CN218513717U

CN218513717U - Multi-piece electrical connector

Info

Publication number: CN218513717U
Application number: CN202220823092.3U
Authority: CN
Inventors: 黄睦容; 陈盈仲
Original assignee: Tarng Yu Enterpries Co Ltd
Current assignee: Tarng Yu Enterpries Co Ltd
Priority date: 2022-02-25
Filing date: 2022-04-11
Publication date: 2023-02-21
Anticipated expiration: 2032-04-11
Also published as: TWM630184U

Abstract

The utility model provides a many formula electric connectors, many formula electric connectors can borrow by cross-over connection conductive member, reach electric connector upper portion conductive terminal electric connection each other, consequently, this application need not additionally add the cross-over connection ware just can reach electric connector upper portion conductive terminal electric connection each other, and lets the electronic equipment who sets up many formula electric connectors of this application can last towards frivolous short and small direction development.

Description

Multi-piece electrical connector

Technical Field

The present invention relates to the field of electronic devices, and more particularly, to a multi-piece electrical connector capable of electrically connecting a plurality of conductive terminals to each other.

Background

However, after the design of the conventional electrical connector is completed, the number and the structure of the conductive terminals are determined and cannot be customized and adjusted, so that the signal transmission requirements of the electronic device are difficult to meet, and the technical (functional) development of the electronic device is limited.

In addition, the electrical connector is prone to generate coupled crosstalk interference when transmitting high-speed signals, so that interference attenuation is generated when transmitting high-speed signals, and therefore, some conductive terminals (such as ground terminals) on the electrical connector may require electrical connection to suppress the generation of crosstalk interference. To this end, the industry can only choose to add a Jumper (Jumper) that is matched with the electrical connector to electrically connect the conductive terminals of the electrical connector, however, the addition of the Jumper will occupy the internal space of the electronic device, which will result in the electronic device not developing in a light, thin, short and small direction.

In view of the above, it is a technical issue to overcome the need of providing an electrical connector that can achieve electrical connection between partial conductive terminals of the electrical connector without using a jumper so that electronic equipment can continue to be light, thin, small and compact.

SUMMERY OF THE UTILITY MODEL

In view of the above-described shortcomings of the prior art, the present application provides a multi-piece electrical connector comprising: a main side electrical connector sub-assembly having a main side electrical connector sub-assembly front end insulator, a main side electrical connector sub-assembly rear end insulator, at least one main side first conductive terminal and a plurality of main side second conductive terminals, wherein the main side electrical connector sub-assembly front end insulator and the main side electrical connector sub-assembly rear end insulator engage the front end and the rear end of each of the main side second conductive terminals, respectively; a bridging conductive member; and an assembly member, wherein the front end of the assembly member is inserted into the jumper conductive member and the main side electrical connector sub-member front end insulator respectively, so that the assembly member engages the front end of the jumper conductive member and the main side electrical connector sub-member, and the rear end of the assembly member is inserted into the main side electrical connector sub-member rear end insulator so that the assembly member engages the rear end of the main side electrical connector sub-member, so that the jumper conductive member, the assembly member and the main side electrical connector sub-member are assembled into an electrical connector assembly, and in the electrical connector assembly, the assembly member abuts against the jumper conductive member, so that the jumper conductive member crosses over the main side first conductive terminal to overlap each main side second conductive terminal, so that each main side second conductive terminal is electrically connected to form a jumper circuit.

Preferably, in the multi-piece electrical connector of the present application, the bridging conductive member is a metal bridging conductor.

Preferably, in the multi-piece electrical connector of the present application, the bridging conductive member has a plurality of bridging conductive member resilient arms, each of the bridging conductive member resilient arms providing resilient engagement with one of the plurality of primary side second conductive terminals.

Preferably, in the multi-piece electrical connector of the present application, the assembly member has an assembly member front end insulating plug and an assembly member rear end metal plug, in the electrical connector assembly, the assembly member rear end metal plug engages the assembly member front end insulating plug, and the assembly member front end insulating plug engages the jumper conductive member and the main side electrical connector sub-member front end insulator, respectively, such that the assembly member engages the jumper conductive member and the front end of the main side electrical connector sub-member, and the assembly member rear end metal plug engages the main side electrical connector sub-member rear end insulator, such that the assembly member engages the rear end of the main side electrical connector sub-member.

Preferably, in the multi-piece electrical connector of the present application, the rear metal plug of the assembling member is connected to each of the second conductive terminals on the main side, so that the second conductive terminals on the main side are electrically connected to form the jumper circuit.

Preferably, in the multi-piece electrical connector of the present application, the assembly member has an assembly member front end insulating plug and an assembly member rear end insulating plug, in the electrical connector assembly, the assembly member rear end insulating plug engages the assembly member front end insulating plug, and the assembly member front end insulating plug engages the jumper conductive member and the main side electrical connector sub-member front end insulator, respectively, such that the assembly member engages the jumper conductive member and the front end of the main side electrical connector sub-member, and the assembly member rear end insulating plug engages the main side electrical connector sub-member rear end insulator, such that the assembly member engages the rear end of the main side electrical connector sub-member.

Preferably, in the multi-piece electrical connector of the present application, the assembly member has an assembly member front end insulating plug, the main side electrical connector sub-member rear end insulator has a main side electrical connector sub-member rear end insulating plug structure, in the electrical connector assembly, the assembly member front end insulating plug is plugged into the jumper conductive member and the main side electrical connector sub-member front end insulator respectively, so that the assembly member engages the jumper conductive member and the front end of the main side electrical connector sub-member, and the main side electrical connector sub-member rear end insulating plug structure is plugged into the assembly member front end insulating plug so that the assembly member engages the rear end of the main side electrical connector sub-member.

Preferably, in the multi-piece electrical connector of the present application, the main-side second conductive terminal has a main-side second conductive terminal bending structure, and the main-side second conductive terminal bending structure is provided to bend the main-side second conductive terminal, so that the main-side electrical connector sub-component rear end insulator is located at a predetermined position, so that the rear end of the assembly component can be inserted into the main-side electrical connector sub-component rear end insulator.

Preferably, in the multi-piece electrical connector of the present application, the electrical connector further comprises a primary side electrical connector sub-member, the secondary side electrical connector sub-member has a primary side electrical connector sub-member front end insulator, at least a primary side first conductive terminal and a plurality of secondary side second conductive terminals, wherein the secondary side electrical connector sub-member front end insulator engages with a front end of each of the secondary side second conductive terminals; the front end of the assembling member is further inserted into the front end insulator of the secondary side electrical connector sub-member, so that the assembling member is engaged with the front end of the secondary side electrical connector sub-member, and the cross-over conductive member, the assembling member, the primary side electrical connector sub-member and the secondary side electrical connector sub-member are assembled into the electrical connector assembly.

Still further, the present application provides a multi-piece electrical connector comprising: a main side electrical connector sub-assembly having a main side electrical connector sub-assembly front end insulator, a main side electrical connector sub-assembly rear end insulator, at least one main side first conductive terminal and a plurality of main side second conductive terminals, wherein the main side electrical connector sub-assembly front end insulator and the main side electrical connector sub-assembly rear end insulator engage the front end and the rear end of each of the main side second conductive terminals, respectively; and a bridging conductive member; the main side electrical connector sub-component rear end insulator is respectively inserted into the jumper conductive member and the main side electrical connector sub-component front end insulator so that the main side electrical connector sub-component is engaged with the jumper conductive member, so that the main side electrical connector sub-component and the jumper conductive member are assembled into an electrical connector assembly, and in the electrical connector assembly, the main side electrical connector sub-component rear end insulator abuts against the jumper conductive member so that the jumper conductive member strides over the main side first conductive terminal to stride over each main side second conductive terminal, so that each main side second conductive terminal is electrically connected to form a jumper circuit.

Preferably, in the multi-piece electrical connector of the present application, the bridging conductive member has a plurality of bridging conductive member spring arms, each of the bridging conductive member spring arms providing resilient engagement with one of the plurality of primary side second conductive terminals.

Preferably, in the multi-piece electrical connector of the present application, the main-side second conductive terminal has a main-side second conductive terminal bending structure, and the main-side second conductive terminal bending structure provides bending of the main-side second conductive terminal to position the main-side electrical connector sub-member rear end insulator, so that the main-side electrical connector sub-member rear end insulator can be respectively inserted into the bridging conductive member and the main-side electrical connector sub-member front end insulator.

Preferably, in the multi-piece electrical connector of the present application, the multi-piece electrical connector further comprises a primary side electrical connector sub-member, the secondary side electrical connector sub-member having a primary side electrical connector sub-member front end insulator, at least a primary side first conductive terminal and a plurality of secondary side second conductive terminals, wherein the secondary side electrical connector sub-member front end insulator engages with a front end of each of the secondary side second conductive terminals; the rear end insulator of the primary side electrical connector sub-component is further inserted into the front end insulator of the secondary side electrical connector sub-component, so that the bridging conductive member, the assembling member, the primary side electrical connector sub-component and the secondary side electrical connector sub-component are assembled into the electrical connector assembly, and in the electrical connector assembly, the rear end insulator of the primary side electrical connector sub-component abuts against the bridging conductive member, so that the bridging conductive member crosses over the primary side first conductive terminals to lap over the secondary side second conductive terminals, so that the secondary side second conductive terminals are electrically connected to form the bridging circuit.

Compared with the prior art, the multi-piece electric connector provided by the application can achieve the electric connection between the conductive terminals on the electric connector by the bridging conductive member, so that the electric connection between the conductive terminals on the electric connector can be achieved without additionally arranging the bridging connector, and the electronic equipment provided with the multi-piece electric connector can be continuously developed towards the light, thin and small directions. In addition, the multi-piece electric connector provided by the application is formed by assembling a plurality of pieces of components, so that after the design of the electric connector is finished, the number and the structure of the conductive terminals of the electric connector can be customized and adjusted by adjusting or replacing the assembling components, so as to meet the special requirements and development of electronic equipment.

Drawings

The above and other aspects, features and other advantages of the present application will be more clearly understood from the following description of the embodiments taken in conjunction with the accompanying drawings.

Fig. 1 is a perspective view of an embodiment of the multi-piece electrical connector of the present application.

Fig. 2 is a perspective view of an embodiment of the multi-piece electrical connector of the present application.

Fig. 3 is an exploded view of an embodiment of the multi-piece electrical connector of the present application.

Fig. 4 is an exploded view of an embodiment of the multi-piece electrical connector of the present application.

Fig. 5 is a schematic diagram of the insertion of the components of the multi-piece electrical connector of the present application.

Fig. 6 is an assembly schematic view of an embodiment of the multi-piece electrical connector of the present application.

Fig. 7 is an assembly view of an embodiment of the multi-piece electrical connector of the present application.

Fig. 8 is an assembly view of an embodiment of the multi-piece electrical connector of the present application.

Fig. 9 is an assembly schematic view of an embodiment of the multi-piece electrical connector of the present application.

Fig. 10 is an assembly schematic view of an embodiment of the multi-piece electrical connector of the present application.

Fig. 11 is an assembly view of an embodiment of the multi-piece electrical connector of the present application.

Fig. 12 is an assembly view of an embodiment of the multi-piece electrical connector of the present application.

Fig. 13 is an assembly view of an embodiment of the multi-piece electrical connector of the present application.

Fig. 14 is an assembly view of an embodiment of the multi-piece electrical connector of the present application.

Fig. 15 is an assembly view of an embodiment of the multi-piece electrical connector of the present application.

Fig. 16 is an assembly view of an embodiment of the multi-piece electrical connector of the present application.

Fig. 17 is an assembled schematic view of an embodiment of the multi-piece electrical connector of the present application.

Fig. 18 is an assembly view of an embodiment of the multi-piece electrical connector of the present application.

Fig. 19 is an assembly view of an embodiment of the multi-piece electrical connector of the present application.

Fig. 20 is an assembled schematic view of an embodiment of the multi-piece electrical connector of the present application.

Fig. 21 is an assembly view of an embodiment of the multi-piece electrical connector of the present application.

Fig. 22 is a top schematic view of an embodiment of the multi-piece electrical connector of the present application.

Fig. 23 is a cross-sectional view of the multi-piece electrical connector of fig. 22 taken along line DD.

Fig. 24 is a cross-sectional view of the multi-piece electrical connector of fig. 22 taken along line EE.

Fig. 25 is a schematic bottom view of an embodiment of the multi-piece electrical connector of the present application.

Fig. 26 is a schematic cross-sectional view of the multi-piece electrical connector of fig. 25 taken along line FF.

Fig. 27 is an assembly view of an embodiment of the multi-piece electrical connector of the present application.

Fig. 28 is an assembly view of an embodiment of the multi-piece electrical connector of the present application.

Fig. 29 is an assembly view of an embodiment of the multi-piece electrical connector of the present application.

Fig. 30 is an assembly view of an embodiment of the multi-piece electrical connector of the present application.

Fig. 31 is an assembly view of an embodiment of the multi-piece electrical connector of the present application.

Fig. 32 is an assembly view of an embodiment of the multi-piece electrical connector of the present application.

Fig. 33 is an assembly view of an embodiment of the multi-piece electrical connector of the present application.

Description of the symbols

1. Multi-piece electrical connector

11. Primary side electrical connector sub-structure

111. Main side electrical connector sub-component front end insulator

112. Main side electrical connector sub-component back end insulator

1121. Main side electric connector sub-component rear end insulation plug-in structure

113. First conductive terminal on main side

114. Second conductive terminal on main side

1141. Bending structure of second conductive terminal on main side

12. Bridging conductive member

121. Bridging conductive member spring arm

13. Assembly component

131. Front end insulation plug-in body of assembly component

132. Metal plug-in body at rear end of assembly component

133. Rear end insulation plug-in body of assembly component

14. Secondary side electrical connector sub-component

141. Secondary side electrical connector sub-component front end insulator

142. Sub-side first conductive terminal

143. Second conductive terminal on secondary side

Detailed Description

The following description of the present application will be provided in conjunction with the accompanying drawings, and it is to be understood that other advantages and effects of the present application will become apparent to those skilled in the art from the description herein. The application is capable of other and different embodiments or applications. Various modifications and changes may be made in the details of the present description without departing from the spirit of the application, which is intended to be limited only by the scope of the claims. In particular, the relative positions and proportions of the various elements in the drawings are exemplary only, and are not intended to represent the actual conditions in which the present application is practiced.

In addition, in order to make the disclosure more concise and clearer, components with the same or similar functions in the following embodiments will be denoted by the same reference numerals, and descriptions of the same or equivalent features will be omitted.

For the description of the embodiments disclosed in the present application, please refer to fig. 1 to fig. 32.

First embodiment

As shown in fig. 1 to 4, the present embodiment provides a multi-piece electrical connector 1, the multi-piece electrical connector 1 including: a primary side electrical connector sub-member 11, a jumper conductive member 12, an assembly member 13 and a secondary side electrical connector sub-member 14. The main-side electrical connector sub-member 11 has a main-side electrical connector sub-member front end insulator 111, a main-side electrical connector sub-member rear end insulator 112, at least one main-side first conductive terminal 113 and a plurality of main-side second conductive terminals 114, wherein the main-side first conductive terminal 113 and the main-side second conductive terminal 114 provide transmission signals, and the main-side electrical connector sub-member front end insulator 111 and the main-side electrical connector sub-member rear end insulator 112 respectively engage the front end and the rear end of each main-side second conductive terminal 114 to respectively provide positioning for the front end and the rear end of each main-side second conductive terminal 114. The bridging conductive member 12 is, for example, a metal bridging conductor, and has a plurality of bridging conductive member elastic arms 121, so that each bridging conductive member elastic arm 121 elastically overlaps one of the plurality of main-side second conductive terminals 114, thereby ensuring the overlapping of the bridging conductive member 12 to each main-side second conductive terminal 114.

The secondary electrical connector sub-component 14 has a secondary electrical connector sub-component front end insulator 141, at least a primary first conductive terminal 142 and a plurality of secondary second conductive terminals 143. The secondary side first conductive terminals 142 and the primary side secondary side second conductive terminals 143 provide transmission signals, and the secondary side electrical connector sub-member front end insulator 141 engages the front end of each secondary side second conductive terminal 143 to provide a location for the front end of each secondary side second conductive terminal 143.

In this embodiment, as shown in fig. 15, the front end of the assembling member 13 is inserted into the bridging conductive member 12 and the front end insulator 111 of the main side electrical connector sub-member, respectively, so that the assembling member 13 is engaged with the front ends of the bridging conductive member 12 and the main side electrical connector sub-member 11. As shown in fig. 21, the rear end of the assembling member 13 is inserted into the rear end insulator 112 of the main side electrical connector sub-member to engage the assembling member 13 with the rear end of the main side electrical connector sub-member 11, so that the assembling member 13 can be used to position the front ends of the main side electrical connector sub-member 11 and the bridging conductive member 12, the assembling member 13 and the main side electrical connector sub-member 11, respectively, to assemble the bridging conductive member 12, the assembling member 13 and the main side electrical connector sub-member 11 into the electrical connector assembly. Therefore, the multi-piece electrical connector 1 of the present application is formed by assembling the bridging conductive member 12, the assembling member 13, the main-side electrical connector sub-member 11, and other members, so that after the design of the electrical connector is completed, the number and structure of the conductive terminals of the electrical connector can still be customized and adjusted by adjusting the assembling member, thereby satisfying the special requirements and development of the electronic device.

It should be noted that, in the electrical connector assembly of the present embodiment, the main-side second conductive terminal 114 has a main-side second conductive terminal bending structure 1141, so that the main-side second conductive terminal 114 is bent by the main-side second conductive terminal bending structure 1141, and the bent body of the main-side second conductive terminal 114 makes the main-side electrical connector sub-component rear end insulator 112 located at a predetermined position, so that the rear end of the assembly member 13 can be inserted into the main-side electrical connector sub-component rear end insulator 112 in an aligned manner.

In addition, as shown in fig. 20, in the electrical connector assembly of the present embodiment, the assembly member 13 abuts against the bridging conductive member 12, so that the bridging conductive member 12 can be forced to cross the main-side first conductive terminal 113 through the main-side electrical connector sub-member front end insulator 111 to overlap each main-side second conductive terminal 114, so that each main-side second conductive terminal 114 is electrically connected to form a bridging circuit, and further, by means of signal transmission of the bridging circuit, crosstalk interference generated by coupling when the electrical connector transmits a high-speed signal is suppressed, and attenuation of the high-speed signal transmitted by the electrical connector due to interference is avoided, so as to meet customized requirements of the electrical connector for transmitting a high-speed signal. Therefore, the electric connection between the conductive terminals on the part of the electric connector can be realized by the bridging conductive component without additionally arranging the bridging device, so that the electronic equipment using the multi-piece electric connector can transmit high-speed signals and can be continuously developed towards the light, thin and short directions.

In the present embodiment, as shown in fig. 19 to 21, the assembly member 13 has an assembly member front end insulating plug 131 and an assembly member rear end metal plug 132, wherein the assembly member rear end metal plug 132 is joined to the assembly member front end insulating plug 131, so that the assembly member front end insulating plug 131 and the assembly member rear end metal plug 132 are joined into a whole.

In the electrical connector assembly of the present embodiment, as shown in fig. 21, the assembly member front end insulating plug 131 is respectively plugged into the bridging conductive member 12 and the main side electrical connector sub-member front end insulator 111, so that the assembly member 13 is engaged with the front ends of the bridging conductive member 12 and the main side electrical connector sub-member 11, and the positioning can be provided for the front ends of the bridging conductive member 12 and the main side electrical connector sub-member 11, so as to prevent the front ends of the bridging conductive member 12 and the main side electrical connector sub-member 11 from being easily separated from each other by the electrical connector assembly.

Accordingly, as shown in fig. 21, in the electrical connector assembly of the present embodiment, the assembly member rear end metal plug 132 is plugged into the main side electrical connector sub-member rear end insulator 112, so that the assembly member 13 is engaged with the rear end of the main side electrical connector sub-member 11, and the positioning can be provided for the rear end of the main side electrical connector sub-member 11, so as to prevent the rear end of the main side electrical connector sub-member 11 from being easily separated from the electrical connector assembly. Furthermore, as shown in fig. 20, the rear metal plug 132 of the assembly member can be further connected to the second conductive terminals 114 on the main side, so that the second conductive terminals 114 on the main side are electrically connected to form a cross-over circuit, and further, by signal transmission of the cross-over circuit, crosstalk interference generated by coupling when the electrical connector transmits high-speed signals is suppressed, and attenuation of the high-speed signals transmitted by the electrical connector due to interference is avoided.

In this embodiment, as shown in fig. 19, the assembly member front end insulating plug 131 of the assembly member 13 can further plug the secondary side electrical connector sub-member front end insulator 141, so that the assembly member 13 is connected to the front end of the secondary side electrical connector sub-member 14, and the bridging conductive member 12, the assembly member 13, the primary side electrical connector sub-member 11 and the secondary side electrical connector sub-member 14 are assembled into the electrical connector assembly, so that after the design of the electrical connector is completed, the number and structure of the conductive terminals of the electrical connector can still be customized and adjusted by the assembly member adjustment of the electrical connector assembly, so as to meet the special requirements and development of the electronic device.

It should be noted that, in the electrical connector assembly of the present embodiment, as shown in fig. 20, the assembly member 13 abuts against the bridging conductive member 12, so that the bridging conductive member 12 crosses over the secondary side first conductive terminal 142 via the secondary side electrical connector sub-member front end insulator 141 to overlap each secondary side second conductive terminal 143, so that each secondary side second conductive terminal 143 is electrically connected to form a bridging circuit, and further, by means of signal transmission of the bridging circuit, coupled crosstalk interference generated when the electrical connector transmits a high-speed signal is suppressed, and attenuation of the high-speed signal transmitted by the electrical connector due to interference is avoided.

With regard to the steps of the multi-piece electrical connector assembly method of the present application, please refer to the disclosure of fig. 6 to 21 together with the following description.

First, the main side electrical connector sub-member 11, the bridging conductive member 12 and the assembling member 13 are provided, respectively. Then, the assembly member front end insulating plug 131 is respectively plugged into the bridging conductive member 12 and the main side electrical connector sub-member front end insulator 111, so that the assembly member 13 is engaged with the bridging conductive member 12 and the front end of the main side electrical connector sub-member 11. Then, the assembly member rear end metal plug 132 is plugged into the main side electrical connector sub-member rear end insulator 112, so that the assembly member 13 is connected to the rear ends of the bridging conductive member 12 and the main side electrical connector sub-member 11, and the bridging conductive member 12, the assembly member 13 and the main side electrical connector sub-member 11 are assembled into an electrical connector assembly.

In addition, in the multi-piece electrical connector assembling method of the present embodiment, the main-side second conductive terminal 114 can be bent, so that the main-side electrical connector sub-component rear-end insulator 112 is located at a predetermined position by the bent body of the main-side second conductive terminal 114, so that the assembly component rear-end metal plug 132 can be inserted into the main-side electrical connector sub-component rear-end insulator 112.

Second embodiment

As shown in fig. 27 to 28, the assembly member 13 has an assembly member front end insulating plug 131 and an assembly member rear end insulating plug 133, and the assembly member rear end insulating plug 133 is joined to the assembly member front end insulating plug 131 so that the assembly member front end insulating plug 131 and the assembly member rear end insulating plug 133 are joined integrally.

In the electrical connector assembly of the present embodiment, as shown in fig. 28, the assembly member front end insulating plug 131 is respectively inserted into the bridging conductive member 12 and the main side electrical connector sub-member front end insulator 111, so that the assembly member 13 is engaged with the front ends of the bridging conductive member 12 and the main side electrical connector sub-member 11, and the positioning can be provided for the front ends of the bridging conductive member 12 and the main side electrical connector sub-member 11, so as to prevent the front ends of the bridging conductive member 12 and the main side electrical connector sub-member 11 from being easily separated from each other in the electrical connector assembly.

In addition, as shown in fig. 27 to 28, in the electrical connector assembly of the present embodiment, the assembly member rear end insulating plug 133 is plugged into the main side electrical connector sub-member rear end insulator 112, so that the assembly member 13 is engaged with the rear end of the main side electrical connector sub-member 11, and the rear end of the main side electrical connector sub-member 11 can be positioned, thereby preventing the rear end of the main side electrical connector sub-member 11 from being easily separated from the electrical connector assembly.

Please refer to the disclosure of fig. 27 to fig. 28 together with the following description about the steps of the multi-piece electrical connector assembling method of the present application.

First, the main side electrical connector sub-member 11, the bridging conductive member 12 and the assembling member 13 are provided, respectively. Then, the assembly member front end insulating plug 131 is respectively plugged into the bridging conductive member 12 and the main side electrical connector sub-member front end insulator 111, so that the assembly member 13 is engaged with the bridging conductive member 12 and the front end of the main side electrical connector sub-member 11. Then, the assembly member rear end insulating plug 133 is plugged into the main side electrical connector sub-member rear end insulator 112, so that the assembly member 13 is connected to the rear ends of the bridging conductive member 12 and the main side electrical connector sub-member 11, and the bridging conductive member 12, the assembly member 13 and the main side electrical connector sub-member 11 are assembled into an electrical connector assembly.

In addition, in the multi-piece electrical connector assembling method of the present embodiment, as shown in fig. 27 to 28, the main-side second conductive terminal 114 can be bent, so that the main-side electrical connector sub-component rear-end insulator 112 is located at a predetermined position by the bent body of the main-side second conductive terminal 114, and the assembling component rear-end insulating plug 133 can be inserted into the main-side electrical connector sub-component rear-end insulator 112.

Third embodiment

As shown in fig. 29 to 30, the assembly member 13 has an assembly member front end insulation plug 131, and the main side electrical connector sub-member rear end insulator 112 has a main side electrical connector sub-member rear end insulation plug structure 1121. In the electrical connector assembly of the present embodiment, as shown in fig. 30, the assembly member front end insulating plug 131 is respectively inserted into the bridging conductive member 12 and the main side electrical connector sub-member front end insulator 111, so that the assembly member 13 is engaged with the front ends of the bridging conductive member 12 and the main side electrical connector sub-member 11, and the positioning can be provided for the front ends of the bridging conductive member 12 and the main side electrical connector sub-member 11, so as to prevent the front ends of the bridging conductive member 12 and the main side electrical connector sub-member 11 from being easily separated from each other in the electrical connector assembly.

In addition, as shown in fig. 29 to fig. 30, in the electrical connector assembly of the present embodiment, the main side electrical connector sub-component rear end insulating insertion structure 1121 is inserted into the assembly component front end insulating insertion body 131, so that the assembly component 13 is engaged with the rear end of the main side electrical connector sub-component 11, and the rear end of the main side electrical connector sub-component 11 can be positioned, so as to prevent the rear end of the main side electrical connector sub-component 11 from being easily separated from the electrical connector assembly.

With regard to the steps of the multi-piece electrical connector assembly method of the present application, please refer to the disclosure of fig. 29 to fig. 30 and the following description together.

First, the main side electrical connector sub-member 11, the bridging conductive member 12 and the assembling member 13 are provided, respectively. Then, as shown in fig. 30, the assembly member front end insulating plug 131 is respectively plugged into the bridging conductive member 12 and the main side electrical connector sub-member front end insulator 111, so that the assembly member 13 is engaged with the bridging conductive member 12 and the front end of the main side electrical connector sub-member 11. Then, the main side electrical connector sub-component rear end insulating insertion structure 1121 is inserted into the assembly component front end insulating insertion body 131, so that the jumper conductive component 12, the assembly component 13 and the main side electrical connector sub-component 11 are assembled into an electrical connector assembly.

In addition, in the multi-piece electrical connector assembling method of the present embodiment, the main-side second conductive terminal 114 can be bent, so that the main-side electrical connector sub-component rear end insulator 112 is located at a predetermined position by the bent shape of the main-side second conductive terminal 114, so that the main-side electrical connector sub-component rear end insulating insertion structure 1121 can be inserted into the main-side electrical connector sub-component rear end insulator 112.

Fourth embodiment

As shown in fig. 31 to 32, the assembling member 13 of the multi-piece electrical connector 1 of the present embodiment is omitted, so that the main side electrical connector sub-member rear end insulator 112 is respectively inserted into the bridging conductive member 12 and the main side electrical connector sub-member front end insulator 111, so that the main side electrical connector sub-member rear end insulator 112 is engaged with the front ends of the bridging conductive member 12 and the main side electrical connector sub-member 11, and the front ends of the bridging conductive member 12 and the main side electrical connector sub-member 11 can be positioned, thereby preventing the front ends of the bridging conductive member 12 and the main side electrical connector sub-member 11 from being easily separated from each other in the electrical connector assembly, and assembling the main side electrical connector sub-member 11 and the bridging conductive member 12 into the electrical connector assembly. Therefore, the multi-piece electrical connector 1 of the present embodiment can be assembled by the bridging conductive member 12 and the main-side electrical connector sub-member 11, and the like, so that after the design of the electrical connector is completed, the number and the structure of the conductive terminals of the electrical connector can be customized and adjusted by adjusting the assembling members, thereby meeting the special requirements and development of the electronic equipment.

It should be noted that, in the electrical connector assembly of the present embodiment, as shown in fig. 31, the main-side electrical connector sub-component rear-end insulator 112 abuts against the bridging conductive component 12, so that the bridging conductive component 12 crosses the main-side first conductive terminal 113 through the main-side electrical connector sub-component front-end insulator 111 to overlap each main-side second conductive terminal 114, so that each main-side second conductive terminal 114 is electrically connected to form a bridging circuit, and further, by means of signal transmission of the bridging circuit, crosstalk interference generated by coupling when the electrical connector transmits a high-speed signal is suppressed, and attenuation of the high-speed signal transmitted by the electrical connector due to interference is avoided.

In addition, as shown in fig. 32, the main-side second conductive terminal 114 has a main-side second conductive terminal bending structure 1141, so that the main-side second conductive terminal 114 is bent through the main-side second conductive terminal bending structure 1141, and the bent body of the main-side second conductive terminal 114 is used to position the main-side electrical connector sub-component rear-end insulator 112 at a predetermined position, so that the main-side electrical connector sub-component rear-end insulator 112 can be respectively inserted and connected to the main-side electrical connector sub-component 12 and the main-side electrical connector sub-component front-end insulator 111, so that the main-side electrical connector sub-component rear-end insulator 112 is connected to the front ends of the main-side electrical connector sub-component 11 and the main-side electrical connector sub-component 12.

As shown in fig. 33, the primary side electrical connector sub-component rear end insulator 112 may be further inserted into the secondary side electrical connector sub-component front end insulator 141, so that the jumper conductive member 12, the assembling member 13, the primary side electrical connector sub-component 11, and the secondary side electrical connector sub-component 14 are assembled into an electrical connector assembly. Therefore, the multi-piece electrical connector 1 of the present application is assembled by the bridging conductive member 12, the primary side electrical connector sub-member 11, the secondary side electrical connector sub-member 14, and the like, so that after the design of the electrical connector is completed, the number and the structure of the conductive terminals of the electrical connector can be customized and adjusted by adjusting the assembling members, thereby meeting the special requirements and development of the electronic equipment.

In the electrical connector assembly of the present embodiment, as shown in fig. 31, the rear insulator 112 of the main-side electrical connector sub-component abuts against the bridging conductive member 12, so that the bridging conductive member 12 crosses over the secondary-side first conductive terminal 142 through the front insulator 141 of the secondary-side electrical connector sub-component to overlap each secondary-side second conductive terminal 143, so that each secondary-side second conductive terminal 143 is electrically connected to form a bridging circuit, and further, by means of signal transmission of the bridging circuit, coupled crosstalk interference generated when the electrical connector transmits a high-speed signal is suppressed, and attenuation of the high-speed signal transmitted by the electrical connector due to interference is avoided.

Please refer to the disclosure of fig. 31 to fig. 32 and the following description together regarding the steps of the multi-piece electrical connector assembly method of the present application.

First, the main side electrical connector sub-member 11 and the jumper conductive member 12 are provided, respectively. Then, the main side electrical connector sub-component rear end insulator 112 is respectively inserted into the bridging conductive member 12 and the main side electrical connector sub-component front end insulator 111, so that the main side electrical connector sub-component 11 is engaged with the bridging conductive member 12, and the bridging conductive member 12 and the main side electrical connector sub-component 11 are assembled into an electrical connector assembly.

In addition, in the multi-piece electrical connector assembling method of the present embodiment, the main-side second conductive terminal 114 may be bent, so that the main-side electrical connector sub-component rear-end insulator 112 is located at a predetermined position by the bent body of the main-side second conductive terminal 114, so that the main-side electrical connector sub-component rear-end insulator 112 can be respectively inserted and bridged over the conductive component 12 and the main-side electrical connector sub-component front-end insulator 111.

It should be noted that, in the multi-piece electrical connector of the present application, the aforementioned parts may be omitted, for example, the multi-piece electrical connector of the present application includes: a primary side electrical connector sub-member, a cross-over conductive member, and an assembly member. The main side electrical connector sub-component is provided with a main side electrical connector sub-component front end insulator, a main side electrical connector sub-component rear end insulator, at least one main side first conductive terminal and a plurality of main side second conductive terminals, wherein the main side electrical connector sub-component front end insulator and the main side electrical connector sub-component rear end insulator are respectively jointed with the front end and the rear end of each main side second conductive terminal. The front end of the assembling member is respectively inserted with the cross-over conductive member and the front end insulator of the main side electric connector sub-member, so that the assembling member is jointed with the front ends of the cross-over conductive member and the main side electric connector sub-member, and the rear end of the assembling member is inserted with the rear end insulator of the main side electric connector sub-member, so that the assembling member is jointed with the rear end of the main side electric connector sub-member, so that the cross-over conductive member, the assembling member and the main side electric connector sub-member are assembled into an electric connector assembly body.

Further, the multi-piece electrical connector of the present application comprises: a primary side electrical connector sub-member and a jumper conductive member. The main side electric connector sub-component is provided with a main side electric connector sub-component front end insulator, a main side electric connector sub-component rear end insulator, at least one main side first conductive terminal and a plurality of main side second conductive terminals, wherein the main side electric connector sub-component front end insulator and the main side electric connector sub-component rear end insulator are respectively jointed with the front end and the rear end of each main side second conductive terminal; the main side electric connector sub-component rear end insulator is respectively inserted with the bridging conductive member and the main side electric connector sub-component front end insulator, so that the main side electric connector sub-component is jointed with the bridging conductive member, the main side electric connector sub-component and the bridging conductive member are assembled into an electric connector assembly, in the electric connector assembly, the main side electric connector sub-component rear end insulator is abutted with the bridging conductive member, the bridging conductive member crosses the main side first conductive terminal to lap each main side second conductive terminal, and each main side second conductive terminal is electrically connected to form a bridging circuit.

In summary, the multi-piece electrical connector provided by the present application can achieve electrical connection between the conductive terminals on the electrical connector by means of the jumper conductive member, so that the electrical connection between the conductive terminals on the electrical connector can be achieved without additionally adding the jumper, and the electronic device provided with the multi-piece electrical connector of the present application can be continuously developed in a light, thin, short and small direction. In addition, the multi-piece electric connector provided by the application is formed by assembling a plurality of pieces of components, so that after the design of the electric connector is finished, the number and the structure of the conductive terminals of the electric connector can be customized and adjusted by adjusting or replacing the assembling components, so as to meet the special requirements and development of electronic equipment.

The above embodiments are merely illustrative of the principles and utilities of the present application and are not intended to limit the present application. Modifications and variations can be made to the above-described embodiments by those of ordinary skill in the art without departing from the spirit and scope of the present application. Therefore, the protection scope of the present application should be as set forth in the claims of the present application.

Claims

1. A multi-piece electrical connector, comprising:

a main side electrical connector sub-assembly having a main side electrical connector sub-assembly front end insulator, a main side electrical connector sub-assembly rear end insulator, at least one main side first conductive terminal and a plurality of main side second conductive terminals, wherein the main side electrical connector sub-assembly front end insulator and the main side electrical connector sub-assembly rear end insulator engage the front end and the rear end of each of the main side second conductive terminals, respectively;

a bridging conductive member; and

an assembly member, a front end of the assembly member being respectively inserted into the bridging conductive member and the front end insulator of the main side electrical connector sub-member, such that the assembly member engages the front ends of the bridging conductive member and the main side electrical connector sub-member, and a rear end of the assembly member being inserted into the rear end insulator of the main side electrical connector sub-member, such that the assembly member engages the rear end of the main side electrical connector sub-member, such that the bridging conductive member, the assembly member and the main side electrical connector sub-member are assembled into an electrical connector assembly, and in the electrical connector assembly, the assembly member is abutted against the bridging conductive member, such that the bridging conductive member crosses over the main side first conductive terminal to overlap each main side second conductive terminal, such that each main side second conductive terminal is electrically connected to form a bridging circuit.

2. The multi-piece electrical connector of claim 1, wherein said jumper conductive members are metal jumper conductors.

3. The multi-piece electrical connector of claim 1, wherein said bridging conductive member has a plurality of bridging conductive member resilient arms, each said bridging conductive member resilient arm providing resilient engagement with one of said major side second conductive terminals.

4. The multi-piece electrical connector of claim 1, wherein the assembly member has an assembly member front end insulating plug and an assembly member rear end metal plug, wherein the assembly member rear end metal plug engages the assembly member front end insulating plug and the assembly member front end insulating plug engages the jumper conductive member and the main side electrical connector sub-member front end insulator, respectively, such that the assembly member engages the jumper conductive member and the front end of the main side electrical connector sub-member and the assembly member rear end metal plug engages the main side electrical connector sub-member rear end insulator such that the assembly member engages the rear end of the main side electrical connector sub-member.

5. The multi-piece electrical connector of claim 4, wherein said assembly member rear metal insert engages each of said primary side second conductive terminals to electrically connect each of said primary side second conductive terminals to form said jumper circuit.

6. The multi-piece electrical connector of claim 1, wherein the assembly member has an assembly member front end insulating plug and an assembly member rear end insulating plug, wherein the assembly member rear end insulating plug engages the assembly member front end insulating plug and the assembly member front end insulating plug engages the jumper conductive member and the main side electrical connector sub-member front end insulator, respectively, such that the assembly member engages the jumper conductive member and the front end of the main side electrical connector sub-member and the assembly member rear end insulating plug engages the main side electrical connector sub-member rear end insulator such that the assembly member engages the rear end of the main side electrical connector sub-member.

7. The multi-piece electrical connector of claim 1, wherein said assembly member has an assembly member front end insulating plug, said main side electrical connector sub-member rear end insulator has a main side electrical connector sub-member rear end insulating plug structure, in said electrical connector assembly said assembly member front end insulating plug is plugged into said jumper conductive member and said main side electrical connector sub-member front end insulator respectively, such that said assembly member engages said jumper conductive member and said main side electrical connector sub-member front end, and said main side electrical connector sub-member rear end insulating plug structure is plugged into said assembly member front end insulating plug such that said assembly member engages said main side electrical connector sub-member rear end.

8. The multi-piece electrical connector of claim 1, wherein said main side second conductive terminal has a main side second conductive terminal bending structure, said main side second conductive terminal bending structure providing bending of said main side second conductive terminal to position said main side electrical connector sub-member back end insulator in a predetermined position such that said assembly member back end can be inserted into said main side electrical connector sub-member back end insulator.

9. The multi-piece electrical connector of claim 1 further comprising a primary electrical connector subassembly having a primary electrical connector subassembly front end insulator, at least a primary first conductive terminal and a plurality of secondary second conductive terminals, wherein the secondary electrical connector subassembly front end insulator engages a front end of each of the secondary second conductive terminals; the front end of the assembling member is further inserted into the front end insulator of the secondary side electrical connector sub-member, so that the assembling member is engaged with the front end of the secondary side electrical connector sub-member, and the cross-over conductive member, the assembling member, the primary side electrical connector sub-member and the secondary side electrical connector sub-member are assembled into the electrical connector assembly.

10. A multi-piece electrical connector, comprising:

a main side electrical connector sub-assembly having a main side electrical connector sub-assembly front end insulator, a main side electrical connector sub-assembly rear end insulator, at least one main side first conductive terminal, and a plurality of main side second conductive terminals, wherein the main side electrical connector sub-assembly front end insulator and the main side electrical connector sub-assembly rear end insulator engage the front end and the rear end of each of the main side second conductive terminals, respectively; and

a bridging conductive member; wherein,

the main side electrical connector sub-component rear end insulator is respectively inserted into the jumper conductive member and the main side electrical connector sub-component front end insulator so that the main side electrical connector sub-component is engaged with the jumper conductive member, and the main side electrical connector sub-component and the jumper conductive member are assembled into an electrical connector assembly.

11. The multi-piece electrical connector of claim 10, wherein said jumper conductive members are metal jumper conductors.

12. The multi-piece electrical connector of claim 10, wherein said bridging conductive member has a plurality of bridging conductive member resilient arms, each said bridging conductive member resilient arm providing resilient engagement with one of said major side second conductive terminals.

13. The multi-piece electrical connector of claim 10, wherein said primary side second conductive terminal has a primary side second conductive terminal crimping structure, said primary side second conductive terminal crimping structure providing crimping of said primary side second conductive terminal to position said primary side electrical connector sub-member back end insulator such that said primary side electrical connector sub-member back end insulator can be inserted into said jumper conductive member and said primary side electrical connector sub-member front end insulator, respectively.

14. The multi-piece electrical connector of claim 10, further comprising a primary electrical connector sub-piece having a primary electrical connector sub-piece front insulator, at least a primary first conductive terminal and a plurality of secondary second conductive terminals, wherein the secondary electrical connector sub-piece front insulator engages a front end of each of the secondary second conductive terminals; the rear end insulator of the main side electrical connector sub-component is further inserted into the front end insulator of the secondary side electrical connector sub-component, so that the bridging conductive member, the assembling member, the main side electrical connector sub-component and the secondary side electrical connector sub-component are assembled into the electrical connector assembly, and in the electrical connector assembly, the rear end insulator of the main side electrical connector sub-component is abutted against the bridging conductive member, so that the bridging conductive member crosses over the secondary side first conductive terminals to lap over the secondary side second conductive terminals, so that the secondary side second conductive terminals are electrically connected to form the bridging circuit.