CN219125410U

CN219125410U - Electric connection device for temperature calibration of atomizer

Info

Publication number: CN219125410U
Application number: CN202320139144.XU
Authority: CN
Inventors: 何启富; 刘才学; 周星辉
Original assignee: Shenzhen Geekvape Technology Co Ltd
Current assignee: Shenzhen Geekvape Technology Co Ltd
Priority date: 2023-01-12
Filing date: 2023-01-12
Publication date: 2023-06-06
Anticipated expiration: 2033-01-12

Abstract

An electrical connection device for nebulizer temperature calibration, comprising: the device comprises a mounting body, an adapter control board and a plurality of adapter cables. The adaptor is arranged on the mounting body, a switching surface is arranged on the adaptor, a plurality of first interfaces are arranged on the switching surface, and the adaptor is used for being connected with an external signal source. The switching control panel sets up on the installation body, is equipped with a plurality of second interfaces on the switching control panel, and the switching control panel is used for being connected with the loading attachment electricity that installs a plurality of heating mechanism. The patch cable has a first end and a second end, the first end is configured to connect with a first interface, and the second end is configured to connect with a second interface. When the electric connecting device is used, the plurality of the switching cables are connected on the electric connecting device, so that the plurality of the switching cables do not need to be tidied and distinguished. When the electric connection device is used, only the adapter is connected with an external signal source, the adapter control board is electrically connected with the bearing device, the operation process of temperature calibration is effectively simplified, and the temperature calibration efficiency of the heating mechanism is improved.

Description

Electric connection device for temperature calibration of atomizer

Technical Field

The application relates to the technical field of heating non-combustion smoking set temperature calibration devices, in particular to an electric connection device for calibrating the temperature of an atomizer.

Background

The heating incombustible atomizer heats the cigarette through the incombustible mode of heating, and the mechanism that generates heat is as the core heating element of heating incombustible atomizer, can play decisive role to the heating effect of cigarette. However, due to the fact that the heating mechanisms have some manufacturing tolerances in the production and manufacturing process and the factors of application environment, circuit control and the like, heating pipes on different heating mechanisms have some heating deviation. Therefore, in order to achieve uniform heating effect of the heating non-combustion atomizer, it is necessary to calibrate the temperature of the heating mechanism on the heating non-combustion atomizer before shipment.

At present, a conventional temperature calibration device is used for directly and electrically connecting a computer host with a heating mechanism to be calibrated on an atomizer through a cable so as to realize data transmission. This is also possible if only one heating means is temperature calibrated at a time. If the temperature calibration is performed on the heating mechanisms at a time, the heating mechanisms are installed on the bearing device, and assembly of the cables between the computer host and the bearing device is required to be completed. During assembly work, a plurality of cables are placed naturally and are messy, and different port cables correspond to different test interfaces, so that the overall identification degree is low, and the problems of time and labor consumption, complex operation and low temperature calibration efficiency exist when temperature calibration is performed on a plurality of heating mechanisms.

Disclosure of Invention

The application provides an electric connection device for temperature calibration of an atomizer, and the main purpose of the electric connection device is to improve the efficiency of temperature calibration of a heating mechanism on the atomizer.

In one embodiment of the present application, an electrical connection device for nebulizer temperature calibration is provided, comprising:

a mounting body;

the adapter is arranged on the mounting body, an adapter surface is arranged on the adapter, a plurality of first interfaces are arranged on the adapter surface, and the adapter is used for being connected with an external signal source;

the switching control board is arranged on the installation body, a plurality of second interfaces are arranged on the switching control board, and the switching control board is used for being electrically connected with a bearing device provided with a plurality of heating mechanisms; and

the plurality of patch cables are provided with a first end and a second end, wherein the first end is used for being connected with the first interface, and the second end is used for being connected with the second interface.

In one embodiment, the plurality of first interfaces and the plurality of second interfaces are arranged in a one-to-one correspondence, and the plurality of patch cables are arranged between the first interfaces and the second interfaces according to a predetermined connection sequence.

In one embodiment, the device further comprises a switch, wherein the switch is connected with the transfer control board, and the switch is used for controlling the start and stop operation of the electric connection device.

In one embodiment, the electric connection device further comprises at least two switches, wherein the at least two switches are used for being matched with each other to control the start and stop operation of the electric connection device.

In one embodiment, the mounting body is plate-shaped, the mounting body has an assembling surface and a butting surface, and the adaptor, the adaptor control board and the adaptor cable are all arranged on the assembling surface.

In one embodiment, the adapting surface and the assembling surface are perpendicular or inclined, the adapting piece is provided with a signal interface, the signal interface is used for being connected with one end of a signal cable, and the other end of the signal cable is used for being connected with an external signal source.

In one embodiment, the assembly surface is provided with a plurality of support legs, and one end of the support legs away from the assembly surface is provided with a non-slip mat.

In one embodiment, the transfer control board is provided with a plurality of electrical connection contacts, a plurality of electrical connection contacts and a plurality of second interfaces are arranged in one-to-one correspondence, and the electrical connection contacts are used for being electrically connected with a bearing device for installing the heating mechanism; the mounting body is provided with a window which is used for exposing a plurality of electric connection contacts on one side of the butt joint surface.

In one embodiment, the abutting surface is provided with at least one limiting piece, and the limiting piece is used for limiting the installation position of the bearing device relative to the electric connection contact.

In one embodiment, the device further comprises a protective cover and/or a protective shell; the protection cover is used for covering the adapter piece, the adapter control board and the plurality of adapter cables on the installation body, and the protection shell is used for covering the adapter control board.

According to the electric connection device for calibrating the temperature of the atomizer in the embodiment, the adaptor is provided with a plurality of first interfaces, the adaptor control board is provided with a plurality of second interfaces, the first interfaces are connected with the first ends of the adaptor cables, the second interfaces are connected with the second ends of the adaptor cables, and the adaptor is electrically connected with the adaptor control board through the plurality of adaptor cables. Therefore, when the electric connecting device designed by the application is used, firstly, as the plurality of switching cables are already connected on the electric connecting device, the plurality of messy switching cables do not need to be arranged any more, and the plurality of switching cables do not need to be distinguished and switched. And the second electric connecting device is used as an intermediate device for temperature calibration of the heating mechanism, and when the electric connecting device is used, only the adapter on the electric connecting device is connected with an external signal source, and the adapter control board is electrically connected with the bearing device provided with a plurality of heating mechanisms, namely, when the electric connecting device is used, only two parts are required to be connected. The designed electric connection device can be used for conveniently carrying out temperature calibration on a plurality of heating mechanisms, can effectively simplify the operation process of temperature calibration, improves the efficiency of temperature calibration of the heating mechanisms on the atomizer, further improves the production efficiency of the heating non-combustion atomizer, and is convenient for efficiently producing a plurality of heating non-combustion atomizers with consistent heating effects.

Drawings

FIG. 1 is a schematic view of the internal structure of an electrical connection device for nebulizer temperature calibration in one embodiment of the application;

FIG. 2 is a schematic view of a partial structure of an electrical connection device for nebulizer temperature calibration in one embodiment of the application;

FIG. 3 is a schematic perspective view of an electrical connection device for temperature calibration of an atomizer according to one embodiment of the present application;

fig. 4 is a schematic perspective view of another view of the electrical connection device for nebulizer temperature calibration of fig. 3.

Reference numerals illustrate: 10. the cable assembly comprises a mounting body, 11, a mounting surface, 12, a butt joint surface, 13, a supporting leg, 14, an anti-slip pad, 15, a window, 16, a limiting piece, 17, a vertical plate, 20, an adapter, 21, an adapter surface, 22, a first interface, 23, a signal interface, 24, a power interface, 30, an adapter control board, 31, a second interface, 32, an electrical connection contact, 40, an adapter cable, 41, a first end, 42, a second end, 50, a switch, 60, a connecting cable, 70, a signal cable, 80, a power cable, 90, a protective cover and 100.

Detailed Description

The present application is described in further detail below with reference to the accompanying drawings by way of specific embodiments. Wherein like elements in different embodiments are numbered alike in association. In the following embodiments, numerous specific details are set forth in order to provide a better understanding of the present application. However, one skilled in the art will readily recognize that some of the features may be omitted, or replaced by other elements, materials, or methods in different situations. In some instances, some operations associated with the present application have not been shown or described in the specification to avoid obscuring the core portions of the present application, and may not be necessary for a person skilled in the art to describe in detail the relevant operations based on the description herein and the general knowledge of one skilled in the art.

Furthermore, the described features, operations, or characteristics of the description may be combined in any suitable manner in various embodiments. Also, various steps or acts in the method descriptions may be interchanged or modified in a manner apparent to those of ordinary skill in the art. Thus, the various orders in the description and drawings are for clarity of description of only certain embodiments, and are not meant to be required orders unless otherwise indicated.

The numbering of the components itself, e.g. "first", "second", etc., is used herein merely to distinguish between the described objects and does not have any sequential or technical meaning. The terms "coupled" and "connected," as used herein, are intended to encompass both direct and indirect coupling (coupling), unless otherwise indicated.

Referring to fig. 1-4, in one embodiment, an electrical connection device for nebulizer temperature calibration, comprises: the connector comprises a mounting body 10, a connector 20, a connector control board 30 and a plurality of connector cables 40.

The adaptor 20 is arranged on the mounting body 10, the adaptor 20 is provided with an adaptor surface 21, a plurality of first interfaces 22 are arranged on the adaptor surface 21, and the adaptor 20 is used for being connected with an external signal source. The external signal source is a terminal device, such as a computer, for performing temperature calibration control. The adaptor 20 serves a function similar to signal transfer and distribution, for example, when the adaptor 20 receives a control signal transmitted from an external signal source, the control signal is distributed and forwarded to the corresponding adaptor cable 40.

The transfer control board 30 is disposed on the mounting body 10, and a plurality of second interfaces 31 are disposed on the transfer control board 30, where the transfer control board 30 is electrically connected to a carrying device with a plurality of heating mechanisms. The bearing device is a device for installing the heating mechanism, and is provided with a plurality of limiting and fixing structures, and one limiting and fixing structure is usually used for installing and fixing one heating mechanism. The number of the heating mechanisms installed on the bearing device is multiple, for example, 4, 8, 13, 15 and the like, and the heating mechanisms are set according to actual needs. The heating mechanism mainly refers to a control panel and a heating tube in the heating non-combustion atomizer, and temperature calibration of the heating mechanism is realized by operating the control panel and the heating tube.

The patch cable 40 has a first end 41 and a second end 42, the first end 41 being adapted to connect with the first interface 22 and the second end 42 being adapted to connect with the second interface 31. The number of the first interfaces 22, the second interfaces 31 and the number of the patch cables 40 are consistent, taking the number of the patch cables 40 as an example, the number of the patch cables 40 can be consistent with the number of the limit fixing structures on the bearing device, or the number of the patch cables 40 is greater than the number of the limit fixing structures on the bearing device.

By adopting the above electrical connection device for calibrating the temperature of the atomizer (electrical connection device for short) designed in the application, the adaptor 20 is provided with a plurality of first interfaces 22, the adaptor control board 30 is provided with a plurality of second interfaces 31, the first interfaces 22 are connected with the first ends 41 of the adaptor cables 40, the second interfaces 31 are connected with the second ends 42 of the adaptor cables 40, and the adaptor 20 is electrically connected with the adaptor control board 30 through a plurality of adaptor cables 40. Thus, when the electrical connection device designed in the application is used, firstly, as the plurality of patch cables 40 are already connected on the electrical connection device, the plurality of messy patch cables 40 do not need to be sorted, and the plurality of patch cables 40 do not need to be distinguished and switched. Second, when the electric connection device is used as an intermediate device for temperature calibration of the heating mechanism, only the adapter 20 on the electric connection device is connected with an external signal source, and the adapter control board 30 is electrically connected with the bearing device provided with a plurality of heating mechanisms, namely, when the electric connection device is used, only two parts are needed to be connected. The designed electric connection device can be used for conveniently carrying out temperature calibration on a plurality of heating mechanisms, can effectively simplify the operation process of temperature calibration, improves the efficiency of temperature calibration of the heating mechanisms on the atomizer, further improves the production efficiency of the heating non-combustion atomizer, and is convenient for efficiently producing a plurality of heating non-combustion atomizers with consistent heating effects.

Referring to fig. 1-2, the plurality of first interfaces 22 and the plurality of second interfaces 31 are disposed in one-to-one correspondence, and the plurality of patch cables 40 are disposed between the first interfaces 22 and the second interfaces 31 according to a predetermined connection sequence. For example, 10 first interfaces 22 are provided on the connection surface 21 of the

connection member

20, 10 second interfaces 31 are provided on the

connection control board

30, and 10 connection cables 40 are correspondingly provided. The positions of the 10 first interfaces 22, the 10 second interfaces 31 and the 10 patch cables 40 are in one-to-one correspondence, and once assembled, the positions of the 10 first interfaces, the 10 second interfaces and the 10 patch cables are not changed any more. That is, when the electrical connection device is used later, the 10 patch cables 40 are not required to be identified, and the 10 patch cables 40 are not required to be assembled. More preferably, in order to facilitate the production and assembly of the electrical connection device, the plurality of first interfaces 22 and the plurality of second interfaces 31 may be provided with installation marks, for example, ten letters ABCDEFGHIJ are marked on the 10 first interfaces 22 in sequence, ten letters ABCDEFGHIJ are marked on the 10 second interfaces 31 in sequence, and two ends of the same patch cable 40 correspond to the same letters, so as to facilitate the production and assembly of the electrical connection device. In other embodiments, the number of the first interfaces 22, the second interfaces 31, and the patch cables 40 may be set to 8, 12, 16, etc., which are set according to actual requirements.

Referring to fig. 3, in the embodiment of the present application, the electrical connection device further includes a switch 50, where the switch 50 is connected to the transfer control board 30, and the switch 50 is used to control the start-stop operation of the electrical connection device. Specifically, the switch 50 may be a key, a button, a touch, or the like. The arrangement of the switch 50 can effectively ensure the safety of using the electric connection device. When the electrical connection is required, the operator needs to activate the switch 50 to use the electrical connection. The procedure of operating the switch 50 is added, so that an operator can be reminded to start temperature calibration work, and the danger caused by false touch is avoided. Alternatively, after the temperature calibration operation is finished, the temperature calibration operation can be finished in time through the switch 50, so that the subsequent ineffective use of the electric connection device is avoided.

More preferably, the electrical connection device further comprises at least two switches 50, and the at least two switches 50 are used for mutually matching to control the start and stop operations of the electrical connection device. Taking the two button type switch 50 as an example, when the electric connection device is required to work, the adaptor 20 is connected with an external signal source, the adaptor control board 30 is connected with the bearing device provided with the heating mechanism, and then the switch 50 is started. When both switches 50 are activated, the electrical connection means can be brought into operation. The two switches 50 may be activated simultaneously or sequentially. Similarly, when the operation of the electrical connection device is to be terminated, two switches 50 are required to be operated simultaneously or sequentially to terminate the operation of the electrical connection device. When the plurality of switches 50 are arranged, the starting or stopping signals brought to the electric connection device by false touch can be effectively avoided, and the safety of operators is better ensured. The switches 50 are connected to the transfer control board 30 through the connection cables 60, and when two switches 50 are provided, two connection cables 60 are provided correspondingly.

Referring to fig. 2-3, the mounting body 10 has a plate shape, the mounting body 10 has an opposite mounting surface 11 and an abutting surface 12, and the adaptor 20, the adaptor control board 30 and the adaptor cable 40 are all disposed on the mounting surface 11. The adaptor 20, the adaptor control board 30 and the plurality of adaptor cables 40 are all arranged on the assembly surface 11 on the same side of the installation body 10, so that on one hand, the assembly of the electric connection device is convenient to realize, and on the other hand, the space on the assembly surface 11 side of the installation body 10 can be fully utilized, and the compact structure and the miniaturized design of the electric connection device are facilitated.

Wherein the adapter surface 21 and the mounting surface 11 are perpendicular or inclined. When the adapting surface 21 and the assembling surface 11 are perpendicular or inclined, the space occupied by a plurality of adapting cables 40 on the electric connection device is saved. In the embodiment of the present application, the adaptor 20 is rectangular and is perpendicular to the mounting surface 11. The adapting surface 21 on the adapting piece 20 is perpendicular to the assembling surface 11 and is located towards the adapting control board 30, i.e. the plurality of first interfaces 22 on the adapting piece 20 are all located towards the adapting control board 30. Correspondingly, a plurality of second interfaces 31 on the adapter control board 30 are arranged towards one side of the adapter 20. In this way, the length of the patch cables 40 is reduced, and the space requirement of a plurality of patch cables 40 is reduced, so that the electrical connection device is more compact and miniaturized in structural design.

Referring to fig. 2, the adaptor 20 is provided with a signal interface 23, the signal interface 23 is used for being connected with one end of a signal cable 70, and the other end of the signal cable 70 is used for being connected with an external signal source. The adaptor 20 is further provided with a power interface 24, the power interface 24 is used for being connected with one end of a power cable 80, and the other end of the power cable 80 is used for being connected with a power source so as to provide electric energy for the electric connection device. The signal interface 23 and the power interface 24 may be provided on the end surfaces as shown in fig. 2, so as to facilitate the insertion and extraction of the signal cable 70 and the power cable 80 at a later stage. The signal cable 70 and the power cable 80 may be cables independent of the electrical connection device, and the electrical connection device may be detachably connected in a pluggable manner, or the signal cable 70 and the power cable 80 are directly and fixedly connected with the adaptor 20, and when in use, the signal cable 70 and the power cable 80 are not required to be connected with the adaptor 20 respectively. In other embodiments, a power source (e.g., a rechargeable lithium ion battery) may be provided on the electrical connection device, and after the switch 50 is activated, power is provided by the self power source of the electrical connection device, so that the corresponding power interface 24 is not required, and the connection of the power cable 80 is not required. The adaptor 20 may be connected wirelessly, in addition to being connected by wires via the signal cable 70 to an external signal source.

Referring to fig. 3, in the embodiment of the present application, a plurality of support legs 13 are disposed on the mounting surface 11, for example, four support legs 13 are respectively fixed at four corners of the mounting surface 11. The support legs 13 may be integrally provided with the mounting surface 11 or may be detachably connected to the mounting surface 11. By providing the support legs 13, the mounting body 10 is lifted up by a certain height, leaving enough mounting space for the adapter 20, the adapter control board 30 and the adapter cable 40 on the mounting surface 11. Preferably, the support leg 13 is provided with a non-slip pad 14 at the end remote from the mounting surface 11. For example, the anti-slip pad 14 made of silica gel material can play a role in anti-slip through the anti-slip pad 14, so that stability in the process of using the electric connection device is guaranteed.

Referring to fig. 3, a plurality of electrical connection contacts 32 are disposed on the switch control board 30, the plurality of electrical connection contacts 32 and the plurality of second interfaces 31 are disposed in one-to-one correspondence, and the electrical connection contacts 32 are used for electrically connecting with a carrying device for mounting the heating mechanism. The mounting body 10 is provided with a window 15, and the window 15 is used for exposing a plurality of electrical connection contacts 32 on one side of the abutting surface 12. When the electric connection device is required to be electrically connected with the bearing device provided with a plurality of heating mechanisms, the electric connection contacts 32 on the transfer control board 30 are electrically connected with the bearing device, so that a plurality of cables between the electric connection device and the bearing device are not required to be tidied, and the temperature calibration efficiency of the heating mechanisms is effectively improved. Under the action of the support legs 13, the mounting body 10 is lifted to a certain height, the abutting surface 12 is relatively enough in space, the electric connection contacts 32 are exposed on one side of the abutting surface 12 through the window 15, and enough space is provided for the bearing device to be connected. A plurality of electrical connection contacts can also be provided correspondingly on the carrier. For example, the electrical connection contact on the carrier device is in a shape of a round cake, the electrical connection contact 32 on the switching control board 30 is in a shape of a spring needle, and the electrical connection contact on the carrier device and the electrical connection contact 32 on the switching control board 30 can be aligned to realize the electrical connection of the two. In view of space utilization and ease of operation, the switch 50 may be disposed on the abutment surface 12 on the mounting body 10, for example, one switch 50 may be disposed on each of the abutment surfaces 12 on both sides of the window 15.

Preferably, the abutting surface 12 is provided with at least one limiting member 16, and the limiting member 16 is used for limiting the mounting position of the bearing device relative to the electrical connection contact 32. For example, as shown in fig. 3, a columnar stopper 16 is provided on each of the abutting surfaces 12 on both sides of the window 15. The position of the carrier relative to the electrical connection contacts 32 on the adaptor control board 30 is well limited by the limiting member 16, so that the carrier and the adaptor control board 30 can be electrically connected quickly. In other embodiments, the limiting member 16 may have a block shape, a bar shape, a groove shape, or the like, in addition to the columnar structure.

Referring to fig. 1 and 2, in an embodiment of the present application, the electrical connection device further includes a shield 90 and/or a shield shell 100. The protection cover 90 is used for covering the adaptor 20, the adaptor control board 30 and the plurality of adaptor cables 40 on the mounting body 10, and the protection casing 100 is used for covering the adaptor control board 30. Under the effect of the protection cover 90, the adaptor 20, the adaptor control board 30 and the plurality of adaptor cables 40 on the installation body 10 can be well protected from dust, damage to the electric connection device is avoided, and meanwhile, under the effect of the protection cover 90, the installation connection relation of the plurality of adaptor cables 40 inside can be ensured, and the influence caused by false contact of external force is avoided. If necessary, a waterproof structure, such as a ring of sealing structure, may be disposed between the protection cover 90 and the mounting body 10, so that the protection cover 90 can also play a role in waterproof, and thus the application environment of the electrical connection device can be expanded. The design of the protective housing 100 serves as a protection for the transfer control board 30. If the protective cover 90 and the protective case 100 are provided at the same time, the adaptor control board 30 can be double-protected.

Referring to fig. 2, the mounting body 10 is further provided with a vertical plate 17, the vertical plate 17 is fixed on one side of the mounting surface 11, and the vertical plate 17 is perpendicular to the mounting surface 11, so that the cuboid adaptor 20 is detachably fixed on the vertical plate 17. The protective cover 90 on the electric connecting device can omit the structure on the side of the vertical plate 17, and a complete protective cover body structure is formed by matching the vertical plate 17 and the protective cover 90, so that the components in the electric connecting device are protected. In other embodiments, the adaptor 20 may be directly fixed to the mounting surface 11 of the mounting body 10 without providing the standing plate 17.

By adopting the above electric connection device designed in the application, a plurality of adapter cables 40 are arranged between the adapter 20 and the adapter control board 30 according to the preset connection sequence, and when in subsequent use, the adapter 20 is directly electrically connected with an external signal source through a signal cable 70, and the electric connection contacts 32 on the adapter control board 30 are electrically connected with the bearing device provided with the heating mechanism, so that the multiple cables do not need to be distinguished and arranged. The electric connection device designed by the application is used as an external signal source and an intermediate device for electrically connecting a plurality of heating mechanisms, and has the advantages of being simple in operation and structural design and improving the temperature calibration efficiency of the heating mechanisms. In addition, the electric connection device designed by the application can expand the number of heating mechanisms for simultaneously performing temperature calibration, and only needs to increase the number of the corresponding first interfaces 22, second interfaces 31 and adapter cables 40. If an external signal source (for example, a computer) is directly connected to a plurality of heat generating mechanisms, even if temperature calibration can be performed on the plurality of heat generating mechanisms at the same time, the number of heat generating mechanisms performing temperature calibration at the same time is limited due to the limitation of the number of interfaces on the external signal source. However, if the electric connection device is adopted, the contraindication in the aspect can be reduced, the temperature calibration efficiency of the heating mechanism can be effectively improved, and the production efficiency of the heating non-combustion atomizer can be improved.

The foregoing description of specific examples has been presented only to aid in the understanding of the present application and is not intended to limit the present application. Several simple deductions, modifications or substitutions may also be made by the person skilled in the art to which the present application pertains, according to the idea of the present application.

Claims

1. An electrical connection device for nebulizer temperature calibration, comprising:

a mounting body;

2. The electrical connection device for nebulizer temperature calibration as claimed in claim 1, wherein a plurality of the first interfaces and a plurality of the second interfaces are provided in one-to-one correspondence, and a plurality of the patch cables are provided between the first interfaces and the second interfaces in a predetermined connection order.

3. The electrical connection device for nebulizer temperature calibration as claimed in claim 1, further comprising a switch connected to the transfer control board, the switch being used to control the start and stop operation of the electrical connection device.

4. An electrical connection for temperature calibration of a nebulizer as claimed in claim 3 further comprising at least two of said switches, at least two of said switches being adapted to cooperate to control the start and stop operation of said electrical connection.

5. The electrical connection device for nebulizer temperature calibration as claimed in claim 1 wherein the mounting body is plate-like, the mounting body has a mounting face and a mating face, and the adapter, the adapter control board, and the adapter cable are all disposed on the mounting face.

6. The electrical connection device for calibrating the temperature of an atomizer according to claim 5, wherein the adapting surface is perpendicular to or inclined to the assembling surface, and the adapting member is provided with a signal interface, the signal interface is connected to one end of a signal cable, and the other end of the signal cable is connected to an external signal source.

7. An electrical connection for temperature calibration of a nebulizer as claimed in claim 5 wherein a plurality of support legs are provided on the mounting face, the support legs being provided with a non-slip pad at an end remote from the mounting face.

8. The electrical connection device for calibrating the temperature of the atomizer according to claim 5, wherein a plurality of electrical connection contacts are arranged on the switching control board, the plurality of electrical connection contacts and the plurality of second interfaces are arranged in one-to-one correspondence, and the electrical connection contacts are used for being electrically connected with a bearing device for installing a heating mechanism; the mounting body is provided with a window which is used for exposing a plurality of electric connection contacts on one side of the butt joint surface.

9. An electrical connection device for temperature calibration of an atomizer according to claim 8, wherein at least one stop is provided on the abutment surface, said stop being adapted to limit the mounting position of the carrier device relative to the electrical connection contacts.

10. Electrical connection device for temperature calibration of atomizers as claimed in one of the claims 1 to 9, characterized in that it further comprises a protective cover and/or a protective housing; the protection cover is used for covering the adapter piece, the adapter control board and the plurality of adapter cables on the installation body, and the protection shell is used for covering the adapter control board.