A new wireless touch device

By using a locking device and threaded connection design, combined with a multi-contact structure of elastic pins and annular copper rings, the problems of unstable connection and cumbersome operation of wireless contact devices are solved, achieving stable and convenient wireless connection and efficient data transmission.

CN224383785UActive Publication Date: 2026-06-19WUHAN HUABO COMM CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
WUHAN HUABO COMM CO LTD
Filing Date
2025-08-07
Publication Date
2026-06-19

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Abstract

This utility model relates to the field of wireless contact technology, and more particularly to a novel wireless contact device, comprising a contact end and a driving end. The contact end includes an annular cylinder with a shaft groove at its top, a contact bracket fixedly installed inside the annular cylinder, a contact circuit assembly fixedly installed on the contact bracket, and a locking device. The driving end includes an annular shell matched with the annular cylinder, a driving bracket fixedly installed inside the annular shell, and a driving circuit assembly fixedly installed on the driving bracket. The locking device is disposed on the shaft groove at the top of the annular cylinder, and is used to fix the driving end to the contact end. Compared with existing contact technologies, this utility model, through the inclusion of the locking device and other components, provides stable power and audio data transmission, improves practicality and ease of operation, offers stable and reliable performance, and prevents loosening or detachment during use.
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Description

Technical Field

[0001] This utility model relates to the field of wireless communication technology, and in particular to a novel wireless communication device. Background Technology

[0002] Interoperability between devices is essential, as multi-device collaboration has become the norm: smart homes require coordinated control, mobile terminals need to share data, and industrial equipment needs to interact with each other in real time. Interoperability can break through the limitations of single devices, achieve resource integration and efficient collaboration, improve operational convenience and system efficiency, and meet the core needs of information exchange and functional linkage in multiple scenarios.

[0003] Traditional methods of connecting devices typically require wired connections via external cables or wireless connections via magnetic attraction. These two methods are currently the most common connection methods. However, connecting additional cables is not only cumbersome but also prone to loss. Magnetic wireless connection, on the other hand, faces challenges such as incompatibility between devices or unstable contact leading to connection failure. Furthermore, this method consumes power quickly, directly shortening the device's battery life and overall lifespan. Utility Model Content

[0004] The purpose of this invention is to solve the problems of cumbersome operation and easy loss of additional cables in the existing technology; and the problem of contact failure caused by incompatibility between devices or unstable contact in magnetic wireless contact. Therefore, a new type of wireless contact device is proposed.

[0005] To achieve the above objectives, the present invention adopts the following technical solution:

[0006] A novel wireless contact device includes a contact end and a driving end. The contact end includes an annular cylinder with a shaft groove at the top, a contact support fixedly installed inside the annular cylinder, a contact circuit group fixedly installed on the contact support, and a locking device.

[0007] The drive end includes an annular shell that is matched with the annular cylinder, a drive bracket that is fixedly installed inside the annular shell, and a drive circuit group that is fixedly installed on the drive bracket.

[0008] Preferably, the locking device is disposed on the shaft groove at the top of the annular cylinder, and the locking device is used to fix the driving end on the contact end.

[0009] Preferably, the contact support and the annular cylinder are threadedly connected by the same screw, and the drive support and the annular shell are threadedly connected by the same screw.

[0010] Preferably, the contact circuit assembly includes a contact circuit board and a plurality of elastic pins embedded in the contact circuit board.

[0011] Preferably, the drive circuit assembly includes a drive circuit board and several annular copper rings coated on the drive circuit board.

[0012] Preferably, the annular shell has a slot corresponding to the locking device.

[0013] Compared with the prior art, the advantages of this utility model are as follows:

[0014] This utility model, through the setting of locking devices and other components, only requires pushing the driving end into the cylinder of the contact end and pressing down the locking handle to achieve 360-degree wireless contact between the contact end and the driving end. The operation is flexible and convenient, the power and audio data transmission is stable, improving practicality and ease of operation. The performance is stable and reliable, and it will not loosen or fall off during use. Attached Figure Description

[0015] Figure 1 This is a schematic diagram of the overall structure of a novel wireless contact device proposed in this utility model;

[0016] Figure 2 This is a schematic diagram of the contact circuit group and the drive circuit group in a novel wireless contact device proposed in this utility model.

[0017] Figure 3 This is a schematic diagram of the contact circuit board and the drive circuit board in a novel wireless contact device proposed in this utility model;

[0018] Figure 4 This is a side view of a novel wireless touch device proposed in this utility model.

[0019] In the picture:

[0020] 1. Annular cylinder; 11. Contact support; 12. Contact circuit assembly; 13. Locking device;

[0021] 2. Annular shell; 21. Drive bracket; 22. Drive circuit assembly;

[0022] 121. Contact circuit board; 122. Elastic pin; 221. Drive circuit board; 222. Annular copper ring. Detailed Implementation

[0023] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments.

[0024] Reference Figures 1-4A novel wireless contact device includes a contact end and a driving end. The contact end includes an annular cylinder 1 with a shaft groove at the top. The annular structure of the annular cylinder 1 and the annular shell 2 of the driving end form a matching and fitting design, which can guide the driving end to quickly align and embed, providing structural support for the stable docking of the two. At the same time, the internal space provides a closed and safe installation environment for the contact support 11 and the contact circuit assembly 12, ensuring that the internal components are protected from external interference. The contact support 11, the contact circuit assembly 12, and the locking device 13 are fixedly installed in the annular cylinder 1. The locking device 13 can quickly fix the driving end and the contact end by mechanically engaging the lock handle. Its operation does not require additional tools, and locking can be completed by simply engaging, which not only ensures the firmness of the connection, but also simplifies the installation and separation process and improves the ease of use of the device.

[0025] The drive end includes an annular shell 2 that is matched with the annular cylinder 1, a drive bracket 21 that is fixedly installed inside the annular shell 2, and a drive circuit group 22 that is fixedly installed on the drive bracket 21.

[0026] The locking device 13 is installed on the shaft groove at the top of the annular cylinder 1. The locking device 13 is used to fix the drive end to the contact end. As the core load-bearing structure of the contact end, the annular cylinder 1 has a pre-set shaft groove at its top that provides a precise installation reference for the locking device 13, ensuring stable positioning of the locking component.

[0027] The contact support 11 and the annular cylinder 1 are threaded together by the same screw, and the drive support 21 and the annular shell 2 are threaded together by the same screw. This threaded connection of screws one and two not only provides a high-strength fixing effect, firmly anchoring the contact support 11 within the annular cylinder 1 and the drive support 21 within the annular shell 2, preventing displacement due to vibration during use, but also facilitates later disassembly and maintenance. It allows for easy separation of the contact support 11 from the annular cylinder 1 and the drive support 21 from the annular shell 2, providing convenience for the inspection or replacement of the contact circuit assembly 12 and the drive circuit assembly 22.

[0028] The contact circuit assembly 12 includes a contact circuit board 121 and a plurality of elastic pins 122 embedded in the contact circuit board 121. The contact circuit board 121 serves as the mounting carrier for the elastic pins 122, providing a stable circuit connection foundation for them; the plurality of embedded elastic pins 122 have elastic deformation capabilities, and when in contact with the drive circuit assembly 22, they can compensate for installation errors through their own elasticity, ensuring a tight fit with the annular copper ring 222, effectively improving the stability of conductive contact. The arrangement of a plurality of elastic pins 122 can also reduce the risk of single-point failure through a multi-contact point design.

[0029] The drive circuit assembly 22 includes a drive circuit board 221 and several annular copper rings 222 coated on the drive circuit board 221. The drive circuit board 221 provides a circuit integration platform for the annular copper rings 222, ensuring the orderly connection of their circuits. The coated annular copper rings 222 adopt an annular design, which can form 360-degree non-directional contact with the elastic pin 122, breaking through the limitations of traditional directional contact. With the corresponding arrangement of several annular copper rings 222 and elastic pins 122, the reliability and efficiency of data or power transmission can be improved through multiple sets of circuit channels.

[0030] The annular shell 2 has a slot corresponding to the locking device 13. The slot is adapted to the locking device 13, providing a mechanical positioning point for fixing the drive end.

[0031] The functional principle of this utility model can be explained through the following operation methods:

[0032] In use, first align the annular shell 2 of the driving end with the annular cylinder 1 of the contact end, and push the driving end into the annular cylinder 1. At this time, the several elastic pins 122 embedded in the contact circuit board 121 of the contact end in both the longitudinal and transverse directions contact the several annular copper rings 222 coated on the driving circuit board 221 of the driving end; because the driving end is completely covered by the annular copper rings 222, 360-degree non-directional contact between the contact end and the driving end can be achieved, avoiding contact problems caused by the failure of individual elastic pins 122.

[0033] Next, by using the locking device 13 of the contact end to cooperate with the slot on the annular shell 2 of the drive end, the locking handle is pushed down, and the drive end is firmly locked in the annular cylinder 1 of the contact end, completing the installation and fixing. At this time, power and audio data can be transmitted stably.

[0034] When separating, the locking handle of the locking device 13 is lifted upwards, the locking is released, and the driving end can be freely disengaged from the annular cylinder 1, thus achieving separation from the contact end.

[0035] The entire process requires no cables, is flexible in operation, and overcomes the problems of cumbersome wired connections and unstable magnetic contact in traditional systems.

[0036] The above description is only a preferred embodiment of the present utility model, but the protection scope of the present utility model is not limited thereto. Any equivalent substitutions or changes made by those skilled in the art within the technical scope disclosed in the present utility model, based on the technical solution and the inventive concept of the present utility model, should be included within the protection scope of the present utility model.

Claims

1. A novel wireless touch-through device comprising a touch-through end and a drive end, characterized in that, The contact end includes an annular cylinder (1) with a shaft groove at the top, a contact support (11) fixedly installed inside the annular cylinder (1), a contact circuit group (12) fixedly installed on the contact support (11), and a locking device (13). The driving end includes an annular shell (2) that is matched with the annular cylinder (1), a driving bracket (21) fixedly installed inside the annular shell (2), and a driving circuit group (22) fixedly installed on the driving bracket (21).

2. The novel wireless contact device according to claim 1, characterized in that, The locking device (13) is disposed on the shaft groove at the top of the annular cylinder (1), and the locking device (13) is used to fix the driving end on the contact end.

3. The novel wireless contact device according to claim 1, characterized in that, The contact support (11) and the annular cylinder (1) are threaded together by the same screw, and the drive support (21) and the annular shell (2) are threaded together by the same screw.

4. The novel wireless contact device according to claim 1, characterized in that, The contact circuit group (12) includes a contact circuit board (121) and a number of elastic pins (122) embedded in the contact circuit board (121).

5. A novel wireless contact device according to claim 1, characterized in that, The drive circuit group (22) includes a drive circuit board (221) and several annular copper rings (222) coated on the drive circuit board (221).

6. A novel wireless contact device according to claim 1, characterized in that, The annular shell (2) has a slot corresponding to the locking device (13).