CN114947212B - Accelerated heat conduction atomizing device and use method - Google Patents

Abstract

The accelerated heat conduction atomizing device comprises a shell with a hollow cavity and a circuit assembly, wherein the circuit assembly comprises a battery and a flexible circuit board extending along the hollow cavity, one end of the flexible circuit board is provided with a first circuit area, and the battery is electrically connected with the first circuit area; and the circuit board supporting member is arranged in the hollow cavity and is matched with the inner wall of the hollow cavity, and an accelerating heat conduction mechanism is arranged in the heating assembly. The heating element is of a hollow structure, the accelerating heat conduction mechanism comprises a plurality of through holes arranged on the surface of the heating element and a micro fan arranged in the cover body, and the micro fan is electrically connected with the control circuit. When the low-temperature non-combustion smoke-absorbing device is used, the micro fan drives high-temperature air in the heating element to diffuse outwards through the through holes in the heating element, the high-temperature air rapidly reaches the inside of the whole low-temperature non-combustion smoke, the whole low-temperature non-combustion smoke is heated uniformly, and better absorbing sense is provided.

Description

Accelerated heat conduction atomizing device and use method

Technical Field

The invention belongs to the field of smoking sets, and particularly relates to an accelerating heat conduction atomizing device and a using method thereof.

Background

Related researches show that the traditional cigarette has a burning temperature of above 800 ℃, and the cigarette can generate more than 5000 chemical substances in the burning process, wherein more than 80 chemical substances are carcinogenic, and the generated smoke has a considerable harm to non-smoking people. The heating non-combustion technology is a technology for directly heating tobacco through a smoking set but not burning to generate smoke, and harmful substances generated by the heating mode are greatly reduced compared with harmful substances generated by burning traditional cigarettes, so that the harm to the body can be reduced while the requirements of consumers are met.

The main appliance of the heating non-combustion technology is a heating non-combustion smoking set, and the heating non-combustion smoking set heats tobacco materials so as to generate pyrolysis reaction, so that the tobacco materials are just heated to a degree sufficient for emitting tobacco taste and smoke so as to be sucked by a user.

Existing heating non-combustible smoking articles, whether in a rod-like or box-like configuration, generally have a smoking chamber therein for holding a tobacco product, a heating element for heating the tobacco product to form a smoke, a battery for providing power to the heating element, a circuit for connecting the battery to a power source and a circuit board carrying the circuit, a control circuit for controlling the battery to provide power to the heating element and a circuit board carrying the circuit, etc.

Compared with a box-shaped structure, the heating non-combustion smoking set with the rod-shaped structure is popular with more and more consumers because of the small size, convenient holding and more accordant with the hand feeling of the traditional cigarettes. However, compared with the box-shaped structure, the rod-shaped structure has the defect of limited internal installation space, and the structures such as the battery, the heating element, the smoke cavity and the like are integrated in the smaller installation space, so that on one hand, the axial dimension and the radial dimension of the rod-shaped structure are greatly influenced, and on the other hand, the connection and the positioning of the circuit board and the assembly of the components into the rod-shaped shell after the assembly of the components are influenced.

For example, the connection between the circuit board and the circuit board of the existing heating non-combustion smoking set is mostly soldered on the circuit boards at both ends by using wires to realize electrical connection, which is affected by other components and spaces. For this connection mode: on one hand, the radial dimension of the assembled battery, the wire and the circuit board can be increased, if the external dimension of the smoking set is certain, the smoking set can be assembled by the three, the volume of the battery is required to be reduced, the capacity of the battery can be reduced by the reduction of the volume of the battery, so that the cruising ability of the smoking set is greatly reduced, if the external dimension of the smoking set is not certain, the dimension of the wire is added under the condition of normally heating the battery dimension required by the non-burning smoking set, the external dimension of the smoking set can be increased, the overall weight of the smoking set is increased, and the hand feeling of a consumer can be reduced due to the thickening of the periphery; on the other hand, because of the softness of the wires, it is difficult to ensure mass consistency in positioning and welding.

The patent of the invention, issued to CN201910601144.5, discloses a heating non-combustible smoking article comprising: a housing having a hollow cavity; the circuit assembly comprises a battery and a flexible circuit board extending along the hollow cavity, one end of the flexible circuit board is provided with a first circuit area, and the battery is electrically connected with the first circuit area; and the circuit board supporting member is arranged in the hollow cavity and is matched with the inner wall of the hollow cavity, the circuit board supporting member extends along the axial direction of the battery, one end of the battery abuts against one end of the circuit board supporting member, and the first circuit area is fixed on the circuit board supporting member. The circuit board supporting member can form positioning support for one end of the flexible circuit board, can provide an abutting surface for the battery, is beneficial to keeping the original connection relation and the fixed relation between the flexible circuit board and the battery in the assembly process, and enables the whole assembly process to be more convenient, rapid and efficient. Although the heating non-combustion smoking set can heat low-temperature non-combustion cigarettes, the heating area is limited in part of the low-temperature non-combustion cigarettes, the whole low-temperature non-combustion cigarettes cannot be heated, meanwhile, the heating temperature of tobacco contacted with the heating assembly is high due to lack of heat conduction, the heating temperature of tobacco far away from the heating assembly is low, and the whole low-temperature non-combustion cigarettes are heated unevenly, so that the smoking taste is affected.

Disclosure of Invention

The invention provides an accelerated heat conduction atomizing device and a use method thereof, which can effectively solve the problem that the low-temperature nonflammable cigarettes are heated unevenly to influence the smoking taste.

The invention is realized in the following way:

the present invention provides an accelerated thermal conduction atomizing device to solve at least one technical problem in the prior art.

The technical scheme adopted by the invention is as follows:

An accelerated heat transfer atomizer, comprising: a housing having a hollow cavity; the circuit assembly comprises a battery and a flexible circuit board extending along the hollow cavity, one end of the flexible circuit board is provided with a first circuit area, and the battery is electrically connected with the first circuit area; and the circuit board supporting member is arranged in the hollow cavity, the circuit board supporting member is matched with the inner wall of the hollow cavity, the circuit board supporting member extends along the axial direction of the battery, one end of the battery abuts against one end of the circuit board supporting member, and the first circuit area is fixed on the circuit board supporting member.

The circuit board support member includes a first clamp and a second clamp, at least a portion of an outer edge of the first circuit region being clamped between the first clamp and the second clamp.

The circuit board supporting member is provided with a first cavity, the first clamping piece and the second clamping piece are matched to form the first cavity, and at least part of the first circuit area is fixed in the first cavity.

The first circuit area is folded along a bending line perpendicular to the axial direction of the hollow cavity to form at least one first folding part, and the first folding part is positioned in the first cavity.

The inner side wall of the first clamping piece is provided with at least one first clamping part extending towards the inside of the first chamber, the inner side wall of the second clamping piece is provided with at least one second clamping part extending towards the inside of the first chamber and opposite to the first clamping part, and part of the outer edge of one first folding part is clamped between the first clamping part and the second clamping part.

The back of the first folding part is attached with a reinforcing layer, and the first clamping part and the second clamping part clamp the area of the first folding part with the reinforcing layer.

The first clamping member or the second clamping member is provided with a support table extending from the inner wall to the inside of the first chamber, and the outer edge of the first folded portion is placed on the support table.

The first clamping piece and the second clamping piece are all approximately arc-shaped in cross section, so that the circuit board supporting member is approximately cylindrical.

The atomizing device further includes: the heating component is at least partially positioned in the hollow cavity and is used for heating the low-temperature non-combustible cigarettes which can be at least partially accommodated in the atomizing device; the first circuit region is provided with a control circuit, and the battery is electrically connected with the control circuit, and the control circuit is used for controlling the power supply from the battery to the heating assembly.

The first circuit area is also provided with a circuit switch for controlling the on-off of the control circuit; the atomizing device further comprises a switch triggering assembly, and the circuit switch is operated by triggering the switch triggering assembly; the switch triggering assembly comprises an elastic pressing piece arranged on one of the first clamping piece and the second clamping piece, and a key arranged on the shell and opposite to the elastic pressing piece in position.

The other of the first clamping piece and the second clamping piece is provided with an elastic locking part, a locking hole opposite to the elastic locking part is formed in the shell, and at least part of the elastic locking part is clamped into the locking hole.

The heating assembly comprises a heating element, and one end of the heating element is electrically connected with the control circuit; the heating assembly further includes a thermal sleeve adjacent to the circuit board holding member, at least a portion of the low temperature non-combustible cigarette being located inside the thermal sleeve.

The heating assembly further comprises a heat insulation seat, one end of the heat insulation seat is installed on the circuit board supporting member, the heat insulation sleeve is propped against the other end of the heat insulation seat, and one end of the heating element penetrates through the heat insulation seat and then is connected with the control circuit.

The other end of the flexible circuit board is also provided with a second circuit area electrically connected with the first circuit area, the second circuit area is provided with an adaptive circuit, the battery is electrically connected with the adaptive circuit, and the battery is electrically connected with an external device through the adaptive circuit; the atomization device further comprises a circuit board positioning structure at least partially arranged in the hollow cavity, one end of the adapting circuit is connected with a charging interface, and the circuit board positioning structure is provided with a second cavity for accommodating at least part of the charging interface.

The flexible circuit board is also provided with a positive electrode joint and a negative electrode joint which are used for being connected with a battery, the positive electrode of the battery is welded and fixed with the positive electrode joint, and the negative electrode of the battery is welded and fixed with the negative electrode joint.

The flexible circuit board also has a connection region for connecting the first circuit region and the first circuit region, each of the first circuit region and the second circuit region being deflected toward a center of the hollow cavity.

An accelerating heat conduction mechanism is arranged in the heating component.

The heating element is of a hollow structure, the accelerating heat conduction mechanism comprises a micro fan arranged in the cover body and a plurality of through holes arranged on the surface of the heating element, and when the cover body is covered on the end part of the low-temperature non-combustible cigarette contained in the smoking set by the shell, the micro fan is electrically connected with the control circuit.

The cross section of the cover body is of a multi-layer structure and comprises a first wiring pole and a second wiring pole, an insulating layer is arranged between the first wiring pole and the second wiring pole, two power supply access ends of the micro fan are respectively connected to the first wiring pole and the second wiring pole, corresponding to the first wiring pole and the second wiring pole, a wiring circuit matched with the first wiring pole and the second wiring pole is also arranged at the end part of the low-temperature non-combustible cigarette of the smoking set, the wiring circuit is electrically connected with the control circuit, and when the cover body is covered on the housing and used for accommodating the end part of the low-temperature non-combustible cigarette of the smoking set, the first wiring pole and the second wiring pole are electrically connected with the control circuit to obtain power supply, and the micro fan rotates.

Optionally, the heating element is an electrothermal ceramic tube.

The second aspect of the present invention provides a method for using the accelerated heat conduction atomizing device, wherein the accelerated heat conduction atomizing device is used for inserting the heating element into the tail part of the low-temperature non-combustible cigarette, and the accelerated heat conduction mechanism in the heating assembly rapidly conducts the generated heat from the tail part of the low-temperature non-combustible cigarette to the head part of the low-temperature non-combustible cigarette, so that the whole low-temperature non-combustible cigarette is baked fully at low temperature.

By adopting the technical scheme, the invention has the following beneficial effects:

Through setting up the heat conduction mechanism with higher speed, insert heating element in the low temperature incombustible cigarette in, the gentle breeze fan drives the high temperature air in the heating element and outwards diffuses through a plurality of through-holes on the heating element, reaches the inside of whole low temperature incombustible cigarette fast for the heating of whole low temperature incombustible cigarette is even, provides better suction sense.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some examples of the present invention and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is a cross-sectional view of one embodiment of the present invention.

Fig. 3 is a schematic view of an assembled structure of the circuit board positioning member, the flexible circuit board, the battery, the circuit board supporting member and the heat insulation base according to the present invention.

Fig. 4 is a schematic structural diagram of the assembled charging interface, flexible circuit board, battery and heating element according to the present invention.

Fig. 5 is a schematic view of a use state of the flexible circuit board according to the present invention.

Fig. 6 is a schematic view of the structure of the battery according to the present invention.

Fig. 7 is a sectional view of the circuit board positioning member, the flexible circuit board, and the circuit board supporting member according to the present invention after assembly.

Fig. 8 is a schematic view of a cover structure according to an embodiment of the present invention.

Fig. 9 is a schematic cross-sectional view of a cover according to an embodiment of the present invention.

Wherein,

1. Casing 2, battery 21, positive tab 22, negative tab 3, flexible circuit board 31, positive connector 32, negative connector 33, first circuit area 331, first fold 34, second circuit area 341, second fold 35, connection area 36, first fold 37, second fold 4, first support 5, second support 6, circuit board support 61, first clamp 62, second clamp 63, first chamber 64, resilient tab 65, trigger 7, circuit board positioning 71, second chamber 8, heating element 81, heating element 82, thermal insulation mount 83, thermal insulation sleeve 84, micro fan 85, through hole 9, low temperature non-combustion cigarette 10, key 11, charging interface 12, cover 121, ventilation fan 122, ventilation louver 1201, first connection 1202, second connection 1202

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, based on the embodiments of the invention, which are apparent to those of ordinary skill in the art without inventive faculty, are intended to be within the scope of the invention.

Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, based on the embodiments of the invention, which are apparent to those of ordinary skill in the art without inventive faculty, are intended to be within the scope of the invention.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present invention, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

Examples

As shown in fig. 1 to 8, an accelerated heat conduction atomizer for heating low temperature non-combustible cigarettes.

The atomizing device includes a housing 1 having a hollow cavity, for example, fig. 1 shows a housing 1 having a cylindrical shape with a smooth surface, but in the present invention, the shape of the housing 1 is not limited to the cylindrical structure shown in the figure, but may be a bar-shaped structure having an elliptical cross section, a bar-shaped structure having a square cross section, etc., the surface of the housing 1 is not necessarily a smooth surface, it may also be a frosted surface capable of increasing texture, a surface having an edge capable of increasing friction force to prevent the atomizing device from falling off from a user's hand, a surface having various patterns or textures to enhance the aesthetic property of the appearance of the atomizing device, etc.

The hollow cavity is internally provided with a battery 2, such as a lithium ion battery, a polymer battery and the like, the battery 2 is connected with a heating element 81 described below to realize the electric energy supply to the heating element 81, and on the other hand, the battery 2 is externally connected with a power supply through a charging interface 11, so that the battery 2 can be charged. The capacity of the battery 2 affects the number of puffs per low temperature non-combustible cigarette, and the volume of the battery 2 is one of the factors affecting the battery capacity.

In this embodiment, the atomizing device further comprises a circuit assembly comprising a flexible circuit board 3 extending along the hollow cavity. The flexible circuit board 3 is a printed circuit board made of polyimide or polyester film as a base material.

As shown in fig. 5, the flexible circuit board 3 has a positive electrode tab 31 and a negative electrode tab 32 for connecting the battery 2. In this embodiment, as shown in fig. 6, the battery 2 includes a positive tab 21 and a negative tab 22 led out from two cylindrical end surfaces of the battery 2, the positive tab 31 is welded to the positive tab 21, and the negative tab 32 is welded to the negative tab 22. Compared with a structure that the anode and the cathode of the battery are in contact with the circuit board for electrifying, the anode and the cathode of the battery are correspondingly welded and fixed with the anode and the cathode of the flexible circuit board, so that the integrated assembly of the battery 2 and the flexible circuit board 3 is realized, the assembly of the subsequent shell 1, the internal battery 2 and the circuit assembly is facilitated, and the assembly efficiency is improved.

The flexible circuit board 3 is utilized to replace the lead wires in the prior art, so that the radial size of the flexible circuit board 3 and the assembled battery 2 can be reduced, manual line arrangement is not needed, and the assembly efficiency is improved.

In addition, as shown in fig. 4, in this embodiment, after the positive electrode tab 31 and the positive electrode tab 21 are welded and fixed, and after the negative electrode tab 32 and the negative electrode tab 22 are welded and fixed, the positive electrode tab 21 and the negative electrode tab 22 are respectively folded toward the center positions of the two cylindrical end surfaces of the battery 2, so that after the battery 2 and the flexible circuit board 3 are assembled, the positive electrode tab 21 and the negative electrode tab 22 can be respectively located within the axial projection range of the battery 2.

The folding mode of the positive electrode lug, the negative electrode lug and the flexible circuit board 3 after being welded is as follows: on one hand, the welding line can be protected, and the reliability and stability of connection are ensured; on the other hand, compared with a structure in which the positive and negative electrode tabs are folded toward the peripheries of the two cylindrical end surfaces of the battery 2 respectively after welding so that the positive and negative electrode tabs and the periphery of the battery 2 are formed on the same straight line, the axial dimension of the assembled flexible circuit board 3 and the assembled battery 1 can be remarkably reduced; furthermore, compared with a structure in which the positive and negative electrode tabs are folded toward the peripheries of the two cylindrical end surfaces of the battery respectively after welding so that the positive and negative electrode tabs are located outside the axial projection range of the battery, the radial dimension of the assembled flexible circuit board 3 and battery 2 can be significantly reduced.

In this embodiment, as shown in fig. 5, the positive electrode tab 31 and the negative electrode tab 32 are located on the same side of the axis of the connection region 35, which will be described later, and compared with a structure in which the positive electrode tab and the negative electrode tab are located on both sides of the axis of the connection region 35, the present embodiment can reduce the width dimension of the flexible circuit board 3, which is advantageous for miniaturization of the atomizing device.

In the present invention, as shown in fig. 5, the flexible circuit board 3 further has a first circuit region 33, a second circuit region 34, and a connection region 35 for connecting the first circuit region 33 and the second circuit region 34.

The connection region 35 has power supply lines and signal lines for interconnecting the first circuit region 33, the second circuit region 34, and the battery 2. In the present invention, the connection region 35 has a length not shorter than that of the battery 2, and at least part of the connection region 35 is attached to the outer surface of the battery 2 to reduce the radial dimension of the flexible circuit board 3 after assembly with the battery 2. Preferably, in this embodiment, the width of the connection area 35 is smaller than the outer diameter of the battery 2, so that the connection area 35 occupies a small part of the radial projection of the battery 2, and compared with a structure in which the connection area 35 occupies a large part of the radial projection of the battery 2 and forms a surrounding for the battery 2, the above preferred embodiment can reduce the radial dimension of the flexible circuit board 3 and the battery 2 after being assembled, and on the other hand, is beneficial to heat dissipation between the flexible circuit board 3 and the battery 2 during use.

In this embodiment, the first circuit area 33 is provided with a control circuit, the second circuit area 34 is provided with an adaptation circuit, and the battery 2 is respectively connected to the adaptation circuit and the control circuit. The battery 2 is electrically connected with an external device through the adapting circuit, and the adapting circuit is at least used for realizing the charging of the battery 2. One end of the adaptation circuit is connected with a charging interface 11, a through hole opposite to the charging interface 11 is formed in the shell 1, and the battery 2 is externally connected with a power supply through the charging interface 11 to charge the battery 2. The control circuit is used to control the supply of power from the battery 2 to a heating assembly described below. The control circuit is at least used for controlling the on-off of the battery 2 and the heating element 81.

In the present invention, the first circuit area 33 and the second circuit area 34 are both deflected toward the center of the hollow cavity by the connection area 35, thereby greatly reducing the axial dimension of the flexible circuit board 3 after being assembled with the battery 2.

Specifically, the flexible circuit board 3 further has a first bending portion 36, the first bending portion 36 is located at a joint position of the connection region 35 and the first circuit region 33, and the first circuit region 33 is deflected toward the center of the hollow cavity with respect to the connection region 35 via the first bending portion 36. The flexible circuit board 3 further has a second bending part 37, the second bending part 37 is located at a joint position of the second circuit region 34 and the connection region 35, and the second circuit region 34 deflects toward the center of the hollow cavity relative to the connection region 35 via the second bending part 37.

Further, as shown in fig. 5, the first circuit area 33 is folded along a bending line A-A perpendicular to the axial direction of the hollow cavity to form at least one first folded portion 331. The second circuit area 34 is folded along a bending line perpendicular to the axial direction of the hollow cavity to form at least one second folded portion 341. As shown in fig. 2, 4 and 5, the embodiment in which the first circuit region 33 has two first folded portions 331 and the second circuit region 34 has two second folded portions 341 is shown, but in the present invention, the number of the first folded portions 331 and the second folded portions 341 is not limited to only two in the drawings.

Further, as shown in fig. 2 and 4, the extending directions of the first folded portion 331 and the second folded portion 341 are substantially parallel to the axial direction of the hollow cavity, thereby reducing the radial dimension of the flexible circuit board 3 as a whole. Of course, the extending directions of the first folded portion 331 and the second folded portion 341 may also form a certain angle α with the axis of the hollow cavity, for example, the angle α may satisfy 0 ° < α < 90 °.

As shown in fig. 2, the charging connector 11 is electrically connected to the second folded portion 341, and preferably, the first folded portion 341 and the charging connector 11 are configured such that, after both are assembled and assembled into the housing 1, the charging connector 11 is located at an intermediate position of the hollow cavity.

As shown in fig. 2, the heating element 81 is electrically connected to the first folded portion 331, and preferably, the first folded portion 331 and the heating element 81 are configured such that the heating element 81 is located at an intermediate position of the hollow cavity after both are assembled and assembled into the housing 1.

The structure and the arrangement mode of the components can bring the beneficial effect that the axial size and the radial size of each component after being assembled are reduced, so that the atomizing device is developed towards the miniaturization direction. From another aspect, by using the structure and arrangement manner of each component in the embodiment, a larger-volume battery can be used in the atomizing device with the same size, so that the capacity of the battery is increased, the cruising ability of the battery is improved, and the user experience is improved.

A circuit board positioning member 7 is disposed in the hollow cavity, and the circuit board positioning member 7 has a second chamber 71 for accommodating at least a portion of the charging interface 11. The hollow cavity is provided with a second supporting member 5 for supporting the second folded portion 341, preferably, the second supporting member 5 is disposed in the second cavity 71, and the second supporting member 5 is disposed to avoid excessive deformation of the second folded portion 341 during the assembly process.

The circuit board positioning member 7 is provided with a second elastic locking portion, the housing 1 is provided with a second locking hole opposite to the second elastic locking portion, and at least part of the second elastic locking portion is clamped into the second locking hole, so that the circuit board positioning member 7 and the housing 1 can be assembled conveniently.

The hollow cavity is internally provided with a circuit board supporting member 6, and the circuit board supporting member 6 is matched with the inner wall of the hollow cavity. In this embodiment, the "adaptation" is at least one of the following two cases: the outer size of the circuit board supporting member 6 is slightly smaller than the inner diameter of the hollow cavity, so that the circuit board supporting member 6 can be just contained in the hollow cavity without large radial shaking, and the assembly process is convenient; the circuit board supporting member 6 is provided with a corresponding structure matched with the structure at a corresponding position on the inner wall of the hollow cavity.

As shown in fig. 3, the circuit board support member 6 extends in the axial direction of the battery 2. One end of the battery 2 abuts against one end of the circuit board support member 6. The other end of the battery 2 abuts against one end of the circuit board positioning member 7, so that after the circuit board positioning member 7, the flexible circuit board 3, the battery 2 and the circuit board supporting member 6 are assembled, the circuit board positioning member 7 and the circuit board supporting member 6 can clamp the battery 2 and form an integrated structure, and assembly of the assembled components and the housing 1 is facilitated.

As shown in fig. 3 and 7, the first circuit region 33 is fixed to the circuit board support member 6. The circuit board support member 6 includes a first clamp 61 and a second clamp 62. The first circuit region 33 is mounted by adopting the mode that the first clamping piece 61 and the second clamping piece 62 are matched with each other, so that the assembly efficiency can be improved greatly, and convenience and rapidness are realized.

Preferably, in this embodiment, the cross sections of the first clamping member 61 and the second clamping member 62 are both substantially arc-shaped, so that the circuit board supporting member 6 is substantially cylindrical, so that, on one hand, the circuit board supporting member 6 has an external shape adapted to the hollow cavity, which is convenient for assembly, and, on the other hand, the cylindrical structure has a relatively larger internal space compared to other geometric shapes, so as to provide a larger installation space for installing various electronic components in the first circuit area 33 or providing other components in the first chamber 63 described below.

In this embodiment, the first clamping member 61 and the second clamping member 62 are detachably connected. The detachable connection modes between the two are various, for example, the assembly between the two can be realized through a clamping structure, a magnetic attraction structure or a limiting structure. Preferably, in this embodiment, the first clamping member 61 and the second clamping member 62 are connected by a clamping structure, and the clamping structure includes a clamping post provided on one of the first clamping member 61 and the second clamping member 62, and a clamping groove provided on the other of the two.

At least part of the outer edge of the first circuit region 33 is clamped between the first clamping member 61 and the second clamping member 62. The circuit board support member 6 has a first chamber 63, and the first and second clamps cooperate to form the first chamber 63. At least part of the first circuit region 33 is secured within the first chamber 63 such that the circuit board support member 6 is shielded from the first circuit region 33 during assembly. Preferably, each of the first folded portions 331 is located in the first chamber 63.

In this embodiment, at least one first clamping portion (not shown) extending toward the inside of the first chamber 63 is provided on the inner side wall of the first clamping member 61; the second clamping member 62 has at least one second clamping portion (not shown) extending into the first chamber 63 and located opposite to the first clamping portion. A part of the outer edge of one of the first folded portions 331 is clamped between the first clamping portion and the second clamping portion. Preferably, a reinforcing layer is attached to the back surface of the first folded portion, and the first and second clamping portions clamp a region of the first folded portion 331 having the reinforcing layer. Further, the first clamping member 61 or the second clamping member 62 is provided with a supporting table extending from the inner wall to the inside of the first chamber, and the outer edge of the first folding portion 331 is placed on the supporting table, so that excessive deformation between the clamped portion and the undamped portion of the first circuit area due to different stress when the first clamping portion and the second clamping portion clamp the first folding portion due to improper operation is avoided.

As shown in fig. 7, when the first circuit area 33 has a plurality of first folding portions 331, the remaining first folding portions are turned over along a bending line perpendicular to the axis of the hollow cavity with respect to the first folding portions clamped between the first clamping portion and the second clamping portion and are accommodated in the first chamber 63. Preferably, a reinforcing layer is attached to the back surface of each of the first folded portions 331.

The first circuit area 33 is further provided with a circuit switch for controlling the on-off of the control circuit. The atomizing device further includes a switch triggering assembly operable to operate the circuit switch by triggering the switch triggering assembly. The switch triggering assembly comprises an elastic pressing piece 64 arranged on one of the first clamping piece 61 and the second clamping piece 62, and a key 10 arranged on the shell 1 and opposite to the elastic pressing piece 64. The elastic pressing piece 64 is provided with a triggering part 65 facing to one side of the first circuit area 33, the key 10 is pressed down, the elastic pressing piece 64 moves towards the direction of the first circuit area 33, and the triggering part 65 triggers the circuit switch to realize the on or off of the control circuit.

As shown in fig. 2 and 7, a first support 4 for supporting the first folded portion 331 is provided in the hollow chamber, and preferably, the first support 4 is provided in the first chamber 63. By providing the first support 4, on the one hand, the mounting of the flexible circuit board 3 and the circuit board support member 6 is facilitated, and on the other hand, the load bearing performance of the first circuit area 33 can be increased, so that the circuit switch can respond in time when the triggering portion 65 touches the circuit switch.

The other of the first clamping member 61 and the second clamping member 62 is provided with a first elastic locking portion, the housing 1 is provided with a first locking hole opposite to the first elastic locking portion, and at least a part of the first elastic locking portion is clamped into the first locking hole, so that the assembly of the circuit board support member 6 and the housing 1 is facilitated.

As shown in fig. 8, the atomization device further comprises a heating component at least partially located in the hollow cavity, and the heating component is used for heating the low-temperature non-combustible cigarette 9 which can be at least partially contained in the atomization device.

As shown in fig. 8, the heating assembly further comprises a thermal sleeve 83, the thermal sleeve 83 is adjacent to the circuit board supporting member 6, and at least part of the low-temperature non-combustible cigarette 9 can be accommodated inside the thermal sleeve 83, so that heat transfer from the cigarette to the shell 1 part is reduced and scalding is avoided in the process of heating the low-temperature non-combustible cigarette 9.

Preferably, as shown in fig. 2 and 3, the heating assembly further includes a heat insulation seat 82, one end of the heat insulation seat 82 is mounted on the circuit board supporting member 6, the heat insulation sleeve 83 abuts against the other end of the heat insulation seat 82, and one end of the heating element 81 passes through the heat insulation seat 82 and is connected to the control circuit.

In the invention, as shown in fig. 3, the circuit board positioning member 7, the flexible circuit board 3, the battery 2, the heating element 81 and the circuit board supporting member 6 are assembled and then are integrally arranged in the shell 1, so that the atomization device is convenient to assemble, the degree of automatic assembly and the assembly efficiency are improved, and meanwhile, the flexible circuit board 3 is prevented from being damaged easily due to improper operation of connecting personnel in the automatic assembly process.

Wherein, the micro fan 84 is electrically connected to the control circuit in the following manner: as shown in fig. 3-4, the cross section of the cover 12 is a multi-layer structure, and includes a first wiring pole 1201 and a second wiring pole 1202, an insulating layer is disposed between the first wiring pole 1201 and the second wiring pole 1202, two power access ends of the breeze fan 84 are respectively connected to the first wiring pole 1201 and the second wiring pole 1202, corresponding end portions of the casing for accommodating the low-temperature non-combustible cigarettes of the smoking set are also provided with wiring circuits matched with the first wiring pole 1201 and the second wiring pole 1202, the wiring circuits are electrically connected with the control circuit, and when the cover is covered on the casing for accommodating the end portions of the low-temperature non-combustible cigarettes of the smoking set, the first wiring pole 1201 and the second wiring pole 1202 are electrically connected with the control circuit to obtain power supply, and the breeze fan 84 realizes rotation.

The invention can be realized by adopting or referring to the prior art at the places which are not described in the invention.

In this specification, each embodiment is described in a progressive manner, and identical and similar parts of each embodiment are all referred to each other, and each embodiment mainly describes differences from other embodiments. .

The second aspect of the invention provides a use method of the accelerated heat conduction atomizing device, which adopts the accelerated heat conduction atomizing device, a heating element of the accelerated heat conduction atomizing device can be inserted into the tail part of a low-temperature non-combustible cigarette, and an accelerated heat conduction mechanism in the heating assembly rapidly conducts generated heat from the tail part of the low-temperature non-combustible cigarette to the head part of the low-temperature non-combustible cigarette to comprehensively bake the low-temperature non-combustible cigarette.

The above description is only of the preferred embodiments of the present invention and is not intended to limit the present invention, and various modifications and variations may be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (13)

1. An accelerated heat transfer atomizer, comprising:

A housing having a hollow cavity;

The circuit assembly comprises a battery and a flexible circuit board extending along the hollow cavity, wherein the flexible circuit board is provided with a positive electrode joint and a negative electrode joint for connecting the battery, the battery comprises a positive electrode lug and a negative electrode lug which are respectively led out from two cylindrical end faces of the battery, the positive electrode joint is fixedly welded with the positive electrode lug, the negative electrode joint is fixedly welded with the negative electrode lug, one end of the flexible circuit board is provided with a first circuit area, and the battery is electrically connected with the first circuit area;

The circuit board supporting member is arranged in the hollow cavity, the circuit board supporting member is matched with the inner wall of the hollow cavity, the circuit board supporting member extends along the axial direction of the battery, one end of the battery abuts against one end of the circuit board supporting member, and the first circuit area is fixed on the circuit board supporting member;

The heating component is at least partially positioned in the hollow cavity and is used for heating the low-temperature non-combustible cigarettes which can be at least partially accommodated in the atomizing device; the first circuit area is provided with a control circuit, the battery is electrically connected with the control circuit, and the control circuit is used for controlling the power supply from the battery to the heating assembly; the other end of the flexible circuit board is also provided with a second circuit area electrically connected with the first circuit area, the second circuit area is provided with an adaptive circuit, the battery is electrically connected with the adaptive circuit, and the battery is electrically connected with an external device through the adaptive circuit; and

The circuit board positioning structure is at least partially arranged in the hollow cavity, one end of the adapting circuit is connected with a charging interface, and the circuit board positioning structure is provided with a second cavity for accommodating at least part of the charging interface;

The heating device is characterized in that an accelerating heat conduction mechanism is arranged in the heating component; the heating assembly comprises a heating element, and one end of the heating element is electrically connected with the control circuit; the heating assembly further comprises a thermal insulation sleeve, the thermal insulation sleeve is adjacent to the circuit board supporting member, at least part of the low-temperature non-combustible cigarettes are positioned in the thermal insulation sleeve, the heating element is of a hollow structure, the accelerating heat conduction mechanism comprises a micro fan arranged in the cover body and a plurality of through holes arranged on the surface of the heating element, and when the cover body is covered on the end part of the shell for accommodating the low-temperature non-combustible cigarettes of the smoking set, the micro fan is electrically connected with the control circuit; the cross-section of lid is multilayer structure, including first wiring utmost point and second wiring utmost point, be provided with the insulating layer between first wiring utmost point and the second wiring utmost point, two power access ends of micro-fan are connected respectively on first wiring utmost point and second wiring, and corresponding, the casing is used for acceping the tip of the low temperature incombustible cigarette of smoking set also is provided with the wiring circuit that first wiring utmost point and second wiring utmost point match, wiring circuit with the control circuit electricity is connected, and when the lid is closed the casing and is used for acceping the tip of the low temperature incombustible cigarette of smoking set, first wiring utmost point and second wiring utmost point are connected with the control circuit electricity, obtain the power supply, and micro-fan realizes rotating.

2. An accelerated thermal conduction atomizer according to claim 1, wherein said circuit board support member comprises a first clamp and a second clamp, at least a portion of an outer edge of said first circuit region being clamped between said first clamp and said second clamp.

3. An accelerated thermal conduction atomizer according to claim 2, wherein said circuit board support member has a first chamber, said first and second clamps cooperate to form said first chamber, and at least a portion of said first circuit region is secured within said first chamber.

4. An accelerated thermal conduction atomizer according to claim 3, wherein said first circuit region is folded along a fold line perpendicular to the axial direction of said hollow chamber to form at least one first fold, said first fold being located within said first chamber.

5. An accelerated thermal conduction atomizer according to claim 4, wherein said first clamp member has an inner side wall provided with at least one first clamp portion extending toward an inside of said first chamber, and said second clamp member has an inner side wall provided with at least one second clamp portion extending toward an inside of said first chamber and located opposite to said first clamp portion, wherein a portion of an outer periphery of one of said first fold portions is clamped between said first clamp portion and said second clamp portion.

6. The accelerated thermal conduction equipment of claim 5 wherein the back of the first fold is attached with a stiffening layer and the first and second clamps clamp the region of the first fold with the stiffening layer.

7. An accelerated thermal conduction atomizer according to claim 5, wherein said first or second clamp is provided with a support table extending from the inner wall to the interior of the first chamber, the outer edge of said first fold being placed on said support table.

8. An accelerated thermal conduction atomizer according to claim 2, wherein said first and second clamps are each generally arcuate in cross-section such that said circuit board support member is generally cylindrical.

9. An accelerated thermal conduction atomizer according to claim 2, wherein said first circuit region is further provided with a circuit switch for controlling the on-off of said control circuit; the atomizing device further comprises a switch triggering assembly, and the circuit switch is operated by triggering the switch triggering assembly; the switch triggering assembly comprises an elastic pressing piece arranged on one of the first clamping piece and the second clamping piece, and a key arranged on the shell and opposite to the elastic pressing piece in position.

10. An accelerated thermal conduction atomizer according to claim 9, wherein the other of said first and second clamps is provided with an elastic locking portion, said housing is provided with a locking hole opposite to said elastic locking portion, and at least a portion of said elastic locking portion is engaged with said locking hole.

11. An accelerated thermal conduction atomizer according to claim 10, wherein said heating assembly further comprises a thermal insulation block having one end mounted to said circuit board support member, said thermal insulation sleeve abutting the other end of said thermal insulation block, one end of said heating element passing through said thermal insulation block and connected to said control circuit.

12. An accelerated thermal conduction atomizer according to claim 1, wherein said flexible circuit board further has a connection region for connecting said first and second circuit regions, said first and second circuit regions each being deflected toward the center of said hollow cavity by said connection region.

13. A method for using the accelerated heat conduction atomizing device, which is characterized in that the accelerated heat conduction atomizing device as claimed in any one of claims 1-12 is adopted, a heating element of the accelerated heat conduction atomizing device is inserted into the tail part of the low-temperature non-combustible cigarette, and a heat conduction accelerating mechanism in the heating assembly rapidly conducts generated heat from the tail part of the low-temperature non-combustible cigarette to the head part of the low-temperature non-combustible cigarette, so that the low-temperature non-combustible cigarette is comprehensively baked at low temperature.