A conductive structure for an electronic cigarette

By combining solid silicone base and solid silicone components, the problem of complicated assembly and unstable connection of the conductive structure of electronic cigarettes is solved, realizing convenient installation and stable connection, and improving the circuit stability and atomization effect of electronic cigarettes.

CN224320256UActive Publication Date: 2026-06-05MEGA TECH (DONGGUAN) CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
MEGA TECH (DONGGUAN) CO LTD
Filing Date
2025-06-11
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

The existing conductive structure of electronic cigarettes is cumbersome and inconvenient to assemble, has poor connection stability, and is prone to poor contact due to vibration or long-term use, which affects the atomization effect.

Method used

The connector and assembly are composed of solid silicone base and solid silicone parts. They can be easily assembled and installed by interference fit or adhesive extension and assembly groove. The conductive parts are designed in a stepped shape to improve structural strength, and the circuit connection is optimized by oil guide groove and protrusion.

Benefits of technology

This improves the ease of installation and connection stability of the electronic cigarette's conductive structure, ensuring circuit stability and atomization effect, and enhancing the product's practicality and quality.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to electronic cigarette technical field especially, more particularly to a kind of conductive structure for electronic cigarette, including connecting seat and the assembly part installed in connecting seat, and a plurality of conductive parts are provided in assembly part;Connecting seat top is formed with assembly groove, and assembly part includes the wrapping part for the part of a plurality of conductive parts is wrapped, and wrapping part is provided with the extension part for being loaded into assembly groove and extending downward.The utility model is combined in the process of installing connecting seat and assembly part, and the extension part of wrapping part bottom is loaded into assembly groove, so that wrapping part is fixedly arranged on connecting seat, to realize the combined installation of connecting seat and assembly part, when electronic cigarette is assembled, the convenience of installation is improved.
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Description

Technical Field

[0001] This utility model relates to the field of electronic cigarette technology, and in particular to a conductive structure for electronic cigarettes. Background Technology

[0002] In recent years, with the rapid development of e-cigarette technology, optimizing its internal structure has become crucial for improving product performance and user experience. The conductive structure of an e-cigarette, as one of its core components, is responsible for the stable transfer of electrical energy from the battery to the atomizer core assembly, directly affecting the device's heating efficiency and safety. However, existing conductive structures in e-cigarettes still have significant shortcomings in practical applications, particularly in terms of ease of assembly and connection stability, which urgently need improvement.

[0003] Traditional electronic cigarette conductive structures often employ a split design, such as fixing multiple conductive components by welding or screws. While this design achieves basic conductivity, it presents the following problems: First, the assembly process is cumbersome, requiring each conductive component to be positioned and fixed individually, increasing production complexity and making it difficult to meet the demands of large-scale, high-efficiency manufacturing. Second, the split structure is prone to poor contact due to vibration or prolonged use, leading to circuit interruptions or increased resistance, thus affecting atomization performance.

[0004] Therefore, the above-mentioned technical problems are solved by providing a conductive structure for electronic cigarettes. Utility Model Content

[0005] The purpose of this invention is to provide a conductive structure for electronic cigarettes that addresses the shortcomings of existing technologies, thereby solving the technical problem that the conductive structures in existing electronic cigarettes are not easy to assemble and install.

[0006] To achieve the above objectives, the technical solution of this utility model is as follows:

[0007] A conductive structure for electronic cigarettes includes a connector and an assembly mounted on the connector. The assembly has a plurality of conductive elements disposed therein. The top of the connector is formed with an assembly groove. The assembly includes a wrapping portion for partially covering the plurality of conductive elements. The wrapping portion has a downwardly extending extension portion for insertion into the assembly groove.

[0008] Furthermore, the connector is a solid silicone base.

[0009] Furthermore, the assembly components are solid silicone parts.

[0010] Furthermore, the extension is interference-fitted with the inner wall of the assembly groove.

[0011] Furthermore, the extension is bonded to the inner wall of the assembly groove.

[0012] Furthermore, at least three conductive components are provided.

[0013] Furthermore, the conductive component includes a stepped main body, with a contact conductive end formed at the top of the main body extending to the outside of the wrapping portion, and a connecting end at the bottom of the main body extending downward to below the extension portion.

[0014] Furthermore, the inner bottom of the assembly groove is formed with several perforations for the connecting ends to pass through.

[0015] Furthermore, the top of the connector is formed with an upper protrusion, the upper protrusion is formed with an oil guide groove, the bottom of the oil guide groove is formed with a first mounting hole, the first mounting hole is provided with a mounting platform, and the mounting platform is formed with several wiring holes.

[0016] Furthermore, the bottom of the connector is formed with a lower protrusion, and the lower protrusion is formed with a second mounting hole for communicating with the oil guide channel.

[0017] The beneficial effects of this utility model are as follows: During the assembly of the connector and the assembly, the extension at the bottom of the package is inserted into the assembly groove, so that the package is fixedly set on the connector, thereby realizing the assembly of the connector and the assembly. When assembling electronic cigarettes, this improves the convenience of installation.

[0018] In addition, after this conductive structure is installed into the electronic cigarette, several conductive components simultaneously come into contact with the power supply component (i.e., the battery, not shown in the figure). After contact, they are electrically connected and conduct electricity through the several conductive components, thereby enabling power supply to the circuit board and atomizer core component inside the electronic cigarette. Attached Figure Description

[0019] Figure 1 This is a three-dimensional structural diagram of the present invention.

[0020] Figure 2 This is a three-dimensional structural schematic diagram of the present invention from another perspective.

[0021] Figure 3 This is a schematic diagram showing the separated state of the connector and the assembly of this utility model.

[0022] Figure 4 This is a schematic diagram of the conductive component of this utility model.

[0023] The reference numerals in the figures include:

[0024] 1. Connecting seat; 101. Upper protrusion; 102. Oil guide groove; 103. First mounting hole; 104. Mounting platform; 105. Wiring hole; 106. Oil guide channel; 107. Lower protrusion; 108. Second mounting hole; 109. Sealing ring; 1010. Assembly groove; 1011. Through hole; 2. Assembly component; 21. Wrapping part; 22. Extension part; 3. Conductive component; 31. Main body part; 32. Contact conductive end; 33. Connecting end. Detailed Implementation

[0025] The conductive structure for electronic cigarettes according to this invention will be described in detail below with reference to the accompanying drawings.

[0026] like Figure 1-4 As shown, an embodiment of the conductive structure for electronic cigarettes according to this utility model includes a connector 1 and an assembly 2 mounted on the connector 1. The assembly 2 contains several conductive elements 3, with at least three conductive elements 3, all used for conductive processing when supplying power to the electronic cigarette. The connector 1 is a solid silicone base, and the assembly 2 is a solid silicone component. Both are molded using injection molding. To simultaneously house the conductive elements 3 within the assembly 2, before injecting liquid silicone into the mold, the assembly 2 is first placed into the mold. Then, liquid silicone is injected and allowed to cool and solidify into the assembly 2. The assembly 2 then encapsulates portions of the conductive elements 3, achieving a coating process for the conductive elements 3. After the connector 1 and assembly 2 are separately injection molded, they are then assembled to form a conductive structure for electronic cigarettes. The specific assembly method is described below.

[0027] Furthermore, the top of the connector 1 is formed with an assembly groove 1010, and the assembly 2 includes a wrapping part 21 for partially wrapping a plurality of conductive parts 3. The bottom of the wrapping part 21 is provided with an extension part 22 that extends downward and is used to be inserted into the assembly groove 1010. During the assembly of the connector 1 and the assembly 2, the extension part 22 at the bottom of the wrapping part 21 is inserted into the assembly groove 1010. The extension part 22 is press-fitted with the inner wall of the assembly groove 1010, or the extension part 22 is bonded to the inner wall of the assembly groove 1010 with glue, or the outer wall of the extension part 22 is snapped into the inner wall of the assembly groove 1010. Alternatively, a snap-fit ​​device for snapping the extension part 22 can be provided inside the assembly groove 1010. As long as the extension part 22 is inserted into the assembly groove 1010, the wrapping part 21 is fixedly mounted on the connector 1.

[0028] In this embodiment, the conductive component 3 includes a stepped main body 31 disposed within the wrapping portion 21. The top of the main body 31 has a contact conductive end 32 extending to the outside of the wrapping portion 21 and used to contact the spring electrode (not shown in the figure). The bottom of the main body 31 is a connecting end 33, which extends downwards below the extension portion 22. The inner bottom of the assembly groove 1010 has several through holes 1011 for the connecting ends 33 to pass through. While the extension portion 22 is inserted into the assembly groove 1010, several connecting ends 33 pass through different through holes 1011. A circuit board (not shown in the figure) is mounted at the bottom of the connector 1. The connecting ends 33 are soldered to the circuit board after passing through the through holes 1011. Furthermore, after this conductive structure is installed in the electronic cigarette, the contact conductive end 32 contacts the spring electrode used for power supply, making it electrically connected to the battery (not shown in the figure). Conductivity is achieved through the conductive component 3, thereby powering the circuit board and the atomizing core assembly within the electronic cigarette. In addition, the main body 31 is set in a stepped shape to improve the structural strength of the conductive element 3 after the wrapping part 21 wraps the conductive element 3, to prevent the conductive element 3 from becoming loose on the wrapping part 21, and to improve the quality of the conductive structure.

[0029] Furthermore, the top of the connector 1 is formed with an upper protrusion 101, and the upper protrusion 101 is formed with an oil guide groove 102. A first mounting hole 103 is formed at the bottom of the oil guide groove 102. A mounting platform 104 for mounting an atomizer core assembly (not shown in the figure) is provided inside the first mounting hole 103, and the mounting platform 104 is formed with several wiring holes 105 for the conductive wires of the atomizer core assembly to pass through. The bottom end of the atomizer core assembly is inserted into the first mounting hole 103. Simultaneously, several conductive wires on the atomizer core assembly pass through different wiring holes 105, and the wiring holes 105 are electrically connected to the circuit board mounted at the bottom of the connector 1, so as to facilitate electrical conduction of the atomizer core assembly through the conductive component 3.

[0030] In the existing structure of electronic cigarettes, when this conductive structure is installed inside, the e-liquid cup is mounted on the upper protrusion 101, so that the top of the upper protrusion 101 and the inner wall of the e-liquid cup form an e-liquid storage chamber. The atomizing core assembly is placed inside the e-liquid storage chamber. The upper protrusion 101 also has an e-liquid guiding channel 106 that communicates with the e-liquid storage chamber. E-liquid can be poured into the e-liquid storage chamber through the e-liquid guiding channel 106, and then guided into the atomizing core assembly through the e-liquid guiding groove 102, where the e-liquid is heated and atomized into vapor. The above describes the structure and operation process of existing electronic cigarettes, which will not be elaborated here.

[0031] Additionally, the bottom of the connector 1 has a lower protrusion 107, and the lower protrusion 107 has a second mounting hole 108 for installing an oil bottle (not shown in the figure). The second mounting hole 108 is connected to the oil guide channel 106. The oil bottle has an existing structure and is used to fill e-liquid. After the neck of the oil bottle is inserted into the second mounting hole 108, the e-liquid in the oil bottle can be replenished to the oil storage tank through the oil guide channel 106.

[0032] A sealing ring 109 is provided on the inner wall of the first mounting hole 103, between the upper protrusion 101 and the inner wall of the oil cup. The sealing ring 109 is used to improve the sealing between electronic cigarette components, prevent e-liquid leakage, and improve the effect of this conductive structure being installed in an existing electronic cigarette.

[0033] In summary, this utility model possesses the aforementioned excellent characteristics, enabling it to achieve unprecedented efficiency in use and thus become a highly practical product.

[0034] The above description is only a preferred embodiment of this utility model. For those skilled in the art, there will be changes in the specific implementation method and application scope based on the idea of ​​this utility model. The content of this specification should not be construed as a limitation of this utility model.

Claims

1. A conductive structure for use in electronic cigarettes, characterized in that: It includes a connector (1) and an assembly (2) mounted on the connector (1). The assembly (2) is provided with a plurality of conductive elements (3). The top of the connector (1) is formed with an assembly groove (1010). The assembly (2) includes a wrapping part (21) for partially wrapping the plurality of conductive elements (3). The wrapping part (21) is provided with an extension (22) that extends downward and is used to be inserted into the assembly groove (1010).

2. The conductive structure for electronic cigarettes according to claim 1, characterized in that: The connector (1) is a solid silicone base.

3. The conductive structure for electronic cigarettes according to claim 1, characterized in that: Assembly part (2) is a solid silicone part.

4. A conductive structure for electronic cigarettes according to claim 1, characterized in that: The extension (22) is interference-fitted with the inner wall of the assembly groove (1010).

5. A conductive structure for electronic cigarettes according to claim 1, characterized in that: The extension (22) is bonded to the inner wall of the assembly groove (1010).

6. A conductive structure for electronic cigarettes according to claim 1, characterized in that: The conductive element (3) is provided with at least three.

7. A conductive structure for electronic cigarettes according to claim 6, characterized in that: The conductive component (3) includes a stepped main body (31), the top of the main body (31) is formed with a contact conductive end (32) extending to the outside of the wrapping part (21), the bottom of the main body (31) is a connecting end (33), and the connecting end (33) extends downward to below the extension part (22).

8. A conductive structure for electronic cigarettes according to claim 7, characterized in that: The inner bottom of the assembly slot (1010) is formed with several perforations (1011) for the connecting end (33) to pass through.

9. A conductive structure for electronic cigarettes according to claim 1, characterized in that: The top of the connector (1) is formed with an upper protrusion (101), the upper protrusion (101) is formed with an oil guide groove (102), the bottom of the oil guide groove (102) is formed with a first mounting hole (103), the first mounting hole (103) is provided with a mounting platform (104), and the mounting platform (104) is formed with a plurality of wiring holes (105).

10. A conductive structure for electronic cigarettes according to claim 9, characterized in that: The bottom of the connector (1) is formed with a lower protrusion (107), and the lower protrusion (107) is formed with a second mounting hole (108) for communicating with the oil guide channel (106).