A connecting mechanism and an electronic component connector

By employing a combination of bent spring sheets and trapezoidal locking blocks in the electronic component connectors, along with the squeezing and removal of components, the problem of loosening in traditional connections is solved, achieving stable connections and convenient disassembly, thus improving the electrical connection reliability of electronic devices.

CN224329003UActive Publication Date: 2026-06-05SHENZHEN JIANYANG TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHENZHEN JIANYANG TECH CO LTD
Filing Date
2025-06-09
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

Traditional electronic component connections are prone to loosening, leading to poor contact, affecting signal and power transmission quality, and the inconvenience of disassembly increases maintenance costs and time.

Method used

It employs two sets of elastic positioning components, utilizing the interlocking action of bending spring sheets and trapezoidal blocks with slots, combined with the squeezing and removal components, to achieve stable connection and convenient disassembly.

Benefits of technology

Ensure the reliability of electrical connections in electronic devices, prevent loosening and poor contact, simplify the disassembly process, and reduce maintenance costs.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224329003U_ABST
    Figure CN224329003U_ABST
Patent Text Reader

Abstract

The utility model relates to the technical field of electronic component, specifically disclose a connecting mechanism and electronic component connector, aim at solving the problem of unstable connection, dismounting operation complex and easy to cause component damage of traditional electronic component connection. The technical scheme sets up two groups of elastic positioning components between the connector socket and the plug of mutual insertion, each group contains the reliable clamping structure formed by the trapezoidal clamping block with built-in bent spring sheet and the inner wall clamping groove of the socket, and the spring sheet elastic deformation characteristics are used to ensure the connection stability. In order to optimize the dismounting operation, the plug is provided with a synchronous driving mechanism: by pressing the connecting frame in the surface limiting groove, the double connecting rod is driven to compress the spring sheet on both sides synchronously, so that the trapezoidal clamping block is completely retracted into the plug groove, and the operation fulcrum is formed by the cooperation of the plug surface back type frame, realizing the coherent action of single hand pressing and pulling out. The baffle structure longitudinally limits the spring sheet, preventing excessive deformation.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model relates to the field of electronic component technology, and in particular to a connection mechanism and an electronic component connector. Background Technology

[0002] In the field of electronic devices, the electrical connections between electronic components are crucial, as they directly affect the normal operation of the equipment and the stability of data transmission.

[0003] Traditional electronic component connection methods often suffer from problems such as unstable connections and inconvenient disassembly. For example, in some simple connection structures, the connection may rely solely on friction to maintain its integrity. However, this can easily loosen under external force or after prolonged use, leading to poor contact and affecting the quality of signal and power transmission. Moreover, when it is necessary to disassemble electronic devices for maintenance or component replacement, the lack of effective unlocking and removal mechanisms may require operators to use tools, potentially damaging the connectors and increasing maintenance costs and time. Utility Model Content

[0004] The purpose of this invention is to address the shortcomings of existing technologies where simple connection structures rely solely on friction to maintain the connection. These structures are prone to loosening under external force or after prolonged use, leading to poor contact and affecting the quality of signal and power transmission. This invention provides a connection mechanism and electronic component connector.

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

[0006] A connection mechanism and electronic component connector include a connector socket and a connector plug that are plugged into each other. Two sets of elastic positioning components are provided between the connector socket and the connector plug. Each set of elastic positioning components includes a first groove formed in the connector plug. A bending spring sheet is glued and fixed to the inner wall of the first groove. A trapezoidal locking block is glued and fixed to the side end of the bending spring sheet. A locking groove is formed in the connector socket to engage with the trapezoidal locking block.

[0007] The inclined surfaces of both trapezoidal blocks are arranged downwards to facilitate compression by the connector socket;

[0008] To facilitate the removal of the connector plug, a set of pressing components is provided in each of the two first grooves. The two sets of pressing components are used to drive the two trapezoidal blocks back into the two first grooves respectively.

[0009] The connector plug is provided with a set of removal components, which are used to quickly pull out the connector plug.

[0010] In one possible design, each of the extrusion assemblies includes an extrusion plate slidably disposed in a first groove, wherein the semicircle at the bottom end of the extrusion plate and the side end of the bent spring sheet are in extrusion contact.

[0011] Specifically, by driving the extrusion plate downward to press down on the movable end of the bent spring sheet, the trapezoidal block is brought back into the first groove to release the engagement with the slot.

[0012] In one possible design, the extraction assembly includes a limiting groove formed on the surface of the connector plug, a connecting frame sliding within the limiting groove, two connecting rods fixed to the bottom end of the connecting frame, the two connecting rods respectively moving downwards and penetrating into two first grooves, two extrusion plates respectively fixed to the bottom ends of the two connecting rods, and the outer diameter of the connecting frame being larger than the outer diameter of the connector plug.

[0013] The two connecting rods can be moved downward by pressing the connecting frame. The two connecting rods will drive the two extrusion plates to extrude the ends of the two bent spring sheets, and simultaneously release the locking and positioning of the two sets of elastic positioning components. At the same time, the connecting frame is limited by the limiting groove, which can prevent excessive extrusion of the bent spring sheets.

[0014] In one possible design, a U-shaped frame is fixed to the surface of the connector plug, and the four ends of the U-shaped frame and the connecting frame cooperate with each other;

[0015] When in use, press the connecting frame downwards with your fingers. When the connecting frame moves to fit against the U-shaped frame, the trapezoidal blocks on both sides are squeezed into the two first grooves. Pinch the U-shaped frame downwards with your fingers and apply upward force to pull out the connector plug.

[0016] In one possible design, baffles are fixed in both of the first grooves, and the two baffles are used to limit the movement of the two bent spring sheets.

[0017] In this application, by driving the extrusion plate downward to press the movable end of the bent spring sheet, the trapezoidal block is brought back into the first groove to release the engagement with the slot;

[0018] By pressing the connecting frame, the two connecting rods can be moved downwards. The two connecting rods will drive the two extrusion plates to extrude the ends of the two bent spring sheets respectively, and simultaneously release the locking and positioning of the two sets of elastic positioning components. At the same time, the connecting frame is limited by the limiting groove, which can prevent excessive extrusion of the bent spring sheets.

[0019] When in use, press the connecting frame downwards with your fingers. When the connecting frame moves to fit against the U-shaped frame, the trapezoidal blocks on both sides have been squeezed into the two first grooves. Pinch the U-shaped frame downwards with your fingers and apply upward force to pull out the connector plug.

[0020] Beneficial effects: In this utility model, the connection mechanism and electronic component connector, by setting two sets of elastic positioning components, utilizes the elasticity of the bending spring sheet and the snap-fit ​​cooperation between the trapezoidal block and the slot, to provide a stable connection for the connector socket and connector plug, effectively preventing loosening or poor contact during normal use, and ensuring the reliability of electrical connections between electronic devices.

[0021] In this utility model, the connection mechanism and electronic component connector, by setting two sets of elastic positioning components, utilize the elasticity of the bent spring sheet and the snap-fit ​​cooperation between the trapezoidal block and the slot, can provide a stable connection for the connector socket and connector plug, effectively preventing loosening or poor contact during normal use, and ensuring the reliability of electrical connection between electronic devices;

[0022] In this invention, the connection mechanism of the device has a simple structure, clear cooperation relationships between the components, and is easy to manufacture and assemble. At the same time, its design is reasonable, making full use of space and enabling reliable connection and convenient disassembly within a limited space, making it suitable for the electrical connection needs of various electronic devices. Attached Figure Description

[0023] Figure 1 This is a front perspective view of a connection mechanism and electronic component connector proposed in this utility model;

[0024] Figure 2 This is a partial exploded view of a connection mechanism and electronic component connector proposed in this utility model;

[0025] Figure 3 This is a partial cross-sectional view of a connection mechanism and electronic component connector proposed in this utility model;

[0026] Figure 4 This utility model proposes a connection mechanism and an electronic component connector. Figure 3 A magnified view of a portion of point A in the middle.

[0027] In the diagram: 1. Connector socket; 2. Connector plug; 3. Limiting groove; 4. Connecting frame; 5. U-shaped frame; 6. First groove; 7. Baffle; 8. Connecting rod; 9. Slot; 10. Trapezoidal block; 11. Bending spring sheet; 12. Extrusion plate. Detailed Implementation

[0028] 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.

[0029] Example 1: Refer to Figures 1-4 A connection mechanism includes a connector socket 1 and a connector plug 2 that are plugged into each other. The connector socket 1 is typically fixed to one electronic device, and the connector plug 2 is fixed to another electronic device, and an electrical connection is achieved by plugging the two together.

[0030] Two sets of elastic positioning components are provided between the connector socket 1 and the connector plug 2. Each set of elastic positioning components includes a first groove 6 formed within the connector plug 2. A bending spring sheet 11 is installed on the inner wall of the first groove 6 by adhesive bonding. The bending spring sheet 11 has a certain elastic deformation capability, and a trapezoidal locking block 10 is adhesively fixed to its side end. At the same time, a locking groove 9 is formed in the connector socket 1 to engage with the trapezoidal locking block 10. The inclined surfaces of both trapezoidal locking blocks 10 are both set downwards. This design facilitates that when the connector plug 2 is inserted into the connector socket 1, the trapezoidal locking block 10 can be smoothly squeezed by the inner wall of the connector socket 1, thereby causing the trapezoidal locking block 10 to retract into the first groove 6. When it reaches the position of the locking groove 9, the bending spring sheet 11 restores its deformation, popping out the trapezoidal locking block 10 and locking it into the locking groove 9, thus achieving the initial positioning and fixation of the connector socket 1 and the connector plug 2.

[0031] A pressing assembly is provided in each of the two first grooves 6 to facilitate the removal of the connector plug 2 from the connector socket 1. Each pressing assembly includes a pressing plate 12 slidably disposed in the first groove 6, with the semicircular bottom end of the pressing plate 12 pressing against the side end of the bent spring sheet 11. When it is necessary to disconnect, by moving the pressing plate 12 downward, the pressing plate 12 applies pressure to the movable end of the bent spring sheet 11, causing the bent spring sheet 11 to elastically deform, thereby bringing the trapezoidal locking block 10 back into the first groove 6, releasing the trapezoidal locking block 10 from the locking groove 9.

[0032] The connector plug 2 is equipped with a set of removal components. The removal components include a limiting groove 3 formed on the surface of the connector plug 2, within which a connecting frame 4 is slidably connected. Two connecting rods 8 are fixed to the bottom of the connecting frame 4, and these rods 8 move downwards and penetrate into two first grooves 6. Two pressing plates 12 are fixed to the bottom ends of the connecting rods 8. The outer diameter of the connecting frame 4 is larger than the outer diameter of the connector plug 2. When the connector plug 2 needs to be removed, pressing the connecting frame 4 causes it to move the two connecting rods 8 downwards. The two connecting rods 8 then cause the two pressing plates 12 to press downwards against the ends of the two bent spring sheets 11, simultaneously releasing the locking and positioning of the two sets of elastic positioning components. Simultaneously, because the connecting frame 4 is limited by the limiting groove 3, excessive pressure on the bent spring sheets 11 is prevented, avoiding damage to them.

[0033] Baffles 7 are fixed in both of the first grooves 6. The two baffles 7 are used to limit the two bent spring sheets 11 to prevent the bent spring sheets 11 from being excessively deformed or displaced when squeezed, so as to ensure the normal operation of the elastic positioning component.

[0034] This device also provides an electronic component connector, which includes the aforementioned connection mechanism. By applying this connection mechanism to the electronic component connector, a reliable and convenient electrical connection between electronic components can be achieved.

[0035] Example 2: Refer to Figures 1-4 An improvement upon Embodiment 1: A connecting mechanism and electronic component connector, applicable in the field of electronic component technology, wherein a U-shaped frame 5 is fixed on the surface of the connector plug 2, and the four ends of the U-shaped frame 5 and the connecting frame 4 cooperate with each other. In actual operation, when using it, the connecting frame 4 is pressed downward by the finger. When the connecting frame 4 moves to fit against the U-shaped frame 5, the trapezoidal locking blocks 10 on both sides have been squeezed into the two first grooves 6. By pinching the surface of the U-shaped frame 5 downward and applying upward force, the connector plug 2 can be easily pulled out.

[0036] The accompanying drawings in this application are for illustrative purposes only. The dimensions and shapes of the components shown are not actual limitations but are merely schematic representations. In actual implementation, the components can be reasonably configured and adjusted according to specific needs and actual conditions.

[0037] 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 connecting mechanism for electrically connecting two electronic devices, characterized in that, include: The connector socket (1) and connector plug (2) are connected to each other. Two sets of elastic positioning components are provided between the connector socket (1) and the connector plug (2). Each set of elastic positioning components includes a first groove (6) opened in the connector plug (2). A bending spring sheet (11) is glued and fixed to the inner wall of the first groove (6). A trapezoidal locking block (10) is glued and fixed to the side end of the bending spring sheet (11). A slot (9) is opened in the connector socket (1) to engage with the trapezoidal locking block (10). The inclined surfaces of the two trapezoidal blocks (10) are both facing downwards, making them easy to be squeezed by the connector socket (1); In order to facilitate the removal of the connector plug (2), a set of pressing components is provided in each of the two first grooves (6). The two sets of pressing components are used to drive the two trapezoidal blocks (10) back into the two first grooves (6) respectively. The connector plug (2) is provided with a set of extraction components, which are used to quickly pull out the connector plug (2).

2. The connecting mechanism according to claim 1, characterized in that, Each of the extrusion assemblies includes an extrusion plate (12) that is slidably disposed in the first groove (6), wherein the semicircle at the bottom end of the extrusion plate (12) and the side end of the bent spring sheet (11) are in extrusion contact. In this process, by driving the extrusion plate (12) to press down on the movable end of the bent spring sheet (11), the trapezoidal block (10) is brought back into the first groove (6) to release the engagement with the slot (9).

3. The connecting mechanism according to claim 2, characterized in that, The extraction component includes a limiting groove (3) formed on the surface of the connector plug (2), a connecting frame (4) sliding in the limiting groove (3), two connecting rods (8) fixed at the bottom of the connecting frame (4), the two connecting rods (8) moving downwards and penetrating into the two first grooves (6), the two extrusion plates (12) being fixed at the bottom of the two connecting rods (8), and the outer diameter of the connecting frame (4) being larger than the outer diameter of the connector plug (2). By pressing the connecting frame (4), the two connecting rods (8) can be driven to move downward. The two connecting rods (8) respectively drive the two extrusion plates (12) to extrude the ends of the two bent spring sheets (11), and simultaneously release the snap-fit ​​positioning of the two sets of elastic positioning components. At the same time, the connecting frame (4) is limited by the limiting groove (3), which can prevent excessive extrusion of the bent spring sheets (11).

4. A connecting mechanism according to claim 3, characterized in that, The connector plug (2) has a U-shaped frame (5) fixed on its surface, and the four ends of the U-shaped frame (5) and the connecting frame (4) cooperate with each other; When in use, the connector plug (2) can be pulled out by pressing the connector frame (4) downward with your finger. When the connector frame (4) moves to fit with the U-shaped frame (5), the trapezoidal blocks (10) on both sides have been squeezed into the two first grooves (6). The connector plug (2) can be pulled out by pinching the surface of the U-shaped frame (5) downward with your finger and applying upward force.

5. A connecting mechanism according to claim 1, characterized in that, Each of the two first grooves (6) is fixed with a baffle (7), and the two baffles (7) are used to limit the two bent spring pieces (11).

6. An electronic component connector, characterized in that, Includes a connection mechanism as described in any one of claims 1-5.