CN117220065A - Wire connector assembly and main end wire connector thereof - Google Patents

Abstract

The application provides a wire connector assembly and a main end wire connector thereof, wherein the main end wire connector is matched with a main end conductive wire, and the main end wire connector comprises a main end conductive terminal and a main end bridging conductor, and the main end bridging conductor electrically bridges the main end conductive terminal and the main end conductive wire. The main end bridging conductor intersects with the main end conductive terminal at a main end intersection angle, so that the main end conductive wire can extend towards the main end extension direction under the condition of not bending, and the wire connector assembly can be used in light, thin and small electronic equipment, and can prevent the main end conductive wire from being bent to break, thereby prolonging the service life of the main end conductive wire.

Description

Wire connector assembly and main end wire connector thereof

Technical Field

The present application relates to a signal transmission technology, and more particularly, to a wire connector assembly and a main end wire connector thereof, which can allow a main end conductive wire to extend in a main end extending direction without bending.

Background

In electronic devices, electrical signals are often required to be transmitted through the wire connector assembly and the conductive wires matched with the wire connector assembly, however, because the space inside the electronic device is limited, the conductive wires matched with the wire connector assembly are often required to be bent to avoid electronic components inside the electronic device and extend towards a predetermined direction, so that the electronic device also needs to be free of limited space to provide bent conductive wires for extension, and the conductive wires may also cause circuit breakage after being bent, so that the service life is reduced.

Therefore, how to provide a wire connector assembly, so that the matched conductive wires can extend inside the limited space of the electronic device without bending, and the improvement of the above-mentioned shortcomings is a problem to be solved by those skilled in the art.

Disclosure of Invention

In view of the foregoing shortcomings of the prior art, the present application provides a wire connector assembly for mating with a main end conductive wire, the wire connector assembly comprising: a primary end wire connector having a primary end conductive terminal and a primary end plug, wherein the secondary end plug locates the secondary end conductive terminal; the main end wire connector can be spliced with the secondary end wire connector and is provided with a main end conductive terminal, a main end plug and a main end bridging conductor, wherein the main end conductive terminal is provided with a main end conductive terminal bridging part; the main end plug connector positions the main end conductive terminal; the main end bridging conductor is provided with a main end bridging circuit, and the main end bridging circuit is respectively overlapped with the main end conductive terminal bridging part and the main end conductive wire rod so as to bridge the main end conductive terminal and the main end conductive wire rod, so that the main end conductive terminal is electrically connected with the main end conductive wire rod; the main end bridging conductor intersects the main end conductive terminal bridging part at a main end intersection angle, so that the main end conductive wire extends towards a main end extension direction; and the main end plug connector and the secondary end plug connector have an adaptive structure, so that when the main end plug connector is in a main end plug direction and the secondary end plug connector is in a primary end plug direction, at least a part of the main end plug connector can enter the secondary end plug connector, so that the main end wire connector is plugged into the secondary end wire connector, and the main end conductive terminal is electrically connected with the secondary end conductive terminal.

Preferably, in the wire connector assembly of the present application, the main end wire connector further has a main end elastic collar, the main end elastic collar is sleeved on the main end plug, and the main end elastic collar elastically abuts against the secondary end plug, so as to prevent water vapor from penetrating through a gap between the main end plug and the secondary end plug.

Preferably, in the wire connector assembly of the present application, the main end wire connector further includes a main end bushing, and the main end bushing is sleeved with the main end plug and the main end conductive wire, so that the main end plug and the main end conductive wire are integrally connected.

Preferably, in the wire connector assembly of the present application, the main end intersecting angle is ninety degrees, so that the main end extending direction is a direction perpendicular to the main end conductive terminal bridging portion.

Preferably, in the wire connector assembly of the present application, the main end bridging conductor is a circuit board or an electrical conductor.

Preferably, in the wire connector assembly of the present application, the wire connector assembly is further matched with a primary conductive wire, wherein the secondary wire connector is further provided with a primary bridging conductor, and the secondary conductive terminal is provided with a secondary conductive terminal bridging part; the secondary end bridging conductor is provided with a secondary end bridging circuit, and the secondary end bridging circuit is respectively overlapped with the secondary end conductive terminal bridging part and the secondary end conductive wire rod so as to bridge the secondary end conductive terminal and the secondary end conductive wire rod, so that the secondary end conductive terminal is electrically connected with the secondary end conductive wire rod; the secondary end bridging conductor intersects the secondary end conductive terminal bridging part at a primary end intersection angle, so that the secondary end conductive wire extends towards the primary end extending direction.

Preferably, in the wire connector assembly of the present application, the secondary wire connector further includes a primary bushing, and the secondary bushing is sleeved with the secondary plug and the secondary conductive wire, so that the secondary plug and the secondary conductive wire are integrally joined.

Preferably, in the wire connector assembly of the present application, the crossing angle of the secondary ends is ninety degrees, so that the extending direction of the secondary ends is perpendicular to the bridging portion of the secondary conductive terminals.

Preferably, in the wire connector assembly of the present application, the secondary bridge conductor is a circuit board or an electrical conductor.

Preferably, in the wire connector assembly of the present application, the secondary end plug has a trapezoidal peripheral profile, and the primary end plug has a trapezoidal internal cavity, so that the secondary end plug can enter the primary end plug.

In addition, the application also provides a main end wire connector, the main end wire connector is matched with a main end conductive wire, and the main end wire connector comprises: a main end conductive terminal having a bridge portion; the main end plug is used for positioning the main end conductive terminal; the main end bridging conductor is provided with a main end bridging circuit, and the main end bridging circuit is respectively overlapped with the main end conductive terminal bridging part and the main end conductive wire rod so as to bridge the main end conductive terminal and the main end conductive wire rod, so that the main end conductive terminal is electrically connected with the main end conductive wire rod; and the main end bridging conductor intersects the main end conductive terminal bridging part at a main end intersection angle, so that the main end conductive wire extends towards a main end extending direction.

Preferably, in the main end wire connector of the present application, the main end bushing is further provided with a main end bushing, and the main end bushing is sleeved with the main end plug and the main end conductive wire, so that the main end plug and the main end conductive wire are integrally connected.

Preferably, in the main end wire connector of the present application, the main end intersecting angle is ninety degrees, so that the main end extending direction is a direction perpendicular to the main end conductive terminal bridging portion.

Preferably, in the main end wire connector of the present application, the main end bridging conductor is a circuit board or an electrical conductor.

Compared with the prior art, the wire connector assembly and the main end wire connector thereof of the application, wherein the main end wire connector is matched with the main end conductive wire, and the main end wire connector comprises a main end conductive terminal and a main end bridging conductor, and the main end bridging conductor electrically bridges the main end conductive terminal and the main end conductive wire. The main end bridging conductor intersects with the main end conductive terminal at a main end intersection angle, so that the main end conductive wire can extend towards the main end extension direction under the condition of not bending, and the wire connector assembly can be used in light, thin and small electronic equipment, and can prevent the main end conductive wire from being bent to break, thereby prolonging the service life of the main end conductive wire.

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 schematic assembly view of an embodiment of a wire connector assembly of the present application.

Fig. 2 is an assembled schematic view of an embodiment of the wire connector assembly of the present application.

Fig. 3 is an assembled schematic view of an embodiment of the wire connector assembly of the present application.

Fig. 4 is an assembled schematic view of an embodiment of the wire connector assembly of the present application.

Fig. 5 shows a schematic cross-sectional view of an embodiment of the wire connector assembly of the present application.

Fig. 6 shows a schematic cross-sectional view of an embodiment of the wire connector assembly of the present application.

Fig. 7 is an assembled schematic view of an embodiment of the main end wire connector of the present application.

Fig. 8 is an assembled schematic view of an embodiment of the main end wire connector of the present application.

Fig. 9 is an assembled schematic view of an embodiment of the main end wire connector of the present application.

Fig. 10 is an assembled schematic view of an embodiment of the main end wire connector of the present application.

Fig. 11 is an assembled schematic view of an embodiment of the main end wire connector of the present application.

Fig. 12 is an assembled schematic view of an embodiment of the main end wire connector of the present application.

Fig. 13 is an assembled schematic view of an embodiment of the main end wire connector of the present application.

Fig. 14 is an assembled schematic view of an embodiment of the main end wire connector of the present application.

Fig. 15 is an assembled schematic view of an embodiment of the main end wire connector of the present application.

Fig. 16 is an assembled schematic view of an embodiment of the main end wire connector of the present application.

Fig. 17 is an assembly schematic view of an embodiment of the secondary wire connector of the present application.

Fig. 18 is an assembly schematic view of an embodiment of the secondary wire connector of the present application.

Fig. 19 is an assembly schematic view of an embodiment of the secondary wire connector of the present application.

Fig. 20 is an assembly schematic view of an embodiment of the secondary wire connector of the present application.

Fig. 21 is an assembly schematic view of an embodiment of the secondary wire connector of the present application.

Fig. 22 is an assembly schematic view of an embodiment of the secondary wire connector of the present application.

Fig. 23 is an assembled schematic view of an embodiment of the secondary wire connector of the present application.

Fig. 24 is an assembly schematic view of an embodiment of the secondary wire connector of the present application.

Description of element reference numerals

1. Wire connector assembly

11. Main end wire connector

111. Main end conductive terminal

1111. Main end conductive terminal bridging part

112. Main end plug

113. Main end elastic sleeve ring

114. Main end bridging conductor

1141. Main end bridge circuit

115. Main end bushing

12. Secondary wire connector

121. Secondary conductive terminal

1211. Secondary conductive terminal bridging part

122. Secondary end plug connector

123. Secondary bridge conductor

1231. Secondary bridge circuit

124. Secondary bushing

2. Main end conductive wire

3. Conductive wire of secondary end

θ1 Main end intersection Angle

D1 Direction of extension of main end

θ2-order end intersection angle

D2 Direction of extension of the minor end

Detailed Description

Other advantages and effects of the present application will become apparent to those skilled in the art from the following disclosure, which is to be read in light of the present specification, by describing particular embodiments of the present application with reference to the accompanying drawings. The application is capable of other and different embodiments and of being practiced or of being carried out in various ways. Various modifications and alterations may be made in the details of the present description based upon the various aspects and applications without departing from the spirit of the application. In particular, the relative proportions and positions of the various elements in the drawings are exemplary only and are not representative of the practice of the application.

In addition, it should be noted that, for simplicity and clarity of disclosure, components having the same or similar functions in the embodiments below will be described with the same symbols, and descriptions of the same or equivalent features will be omitted.

The present application provides a wire connector assembly capable of transmitting electrical signals in an electronic device, and for the description of the embodiments disclosed in the present application, please refer to fig. 1 to 24.

In the embodiment shown in fig. 1 to 6, the wire connector assembly 1 is configured with a main-end conductive wire 2 and a sub-end conductive wire 3. The wire connector assembly 1 includes: a main end wire connector 11 and a sub end wire connector 12. The main wire connector 11 may be plugged with the secondary wire connector 12 to transmit electrical signals in the electronic device.

In the embodiment shown in fig. 7 to 15, the main wire connector 11 has a main conductive terminal 111, a main plug 112, a main elastic collar 113, a main bridge conductor 114 and a main bushing 115. In the present embodiment, the main plug 112 provides a positioning main conductive terminal 111, and the main elastic collar 113 is sleeved on the main plug 112; the main end bushing 115 is sleeved with the main end plug 112 and the main end conductive wire 2, so that the main end plug 112 and the main end conductive wire 2 are combined into a whole, and the main end plug 112 and the main end conductive wire 2 are prevented from being separated under stress.

In addition, in the embodiment shown in fig. 5 to 6, the main conductive terminal 111 has a main conductive terminal bridge 1111, and the main conductive body 114 is, for example, a circuit board or a conductive body having a main conductive bridge circuit 1141, and the main conductive bridge circuit 1141 respectively connects the main conductive terminal bridge 1111 and the main conductive wire 2 by, for example, welding, so as to bridge the main conductive terminal 111 and the main conductive wire 2, so that the main conductive terminal 111 is electrically connected with the main conductive wire 2. As shown in fig. 6, the main-end bridging conductor 114 intersects (i.e. is electrically connected to) the main-end conductive terminal bridging portion 1111 at a main-end intersection angle θ1, so that the main-end conductive wire 2 can extend towards the main-end extending direction D1 without bending, that is, the main-end extending direction D1 can be adjusted by the main-end intersection angle θ1, so that the electronic device does not need to provide an extra limited space for bending the main-end conductive wire 2 to extend, and the wire connector assembly 1 can be used in a light, thin and small electronic device.

It should be noted that, in the present embodiment, the main-end intersecting angle θ1 is ninety degrees, so that the main-end extending direction D1 is the direction perpendicular to the main-end conductive terminal bridging portion 1111, that is, the main-end conductive wire 2 may extend towards the direction perpendicular to the main-end conductive terminal bridging portion 1111 without bending, but not limited thereto, the main-end intersecting angle θ1 may be adjusted to adapt to the actual use situation so that the main-end extending direction D1 meets the expectations.

In the embodiment shown in fig. 16 to 24, the secondary wire connector 12 has a secondary conductive terminal 121, a secondary plug 122, a secondary bridge conductor 123 and a secondary bushing 124. In the present embodiment, the secondary plug 122 provides positioning of the secondary conductive terminal 121; the secondary bushing 124 is sleeved on the secondary plug 122 and the secondary conductive wire 3, so that the secondary plug 122 and the secondary conductive wire 3 are combined into a whole, and the secondary plug 122 and the secondary conductive wire 3 are prevented from being separated under stress.

In addition, in the embodiment shown in fig. 5 to 6, the secondary conductive terminal 121 has a secondary conductive terminal bridge portion 1211, and the secondary bridge conductor 123 is, for example, a circuit board or a conductive body having a secondary bridge circuit 1231, and the secondary bridge circuit 1231 respectively overlaps the secondary conductive terminal bridge portion 1211 and the secondary conductive wire 3 by, for example, welding, so as to bridge the secondary conductive terminal 121 and the secondary conductive wire 3, so that the secondary conductive terminal 121 is electrically connected with the secondary conductive wire 3. As shown in fig. 6, the secondary bridge conductor 123 intersects (i.e. is electrically connected to) the secondary conductive terminal bridge portion 1211 at a secondary intersection angle θ2, so that the secondary conductive wire 3 can extend toward the secondary extending direction D2 without bending, that is, the secondary extending direction D2 can be adjusted by the secondary intersection angle θ2, so that the electronic device does not need to provide an extra limited space for bending the secondary conductive wire 3 to extend, and the wire connector assembly 1 can be used in a light, thin and small electronic device, and besides, the secondary conductive wire 3 can be prevented from being bent to break, thereby prolonging the service life of the secondary conductive wire 3.

It should be noted that, in the present embodiment, the secondary intersecting angle θ2 is ninety degrees, so that the secondary extending direction D2 is perpendicular to the direction of the secondary conductive terminal bridge 1211, that is, the secondary conductive wire 3 may extend towards the direction perpendicular to the direction of the secondary conductive terminal bridge 1211 without bending, but not limited thereto, the secondary intersecting angle θ2 may be adjusted to adapt to the actual use situation so that the secondary extending direction D2 meets the expectations.

In the embodiment shown in fig. 1 to 6, the secondary connector 122 has a trapezoidal peripheral outline, the main connector 112 has a trapezoidal internal cavity, and therefore, the main connector 112 and the secondary connector 122 have an adaptive structure, so that when the main connector 112 is in the main connector direction and the secondary connector 122 is in the secondary connector direction, at least a portion of the main connector 112 can enter the secondary connector 122 to realize the connection of the main wire connector 11 to the secondary wire connector 12, and the main conductive terminal 111 is electrically connected with the secondary conductive terminal 121. Therefore, the plugging direction errors of the main wire connector 11 and the secondary wire connector 12 can be avoided, the connector assembly 1 can be ensured to transmit electrical signals as expected, and even the electronic equipment damage caused by electrical short-circuit of the main wire connector 11 and the secondary wire connector 12 due to the plugging direction errors can be effectively prevented.

In the embodiment shown in fig. 5 to 6, when the primary wire connector 11 is plugged into the secondary wire connector 12, the primary elastic collar 113 elastically abuts against the secondary plug 122. It should be noted that, when the main elastic collar 113 elastically abuts against the secondary plug 122, the main elastic collar 113 can be deformed under force to fill the gap between the main wire connector 11 and the secondary wire connector 12, so as to prevent water vapor from entering the wire connector assembly 1, and prevent the electrical characteristics of the wire connector assembly 1 from being affected by water vapor.

It should be noted that, the component parts of the wire connector assembly and the main wire connector thereof may be omitted or other components may be added according to the actual use, and are not limited thereto. For example, the wire connector assembly may optionally include: the secondary end wire connector and the main end wire connector. The secondary wire connector is provided with a secondary conductive terminal and a secondary plug, wherein the secondary plug positions the secondary conductive terminal. The main end wire connector can be inserted into the secondary end wire connector, and is provided with a main end conductive terminal, a main end plug and a main end bridging conductor. The main conductive terminal has a main conductive terminal bridge portion. The main end plug positions the main end conductive terminal. The main end bridging conductor is provided with a main end bridging circuit, and the main end bridging circuit is respectively overlapped with the main end conductive terminal bridging part and the main end conductive wire rod so as to bridge the main end conductive terminal and the main end conductive wire rod and electrically connect the main end conductive terminal and the main end conductive wire rod. The main end bridging conductor intersects the main end conductive terminal bridging part at a main end intersection angle, so that the main end conductive wire extends towards the main end extension direction. The main end plug connector and the secondary end plug connector are provided with an adaptive structure, so that when the main end plug connector is in the main end plug direction and the secondary end plug connector is in the secondary end plug direction, at least a part of the main end plug connector can enter the secondary end plug connector to realize that the main end wire connector is plugged into the secondary end wire connector, and the main end conductive terminal is electrically connected with the secondary end conductive terminal.

In addition, the main end wire connector may optionally include: the main terminal comprises a main terminal conductive terminal, a main terminal plug and a main terminal bridging conductor. The main conductive terminal has a main conductive terminal bridge portion. The main end plug positions the main end conductive terminal. The main end bridging conductor is provided with a main end bridging circuit, and the main end bridging circuit is respectively overlapped with the main end conductive terminal bridging part and the main end conductive wire rod so as to bridge the main end conductive terminal and the main end conductive wire rod and electrically connect the main end conductive terminal and the main end conductive wire rod. The main end bridging conductor intersects the main end conductive terminal bridging part at a main end intersection angle, so that the main end conductive wire extends towards the main end extension direction.

In summary, the wire connector assembly and the main wire connector thereof according to the present application are provided, wherein the main wire connector is matched with the main conductive wire, and the main wire connector includes a main conductive terminal and a main bridging conductor, and the main bridging conductor electrically bridges the main conductive terminal and the main conductive wire. The main end bridging conductor intersects with the main end conductive terminal at a main end intersection angle, so that the main end conductive wire can extend towards the main end extension direction under the condition of not bending, and the wire connector assembly can be used in light, thin and small electronic equipment, and can prevent the main end conductive wire from being bent to break, thereby prolonging the service life of the main end conductive wire.

The above embodiments are merely illustrative of the principles and effects of the present application 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, the scope of the application is to be indicated by the appended claims.

Claims (14)

1. A wire connector assembly for mating with a main end conductive wire, the wire connector assembly comprising:

a primary end wire connector having a primary end conductive terminal and a primary end plug, wherein the secondary end plug locates the secondary end conductive terminal; and

a main end wire connector, which can be inserted into the secondary end wire connector, and is provided with a main end conductive terminal, a main end plug and a main end bridging conductor, wherein,

the main end conductive terminal is provided with a main end conductive terminal bridging part;

the main end plug connector positions the main end conductive terminal;

the main end bridging conductor is provided with a main end bridging circuit, and the main end bridging circuit is respectively overlapped with the main end conductive terminal bridging part and the main end conductive wire rod so as to bridge the main end conductive terminal and the main end conductive wire rod, so that the main end conductive terminal is electrically connected with the main end conductive wire rod;

the main end bridging conductor intersects the main end conductive terminal bridging part at a main end intersection angle, so that the main end conductive wire extends towards a main end extension direction; and

the main end plug connector and the secondary end plug connector are provided with an adaptive structure, so that when the main end plug connector is in a main end plug direction and the secondary end plug connector is in a primary end plug direction, at least a part of the main end plug connector can enter the secondary end plug connector, so that the main end wire connector is plugged into the secondary end wire connector, and the main end conductive terminal is electrically connected with the secondary end conductive terminal.

2. The wire connector assembly of claim 1, wherein the primary wire connector further has a primary elastic collar that is sleeved over the primary plug, the primary elastic collar being elastically abutted against the secondary plug to prevent infiltration of moisture from a gap between the primary plug and the secondary plug.

3. The wire connector assembly of claim 1, wherein the main end wire connector further comprises a main end bushing that engages the main end plug with the main end conductive wire such that the main end plug is integrally joined with the main end conductive wire.

4. The wire connector assembly of claim 1, wherein the main end intersection angle is ninety degrees such that the main end extension direction is a direction perpendicular to the main end conductive terminal bridge.

5. The wire connector assembly of claim 1, wherein the main end bridging conductor is a circuit board or an electrical conductor.

6. The wire connector assembly of claim 1 further mating with a primary end conductive wire, wherein the secondary end wire connector further has a primary end bridging conductor, wherein,

the secondary conductive terminal is provided with a secondary conductive terminal bridging part;

the secondary end bridging conductor is provided with a secondary end bridging circuit, and the secondary end bridging circuit is respectively overlapped with the secondary end conductive terminal bridging part and the secondary end conductive wire rod so as to bridge the secondary end conductive terminal and the secondary end conductive wire rod, so that the secondary end conductive terminal is electrically connected with the secondary end conductive wire rod;

the secondary end bridging conductor intersects the secondary end conductive terminal bridging part at a primary end intersection angle, so that the secondary end conductive wire extends towards the primary end extending direction.

7. The wire connector assembly of claim 6, wherein the secondary wire connector further comprises a primary bushing that engages the secondary plug with the secondary conductive wire such that the secondary plug is integrally joined with the secondary conductive wire.

8. The wire connector assembly of claim 6, wherein the minor end intersection angle is ninety degrees such that the minor end extension direction is perpendicular to the minor end conductive terminal bridge.

9. The wire connector assembly of claim 6, wherein the secondary bridge conductor is a circuit board or an electrical conductor.

10. The wire connector assembly of claim 1, wherein the secondary end plug has a trapezoidal peripheral profile and the primary end plug has a trapezoidal interior cavity such that the secondary end plug can enter the primary end plug.

11. A main end wire connector, wherein the main end wire connector is collocated with a main end conductive wire, the main end wire connector comprises:

a main end conductive terminal having a bridge portion;

the main end plug is used for positioning the main end conductive terminal;

the main end bridging conductor is provided with a main end bridging circuit, and the main end bridging circuit is respectively overlapped with the main end conductive terminal bridging part and the main end conductive wire rod so as to bridge the main end conductive terminal and the main end conductive wire rod, so that the main end conductive terminal is electrically connected with the main end conductive wire rod; and

the main end bridging conductor intersects the main end conductive terminal bridging part at a main end intersection angle, so that the main end conductive wire extends towards a main end extending direction.

12. The main end wire connector of claim 11 further comprising a main end bushing that engages said main end plug with said main end conductive wire such that said main end plug is integrally joined with said main end conductive wire.

13. The main end wire connector of claim 11 wherein said main end intersection angle is ninety degrees such that said main end extension direction is perpendicular to said main end conductive terminal bridge.

14. The main end wire connector of claim 11 wherein said main end bridge conductor is a circuit board or an electrical conductor.