board end connector

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By introducing a wall component into the board-end connector to protect the conductive terminal overlap structure, the problem of conductive terminals being susceptible to interference from electronic components on the circuit board is solved, ensuring signal transmission stability and structural integrity.

CN224355468UActive Publication Date: 2026-06-12TARNG YU ENTERPRISE +1

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Patent Information

Authority / Receiving Office: CN · China
Patent Type: Utility models(China)
Current Assignee / Owner: TARNG YU ENTERPRISE
Filing Date: 2025-05-20
Publication Date: 2026-06-12

Application Information

Patent Timeline

20 May 2025

Application

12 Jun 2026

Publication

CN224355468U

IPC: H01R13/02; H01R13/40; H01R13/502

AI Tagging

Technical Efficacy Phrases

avoid deformation

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AI Technical Summary

⚠Technical Problem

The conductive terminal overlap structure of the board-end connector is easily deformed by interference from electronic components on the circuit board, resulting in ineffective overlap of the circuit board and affecting signal transmission function.

⚗Method used

A board-end connector is designed, including a board-end connector body, a conductive terminal group, a force-bearing member group, and a wall member group. The wall member extends to the side of the conductive terminal overlap structure to provide protection and prevent the conductive terminal overlap structure from being interfered with by electronic components. It forms a frame-like shell to be positioned on the circuit board and creates an operating space between the connector body and the frame-like shell.

🎯Benefits of technology

This effectively avoids interference from electronic components on the circuit board by the conductive terminal connection structure, ensuring that the conductive terminals can stably connect to the circuit board, maintain signal transmission function, and reduce the impact of deformation of wall components.

✦ Generated by Eureka AI based on patent content.

Smart Images

Figure CN224355468U_ABST

Patent Text Reader

Abstract

This application provides a board-end connector capable of connecting to a circuit board. The board-end connector is provided with a wall component and a conductive terminal to protect the conductive terminal through the wall component, thereby isolating the conductive terminal from the electronic components on the circuit board. This solves the problem that the conductive terminal of the board-end connector is easily deformed due to interference from the electronic components on the circuit board.

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Description

Technical Field

[0001] This application relates to the field of electronic device technology, and more specifically, to a board-end connector that can prevent the conductive terminal overlap structure from deforming due to interference from electronic components. Background Technology

[0002] Note that board-end connectors include conductive terminal overlap structures that can overlap circuit boards to provide signal transmission. Therefore, board-end connectors have been widely used in various electronic devices in recent years.

[0003] Generally speaking, electronic components are installed on the circuit board. Accordingly, when the board-end connector is used inside the electronic device, the board-end connector needs to avoid the electronic components on the circuit board so that the conductive terminal overlap structure can overlap the circuit board without being interfered with by the electronic components.

[0004] However, as the functionality of electronic devices improves, the number of electronic components that need to be placed on the circuit board is increasing. This makes it impossible for the board-end connector to effectively avoid the electronic components on the circuit board. As a result, the conductive terminal overlap structure is easily deformed by the electronic components. This can cause the conductive terminal overlap structure to fail to effectively overlap the circuit board, and the board-end connector will lose its original signal transmission function.

[0005] Based on the foregoing, how to provide a board-end connector to solve the problem that the conductive terminal overlap structure of the aforementioned board-end connector is easily deformed due to interference from electronic components on the circuit board is an urgent issue for those skilled in the art. Utility Model Content

[0006] In view of the shortcomings of the prior art, this application provides a board-end connector capable of connecting to a circuit board. The board-end connector includes: a board-end connector body, the board-end connector body including a first body conductive terminal overlap area, a second body conductive terminal overlap area, a first body force-bearing member overlap area, and a second body force-bearing member overlap area; a board-end conductive terminal group, the board-end conductive terminal group including a first conductive terminal and a second conductive terminal, the first conductive terminal and the second conductive terminal respectively including a first conductive terminal overlap structure and a second conductive terminal overlap structure; and a board-end force-bearing member group, the board-end force-bearing member group including a first force-bearing member and a second force-bearing member, the first force-bearing member... The first and second force-bearing components each include a first force-bearing component overlap structure and a second force-bearing component overlap structure; and a plate-end wall component assembly, the plate-end wall component assembly including a first wall component and a second wall component; wherein, the plate-end connector body respectively engages the first conductive terminal and the second conductive terminal, such that the first conductive terminal overlap structure and the second conductive terminal overlap structure are respectively located in the first body conductive terminal overlap area and the second body conductive terminal overlap area; the plate-end connector body also respectively engages the first force-bearing component and the second force-bearing component, such that the first force-bearing component overlap structure and the second force-bearing component overlap structure are respectively located in the first body force-bearing component overlap area and the second body conductive terminal overlap area. The body supports overlapping area; the first wall component and the second wall component extend from the first body supports overlapping area to the second body supports overlapping area, connecting the first supports and the second supports, so that the plate end wall component group connects to the plate end supports to form a frame-shaped shell; the first supports overlapping structure and the second supports overlapping structure can respectively overlap the circuit board to position the frame-shaped shell on the circuit board; the first conductive terminal overlapping structure and the second conductive terminal overlapping structure can respectively overlap the circuit board to electrically connect the plate end conductive terminal group to the circuit board; the first wall component extends along the first body conductive terminal overlapping area. The second wall member extends along the side of the second conductive terminal overlap structure to protect the second conductive terminal overlap structure and forms a first overlap operation space between the board connector body and the frame housing. The first overlap operation space exposes the first conductive terminal overlap area of the board to provide overlap of the circuit board by operating the first conductive terminal overlap structure.

[0007] Preferably, in the board-end connector of this application, the board-end bearing member assembly and the board-end wall member assembly are integrally formed to constitute the frame-shaped outer shell.

[0008] Preferably, in the board-end connector of this application, the frame-shaped housing is a metal frame-shaped housing.

[0009] Preferably, in the board-end connector of this application, the first force-bearing member and the second force-bearing member respectively include a first force-bearing member lateral extension structure and a second force-bearing member lateral extension structure, the first force-bearing member lateral extension structure and the second force-bearing member lateral extension structure respectively extend laterally, and the board-end connector body further includes a first body lateral support structure and a second body lateral support structure, the first body lateral support structure and the second body lateral support structure respectively support the first force-bearing member lateral extension structure and the second force-bearing member lateral extension structure in a longitudinal direction; wherein, the longitudinal direction and the lateral direction are substantially perpendicular and orthogonal.

[0010] Preferably, in the board-end connector of this application, the first force-bearing member and the second force-bearing member respectively include a first force-bearing member longitudinal extension structure and a second force-bearing member longitudinal extension structure, the first force-bearing member longitudinal extension structure and the second force-bearing member longitudinal extension structure extend longitudinally, and the board-end connector body further includes a first body longitudinal support structure and a second body longitudinal support structure, the first body longitudinal support structure and the second body longitudinal support structure respectively support the first force-bearing member longitudinal extension structure and the second force-bearing member longitudinal extension structure laterally.

[0011] Preferably, in the board-end connector of this application, the longitudinal extension structure of the first force-bearing member is substantially perpendicular to the lateral extension structure of the first force-bearing member; and the longitudinal extension structure of the second force-bearing member is substantially perpendicular to the lateral extension structure of the second force-bearing member.

[0012] Preferably, in the board-end connector of this application, the first wall component includes a first wall component protrusion structure, the first wall component protrusion structure being adjacent to the first overlapping operation space to provide structural reinforcement; and the second wall component includes a second wall component protrusion structure, the second wall component protrusion structure being adjacent to the second overlapping operation space to provide structural reinforcement.

[0013] Preferably, in the board-end connector of this application, the first body conductive terminal overlap area and the second body conductive terminal overlap area are respectively located on the long side of the board-end connector body; and the first body force-bearing member overlap area and the second body force-bearing member overlap area are respectively located on the short side of the board-end connector body.

[0014] Preferably, in the board-end connector of this application, the first wall component and the second wall component each include a first wall component overlapping structure and a second wall component overlapping structure, the first wall component overlapping structure and the second wall component overlapping structure being able to overlap the circuit board respectively, so as to position the frame-shaped shell on the circuit board.

[0015] Preferably, in the board-end connector of this application, the first wall component overlap structure and the second wall component overlap structure are respectively located on the long side of the board-end connector body.

[0016] Compared to prior art, this application provides a board-end connector capable of connecting to a circuit board. The board-end connector includes a wall member and a conductive terminal connection structure. The wall member extends to the side of the conductive terminal connection structure to provide protection for the conductive terminal connection structure, thereby isolating the conductive terminal connection structure from the electronic components on the circuit board and preventing the side of the conductive terminal connection structure from being deformed by interference from the electronic components on the circuit board. Attached Figure Description

[0017] The above and other aspects, features and other advantages of this application can be more clearly understood through the disclosure of the embodiments in the drawings of this application.

[0018] Figure 1 The diagram shown is a first-view perspective perspective of an embodiment of the board-end connector of this application.

[0019] Figure 2 The diagram shown is a second-view perspective perspective of an embodiment of the board-end connector of this application.

[0020] Figure 3 The diagram shown is a first-view perspective perspective of an embodiment of the board-end connector of this application.

[0021] Figure 4 The diagram shown is a second-view perspective perspective of an embodiment of the board-end connector of this application.

[0022] Figure 5 The diagram shown is a top view of an embodiment of the board-end connector of this application.

[0023] Figure 6 Displayed as Figure 5 The diagram shows a cross-sectional view of a portion of the board-end connector components cut along line segment AA.

[0024] Figure 7 Displayed as Figure 5 The diagram shows a cross-sectional view of a portion of the board-end connector components cut along line segment BB.

[0025] Figure 8 The diagram shown is a bottom view of an embodiment of the board-end connector of this application.

[0026] Component designation explanation

[0027] 1. Board-end connector

[0028] 10. Board-end connector body

[0029] 101 First body lateral support structure

[0030] 102 Second body lateral support structure

[0031] 103 First body longitudinal support structure

[0032] 104 Second body longitudinal support structure

[0033] 11. Board-end conductive terminal group

[0034] 111 First conductive terminal

[0035] 1111 First conductive terminal overlap structure

[0036] 112 Second conductive terminal

[0037] 1121 Second conductive terminal overlap structure

[0038] 12 Plate End Bearing Components

[0039] 121 First bearing component

[0040] 1211 First load-bearing member lap joint structure

[0041] 1212 First bearing member laterally extended structure

[0042] 1213 Longitudinal extension structure of the first load-bearing member

[0043] 122 Second bearing member

[0044] 1221 Second load-bearing member lap joint structure

[0045] 1222 Second bearing member lateral extension structure

[0046] 1223 Second bearing member longitudinal extension structure

[0047] 13. Panel end wall component assembly

[0048] 131 First wall component

[0049] 1311 First wall component raised structure

[0050] 1312 First wall component lap joint structure

[0051] 132 Second wall components

[0052] 1321 Second wall component raised structure

[0053] 1322 Second wall component lap joint structure

[0054] 2 Circuit Boards

[0055] 21 Electronic Components

[0056] Z11 First Body Conductive Terminal Overlap Area

[0057] Z12 Second Body Conductive Terminal Overlap Area

[0058] Z21 First Body Bearing Component Overlap Area

[0059] Z22 Second Body Bearing Component Overlap Area

[0060] F Frame-shaped casing

[0061] S1 First Overlapping Operation Space

[0062] S2 Second Overlap Operation Space

[0063] DH Lateral

[0064] DV Vertical Detailed Implementation

[0065] The following description, accompanied by accompanying drawings, illustrates the technical content of this application through specific embodiments. Those skilled in the art can easily understand the other advantages and effects of this application from the content disclosed in this specification. This application can be implemented or applied through other different specific embodiments. Various details in this specification can be modified and changed based on different viewpoints and applications without departing from the spirit of this application. In particular, the proportional relationships and relative positions of the various components in the drawings are for illustrative purposes only and do not represent the actual implementation of this application.

[0066] This application provides a board-end connector that can connect to a circuit board and is provided with a wall component and a conductive terminal connection structure. The wall component provides protection for the conductive terminal connection structure, thereby isolating the conductive terminal connection structure from the electronic components on the circuit board. This solves the problem that the conductive terminal connection structure of the aforementioned board-end connector is easily deformed due to interference from the electronic components on the circuit board.

[0067] For the technical concept of the board-end connector in this application, please refer to the following: Figures 1 to 8 The following is an example description.

[0068] At Figures 1 to 8 In the illustrated embodiment, at least one board-end connector 1 is disclosed, which is capable of connecting to a circuit board 2, on which at least one electronic component 21 is disposed. The board-end connector 1 includes: a board-end connector body 10, a board-end conductive terminal group 11, a board-end force-bearing member group 12, and a board-end wall member group 13.

[0069] Regarding the board-end connector body 10, the board-end connector body 10 is made of insulating material, for example, and the board-end connector body 10 includes a first body lateral support structure 101, a second body lateral support structure 102, a first body longitudinal support structure 103, a second body longitudinal support structure 104, a first body conductive terminal overlap area Z11, a second body conductive terminal overlap area Z12, a first body force-bearing member overlap area Z21, and a second body force-bearing member overlap area Z22.

[0070] It should be noted that, in the above embodiments, the first body conductive terminal overlap area Z11 and the second body conductive terminal overlap area Z12 are respectively located on the long side of the board end connector body 10; and the first body force-bearing member overlap area Z21 and the second body force-bearing member overlap area Z22 are respectively located on the short side of the board end connector body 10.

[0071] Regarding the board-end conductive terminal group 11, the board-end conductive terminal group 11 includes a first conductive terminal 111 and a second conductive terminal 112. The first conductive terminal 111 and the second conductive terminal 112 are made of conductive metal, for example, to transmit signals, and the first conductive terminal 111 and the second conductive terminal 112 respectively include a first conductive terminal overlap structure 1111 and a second conductive terminal overlap structure 1121.

[0072] It should be noted that the number of the first conductive terminal 111 and the second conductive terminal 112 is not limited to one (that is, the number of the first conductive terminal 111 and the second conductive terminal 112 can be selected as multiple).

[0073] Regarding the plate end bearing member assembly 12, the plate end bearing member assembly 12 includes a first bearing member 121 and a second bearing member 122. The first bearing member 121 includes a first bearing member overlapping structure 1211, a first bearing member lateral extension structure 1212, and a first bearing member longitudinal extension structure 1213. The second bearing member 122 includes a second bearing member overlapping structure 1221, a second bearing member lateral extension structure 1222, and a second bearing member longitudinal extension structure 1223.

[0074] It should be noted that the number of the first force-bearing member 121 and the second force-bearing member 122 is not limited to one (that is, the number of the first force-bearing member 121 and the second force-bearing member 122 can be selected as multiple).

[0075] It should be noted that, in the above embodiments, the first force-bearing member lateral extension structure 1212 and the second force-bearing member lateral extension structure 1222 extend in a lateral direction DH, respectively. Correspondingly, the first body lateral support structure 101 and the second body lateral support structure 102 support the first force-bearing member lateral extension structure 1212 and the second force-bearing member lateral extension structure 1222 in a longitudinal direction DV, respectively. In this way, the first force-bearing member 121 and the second force-bearing member 122 can be effectively prevented from deforming under the force in the longitudinal direction DV.

[0076] In addition, the first longitudinal extension structure 1213 and the second longitudinal extension structure 1223 of the force-bearing member extend in the longitudinal direction DV, respectively. Correspondingly, the first longitudinal support structure 103 and the second longitudinal support structure 104 of the body support the first longitudinal extension structure 1213 and the second longitudinal support structure 1223 in the transverse direction DH, respectively. In this way, the first force-bearing member 121 and the second force-bearing member 122 can be effectively prevented from deforming under the force in the transverse direction DH.

[0077] Optionally, the longitudinal DV and the transverse DH are substantially perpendicular and orthogonal. The longitudinal extension structure 1213 of the first force-bearing member is substantially perpendicular and orthogonal to the transverse extension structure 1212 of the first force-bearing member. The longitudinal extension structure 1223 of the second force-bearing member is substantially perpendicular and orthogonal to the transverse extension structure 1222 of the second force-bearing member.

[0078] Regarding the panel end wall component group 13, the panel end wall component group 13 includes a first wall component 131 and a second wall component 132.

[0079] It should be noted that the number of the first wall component 131 and the second wall component 132 is not limited to one (that is, the number of the first wall component 131 and the second wall component 132 can be selected as multiple).

[0080] In the above embodiments, the board-end connector body 10 respectively engages the first conductive terminal 111 and the second conductive terminal 112, such that the first conductive terminal overlap structure 1111 and the second conductive terminal overlap structure 1121 are respectively located in the first body conductive terminal overlap area Z11 and the second body conductive terminal overlap area Z12. Additionally, the board-end connector body 10 also respectively engages the first force-bearing member 121 and the second force-bearing member 122, such that the first force-bearing member overlap structure 1211 and the second force-bearing member overlap structure 1221 are respectively located in the first body force-bearing member overlap area Z21 and the second body force-bearing member overlap area Z22.

[0081] At Figure 2 and Figure 8 In the embodiment shown, the first wall component 131 and the second wall component 132 extend from the first body bearing component overlap area Z21 to the second body bearing component overlap area Z22, respectively, and connect the first bearing component 121 and the second bearing component 122, so that the plate end wall component group 13 connects to the plate end bearing component group 12 to form a frame-shaped shell F.

[0082] It should be noted that, in the above embodiments, the plate end bearing member assembly 12 and the plate end wall member assembly 13 are integrally formed to constitute the frame-shaped outer shell F. However, this is not a limitation; the plate end bearing member assembly 12 and the plate end wall member assembly 13 can be selectively formed separately to constitute the frame-shaped outer shell F in a multi-piece manner.

[0083] The first force-bearing member overlapping structure 1211 and the second force-bearing member overlapping structure 1221 can respectively overlap the circuit board 2 to position the frame-shaped housing F on the circuit board 2. In addition, the first conductive terminal overlapping structure 1111 and the second conductive terminal overlapping structure 1121 can respectively overlap the circuit board 2 so that the board-end conductive terminal group 11 can be electrically connected to the circuit board 2 to transmit signals, thereby ensuring that the signal transmission function of the board-end connector 1 meets expectations.

[0084] The first wall member 131 extends along the side of the first body conductive terminal overlap area Z11 to provide protection for the first conductive terminal overlap structure 1111, thereby isolating the first conductive terminal overlap structure 1111 from the electronic components 21 on the circuit board 2, and forming a first overlap operation space S1 between the board end connector body 10 and the frame housing F. The first overlap operation space S1 can expose the first body conductive terminal overlap area Z11 to provide a way to operate the first conductive terminal overlap structure 1111 to overlap the circuit board 2.

[0085] It should be noted that, in the above embodiments, the first wall component 131 includes a first wall component protrusion structure 1311. The first wall component protrusion structure 1311 is adjacent to the first overlapping operation space S1 to provide structural reinforcement for the first wall component 131 and reduce the degree of deformation of the first wall component 131 under stress. In this way, it can be avoided that the first wall component 131 enters the first overlapping operation space S1 after being deformed under stress, thus affecting the operation of the first conductive terminal overlapping structure 1111 to overlap the circuit board 2.

[0086] The second wall member 132 extends along the side of the second body conductive terminal overlap area Z12 to provide protection for the second conductive terminal overlap structure 1121, thereby isolating the second conductive terminal overlap structure 1121 from the electronic components 21 on the circuit board 2, and forming a second overlap operation space S2 between the board end connector body 10 and the frame housing F. The second overlap operation space S2 can expose the second body conductive terminal overlap area Z12 to provide an opportunity to operate the second conductive terminal overlap structure 1121 to overlap the circuit board 2.

[0087] It should be noted that, in the above embodiment, the second wall component 132 includes a second wall component protrusion structure 1321. The second wall component protrusion structure 1321 is adjacent to the second overlapping operation space S2 to provide structural reinforcement for the second wall component 132 and reduce the degree of deformation of the second wall component 132 under stress. In this way, it can be avoided that the second wall component 132 enters the second overlapping operation space S2 after being deformed under stress, thus affecting the operation of the second conductive terminal overlapping structure 1121 to overlap the circuit board 2.

[0088] Optionally, the frame-shaped outer shell F is a metal frame-shaped outer shell, so that the structural strength of the frame-shaped outer shell F meets the expectations, and prevents the electronic components 21 on the circuit board 2 from entering the first body conductive terminal overlap area Z11 or the second body conductive terminal overlap area Z12, thereby avoiding the first conductive terminal overlap structure 1111 or the second conductive terminal overlap structure 1121 from being deformed by interference from the electronic components 21 on the circuit board 2.

[0089] At Figures 3 to 6 In the illustrated embodiment, the first wall component 131 and the second wall component 132 each include a first wall component overlapping structure 1312 and a second wall component overlapping structure 1322. The first wall component overlapping structure 1312 and the second wall component overlapping structure 1322 can respectively overlap the circuit board 2, thereby positioning the first wall component 131 and the second wall component 132 constituting the frame-shaped housing F on the circuit board 2, preventing the frame-shaped housing F from moving relative to the circuit board 2. This allows the frame-shaped housing F to be supported by the circuit board 2, preventing the electronic components 21 on the circuit board 2 from entering the first body conductive terminal overlapping area Z11 or the second body conductive terminal overlapping area Z12, thereby preventing the first conductive terminal overlapping structure 1111 or the second conductive terminal overlapping structure 1121 from being deformed due to interference from the electronic components 21 on the circuit board 2.

[0090] Optionally, the first wall component overlap structure 1312 and the second wall component overlap structure 1322 are respectively located on the long side of the plate end connector body 10.

[0091] It should be noted that the board-end connector of this application can also omit some components and is not limited to the above embodiments.

[0092] For example, the board-end connector of this application can optionally include: a board-end connector body, a board-end conductive terminal group, a board-end force-bearing member group, and a board-end wall member group. The board-end connector body includes a first body conductive terminal overlap area, a second body conductive terminal overlap area, a first body force-bearing member overlap area, and a second body force-bearing member overlap area. The board-end conductive terminal group includes a first conductive terminal and a second conductive terminal, each including a first conductive terminal overlap structure and a second conductive terminal overlap structure. The board-end force-bearing member group includes a first force-bearing member and a second force-bearing member, each including a first force-bearing member overlap structure and a second force-bearing member overlap structure. The board-end wall component assembly includes a first wall component and a second wall component. The board-end connector body respectively engages a first conductive terminal and a second conductive terminal, such that the first conductive terminal overlap structure and the second conductive terminal overlap structure are located in the first body conductive terminal overlap area and the second body conductive terminal overlap area, respectively. The board-end connector body also respectively engages a first force-bearing member and a second force-bearing member, such that the first force-bearing member overlap structure and the second force-bearing member overlap structure are located in the first body force-bearing member overlap area and the second body force-bearing member overlap area, respectively. The first wall component and the second wall component extend from the first body force-bearing member overlap area to the second body force-bearing member overlap area, connecting the first force-bearing member and the second force-bearing member, thus connecting the board-end wall component assembly to the board-end force-bearing component assembly to form a frame-like shell. The first force-bearing member overlap structure and the second force-bearing member overlap structure can respectively overlap the circuit board to... A frame-shaped housing is positioned on a circuit board; a first conductive terminal overlap structure and a second conductive terminal overlap structure can overlap the circuit board respectively, so that the board-end conductive terminal group is electrically connected to the circuit board; a first wall member extends along the side of the first body conductive terminal overlap area to provide protection for the first conductive terminal overlap structure, and forms a first overlap operation space between the board-end connector body and the frame-shaped housing, the first overlap operation space can expose the first body conductive terminal overlap area to provide overlap of the circuit board by operating the first conductive terminal overlap structure; and a second wall member extends along the side of the first body conductive terminal overlap area to provide protection for the second conductive terminal overlap structure, and forms a second overlap operation space between the board-end connector body and the frame-shaped housing, the second overlap operation space can expose the second body conductive terminal overlap area to provide overlap of the circuit board by operating the second conductive terminal overlap structure.

[0093] In summary, this application provides a board-end connector capable of connecting to a circuit board. The board-end connector includes a wall component and a conductive terminal connection structure. The wall component extends to the side of the conductive terminal connection structure to provide protection for the conductive terminal connection structure, thereby isolating the conductive terminal connection structure from the electronic components on the circuit board and preventing the side of the conductive terminal connection structure from being deformed by interference from the electronic components on the circuit board.

[0094] The above embodiments are merely illustrative of the principles and effects of this application and are not intended to limit this application. Anyone skilled in the art can modify and alter the above embodiments without departing from the spirit and scope of this application. Therefore, the scope of protection of this application should be as set forth in the claims.

Claims

1. A board-end connector, characterized in that, The board-end connector is capable of connecting to a circuit board, and the board-end connector includes: A board-end connector body, the board-end connector body including a first body conductive terminal overlap area, a second body conductive terminal overlap area, a first body force-bearing member overlap area and a second body force-bearing member overlap area; A plate-end conductive terminal group, the plate-end conductive terminal group including a first conductive terminal and a second conductive terminal, the first conductive terminal and the second conductive terminal respectively including a first conductive terminal overlap structure and a second conductive terminal overlap structure; A plate end bearing member assembly, the plate end bearing member assembly comprising a first bearing member and a second bearing member, the first bearing member and the second bearing member respectively comprising a first bearing member overlap structure and a second bearing member overlap structure; and A panel-end wall component assembly, wherein the panel-end wall component assembly includes a first wall component and a second wall component; wherein, The board-end connector body respectively engages the first conductive terminal and the second conductive terminal, such that the first conductive terminal overlap structure and the second conductive terminal overlap structure are respectively located in the first body conductive terminal overlap area and the second body conductive terminal overlap area. The board-end connector body is also respectively engaged with the first force-bearing member and the second force-bearing member, such that the first force-bearing member overlap structure and the second force-bearing member overlap structure are respectively located in the first body force-bearing member overlap area and the second body force-bearing member overlap area; The first wall component and the second wall component extend from the overlap area of the first body bearing component to the overlap area of the second body bearing component, and connect the first bearing component and the second bearing component, so that the panel end wall component group connects to the panel end bearing component group to form a frame-shaped shell; The first force-bearing member overlapping structure and the second force-bearing member overlapping structure can respectively overlap the circuit board to position the frame-shaped shell on the circuit board; The first conductive terminal overlap structure and the second conductive terminal overlap structure can respectively overlap the circuit board, so that the board end conductive terminal group is electrically connected to the circuit board; The first wall member extends along the side of the first body conductive terminal overlap area to provide protection for the first conductive terminal overlap structure, and forms a first overlap operation space between the board connector body and the frame-shaped housing. This first overlap operation space exposes the first body conductive terminal overlap area, providing a space for operating the first conductive terminal overlap structure to overlap the circuit board; and The second wall member extends along the side of the second body conductive terminal overlap area to provide protection for the second conductive terminal overlap structure, and forms a second overlap operation space between the board end connector body and the frame housing. The second overlap operation space can expose the second body conductive terminal overlap area to provide an opportunity to overlap the circuit board by operating the second conductive terminal overlap structure.

2. The board-end connector according to claim 1, characterized in that, The plate end bearing component assembly and the plate end wall component assembly are integrally formed to constitute the frame-shaped outer shell.

3. The board-end connector according to claim 1, characterized in that, The frame-shaped outer shell is a metal frame-shaped outer shell.

4. The board-end connector according to claim 1, characterized in that, The first force-bearing member and the second force-bearing member each include a first force-bearing member lateral extension structure and a second force-bearing member lateral extension structure, which extend laterally. The board end connector body also includes a first body lateral support structure and a second body lateral support structure, which support the first force-bearing member lateral extension structure and the second force-bearing member lateral extension structure longitudinally. The longitudinal direction is substantially perpendicular to the lateral direction.

5. The board-end connector according to claim 4, characterized in that, The first force-bearing member and the second force-bearing member each include a first force-bearing member longitudinal extension structure and a second force-bearing member longitudinal extension structure, which extend longitudinally. The board end connector body also includes a first body longitudinal support structure and a second body longitudinal support structure, which support the first force-bearing member longitudinal extension structure and the second force-bearing member longitudinal extension structure laterally.

6. The board-end connector according to claim 5, characterized in that, The longitudinal extension structure of the first force-bearing member is substantially perpendicular to the transverse extension structure of the first force-bearing member; and the longitudinal extension structure of the second force-bearing member is substantially perpendicular to the transverse extension structure of the second force-bearing member.

7. The board-end connector according to claim 1, characterized in that, The first wall component includes a first wall component raised structure, the first wall component raised structure being adjacent to the first overlapping operation space to provide structural reinforcement; and the second wall component includes a second wall component raised structure, the second wall component raised structure being adjacent to the second overlapping operation space to provide structural reinforcement.

8. The board-end connector according to claim 1, characterized in that, The first body conductive terminal overlap area and the second body conductive terminal overlap area are respectively located on the long side of the board end connector body; and the first body force-bearing member overlap area and the second body force-bearing member overlap area are respectively located on the short side of the board end connector body.

9. The board-end connector according to claim 1, characterized in that, The first wall component and the second wall component each include a first wall component overlapping structure and a second wall component overlapping structure. The first wall component overlapping structure and the second wall component overlapping structure can respectively overlap the circuit board to position the frame-shaped shell on the circuit board.

10. The board-end connector according to claim 9, characterized in that, The first wall component overlap structure and the second wall component overlap structure are respectively located on the long side of the plate end connector body.