CN113540859A

CN113540859A - Automatic connecting terminal that break-make can connect in parallel

Info

Publication number: CN113540859A
Application number: CN202110763545.8A
Authority: CN
Inventors: 王德全
Original assignee: HuaiAn Power Supply Co of State Grid Jiangsu Electric Power Co Ltd
Current assignee: HuaiAn Power Supply Co of State Grid Jiangsu Electric Power Co Ltd
Priority date: 2021-07-06
Filing date: 2021-07-06
Publication date: 2021-10-22
Anticipated expiration: 2041-07-06
Also published as: CN113540859B

Abstract

The present invention is an automatic on-off and parallel connection terminal, comprising an insulating housing, wherein a first and second conductive wiring sockets are arranged in the insulating housing, and also includes a socket, the socket The seat is arranged on the insulating housing and is fixedly connected to the first wiring seat through the first conductive plate, and the upper end face of the insulating housing is provided with a through hole A that communicates with the socket; the third conductive plate is provided with In the insulating housing, between the plug socket and the second wiring socket, one end of the third conductive plate is fixedly connected to the second wiring socket; a parallel wiring board, the parallel wiring board is arranged in the insulating housing, Located above the third conductive plate, one end of the parallel connection plate is fixedly connected to the second connection seat, the upper end surface of the insulating shell is provided with a through hole D that communicates with the parallel connection plate, and the parallel connection plate is provided with a parallel connection plate. Line interface, the parallel interface is located in the through hole D.

Description

Automatic connecting terminal that break-make can connect in parallel

Technical Field

The invention belongs to the technical field of electric appliances, and particularly relates to a wiring terminal capable of being automatically switched on and off and connected in parallel.

Background

The connection method relates to places for connecting electrical circuits of power secondary equipment, various wiring terminals are widely applied, when an original circuit needs to be disconnected in work such as inspection and test of a wiring circuit, a test connecting sheet needs to be manually opened or the wiring needs to be manually disconnected, after the work is finished, the original state needs to be manually restored, time and labor are quite wasted, the problems of screw thread slipping and the like sometimes occur in the disconnection process, the restoration to the original state may be forgotten due to various reasons, various accidents such as large-area power failure and the like occur, the consequences are very serious, and a large number of responsibility case facts prove that the accidents caused by manual terminal wiring failure in time or wiring error restoration are numerous.

Disclosure of Invention

The invention aims to solve the technical problem of providing a wiring terminal capable of being automatically connected and disconnected in parallel, which can automatically connect and disconnect a loop when the loop is checked and tested, does not need manual intervention, can timely and automatically recover the state of the loop, and can meet the requirement of connecting the terminals in parallel so as to improve the safety, reliability, applicability and convenience.

The invention is realized by the following technical scheme:

a connecting terminal capable of automatically switching on and off and connecting in parallel comprises an insulating shell, a first connecting seat and a second connecting seat which are conductive are arranged in the insulating shell, and the connecting terminal further comprises a connecting rod,

the wire inserting seat is arranged on the insulating shell and fixedly connected with the first wire connecting seat through a first conductive plate, and a through hole A communicated with the wire inserting seat is formed in the upper end face of the insulating shell;

the third conductive plate is arranged in the insulating shell and positioned between the wire inserting seat and the second wire holder, and one end of the third conductive plate is fixedly connected to the second wire holder;

the parallel connection board is arranged in the insulating shell and positioned above the third current conducting plate, one end of the parallel connection board is fixedly connected to the second wiring seat, the upper end face of the insulating shell is provided with a through hole D for communicating the parallel connection board, the parallel connection board is provided with a parallel connection interface, and the parallel connection interface is positioned in the through hole D;

the second current-conducting plate is movably arranged in the insulating shell and is arranged below the wire inserting seat and the third current-conducting plate, an elastic piece is arranged between the lower surface of the second current-conducting plate and the insulating shell, and the second current-conducting plate is communicated with the wire inserting seat and the third current-conducting plate under the action of the elastic piece;

the extruded article, the extruded article is equipped with two, the extruded article is equipped with the relative bellying that sets up respectively, the bellying is located through-hole A, the extruded article upper end is fixed in insulating shells inner wall, and the lower extreme is fixed in second current conducting plate upper surface, when inserting the object between the extruded article, the bellying warp extrusion second current conducting plate and breaks away from plug wire seat and second wire holder.

Furthermore, the first wire holder is arranged in a first mounting groove, the first mounting groove is positioned on the side surface of the insulating shell and is provided with a first wire connecting groove communicated with the first wire holder, the upper end surface of the insulating shell is provided with a through hole B communicated with the first wire holder, a screw A used for compressing a wire is arranged in the through hole B, and the screw A is in threaded connection with the first wire holder;

the second wire holder sets up in the second mounting groove, the second mounting groove is located the second wire connecting groove that insulating casing side was equipped with the second wire holder of UNICOM, is located the through-hole C that insulating casing up end was equipped with the second wire holder of UNICOM, be equipped with the screw B who is used for compressing tightly the wiring in the through-hole C, screw B threaded connection in the second wire holder.

Further, the doubling interface is a threaded hole, and the insulating shell is provided with an avoidance hole which is positioned below the doubling interface and matched with the doubling interface.

Furthermore, the outer sides of the first wiring groove and the second wiring groove are arranged in a horn mouth shape.

Further, the lower end of the extrusion piece is fixedly connected to the upper surface of the second conductive plate through an insulating plate.

Further, the pressing member is a spring plate.

Further, the elastic member is a spring.

Furthermore, a buckle is arranged on the rear end face of the insulating shell.

Furthermore, the two corners of the insulating shell are provided with mark card slots.

The invention has the advantages that;

firstly, a first wire holder and a second wire holder (through a first conductive plate, a wire socket and a third conductive plate) are communicated by a movable second conductive plate, when a test is carried out, an experiment rod is inserted into a through hole A, when the experiment rod extrudes the protruding part of an extrusion piece, the protruding part deforms and pushes the second conductive plate to move downwards so as to separate from the wire socket and the third conductive plate, thus the first wire holder and the second wire holder can not be conducted without disconnecting the wire, when the test is required, the experiment rod is inserted into the wire socket, an instrument connected with the experiment rod can provide related signals (current or voltage) to add the first wire holder 20 and the wiring equipment thereof, the related equipment behind the second wire holder can not be influenced, the operation is safe, the experiment rod is pulled out after the test is finished, and the second conductive plate moves from bottom to top under the action of an elastic piece, and the first wire holder and the second wire holder are conducted again, so that the safety is free from hidden danger.

Two, simultaneously through setting up through-hole D, accessible screw threaded connection realizes to connecting in parallel of second connection terminal on the parallel connection wiring board to satisfy the wiring needs, need not to demolish the wire on the second connection terminal and can realize parallelly connecting, factor of safety improves, and the installation is convenient rapidly.

Drawings

FIG. 1 is a schematic view of the internal structure of the present invention.

Fig. 2 is a schematic top-end-face structure.

Detailed Description

The invention is described in detail below with reference to the accompanying drawings. :

the present embodiment provides a terminal capable of automatically connecting and disconnecting, comprising an insulating housing 10, a first wire holder 20 and a second wire holder 30 disposed in the insulating housing 10, and further comprising,

the wire holder 40 is arranged in the insulating shell 10 and fixedly connected with the first wire holder 20 through a first conductive plate 401, and a through hole A101 communicated with the wire holder 40 is formed in the upper end face of the insulating shell 10;

a third conductive plate 70, wherein the third conductive plate 70 is disposed in the insulating housing 10 and located between the wire holder 40 and the second wire holder 30, and one end of the third conductive plate 70 is fixedly connected to the second wire holder 30;

the parallel connection wiring board 80 is arranged in the insulating shell 10 and located above the third conductive plate 70, one end of the parallel connection wiring board 80 is fixedly connected to the second wiring seat 30, a through hole D109 communicated with the parallel connection wiring board 80 is formed in the upper end face of the insulating shell 10, a parallel connection interface 801 is arranged on the parallel connection wiring board 801, and the parallel connection interface 801 is located in the through hole D109; a second conductive plate 50, wherein the second conductive plate 50 is movably disposed in the insulating housing 10 and disposed below the wire holder 40 and the third conductive plate 70, an elastic member 502 is disposed between a lower surface of the second conductive plate 50 and the insulating housing 10, and the second conductive plate 50 is communicated with the wire holder 40 and the third conductive plate 70 under the action of the elastic member 502;

the extruded piece 60, the extruded piece 60 is equipped with two, the extruded piece 60 is equipped with the relative boss 601 that sets up respectively, the boss 601 is located through-hole A101, extruded piece 60 upper end is fixed in insulating housing 10 inner wall, and the lower extreme is fixed in second current conducting plate 50 upper surface, when inserting the object between the extruded piece 60, boss 601 warp extrusion second current conducting plate 50 and breaks away from plug socket 40 and second connection terminal 30.

The first wire holder 20 is arranged in the first mounting groove 102, the first mounting groove 102 is provided with a first wire connecting groove 201 communicated with the first wire holder 20 on the side surface of the insulating shell 10, a through hole B103 communicated with the first wire holder 20 is arranged on the upper end surface of the insulating shell 10, a screw A202 for compressing and connecting wires is arranged in the through hole B103, and the screw A202 is in threaded connection with the first wire holder 20;

the second wire holder 30 is arranged in the second mounting groove 104, the second mounting groove 104 is located a second wire connecting groove 301 on the side of the insulating shell 10, the second wire holder 30 is communicated with the second wire connecting groove, the through hole C105 is located on the upper end face of the insulating shell 10, the second wire holder 30 is communicated with the through hole C105, a screw B302 for compressing wires is arranged in the through hole C105, and the screw B302 is in threaded connection with the second wire holder 30.

Specifically, by providing an insulating housing 10, installing the first wire holder 20 and the second wire holder 30 in the insulating housing 10 by providing the first installation slot 102 and the second installation slot 104, respectively, and using a wire post made of frame-shaped copper or other metal for the first wire holder 20 and the second wire holder 30, the first wire holder 20 and the second wire holder 30 are respectively connected with a screw a202 and a screw B302 in a threaded manner for fixing the wires extending from the first wire slot 201 and the second wire slot 301, since under normal conditions, when in use, the elastic member 502 is disposed under the second conductive plate 50, and under the action of the elastic member 502, the second conductive plate 50 can contact with the lower portions of the wire holder 40 and the second wire holder 30 (both can be disposed at the same bottom), so as to conduct electricity through the first wire holder 20, the first wire holder 401, the wire holder 40, and the second conductive plate 50 to the second wire holder 30, when the test is carried out again, the test rod is inserted into the through hole A, when the test rod extrudes the protruding part of the extrusion piece, the position is limited only to deform in the installation groove because the extrusion piece is not contacted with other conductive parts (the installation groove is arranged in the insulating shell, not shown in the figure, the extrusion piece is arranged in the groove, only the protruding part can be contacted with the test rod, the extrusion piece deforms when the test rod is extruded, the space length is lengthened), so that the space length of the extrusion piece 60 is lengthened, the second conductive plate 50 is extruded downwards, the second conductive plate 50 is separated from the wire socket 40 and the third conductive plate 70, the disconnection operation can be realized, when the test rod is inserted into the wire socket 40, relevant signals (current or voltage) can be provided through an instrument connected with the test rod, the first wire socket 20 and wiring equipment thereof are added, when the test rod is pulled out after the test is finished, the second conductive plate 50 is connected to the first wire holder 20 and the second wire holder 30 again under the action of the elastic member, so that the circuit recovery is realized, and the operation is simple and fast.

Furthermore, the outer sides of the first wiring groove 201 and the second wiring groove 301 are arranged in a horn mouth shape. The wiring can be conveniently carried out by arranging the horn mouth.

Further, in order to conveniently carry out the doubling connection, the doubling interface 801 is a threaded hole, the insulating housing 10 is provided with a hole which is located below the doubling interface 801 and is matched with the hole, when the doubling is carried out, a screw (not shown in the figure) is connected into and connected with a signal line through a through hole D, and the thread is fixed on the doubling interface 801 to complete the doubling task, so that the operation is simple, convenient and fast.

Further, the lower end of the pressing member 60 is fixedly coupled to the upper surface of the second conductive plate 50 through an insulation plate 602. The influence on the second wire holder 30 and the wiring equipment thereof when the instrument connected with the experimental bar is used for inputting or receiving signals is avoided.

Furthermore, the extrusion piece 60 is a spring piece, and has good properties, low price and easy use.

Further, the elastic member 502 is a spring.

Further, in order to facilitate fixing, a buckle 107 is disposed on the rear end surface of the insulating housing 10.

Furthermore, for convenience of identification, the two corners of the insulating housing 10 are provided with a card slot 108.

Specifically, the original circuit is disconnected firstly. When the upper part of the through hole A of the test hole is inserted into the test rod, the test rod extrudes the bulge of the spring piece to deform, and the lower end of the spring piece is pushed to the second conductive plate, so that the second conductive plate is separated from the plug wire seat and the third conductive plate 70, and the circuit is disconnected. (ii) a

Secondly, when an experiment is needed, the test line is connected with the test rod. When the experiment rod is continuously inserted into the wire inserting seat, the circuit connection between the experiment rod and the first wire connecting groove in the first wire connecting seat is switched on, and relevant experiments can be carried out;

if a plurality of terminals are needed to be connected in parallel, the connecting ports 801 of the terminals can be connected through screws, and non-detachable connection can be achieved, and the terminal is safe and reliable.

Claims

1. An automatic on-off connection terminal that can be connected in parallel, comprising an insulating housing (10), wherein a conductive first wiring seat (20) and a second wiring seat (30) are provided in the insulating housing (10) , characterized in that it also includes,

A socket (40), the socket (40) is arranged in the insulating housing (10), and is fixedly connected to the first wiring socket (20) through the first conductive plate (401), and the insulating housing ( 10) The upper end face is provided with a through hole A (101) for connecting the socket (40);

A third conductive plate (70), the third conductive plate (70) is arranged in the insulating housing (10), between the socket (40) and the second wiring seat (30), the third conductive plate (70) One end of the board (70) is fixedly connected to the second wiring seat (30);

A parallel wiring board (80), the parallel wiring board (80) is arranged in the insulating housing (10) above the third conductive plate (70), and one end of the parallel wiring board (80) is fixedly connected to the third conductive plate (70). Two wiring sockets (30), the upper end surface of the insulating housing (10) is provided with a through hole D (109) that communicates with the parallel wiring board (80), and the parallel wiring interface (801) is provided on the parallel wiring board (801). ), the parallel interface (801) is located in the through hole D (109);

The second conductive plate (50) is movably arranged in the insulating housing (10), below the socket (40) and the third conductive plate (70), and located on the second conductive plate (50) An elastic member (502) is installed between the lower surface and the insulating housing (10), and the second conductive plate (50) connects the socket (40) with the third conductive plate under the action of the elastic member (502). board(70);

An extrusion piece (60), two extrusion pieces (60) are provided, and the extrusion pieces (60) are respectively provided with raised portions (601) arranged opposite to each other, and the raised portions (601) are located at In the through hole A (101), the upper end of the extrusion piece (60) is fixed on the inner wall of the insulating housing (10), and the lower end is fixed on the upper surface of the second conductive plate (50), between the extrusion piece (60) When the object is inserted, the protruding portion (601) deforms and squeezes the second conductive plate (50) to separate from the socket (40) and the second socket (30).

2 . The automatic on-off and parallel connection terminal according to claim 1 , wherein the first wiring seat ( 20 ) is arranged in the first installation groove ( 102 ), and the first installation The slot (102) is located on the side of the insulating housing (10) and is provided with a first wiring slot (201) that communicates with the first wiring seat (20), and is provided on the upper end face of the insulating housing (10) and is connected to the first wiring seat (20) The through hole B (103) of the through hole B (103) is provided with a screw A (202) for pressing the wiring, and the screw A (202) is threadedly connected to the first wiring seat (20);

The second wiring seat (30) is arranged in the second installation groove (104), and the second installation groove (104) is located on the side of the insulating housing (10) and is provided with a second connection connecting with the second wiring seat (30). The wiring slot (301) is located on the upper end face of the insulating housing (10) with a through hole C (105) communicating with the second wiring seat (30), and the through hole C (105) is provided with a screw for pressing the wiring B (302), the screw B (302) is screwed to the second wiring seat (30).

3. The automatic on-off connection terminal according to claim 2, characterized in that: the outer sides of the first wiring slot (201) and the second wiring slot (301) are arranged in a bell mouth shape.

4. The automatic on-off connection terminal that can be connected in parallel according to claim 1, characterized in that: the parallel interface (801) is a threaded hole, and the insulating housing (10) is provided with a parallel interface located at the parallel interface. (801) is provided with a matching avoidance hole below it.

5 . The automatic on-off connection terminal according to claim 1 , wherein the lower end of the extrusion piece ( 60 ) is fixedly connected to the second conductive plate ( 50 ) through an insulating plate ( 602 ). 6 . upper surface.

6 . The automatic on-off and parallel connection terminal according to claim 1 or 4 , characterized in that: the extrusion member ( 60 ) is a spring sheet. 7 .

7 . The automatic on-off connection terminal according to claim 1 , wherein the elastic member ( 502 ) is a spring. 8 .

8 . The automatic on-off and parallel connection terminal according to claim 1 , characterized in that: a buckle ( 107 ) is provided on the rear end surface of the insulating housing ( 10 ). 9 .

9. The automatic on-off and parallel connection terminal according to claim 1, characterized in that: the two corners of the insulating housing (10) are provided with standard card slots (108).