Heating body calibration auxiliary device and heating body infrared calibration system

By designing a multi-connection port for the heating element calibration auxiliary device, multiple heating elements can be connected simultaneously, simplifying wiring and solving the problem of low heating element calibration efficiency in HNB electronic atomization devices, thus improving production efficiency.

CN224353938UActive Publication Date: 2026-06-12SHENZHEN GEEKVAPE TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHENZHEN GEEKVAPE TECH CO LTD
Filing Date
2025-05-12
Publication Date
2026-06-12

AI Technical Summary

Technical Problem

In the current calibration process of heating elements for HNB electronic atomization devices, the need for testing personnel to calibrate each device individually leads to low production efficiency, increased time costs, and impacts production schedules.

Method used

A heating element calibration auxiliary device is provided, including a heating element connection module and an adapter module. It is equipped with multiple connection ports to support the simultaneous connection of multiple heating elements and connects to a terminal device via a detachable electrical connection, simplifying wiring operations and improving testing efficiency.

Benefits of technology

By connecting multiple heating elements at once, wiring operations are simplified, significantly improving the efficiency of heating element testing and calibration, shortening calibration time, and increasing production efficiency.

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Abstract

The application provides a heating body calibration auxiliary device and a heating body infrared calibration system, and relates to the technical field of heating body calibration. The heating body calibration auxiliary device comprises a heating body connecting module and an adapter module. A plurality of first connecting ports for electrical connection with the heating bodies to be detected are arranged on the heating body connecting module, a second connecting port for connection with the adapter module is arranged on the heating body connecting module, a third connecting port for connection with the second connecting port and a fourth connecting port for connection with a terminal device are arranged on the adapter module. The heating body connecting module and the adapter module are arranged in a detachable electrical connection mode through the second connecting port and the third connecting port. When the user needs to detect the heating bodies, the user can connect a plurality of heating bodies to be detected on the heating body connecting module at one time, so that the detection efficiency of the user on the heating bodies is improved, and the technical problem of long process time in the calibration process in the prior art is solved.
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Description

Technical Field

[0001] This application relates to the field of heating element calibration technology, specifically to auxiliary equipment for heating element calibration and an infrared calibration system for heating elements. Background Technology

[0002] Heat-not-burning (HNB) electronic atomization devices are used to heat aerosol products to generate aerosols through atomization.

[0003] In HNB (Heated Tobacco Bulb) electronic atomizing devices, the heating element needs to be calibrated to ensure proper operation. In current production environments, infrared calibration technology is widely used in product testing and debugging. Existing testing methods typically involve personnel calibrating each device individually, which significantly limits production efficiency. This lengthy calibration process not only increases production time costs but also easily leads to a series of production delays, impacting the overall production schedule. Utility Model Content

[0004] This application provides auxiliary equipment for heating element calibration and an infrared calibration system for heating elements, aiming to improve the technical problem of long process time in the calibration process of existing calibration equipment.

[0005] On one hand, some embodiments of this application provide a heating element calibration auxiliary device, including: a heating element connection module and an adapter module. The heating element connection module has multiple first connection ports, which are used for electrical connection with a heating element to be tested, and the heating element connection module also has a second connection port. The adapter module has a third connection port and a fourth connection port, and the heating element connection module and the adapter module are detachably electrically connected through the second connection port and the third connection port, and the fourth connection port is used for connecting a terminal device.

[0006] In one embodiment, the adapter module has a support structure for supporting on a workbench, the heating element connection module is inserted into the adapter module from the top and bottom, and the adapter module has a bearing surface for supporting the heating element connection module.

[0007] In one embodiment, the heating element connection module includes a first structural plate and a second structural plate. The first connection port is located on the first structural plate. The second connection port is located on the second structural plate; the second structural plate is a horizontal plate, and the first structural plate is vertically connected to the second structural plate. The bearing surface contacts the lower surface of the second structural plate to support the heating element connection module.

[0008] In one embodiment, the second connection port faces downward and is at most flush with the lower side surface of the second structural plate.

[0009] In one embodiment, the second structural plate includes a hollow plate body and a cover plate. The heating element connection module includes a first circuit board. The second connection port is electrically connected to the first circuit board. The first circuit board is mounted in the plate body. The plate body has a downward opening. The cover plate covers the opening and has a clearance hole to avoid the second connection port. The second connection port is at most flush with the lower side of the cover plate.

[0010] In one embodiment, a gripping structure is provided at the end of the first structural plate.

[0011] In one embodiment, one of the adapter module and the heating element connection module has a positioning post, and the other has a positioning groove or positioning hole that is interlocked with the positioning post.

[0012] In one embodiment, the adapter module includes a base with a groove, and the heating element connection module is used to extend into the groove to electrically connect the third connection port to the second connection port. The third connection port is fixed in the base and extends into the groove, and the third connection port is at most flush with the opening of the groove.

[0013] In one embodiment, the number of heating element connection modules is at least two.

[0014] On the other hand, this application embodiment also provides a heating element infrared calibration system, including: an infrared device, a terminal device, and a heating element calibration auxiliary device as described above. The infrared device is used to detect the temperature of the heating element connected to the heating element calibration auxiliary device, and both the infrared device and the heating element calibration auxiliary device are electrically connected to the terminal device.

[0015] According to the heating element calibration auxiliary device in the above embodiments, multiple first connection ports for electrical connection with the heating element to be tested are provided in the heating element connection module, and a second connection port for connection with the adapter module is provided in the heating element connection module. Simultaneously, a third connection port for connection with the second connection ports and a fourth connection port for connection with the terminal device are provided in the adapter module. The heating element connection module and the adapter module are configured to be detachably electrically connected via the second and third connection ports. When a heating element needs to be tested, the user can connect multiple heating elements to be tested at once on the heating element connection module. This improves the user's efficiency in testing heating elements and solves the technical problem of long process time in the calibration process in the prior art. Applying the above-mentioned heating element calibration auxiliary device to a heating element infrared calibration system can also solve the above problems. Attached Figure Description

[0016] Figure 1 This is a schematic diagram of the structure of a heating element calibration auxiliary device provided in an embodiment of this application;

[0017] Figure 2 This is a schematic diagram of the structure of a heating element connection module in a heating element calibration auxiliary device provided in an embodiment of this application;

[0018] Figure 3 This is a schematic diagram of the heating element connection module in a heating element calibration auxiliary device provided in an embodiment of this application, from another perspective.

[0019] Figure 4 This is a structural schematic diagram of a heating element connection module in a heating element calibration auxiliary device provided in an embodiment of this application;

[0020] Figure 5 A partial exploded view from another perspective of a heating element connection module in a heating element calibration auxiliary device provided in this application embodiment;

[0021] Figure 6 This is a schematic diagram of the structure of an adapter module in a heating element calibration auxiliary device provided in an embodiment of this application;

[0022] Figure 7 This is a partial structural schematic diagram from another perspective of an adapter module in a heating element calibration auxiliary device provided in an embodiment of this application.

[0023] Figure 8 This is a structural block diagram of a heating element infrared calibration system provided in an embodiment of this application.

[0024] in:

[0025] 1. Heating element infrared calibration system; 10. Heating element calibration auxiliary equipment;

[0026] 110. Heating element connection module; 111. First connection port; 112. Second connection port; 113. First structural plate; 1131. Grip structure; 1132. Fixing structure; 114. Second structural plate; 1141. Plate body; 1142. Cover plate; 1143. Clearance hole; 115. First circuit board;

[0027] 120. Adapter module; 121. Third connection port; 122. Fourth connection port; 123. Support structure; 124. Bearing surface; 125. Protective cover; 150. Base; 151. Groove; 160. Second circuit board;

[0028] 130. Positioning pin; 140. Positioning hole;

[0029] 20. Infrared device; 30. Terminal equipment;

[0030] 2. Heating element. Detailed Implementation

[0031] The present application will be further described in detail below with reference to specific embodiments and accompanying drawings. Similar elements in different embodiments are referred to by associated similar element reference numerals. In the following embodiments, many details are described to facilitate a better understanding of the present application. However, those skilled in the art will readily recognize that some features may be omitted in different situations, or may be replaced by other elements, materials, or methods. In some cases, certain operations related to the present application are not shown or described in the specification. This is to avoid obscuring the core parts of the present application with excessive description. For those skilled in the art, detailed description of these related operations is not necessary; they can fully understand the related operations based on the description in the specification and general technical knowledge in the art.

[0032] Furthermore, the features, operations, or characteristics described in the specification can be combined in any suitable manner to form various embodiments, and the operational steps involved in each embodiment can also be rearranged or adjusted in a manner that is obvious to those skilled in the art. Therefore, the specification and drawings are only for clearly describing a particular embodiment and do not imply that they represent the necessary components and / or order.

[0033] The serial numbers assigned to components in this document, such as "first" and "second," are used only to distinguish the described objects and have no sequential or technical meaning. The terms "connection" and "linkage" used in this application, unless otherwise specified, include both direct and indirect connections (linkages).

[0034] This application provides a heating element calibration auxiliary device 10, such as... Figure 1 As shown, the heating element calibration auxiliary device 10 includes a heating element connection module 110 and an adapter module 120, wherein the heating element connection module 110 and the adapter module 120 are detachably connected.

[0035] Please refer to the following for details. Figures 2-5 In this embodiment, the heating element connection module 110 has multiple first connection ports 111 and second connection ports 112, wherein the first connection ports 111 are used to electrically connect to the heating element 2 to be tested, and the second connection ports 112 are used to electrically connect to the adapter module 120.

[0036] It should be noted that the embodiments of this application do not limit the specific form of the first connection port 111 and the second connection port 112. For example, they can be USB interfaces, Type-C interfaces, etc., and can be set according to the actual situation.

[0037] The adapter module 120 has a third connection port 121 and a fourth connection port 122. The third connection port 121 is used for electrical connection with the second connection port 112, and the fourth connection port 122 is used for electrical connection with the terminal device 30. This embodiment does not limit the specific form of the third connection port 121 and the fourth connection port 122; for details, please refer to the foregoing descriptions of the first connection port 111 and the second connection port 112, which are not limited here. This embodiment also does not limit the specific form of the terminal device 30; for example, it can be a computer.

[0038] In this embodiment, when the user needs to test and calibrate the heating element 2, the heating element 2 is connected to the first connection port 111. Since the heating element connection module 110 provided in this embodiment has multiple first connection ports 111, the user can use the heating element calibration auxiliary device 10 provided in this embodiment to connect multiple heating elements 2 at once, thereby greatly reducing the testing and calibration time. Furthermore, in this embodiment, only one of the second connection port 112, the third connection port 121, and the fourth connection port 122 can be provided. This allows multiple heating elements 2 to be connected to one heating element calibration auxiliary device 10, and only one heating element calibration auxiliary device 10 is used to connect to the terminal device 30. Specifically, the heating element calibration auxiliary device 10 and the terminal device 30 only need one port for connection. This also simplifies the wiring operation of the entire heating element 2 during the testing process and avoids or reduces the situation where too many wiring connections make it difficult to distinguish the heating elements 2.

[0039] Please also refer to Figure 6 and Figure 7 The adapter module 120 includes a base 150 and a second circuit board 160. The second circuit board 160 is disposed on the base 150, and the adapter module 120 has a support structure 123 for supporting on the workbench. The support structure 123 can be connected to the bottom of the base 150 and is used to support the base 150, so that the base 150 is away from the workbench, thereby making the second circuit board 160 suspended relative to the workbench, thereby avoiding or reducing the influence of the external environment on the second circuit board 160.

[0040] It should be noted that the embodiments of this application do not limit the workbench. The workbench refers to the plane used to support the heating element calibration auxiliary equipment 10, such as the ground, desktop, etc. The embodiments of this application also do not limit the specific form and structure of the support structure 123. For example, it can be a support leg or a support base, etc. The specific configuration can be set according to the actual situation.

[0041] Please refer to it again. Figure 2 and Figure 3In one specific embodiment, the heating element connection module 110 includes a first structural plate 113 and a second structural plate 114, wherein a first connection port 111 is located on the first structural plate 113 and a second connection port 112 is located on the second structural plate 114.

[0042] In this embodiment, the second structural plate 114 is a horizontal plate, and the first structural plate 113 is vertically connected to the second structural plate 114. This application does not limit the specific connection form between the first structural plate 113 and the second structural plate 114. For example, in one embodiment, the first structural plate 113 and the second structural plate 114 are detachably connected; in another embodiment, the first structural plate 113 can also be integrally formed with the second structural plate 114. The specific configuration can be determined according to actual circumstances and is not limited here.

[0043] Furthermore, the embodiments of this application do not limit the specific orientation of the first connection port 111. For example, in one embodiment, the orientation of the first connection port 111 may be horizontal, and in other embodiments, the orientation of the first connection port 111 may be vertical. The specific orientation can be set according to the actual situation and is not limited here.

[0044] In one embodiment, the end of the first structural plate 113 is provided with a gripping structure 1131, which makes it easy for the user to assemble the first structural plate 113 and the second structural plate 114 together and to connect the heating element connection module 110 and the adapter module 120 together.

[0045] It should be noted that the embodiments of this application do not limit the specific form of the grip structure 1131. For example, in one embodiment, the grip structure 1131 can be a groove-shaped structure, allowing the user to insert their fingers into the groove for applying force. In another embodiment, the grip structure 1131 can also be a hole-shaped structure, allowing the user to pass their fingers through the hole for applying force. The specific configuration can be adjusted according to actual circumstances. Furthermore, the embodiments of this application do not limit the specific number of grip structures 1131. For example, in one embodiment, a grip structure 1131 can be provided only at one end of the first structural plate 113. In another embodiment, grip structures 1131 can be provided at both ends of the first structural plate 113. The specific configuration can be adjusted according to actual circumstances.

[0046] In addition, in some other embodiments, the first connection port 111 is oriented horizontally, and a fixing structure 1132 is also provided on the first structural plate 113. The fixing structure 1132 is used to fix the heating element 2. It is understood that if the heating element 2 is only fixed to the first connection port 111, the connection between the heating element 2 and the first connection port 111 may be damaged due to the weight of the heating element 2 itself. Therefore, the fixing structure 1132 can be used to fix the heating element 2, thereby avoiding or reducing the possibility of damage to the connection between the heating element 2 and the first connection port 111 due to the weight of the heating element 2.

[0047] Please also refer to Figures 4-6 In this embodiment, the heating element connection module 110 and the adapter module 120 are inserted vertically. The adapter module 120 has a bearing surface 124 for supporting the heating element connection module 110. Specifically, in this embodiment, the bearing surface 124 is the upper surface of the base 150. In this embodiment, the third connection port 121 can be exposed on the bearing surface 124, which facilitates the connection between the third connection port 121 and the second connection port 112.

[0048] The second structural plate 114 can be inserted into the bearing surface 124 from the top and bottom, which makes it easier for the user to operate. Whether connecting the second connection port 112 together or pulling the second connection port 112 out of the third connection port 121, it is more convenient and easier for the user to apply force.

[0049] It should be noted that the embodiments of this application do not limit the specific location of the fourth connection port 122. For example, in some embodiments, the fourth connection port 122 may also be located on the bearing surface 124, and in other embodiments, the fourth connection port 122 may also be located on the lower surface of the base 150, etc. The specific location can be set according to the actual situation. In addition, in some other embodiments, the adapter module 120 may also include a protective cover 125, which can cover the outer surface of the second circuit board 160 to protect the second circuit board 160.

[0050] Furthermore, in one embodiment, the second connection port 112 may face downwards, and the second connection port 112 may be flush with the lower side surface of the second structural plate 114 at most, which can avoid or reduce the possibility of the second connection port 112 being damaged by the external environment.

[0051] Please see Figure 4 and Figure 5In one specific embodiment, the second structural plate 114 includes a hollow plate body 1141 and a cover plate 1142. The heating element connection module 110 also includes a first circuit board 115. The second connection port 112 is electrically connected to the first circuit board 115. The first circuit board 115 is installed inside the plate body 1141, and the plate body 1141 has a downward opening. The cover plate 1142 covers the opening, and the cover plate 1142 has a clearance hole 1143 to avoid the second connection port 112. In this embodiment, the second connection port 112 is at most flush with the lower side of the cover plate 1142.

[0052] Please see Figure 6 It is understood that in other embodiments, the third connection port 121 may face upwards and be flush with the bearing surface 124 at most, which can also avoid or reduce the damage to the third connection port 121 caused by the external environment.

[0053] In addition, please also refer to Figure 3 and Figure 6 In one embodiment, one of the adapter module 120 and the heating element connection module 110 has a positioning post 130, and the other has a positioning groove or positioning hole 140 that interlocks with the positioning post 130. This allows the user to more quickly position and assemble the adapter module 120 and the heating element connection module 110 together, thereby improving the overall efficiency of testing and calibrating the heating element 2.

[0054] As mentioned above, in this embodiment, one of the second connection port 112 and the third connection port 121 can preferably be a PIN pin, and the other can be a socket that mates with the PIN pin. After the user positions and mates the positioning post 130 with the positioning groove or positioning hole 140, the user can connect the second structural plate 114 in the heating element connection module 110 to the bearing surface 124 of the adapter module 120 from top to bottom, and simultaneously insert the PIN pin into the socket. That is to say, in this embodiment, the positioning post 130 and the positioning groove or positioning hole 140 can not only position the second structural plate 114 and the bearing surface 124, but also position the second connection port 112 and the third connection port 121, and assist in the connection between the second connection port 112 and the third connection port 121.

[0055] Please continue reading. Figure 6In one embodiment, the base 150 of the adapter module 120 also has a groove 151. The height of the groove 151 is flush with the bearing surface 124 of the base 150. The third connection port 121 is fixed in the base 150 and extends into the groove 151. In this embodiment, the third connection port 121 is at most flush with the groove 151. The groove 151 is used to accommodate the heating element connection module 110. The heating element connection module 110 is used to extend into the groove 151. Specifically, the second structural plate 114 extends into the groove 151 and makes the third connection port 121 electrically connected to the second connection port 112.

[0056] In other words, in this embodiment, the connection between the second connection port 112 and the third connection port 121 is made within the groove 151. On the one hand, this can avoid or reduce the possibility of connection failure caused by the external environment affecting the second connection port 112 and the third connection port 121, which is beneficial to improve the stability of the connection between the second connection port 112 and the third connection port 121. On the other hand, this can also reduce the space occupied by the entire heating element calibration auxiliary device 10, thereby realizing the miniaturization of the entire heating element calibration auxiliary device 10.

[0057] Furthermore, in this embodiment, the aforementioned positioning post 130 is disposed in the groove 151, and the size of the groove 151 is set to be the same as or approximately the same as the size of the second structural plate 114. This makes the structure more compact when the second structural plate 114 is installed in the groove 151, which in turn helps to improve the stability of the connection between the heating element connection module 110 and the adapter module 120.

[0058] In other embodiments, the heating element calibration auxiliary device 10 has multiple heating element connection modules 110, meaning that in these embodiments, the number of heating element connection modules 110 is at least two. This can further improve the speed at which the user can test the heating element 2. Specifically, after the user installs the heating element 2 on one heating element connection module 110, the heating element 2 on that heating element connection module 110 can be tested and calibrated. At the same time, the user can also install the heating element 2 to be tested on another heating element connection module 110. After the user has completed the testing and calibration of the heating element 2 on the previous heating element connection module 110, the previous heating element connection module 110 can be removed from the adapter module 120, and another heating element connection module 110 with the heating element to be tested installed can be connected to the adapter module 120. At the same time, the user can remove the heating element 2 that has been tested and calibrated on the previous heating element connection module 110 and replace it with the heating element 2 to be tested, thereby realizing a streamlined operation, improving the testing and calibration efficiency of the heating element 2 to be tested, and shortening the overall time of the calibration process of the heating element 2.

[0059] In summary, the heating element calibration auxiliary device 10 provided in this application embodiment, by setting multiple first connection ports 111 for electrical connection with the heating element 2 to be tested in the heating element connection module 110, and setting a second connection port 112 for connection with the adapter module 120 in the heating element connection module 110, and a third connection port 121 for connection with the second connection port 112 and a fourth connection port 122 for connection with the terminal device 30 in the adapter module 120, and by setting the heating element connection module 110 and the adapter module 120 to be detachably electrically connected through the second connection port 112 and the third connection port 121, allows the user to connect multiple heating elements 2 to be tested on the heating element connection module 110 at once when testing the heating element 2. This improves the user's testing efficiency for the heating element 2 and solves the technical problem of long process time in the calibration process in the prior art.

[0060] Please see Figure 8 This application also provides a heating element infrared calibration system 1, including an infrared device 20, a terminal device 30, and a heating element calibration auxiliary device 10 as described above. The infrared device 20 is used to detect the temperature of the heating element 2 connected to the heating element calibration auxiliary device 10, and to perform infrared detection calibration on the heating element 2 to be tested installed on the heating element calibration auxiliary device 10. The terminal device 30 can be used to transmit data information with the heating element 2 to be tested, and to control the infrared device 20 to be turned on or off. Both the infrared device 20 and the heating element 2 calibration auxiliary device are electrically connected to the terminal device 30.

[0061] Since the infrared calibration system for the heating element 2 provided in this application includes the heating element calibration auxiliary device 10 mentioned above, the infrared calibration system for the heating element 2 provided in this application can also solve the technical problem of long process time in the calibration process in the prior art.

[0062] The above-described specific examples are for illustrative purposes only and are not intended to limit the scope of this invention. Those skilled in the art to which this invention pertains can make various simple deductions, modifications, or substitutions based on the concept of this invention.

Claims

1. A heating element calibration auxiliary device, characterized in that, include: A heating element connection module has multiple first connection ports, the first connection ports being used for electrical connection with a heating element to be tested, and the heating element connection module also has second connection ports; as well as The adapter module has a third connection port and a fourth connection port. The heating element connection module and the adapter module are detachably electrically connected through the second connection port and the third connection port. The fourth connection port is used to connect to a terminal device.

2. The heating element calibration auxiliary device as described in claim 1, characterized in that, The adapter module has a support structure for supporting on the workbench, the heating element connection module is inserted into the adapter module from the top and bottom, and the adapter module has a bearing surface for supporting the heating element connection module.

3. The heating element calibration auxiliary device as described in claim 2, characterized in that, The heating element connection module includes: A first structural plate, wherein the first connection port is located on the first structural plate; and The second structural plate has the second connection port located on it; the second structural plate is a horizontal plate, and the first structural plate is vertically connected to it. The bearing surface contacts the lower side of the second structural plate to support the heating element connection module.

4. The heating element calibration auxiliary device as described in claim 3, characterized in that, The second connection port faces downwards and is at most flush with the lower side surface of the second structural plate.

5. The heating element calibration auxiliary device as described in claim 4, characterized in that, The second structural plate includes a hollow plate body and a cover plate. The heating element connection module includes a first circuit board. The second connection port is electrically connected to the first circuit board. The first circuit board is installed in the plate body. The plate body has a downward opening. The cover plate covers the opening and has a clearance hole to avoid the second connection port. The second connection port is at most flush with the lower side of the cover plate.

6. The heating element calibration auxiliary device as described in claim 3, characterized in that, The first structural plate has a gripping structure at its end.

7. The heating element calibration auxiliary device as described in claim 2, characterized in that, One of the adapter module and the heating element connection module has a positioning post, and the other has a positioning groove or positioning hole that is interlocked with the positioning post.

8. The heating element calibration auxiliary device as described in claim 1, characterized in that, The adapter module includes a base with a groove. The heating element connection module is used to extend into the groove to electrically connect the third connection port with the second connection port. The third connection port is fixed in the base and extends into the groove. The third connection port is at most flush with the opening of the groove.

9. The heating element calibration auxiliary device as described in any one of claims 1-8, characterized in that, The number of heating element connection modules is at least two.

10. A heating element infrared calibration system, characterized in that, include: An infrared device, a terminal device, and a heating element calibration auxiliary device as described in any one of claims 1-9, wherein the infrared device is used to detect the temperature of a heating element connected to the heating element calibration auxiliary device, and both the infrared device and the heating element calibration auxiliary device are electrically connected to the terminal device.