 should also be treated as a flow path forming member, and it should be noted.

〔其他的實施形態〕 [Other embodiments]

本發明已藉由上述的實施形態加以說明,但構成該揭示之一部分的論述及圖,不應理解為限定本發明。對於本發明所屬技術領域中具有通常知識者而言,根據該揭示能明白各種替代實施形態、實施例及運用技術。 The present invention has been described by the above-mentioned embodiments, but the discussion and drawings constituting a part of the disclosure should not be construed as limiting the present invention. For those having ordinary knowledge in the technical field to which the present invention pertains, various alternative embodiments, examples, and operating techniques can be understood based on the disclosure.

在實施形態中,貯存器11係配置於正交方向B的液體保持構件12之外側。然而,實施形態不限定於此。貯存器11係只要與液體保持構件12接觸即可,亦可不配置於正交方向B的液體保持構件12之外側。另外,在貯存器11未配置於正交方向B的液體保持構件12之外側的狀態下,被覆構件15係可在香味吸嘗器100使用之前或香味吸嘗器100使用之期間,抑制無預期地從貯存器11漏出的霧氣源從液體保持構件12之外周面供給至液體保持構件12。 In the embodiment, the reservoir 11 is disposed outside the liquid holding member 12 in the orthogonal direction B. However, the embodiment is not limited to this. The reservoir 11 is only required to be in contact with the liquid holding member 12, and may not be disposed outside the liquid holding member 12 in the orthogonal direction B. In addition, in a state where the reservoir 11 is not disposed on the outside of the liquid holding member 12 in the orthogonal direction B, the covering member 15 can suppress the unexpectedness before or during the use of the flavor taster 100. The mist source leaking from the reservoir 11 is supplied to the liquid holding member 12 from the outer peripheral surface of the liquid holding member 12.

在實施形態中,液體保持構件12係具有圓筒形狀。然而,實施形態不限定於此。液體保持構件12亦可具有繩狀形狀。 In the embodiment, the liquid holding member 12 has a cylindrical shape. However, the embodiment is not limited to this. The liquid holding member 12 may have a rope shape.

在實施形態中,液體保持構件12、被覆構件15等的構件係具有筒狀之形狀,藉由沿著預定方向A的滑動而配置於發熱體13之外側。然而,實施形態不限定於此。液體保持構件12、被覆構件15等的構件亦可具有薄片狀之形狀,盤繞於發熱體13。 In the embodiment, members such as the liquid holding member 12 and the covering member 15 have a cylindrical shape, and are arranged outside the heating element 13 by sliding along a predetermined direction A. However, the embodiment is not limited to this. The members such as the liquid holding member 12 and the covering member 15 may have a sheet-like shape and be wound around the heating element 13.

在實施形態中,用以對貯存器11供給霧氣源的供給口係設置於貯存器11之下游端,而帽蓋16係遮蓋貯存器11之下游端。然而,實施形態不限定於此。供給口亦可設置於貯存器11之上游端,帽蓋16亦可遮蓋貯存器11之上游端。 In the embodiment, the supply port for supplying the mist source to the reservoir 11 is provided at the downstream end of the reservoir 11, and the cap 16 covers the downstream end of the reservoir 11. However, the embodiment is not limited to this. The supply port may also be provided at the upstream end of the reservoir 11, and the cap 16 may also cover the upstream end of the reservoir 11.

在實施形態中,發熱體13係藉由具有螺旋形狀的金屬線所形成,為具有沿著預定方向A延伸的形狀的線圈,且發熱體13之內側為中空。然而,實施形態不限定於此。發熱體13之內側亦可為實心。例如,如在變更例12及變更例13中所說明般,亦可在發熱體13之內側設置液體保持構件12。 In the embodiment, the heating element 13 is formed of a metal wire having a spiral shape, is a coil having a shape extending along a predetermined direction A, and the inside of the heating element 13 is hollow. However, the embodiment is not limited to this. The inside of the heating element 13 may be solid. For example, as described in the modified examples 12 and 13, the liquid holding member 12 may be provided inside the heating element 13.

在實施形態中,發熱體13係藉由具有螺旋形狀的金屬線所形成。然而,實施形態不限定於此。發熱體13亦可藉由具有其他形狀的導電構件所構成。 In the embodiment, the heating element 13 is formed by a metal wire having a spiral shape. However, the embodiment is not limited to this. The heat generating body 13 may be configured by a conductive member having another shape.

在實施形態中,已例示了形成空氣流路之至少一部分的筒狀構件14係藉由導電性構件所構成的事 例。然而,實施形態不限定於此。筒狀構件14亦可藉由導電性構件以外的構件所構成。 In the embodiment, the case where the cylindrical member 14 forming at least a part of the air flow path is constituted by a conductive member has been exemplified. example. However, the embodiment is not limited to this. The cylindrical member 14 may be configured by a member other than a conductive member.

在實施形態中,係設置有導線18作為用以連接電源和筒狀構件14的構件。然而,實施形態不限定於此。例如,用以連接電源和筒狀構件14的構件,只要構成電性路徑即可,亦可為構成香味吸嘗器100的外殼之一部分等。 In the embodiment, a lead wire 18 is provided as a member for connecting the power source and the cylindrical member 14. However, the embodiment is not limited to this. For example, a member for connecting the power source and the cylindrical member 14 may be an electrical path, and may be a part of a housing constituting the flavor taster 100 or the like.

在變更例4至6、7至9中,筒狀構件141之外徑係比筒狀構件142之外徑更大。然而,實施形態不限定於此。例如,在變更例4、5、7、8中,筒狀構件141之外徑亦可與筒狀構件142之外徑相等。例如,在筒狀構件141之內徑比筒狀構件142之內徑更大,筒狀構件141之外徑與筒狀構件142之外徑相等的情況時,筒狀構件142之厚度就比筒狀構件141之厚度更大,應予留意。 In Modifications 4 to 6, 7 to 9, the outer diameter of the cylindrical member 14 1 is larger than the outer diameter of the cylindrical member 14 2 . However, the embodiment is not limited to this. For example, in the modified example 4,5,7,8, the outer diameter of the cylindrical member 141 is also equal to the outer diameter of the cylindrical member 142. For example, when the inner diameter of the cylindrical member 141 is larger than the inner diameter of the cylindrical member 142, the outer diameter equal to the outer cylindrical member and the cylindrical member 141 of the case 142, the cylindrical member 142 the thickness is even greater than the thickness of the cylindrical member 141, should be aware.

雖然在實施形態中並未特別涉及,但是各構件之固定方法,可為黏接亦可為熔接。 Although it is not particularly mentioned in the embodiment, the fixing method of each member may be bonding or welding.

雖然在實施形態中並未特別涉及,但是液體保持構件12例如亦可為由海綿狀之彈性構件所構成,在藉由壓縮液體保持構件12的滑動用構件400、筒狀構件14等被拆掉而膨脹,成為接觸或接近發熱體13的構成。 Although not specifically mentioned in the embodiment, the liquid holding member 12 may be made of, for example, a sponge-like elastic member, and the sliding member 400, the cylindrical member 14, and the like may be removed by compressing the liquid holding member 12. And it expands, and it is a structure which contacts or approaches the heat generating body 13.

12‧‧‧液體保持構件 12‧‧‧Liquid holding member

13‧‧‧發熱體 13‧‧‧heating body

141‧‧‧筒狀構件(第一筒狀構件) 14 1 ‧‧‧ cylindrical member (first cylindrical member)

142‧‧‧筒狀構件(第二筒狀構件) 14 2 ‧‧‧ cylindrical member (second cylindrical member)

172‧‧‧凸緣 17 2 ‧‧‧ flange

111X1‧‧‧外殼帽蓋體 111X 1 ‧‧‧shell cap body

300‧‧‧基底構件 300‧‧‧ base member

400‧‧‧滑動用構件 400‧‧‧Sliding member

A‧‧‧預定方向 A‧‧‧ scheduled direction

B‧‧‧正交方向 B‧‧‧ orthogonal direction

X‧‧‧軸 X‧‧‧axis

Claims (25)

一種霧化單元之製造方法,具備:步驟A,以沿著形成於基底構件之側面的螺旋形狀之凹槽或突起的方式配置電阻發熱體,該基底構件係具有沿著預定方向延伸的軸;步驟B,以前述軸作為旋轉軸使前述基底構件旋轉,使前述電阻發熱體之至少一部分從前述凹槽或前述突起分離;以及步驟C,以接觸或接近前述電阻發熱體之至少一部分的方式,配置保持霧氣源的液體保持構件。 A method for manufacturing an atomizing unit, comprising: step A, arranging a resistance heating element along a spiral groove or protrusion formed on a side surface of a base member, the base member having an axis extending in a predetermined direction; In step B, the base member is rotated using the shaft as a rotation axis to separate at least a portion of the resistance heating element from the groove or the protrusion; and step C is to contact or approach at least a portion of the resistance heating element. A liquid holding member is provided to hold the mist source. 如申請專利範圍第1項所述之霧化單元之製造方法,其中,前述步驟C係在前述步驟A之後進行,且在前述步驟B之前進行。 The method for manufacturing an atomization unit according to item 1 of the scope of patent application, wherein the aforementioned step C is performed after the aforementioned step A, and is performed before the aforementioned step B. 如申請專利範圍第1項或第2項所述之霧化單元之製造方法,其中,前述電阻發熱體係包含加熱前述霧氣源的加熱部分;前述步驟C係包含一邊使前述液體保持構件按壓前述加熱部分之內側側面或外側側面且一邊配置前述液體保持構件的步驟。 The method for manufacturing an atomization unit according to item 1 or item 2 of the scope of patent application, wherein the resistance heating system includes a heating portion that heats the mist source; the step C includes pressing the liquid holding member while heating A step of disposing the liquid holding member on the inner side surface or the outer side surface of one part. 如申請專利範圍第1項或第2項所述之霧化單元之製造方法,其中,前述電阻發熱體係包含加熱前述霧氣源的加熱部分;前述步驟C係包含以接觸前述加熱部分之內側側面或外側側面之全周的方式配置前述液體保持構件的 步驟。 The manufacturing method of the atomization unit according to item 1 or item 2 of the patent application scope, wherein the resistance heating system includes heating a heating portion of the mist source; the step C includes contacting an inner side surface of the heating portion or The aforementioned liquid holding member is arranged on the entire side of the outer side. step. 如申請專利範圍第1項或第2項所述之霧化單元之製造方法,其中,前述步驟B係包含藉由前述電阻發熱體之分離,而形成將藉由前述電阻發熱體所霧化的霧氣引入至前述電阻發熱體之內側的霧氣取入口的步驟。 The manufacturing method of the atomizing unit according to item 1 or 2 of the scope of the patent application, wherein the foregoing step B includes forming the resistance heating element to be atomized by the separation of the resistance heating element. A step of introducing mist into the mist inlet on the inside of the resistance heating element; 如申請專利範圍第1項或第2項所述之霧化單元之製造方法,其中,前述步驟B係包含藉由前述電阻發熱體之分離,而在前述電阻發熱體之內側形成空氣流路之至少一部分的步驟。 The manufacturing method of the atomization unit according to item 1 or item 2 of the scope of patent application, wherein the foregoing step B includes forming an air flow path inside the resistance heating element by separating the resistance heating element. At least part of the steps. 如申請專利範圍第1項或第2項所述之霧化單元之製造方法,其中,前述步驟C係包含在前述基底構件之外側側面配置有前述電阻發熱體的情況下,在前述電阻發熱體之外側配置前述液體保持構件的步驟。 The manufacturing method of the atomizing unit according to item 1 or item 2 of the scope of patent application, wherein the step C includes the case where the resistance heating element is arranged on the outer side surface of the base member, and the resistance heating element is The step of disposing the aforementioned liquid holding member on the outer side. 如申請專利範圍第1項或第2項所述之霧化單元之製造方法,其中,前述基底構件為治具;前述步驟B係包含使前述電阻發熱體之全部從前述治具分離,且藉由前述電阻發熱體之分離,而在前述電阻發熱體之內側形成空氣流路之至少一部分的步驟;且在前述步驟B之前具備步驟G,該步驟G係配置形成前述空氣流路之至少一部分的流路形成構件。 The manufacturing method of the atomization unit according to item 1 or item 2 of the scope of patent application, wherein the aforementioned base member is a jig; the aforementioned step B includes separating all of the aforementioned resistance heating element from the aforementioned jig, and borrowing A step of forming at least a part of the air flow path inside the resistance heat generating body by separating the resistance heating element; and before step B, the step G is provided, and the step G is configured to form at least a portion of the air flow path. Flow path forming member. 如申請專利範圍第8項所述之霧化單元之製造方法,其中,前述步驟G係包含沿著前述治具之外側側面配置前述流路形成構件的步驟。 The method for manufacturing an atomizing unit according to item 8 of the scope of the patent application, wherein the step G includes a step of arranging the flow path forming member along an outer side surface of the jig. 如申請專利範圍第1項或第2項所述之霧化單元之製造 方法,其中,前述基底構件為治具;前述步驟B係包含使前述電阻發熱體之全部從前述治具分離的步驟;且在前述步驟B之前具備步驟E,該步驟E係在與前述預定方向正交之正交方向的前述電阻發熱體之外側側面或內側側面,配置形成空氣流路之至少一部分的具有筒狀之形狀的筒狀構件。 Manufacture of atomization unit as described in the scope of patent application item 1 or item 2 A method, wherein the base member is a jig; the step B includes a step of separating all of the resistance heating element from the jig; and step E is provided before the step B, and the step E is in a predetermined direction from the foregoing. A cylindrical member having a cylindrical shape that forms at least a part of the air flow path is disposed on the outer side surface or the inner side surface of the resistance heating element orthogonal to the orthogonal direction. 如申請專利範圍第10項所述之霧化單元之製造方法,其中,前述步驟B係在將前述筒狀構件固定於前述霧化單元之外殼之後及/或將前述電阻發熱體固定於前述筒狀構件之後進行。 The method for manufacturing an atomizing unit according to item 10 of the scope of patent application, wherein the aforementioned step B is after the cylindrical member is fixed to the casing of the atomizing unit and / or the resistance heating element is fixed to the tube. The shaped member is then carried out. 如申請專利範圍第10項所述之霧化單元之製造方法,其中,前述筒狀構件係藉由第一筒狀構件及第二筒狀構件所構成;前述步驟E係包含將前述第一筒狀構件及前述第二筒狀構件在彼此分離的狀態下配置的步驟。 The manufacturing method of the atomizing unit according to item 10 of the scope of the patent application, wherein the cylindrical member is constituted by a first cylindrical member and a second cylindrical member; the step E includes the step of A step of disposing the shape member and the second cylindrical member in a state separated from each other. 如申請專利範圍第12項所述之霧化單元之製造方法,其中,前述第一筒狀構件之一部分或全部係藉由導電性構件所構成;前述第二筒狀構件之一部分或全部係藉由導電性構件所構成。 The manufacturing method of the atomization unit according to item 12 of the scope of application, wherein a part or all of the first cylindrical member is constituted by a conductive member; a part or all of the second cylindrical member is borrowed It is composed of a conductive member. 如申請專利範圍第12項或第13項所述之霧化單元之製造方法,其中,前述治具係具備卡止前述第一筒狀構件的第一卡止部分、以及卡止前述第二筒狀部分的第二卡 止部分;前述步驟E係包含:步驟E1,在能藉由前述第一卡止部分來卡止前述第一筒狀構件的位置配置前述第一筒狀構件;以及步驟E2,在能藉由前述第二卡止部分來卡止前述第二筒狀構件的位置配置前述第二筒狀構件。 The method for manufacturing an atomizing unit according to item 12 or item 13 of the scope of patent application, wherein the jig is provided with a first locking portion that locks the first cylindrical member, and a second tube that locks the second tube. Second card The aforementioned step E includes: step E1, disposing the first cylindrical member at a position where the first cylindrical member can be locked by the first locking portion; and step E2, where the first cylindrical member can be locked by the aforementioned The second locking portion is arranged at a position where the second cylindrical member is locked. 如申請專利範圍第12項或第13項所述之霧化單元之製造方法,其中,前述治具係包含具有第一外徑的第一支承部分、以及具有比前述第一外徑更小之第二外徑的第二支承部分;前述第一筒狀構件之內徑係與前述第一外徑對應;前述第二筒狀構件之內徑係與前述第二外徑對應;前述步驟E係包含:步驟E3,在前述正交方向的前述第一支承部分之外側側面配置前述第一筒狀構件;以及步驟E4,在前述正交方向的前述第二支承部分之外側側面配置前述第二筒狀構件。 The manufacturing method of the atomizing unit according to item 12 or item 13 of the patent application scope, wherein the jig includes a first supporting portion having a first outer diameter and a portion having a smaller diameter than the first outer diameter. The second supporting portion of the second outer diameter; the inner diameter of the first cylindrical member corresponds to the first outer diameter; the inner diameter of the second cylindrical member corresponds to the second outer diameter; the step E system Including step E3, the first cylindrical member is disposed on the outer side surface of the first support portion in the orthogonal direction; and step E4, the second tube is disposed on the outer side surface of the second support portion in the orthogonal direction. Like member. 如申請專利範圍第12項或第13項所述之霧化單元之製造方法,其中,前述治具係包含具有第一外徑的第一支承部分、以及具有比前述第一外徑更小之第二外徑的第二支承部分;前述步驟E或E1或E3係包含使前述第一筒狀構件從前述第二支承部分側朝向前述第一支承部分側滑 動的步驟;前述步驟E或E2或E4係包含使前述第二筒狀構件從前述第二支承部分側朝向前述第一支承部分側滑動的步驟。 The manufacturing method of the atomizing unit according to item 12 or item 13 of the patent application scope, wherein the jig includes a first supporting portion having a first outer diameter and a portion having a smaller diameter than the first outer diameter. A second support portion of a second outer diameter; the step E or E1 or E3 includes sliding the first cylindrical member from the second support portion side toward the first support portion side The step E or E2 or E4 includes a step of sliding the second cylindrical member from the second support portion side toward the first support portion side. 如申請專利範圍第12項或第13項所述之霧化單元之製造方法,其中,前述治具係包含具有第一外徑的第一支承部分、以及具有比前述第一外徑更小之第二外徑的第二支承部分;前述步驟C係包含使前述液體保持構件從前述第二支承部分側朝向前述第一支承部分側滑動的步驟。 The manufacturing method of the atomizing unit according to item 12 or item 13 of the patent application scope, wherein the jig includes a first supporting portion having a first outer diameter and a portion having a smaller diameter than the first outer diameter. The second support portion having the second outer diameter; the step C includes a step of sliding the liquid holding member from the second support portion side toward the first support portion side. 如申請專利範圍第12項或第13項所述之霧化單元之製造方法,其中,前述治具係包含具有第一外徑的第一支承部分、以及具有比前述第一外徑更小之第二外徑的第二支承部分;前述凹槽或前述突起係設置於前述第一支承部分之側面;前述步驟A係包含在前述第一支承部分之外側側面及前述第二筒狀構件之外側側面配置前述電阻發熱體的步驟。 The manufacturing method of the atomizing unit according to item 12 or item 13 of the patent application scope, wherein the jig includes a first supporting portion having a first outer diameter and a portion having a smaller diameter than the first outer diameter. The second supporting portion of the second outer diameter; the groove or the protrusion is provided on the side surface of the first supporting portion; the step A includes the outer side surface of the first supporting portion and the outer side of the second cylindrical member. The step of disposing the resistance heating element on the side. 如申請專利範圍第1項或第2項所述之霧化單元之製造方法,其中,前述步驟C係包含:步驟C1,使滑動用構件沿著與前述預定方向正交之正交方向的前述電阻發熱體之外側側面滑動; 步驟C2,將前述液體保持構件沿著前述正交方向的前述滑動用構件之外側側面配置;以及步驟C3,在前述步驟C1及前述步驟C2之後,從前述液體保持構件與前述電阻發熱體之間,藉由滑動前述滑動用構件而拆除。 The method for manufacturing an atomization unit according to item 1 or item 2 of the scope of patent application, wherein the step C includes the step C1 of moving the sliding member in the orthogonal direction orthogonal to the predetermined direction. The outer side of the resistance heating element slides; Step C2, the liquid holding member is disposed along the outer side surface of the sliding member in the orthogonal direction; and step C3, after the step C1 and the step C2, between the liquid holding member and the resistance heating element , By removing the sliding member. 如申請專利範圍第1項所述之霧化單元之製造方法,其中,前述基底構件為形成空氣流路之至少一部分的具有筒狀之形狀的筒狀構件。 The method for manufacturing an atomizing unit according to item 1 of the scope of patent application, wherein the base member is a cylindrical member having a cylindrical shape that forms at least a part of an air flow path. 如申請專利範圍第20項所述之霧化單元之製造方法,其中,前述筒狀構件係藉由導電性構件所構成;該製造方法並具備:步驟D,電性連接前述筒狀構件和前述電阻發熱體。 The manufacturing method of the atomization unit according to item 20 of the patent application scope, wherein the cylindrical member is made of a conductive member; the manufacturing method further includes: Step D, electrically connecting the cylindrical member and the aforementioned member Resistance heating element. 如申請專利範圍第20項或第21項所述之霧化單元之製造方法,其中,前述筒狀構件係藉由第一筒狀構件及第二筒狀構件所構成;前述步驟A係包含跨越前述第一筒狀構件及前述第二筒狀構件之雙方而配置前述電阻發熱體的步驟;前述步驟B係包含在維持前述電阻發熱體已跨越前述第一筒狀構件及前述第二筒狀構件之雙方而配置的狀態下,使前述第一筒狀構件及前述第二筒狀構件彼此分離的步驟。 The manufacturing method of the atomizing unit according to item 20 or item 21 of the patent application scope, wherein the cylindrical member is constituted by a first cylindrical member and a second cylindrical member; the foregoing step A includes a step A step of disposing the resistance heating element on both the first and second cylindrical members; and the step B includes maintaining the resistance heating element across the first and second cylindrical members. A step of separating the first cylindrical member and the second cylindrical member from each other in a state where both of them are arranged. 如申請專利範圍第1項所述之霧化單元之製造方法,其中,前述基底構件為筒狀構件;前述步驟A係包含以沿著形成於前述筒狀構件之 外側側面的螺旋形狀之凹槽或突起的方式配置前述電阻發熱體的步驟;前述步驟B及前述步驟C係包含藉由前述筒狀構件之旋轉,使前述電阻發熱體之一部分從前述筒狀構件分離,使配置於前述筒狀構件之內側的前述液體保持構件之一部分從前述筒狀構件分離,且藉由該液體保持構件之一部分的膨脹,使該液體保持構件之一部分接觸或接近該電阻發熱體之一部分的步驟。 The method for manufacturing an atomizing unit according to item 1 of the scope of the patent application, wherein the base member is a cylindrical member; the step A includes: The step of arranging the resistance heating element in the form of a spiral groove or protrusion on the outer side; the steps B and C include the step of rotating a portion of the resistance heating element from the cylindrical member by rotating the cylindrical member. Separation, separating a portion of the liquid holding member disposed inside the cylindrical member from the cylindrical member, and causing a portion of the liquid holding member to contact or approach the resistance to heat by expansion of a portion of the liquid holding member Part of the body. 一種霧化單元之製造方法,具備:步驟A,以沿著形成於基底構件之側面的螺旋形狀之凹槽或突起的方式配置電阻發熱體,該基底構件係具有沿著預定方向延伸的軸;步驟C,以接觸或接近前述電阻發熱體之至少一部分的方式,配置保持霧氣源的液體保持構件;或步驟C4,藉由以前述軸作為旋轉軸使前述基底構件旋轉,使前述電阻發熱體之至少一部分從前述凹槽或前述突起分離而接觸或接近前述電阻發熱體之至少一部分的方式,配置保持霧氣源的液體保持構件;以及步驟F,將前述電阻發熱體及前述液體保持構件收容於前述外殼內。 A method for manufacturing an atomizing unit, comprising: step A, arranging a resistance heating element along a spiral groove or protrusion formed on a side surface of a base member, the base member having an axis extending in a predetermined direction; In step C, a liquid holding member for holding a mist source is arranged so as to contact or approach at least a part of the resistance heating element; or in step C4, the base member is rotated by using the shaft as a rotation axis to rotate the resistance heating element. A liquid holding member that holds a mist source is disposed in such a manner that at least a portion is separated from the groove or the protrusion to contact or approach at least a portion of the resistance heating element; and step F, the resistance heating element and the liquid holding member are housed in the foregoing Inside the shell. 一種霧化單元,具備:基底構件,具有沿著預定方向延伸的軸;電阻發熱體,以沿著形成於前述基底構件之側面的螺旋形狀之凹槽或突起的方式所配置; 液體保持構件,以接觸或接近前述電阻發熱體之至少一部分的方式,或是,藉由以前述軸作為旋轉軸使前述基底構件旋轉,使前述電阻發熱體之至少一部分從前述凹槽或前述突起分離的步驟B而接觸或接近前述電阻發熱體之至少一部分的方式所配置,且保持霧氣源;以及外殼,收容前述電阻發熱體及前述液體保持構件。 An atomizing unit comprising: a base member having a shaft extending in a predetermined direction; and a resistance heating element disposed as a spiral groove or protrusion formed on a side surface of the base member; The liquid holding member contacts or approaches at least a portion of the resistance heating element, or rotates the base member by using the shaft as a rotation axis, so that at least a portion of the resistance heating element is lifted from the groove or the protrusion. The separated step B is arranged so as to contact or approach at least a part of the resistance heating element, and maintains a mist source; and a case, which houses the resistance heating element and the liquid holding member.
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