CN215732331U - Connector of high-efficient wiring - Google Patents

Abstract

The application discloses a connector for high-efficiency wiring, which is characterized in that a first conductive structure and a second conductive structure are respectively arranged on a first plug and a second plug, the tail ends of the first conductive structure and the second conductive structure are led out side by side, wiring is carried out by adopting a flat cable during wiring, each branch line of the first flat cable and each branch line of the second flat cable are respectively aligned to the tail ends of a plurality of first conductive structures and a plurality of second conductive structures during wiring, then each branch line of the first flat cable and each branch line of the second flat cable are simultaneously welded to the tail ends of the corresponding first conductive structure and the corresponding second conductive structure, because the arrangement direction of each branch line of the flat cable is consistent with the arrangement direction of the tail ends of the first conductive structure and the second conductive structure, mechanical operation can be adopted, a plurality of branch lines can be synchronously welded to the corresponding first conductive structure and the second conductive structure within unit time of the mechanical operation, the wiring efficiency is greatly improved, and because the arrangement direction of each branch line of the flat cable is fixed, functional lines do not need to be distinguished during the wiring process, the wiring efficiency can be simplified, and wiring errors are not easy to occur.

Description

Connector of high-efficient wiring

Technical Field

The utility model belongs to the technical field of communication connection, and particularly relates to a connector for efficient wiring.

Background

The connector includes public plug and female plug, it is specific, connecting wire on public plug and the female plug respectively, public plug and female plug interconnect can put through two wires, however, current connector does not optimize the butt joint line structure, during the wiring, generally adopt cable conductor to carry out the wiring, need distinguish each function separated time in the cable conductor, then correspond the function separated time of difference and be connected to different binding post on, the wiring process is very loaded down with trivial details, wiring inefficiency, and, because the function separated time is inconsistent with each binding post's array orientation, can't carry out mechanized operation, need artifical manual welding, wiring efficiency is slow.

SUMMERY OF THE UTILITY MODEL

Objects of the utility model

In order to overcome the defects, the utility model aims to provide a connector for efficient wiring, so as to solve the technical problems of very complicated wiring process and low wiring efficiency of the conventional wire connector.

(II) technical scheme

In order to achieve the purpose, the technical scheme provided by the application is as follows:

an efficient wiring connector comprising: the plug comprises a first plug and a second plug which are mutually inserted and connected, wherein a plurality of first conductive structures are arranged on the first plug, the tail ends of the plurality of first conductive structures extend out of the first plug side by side and are correspondingly connected with a plurality of branch wires of a first flat cable connected with the first plug, a plurality of second conductive structures are arranged on the second plug, the tail ends of the plurality of second conductive structures extend out of the second plug side by side and are correspondingly connected with a plurality of branch wires of a second flat cable connected with the second plug, and the head ends of the first and second conductive structures are mutually contacted to connect the first and second plugs;

the terminal of the first and second conductive structures are led out side by arranging the first and second conductive structures of the first and second plugs into a side-by-side structure, and the wiring is performed by adopting the flat cable, specifically, during the wiring, the branch cables of the first and second flat cables are respectively aligned with the terminals of the first and second conductive structures, and then the branch cables of the first and second flat cables are simultaneously placed at the corresponding terminals of the first and second conductive structures for wire bonding, because the arrangement direction of the branch cables is consistent with that of the terminals of the first and second conductive structures, the mechanical operation can be adopted, the plurality of branch cables can be synchronously welded on the corresponding first and second conductive structures within unit time of the mechanical operation, the efficiency of the wiring is greatly improved, and because the arrangement direction of the branch cables is fixed, the functional lines do not need to be distinguished during the wiring process, the efficiency of wiring can be simplified and wiring errors are not likely to occur.

In some embodiments, an insulating spacer block for separating the two first conductive structures is arranged between two adjacent first conductive structures at the end of each first conductive structure, an insulating spacer block for separating the two second conductive structures is arranged between two adjacent second conductive structures at the end of each second conductive structure, and by arranging the insulating spacer blocks and the insulating spacer blocks, the first conductive structures and the second conductive structures can be prevented from contacting each other and adjacent separated wires of a flat cable can be prevented from contacting each other during wire bonding, so that short circuit is avoided, and the safety of wiring can be improved.

In some embodiments, the first plug and the second plug are respectively provided with a slot for inserting and installing the first conductive structure and the second conductive structure, the first conductive structure and the second conductive structure are installed in an inserting mode, the assembly is convenient, and the production efficiency can be improved.

In some embodiments, the first and second conductive structures are flat conductive strips.

In some embodiments, the first conductive structure is a pin and the second conductive structure is a sleeve that mates with the pin for insertion of the pin into the conductive sleeve.

Drawings

FIG. 1 is a state diagram of the high efficiency wiring connector of the present invention when disconnected;

FIG. 2 is a state diagram of the high efficiency wiring connector of the present invention when connected;

FIG. 3 is a schematic view of a first plug of the high efficiency wire connecting connector of the present invention from a first perspective;

FIG. 4 is a second perspective view of the first plug of the high-efficiency wired connector of the present invention;

fig. 5 is a schematic view of the first plug of the high-efficiency wiring connector of the present invention with the conductive strips removed.

Reference numerals:

1. a first plug; 102. an insulating spacer block; 2. a second plug; 3. a conductive strip; 4. a first flat cable.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in conjunction with the following detailed description. It should be understood that the description is intended to be exemplary only, and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

Referring to fig. 1-5, the present invention provides a high-efficiency wiring connector, including: the plug comprises a first plug 1 and a second plug 2, wherein the first plug 1 and the second plug 2 are mutually inserted and connected, specifically, a plurality of first conductive structures are arranged on the first plug 1, the tail ends of the plurality of first conductive structures extend out of the first plug 1 side by side and are correspondingly connected with a plurality of branch lines of a first row line 4 connected with the first plug 1, a plurality of second conductive structures are arranged on the second plug 2 side by side, the tail ends of the plurality of second conductive structures extend out of the second plug 2 and are mutually connected with the plurality of branch lines of a second row line connected with the second plug 2, and the head ends of the first and second conductive structures are mutually contacted to connect the first and second plugs 2;

specifically, the first and second conductive structures may be various structures, such as:

in the first embodiment, the first conductive structure and the second conductive structure may be flat conductive strips 3, and on the first conductive structure and the second conductive structure, the head ends of two opposite conductive strips 3 are in contact connection, and the tail ends extend out of the first plug 1 and the second plug 2 to form a side-by-side structure;

in a second embodiment, the first conductive structure may be a pin, the second conductive structure is a sleeve matched with the pin for insertion of the pin, the pin and the sleeve are both metal structures, and the pin is inserted into the corresponding sleeve to be conducted.

Preferably, the end of the first conductive structure is located between two adjacent first conductive structures and is provided with an insulating spacer block 102 for separating the two adjacent first conductive structures, and the end of the second conductive structure is located between two adjacent second conductive structures and is provided with an insulating spacer block for separating the two second conductive structures, specifically, the insulating spacer block 102 is made of plastic, so that the contact between the first and second conductive structures and the contact between adjacent separated wires of the flat cable during the wire welding can be avoided, the short circuit is caused, and the safety of the wire connection can be improved.

Preferably, the first plug 1 and the second plug 2 are respectively provided with a slot, the first conductive structure and the second conductive structure are respectively inserted into the slots of the first plug 1 and the second plug 2 to realize installation, the first conductive structure and the second conductive structure are installed in a slot mode, the assembly is convenient, and the production efficiency can be improved.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the utility model and are not to be construed as limiting the utility model. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

Claims (5)

1. A high-efficiency wiring connector, comprising: the plug comprises a first plug (1) and a second plug (2) which are mutually inserted and connected, wherein a plurality of first conductive structures are arranged on the first plug (1), the tail ends of the first conductive structures extend out of the first plug (1) side by side and are correspondingly connected with a plurality of branch wires of a first flat cable (4) connected with the first plug (1), a plurality of second conductive structures are arranged on the second plug (2), the tail ends of the second conductive structures extend out of the second plug (2) side by side and are correspondingly connected with a plurality of branch wires of a second flat cable connected with the second plug (2), and the head ends of the first and second conductive structures are mutually contacted to connect the first plug (1) and the second plug (2).

2. A high-efficiency wiring connector as recited in claim 1,

an insulating spacer block (102) used for separating the two first conductive structures is arranged between the two adjacent first conductive structures at the tail end of each first conductive structure;

and the tail end of the second conductive structure is positioned between two adjacent second conductive structures and is provided with an insulating spacer block for separating the two second conductive structures.

3. A high-efficiency wiring connector according to claim 2, wherein the first plug (1) and the second plug (2) are respectively provided with slots for inserting and mounting the first and second conductive structures.

4. A high-efficiency wiring connector as claimed in any one of claims 1 to 3, wherein said first and second conductive structures are flat conductive strips (3).

5. A high efficiency wiring connector as claimed in any one of claims 1 to 3 wherein said first conductive structure is a pin and said second conductive structure is a sleeve mated with said pin for insertion of said pin into electrical conduction.

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