KR20230028560A - Electrical Connectors and Electronic Devices - Google Patents

Abstract

An electrical connector for electrically connecting a plurality of connected members, the electrical connector including an insulating housing structure (1) and an electrical contact member (2), wherein the insulating housing structure (1) has a plurality of openings (121). ) is installed; The electrical contact member 2 includes a body installed in the insulating housing structure 1 and a plurality of contact portions 22 formed on the body, and each contact portion 22 corresponds to each opening 121 one by one. It penetrates and extends out of the insulating housing structure 1, and the electrical contact member 2 also has elasticity so that each contact portion 22 can be elastically contacted with the corresponding connected member. The electrical connector can not only reduce the occupied space, but also simplify the structure of the device, which is advantageous for assembly and modularization; In addition, quick connections can be realized and contact fitting tolerances can be increased, reducing installation errors and improving installation efficiency. The invention also relates to electronic devices.

Description

Electrical Connectors and Electronic Devices

This application claims the priority of Chinese Application No. 202010771538.8, filed on August 4, 2020, the entire content of which is incorporated into this application by reference.

Embodiments of the present application relate to the field of communication technology, and specifically to electrical connectors and electronic devices.

As communication technology develops rapidly, next-generation devices are gradually developing in the direction of micronization and modularization, and accordingly, demands for use performance, volume size, reliability, and the like of various elements are increasing. An electrical connector is one of the basic electronic elements and is widely applied to communication devices.

Electrical connectors implement signal transmission between PCB boards by electrically connecting a plurality of printed circuit boards (Printed Circuit Boards, hereinafter abbreviated as PCB boards), but conventional electrical connectors mainly use cables to connect two PCB boards. Because of the connection, this connection method is relatively bulky, inconvenient to install, high labor cost, large operation error, and disadvantageous to modularization implementation.

An embodiment of the present application proposes an electrical connector and an electronic device to solve one of the technical problems existing at least in the prior art.

As a technical solution, an embodiment of the present application provides an electrical connector for electrically connecting a plurality of connected members, which includes an insulating housing structure and an electrical contact member, wherein the insulating housing structure has a plurality of openings. is installed; the electrical contact member includes a main body installed in the insulating housing structure and a plurality of contact portions formed in the main body, each of the contact portions correspondingly penetrating each of the openings and extending out of the insulating housing structure; In addition, the electrical contact member has elasticity so that each contact portion can be elastically contacted with the corresponding member to be connected.

As another technical solution, the embodiment of the present application includes a plurality of connected members, and the electronic device for electrically connecting the plurality of connected members further includes the electrical connector provided by the embodiment of the present application. provides more

The accompanying drawings are intended to provide additional understanding of the present application, constitute a part of the specification, and are used to interpret the present application together with the detailed implementation methods below, but do not limit the present application.
1 is a connection process diagram of an electrical connector and a PCB board adopted by an embodiment of the present application.
2A is a structural diagram of an electrical connector provided by an embodiment of the present application.
2B is a side view after connecting the electrical connector adopted in the embodiment of the present application and the PCB board;
3A is a structural diagram of an electrical contact member adopted in an embodiment of the present application.
3B is a structural diagram of a conductive strip of an electrical contact member adopted in an embodiment of the present application.
4 is a structural diagram of a housing base sheet adopted by an embodiment of the present application.
5 is a structural diagram of a cover plate adopted by an embodiment of the present application.
6 is a connection structure diagram of a housing base sheet and a cover plate adopted by an embodiment of the present application.
7A is a structural diagram of the back side of a housing base sheet adopted by an embodiment of the present application.
7B is a plan view of a housing base sheet employed by an embodiment of the present application.

Hereinafter, a detailed description will be given of specific implementations of the present application by combining the accompanying drawings. It should be understood that the specific implementations described herein are only for explaining and interpreting the present application, and not for limiting the present application.

The electrical connector provided by the embodiments of the present application is for electrically connecting a plurality of connected members. For example, as shown in FIG. 1, the connected members are two PCB boards, a first PCB board 3a and a second PCB board 3b, respectively, and the electrical connector is the first PCB board 3a and the second PCB board 3b. It is used to electrically connect the second PCB board 3b.

The electrical connector includes an insulating housing structure 1 and an electrical contact member 2 (see Fig. 3A), wherein the insulating housing structure 1 is made of an insulating material such as a plastic material for example. Further, in this embodiment, as shown in FIG. 2A, the insulating housing structure 1 includes a housing base sheet 11 and a cover plate 12 that are detachably connected, wherein the housing base sheet 11 ) is for fixedly connecting the first PCB substrate 3a and the second PCB substrate 3b, and a receiving groove capable of accommodating the electrical contact member 2 is provided in the housing base sheet 11. The cover plate 12 is for sealing the opening of the receiving groove of the housing base sheet 11 . The first PCB substrate 3a and the second PCB substrate 3b are located in the same plane parallel to each other, and are installed on the side opposite to the receiving groove of the cover plate 12 . In addition, a plurality of openings 121 are installed on the plate surface of the cover plate 12, and as shown in FIG. 3a) or extends to the outside of the insulating housing structure 1 through a plurality of openings 121 so as to be electrically contacted with the second PCB substrate 3b.

By accommodating the electrical contact member 2 therein through the insulating housing structure 1, it is possible to reduce the occupied space and simplify the structure of the device, as well as being advantageous in assembling and modularizing.

As a point to be explained, in this embodiment, in order to realize electrical connection between the parallel and coplanar first PCB substrate 3a and the second PCB substrate 3b, the plurality of openings 121 are all covered by a cover plate ( 12) is located on the plate surface (also penetrates the cover plate 12), but the embodiment of the present application is not limited thereto, and in actual application, each opening 121 according to specific needs is an insulating housing structure It can also be installed in the position on the housing of (1). For example, at least one opening 121 may be installed in the housing base sheet 11 .

As a point to be explained, in this embodiment, the insulating housing structure 1 is composed of the housing base sheet 11 and the cover plate 12, but the embodiment of the present application is not limited thereto, and in actual application, The insulating housing structure 1 may be composed of at least two powders among other arbitrary structures, or may adopt an integral structure to the insulating housing structure 1, and also combine known technical means to the electrical contact member (2). ) may be embedded in the cavity of the insulating housing structure 1 in advance.

As shown in FIG. 3A, the electrical contact member 2 includes a plurality of conductive strips 2a, and the plurality of conductive strips 2a are arranged in the insulating housing structure 1 at intervals. As shown in FIG. 3B, the body 21 of each conductive strip 2a is installed in the insulating housing structure 1, and the body 21 of each conductive strip 2a also has a middle section 211 ) and two edge sections 212a and 212b located on both sides of the middle section 211. Here, the middle section 211 is installed as a support capable of supporting the two edge sections 212a and 212b; The two edge sections 212a and 212b are bent in directions adjacent to each other with respect to the middle section 211 to form a first bend connected to the middle section 211, respectively, and the two edge sections 212a and 212b Contact portions 22a and 22b are formed at one end far from the middle section 211, respectively.

In this embodiment, the two contact portions 22a and 22b are both parts of the conductive strip 2a, and are also bent about the two edge sections 212a and 212b, respectively, to form second bends, respectively. As shown in FIG. 2A , the end of the second bend is located inside the insulating housing structure 1 . In this way, the contact portion 22 can be electrically contacted with the PCB board through the bent region located between both ends thereof, resulting in a smaller contact area compared to the case where the contact portion 22 is electrically contacted with the PCB substrate through the ends of the contact portion 22. Since this becomes larger, the reliability of contact can be improved.

By supporting the two edge sections 212a and 212b by the intermediate section 211, at least the bending area of the two contact portions 22a and 22b can be maintained in a position outside the insulating housing structure 1, The two edge sections 212a and 212b are bent in directions adjacent to each other with respect to the middle section 211, so that the conductive strip 2a may have elasticity as a whole. Specifically, when the PCB substrate is pressed toward the cover plate 12, the two edge sections 212a and 212b of the conductive strip 2a cause elastic deformation with respect to the middle section 211, so that each contact portion 22 apply an elastic force opposite to the pressure to the corresponding PCB substrate, that is, both contact portions 22a and 22b make elastic contact with the corresponding PCB substrate. This elastic contact increases the contact fitting tolerance between the electrical connector and the PCB board (perpendicular to the plate surface direction of the cover plate 12, the tolerance can reach ±1mm), reducing installation errors and improving installation efficiency. can improve

In this embodiment, taking the case of electrically connecting the parallel and coplanar first PCB substrate 3a and the second PCB substrate 3b, for example, a plurality of openings 121 are formed on the plate surface of the cover plate 12. Arranged to form two rows of opening groups, the two rows of opening groups are installed opposite to the first PCB board 3a and the second PCB board 3b, respectively. In addition, each opening 121 in the opening group of one column is arranged in one row in correspondence with each opening 121 of the other opening group in one column. The number of conductive strips 2a is the same as the number of rows in which the openings are arranged, and the two contact portions 22a and 22b of each conductive strip 2a are installed so as to correspond to the two openings 121 in each row. do. In this way, the two contact portions 22a and 22b of each conductive strip 2a are electrically connected to the first PCB board 3a and the second PCB board 3b, respectively, so that the first PCB board 3a ) and electrical connection with the second PCB substrate 3b.

In actual application, a conductive layer for electrical contact with the contact portion 22 corresponding to at least one opening 121 of the opening group of the same row is provided on each PCB board at the same time, and the conductive layer is, for example, a copper foil layer. am. Of course, in order to prevent any contact of the PCB board from being electrically connected to a corresponding contact of the corresponding PCB, for example, a conductive layer may not be provided at a position corresponding to the contact, or an insulating layer may be provided outside the conductive layer.

Through the installation of a plurality of conductive strips 2a, the contact fitting tolerance between the electrical connector and the PCB board is increased (parallel to the plate surface direction of the cover plate 12, the tolerance can reach ±1 mm), thereby reducing the installation error and improve installation efficiency. In addition, in some embodiments, each conductive strip 2a may generate a certain degree of plastic deformation, which is an included angle a between the two edge sections 212a and 212b and the middle section 211 (see FIG. 3B). ), it is possible to obtain a suitable contact force by adjusting the maximum distance at which the contact portion 22 protrudes from the insulating housing structure 1, and excessive plastic deformation does not occur in the conductive strip 2a. The purpose of increasing the contact fitting tolerance (perpendicular to the plate surface direction of the cover plate 12, the tolerance can reach ±1 mm) between the electrical connector and the PCB board can be achieved. For example, the maximum distance may be set to 3 mm by adjusting the size of the included angle a.

As a point to be explained, in this embodiment, the electrical contact member 2 includes a plurality of conductive strips 2a, but the embodiment of the present application is not limited thereto, and in actual application, the electrical contact member 2 ) may adopt other arbitrary structures. For example, the electrical contact member 2 is an integral structure, for example, a single conductive plate similar to the structure of the conductive strips 2a (the width is, for example, the sum of the widths of the entire conductive strips 2a). .

In addition, the conductive strip 2a is applied to electrically connect the parallel and coplanar first PCB substrate 3a and the second PCB substrate 3b, and in actual application, according to changes in the layout method of the PCB substrate, or , or when the connected member is a member other than the PCB board, the structure of the electrical contact member 2 may be adaptively changed. The purpose of the embodiments of the present application can be realized as long as the electrical contact member 2 has the following structures and functions: The electrical contact member 2 is provided in a main body installed in the insulating housing structure 1 and in the main body. It includes a plurality of contact portions formed, and the electrical contact member 2 has elasticity so that each contact portion 22 can be elastically contacted with a corresponding connected member. In this way, there is no need to adopt a connection structure having both male and female ends, and since welding and insertion coupling are omitted, rapid connection can be realized. In addition, since the electrical contact member 2 has elasticity so that each contact portion corresponds to each member to be connected and makes elastic contact, it is possible to increase the contact fitting tolerance between the electrical connector and the member to be connected, thereby reducing installation error. reduced, and the installation efficiency is improved.

As should be further explained, in this embodiment, the middle section 211 of the conductive strip 2a is installed as a support capable of supporting the two edge sections 212a and 212b. Each of the two edge sections 212a and 212b constitutes a first bending part, but the embodiment of the present application is not limited thereto, and the structure of the support part and the first bending part for the support part depend on specific situations in actual application. 1 Design the structure and direction of the refracting part. In addition, the contact portion is formed at one end far from the support portion of each first bent portion.

In this embodiment, as shown in FIG. 4, a first position limiting structure is installed on the inner surface (eg, the bottom surface of the receiving groove) of the housing base sheet 11, the first position limiting structure It is for limiting the position of the electrical contact member 2. For example, the first position limiting structure includes a first position limiting groove formed on the inner surface of the housing base sheet 11 and an inserting member; Correspondingly, the main body of the electrical contact member 2 is formed with a position limiting portion coupled to the first position limit groove and an insertion groove inserted and coupled to the insertion member. As shown in Fig. 4, the first position limiting groove is defined and formed by, for example, first bumps 111a and 111b installed at intervals; The insertion coupling member is composed of, for example, a second bump 112a and a second bump 112b installed on both sides of the first position limiting groove. Correspondingly, as shown in FIG. 3B, a part of the body 21 of the conductive strip 2a (for example, the middle section 211) is located in the first position limiting groove, and the body of the conductive strip 2a Two position limiting bumps 24 are installed on both sides of the body 21, and the two position limiting bumps 24 on each side of the main body 21 include a first bump on the same side as the two position limiting bumps 24. It is possible to limit the movement of the conductive strip 2a along the first position limiting groove by limiting it between the first position limiting grooves. In addition, insertion coupling grooves 23 for inserting and coupling the second bumps 112a and 112b are respectively installed in the two edge sections 212a and 212b of the conductive strip 2a. Rotation of the conductive strip 2a can be limited.

In this embodiment, as shown in FIG. 5, a second position limiting structure is installed on the inner surface of the cover plate 12 (the surface facing the front of the cover plate 12), and the second position limiting structure is for defining the location of the electrical contact member 2. For example, the second position limiting portion includes a second position limiting groove 124 formed on the inner surface of the cover plate 12, and a part of the main body of the electrical contact member 2 is the second position limiting groove ( 124) is located. For example, a portion far from the middle section of the two edge sections 212a and 212b of the conductive strip 2a is located in the second position limiting groove 124.

Through the first position limiting structure and the second position limiting structure, when only one side of the conductive strip 2a is in contact (ie, when only the contact portion on one edge section contacts the PCB board), a single board is bent. This can be prevented from occurring, and thus effective transmission of signals can be ensured even if there is a difference in height between the two PCB substrates. Of course, in actual application, other arbitrary structures of the first position limiting structure and the second position limiting structure may be adopted, as long as the position of the electrical contact member 2 can be limited.

In this embodiment, a plurality of snap-fit members are installed at intervals on the circumferential side of the cover plate 12 . As shown in FIG. 5, for the rectangular cover plate 12, four snap-fit members 125a having a relatively small width are installed on the long side thereof, and one snap-fit member 125a having a relatively large width is installed on the side of the short side ( 125b) is installed. As shown in FIG. 6, the snap-fit member 125a and the snap-fit member 125b are, for example, wedge-shaped blocks, and the height of the wedge-shaped block protruding from the circumferential side of the cover plate 12 is The closer to the inside of the plate surface of (12), the smaller it is.

Correspondingly, as shown in FIG. 4, a plurality of fitting grooves 113 are installed on the inner surface of the housing base sheet 11, and each of the snap-fit members corresponds to each fitting groove 113 one by one. Snap fit attached. The snap fit coupling method is as shown in FIG. 6 . When the cover plate 12 is pressed into the housing base sheet 11, the inclined surface of the wedge-shaped block moves along the inner surface of the housing base sheet 11, and when the wedge-shaped block moves to the fitting groove 113 , At this time, the vertical surface of the wedge-shaped block is coupled with the side surface of the fitting groove 113, making it difficult for the cover plate 12 to be separated from the housing base sheet 11.

The snap-fit coupling method of the wedge-shaped block and the fitting groove is not only advantageous in reducing the difficulty in manufacturing the housing base sheet 11 and the cover plate 12, but also has a simple structure and stable fixation.

In this embodiment, as shown in FIG. 7A , two installation holes ( 115a, 115b) and two positioning members 116a and 116b are installed, and the two installation holes 115a and 115b and the two positioning members 116a and 116b are arranged in a rectangular shape. For example, for a housing base sheet 11 similar to a rectangle, two installation holes 115a and 115b and two positioning members 116a and 116b are disposed at four corners of the housing base sheet 11. do. Here, the two installation holes 115a and 115b are installed diagonally, and each installation hole is for fixed connection with the PCB board through a fastening member (for example, a screw or bolt), and two positioning members 116a, 116b) is installed diagonally, and each positioning member is for limiting the position and direction of the housing base sheet 11 through coupling with the positioning structure installed on the PCB board, and the positioning member is for example It is a positioning pillar, and the positioning structure on the PCB board is, for example, a positioning groove coupled with the positioning pillar.

By installing the two positioning members 116a and 116b diagonally, it is possible to quickly determine the arrangement position and direction of the housing base sheet 11, and accordingly, there is a problem of assembling the connector upside down and rearrangement due to misalignment of the arrangement position. This can effectively solve the problem of low efficiency.

In this embodiment, as shown in FIGS. 7A and 7B, bosses 117a and 117b are installed on the side of the housing base sheet 11 where the two installation holes 115a and 115b are located, respectively. 7b, the outline of the rear face 114 of the housing base sheet 11 becomes similar to an inverted “S” shape through the boss 117a and the boss 117b, which makes the connector assembling upside down. installation efficiency can be improved.

In summary, the electrical connector provided by the embodiments of the present application can reduce the occupied space and simplify the structure of the device by housing the electrical contact member therein through the insulating housing structure, as well as implement assembly and modularization. advantageous to In addition, a plurality of contact parts are formed on the main body of the electrical contact member, and each contact part penetrates through each opening and extends to the outside of the insulating housing structure, so that each connected member is immediately electrically connected only by contacting each contact part. can be implemented, so there is no need to further adopt a connection structure having both male and female ends, and welding and insertion coupling are omitted, so rapid connection can be implemented. In addition, since each electrical contact member has elasticity so that each contact portion can be elastically contacted with each member to be connected, it is possible to increase the contact fitting tolerance between the electrical connector and the member to be connected, thereby reducing installation errors. reduced, and the installation efficiency is improved.

As another technical solution, the embodiments of the present application further provide an electronic device including a plurality of connected members and the electrical connector provided by the embodiments of the present application, wherein the electrical connector electrically connects the plurality of connected members. is to connect to

The member to be connected includes, for example, a printed circuit board (PCB board). Since the optional structure of the PCB board to be combined with the electrical connector has already been described in the text, redundant description will be omitted here.

The electronic device provided by the embodiment of the present application can reduce the occupied space and simplify the structure of the device through the electrical connector provided by the embodiment of the present application, and is advantageous in assembling and implementing modularization. In addition, it is possible to implement quick connection, and it is possible to increase the contact fitting tolerance between the electric connector and the member to be connected, so that installation errors are reduced and installation efficiency is improved.

It will be understood that the above implementation methods are merely exemplary implementation methods adopted to explain the principle of the present application, but the present application is not limited thereto. For those skilled in the art, various modifications and improvements may be made without departing from the spirit and substance of the present application, and such modifications and improvements are also considered to be within the scope of protection of the present application.

Claims (13)

An electrical connector for electrically connecting a plurality of connected members,
The electrical connector includes an insulating housing structure and an electrical contact member, wherein a plurality of openings are provided in the insulating housing structure; the electrical contact member includes a main body installed in the insulating housing structure and a plurality of contact portions formed in the main body, each of the contact portions correspondingly penetrating each of the openings and extending out of the insulating housing structure; Further, the electrical contact member has elasticity so that each of the contact portions can be elastically brought into contact with the corresponding member to be connected. According to claim 1,
wherein the main body includes a support portion and a plurality of first bent portions bent with respect to the support portion, wherein the contact portion is formed at an end of each first bend portion far from the support portion. According to claim 2,
The electrical contact member includes a conductive strip, the conductive strip includes a middle section and two edge sections located on both sides of the middle section, the middle section being installed as the support part; The electrical connector according to claim 1 , wherein the two edge sections are bent in directions adjacent to each other with respect to the middle section, so that each of the edge sections is installed as the first bent portion. According to claim 3,
The electrical connector according to claim 1 , wherein the quantity of the conductive strips is plural, and a plurality of the conductive strips are arranged at intervals in the insulating housing structure. According to claim 2 or 3,
The electrical connector, wherein the contact portion includes a second bent portion bent with respect to the first bent portion, and an end of the second bent portion far from the first bent portion is located inside the insulating housing structure. According to any one of claims 1 to 4,
The electrical connector according to claim 1 , wherein the insulating housing structure includes a housing base sheet and a cover plate detachably connected thereto, and a plurality of the openings are provided in the cover plate and are located on a plate surface of the cover plate. According to claim 6,
A first position limiting structure is installed on the inner surface of the housing base sheet, and a second position limiting structure is installed on the inner surface of the cover plate, and the first position limiting structure and the second position limiting structure are the electric contact member Electrical connector, which is for limiting the position of. According to claim 7,
The first position limiting structure includes a first position limiting groove formed on an inner surface of the housing base sheet and an insertion coupling member, and correspondingly, a position limiting portion coupled to the first position limiting groove on the main body, and An insertion coupling groove inserted into and coupled with the insertion coupling member is formed; wherein the second position limiting portion includes a second position limiting groove formed on an inner surface of the cover plate, and a part of the main body is located in the second position limiting groove. According to claim 6,
A plurality of snap-fit members are installed on the circumferential side of the cover plate at intervals, and correspondingly, a plurality of fitting grooves are installed on the inner surface of the housing base sheet, so that each of the snap-fit members is provided in each of the fitting grooves. Electrical connectors that correspond to each other and are combined with a snap fit. According to claim 6,
Two installation holes and two positioning members are installed on the side facing the cover plate of the housing base sheet, and the two installation holes and two positioning members are arranged in a rectangular shape, and the two installation holes are diagonal. is installed, and each of the installation holes is for fixing and connecting the corresponding connected member through a fastening member; The two positioning members are installed diagonally, and each positioning member is coupled with a positioning member installed on the corresponding connected member to define the position and direction of the housing base sheet. connector. According to any one of claims 1 to 10,
The electrical connector, wherein the number of the contact portions formed on the body of each of the electrical contact members is two, and the two contact portions are elastically contacted with the two connected members, respectively. An electronic device comprising a plurality of connected members and the electrical connector according to any one of claims 1 to 11,
The electronic device, wherein the electrical connector is for electrically connecting a plurality of the connected members. According to claim 12,
The connected member includes a printed circuit board, an electronic device.

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