CN112928517B - Connector assembly - Google Patents

Abstract

A connector assembly having a female end connector and a male end connector that are mateable. The female end connector can hold the female end circuit board in the female end connector, and the conductive terminals of the female end connector can adapt to the deformation of the female end circuit board under the condition of not influencing the butt joint of the male end connector, so that the conductive terminals of the female end connector can be lapped with the female end circuit board, and the conductive terminals of the female end connector can be butt jointed with the male end connector. The male end connector can contain the male end circuit board therein, and the conductive terminal of the male end connector can adapt to the deformation of the male end circuit board under the condition of not influencing the butt joint of the female end connector, so that the conductive terminal of the male end connector can be in lap joint with the male end circuit board, and the conductive terminal of the male end connector can be in butt joint with the female end connector. Therefore, the invention can solve various technical problems derived from the displacement of the conductive terminals of the connector caused by processing errors or deformation of the circuit board.

Description

Connector assembly

Technical Field

The present invention relates to a connector assembly, and more particularly, to a connector assembly capable of solving the problem of displacement of conductive terminals of a connector caused by processing errors or deformation of a circuit board.

Background

In general, a plurality of circuit boards are electrically connected to each other, and the circuit boards are connected to each other through conductive terminals of a plurality of connectors that can be mated with each other, so as to electrically connect the circuit boards to each other. However, in recent years, as functions of electronic devices are continuously evolved, signals to be transmitted on a circuit board are more and more diversified, and the number of conductive terminals on a connector tends to increase significantly, so that when a circuit board has a processing error or deformation, the conductive terminals of the connector are often forced to shift, and the circuit board cannot be smoothly lapped and cannot be smoothly butted with other connectors, thereby causing an abnormal signal transmission among the circuit boards, further affecting the normal operation of the electronic devices, and even causing the damage of the electronic devices.

Therefore, how to ensure that the connector can smoothly overlap the circuit board and be connected with other connectors when the circuit board has processing errors or deformation is a subject matter which is urgently concerned by people in the technical field.

Disclosure of Invention

In view of the above disadvantages of the prior art, the present invention provides a connector assembly for electrically connecting a female-side circuit board and a male-side circuit board, the connector assembly comprising: a female end connector, the female end connector comprising: the female end insulating seat is provided with a female end accommodating structure and a female end butt joint structure, and the female end accommodating structure is used for accommodating the female end circuit board; and at least one female terminal conductive terminal, the female terminal conductive terminal having a female terminal overlapping portion, a female terminal conductive connecting portion and a female terminal conductive terminal embedding portion, the female terminal conductive terminal embedding portion being adapted to embed the female terminal insulating base to position the female terminal overlapping portion and the female terminal conductive connecting portion, respectively, such that the female terminal overlapping portion is exposed to a predetermined position of the female terminal accommodating structure to overlap the female terminal circuit board, and the female terminal conductive connecting portion is exposed to a predetermined position of the female terminal abutting structure, the female terminal conductive terminal embedding portion being elastically connected to the female terminal overlapping portion, such that the female terminal overlapping portion is adapted to the female terminal circuit board to be deformed by a force applied thereto with the female terminal conductive terminal embedding portion as a fulcrum; a male end connector for mating with the female end connector, the male end connector comprising: the male end insulation seat is provided with a male end accommodating structure and a male end butt joint structure, and the male end accommodating structure is used for accommodating the male end circuit board; and at least one male terminal, the male terminal has a male terminal lap portion, a male terminal connecting portion and a male terminal embedding portion, the male terminal embedding portion is used for embedding the male terminal insulating seat to respectively position the male terminal lap portion and the male terminal connecting portion, so that the male terminal lap portion is exposed at a preset position of the male terminal accommodating structure to lap the male terminal circuit board, and the male terminal connecting portion is exposed at a preset position of the male terminal butt structure, the male terminal embedding portion is elastically connected with the male terminal lap portion, so that the male terminal lap portion can adapt to the male terminal circuit board to deform under stress by taking the male terminal embedding portion as a fulcrum; in the process of butt joint of the male end connector and the female end connector, the male end butt joint structure is in butt joint with the female end butt joint structure, so that the male end guide connection part is in guide joint with the female end guide connection part, and the male end circuit board is electrically connected with the female end circuit board.

Preferably, the at least one female terminal conductive terminal is a plurality of female terminal conductive terminals, and the plurality of female terminal conductive terminals are arranged in a female terminal arc-shaped area on the female terminal insulating base according to the arrangement rule; the at least one male terminal conductive terminal is a plurality of male terminal conductive terminals, and the plurality of male terminal conductive terminals are arranged in a male terminal arc-shaped area on the male terminal insulating base according to the arrangement rule so as to provide foolproof effect in the butt joint process of the male terminal connector and the female terminal connector.

Preferably, the female terminal insulating base is further provided with a female terminal insulating base embedding structure, and the female terminal insulating base embedding structure is used for embedding the female terminal conductive terminal embedding part so as to position the female terminal conductive terminal embedding part; the male terminal insulating base is also provided with a male terminal insulating base embedding structure which is used for embedding the male terminal conductive terminal embedding part so as to position the male terminal conductive terminal embedding part.

Preferably, the female end overlapping part has a female end elastic overlapping structure, and the female end elastic overlapping structure is used for elastically overlapping the female end circuit board so as to ensure that the female end overlapping part overlaps the female end circuit board; the male end overlapping part is provided with a male end elastic overlapping structure, and the male end elastic overlapping structure is used for elastically overlapping the male end circuit board so as to ensure that the male end overlapping part overlaps the male end circuit board.

Preferably, the female end connecting part has a female end elastic connecting structure for elastically connecting the male end connecting part to ensure the female end connecting part to connect the male end connecting part; the male end connecting part is provided with a male end elastic connecting structure, and the male end elastic connecting structure is used for elastically connecting the female end connecting part so as to ensure that the male end connecting part is connected with the female end connecting part in a connecting way.

Preferably, the female terminal overlapping portion has a female terminal elastic abutting structure for elastically abutting against the female terminal conductive terminal embedding portion to provide an elastic force to force the female terminal overlapping portion to be exposed to the predetermined position of the female terminal accommodating structure to overlap the female terminal circuit board; the male end lapping part is provided with a male end elastic butting structure which is used for elastically butting the male end insulating seat so as to provide elasticity to force the male end lapping part to be exposed out of the preset position of the male end containing structure to lap the male end circuit board.

Preferably, the male terminal conductive terminal is a male terminal conductive terminal body, and the male terminal conductive terminal body forms the male terminal overlapping part, the male terminal conductive part and the male terminal conductive terminal embedding part respectively through a bending mode; the female terminal conductive terminal is a female terminal conductive terminal body, and the female terminal conductive terminal body forms the female terminal lap joint part, the female terminal lead joint part and the female terminal conductive terminal embedding part respectively through a bending mode.

Preferably, the female terminal conductive terminal further has a female terminal material strip combining portion for combining the female terminal material strip so as to position the female terminal conductive terminal by means of the female terminal material strip; the male terminal conductive terminal also has a male terminal material belt combining part, and the male terminal material belt combining part is used for combining the male terminal material belt so as to position the male terminal conductive terminal by means of the male terminal material belt.

Preferably, the female terminal insulating base further has a female terminal spacing structure, and the female terminal spacing structure spaces the female terminal accommodating structure from the female terminal abutting structure, so as to avoid interference between the female terminal overlapping portion and the female terminal connecting portion; the male end insulating seat is also provided with a male end separation structure which separates the male end accommodating structure and the male end butt joint structure so as to avoid interference between the male end lap joint part and the male end guide connection part.

Preferably, the female end insulating base is provided with a female end through channel, and the female end through channel provides the female end conducting part to penetrate through the female end insulating base to be exposed; the male end insulation seat is provided with a male end penetrating channel, and the male end penetrating channel provides the male end connecting part to penetrate through the male end insulation seat to be exposed.

Compared with the prior art, the connector assembly provided by the invention has the female end connector and the male end connector which can be butted. The female end connector can accommodate the female end circuit board in the female end connector, and the conductive terminals of the female end connector can adapt to the deformation of the female end circuit board under the condition that the butt joint of the male end connector is not influenced, so that the conductive terminals of the female end connector can be lapped with the female end circuit board, and the conductive terminals of the female end connector can be butt jointed with the male end connector. The male end connector can contain the male end circuit board therein, and the conductive terminal of the male end connector can adapt to the deformation of the male end circuit board under the condition of not influencing the butt joint of the female end connector, so that the conductive terminal of the male end connector can be in lap joint with the male end circuit board, and the conductive terminal of the male end connector can be in butt joint with the female end connector. Therefore, the invention can solve various technical problems derived from the displacement of the conductive terminals of the connector caused by processing errors or deformation of the circuit board.

Drawings

FIG. 1 is a schematic diagram of the present invention connector assembly.

Fig. 2 is an exploded view of the connector assembly of fig. 1 in a first perspective view.

Fig. 3 is an exploded view of the connector assembly of fig. 1 in a second perspective.

Fig. 4 is a top view of the connector assembly of fig. 1.

Fig. 5A is a cross-sectional perspective view of the connector assembly of fig. 4 taken along line AA.

Fig. 5B is a cross-sectional view of the connector assembly of fig. 4 taken along line AA.

Fig. 5C is a cross-sectional view of the connector assembly of fig. 4 taken along line BB.

Fig. 6A-6B are side views of the connector assembly, respectively.

FIG. 7A is a cross-sectional perspective view of the connector assembly of FIG. 6A with some components omitted and taken along line CC.

Fig. 7B is a cross-sectional view of the connector assembly of fig. 6A taken along line CC.

Fig. 7C is a cross-sectional view of the connector assembly of fig. 6B taken along line DD.

FIG. 8 is a schematic diagram of the inventive female connector.

Figure 9A is a bottom view of the female connector shown in figure 8.

Fig. 9B is a cross-sectional view of the link shown in fig. 9A cut along the EE line segment.

Fig. 10 is a first perspective view of the female terminal signal terminal in a first state.

Fig. 11 is a second perspective view of the female terminal signal terminal in the first state.

Fig. 12 is a first perspective view of the female signal terminal in a second state.

Fig. 13 is a second perspective view of the female terminal in a second state.

Fig. 14 is a schematic diagram of the inventive male connector.

Fig. 15 is a bottom view of the male end connector of fig. 14.

Fig. 16A is a top view of the male connector of fig. 14.

Fig. 16B is a cross-sectional view of the male end connector of fig. 16A taken along line FF.

Fig. 17 is a perspective view of the male signal terminal in a first state.

Fig. 18 is a perspective view of the male signal terminal in a second state.

Fig. 19 is a schematic diagram of the use of male and female signal terminals.

Description of the symbols:

1. connector assembly

11. Female terminal connector

111. Female terminal insulating base

1111. Female end containing structure

1112. Female end butt joint structure

1113. Arc-shaped region of female end

1114. Female terminal insulating base embedding structure

1115. Female terminal separation structure

1116. Female end through channel

112. Female terminal conductive terminal

1121. Female terminal lap joint part

11211. Female end elastic lapping structure

11212. Female end elastic abutting structure

1122. Female end connecting part

11221. Female end elastic guide connection structure

1123. Female terminal conductive terminal embedding part

1124. Female end material belt combining part

12. Male end connector

121. Public end insulating seat

1211. Male end containing structure

1212. Male end butt joint structure

1213. Male end arc shaped region

1214. Male end insulation seat embedding structure

1215. Male end separation structure

1216. Passageway is worn to establish by public end

122. Male terminal conductive terminal

1221. Overlapping part of male end

12211. Male end elastic lapping structure

1222. Male end connecting part

12221. Male end elastic connection structure

12222. Male end elastic abutting structure

1223. Male terminal conductive terminal embedding part

1224. Male end material belt combining part

2. Mother terminal circuit board

3. Male end circuit board

4. Female end material belt

5. Male end material belt

Detailed Description

The technical contents of the present invention will be described with reference to specific embodiments in the following description, and other advantages and effects of the present invention will be easily understood by those skilled in the art from the disclosure of the present specification, which is accompanied by the drawings. The invention is capable of other and different embodiments and of being practiced or of being carried out in various ways. Various modifications and alterations may be made in the details of this description based on the different perspectives and applications without departing from the spirit of the invention. In particular, the proportion and the relative position of the various elements in the drawings are provided for illustrative purposes only, and do not represent the actual situation for which the present invention is implemented.

In addition, the structures or components with the same or similar functions in the following embodiments will be described by using the same symbols, and the description of the same or equivalent technical features will be omitted so as to make the disclosure more concise and clear.

Please refer to fig. 1 to 19 together for the technical idea of the present invention.

The invention provides a connector assembly 1, which is mainly used for electrically connecting a female end circuit board 2 and a male end circuit board 3, wherein the connector assembly 1 comprises a female end connector 11 and a male end connector 12 which can be butted with each other. Female end connector 11 holds female end circuit board 2, and public end connector 12 holds public end circuit board 3, and wherein, female end connector 11 and public end connector 12 electric connection female end circuit board 2 and public end circuit board 3 respectively, when female end connector 11 butt joint public end connector 12, female end circuit board 2 and public end circuit board 3 can reach electric connection.

In the present invention, the female end connector 11 comprises: a female terminal insulating base 111 and at least one female terminal conductive terminal 112. The female terminal insulator base 111 has a female terminal receiving structure 1111, a female terminal mating structure 1112 for mating with the male terminal connector 12, and a female terminal insulator base embedding structure 1114 for embedding the female terminal conductive terminal 112. The female terminal 112 has a female contact portion 1121, a female conductive portion 1122, and a female terminal fitting portion 1123. The female end receiving structure 1111 is used for receiving the female end circuit board 2, so as to prevent the female end circuit board 2 from leaving the female end connector 11, thereby ensuring that the female end connector 11 can be electrically connected to the female end circuit board 2, and the female end circuit board 2 can be protected or protected from moisture so as to increase the service life due to being received in the female end receiving structure 1111.

In addition, the male end connector 12 includes: a male terminal insulating base 121 and at least one male terminal conductive terminal 122. The male terminal insulating base 121 has a male terminal receiving structure 1211, a male terminal mating structure 1212 for mating with the female terminal connector 11, and a male terminal insulating base embedding structure 1214 for embedding the male terminal conductive terminal 122. The male end receiving structure 1211 is used for receiving the male end circuit board 3 to prevent the male end circuit board 3 from leaving the male end connector 12, so as to ensure that the male end connector 12 can be electrically connected to the male end circuit board 3, and the male end circuit board 3 can be protected or protected from moisture due to being received in the male end receiving structure 1211, so as to increase the service life.

The male terminal 122 has a male contact portion 1221, a male contact portion 1222 and a male terminal insertion portion 1223. In the process of butt joint between the male connector 12 and the female connector 11, the male end butt joint structure 1212 is butt joint with the female end butt joint structure 1112, so that the male end lead 1222 is lead-connected to the female end lead 1122, so as to electrically connect the male end circuit board 3 and the female end circuit board 2.

Preferably, the female insulation socket 111 further has a female spacing structure 1115, wherein the female spacing structure 1115 spaces the female receiving structure 1111 from the female mating structure 1112, so as to prevent the female connecting portion 1122 and the female connecting portion 1121 from being deformed or displaced due to interference; the male insulator 121 also has a male spacing structure 1215, and the male spacing structure 1215 spaces the male receiving structure 1211 from the male mating structure 1212 to prevent the male bridging portion 1221 and the male lead portion 1222 from interfering with each other and deforming or shifting.

The female terminal embedding portion 1123 is configured to embed the female terminal insulating base embedding structure 1114 of the female terminal insulating base 111, so as to position the female terminal overlapping portion 1121 and the female terminal conducting portion 1122, respectively, such that the female terminal overlapping portion 1121 is exposed at a predetermined position of the female terminal accommodating structure 1111 to overlap the female terminal circuit board 2, and the female terminal conducting portion 1122 is exposed at a predetermined position of the female terminal abutting structure 1112, and accordingly, the female terminal insulating base 111 has a female terminal through channel 1116 for allowing the female terminal conducting portion 1122 to penetrate through the female terminal insulating base 111 and expose. In addition, the female terminal embedding portion 1123 is elastically connected to the female terminal overlapping portion 1121, so that the female terminal overlapping portion 1121 can adapt to the deformation of the female terminal circuit board 2 by using the female terminal embedding portion 1123 as a fulcrum, and thus, when the female terminal circuit board 2 is subjected to a processing error or deformation, the female terminal conductive terminal 112 is not easily forced to move, and the female terminal conductive terminal 112 can be ensured to overlap the female terminal circuit board 2, and the female terminal conductive terminal 112 can be ensured to be abutted to the male terminal connector 12, thereby solving various technical problems derived from the displacement of the conductive terminals of the connector due to the processing error or deformation of the circuit board.

In addition, the at least one female terminal conductive terminal 112 is a plurality of female terminal conductive terminals 112, and the plurality of female terminal conductive terminals 112 are disposed in the female terminal arc-shaped area 1113 on the female terminal insulating base 111 according to the arrangement rule, so as to provide fool-proofing in the process of butt-joint between the male terminal connector 12 and the female terminal connector 11, and further enable the female terminal circuit board 2 to be stressed in multiple directions to be positioned at a proper position in the female terminal accommodating structure 1111, and further enable the female terminal circuit board 2 with processing errors or deformation to be positioned in the female terminal accommodating structure 1111.

The male terminal embedding portion 1223 is used for embedding the male terminal insulating base embedding structure 1214 of the male terminal insulating base 121, so as to position the male terminal overlapping portion 1221 and the male terminal conducting portion 1222, respectively, such that the male terminal overlapping portion 1221 is exposed at a predetermined position of the male terminal receiving structure 1211 to overlap the male terminal circuit board 3, and the male terminal conducting portion 1222 is exposed at a predetermined position of the male terminal abutting structure 1212, and accordingly, the male terminal insulating base 121 has a male terminal through channel 1216 for allowing the male terminal conducting portion 1222 to penetrate through the male terminal insulating base 121 and to be exposed. The male terminal embedding portion 1223 is elastically connected to the male terminal overlapping portion 1221, so that the male terminal overlapping portion 1221 can adapt to the deformation of the male circuit board 3 by using the male terminal embedding portion 1223 as a fulcrum, and thus, when the male circuit board 3 has a processing error or deformation, the male terminal 122 is not easily forced to move, and the male terminal 122 is ensured to overlap the male circuit board 3, and the male terminal 122 is also ensured to be abutted to the female terminal connector 11, thereby solving various technical problems caused by the displacement of the conductive terminal of the connector due to the processing error or deformation of the circuit board.

In addition, the at least one male terminal conductive terminal 122 is a plurality of male terminal conductive terminals 122, and the plurality of male terminal conductive terminals 122 are disposed in the male arc-shaped area 1213 on the male insulating base 121 according to the arrangement rule, so as to provide fool-proofing during the process of butt-joint between the male terminal connector 12 and the female terminal connector 11, and further, the male circuit board 3 can be forced in multiple directions to be positioned at a proper position in the male receiving structure 1211, and further, the male circuit board 3 with processing errors or deformation can be centered in the male receiving structure 1211.

In the present invention, the female terminal 112 is an integrally formed female terminal conductive body, and preferably, the female terminal conductive body is bent to form the female overlapping portion 1121, the female terminal connecting portion 1122 and the female terminal embedding portion 1123, respectively. Preferably, the female overlapping portion 1121 has a female elastic abutting structure 11212, and the female elastic abutting structure 11212 is used for elastically abutting against the female conductive terminal embedding portion 1123, so as to provide an elastic force to force the female overlapping portion 1121 to be exposed at a predetermined position of the female accommodating structure 1111 to elastically overlap the female circuit board 2, so that the female circuit board 2 is forced to be positioned at the appropriate position in the female accommodating structure 1111. The female terminal connecting portion 1122 has a female terminal elastic connecting structure 11221, and the female terminal elastic connecting structure 11221 is used for elastically connecting the male terminal connecting portion 1222 so as to ensure that the female terminal connecting portion 1122 is connected to the male terminal connecting portion 1222.

The male terminal 122 is a male terminal body formed integrally, and preferably, the male terminal body is bent to form a male connecting portion 1221, a male connecting portion 1222 and a male terminal embedding portion 1223. Preferably, the male connecting portion 1221 has a male elastic connecting structure 12211, and the male elastic connecting structure 12211 is used for elastically contacting the male insulating base 121 to provide an elastic force to expose the male connecting portion 1221 to a predetermined position of the male receiving structure 1211 for elastically connecting the male circuit board 3, so that the male circuit board 3 is forced to be positioned at a proper position of the male receiving structure 1211. The male lead 1222 has a male elastic lead 12221, and the male elastic lead 12221 is used for elastically leading the female lead 1122, so as to ensure that the male lead 1222 is led to the female lead 1122.

It should be noted that the female terminal conductive terminals 112 further have a female terminal tape combining portion 1124, and the female terminal tape combining portion 1124 is used for combining the female terminal tape 4 to position the female terminal conductive terminals 112 by the female terminal tape 4. The male terminal conductive terminal 122 further has a male terminal material tape combining portion 1224, the male terminal material tape combining portion 1224 is used for combining the male terminal material tape 5 so as to position the male terminal conductive terminal 122 by means of the male terminal material tape 5.

In summary, the connector assembly of the present invention has a female end connector and a male end connector that are mateable. The female end connector can contain the female end circuit board in the female end connector, and the conductive terminals of the female end connector can adapt to the deformation of the female end circuit board under the condition that the butt joint of the male end connector is not influenced, so that the conductive terminals of the female end connector can be in lap joint with the female end circuit board, and the female end circuit board is stressed to be positioned at a proper position in the female end containing structure. The male end connector can contain the male end circuit board in the male end connector, and the conductive terminal of the male end connector can adapt to the deformation of the male end circuit board under the condition of not influencing the butt joint of the female end connector, so that the conductive terminal of the male end connector can be in lap joint with the male end circuit board, the male end circuit board is stressed to be positioned at a proper position in the male end containing structure, and the conductive terminal of the male end connector can be in butt joint with the female end connector. Therefore, the invention can solve various technical problems derived from the displacement of the conductive terminals of the connector caused by processing errors or deformation of the existing circuit board.

Claims (9)

1. A connector assembly for electrically connecting a female end circuit board and a male end circuit board, the connector assembly comprising:

a female end connector, the female end connector comprising:

the female end insulation seat is provided with a female end accommodating structure and a female end butt joint structure, and the female end accommodating structure is used for accommodating the female end circuit board; and

the female terminal conductive terminal is provided with a female terminal lapping part, a female terminal conducting part and a female terminal conductive terminal embedding part, the female terminal conductive terminal embedding part is used for embedding the female terminal insulating seat so as to respectively position the female terminal lapping part and the female terminal conducting part, so that the female terminal lapping part is exposed out of a preset position of the female terminal accommodating structure to lap the female terminal circuit board, the female terminal conducting part is also exposed out of a preset position of the female terminal butt joint structure, and the female terminal conductive terminal embedding part is elastically connected with the female terminal lapping part so that the female terminal lapping part can adapt to the deformation of the female terminal circuit board by taking the female terminal conducting terminal embedding part as a fulcrum; the female end lap joint part is provided with a female end elastic lap joint structure which is used for elastically lapping the female end circuit board so as to ensure that the female end lap joint part laps the female end circuit board;

a male end connector for mating with the female end connector, the male end connector comprising:

the male end insulation seat is provided with a male end accommodating structure and a male end butt joint structure, and the male end accommodating structure is used for accommodating the male end circuit board; and

at least one male terminal conductive terminal, the male terminal conductive terminal having a male terminal overlapping portion, a male terminal connecting portion and a male terminal embedding portion, the male terminal insulating seat being embedded in the male terminal conductive terminal embedding portion to position the male terminal overlapping portion and the male terminal connecting portion, respectively, such that the male terminal overlapping portion is exposed to a predetermined position of the male terminal receiving structure to overlap the male terminal circuit board, and the male terminal connecting portion is exposed to a predetermined position of the male terminal abutting structure, the male terminal embedding portion being elastically connected to the male terminal overlapping portion, such that the male terminal overlapping portion can adapt to the male terminal circuit board to deform under stress with the male terminal embedding portion as a fulcrum; the male end lapping part is provided with a male end elastic lapping structure which is used for elastically lapping the male end circuit board so as to ensure that the male end lapping part is lapped with the male end circuit board; wherein the content of the first and second substances,

in the process of butting the male end connector and the female end connector, the male end butting structure is butted with the female end butting structure, so that the male end guide connection part is in guide connection with the female end guide connection part, and the male end circuit board is electrically connected with the female end circuit board; wherein the content of the first and second substances,

the at least one female terminal conductive terminal is a plurality of female terminal conductive terminals, and female terminal elastic lapping structures of the plurality of female terminal conductive terminals respectively push against two opposite sides of the female terminal circuit board laterally so as to position the female terminal circuit board in the female terminal insulating base through the plurality of female terminal conductive terminals; and

the at least one male terminal conductive terminal is a plurality of male terminal conductive terminals, and the male terminal elastic lapping structures of the plurality of male terminal conductive terminals are respectively laterally pushed against two opposite sides of the male terminal circuit board so as to position the male terminal circuit board in the male terminal insulating base through the plurality of male terminal conductive terminals.

2. The connector assembly of claim 1, wherein said plurality of female terminal conductive terminals are arranged in a female terminal arc region on said female terminal insulator base according to a layout rule; the plurality of male end conductive terminals are arranged in a male end arc-shaped area on the male end insulating base according to the arrangement rule so as to provide fool-proofing in the butt joint process of the male end connector and the female end connector.

3. The connector assembly of claim 2, wherein the female terminal insulator block further has a female terminal insulator block mounting structure for mounting the female terminal conductive terminal mounting portion to position the female terminal conductive terminal mounting portion; the male terminal insulating base is also provided with a male terminal insulating base embedding structure which is used for embedding the male terminal conductive terminal embedding part so as to position the male terminal conductive terminal embedding part.

4. The connector assembly of claim 1, wherein the female lead connection has a female resilient lead connection structure for resiliently guiding the male lead connection to ensure that the female lead connection is guided to the male lead connection; the male end guide connection part is provided with a male end elastic guide connection structure, and the male end elastic guide connection structure is used for elastically guiding and connecting the female end guide connection part so as to ensure that the male end guide connection part is guided and connected with the female end guide connection part.

5. The connector assembly of claim 1, wherein the female mating portion has a female resilient abutment structure for resiliently abutting the female conductive terminal engaging portion to provide a resilient force to force the female mating portion to be exposed at a predetermined location of the female receiving structure for mating with the female circuit board; the male end lapping part is provided with a male end elastic butting structure which is used for elastically butting the male end insulating seat so as to provide elasticity to force the male end lapping part to be exposed out of the preset position of the male end accommodating structure to lap the male end circuit board.

6. The connector assembly of claim 1, wherein said male terminal conductive contacts are male terminal conductive contact bodies that are bent to form said male mating portions, said male conductive contact portions and said male conductive contact insertion portions, respectively; the female terminal conductive terminal is a female terminal conductive terminal body, and the female terminal conductive terminal body forms the female terminal lap joint part, the female terminal guide connection part and the female terminal conductive terminal embedding part respectively in a bending mode.

7. The connector assembly of claim 1, wherein said female terminal conductive terminals further have female terminal strip engaging portions for engaging a female terminal strip to provide for positioning of said female terminal conductive terminals by said female terminal strip; the male end conductive terminal is also provided with a male end material belt combining part which is used for combining a male end material belt so as to position the male end conductive terminal by means of the male end material belt.

8. The connector assembly of claim 1, wherein said female insulator seat further includes a female spacing structure that spaces said female receiving structure from said female mating structure to prevent interference between said female mating portion and said female mating portion; the male end insulating seat is also provided with a male end separation structure which separates the male end accommodating structure and the male end butt joint structure so as to avoid interference between the male end lap joint part and the male end guide joint part.

9. The connector assembly of claim 1, wherein the female terminal insulator block has a female terminal through passage providing the female terminal guide portion to be exposed through the female terminal insulator block; the male end insulating base is provided with a male end penetrating channel, and the male end penetrating channel provides the male end connecting part to penetrate through the male end insulating base to be exposed.

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