CN219643121U - High-efficient conductive connector structure - Google Patents

Abstract

The utility model provides a high-efficiency conductive connector structure, which belongs to the technical field of electric connectors and comprises a connector body, wherein one side of an opening of the connector body is connected with a wire inlet pipeline, the bottom of the connector body is provided with a wiring terminal, and the top of the connector body is provided with a threaded column; the wire collecting mechanism is arranged in the connector body and can clamp wires in the wire inlet pipeline; the wire pressing mechanism is arranged inside the connector body and comprises a connecting rod which is connected inside the threaded column in a sliding manner, and a wire pressing pipeline is arranged inside the connector body; put into the inlet wire pipeline with the electric wire in, tighten up the electric wire through admission machine, rotate the pressure cap and can drive line ball mechanism and remove, line ball mechanism can sticis the electric wire on binding post, prevents that the electric wire from being connected with binding post inseparably to lead to equipment to break down.

Description

High-efficient conductive connector structure

Technical Field

The utility model belongs to the technical field of electric connectors, and particularly relates to a high-efficiency conductive connector structure.

Background

In electronic devices, in order to achieve electrical connection between components that are electrically independent of each other, an electrical connector is generally required, and the electrical connector is capable of achieving electrical conduction between two independent electrical structures. The linear energy storage connector is one of common electrical connectors, and comprises a board end socket fixed on a device shell and a wire end plug matched and plugged with the board end socket, wherein the wire end plug and the board end socket can be electrically connected after being plugged, for example, in the field of electric automobiles, the energy storage connector is often adopted for charging automobiles.

In the process of connecting the components, the electric wire is required to be inserted into the connector, and the current is led into the components through the connector, so that the components are driven to operate; however, when the electric wire is connected to the connector, there is a problem in that the connection between the electric wire and the connection terminal is not tight, and power failure occurs.

Disclosure of Invention

The utility model aims to provide a high-efficiency conductive connector structure, which aims to solve the problem that wires are not tightly connected with wiring terminals when the wires are connected with a connector in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a highly efficient conductive connector structure comprising: the connector comprises a connector body, wherein one side of an opening of the connector body is connected with a wire inlet pipeline, a wiring terminal is arranged at the bottom of the connector body, and a threaded column is arranged at the top of the connector body; the wire collecting mechanism is arranged in the connector body and can clamp wires in the wire inlet pipeline; the wire pressing mechanism is arranged inside the connector body and comprises a connecting rod which is connected inside a threaded column in a sliding mode, a wire pressing pipeline is arranged inside the connector body, a piston is movably connected with the wire pressing pipeline, the connecting rod is connected with a piston, the connecting rod can drive the piston to move, and the piston can compress wires inside the wire feeding pipeline on a wiring terminal.

In order to enable the efficient conductive connector structure to have the effect that the piston can press the electric wires in the wire inlet pipeline on the wiring terminal, as one preferable mode of the utility model, one end of the wire inlet pipeline penetrates through the connector body, the other end of the wire inlet pipeline extends out of the connector body, and the wire pressing pipeline penetrates through the wire inlet pipeline.

In order to enable the high-efficiency conductive connector structure to have the effect of winding up wires, as one preferable mode of the utility model, the winding-up mechanism comprises a winding wheel rotatably connected inside the connector body, an arc-shaped groove is formed in the winding wheel, and a clamping plate is connected to the arc-shaped groove in a sliding mode.

In order to enable the high-efficiency conductive connector structure to have the function of limiting the clamping plate, as one preferable mode of the utility model, a limiting groove for limiting the clamping plate is formed in the connector body.

In order to make the high-efficiency conductive connector structure have the function of driving the connecting rod to move, as one preferable mode of the utility model, the threaded post is connected with a pressing cap in a threaded manner, and the pressing cap is connected with the connecting rod.

In order to enable the high-efficiency conductive connector structure to have the function of driving the wire pressing mechanism to move, the inside of the press cap is preferably provided with a cavity.

In order to make the high-efficiency conductive connector structure have the function of driving the take-up pulley to rotate, as one preferable mode of the utility model, the take-up pulley is connected with a rotating plate in a threaded manner.

In order to make the high-efficiency conductive connector structure have the function of protecting the incoming line pipeline, as one preferable mode of the utility model, one end of the incoming line pipeline extending out of the connector body is connected with a protective cover in a threaded mode.

Compared with the prior art, the utility model has the beneficial effects that:

this high-efficient electrically conductive connector structure puts into the inlet wire pipeline with the electric wire in, tightens up the electric wire through receiving the line mechanism, rotates the pressure cap and can drive line ball mechanism and remove, and line ball mechanism can sticis the electric wire on binding post, prevents that the electric wire from being connected with binding post inseparably to lead to equipment to break down.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model. In the drawings:

FIG. 1 is a schematic perspective view of an embodiment of the present utility model;

FIG. 2 is a schematic view of a three-dimensional exploded structure according to an embodiment of the present utility model;

FIG. 3 is a schematic cross-sectional view of an embodiment of the present utility model;

fig. 4 is a schematic cross-sectional structure of a wire winding mechanism according to an embodiment of the utility model.

In the figure: 10. a connector body; 11. a wire inlet pipeline; 12. a connection terminal; 13. a protective cover; 14. a threaded column; 141. pressing the cap; 142. a cavity; 20. a wire winding mechanism; 21. a wire winding wheel; 22. an arc-shaped groove; 23. a clamping plate; 231. a limit groove; 24. a rotating plate; 30. a wire pressing mechanism; 31. a connecting rod; 32. a wire pressing pipeline; 33. and (3) a piston.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, the present utility model provides the following technical solutions: the utility model provides a high-efficient electrically conductive connector structure, includes connector body 10, and connector body 10 open-ended one side is connected with inlet wire pipeline 11, and inside the connector body 10 was link up to inlet wire pipeline 11's one end, the other end of inlet wire pipeline 11 stretched out connector body 10 outside, brought the electric wire to connector body 10 inside through inlet wire pipeline 11; the connector body 10 is internally provided with a wire collecting mechanism 20, the wire collecting mechanism 20 can tighten the wire incoming wire, and the bottom of the connector body 10 is provided with a wiring terminal 12; the top of the connector body 10 is provided with a wire pressing mechanism 30, and the wire pressing mechanism 30 can press the wire on the wiring terminal 12, so that the wire can be connected with the wiring terminal 12.

Referring to fig. 1-3, specifically, one end of the incoming line pipe 11 extending out of the connector body 10 is in threaded connection with a protecting cover 13, and the protecting cover 13 can prevent dust and impurities from entering the incoming line pipe 11; the top of the connector body 10 is provided with a threaded column 14, the threaded column 14 is in threaded connection with a press cap 141, the press cap 141 is rotated, and the press cap 141 can move on the threaded column 14; the press cap 141 can drive the wire pressing mechanism 30 to move, so that the electric wire can be connected with the wiring terminal 12.

Referring to fig. 2 to 4, in particular, the wire pressing mechanism 30 includes a connecting rod 31 rotatably connected to a press cap 141, and the connecting rod 31 slides inside the threaded column 14; the connector body 10 is internally provided with a wire pressing pipeline 32, the wire pressing pipeline 32 is connected with the wiring terminal 12, and the wire pressing pipeline 32 is communicated with the wire inlet pipeline 11; the pressing line pipeline 32 is internally and slidably connected with a piston 33, and the piston 33 is connected with the connecting rod 31; the pressing cap 141 is rotated clockwise, the pressing cap 141 can drive the connecting rod 31 to move downwards in the wire pressing pipeline 32, the connecting rod 31 drives the piston 33 to move downwards in the wire pressing pipeline 32, and the electric wires in the wire feeding pipeline 11 are tightly pressed on the wiring terminal 12, so that the electric wires can be tightly connected with the wiring terminal; the pressing cap 141 is provided with a cavity 142 inside, and the depth of the cavity 142 is the same as the moving distance of the piston 33, so that the electric wire and the connecting terminal 12 can be tightly attached together.

Referring to fig. 1 to 3, specifically, the wire winding mechanism 20 includes a wire winding wheel 21 rotatably connected to the inside of the connector body 10, an arc groove 22 is formed on the wire winding wheel 21, a clamping plate 23 is slidably connected to the arc groove 22, and when the wire winding wheel 21 rotates, the clamping plate 23 is driven to move by the arc groove 22; a limit groove 231 is formed in the connector body 10, the clamping plate 23 is in sliding connection with the limit groove 231, the wire take-up wheel 21 is rotated, the wire take-up wheel 21 drives the clamping plate 23 to move through the arc groove 22, the clamping plate 23 is moved to the wire take-up wheel 21 through the limit groove 231, and the electric wire is clamped; the take-up pulley 21 is connected with a rotating plate 24 in a threaded manner, and the rotating plate 24 drives the take-up pulley 21 to rotate.

Referring to fig. 1-4, the principle of operation is: a plurality of wires with exposed wires enter the connector body 10 through the wire inlet pipeline 11, the rotating plate 24 drives the wire collecting wheel 21 to rotate, the wire collecting wheel 21 drives the clamping plate 23 to move through the arc-shaped groove 22, the clamping plate 23 moves towards the wire collecting wheel 21 through the limiting groove 231, and the wires are clamped; the pressing cap 141 is rotated clockwise, the pressing cap 141 can drive the connecting rod 31 to move downwards in the wire pressing pipeline 32, the connecting rod 31 drives the piston 33 to move downwards in the wire pressing pipeline 32, and the electric wires in the wire feeding pipeline 11 are tightly pressed on the wiring terminal 12, so that the electric wires can be tightly connected with the wiring terminal 12; the electric wire can be well tightly connected with the wiring terminal 12, and the electric wire is prevented from being not tightly connected with the wiring terminal 12, so that equipment is prevented from being failed.

Claims (8)

1. A highly efficient conductive connector structure, comprising:

the connector comprises a connector body (10), wherein one side of an opening of the connector body (10) is connected with a wire inlet pipeline (11), a wiring terminal (12) is arranged at the bottom of the connector body (10), and a threaded column (14) is arranged at the top of the connector body (10);

the wire collecting mechanism (20), the wire collecting mechanism (20) is arranged inside the connector body (10), and the wire collecting mechanism (20) can clamp wires inside the wire inlet pipeline (11);

the wire pressing mechanism (30), wire pressing mechanism (30) set up inside connector body (10), wire pressing mechanism (30) are including sliding connection at inside connecting rod (31) of screw thread post (14), inside being provided with of connector body (10) is pressed wire pipeline (32), piston (33) and press wire pipeline (32) swing joint, connecting rod (31) are connected with piston (33), connecting rod (31) can drive piston (33) and remove, piston (33) can compress tightly the inside electric wire of inlet wire pipeline (11) on binding post (12).

2. The highly conductive connector structure of claim 1, wherein: one end of the wire inlet pipeline (11) penetrates through the connector body (10), the other end of the wire inlet pipeline (11) extends out of the connector body (10), and the wire pressing pipeline (32) is communicated with the wire inlet pipeline (11).

3. A highly efficient conductive connector structure as defined in claim 2, wherein: the wire winding mechanism (20) comprises a wire winding wheel (21) rotatably connected to the inside of the connector body (10), an arc-shaped groove (22) is formed in the wire winding wheel (21), and a clamping plate (23) is connected to the arc-shaped groove (22) in a sliding mode.

4. A highly efficient conductive connector structure as defined in claim 3, wherein: a limiting groove (231) for limiting the clamping plate (23) is formed in the connector body (10).

5. The highly conductive connector structure of claim 1, wherein: the threaded column (14) is connected with a pressing cap (141) in a threaded mode, and the pressing cap (141) is connected with the connecting rod (31) in a rotating mode.

6. The highly conductive connector structure of claim 5, wherein: a cavity (142) is formed in the pressing cap (141).

7. A highly efficient conductive connector structure as defined in claim 3, wherein: the wire winding wheel (21) is connected with a rotating plate (24) in a threaded mode.

8. A highly conductive connector structure according to any one of claims 1-7, wherein: one end of the incoming line pipeline (11) extending out of the connector body (10) is connected with a protective cover (13) in a threaded mode.