CN215816457U - Cage type wire dividing connector - Google Patents

Abstract

The utility model provides a cage type branch wire connector which comprises two insulating parts, two partition plates and two conductor sets, wherein the two insulating parts are arranged on the two partition plates; the two insulating pieces are arranged side by side, the first side of each insulating piece is provided with two wire inlets, the second side of each insulating piece is provided with four wire outlets, and the third side of one insulating piece is connected with the third side of the other insulating piece; the two partition plates are respectively arranged on the fourth sides of the two insulating parts; the two conductor sets are respectively assembled on the two insulating parts, and each conductor set comprises two conductors; the electric conductor is assembled on the insulating part through two cage springs and is provided with an incoming line end and two outgoing line ends; the wire inlet end corresponds to the wire inlet; the outlet end corresponds to the outlet; the utility model has the characteristics of small size, compactness and strong wiring capacity through the double-layer structure design, saves the assembly space required during installation, improves the wiring efficiency and increases the number of wiring ports in practical application.

Description

Cage type wire dividing connector

Technical Field

The utility model relates to the field of electricity, in particular to a circuit connection technology, and particularly relates to a cage type branch connector.

Background

Connectors, also commonly referred to as circuit connectors or electrical connectors, are used to connect two conductors of a circuit so that current or signals can flow from one conductor to the other, and simply, the components used to electrically connect circuits or electronic machines to each other are called connectors, i.e., bridges between them.

Most of the existing connectors are single-layer structures, and when a plurality of connectors are needed to assemble components in a circuit system, a large assembly space is often needed, and the wiring efficiency is reduced.

SUMMERY OF THE UTILITY MODEL

In view of the above-mentioned shortcomings of the prior art, the present invention provides a cage-type branch connector, which solves the problem of large occupied area of the assembly space when multiple connectors are required for component assembly in a circuit system, which is caused by the fact that most of the prior connectors are single-layer connectors.

In order to achieve the above objects and other related objects, the present invention provides a cage type branch connector, which includes two insulating members, two partition plates, and two conductor sets; the two insulating pieces are arranged side by side, the first side of each insulating piece is provided with two wire inlets, the second side of each insulating piece is provided with four wire outlets, and the third side of one insulating piece is connected with the third side of the other insulating piece; the two partition plates are respectively arranged on the fourth sides of the two insulating pieces; the two conductor sets are respectively assembled on the two insulating pieces, and each conductor set comprises two conductors; the electric conductor is assembled on the insulating part through two cage springs and is provided with an incoming line end and two outgoing line ends; the wire inlet end corresponds to the wire inlet; the outlet end corresponds to the outlet.

In an embodiment of the present invention, the partition and the insulating member are assembled in a hole-column fit manner.

In an embodiment of the present invention, the insulating member is provided with a buckle.

In an embodiment of the utility model, the electrical conductor is in an "H" shape.

In an embodiment of the utility model, the wire inlet end adopts a straight plug end or a welding mode for wiring; and the wire outlet end is led out through the cage type spring.

In an embodiment of the utility model, the two insulating members are integrally formed.

In an embodiment of the utility model, the first side of the insulating member is opposite to the second side of the insulating member, and the third side of the insulating member is opposite to the fourth side of the insulating member.

As mentioned above, the cage type branch line connector of the present invention has the following beneficial effects:

(1) compared with the prior art, the cage-type branch wire connector provided by the utility model has the characteristics of small size, compactness and strong wiring capacity through the double-layer structure design, saves the assembly space required during installation, improves the wiring efficiency and increases the number of wiring ports in practical application.

(2) According to the cage type branch wire connector provided by the utility model, the incoming wire adopts a direct plug terminal or a direct welding mode, the outgoing wire adopts cage type wiring, can be connected with single-stranded wires and multi-stranded wires, can also be connected with the terminal in a pressing mode, and is convenient, rapid, safe and reliable.

(3) The connector adopts a double-partition design, and the partition and the insulating part are assembled in a hole-column matching mode, so that the dustproof effect and the electrical performance of the connector are improved.

(4) The utility model can realize the wire distributing function of four inlets and eight outlets, and can realize the assembly of the connector with products such as mounting plates, cabinets and the like by designing a buckle structure on the insulating piece.

Drawings

Figure 1 illustrates an exploded view of one embodiment of a cage jumper connector of the present invention.

Figure 2 is a schematic diagram of the overall structure of a cage-type wire-dividing connector according to an embodiment of the present invention.

Fig. 3 shows a schematic structural view of an embodiment of the electrical conductor of the present invention mounted on an insulator.

Description of the element reference numerals

1-an insulator; 2-a separator; 3-a wire inlet; 4-an outlet; 5-an electrical conductor; 6-cage springs; 7-buckling.

Detailed Description

The following description of the embodiments of the present invention is provided for illustrative purposes, and other advantages and effects of the present invention will become apparent to those skilled in the art from the present disclosure.

It should be understood that the structures, ratios, sizes, and the like shown in the drawings and described in the specification are only used for matching with the disclosure of the specification, so as to be understood and read by those skilled in the art, and are not used to limit the conditions of the present invention, so that the present invention has no technical significance. In addition, the terms "upper", "lower", "left", "right", "middle" and "one" used in the present specification are for clarity of description, and are not intended to limit the scope of the present invention, and the relative relationship between the terms and the terms is not to be construed as a scope of the present invention.

The cage type branch line connector is used for solving the problem that the existing connector is mostly a single-layer connector, and when a plurality of connectors are needed to carry out component assembly in a circuit system, the occupied area of the assembly space is large. The principles and embodiments of a cage shunt connector of the present invention will be described in detail below so that those skilled in the art can understand the cage shunt connector of the present invention without inventive work.

As shown in fig. 1 to 3, in one embodiment, the cage-type wire-dividing connector of the present invention includes two insulating members 1, two partition plates 2, and two conductor sets.

Specifically, two insulators 1 are arranged side by side (as shown in fig. 1 and 3, two insulators 1 are arranged side by side in a front-back direction), so that the connector forms a double-layer structure design, a first side (corresponding to the lower end of the insulator 1 in fig. 1) of each insulator 1 is provided with two wire inlets 3, a second side (corresponding to the upper end of the insulator 1 in fig. 1) of each insulator 1 is provided with four wire outlets 4, and a third side of one insulator 1 is connected with a third side of the other insulator 1.

It should be noted that the connector adopts a double-layer structure design, and has four wire inlets 3 and eight wire outlets 4 in total, so that in practical application, a four-inlet eight-outlet wire splitting function can be realized, the assembly space of the connector is saved, and the wire connection efficiency is improved.

In one embodiment, the first side of the insulator 1 is opposite to the second side of the insulator 1, and the third side of the insulator 1 is opposite to the fourth side of the insulator 1.

Specifically, two of the partition plates 2 are respectively provided on the fourth sides of two of the insulators 1 (corresponding to the front end of the insulator 1 located at the front in fig. 1 and the rear end of the insulator 1 located at the rear in fig. 1, respectively).

In one embodiment, the two insulating members 1 are integrally formed.

Specifically, two insulating members 1 formed integrally together form an insulator of the connector, four wire inlets 3 are shared on a first side of the insulator (corresponding to the first sides of the two insulating members 1), eight wire outlets 4 are shared on a second side of the insulator (corresponding to the second sides of the two insulating members 1) opposite to the first side thereof, and two partition plates 2 are respectively assembled on a third side of the insulator (corresponding to the fourth side of one of the insulating members 1) and a fourth side of the insulator (corresponding to the fourth side of the other insulating member 1).

In one embodiment, the spacer 2 and the insulator 1 are assembled in a hole-column fit.

It should be noted that, the two partition boards 2 are both assembled on the insulating member 1 in a hole-column fit manner, so that the overall dustproof effect and the electrical performance of the connector are improved.

Specifically, the two conductor sets are respectively assembled on the two insulators 1, and each conductor set comprises two conductors 5; the electric conductor 5 is assembled on the insulating part 1 through two cage springs 6, and the electric conductor 5 is provided with an incoming line end and two outgoing line ends; the wire inlet end corresponds to the wire inlet 3; the outlet end corresponds to the outlet 4.

In practical application, the incoming wire is connected to the incoming wire end through the incoming wire port 3, and the outgoing wire is connected to the outgoing wire end and extends out through the outgoing wire port 4.

In one embodiment, as shown in fig. 1, the conductor 5 is "H" shaped.

The "H" -type conductor 5 is only one preferred embodiment of the present invention; specifically, the two upper ends of the H-shaped conductor 5 are fixed by the cage spring 6 as wire outlet ends, and the two lower ends thereof are long and short, wherein the longer end is used as a wire inlet end.

It should be noted that the conductive body 5 is not limited to be in an H-shaped structure, as long as it can ensure that there are one incoming terminal and two outgoing terminals, for example, the conductive body 5 may also be in a "Y" shaped structure.

In one embodiment, the wire inlet end adopts a straight plug end or a welding mode for wiring; the outlet end is led out through the cage type spring 6, can be connected with a single wire and a stranded wire, can also be connected with an end by compression, and is convenient, quick, safe and reliable.

As shown in fig. 3, in an embodiment, the insulating member 1 is provided with a buckle 7.

It should be noted that, by designing the structure of the buckle 7 on the insulating member 1, the connector can be assembled with a mounting plate, a cabinet, and other products.

In conclusion, the cage-type branch wire connector has the characteristics of small size, compactness and strong wiring capacity through the double-layer structure design, saves the assembly space required during installation, improves the wiring efficiency and increases the number of wiring ports in practical application; according to the cage type branch wire connector provided by the utility model, the incoming wire adopts a direct plug terminal or a direct welding mode, the outgoing wire adopts cage type wiring, can be connected with single-stranded wires and multi-stranded wires, and can also be connected with the terminal in a pressing mode, so that the convenience and the rapidness are realized, and the safety and the reliability are high; the connector adopts a double-partition design, and the partition and the insulating part are assembled in a hole-column matching manner, so that the dustproof effect and the electrical performance of the connector are improved; the utility model can realize the wire distributing function of four inlets and eight outlets, and the connector can be assembled with products such as a mounting plate, a cabinet body and the like by designing a buckle structure on the insulating part; therefore, the utility model effectively overcomes various defects in the prior art and has high industrial utilization value.

The foregoing embodiments are merely illustrative of the principles and utilities of the present invention and are not intended to limit the utility model. Any person skilled in the art can modify or change the above-mentioned embodiments without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which can be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (7)

1. A cage type branch wire connector is characterized by comprising two insulating parts, two partition plates and two conductor sets;

the two insulating pieces are arranged side by side, the first side of each insulating piece is provided with two wire inlets, the second side of each insulating piece is provided with four wire outlets, and the third side of one insulating piece is connected with the third side of the other insulating piece;

the two partition plates are respectively arranged on the fourth sides of the two insulating pieces;

the two conductor sets are respectively assembled on the two insulating pieces, and each conductor set comprises two conductors;

the electric conductor is assembled on the insulating part through two cage springs and is provided with an incoming line end and two outgoing line ends;

the wire inlet end corresponds to the wire inlet; the outlet end corresponds to the outlet.

2. The cage manifold connector of claim 1, wherein said spacer is mounted in a hole-and-column fit with said insulator.

3. The cage manifold connector of claim 1, wherein the insulator has a snap fit thereon.

4. The cage manifold connector of claim 1, wherein the electrical conductors are "H" shaped.

5. The cage-type branch connector of claim 1, wherein the wire inlet end is wired by a straight plug or by welding;

and the wire outlet end is led out through the cage type spring.

6. The cage manifold connector of claim 1, wherein two of said dielectric members are integrally formed.

7. The cage shunt connector of claim 1, wherein said first side of said insulator is positioned opposite said second side of said insulator and said third side of said insulator is positioned opposite said fourth side of said insulator.

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