TW201031826A - Simultaneously supplying/discharging ventilation fan and air conditioner - Google Patents

Abstract

A panel suction port (UI) and a panel discharge port (UO) are so formed by a lower surface panel (3) as to face each other, and are so disposed that the direction of the suction air flow (A1) sucked into the panel suction port (UI) is same as the direction of the discharge air flow (B2) discharged from the panel discharge port (UO), whereby the suction air flow (A1) and the discharge air flow (B2) can flow along a ceiling surface.

Description

201031826 六、發明說明： 【發明所屬之技術領域】 本發明是關於一種同時給排型換氣扇及空調裝置，特 別是關於一種一邊從在固定於天花板之裝飾面板上所形成 之面板吸入口吸入室内空氣、一邊從面板吹出口將空氣吹 出至室内之同時給排型換氣扇。 二人201031826 VI. Description of the Invention: [Technical Field] The present invention relates to a simultaneous ventilating fan and an air conditioning device, and more particularly to a method for drawing in indoor air from a panel suction port formed on a decorative panel fixed to a ceiling. The ventilating fan is supplied to the ventilating fan while blowing air from the panel outlet to the room. Two people

【先前技術】 目前存在一種方法，其為了實現使室内狀態之變動很 )的換氣’纟天花板上安裝同時給排型換H 一邊進行 熱交換’一邊同時進行給排氣。 此種同時給排型換氣扇揭示於專利文獻丨，其將角柱形 熱交換器收納於外箱内，以天花板面板覆蓋此熱交換器， 從室外給氣之外部氣體從熱交換器之流人侧經過流出侧， 從設置：天花板面板之室内側吹出口吹出至室夕卜將從設 置於天化板面板之室内相丨丨.哄λ ^竹 彳j吸入口吸入的吸入氣流從熱交換 器之流入側經過流出相，丨μ φ π & , 側排出至室外。在此同時給排型換氣 扇中’複數個熱交換器與長邊 衣透方向之稜線相向，並列配置 於寬度方向，教交拖装夕从斤 ^ ，、、、兴器之外氟流出側及排氣流入側分別與 天花板面板相向，天芤把品 板面板之侧面内之三個侧面上設有 室内側吹出口，而其中—個 调側面上設有室内侧吹出口。 又，專利文獻2揭示— y 種问時給排型換氣扇，其將角柱 。熱乂換器收納於外相内，以天花板面板覆蓋此熱交換 器’從室外給氣之外部氣體從熱交換器之流入侧經過流出 201031826 交換器之流入側經過流出側排出至室 換氣扇中，複數個熱交換器與長邊方 配置於寬度方向，熱交換器之外氣流 別與天花板面板相向，天花板面板之 側’從設置於天花板面板之室 從設置於天花板面板之室内側 側吹出口 内側吹出口吹出至室外，將 @•入口吸入的吸入氣流從熱 外。在此同時給排型 向之稜線相向，並列 出側及排氣流入侧分 兩側部位上設有室内 而中央部位上設有室内側吸入口 又’專利文獻3揭示-種方法，其將製品本體安裝於室 内，包括本體及前面面板’該本體設有經過室外侧給氣口 與給氣用送風機且位於比排氣用送風機遠之位置的給氣口 及設於排氣用送風機前方的排氣口，該前面面板設有以覆 蓋此本體之前方侧之形狀連通至給氣口的室内侧給氣口， 連通至排氣口之室内侧排氣口形成於本體之上面、下面及 側面。 [專利文獻1 ]特開昭62-153642號公報 [專利文獻2]特開昭62-153643號公報 [專利文獻2]特開昭2005-274098號公報 【發明内容】 【發明所欲解決的課題】 然而’根據專利文獻1及2之技術，於室内之下面面板 之同一面上或相鄰之位置設置室内侧吹出口及室内侧吸入 口。因此’在從室内側吹出口吹出至室内之吹出氣流和從 至内吸入至室内側吸入口之吸入氣流之間，容易發生短 201031826 路導致因至内換氣所進行之循環惡化，於是有換氣效率 下降的問題。 又根據專利文獻1及2之技術，製品本體之下面面板 上°又有至内侧吹出口及室内側吸入口。因此，來自給氣用 送風機及排氣用送風機之噪音從室内侧吹出口及室内側吸 入口直接到達製品正下方所在的人身上而成為問題。 又，根據專利文獻1及2之技術，下面面板上設有室内 侧吹出口所以，吹出氣流直接對著製品正下方的人，特 別是在冬天，會有明顯之抽風感的問題。 另方面右為了減低此種抽風感而在室内側吹出口 設置用來調節吹出氣流之風向的百葉窗，會使給氣口面積 變小’造成風道壓力下降，於是，形成換氣風量下降的問 題。 八恨诹寻利文獻3之技術，若將同時給排型換氣扇設[Prior Art] There is a method for simultaneously performing air supply and exhaust while performing air exchange on the ceiling in order to realize a change in the indoor state, and performing heat exchange while changing the H type. This type of simultaneous ventilating fan is disclosed in the patent document 丨, which accommodates the angular cylindrical heat exchanger in the outer casing, covers the heat exchanger with a ceiling panel, and the external air from the outdoor air supply flows from the heat exchanger side. After passing through the outflow side, the air is blown from the indoor side outlet of the ceiling panel to the chamber, and the suction airflow sucked from the indoor chamber of the panel of the naturalized panel is taken from the heat exchanger. The inflow side passes through the outflow phase, 丨μ φ π & , and the side is discharged to the outside. At the same time, in the exhaust fan, the plurality of heat exchangers face the ridge line of the long-side clothing direction, and are arranged side by side in the width direction, and teach the hauling of the fluorine outflow side from the outside of the ring, and The exhaust gas inflow side is opposite to the ceiling panel, and the three sides of the side surface of the panel are provided with an indoor side air outlet, and one of the side surfaces is provided with an indoor side air outlet. Further, Patent Document 2 discloses that the y-type ventilating fan is provided with a corner column. The heat exchanger is housed in the outer phase, and the heat exchanger is covered by the ceiling panel. The external gas from the outdoor air supply is discharged from the inflow side of the heat exchanger through the outflow side of the exchanger 201031826 through the outflow side to the chamber ventilation fan, plural The heat exchanger and the long side are arranged in the width direction, and the air flow outside the heat exchanger does not face the ceiling panel, and the side of the ceiling panel is blown from the room provided in the ceiling panel from the inside of the indoor side of the ceiling panel. The outlet is blown out to the outside, and the suction air taken in by the @• inlet is taken out of the heat. At the same time, the rib line is directed toward the ridge line, and the indoor side and the exhaust gas inflow side are respectively provided with indoors on both sides, and the central part is provided with an indoor side suction port, and the method disclosed in Patent Document 3 discloses a product. The main body is installed in the room, and includes a main body and a front panel. The main body is provided with an air supply port that passes through the outdoor air supply port and the air supply blower, and is located farther than the exhaust air blower, and an air outlet that is disposed in front of the exhaust air blower. The front panel is provided with an indoor side air supply port that communicates with the air supply port in a shape covering the front side of the main body, and an indoor side air supply port that communicates with the exhaust port is formed on the upper surface, the lower surface and the side surface of the main body. [Patent Document 1] JP-A-62-153643 [Patent Document 2] JP-A-2005-274098 [Summary of the Invention] [Problems to be Solved by the Invention] However, according to the techniques of Patent Documents 1 and 2, the indoor side air outlet and the indoor side air inlet are provided on the same surface or adjacent positions on the lower panel of the room. Therefore, between the blown airflow blown out from the indoor side air outlet to the indoor airflow and the suction airflow sucked from the inside to the indoor side suction port, it is easy to cause a short cycle of the 201031826 road due to the internal air exchange, so there is a change. The problem of reduced gas efficiency. Further, according to the techniques of Patent Documents 1 and 2, the lower surface of the product body has a side to the inner side outlet and an indoor side suction port. Therefore, the noise from the air supply blower and the exhaust fan is a problem directly from the indoor side air outlet and the indoor side air intake to the person directly below the product. Further, according to the techniques of Patent Documents 1 and 2, the indoor side outlet is provided on the lower panel, so that the blown airflow directly faces the person directly below the product, particularly in the winter, and there is a problem of a sense of wind. On the other hand, in order to reduce such a feeling of exhaustion, a louver for adjusting the direction of the airflow of the airflow is provided at the indoor side air outlet, which causes the air supply port area to become small, causing the air passage pressure to drop, thereby causing a problem that the ventilation air volume is lowered. Eight hate to find the technology of the literature 3, if the ventilation fan will be set at the same time

置：天花板上，製品本體容易從天花板突出。因此，會有 =化板之設計性不良、噪音從吹出口或吸“直接到達製 品正下方的人身上等問題產生。 之發明，目的在得到一 其可在吹出至室内之吹 間抑制短路發生。 本發明為鏜於上述情況所產生 種同時給排型換氣扇及空調裝置， 出氣流與從室内吸入之吸入氣流之 【用以解決課題的手段】 為解決上述課題並達成目的，本發明 氣扇之特徵為，包括形成相互獨立之 5 、>Q排型換 、風道和給氣通 5 201031826 風道的外裝殼、設於上述外裝殼下方且以與面板吸入口及 面板吹出Π相向之方式來形成的下面面板、收納於上述外 裝殼内、將吸人上述面板吸入口之吸人氣流運送至上述排 氣通風道且作為排氣流被排出的排氣料風機及收納於上 述外裝殼内、將給氣至上述給氣通風道之給氣流運送至上 述面板吹出口且作為吹出流被吹出的給氣用送風機。 【發明效果】 根據本發明，可達到在吹出至室内之吹出氣流與從室 内吸入之吸入氣流之間抑制短路發生的效果。 【實施方式】 以下根據圖面詳細說明本發明之同時給排型換氣扇之 實施型態。此外，本實施型態不能限定本發明。 第1實施型態. 第1圖為表示本發明之同時給排型換氣扇之第i實施型 態之外觀結構的立體圖，第2圓為表示使用第丨圖之同時給 排型換氣扇時之狀態的立體圖。在第丨圖中，於同時給排型 換氣扇上，設置外裝殼i，在外裝殼〗之下方，透過面板外 裝框2安裝下面面板3。此外，面板外裝框2可構成角筒狀。 又，下面面板3可採用裝飾面板。 在此，於外裝殼1之側面，設置將排氣流“排出至外裝 殼1外的排氣口 S0及對外裝殼i内供給給氣流B1的給氣口 si。又，在外裝喊1下方，透過下面面板3形成吸入吸入氣 201031826 流A1的面板吸入口 ^及吹出吹出氣流β2的面板吹出口 U0。 在此’面板吸入口 UI和面板吹出口 U0可以相向之方式 透過下面面板3形成。在此情況下，最好面板吸入口 III和面 板吹出口 U0沿著下面面板3形成，配置方式為，吸入至面板 吸入口 UI之吸入氣流A1之方向和從面板吹出口 u〇吹出之吹 出氣流B2之方向為同一方向。 另外’在外裝殼1内，確保面板吸入口 U丨與排氣口 s〇 之間之通風道的排氣通風道l4a和確保給氣口 §1與面板吹 出口 uo之間之通風道的給氣通風道i4b相互獨立而設置。 另外’當將同時給排型換氣扇設置於屋内時’如第2 圖所示，可使下面面板3從天花板τ突出至室内那側，將外 裝殼1配置於天花板背面。在此，下面面板3可以與天花板τ 相向之方式配置。Placement: On the ceiling, the product body easily protrudes from the ceiling. Therefore, there is a problem that the design of the chemical plate is poor, noise is generated from the air outlet or the "body directly reaching the person directly under the product." The invention aims to suppress the occurrence of a short circuit between the blows that can be blown out into the room. The present invention is directed to a ventilating fan and an air-conditioning apparatus, and an airflow and a suction airflow sucked from the room, which are generated in the above-mentioned circumstances, and a means for solving the problem. The utility model is characterized in that an outer casing which forms mutually independent 5, >Q row type change, air passage and air supply passage 5 201031826 air duct is disposed under the outer casing and blows out with the panel suction port and the panel. a lower panel formed in a facing manner, an exhaust fan that is stored in the outer casing, and that transports an intake airflow that sucks the suction port of the panel to the exhaust air passage and is discharged as an exhaust flow In the outer casing, an air supply fan that delivers a supply air to the air supply duct to the panel air outlet and is blown out as a blowing flow is provided. According to the present invention, it is possible to achieve an effect of suppressing the occurrence of a short circuit between the blown airflow blown out into the room and the intake airflow sucked from the room. [Embodiment] Hereinafter, the embodiment of the simultaneous ventilating fan of the present invention will be described in detail based on the drawings. The present invention is not limited to the first embodiment. Fig. 1 is a perspective view showing the appearance of the first embodiment of the ventilating fan of the present invention, and the second circle indicates the use of the second embodiment. A perspective view of the state of the ventilating fan at the same time. In the figure, the outer casing i is provided on the ventilating fan at the same time, and the lower panel is installed under the outer casing and the lower panel is installed through the outer casing 2 3. In addition, the panel outer frame 2 may be formed in a rectangular tube shape. Further, the lower panel 3 may be a decorative panel. Here, on the side of the outer casing 1, a discharge flow is discharged to the outside of the outer casing 1. The exhaust port S0 and the air supply port si supplied to the air flow B1 in the outer casing i are provided. Further, under the exterior squeaking 1, the panel suction port of the flow A1 of the suction A1 and the panel air outlet U0 of the blown airflow β2 are formed through the lower panel 3. Here, the panel suction port UI and the panel air outlet U0 can be formed through the lower panel 3 in such a manner as to face each other. In this case, it is preferable that the panel suction port III and the panel air outlet U0 are formed along the lower panel 3 in such a manner that the direction of the suction airflow A1 sucked into the panel suction port UI and the blown airflow blown from the panel air outlet u〇 are arranged. The direction of B2 is the same direction. In addition, in the outer casing 1, the exhaust air passage l4a of the air passage between the panel suction port U丨 and the exhaust port s〇 is ensured, and the air supply of the air passage between the air supply port §1 and the panel air outlet uo is ensured. The air ducts i4b are arranged independently of each other. Further, when the ventilating fan is placed in the house at the same time, as shown in Fig. 2, the lower panel 3 can be protruded from the ceiling τ to the indoor side, and the outer casing 1 can be placed on the rear of the ceiling. Here, the lower panel 3 can be arranged to face the ceiling τ.

另外至内之吸入氣流“從面板吸入口 W被吸入 f，該吸人氣流A1被導引至外裝殼1内。然後，導引至外裝 殼1内之吸入氣流A1藉由通過排氣通風道14a而被導引至排 氣口 S0,作為排氣流人2被排出至室外。 同時虽至外之給氣流B1從給氣口 SI供給時，誃 給氣流B1被導引至外裝轉、& , Α ^ 外裝殼1内。然後，導引至外裝殼1内之 給氣流B1藉由經禍仏名、s ^ i過給氣通風道14b被導引至面板吹出口 U〇,作為吹出氣流B2被吹出至室内。 藉此，從面被口女屮0 板人出口U0吹出之吹出氣流於可抑 板吸入口 UI被吸入之情況，认β π 士 处面Further, the inhaled airflow "is sucked from the panel suction port W, and the suction airflow A1 is guided into the outer casing 1. Then, the suction airflow A1 guided into the outer casing 1 is passed through the exhaust gas. The air passage 14a is guided to the exhaust port S0, and is discharged to the outside as the exhaust gas person 2. At the same time, when the external airflow B1 is supplied from the air supply port SI, the airflow B1 is guided to the exterior. , & , Α ^ inside the outer casing 1. Then, the air flow B1 guided into the outer casing 1 is guided to the panel air outlet U by the gas passage 14b through the accident, s ^ i 〇, as the blown airflow B2 is blown out into the room. Thereby, the blown airflow blown out from the face of the mouth of the scorpion 0 slab exit U0 is sucked into the suction inlet UI, and the π π 士

度，兄於是可在吹出氣流Β2與吸入A 流A1之間抑制短路之發士 職1 路之發生。因此，可改善藉由室内換氣所 7 201031826 進行之循環，進而可提高換氣效率。 又’藉由透過下面面板3使面板吹出口 U0和面板吸入口 UI相向配置，可加大面板吹出口 u〇與面板吸入口 UI之間的 間隔。因此’可在吹出氣流B2與吸入氣流A1之間抑制短路 之發生’進而可提高換氣效率。 又藉由沿者下面面板3形成面板吸入口 UI和面板吹出 口 u〇 ’可使吹出氣流B2和吸入氣流A1沿著天花板T水平流 動。因此，可產生一種換氣流，該換氣流可經由面板吹出 至内之天化板T-»·室内之壁面—室内之地板—室内 之壁面—室内之天花板T—面板吸入口 UI這樣的路徑在屋 内循環’如此’難以產生換氣之沈澱，所以，可提高換氣 效率。 又’吹出氣流B2和吸入氣流A1沿著天花板T水平流動， 藉此’可防止吹出氣流於直接對著製品正下方的人身上。 因此，可不用將用來調節吹出氣流於之風向的百葉窗設置 於面板吹出口 U0而減輕冬季期間特有之抽風感。 第3圖為透視表示第1圖之同時給排型換氣扇之内部結 構之其中一例的立體圖，第4圖為沿著吸入氣流八丨及吹出氣 流B2之流動方切割出剖面來表示第3圖之同時給排型換氣 扇的°】面圖，第5圖為藉由凹口來表示第3圖之同時給排型 換氣扇之内部結構之其中一例的立體圖。 在第3圖至第5圖中，於外裝殼丨之下面，形成本體開口 ° 八將吸入至面板吸入口 UI之吸入氣流A1吸入外裝殼1 内，將吸入至外襞殼1内之給氣流排出至外裝殼1外。然 201031826 後’在外裝殼1之下方，透過面板外裝框2以覆蓋本體開口 部4之方式安裝下面面板3。在此，於下面面板3,設置分離 器用來防止從面板吸入口 υι吸入之吸入氣流A1和從面 板吹出口 U0吹出之吹出氣流B2混在一起。此外，分離器12 可由隔板或隔壁構成，可將吸入氣流A1之吸入方向及吹出 氣流B2之吹出方向配置為垂直。 又’在面板外裝框2之兩侧，形成壁面2a，2b，其將沿At the same time, the brother can suppress the occurrence of the short circuit between the blown airflow Β2 and the suction A flow A1. Therefore, the cycle performed by the indoor air exchange unit 7 201031826 can be improved, thereby improving the ventilation efficiency. Further, by arranging the panel air outlet U0 and the panel suction port UI through the lower panel 3, the interval between the panel air outlet u and the panel suction port UI can be increased. Therefore, the occurrence of a short circuit can be suppressed between the blown airflow B2 and the intake airflow A1, and the ventilation efficiency can be improved. Further, by forming the panel suction port UI and the panel blowing port u?' along the lower panel 3, the blowing airflow B2 and the suction airflow A1 can be horizontally flowed along the ceiling T. Therefore, a change air flow can be generated, which can be blown out through the panel to the inner wall of the T-»· indoor wall - the floor of the room - the wall of the room - the ceiling of the room T-panel suction port UI The path circulating in the house is 'so' difficult to produce a precipitation of ventilation, so the ventilation efficiency can be improved. Further, the blown airflow B2 and the suction airflow A1 flow horizontally along the ceiling T, thereby preventing the blown airflow from being directed directly on the person directly below the article. Therefore, it is not necessary to provide the louver for adjusting the wind direction of the blown airflow to the panel air outlet U0 to reduce the feeling of exhaustion unique to the winter season. Fig. 3 is a perspective view showing an example of the internal structure of the ventilating fan at the same time as the first embodiment, and Fig. 4 is a cross-sectional view showing the flow along the flow of the suction airflow and the blown airflow B2 to show the third figure. At the same time, a plan view of the ventilating fan is given, and FIG. 5 is a perspective view showing an example of the internal structure of the ventilating fan at the same time as the third drawing by the notch. In the third to fifth figures, the body opening is formed under the outer casing °. The suction airflow A1 sucked into the panel suction port UI is sucked into the outer casing 1 and sucked into the outer casing 1 The airflow is discharged to the outside of the outer casing 1. However, after 201031826, the lower panel 3 is attached to the lower portion of the outer casing 1 so as to cover the main body opening portion 4 through the panel outer casing 2. Here, in the lower panel 3, a separator is provided for preventing the suction airflow A1 sucked from the panel suction port 混1 and the blown airflow B2 blown from the panel air outlet U0. Further, the separator 12 may be constituted by a partition or a partition wall, and the suction direction of the suction airflow A1 and the blowing direction of the blown airflow B2 may be arranged to be vertical. Further, on both sides of the panel outer frame 2, wall faces 2a, 2b are formed, which will be along

著吸入氣流A1及吹出氣流B2之下面面板3的前進方向規範 為一邊之方向。 又’外裝殼1隔開從排氣口 SO排出之排氣流A2和從給氣 口 SI供給之給氣流B1，以使兩者不在外裝殼〗内混在一起， 藉此，排氣通風道14a和給氣通風道14b在外裝殼丨内相互獨 而形成。另外’在外裝殼1内，收納有排氣用送風機7a、 ’”虱用送風機7b、熱交換器9及電路基板1〇。在此，排氣用 送風機7ag&置於排氣通風道14a上。給氣用送風機^配置於 給氣通風道Ub上。熱交換器9配置於排氣通風道…及給氣 通風道14b上。 排氣用3¾:風機7a可將吸人至面板吸人口 [I之吸入氣 ^運送至排氣通風道14a，作為職㈣從排氣口如被排 用^外’在排氣用送風機7&上，設#形成排氣流Μ之排 氣用葉片6a、使排麁田接u ρ 葉片6a旋轉之排氣用電動機5a及具 有圍繞排氣用葉片6 am 氣 卜乳用電動機5a之結構的渦捲狀排 乳用風扇罩8a。 又，給亂用送風機7b可將你仏# 將從給氣口 SI供給至給氣通風 9 201031826 道14b之給氣流61運送至面板吹出口 u〇，作為吹出氣流旧 -從面板吹出口 110被吹出。此外，在給氣用送風機7b上設 有形成給氣流B1之給氣用葉片6b、使給氣用葉片6b旋轉之 給氣用電動機5b及具有圍繞給氣用葉片6b、給氣用電動機 5b之結構的漏捲狀給氣用風扇罩⑽。又，在給氣用風扇罩 8b上，以與下面面板3相向之方式形成用來吹出給氣流bi 之送風機吹出口 17。 又，熱交換器9可在從排氣口 S0排出之排氣流A2與從給 氣口 SI供給之給氣流B1之間進行熱交換。此外，熱交換器9 φ 如第5圖所示，可使相互垂直之通風道形成交互積層之六面 體結構。另外，可將熱交換器9配置於外裝殼丨内如此， 針對排氣流A2，可沿著與下面面板3垂直之方向確保熱交換 器9内之通風道’針對給氣流B1 ’可沿著吹出氣流b2之吹出 方向確保熱交換器9内之通風道。 又，可在電路基板1〇上，搭載對排氣用電動機5&及給 氣用電動機5b供給電源之電源電路和用來控制排氣用電動瘳 機5a及給氣用電動機5b之旋轉的控制電路。 在此，給氣口 SI及排氣口 S0沿著與吸入氣流“之吸入 方向及吹出氣流B2之吹出方向垂直的方向並排配置。又， 、D氣、熱父換斋9及給氣用送風機7b沿著吸入氣流A1 之吸入方向及吹出氣流B2之吹出方向並依照此順序並列配 置又，排氣口 s〇、排氣用送風機7a及電路基板1 〇沿著吸 入氣流A1之吸入方向及吹出氣流B2之吹出方向並依照此順 序並列配置。換言之，熱交換器9及電路基板1〇配置於外裝 10 201031826 殼1之其中一邊之對角位置，並且，給氣用送風機7b及排氣 用送風機7a配置於外裝殼1之另一邊之對角位置。 又，排氣用葉片6a以與熱交換器9相向之方式來配置。 又，排氣用電動機5 a配置於熱交換器9那側。又，排氣用風 扇罩8a連接至排氣口 S0。又，由給氣用葉片6b和給氣用電 動機5b所構成之給氣用送風機7b以與熱交換器9相向之方 式配置。 又，在排氣口 S0與熱交換器9之間，設置有用來進行給 氣流B1之除塵的給氣端除塵過滤器16。又，由面板外裝框2 所隔開之外裝殼1下之空間由分離器12分成兩半，藉此，形 成經過排氣通風道14a之排氣室15a和經過給氣通風道14b 之給氣室15b。 另外，當分別藉由排氣用電動機5a及給氣用電動機5b 旋轉排氣用葉片6a及給氣用葉片6b時，室内之吸入氣流A1 從面板吸入口 ϋ I沿著天花板T被水平吸入，並且，室外之給 # 氣流Β1從給氣口 SI供給。 另外，當吸入氣流Α1從面板吸入口 UI沿著天花板Τ被水 平吸入時，由分離器12塞住前方，所以，吸入氣流A1之前 進方向改變，作為排氣流A2被導引至熱交換器9。又，當室 外之給氣流B1從給氣口 SI供給時，給氣口 SI之正面設置有 熱交換器9，所以，該給氣流B1被導引至熱交換器9。另外， 當排氣流A2及給氣流B1被導引至熱交換器9時，在排氣流A2 與給氣流B1之間進行熱交換後，排氣流A 2流入排氣用送風 機7a，並且，給氣流B1流入給氣用送風機7b。在此，藉由 11 201031826 在排氣流A2與給氣流B1之間進行執夺始 ^ ^ - 、 .、、、父換’可回收排氣熱， 進而可減輕空調設備之負載。 另外，當排氣流A2流入排氣用送風機化時，藉由排氣 用送風機7a導引至排氣口 S0，從排氣口如排出至室外。另 方面，當給氣流B1流入給氣用送風機几時藉由給氣用 送風機7b導引至下面面板3之方向，透過送風機吹出口” 被送出。另外，當給氣流B1透過送風機吹出口 17被送出時， 前方被下面面板3塞住，側方被壁面2a，2b塞住，後方被分 離器12塞住，所以，從面板吹出口 _著天花板”乍為吹& φ 乳流B2被水平吹出至室内。 另外’當吸入氣流A1從面板吸入口 ui沿著天花板τ被水 平吸入並且吹出氣流Β2從面板吹出口 υ〇沿著天花板τ被水 平吹出時，可產生一種換氣流，該換氣流可經由面板吹出 口 U0—室内之天花板τ—室内之壁面—室内之地板—室内 之壁面—室内之天花板面板吸入口耵這樣的路徑在屋 内循環’如此，可抑制換氣之沈殿，進而可 — 氣。 j延仃至内之換 馨 又’吹出氣流B2和吸入氣流A1沿著天花板τ水平流出， 藉此’可防止來自排氣用送風機7a及給氣用送風機？b之噪 音從面板吹出口 U0及面板吹出口 U0直接對著製品正下方的 人身上’進而可提高寧靜度。 第2實施型態. 第6圖為分解表示本發明之同時給排型換氣扇之第^實 施型態之裝飾面板之安裝部位之概略結構的立體圖，第7 12 201031826 圖為以核式來表示第6圖之同時給排型換氣扇之隔間η與 分離器12之間之配置狀態之其中一例的剖面圖。在第6圖及 第7圖中，於外裝殼1之下面’設有面板安裝工具21，固定 於外裝殼1上。 在此，面板安裝工具21之外框之結構可與設於外裝殼丄 之下面的本體開口部4之外周對應，且可為角筒狀。又，在 與面板女裝工具21之外裝殼1相向的面上，設有將從面板吸 φ 入口 吸入之吸入氣流A1導引至外裝殼1内的吸入端開口 部21a，並且’設有吹出端開口部21b，其將從第3圖之送風 機吹出口 17吹出之給氣流B1作為吹出氣流B2，將其導引至 面板吹出口 U0。 另外，面板外裝框23以可相對於面板安裝工具21上下 移動之方式安裝於面板安裝工具21上。在此，面板外裝框 23之外框之結構可設計成一方面密接至面板安裝工具η之 外框上，一方面使面板外裝框23、面板安裝工具21可互相 ® 上下移動。 又’在面板外裝框23之兩侧，形成壁面23a，23b，其 將沿著吸入氣流A1及吹出氣流B2之下面面板1〇3的前進方 向規範為一邊之方向。又，為了在面板安裝工具21與面板 外裝框23之間不會從間隙產生漏風之情況，所以，可在面 板安裝工具21與面板外裝框23之間設置緩衝元件。 在此’為了規範面板外裝框2 3相對於面板安裝工具21 化著上下方向之移動方向，在面板安裝工具21上，沿著上 下方向形成溝22，並且，在面板外裝框23上，形成可嵌入 13 201031826 溝22之軌道24。此外，亦可在面板安裝工具21上形成軌道， 在面板外裝框23上形成溝。 又，在面板安裝工具21及下面面板103上，分別設有分 離器25，27’其可防止從面板吸入口 [JI吸入之吸入氣流A1 和從面板吹出口 U0吹出之吹出氣流B2混在一起。此外，分 離器2 5，27可藉由隔板或隔壁構成，可垂直配置於下面面 板103上。又，分離器25, 27可由樹脂等彈性體構成。另外， 在分離器25，27上’分別設有嵌合結構26，28。在此，該 嵌合結構26，28藉由使分離器25，27相互嵌合而使分離器 25, 27相互密合在一起，並且，可相對於彼此上下移動。 另外，下面面板103之兩端附近以受到壁面23a，23b 支持之方式固定於面板外裝框23上’藉此，面板吸入口 ui 及面板吹出口 UO形成於下面面板1〇3上。 又，藉由面板安裝工具21隔開之外裝殼}下之空間被分 離器25，27分成兩半，藉此，形成通過外裝殼丨之排氣通風 道14a的排氣室29a和通過外裝殼1之給氣通風道14b的給氣 室 29b。 另外，從面板吸入口 UI水平吸入之吸入氣流A1藉由分 離器25，27將前進方向改變為垂直方向，透過排氣室29& 被導引至外裝殼1之排氣通風道14ae另—方面，從送風機 吹出口 17垂直送出之給氣流B1藉由下面面板1〇3將前進方 向改變為水平方向，從面板吹出口 u〇作為吹出氣流β2水平 吹出至室内。 藉此，可防止從送風機吹出口 i 7送出之給氣流B1作為 201031826 吹出氣流B2被直接吹出，進而可減少來自給氣用送風機几 之吹出噪音。 又’藉由使面板外裝框2 3和面板安裝工具21可彼此上 下移動之結構，可調整外裝殼1與下面面板1〇3之間之間 隔。因此，可在施行換氣時配合外裝殼1與第2圖之天花板τ 之間之間隙來調整下面面板1〇3之上下方向之位置，即使在 天化板Τ之厚度不為固定的情況下，也可防止下面面板ι〇3 固定於超出天花板Τ之位置或下面面板103固定於進入天花 板Τ之位置。 第3實施型態. 第8圖為沿著吸入氣流A1及吹出氣流Β2之流動方向切 割出剖面來表示本發明之同時給排型換氣扇之第3實施型 態的的剖面圖。在第8圖中，於此同時給排型換氣扇上設置 下面面板113,取代第4圖之下面面板3。在此，下面面板113 在吸入氣流A1之吸入端和吹出氣流B2之吹出端，水平伸出 至面板外裝框2之外側。 另外，在吸入氣流A1之吸入端和吹出氣流B2之吹出 端’下面面板113以與天花板T對抗之方式來配置，藉此， 面板吸入口 UI’和面板吹出口 UO，形成於下面面板113與 天花板T之間。 另外，從面板吸入口 UI’水平吸入之吸入氣流A1藉由 分離器12將前進方向改變為垂直方向，透過熱交換器9及排 氣用送風機7a，從排氣口 S0作為排氣流A2排出至室外。 另一方面，從給氣口 SI供給的室外之給氣流B1透過熱 15 201031826 交換器9及給氣用送風機几從送風機吹出口1?被吹出。另- 外，藉由下面面板113將前進方 ^心々间改變為水平方向，從面板 吹出口 110’作為吹出氣流B2被水平吹出至室内。 藉此，可針對來自面板吸入口 π，及面板吹出口肋， 之運轉噪音，沿著天花板Τ在水平方向具有指向性。因此， 可防止嗓音從面板吸入口 UI，或面板吹出口 ϋ〇，直接對著 製品之正下方的人身上，進而可減少對正下方的人產生噪 音。 此外，使從面板外裝框2到下面面板i i 3之伸出量G可隨 麕 著増加至80mm而慢慢減低嗓音。例如，在喚起風量為 5〇〇m3/h的情況下，若將伸出量G設定為3〇raifl，噪音減低效 果為-2dB，若將伸出量G設定為80mm，噪音減低效果為_3dB。 另一方面，下面面板113之伸出量G越大，噪音減低效 果越好，不過，若伸出量G超過8 〇mm，下面面板jig之設計 性除了會減損之外，噪音減低效果之增加量也變少。因此， 從面板外裝框2到下面面板113之伸出量G宜設定在3〇〜80mm _ 之範圍内。 此外，在第8圖之範例中，已經說明過在吸入氣流A1 之吸入端和吹出氣流B2之吹出端這兩端為在面板外裝框2 之外側有下面面板113水平伸出之結構的情況，然而，亦可 針對吸入氣流A1之吸入端和吹出氣流B2之吹出端中任一 者’在面板外裝框2之外側使下面面板11 3水平伸出。 第4實施型態. 第9圖為沿著吸入氣流A1及吹出氣流B2之流動方向切 16 201031826 割出剖面來表示本發明之同時給排型換氣扇之第4實施型 態的的剖面圖。在第9圖中，於此同時給排型換氣扇上’設 有下面面板123’取代第4圖之下面面板3。在此，下面面板 123在吹出氣流B2之吹出端’使端部朝向斜下方，藉此，面 板吹出口 U0”形成於下面面板123上。The advancing direction of the lower panel 3 of the suction airflow A1 and the blown airflow B2 is defined as the direction of one side. Further, the outer casing 1 separates the exhaust gas flow A2 discharged from the exhaust port SO and the supply air flow B1 supplied from the air supply port SI so that the two are not mixed in the outer casing, thereby exhausting the air passage 14a and the air supply passage 14b are formed separately from each other in the outer casing. Further, in the outer casing 1, the exhaust air blower 7a, '", the blower 7b, the heat exchanger 9, and the circuit board 1' are housed. Here, the exhaust air blower 7ag& is placed on the exhaust air passage 14a. The air supply fan is disposed on the air supply passage Ub. The heat exchanger 9 is disposed on the exhaust air passage ... and the air supply passage 14b. The exhaust air is used for the 33⁄4: the fan 7a can suck the person to the panel to attract the population [ The suction gas of I is transported to the exhaust air passage 14a, and the exhaust air vane 6a is formed on the exhaust air blower 7& The exhaust electric motor 5a that rotates the arranging field argon blade 6a and the scroll-shaped ventilating fan cover 8a that has the structure of the air blasting motor 5a surrounding the venting blade 6 am. 7b can send you the airflow 61 from the air supply port SI to the air supply ventilator 9 201031826 lane 14b to the panel air outlet port 〇, as the blown airflow old-from the panel air outlet 110 is blown out. The air supply fan 7b is provided with an air supply blade 6b for forming the air flow B1, and the air supply blade 6b is rotated. The air supply motor 5b and the blown air supply fan cover (10) having the structure surrounding the air supply blade 6b and the air supply motor 5b. Further, the air supply fan cover 8b faces the lower surface panel 3 In this manner, the blower outlet 17 for blowing the airflow bi is formed. Further, the heat exchanger 9 exchanges heat between the exhaust stream A2 discharged from the exhaust port S0 and the feed stream B1 supplied from the air supply port SI. Further, as shown in Fig. 5, the heat exchanger 9 φ can form a hexahedron structure in which the mutually perpendicular air passages are alternately laminated. Further, the heat exchanger 9 can be disposed in the outer casing 如此 so that the exhaust gas The flow A2 can ensure that the air passage "in the air flow B1" in the heat exchanger 9 can ensure the air passage in the heat exchanger 9 along the blowing direction of the blow air flow b2 in the direction perpendicular to the lower panel 3. A power supply circuit for supplying power to the exhaust motor 5& and the air supply motor 5b and a control circuit for controlling the rotation of the exhaust electric motor 5a and the air supply motor 5b are mounted on the circuit board 1A. Therefore, the air supply port SI and the exhaust port S0 are along It is arranged side by side in the direction perpendicular to the suction direction of the suction air flow and the blowing direction of the blown air flow B2. Moreover, the D gas, the hot father changer 9 and the air supply blower 7b are arranged side by side in the suction direction of the suction airflow A1 and the blowing airflow B2, and are arranged in parallel in this order, the exhaust port s〇, the exhaust fan 7a and the circuit board 1 are arranged side by side in the suction direction of the suction airflow A1 and the blowing direction of the blowing airflow B2. In other words, the heat exchanger 9 and the circuit board 1 are disposed at diagonal positions of one of the outer casings 10 201031826, and the air supply blower 7b and the exhaust air blower 7a are disposed on the other side of the outer casing 1. Diagonal position. Further, the exhaust vane 6a is disposed to face the heat exchanger 9. Further, the exhaust motor 5a is disposed on the side of the heat exchanger 9. Further, the exhaust fan cover 8a is connected to the exhaust port S0. Further, the air supply blower 7b composed of the air supply blade 6b and the air supply motor 5b is disposed to face the heat exchanger 9. Further, between the exhaust port S0 and the heat exchanger 9, a supply end dust removing filter 16 for performing dust removal of the air flow B1 is provided. Further, the space under the outer casing 1 separated by the panel outer frame 2 is divided into two halves by the separator 12, whereby the exhaust chamber 15a passing through the exhaust air passage 14a and the air supply passage 14b are formed. Air supply chamber 15b. When the exhaust vane 6a and the air supply vane 6b are rotated by the exhaust electric motor 5a and the air supply motor 5b, the indoor intake airflow A1 is horizontally sucked from the panel suction port I along the ceiling T. Further, the outdoor air supply unit 1 is supplied from the air supply port SI. Further, when the intake air enthalpy 1 is horizontally sucked from the panel suction port UI along the ceiling cymbal, the front portion is plugged by the separator 12, so that the intake air flow A1 is changed in the forward direction and is guided to the heat exchanger as the exhaust gas flow A2. 9. Further, when the supply flow B1 outside the chamber is supplied from the air supply port SI, the heat exchanger 9 is provided on the front surface of the air supply port SI, so that the air flow B1 is guided to the heat exchanger 9. Further, when the exhaust gas flow A2 and the feed air flow B1 are guided to the heat exchanger 9, after the heat exchange between the exhaust gas flow A2 and the feed air flow B1, the exhaust gas flow A2 flows into the exhaust air blower 7a, and The airflow B1 flows into the air supply blower 7b. Here, by 11 201031826, between the exhaust gas flow A2 and the feed air flow B1, the exhaust gas can be recovered, and the load of the air conditioner can be reduced. Further, when the exhaust gas flow A2 flows into the exhaust air blower, it is guided to the exhaust port S0 by the exhaust air blower 7a, and discharged to the outside from the exhaust port. On the other hand, when the airflow B1 flows into the air supply blower, it is guided to the lower panel 3 by the air supply blower 7b, and is sent out through the blower blower. Further, when the airflow B1 is blown through the blower outlet 17 When it is sent out, the front side is plugged by the lower panel 3, the side is plugged by the wall faces 2a, 2b, and the rear side is plugged by the separator 12. Therefore, the blower exits from the panel to the ceiling is blown & φ milk flow B2 is level Blow out to the room. In addition, when the suction airflow A1 is horizontally sucked from the panel suction port ui along the ceiling τ and the blown airflow Β2 is horizontally blown out from the panel air outlet υ〇 along the ceiling τ, a change airflow can be generated, which can be Panel outlet U0—the ceiling of the room—the wall of the room—the floor of the room—the wall of the room—the ceiling of the ceiling panel of the room. The path of the ceiling is circulated inside the house. This can suppress the venting of the hall, and then the gas. j. The inside of the air is blown out, and the airflow B2 and the suction airflow A1 are horizontally discharged along the ceiling τ, thereby preventing the blower 7a for the exhaust gas and the blower for the air supply. The noise of b is increased from the panel outlet U0 and the panel outlet U0 directly to the person directly below the product. (Second Embodiment) Fig. 6 is a perspective view showing a schematic configuration of a mounting portion of a decorative panel of a first embodiment of a ventilating fan of the present invention, and a seventh embodiment of the present invention is shown in a nuclear form. 6 is a cross-sectional view showing an example of the arrangement state between the compartment η of the exhaust fan and the separator 12 at the same time. In Figs. 6 and 7, a panel mounting tool 21 is provided on the lower surface of the outer casing 1 and is fixed to the outer casing 1. Here, the outer frame of the panel mounting tool 21 may have a structure corresponding to the outer circumference of the main body opening portion 4 provided on the lower surface of the outer casing 丄, and may have a rectangular tube shape. Further, on the surface facing the casing 1 other than the panel women's wear tool 21, a suction end opening portion 21a for guiding the suction airflow A1 sucked from the panel suction φ inlet into the outer casing 1 is provided, and The blowing end opening portion 21b is configured to guide the airflow B1 blown from the blower outlet 17 of Fig. 3 as the blowing airflow B2 to the panel air outlet U0. Further, the panel exterior frame 23 is attached to the panel mounting tool 21 so as to be movable up and down with respect to the panel mounting tool 21. Here, the outer frame of the panel outer frame 23 can be designed to be in close contact with the outer frame of the panel mounting tool η, and the panel outer frame 23 and the panel mounting tool 21 can be moved up and down. Further, on both sides of the panel outer frame 23, wall faces 23a, 23b are formed which are oriented in the direction of one side along the advancing direction of the lower surface panel 1?3 of the suction airflow A1 and the blown airflow B2. Further, in order to prevent air leakage from the gap between the panel mounting tool 21 and the panel outer frame 23, a cushioning member can be provided between the panel mounting tool 21 and the panel outer frame 23. Here, in order to regulate the movement direction of the panel exterior frame 23 with respect to the panel mounting tool 21, the groove 22 is formed in the panel mounting tool 21 along the vertical direction, and on the panel exterior frame 23, A track 24 is formed that can be embedded in the 13 201031826 trench 22. Further, a rail may be formed on the panel mounting tool 21, and a groove may be formed in the panel outer frame 23. Further, on the panel mounting tool 21 and the lower panel 103, separate separators 25, 27' are provided to prevent mixing of the suction airflow A1 sucked from the panel and the blown airflow B2 blown from the panel air outlet U0. Further, the separators 25, 27 may be formed by a partition or a partition wall and may be vertically disposed on the lower panel 103. Further, the separators 25, 27 may be made of an elastomer such as a resin. Further, fitting members 26, 28 are provided on the separators 25, 27, respectively. Here, the fitting structures 26, 28 are such that the separators 25, 27 are fitted to each other by fitting the separators 25, 27 to each other, and are movable up and down with respect to each other. Further, the vicinity of both ends of the lower panel 103 is fixed to the panel outer frame 23 so as to be supported by the wall faces 23a, 23b. Thereby, the panel suction port ui and the panel air outlet U0 are formed on the lower panel 1A3. Further, the space under the outer casing by the panel mounting tool 21 is divided into two halves by the separators 25, 27, whereby the exhaust chamber 29a and the passage through the exhaust air passage 14a of the outer casing are formed. The air supply chamber 29b of the air supply passage 14b of the outer casing 1. In addition, the suction airflow A1 sucked horizontally from the panel suction port UI is changed to the vertical direction by the separators 25, 27, and is guided to the exhaust air passage 14ae of the outer casing 1 through the exhaust chamber 29& On the other hand, the feed airflow B1 that is vertically fed from the blower outlet 17 is changed to the horizontal direction by the lower panel 1〇3, and is blown horizontally from the panel outlet u〇 as the blown airflow β2. Thereby, the blow-in airflow B1 sent from the blower outlet i7 can be prevented from being directly blown out as the 201031826 blown airflow B2, and the blown noise from the blower for the air supply can be reduced. Further, by arranging the panel exterior frame 23 and the panel mounting tool 21 to move up and down from each other, the gap between the outer casing 1 and the lower panel 1〇3 can be adjusted. Therefore, the gap between the outer casing 1 and the ceiling τ of the second figure can be adjusted during the ventilation to adjust the position of the lower panel 1 〇 3 in the upper and lower directions, even if the thickness of the slab is not fixed. Next, it is also possible to prevent the lower panel ι〇3 from being fixed beyond the ceiling cymbal or the lower panel 103 being fixed at the position of entering the ceiling cymbal. Third embodiment. Fig. 8 is a cross-sectional view showing a third embodiment of the simultaneous ventilating fan of the present invention, taken along the cross section of the flow direction of the suction air flow A1 and the blow air flow Β2. In Fig. 8, the lower panel 113 is disposed on the exhaust fan at the same time as the lower panel 3 of Fig. 4. Here, the lower panel 113 is horizontally projected to the outside of the panel outer frame 2 at the suction end of the suction airflow A1 and the blowing end of the blown airflow B2. Further, the lower panel 113 of the suction end of the suction airflow A1 and the blowing end of the blown airflow B2 are disposed in such a manner as to oppose the ceiling T, whereby the panel suction port UI' and the panel air outlet UO are formed in the lower panel 113 and Between the ceilings T. Further, the suction airflow A1 sucked horizontally from the panel suction port UI' is changed to the vertical direction by the separator 12, and is transmitted through the heat exchanger 9 and the exhaust fan 7a, and is exhausted from the exhaust port S0 as the exhaust gas flow A2. To the outside. On the other hand, the outdoor airflow B1 supplied from the air supply port SI is transmitted through the heat 15 201031826. The exchanger 9 and the air supply air blower are blown out from the blower air outlet 1 . Further, the front side is changed to the horizontal direction by the lower panel 113, and is blown horizontally from the panel outlet 110' as the blowing airflow B2 to the room. Thereby, it is possible to have directivity in the horizontal direction along the ceiling cymbal with respect to the operation noise from the panel suction port π and the panel outlet rib. Therefore, it is possible to prevent the noise from being directly applied to the person directly under the product from the panel suction port UI or the panel outlet port, thereby reducing the noise generated by the person directly below. Further, the amount of protrusion G from the panel outer frame 2 to the lower panel i i 3 can be gradually reduced as the 増 is increased to 80 mm. For example, when the air volume is 5 〇〇 m3/h, if the protrusion amount G is set to 3 〇 raifl, the noise reduction effect is -2 dB, and if the protrusion amount G is set to 80 mm, the noise reduction effect is _ 3dB. On the other hand, the larger the amount of protrusion G of the lower panel 113 is, the better the noise reduction effect is. However, if the amount of protrusion G exceeds 8 〇mm, the design of the lower panel jig is not only degraded, but also the noise reduction effect is increased. The amount is also reduced. Therefore, the amount of protrusion G from the panel outer frame 2 to the lower panel 113 should be set within a range of 3 〇 to 80 mm _. Further, in the example of Fig. 8, it has been explained that the both ends of the suction end of the suction airflow A1 and the blowing end of the blown airflow B2 have a structure in which the lower panel 113 is horizontally extended outside the panel outer frame 2. However, the lower panel 11 3 may be horizontally extended on the outer side of the panel outer frame 2 for either the suction end of the suction air flow A1 and the blow end of the blow air flow B2. Fourth Embodiment FIG. 9 is a cross-sectional view showing a fourth embodiment of the simultaneous ventilating fan of the present invention, taken along the flow direction of the suction airflow A1 and the blown airflow B2. In Fig. 9, at the same time, the upper panel 123' is provided on the upper ventilating fan instead of the lower panel 3 of Fig. 4. Here, the lower panel 123 has the end portion obliquely downward at the blowing end of the blowing airflow B2, whereby the panel blowing outlet U0" is formed on the lower panel 123.

另外，從面板吸入口 UI水平吸入之吸入氣流A1藉由分 離器12將前進方向改變為垂直方向，透過熱交換器9及排氣 用送風機7a，從排氣口 S0作為排氣流A2排出至室外。 另一方面’從給氣口 si供給的室外之給氣流B1透過熱 交換器9及給氣用送風機7b從送風機吹出口 I?被吹.出。另 外，藉由下面面板123將前進方向改變為斜下方，從面板吹 出口 U0”作為吹出氣流B2被斜下吹出至室内。 藉此，可防止吹出氣流Β2直接對著製品之正下方的人 身上，亦可減少冬季時期特有之抽風感，並且，可防止因 康達效應而使吹出氣流Β2沿著天花板Τ流出，進而可抑制吹 出氣流Β2所引起之長年留在天花板τ上之污垢。 此外，吹出氣流Β2之下面面板123所產生之入口長度η 宜設定在30~50mm之範圍内。又，吹出氣流Β2相對於天花"板 Τ之吹出角宜在3〇~45度之範圍内。 此外，在第9圖之範例中，已經說明過在吹出氣产以 之吹出端使下面面板之端部朝向斜下方f曲的結構^ 而’亦可針對吸人氣流以之吸人端和吹出氣流β2之吹出: 兩方’使下面面板123之端部朝向斜下方彎曲。 第5實施型態. 17 201031826 第10圖為表示本發明之同時給排型換氣扇之第5實施 型態之下面面板部位之概略構造的立體圖。在第1〇圖中， 於第3圖之外襞殼1之下方，透過面板外裝框31安裝下面面 板33。在此’於面板外裝框31之兩侧，形成用來規範吸入 氣流A1及吹出氣流B2之前進方向的壁面31a，31b。 又’在下面面板33上’設有用來防止吸入氣流A1和吹 出氣流B2混在一起的分離器35。又，下面面板33沿著分離 器35被分割為兩半，可以該界線為支點將單侧凹折至外 側。在此’下面面板33可藉由闢啟分割後之單侧來露出熱 交換器9。 另外’在下面面板33上，形成卡勾結構34，其在凹折 下面面板33之單側時藉由面板外裝框31支持下面面板33。 又’在面板外裝框31上，安裝有排氣端除塵過濾器32， 其配置於第6圖之吸入端開口部2ia與面板吸入口 u!之間。 此外，排氣端除塵過濾器32可覆蓋藉由分離器35分割之面 板外裝框31之整個面板吸入口。 另外’從面板吸入口 UI水平吸入之吸入氣流A1藉由分 離器35將前進方向改變為垂直方向，通過排氣端除塵過濾 器32。另外，在藉由排氣端除塵過濾器犯除塵之後，作為 排氣流A2被導引至第5圖之外裝殼i。另外，透過第5圖之熱 父換器9及排氣用送風機7a，從排氣口 排出至室外。 另一方面，從給氣口 SI供給的室外之給氣流B1通過第3 圖之給氣端除塵過濾器1 6。另外，在藉由給氣端除塵過濾 器16除塵之後，透過熱交換器9及給氣用送風機”從送風機 201031826 吹出口 Π被吹出。另外，藉由下面面板33將前進方向改變 為水平方向，從面板吹出口 U0作為吹出氣流Β2被水平吹出 至室内。 在此’可將下面面板33分割為兩半且可將下面面板33 之單側凹折至外侧’藉此’不需要在進行清掃等維修作業 時取下整個下面面板33’於是可提高維修時之工作性。 又’藉由將下面面板33分割為兩半，不需要將整個下 ❿ 面面板33當作一體來處理，於是可使下面面板33之搬運及 製造變得容易。 又’在第6圖之吸入端開口部21a與面板吸入口 υ!之間 配置排氣端除塵過濾器3 2並在給氣口 SI與熱交換器9之間 配置給氣端除塵過濾器16’藉此，在僅將下面面板33之單 側凹折至外侧的情況下，也可輕易取出給氣端除塵過渡器 16及排氣端除塵過濾器32，進而可提高維修時之工作性。 此外’在上述之實施型態中，已經說明過於外裝殼1 ©上設置熱交換器9之方法，然而，亦可不要熱交換器9。 又’亦可設置使熱交換器9繞道之旁路通風道及在關閉 排氣通風道14a之後開放旁路通風道的阻尼裳置，進行不伸^ 隨熱交換之普通換氣。 第6實施型態. 第11圖為以模式表示本發明之空調裝置之第6實施型 態的刮面圖。在第11圖中，於空調裝置上，設有外襄殼2〇1， 於外裝殼201之下方，透過面板外裝框2 02安裝下面面板 203。此外，面板外裝框202可為角筒狀。又，下面面板2〇3 19 201031826 可採用裝飾面板。 另外，於外裝殼201之下方，吸入吸入氣流A1之面板吸 入口 UI及吹出吹出氣流B2之面板吹出口 UO形成於下面面板 203 上。 在此，面板吸入口 UI和面板吹出口 UO可以彼此相向之 方式形成於下面面板203上。在此情況下，面板吸入口 UI 和面板吹出口 UO沿著下面面板203而形成，吸入面板吸入口 UI之吸入氣流A1之方向和從面板吹出口 UO吹出之吹出氣流 B2之方向宜配置為同一方向。 另外，在外裝殼201内，設有確保面板吸入口 UI與面板 吹出口 UO之間之通風道的給排氣通風道206。又，在給排氣 通風道206上，設有風扇2 04及熱交換器205。在此，熱交換 器205可調節從面板吸入口 UI吸入之吸入氣流A1之溫度。在 此熱交換器205上，可設置壓縮機、冷凝氣及蒸發器。風扇 204可使吸入氣流A1被吸入至吸入口 UI，作為吹出氣流B2 從面板吹出口 UO被吹出。 另外，當室内之吸入氣流A1從面板吸入口 UI被吸入 時，該吸入氣流A1被導引至外裝殼201内。然後，被導引至 外裝殼201内之吸入氣流A1在藉由熱交換器205進行熱交換 後，從面板吹出口 UO作為吹出氣流B2被吹出至室内。 在此，面板吸入口 UI和面板吹出口 U0以彼此相向之方 式形成於下面面板2 03，藉此，可使吸入至面板吸入口 UI 之吸入氣流Α1之方向和從面板吹出口 U0吹出之吹出氣流Β2 之方向為同一方向。因此，可使吸入氣流Α1及吹出氣流Β2 201031826 以沿著天花板循環之方式來流動，可在吹出氣流B2與吸入 氣流A1之間抑制短路之發生，所以，可進而提高空調效率。 此外，在第11圖之第6實施型態中，空調裝置已以空調 機為例來進行說明’不過’亦可使用慮過過遽器代替熱交 換器205而應用在空氣清淨機上。此外，濾過過濾器可採用 集塵過渡器、脫臭過濾器、除菌過濾器等。 【產業上可利性】 如上所述，本發明之同時給排型換氣扇之吸入氣流及 吹出氣流可沿著天花板面流向同一方向，適合用來抑制在 吹出至室内之吹出氣流與從室内吸入之吸入氣流之間產生 【圈式簡單說明】 態之外觀結構的立體圖。 第1圖為表示本發明之同時給排型換氣扇之第丨實施型 時之狀態 的立體圖。Further, the suction airflow A1 sucked horizontally from the panel suction port UI is changed to the vertical direction by the separator 12, and is transmitted through the heat exchanger 9 and the exhaust fan 7a, and is discharged from the exhaust port S0 as the exhaust gas flow A2. outdoor. On the other hand, the outdoor airflow B1 supplied from the air supply port si is blown through the heat exchanger 9 and the air supply blower 7b from the air blower outlet I. Further, the advancing direction is changed to the obliquely downward direction by the lower panel 123, and the blowout air outlet U0" is obliquely blown out into the room as the blown airflow B2. Thereby, the blown airflow Β2 can be prevented from directly facing the person directly below the product. In addition, it is possible to reduce the sensation of the wind in the winter season, and prevent the blown airflow Β2 from flowing out along the ceiling due to the Coanda effect, thereby suppressing the dirt remaining on the ceiling τ caused by the blown airflow Β2. The inlet length η generated by the lower panel 123 of the blown air flow Β 2 should be set within a range of 30 to 50 mm. Further, the blown air flow Β 2 should be in the range of 3 〇 to 45 degrees with respect to the ceiling of the ceiling. In the example of Fig. 9, the structure in which the end of the lower panel is bent downwardly at the end of the blowing of the gas is described, and the suction and the airflow are also applied to the suction airflow. Blowing out of β2: Both sides 'bend the end portion of the lower face plate 123 obliquely downward. Fifth Embodiment. 17 201031826 FIG. 10 is a view showing the fifth embodiment of the simultaneous ventilating fan of the present invention. A perspective view of a schematic structure of a face panel portion. In the first drawing, the lower panel 33 is attached to the lower side of the clamshell 1 outside the third figure through the panel outer frame 31. Here, the two outer panels 31 are attached. On the side, wall faces 31a, 31b for regulating the forward flow direction of the suction air flow A1 and the blown air flow B2 are formed. Further, 'the lower face plate 33' is provided with a separator 35 for preventing the suction air flow A1 and the blown air flow B2 from being mixed together. The lower panel 33 is divided into two halves along the separator 35, and the boundary can be folded to the outside with the boundary as a fulcrum. Here, the lower panel 33 can expose the heat exchanger 9 by splitting the single side after division. In addition, on the lower panel 33, a hook structure 34 is formed which supports the lower panel 33 by the panel outer frame 31 when the one side of the lower panel 33 is recessed. Further, the panel outer frame 31 is provided with a row. The air end dust filter 32 is disposed between the suction end opening portion 2ia and the panel suction port u! of Fig. 6. Further, the exhaust end dust removing filter 32 covers the panel outer frame divided by the separator 35. 31 of the entire panel suction port. Also 'from the panel The intake air flow A1 sucked in at the entrance UI level is changed to the vertical direction by the separator 35, and the dust filter 32 is removed through the exhaust end. In addition, after the dust is removed by the exhaust end dust filter, it is used as the exhaust flow A2. It is guided to the casing i outside the fifth drawing, and is discharged from the exhaust port to the outside through the hot parent converter 9 and the exhaust fan 7a of Fig. 5. On the other hand, the air supply port SI is supplied from the air supply port SI. The outdoor air supply B1 passes through the air supply side dust filter 16 of Fig. 3. In addition, after the dust is removed by the air supply side dust filter 16, the heat exchanger 9 and the air supply fan are blown out from the blower 201031826. He was blown out. Further, the advancing direction is changed to the horizontal direction by the lower panel 33, and is blown horizontally from the panel outlet U0 as the blowing airflow Β2 to the room. Here, the lower panel 33 can be divided into two halves and the single side of the lower panel 33 can be folded to the outside. This eliminates the need to remove the entire lower panel 33' during maintenance work such as cleaning, thereby improving maintenance. Workability. Further, by dividing the lower panel 33 into two halves, it is not necessary to treat the entire lower deck panel 33 as a unit, so that the conveyance and manufacture of the lower panel 33 can be facilitated. Further, the exhaust end dust filter 3 is disposed between the suction end opening 21a and the panel suction port 第 in Fig. 6, and a gas end dust filter 16' is disposed between the air supply port S1 and the heat exchanger 9. Thereby, in the case where only the one side of the lower panel 33 is concavely folded to the outside, the air-side dust removing transition unit 16 and the exhaust-side dust removing filter 32 can be easily taken out, and the workability at the time of maintenance can be improved. Further, in the above-described embodiment, the method of disposing the heat exchanger 9 on the outer casing 1 © has been described, however, the heat exchanger 9 may not be provided. Further, a bypass air passage for bypassing the heat exchanger 9 and a damping skirt for opening the bypass air passage after the exhaust air passage 14a is closed may be provided to perform normal air exchange without heat exchange. Sixth embodiment. Fig. 11 is a plan view showing a sixth embodiment of the air conditioner of the present invention in a mode. In Fig. 11, on the air conditioner, an outer clamshell 2〇1 is provided, and below the outer casing 201, the lower panel 203 is attached through the panel outer casing 202. In addition, the panel outer frame 202 may be in the shape of a square cylinder. Also, the lower panel 2〇3 19 201031826 can be used as a decorative panel. Further, below the outer casing 201, a panel suction inlet UI for sucking in the suction airflow A1 and a panel air outlet U0 for blowing the blown airflow B2 are formed on the lower panel 203. Here, the panel suction port UI and the panel air outlet U0 may be formed on the lower panel 203 so as to face each other. In this case, the panel suction port UI and the panel air outlet U0 are formed along the lower panel 203, and the direction of the suction airflow A1 sucked into the panel suction port UI and the direction of the blown airflow B2 blown from the panel air outlet U0 should be configured to be the same. direction. Further, in the outer casing 201, an air supply and exhaust duct 206 for ensuring a ventilation passage between the panel suction port UI and the panel air outlet UO is provided. Further, a fan 204 and a heat exchanger 205 are provided on the air supply and exhaust duct 206. Here, the heat exchanger 205 can adjust the temperature of the suction airflow A1 sucked from the panel suction port UI. On this heat exchanger 205, a compressor, a condensing gas, and an evaporator can be disposed. The fan 204 allows the suction airflow A1 to be sucked into the suction port UI, and is blown out from the panel air outlet U0 as the blown airflow B2. Further, when the indoor suction airflow A1 is sucked from the panel suction port UI, the suction airflow A1 is guided into the outer casing 201. Then, the suction airflow A1 guided into the outer casing 201 is heat-exchanged by the heat exchanger 205, and then blown out into the room from the panel air outlet U0 as the blowing airflow B2. Here, the panel suction port UI and the panel air outlet U0 are formed on the lower panel 203 so as to face each other, whereby the direction of the suction airflow Α1 sucked into the panel suction port UI and the blowout from the panel air outlet U0 can be blown out. The direction of the airflow Β2 is the same direction. Therefore, the intake air flow Α1 and the blow-out air flow Β2 201031826 can be circulated along the ceiling, and the occurrence of a short circuit can be suppressed between the blown air flow B2 and the intake air flow A1, so that the air-conditioning efficiency can be further improved. Further, in the sixth embodiment of Fig. 11, the air conditioner has been described by taking an air conditioner as an example. However, it is also possible to apply it to the air cleaner by using a bypass device instead of the heat exchanger 205. In addition, the filter filter may be a dust collecting transition device, a deodorizing filter, a sterilization filter, or the like. [Industrial Applicability] As described above, the suction airflow and the blown airflow of the ventilating fan at the same time of the present invention can flow in the same direction along the ceiling surface, and are suitable for suppressing the blown airflow blown out into the room and sucked from the room. A perspective view of the appearance of the [circle type simple description] state between the suction airflows. Fig. 1 is a perspective view showing a state in which the first embodiment of the ventilating fan of the present invention is provided.

之内部結 一例的立體圖。 第2圖為表示使用第1圖之同時給排型換氣扇 氣流B2之流動 方切割An internal view of an example. Figure 2 is a flow chart showing the flow of the ventilating fan airflow B2 while using the first drawing.

第4圖為沿著吸入氣流A1及吹出 出剖面來表示第3圖 第5圖為藉由凹口來表示第3圖 内。卩結構之其中一例的立體圖。 21 201031826 第6圖為分解表示本發明之同時給排型換氣扇之第2實 施型態之裝飾面板之安裝部位之概略結構的立體圖。 第7圖為以模式來表示第6圖之同時給排型換氣扇之隔 間11與分離器12之間之配置狀態之其中一例的剖面圖。 第8圖為沿著吸入氣流A1及吹出氣流B2之流動方向切 割出剖面來表示本發明之同時給排型換氣扇之第3實施型 態的的剖面圖。 第9圖為沿著吸入氣流A1及吹出氣流β2之流動方向切 割出剖面來表示本發明之同時給排型換氣扇之第4實施型 態的的剖面圖。 第10圖為表示本發明之同時給排型換氣扇之第5實施 型_之-^ τ面面板部位之概略構造的立體圖。 第11圖為以模式表示本發明之空調裝置之第6實施型 態的剖面圖。 【主要元件符號說明】 SI 給氣口 So 排氣o UI, ur 面板吸入口 ϋο, UO’ , ϋ〇” 面板吹出口 Al 吸入氣流 A2 排氣流 Bl 、给氣流 B2 吹出氣 流 201031826 τ天花板 1, 201外裝殼 2，23，202面板外裝框 203下面面板 3，33，103，113，123, 4本體開口部 5a排氣用電動機 5b給氣用電動機 • 6a排氣用葉片 6b給氣用葉片 7a排氣用送風機 7b給氣用送風機 8a排氣用風扇罩 8b給氣用風扇罩 9, 205熱交換器 10電路基板 • 12，25，27, 35 分離器 14a排氣通風道 14b給氣通風道 15a, 29a排氣室 15b, 29b給氣室 1 6給氣端除塵過濾器 1 7送風機吹出口 21面板安裝工具 21 a吸入端開口部 23 201031826 21b吹出端開口部 22溝 2a，2b，23a，23b，31a，31b 壁面 24軌道Fig. 4 is a view showing the third drawing along the suction air flow A1 and the blowout cross section. Fig. 5 is a view showing the inside of Fig. 3 by a notch. A perspective view of one of the 卩 structures. 21 201031826 Fig. 6 is a perspective view showing a schematic configuration of a mounting portion of a decorative panel of a second embodiment of the ventilating fan of the present invention. Fig. 7 is a cross-sectional view showing an example of the arrangement state between the partition 11 and the separator 12 of the ventilating fan at the same time as Fig. 6 in a mode. Fig. 8 is a cross-sectional view showing a third embodiment of the simultaneous ventilating fan of the present invention, which is cut along the flow direction of the suction air flow A1 and the blown air flow B2. Fig. 9 is a cross-sectional view showing a fourth embodiment of the simultaneous ventilating fan of the present invention, which is cut along the flow direction of the suction air flow A1 and the blown air flow β2. Fig. 10 is a perspective view showing a schematic structure of a fifth embodiment of the ventilating fan of the present invention. Figure 11 is a cross-sectional view showing a sixth embodiment of the air conditioner of the present invention in a mode. [Main component symbol description] SI air supply port So exhaust o UI, ur panel suction port ϋο, UO', ϋ〇" panel air outlet Al suction air flow A2 exhaust flow Bl, air flow B2 air flow 201031826 τ ceiling 1, 201 Outer casing 2, 23, 202 panel exterior frame 203 lower panel 3, 33, 103, 113, 123, 4 body opening 5a exhaust motor 5b air supply motor • 6a exhaust blade 6b air supply blade 7a exhaust fan 7b air supply fan 8a exhaust fan cover 8b air supply fan cover 9, 205 heat exchanger 10 circuit board • 12, 25, 27, 35 separator 14a exhaust air passage 14b ventilation Lane 15a, 29a exhaust chamber 15b, 29b air supply chamber 16 air supply dust filter 17 air blower outlet 21 panel mounting tool 21 a suction end opening 23 201031826 21b blow end opening 22 groove 2a, 2b, 23a , 23b, 31a, 31b wall 24 track

26，28嵌合結構 32排氣端除塵過濾器 34卡勾結構 204風扇 206給排氣通風道26,28 fitting structure 32 exhaust dust filter 34 hook structure 204 fan 206 air exhaust duct

24twenty four

Claims (1)

201031826 七、申請專利範圍： 1.—種同時給排型換氣扇，其特徵在於包括·· 外裝殼，形成相互獨立之排氣通風道和給氣通風道； 下面面板，設於上述外裝殼下方且以與面板吸入口及 面板吹出口相向之方式來形成； 排氣用送風機，收納於上述外裝殼内、將吸入上述面 板吸入口之吸入氣流運送 被排出；及 乳通風道且作為排氣流 給氣用送風機，收納於上述外裝殼内、將给氣至上述 給氣通風道之給氣流運送至上述面板吹出口且作為吹出流 被吹出。 2.如申請專利範圍第!項之同時給排型換氣扇，其中， 上述面板吸入口和面板吹出口形成於上述下面面板之邊緣 4位著上述下面面板形成吸人氣流及吹出氣流。 3·如中請專利範圍ρ項之同時給排型換氣扇，其中， 上述面板吸入口和面板吹出口之配置方式為，吸入上述面 板，入口之吸入氣流之方向和從上述面板吹出口吹出之吹 出氣流之方向為同一方向。 4. 如申請專利範圍第丨項之同時給排型換氣扇，其中， 上述面板吸入口和面板吹出口形成於上述下面面板與天花 板面之間。 5. 如申請專利範圍第丨項之同時給排型換氣扇，其中， 上述面板吸入口那側或上述面板吹出口那側中至少其中一 側之上述下面面板與天花板面相向，伸出至排氣室或吸氣 25 201031826 6·如申請專利範圍第1項之同時給排型換氣扇，其中， 上述面板吹出口朝向斜下方。 7.如申請專利範圍第1項之同時給排型換氣扇，其中， 進一步包括： 面板外裝框’配置於上述下面面板與上述外裝殼之間 且可調整其與上述外裝殼之間之間隔；及201031826 VII. Patent application scope: 1. A type of ventilation fan at the same time, which is characterized by including: · outer casing, forming independent exhaust ventilation duct and air supply ventilation duct; the lower panel is disposed on the outer casing The lower portion is formed to face the panel suction port and the panel air outlet; the exhaust air blower is housed in the outer casing, and the suction airflow sucked into the panel suction port is transported and discharged; and the milk air passage is arranged as a row The airflow supply air blower is housed in the outer casing, and supplies the airflow supplied to the air supply duct to the panel air outlet, and is blown out as a blowing flow. 2. The ventilating fan is provided to the ventilating fan at the same time as the scope of the patent application, wherein the panel suction port and the panel air outlet are formed at the edge of the lower panel 4, and the lower panel is formed to form an intake airflow and a blowing airflow. 3. In the case of the patent range ρ, the ventilating fan is disposed at the same time, wherein the panel suction port and the panel air outlet are arranged in such a manner that the direction of the suction airflow of the inlet and the blowout from the panel air outlet are sucked into the panel. The direction of the airflow is in the same direction. 4. The ventilating fan is provided to the ventilating fan at the same time as the ninth aspect of the patent application, wherein the panel suction port and the panel air outlet are formed between the lower panel and the ceiling panel. 5. The ventilating fan is provided to the ventilating fan at the same time as the ninth aspect of the patent application, wherein the lower panel of the side of the suction port of the panel or the side of the panel outlet of the panel faces the ceiling surface and protrudes to the exhaust Room or inhalation 25 201031826 6 · A ventilation fan is provided at the same time as the first item of the patent application, wherein the panel outlet is directed obliquely downward. 7. The ventilating fan is provided to the ventilating fan at the same time as the first aspect of the patent application, wherein the method further comprises: a panel outer frame arranging between the lower panel and the outer casing and adjustable between the outer casing and the outer casing Interval; and 分離器，設於上述下面面板、使經過上述排氣通風道 之排氣室經過上述給氣通風道之給氣室與上述面板外裝框 之壁面相互獨立且可調整外裝殼與下面面板之間之間隔。 8·如申請專利範圍第7項之同時給排型換氣扇，其中， 進一步包括： 排氣端除塵過濾器，設於上述面板吸入口與上述排氣 用送風機之間；及 給氣端除塵過濾器，設於上述給氣用送風機之上游。The separator is disposed on the lower panel, and the air supply chamber passing through the air supply passage of the exhaust air passage is independent of the wall surface of the outer frame of the panel and the outer casing and the lower panel are adjustable The interval between the two. 8. If the ventilation fan is provided at the same time as the seventh item of the patent application, the method further includes: an exhaust filter for the exhaust end, disposed between the suction port of the panel and the blower for exhaust; and a dust filter for the air supply end It is located upstream of the above-mentioned air supply blower. 9·如申請專利範圍第1項之同時給排型換氣扇，其中， 上述下面面板2分割為可由其中一邊獨立開啟。 10·如申請專利範圍第2項之同時給排型換氣扇，其 中，上述給氣用送風機朝向上述下面面板之水平面送出上 述給氣流，上述給氣流從上述下面面板之水平方向改變方 向，從上述面板吹出口作為吹出氣流被吹出。 11. 一種空調裝置，其特徵在於包括： 外裝殼’形成給排氣通風道； 下面面板 設於上述外裝殼下方且 以與面板吸入口及 26 201031826 « 面板吹出口相向之方式來形成； 風扇，收納於上述外裝殼内且將從上述面板吸入口吸 入之吸入氣流作為吹出氣流，從上述面板吹出口被吹出； 及 熱交換器，收納於上述外裝殼内且可調節從上述面板 吸入口吸入之吸入氣流之溫度。 12. —種空調裝置，其特徵在於包括： _ 外裝殼，形成給排氣通風道； 攀 下面面板，設於上述外裝殼下方且以與面板吸入口及 面板吹出口相向之方式來形成； 風扇，收納於上述外裝殼内且將從上述面板吸入口吸 入之吸入氣流作為吹出氣流，從上述面板吹出口被吹出； 及 過濾器，收納於上述外裝殼内且可對從上述面板吸入 口吸入之吸入氣流進行過濾處理。 ❿ 279. The ventilating fan is provided to the ventilating fan at the same time as the first item of the patent application range, wherein the lower panel 2 is divided into two sides which can be independently opened. 10. The ventilating fan is provided to the ventilating fan at the same time as the second aspect of the patent application, wherein the air supply fan sends the airflow to the horizontal plane of the lower panel, and the airflow changes direction from the horizontal direction of the lower panel, from the panel The blower outlet is blown out as a blown air stream. 11. An air conditioning apparatus, comprising: an outer casing 'formed to an exhaust air passage; a lower panel disposed below the outer casing and formed in a manner opposite to the panel suction port and 26 201031826 «panel outlet; a fan, the suction airflow received in the outer casing and sucked from the panel suction port is blown out from the panel outlet as a blowing airflow, and a heat exchanger is housed in the outer casing and adjustable from the panel The temperature of the suction airflow drawn into the suction port. 12. An air conditioning apparatus, comprising: _ an outer casing forming an air supply and exhaust duct; and a bottom panel disposed below the outer casing and formed to face the panel suction port and the panel air outlet a fan, which is housed in the outer casing and sucks a suction airflow sucked from the panel suction port as a blowing airflow, and is blown out from the panel air outlet; and a filter is housed in the outer casing and is detachable from the outer casing The suction airflow drawn into the suction port is filtered. ❿ 27