CN113300150B - Combined electric connector - Google Patents

Abstract

The application provides a combined type electric connector which comprises a first substructure, a second substructure, a bridging terminal and a connector body, wherein the connector body is provided with a first clamping structure, a second clamping structure and a third clamping structure. The first insulation seat is clamped by the first clamping structure so as to combine the first substructure to the connector body, so that the first substructure capable of selectively meeting the specifications of a plurality of electric connectors can be combined with the connector body to provide the specifications of the electric connectors so as to meet the internal arrangement of a plurality of electronic products, and the problem that the electric connectors in the prior art are only derived from a single specification is solved.

Description

Combined electric connector

Technical Field

The application belongs to the technical field of electric connectors, and relates to a connector, in particular to a combined electric connector formed by combining a plurality of components.

Background

Most electronic products are internally provided with an electrical connector for transmitting electrical signals through the electrical connector. However, each electrical connector has only a single specification (e.g. the number and shape of the conductive terminals are fixed), so that the electrical connectors of various specifications need to be designed, manufactured and stocked, and therefore, the use cost of the electrical connector is high.

Therefore, how to provide a combined electrical connector to solve the problems of the prior art that the electrical connector has only a single specification, resulting in the electrical connectors of various specifications all needing to be designed, manufactured and stocked, resulting in high use cost of the electrical connector, has become a technical problem to be solved by those skilled in the art.

Disclosure of Invention

In view of the above-mentioned drawbacks of the prior art, an object of the present application is to provide a combined electrical connector, which is used for solving the problem that in the prior art, only a single specification of the electrical connector leads to the need of designing, manufacturing and stocking the electrical connectors with various specifications, resulting in high use cost of the electrical connector.

To achieve the above and other related objects, one aspect of the present application provides a modular electrical connector comprising: the first substructure is provided with a first insulating seat and a plurality of first conductive terminals, the first insulating seat is connected with the plurality of first conductive terminals to provide positioning for the plurality of first conductive terminals, and at least one of the plurality of first conductive terminals is used for transmitting a first electrical signal; a second substructure having a second insulating base and a plurality of second conductive terminals, the second insulating base engaging the plurality of second conductive terminals to provide positioning for the plurality of second conductive terminals, wherein at least one of the plurality of second conductive terminals is configured to transmit a second electrical signal; the bridging terminal is provided with a plurality of lap joint structures, the lap joint structures are used for lap joint of the plurality of first conductive terminals and the plurality of second conductive terminals respectively, the plurality of first conductive terminals and the plurality of second conductive terminals are electrically bridged, the plurality of first conductive terminals and the plurality of second conductive terminals are electrically communicated with each other, the plurality of first conductive terminals are enabled to transmit the first electrical signals, and the plurality of second conductive terminals are enabled to transmit the second electrical signals, wherein the first electrical signals and the second electrical signals are the same signals; the connector body is provided with a first clamping structure, a second clamping structure, a third clamping structure, a first guide structure, a second guide structure, a first insulating seat channel and a second insulating seat channel, wherein the first insulating seat channel is positioned on a first side of the connector body, the second insulating seat channel is positioned on a second side of the connector body, and the first side and the second side are different; the first clamping structure is clamped with the first insulating seat, and the first substructure is combined to the connector body; the second clamping structure is clamped with the second insulating seat, and the second substructure is combined to the connector body; and the third clamping structure is used for clamping the bridging terminal and combining the bridging terminal to the connector body; and

the first guide structure guides the first insulation seat to enter the connector body through the first insulation seat channel until the first clamping structure is clamped with the first insulation seat; the second guiding structure guides the second insulating seat to enter the connector body through the second insulating seat channel until the second clamping structure is clamped with the second insulating seat.

In an embodiment of the application, each of the first conductive terminals and each of the second conductive terminals are ground terminals, and the first electrical signal and the second electrical signal are ground signals.

In an embodiment of the present application, the first substructure further has a plurality of third conductive terminals, the first insulating base further engages the plurality of third conductive terminals to provide positioning for the plurality of third conductive terminals, wherein at least one of the plurality of third conductive terminals is configured to transmit a third electrical signal, the second substructure further has a plurality of fourth conductive terminals, the second insulating base further engages the plurality of fourth conductive terminals to provide positioning for the plurality of fourth conductive terminals, wherein at least one of the plurality of fourth conductive terminals is configured to transmit a fourth electrical signal, wherein each of the first conductive terminals and each of the second conductive terminals are non-grounded terminals, and each of the third electrical signal and the fourth electrical signal are non-grounded signals.

In an embodiment of the application, the plurality of bonding structures respectively bond the plurality of first conductive terminals and the plurality of second conductive terminals in a single-point contact, multi-point contact or surface contact manner.

Another aspect of the present application provides a modular electrical connector comprising: the first substructure is provided with a first insulating seat and a plurality of first conductive terminals, the first insulating seat is connected with the plurality of first conductive terminals to provide positioning for the plurality of first conductive terminals, and at least one of the plurality of first conductive terminals is used for transmitting a first electrical signal; a second substructure having a second insulating base and a plurality of second conductive terminals, the second insulating base engaging the plurality of second conductive terminals to provide positioning for the plurality of second conductive terminals, wherein at least one of the plurality of second conductive terminals is configured to transmit a second electrical signal; the bridging terminal is provided with a plurality of lap joint structures, the plurality of lap joint structures are respectively overlapped with the plurality of first conductive terminals, and electrically bridge the plurality of first conductive terminals, so that the plurality of first conductive terminals are electrically communicated with each other, and the plurality of first conductive terminals all transmit the first electrical signals; the connector body is provided with a first clamping structure, a second clamping structure and a third clamping structure, wherein the first clamping structure is clamped with the first insulating seat, and the first substructure is combined to the connector body; the second clamping structure is clamped with the second insulating seat, and the second substructure is combined to the connector body; and the third clamping structure is used for clamping the bridging terminal and combining the bridging terminal to the connector body.

In an embodiment of the application, each of the first electrical signals and the second electrical signals is a different signal.

In an embodiment of the application, each of the first conductive terminals is a ground terminal, and the first electrical signal is a ground signal.

In an embodiment of the present application, the first substructure further has a plurality of third conductive terminals, the first insulating base further engages the plurality of third conductive terminals to provide positioning for the plurality of third conductive terminals, wherein at least one of the plurality of third conductive terminals is configured to transmit a third electrical signal, the second substructure further has a plurality of fourth conductive terminals, the second insulating base further engages the plurality of fourth conductive terminals to provide positioning for the plurality of fourth conductive terminals, wherein at least one of the plurality of fourth conductive terminals is configured to transmit a fourth electrical signal, wherein each of the first conductive terminals and each of the second conductive terminals are non-grounded terminals, and each of the third electrical signal and the fourth electrical signal are non-grounded signals.

In an embodiment of the application, the plurality of overlapping structures overlap the plurality of first conductive terminals in a single point contact, a multiple point contact or a surface contact manner.

In an embodiment of the application, the first substructure is moved along a first axis to approach the first engagement structure until assembled to the connector body; the bridge terminal needs to move along a third axis to approach the third clamping structure until being combined to the connector body, wherein the first axis is perpendicular to or parallel to the third axis.

In an embodiment of the application, the second substructure is moved along a second axis to approach the second engagement structure until assembled to the connector body; the bridge terminal is required to move along a third axis to approach the third clamping structure until being assembled to the connector body, wherein the second axis is parallel to the third axis.

In an embodiment of the application, the connector body has a first guiding structure, a second guiding structure and a third guiding structure; the first guide structure guides the first insulation seat to enter the connector body until the first clamping structure is clamped with the first insulation seat; the second guide structure guides the second insulating seat to enter the connector body until the second clamping structure is clamped with the second insulating seat; the third guiding structure guides the bridge terminal to enter the connector body until the third clamping structure clamps the bridge terminal.

In an embodiment of the application, the first engaging structure is disposed on an inner wall surface or an outer wall surface of the connector body; the second clamping structure is arranged on the inner wall surface or the outer wall surface of the connector body; the third clamping structure is arranged on the inner wall surface or the outer wall surface of the connector body.

As described above, the combined electrical connector of the present application has the following advantages:

the combined electric connector can selectively meet the first substructure of a plurality of electric connector specifications and be combined with the connector body to provide a plurality of electric connector specifications and meet the internal arrangement of a plurality of electronic products so as to solve various problems derived from the single specification of the electric connector in the prior art.

Drawings

Fig. 1 is a schematic perspective view of a combined electrical connector according to the present application.

Fig. 2 is an exploded view of the combined electrical connector of the present application.

Fig. 3 is a schematic diagram showing a process of assembling the assembled electrical connector according to the present application.

Fig. 4 is a schematic diagram showing a process of assembling the assembled electrical connector according to the present application.

Fig. 5 is a schematic diagram showing a process of assembling the assembled electrical connector according to the present application.

Fig. 6 is a schematic diagram showing a process of assembling the assembled electrical connector of the present application.

Fig. 6a shows a schematic diagram of the assembly process of the assembled electrical connector of the present application.

Fig. 7 is a schematic diagram showing a process of assembling the assembled electrical connector according to the present application.

Fig. 8 is a schematic diagram showing a process of assembling the assembled electrical connector according to the present application.

Fig. 8a shows a schematic diagram of the assembly process of the assembled electrical connector of the present application.

Fig. 9 is a schematic view showing the function of the bridging terminal in the combined electrical connector of the present application.

Fig. 10 is a schematic view showing the function of the bridging terminal in the combined electrical connector of the present application.

Fig. 11 is a schematic view showing the function of the bridging terminal in the combined electrical connector of the present application.

Fig. 12 is a schematic view showing the function of the bridging terminal in the combined electrical connector of the present application.

Description of element reference numerals

Detailed Description

Further advantages and effects of the present application will become apparent to those skilled in the art from the disclosure of the present application, which is described by the following specific examples.

It should be understood that the structures, proportions, sizes, etc. shown in the drawings are for illustration purposes only and should not be construed as limiting the application to the extent that it can be practiced, since modifications, changes in the proportions, or otherwise, used in the practice of the application, are not intended to be critical to the essential characteristics of the application, but are intended to fall within the spirit and scope of the application. Also, the terms such as "upper," "lower," "left," "right," "middle," and "a" and the like recited in the present specification are merely for descriptive purposes and are not intended to limit the scope of the application, but are intended to provide relative positional changes or modifications without materially altering the technical context in which the application may be practiced.

For the technical idea of the present application, please refer to the disclosure of fig. 1 to 12.

As shown in the drawings, the combined electrical connector 1 of the present application is formed by combining a plurality of members, and mainly includes: the first substructure 11, the second substructure 12, the bridge terminal 13 and the connector body 14. The first substructure 11 has a first insulating base 111, a plurality of first conductive terminals 112, and a plurality of third conductive terminals 113. The first insulating base 111 is respectively connected to the first conductive terminals 112 and the third conductive terminals 113 to provide positioning for the first conductive terminals 112 and the third conductive terminals 113, wherein at least one of the first conductive terminals 112 is used for transmitting a first electrical signal such as a ground signal, and at least one of the third conductive terminals 113 is used for transmitting a third electrical signal such as a non-ground signal. It should be noted that, in the present application, the number and shape of the first conductive terminals 112 and the third conductive terminals 113 respectively connected to the first insulating base 111 can be adjusted according to practical situations, and even one of the first conductive terminals 112 and the third conductive terminals 113 can be omitted, so as to provide a plurality of electrical connector specifications to meet the internal arrangement of a plurality of electronic products, so as to solve the problems of the prior art that only a single specification is derived from the electrical connector.

In addition, the second substructure 12 has a second insulating base 121, a plurality of second conductive terminals 122, and a plurality of fourth conductive terminals 123. The second insulating base 121 is respectively connected to the second conductive terminals 122 and the fourth conductive terminals 123, and is used for positioning the second conductive terminals 122 and the fourth conductive terminals 123, wherein at least one of the second conductive terminals 122 is used for transmitting a first electrical signal such as a ground signal, and at least one of the fourth conductive terminals 123 is used for transmitting a third electrical signal such as a non-ground signal. It should be noted that, in the present application, the number and shape of the second conductive terminals 122 and the fourth conductive terminals 123 respectively connected to the second insulating base 121 may be adjusted according to practical situations, and even one of the second conductive terminals 122 and the fourth conductive terminals 123 may be omitted, so as to provide a plurality of electrical connector specifications to meet the internal arrangement of a plurality of electronic products, so as to solve the problems of the prior art that only a single specification is derived from the electrical connector.

In the present application, the bridging terminal 13 has a plurality of bridging structures 131, and the plurality of bridging structures 131 can be selected to respectively bridge the plurality of first conductive terminals 112 and the plurality of second conductive terminals 122 by a bridging manner such as single-point contact, multi-point contact or surface contact, so that the plurality of first conductive terminals 112 and the plurality of second conductive terminals 122 are electrically connected to each other, i.e. the plurality of first conductive terminals 112 and the plurality of second conductive terminals 122 are shorted to each other, and the plurality of first conductive terminals 112 are enabled to transmit the first electrical signals, and the plurality of second conductive terminals 122 are enabled to transmit the second electrical signals, at this time, the first electrical signals and the second electrical signals are the same signals through the shorting of the bridging terminals 13, thereby satisfying the internal configuration of the plurality of electronic products.

In addition, in the present application, the plurality of bonding structures 131 may also selectively avoid bonding the plurality of second conductive terminals 122, and only bond the plurality of first conductive terminals 112 respectively, so as to electrically bridge the plurality of first conductive terminals 112, and electrically connect the plurality of first conductive terminals 112 to each other, i.e. short-circuit the plurality of first conductive terminals 112 to each other, so that the plurality of first conductive terminals 112 all transmit the first electrical signals, and at this time, the first electrical signals and the second electrical signals are different signals, thereby being capable of satisfying the internal arrangement of the plurality of electronic products.

In the present application, the connector body 14 has a first engaging structure 141, a second engaging structure 142, a third engaging structure 143, a first guiding structure 144, a second guiding structure 145 and a third guiding structure 146. The first engaging structure 141, the second engaging structure 142 and the third engaging structure 143 are respectively disposed on an inner wall surface or an outer wall surface of the connector body 14, and are used for respectively engaging the first insulating base 111, the second insulating base 121 and the bridge terminal 13. The first guiding structure 144, the second guiding structure 145 and the third guiding structure 146 guide the first insulating base 111, the second insulating base 121 and the bridge terminal 13 into the connector body 14, respectively.

For example, the first sub-structure 11 needs to move along the first axis L1 and be guided by the first guiding structure 144 to approach the first engaging structure 141 until the first engaging structure 141 engages the first insulating base 111, so that the first sub-structure 11 is assembled to the connector body 14, and therefore, the first sub-structure 11 with a specific specification can be selected to be assembled with the connector body 14 to provide an electrical connector with a specific specification, and therefore, the present application can provide a plurality of electrical connector specifications to meet the internal arrangement of a plurality of electronic products.

The second substructure 12 is required to move along the second axis L2 and be guided by the second guiding structure 145 to approach the second engaging structure 142 until the second engaging structure 142 engages the second insulating base 121, so that the second substructure 12 is assembled to the connector body 14, and therefore, the second substructure 12 with a specific specification can be selected to be assembled with the connector body 14 to provide an electrical connector with a specific specification, and therefore, the present application can provide a plurality of electrical connector specifications to meet the internal arrangement of a plurality of electronic products.

The bridge terminal 13 is required to move along the third axis L3 and be guided by the third guiding structure 146 to approach the third engaging structure 143 until the third engaging structure 143 engages the bridge terminal 13 to combine the bridge terminal 13 with the connector body 14, so that the bridge terminal 13 with a specific specification can be selected to be combined with the connector body 14 to provide an electrical connector with a specific specification.

It should be noted that, as shown in fig. 2, the third axis L3 is parallel to the first axis L1 and the second axis L2, but the present application is not limited thereto, and the structure may be designed such that the third axis L3 is perpendicular to the first axis L1 and the second axis L2.

In summary, the combined electrical connector of the present application includes a first substructure, a second substructure, a bridge terminal and a connector body, wherein the first substructure, the second substructure, the bridge terminal and the connector body with specific specifications can be selected respectively to provide the electrical connector with specific specifications, so that the present application can provide a plurality of electrical connector specifications to satisfy the internal arrangement of a plurality of electronic products.

In summary, the combined electrical connector of the present application can selectively combine the first sub-structure and the connector body with a plurality of electrical connector specifications to provide a plurality of electrical connector specifications to satisfy the internal arrangement of a plurality of electronic products, so as to solve the problems of the prior art that the electrical connector has only a single specification. The application effectively overcomes various defects in the prior art and has high industrial utilization value.

The above embodiments are merely illustrative of the principles of the present application and its effectiveness, and are not intended to limit the application. Modifications and variations may be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the application. Accordingly, it is intended that all equivalent modifications and variations of the application be covered by the claims, which are within the ordinary skill of the art, be within the spirit and scope of the present disclosure.

Claims (17)

1. A modular electrical connector, comprising:

the first substructure is provided with a first insulating seat and a plurality of first conductive terminals, the first insulating seat is connected with the plurality of first conductive terminals to provide positioning for the plurality of first conductive terminals, and at least one of the plurality of first conductive terminals is used for transmitting a first electrical signal;

a second substructure having a second insulating base and a plurality of second conductive terminals, the second insulating base engaging the plurality of second conductive terminals to provide positioning for the plurality of second conductive terminals, wherein at least one of the plurality of second conductive terminals is configured to transmit a second electrical signal;

the bridging terminal is provided with a plurality of lap joint structures, the lap joint structures are used for lap joint of the plurality of first conductive terminals and the plurality of second conductive terminals respectively, the plurality of first conductive terminals and the plurality of second conductive terminals are electrically bridged, the plurality of first conductive terminals and the plurality of second conductive terminals are electrically communicated with each other, the plurality of first conductive terminals are enabled to transmit the first electrical signals, and the plurality of second conductive terminals are enabled to transmit the second electrical signals, wherein the first electrical signals and the second electrical signals are the same signals; and

the connector comprises a connector body, a first connecting structure, a second connecting structure, a third connecting structure, a first guide structure, a second guide structure, a first insulating seat channel and a second insulating seat channel, wherein the first insulating seat channel is positioned on a first side of the connector body, the second insulating seat channel is positioned on a second side of the connector body, and the first side and the second side are different;

the first clamping structure is clamped with the first insulating seat, and the first substructure is combined to the connector body;

the second clamping structure is clamped with the second insulating seat, and the second substructure is combined to the connector body;

the third clamping structure clamps the bridging terminal and combines the bridging terminal to the connector body; and

the first guide structure guides the first insulation seat to enter the connector body through the first insulation seat channel until the first clamping structure is clamped with the first insulation seat; the second guiding structure guides the second insulating seat to enter the connector body through the second insulating seat channel until the second clamping structure is clamped with the second insulating seat.

2. The modular electrical connector of claim 1, wherein: each of the first conductive terminals and each of the second conductive terminals are ground terminals, and the first electrical signal and the second electrical signal are ground signals.

3. The modular electrical connector of claim 2, wherein: the first substructure further has a plurality of third conductive terminals, the first insulating base further engages the plurality of third conductive terminals to provide positioning for the plurality of third conductive terminals, wherein at least one of the plurality of third conductive terminals is configured to transmit a third electrical signal, the second substructure further has a plurality of fourth conductive terminals, the second insulating base further engages the plurality of fourth conductive terminals to provide positioning for the plurality of fourth conductive terminals, wherein at least one of the plurality of fourth conductive terminals is configured to transmit a fourth electrical signal, wherein each of the first conductive terminals and each of the second conductive terminals is a non-ground terminal, and the third electrical signal and the fourth electrical signal are non-ground signals.

4. The modular electrical connector of claim 1, wherein: the plurality of lapping structures respectively lap the plurality of first conductive terminals and the plurality of second conductive terminals in a single-point contact, multi-point contact or surface contact mode.

5. The modular electrical connector of claim 1, wherein: the first substructure is required to move along a first axis to approach the first engagement structure until being assembled to the connector body; the bridge terminal needs to move along a third axis to approach the third clamping structure until being combined to the connector body, wherein the first axis is perpendicular to or parallel to the third axis.

6. The modular electrical connector of claim 1, wherein: the second substructure is required to move along a second axis to approach the second engagement structure until being assembled to the connector body; the bridge terminal is required to move along a third axis to approach the third clamping structure until being assembled to the connector body, wherein the second axis is parallel to the third axis.

7. The modular electrical connector of claim 1, wherein: the connector body is also provided with a third guide structure; the third guiding structure guides the bridge terminal to enter the connector body until the third clamping structure clamps the bridge terminal.

8. The modular electrical connector of claim 1, wherein: the first clamping structure is arranged on an inner wall surface or an outer wall surface of the connector body; the second clamping structure is arranged on the inner wall surface or the outer wall surface of the connector body; the third clamping structure is arranged on the inner wall surface or the outer wall surface of the connector body.

9. A modular electrical connector, comprising:

the first substructure is provided with a first insulating seat and a plurality of first conductive terminals, the first insulating seat is connected with the plurality of first conductive terminals to provide positioning for the plurality of first conductive terminals, and at least one of the plurality of first conductive terminals is used for transmitting a first electrical signal;

a second substructure having a second insulating base and a plurality of second conductive terminals, the second insulating base engaging the plurality of second conductive terminals to provide positioning for the plurality of second conductive terminals, wherein at least one of the plurality of second conductive terminals is configured to transmit a second electrical signal;

the bridging terminal is provided with a plurality of lap joint structures, the plurality of lap joint structures are respectively overlapped with the plurality of first conductive terminals, and electrically bridge the plurality of first conductive terminals, so that the plurality of first conductive terminals are electrically communicated with each other, and the plurality of first conductive terminals all transmit the first electrical signals; and

the connector comprises a connector body, a first connecting structure, a second connecting structure, a third connecting structure, a first guide structure, a second guide structure, a first insulating seat channel and a second insulating seat channel, wherein the first insulating seat channel is positioned on a first side of the connector body, the second insulating seat channel is positioned on a second side of the connector body, and the first side and the second side are different;

the first clamping structure is clamped with the first insulating seat, and the first substructure is combined to the connector body;

the second clamping structure is clamped with the second insulating seat, and the second substructure is combined to the connector body; and

the third clamping structure clamps the bridging terminal and combines the bridging terminal to the connector body; and

the first guide structure guides the first insulation seat to enter the connector body through the first insulation seat channel until the first clamping structure is clamped with the first insulation seat; the second guiding structure guides the second insulating seat to enter the connector body through the second insulating seat channel until the second clamping structure is clamped with the second insulating seat.

10. The modular electrical connector of claim 9, wherein: each of the first electrical signal and the second electrical signal is a different signal.

11. The modular electrical connector of claim 9, wherein: each of the first conductive terminals is a ground terminal, and the first electrical signal is a ground signal.

12. The modular electrical connector of claim 9, wherein: the first substructure further has a plurality of third conductive terminals, the first insulating base further engages the plurality of third conductive terminals to provide positioning for the plurality of third conductive terminals, wherein at least one of the plurality of third conductive terminals is configured to transmit a third electrical signal, the second substructure further has a plurality of fourth conductive terminals, the second insulating base further engages the plurality of fourth conductive terminals to provide positioning for the plurality of fourth conductive terminals, wherein at least one of the plurality of fourth conductive terminals is configured to transmit a fourth electrical signal, wherein each of the first conductive terminals and each of the second conductive terminals is a non-ground terminal, and the third electrical signal and the fourth electrical signal are non-ground signals.

13. The modular electrical connector of claim 9, wherein: the plurality of bridging structures bridge the plurality of first conductive terminals in a single point contact, multiple point contact or surface contact manner.

14. The modular electrical connector of claim 9, wherein: the first substructure is required to move along a first axis to approach the first engagement structure until being assembled to the connector body; the bridge terminal needs to move along a third axis to approach the third clamping structure until being combined to the connector body, wherein the first axis is perpendicular to or parallel to the third axis.

15. The modular electrical connector of claim 9, wherein: the second substructure is required to move along a second axis to approach the second engagement structure until being assembled to the connector body; the bridge terminal is required to move along a third axis to approach the third clamping structure until being assembled to the connector body, wherein the second axis is parallel to the third axis.

16. The modular electrical connector of claim 9, wherein: the connector body is also provided with a third guide structure; the third guiding structure guides the bridge terminal to enter the connector body until the third clamping structure clamps the bridge terminal.

17. The modular electrical connector of claim 9, wherein: the first clamping structure is arranged on an inner wall surface or an outer wall surface of the connector body; the second clamping structure is arranged on the inner wall surface or the outer wall surface of the connector body; the third clamping structure is arranged on the inner wall surface or the outer wall surface of the connector body.