CN205670508U - A kind of power distribution chopper - Google Patents

Abstract

The utility model discloses a kind of power distribution chopper, including insulator foot, the two ends of described insulator foot are provided with binding post, the upper surface of described insulator foot is provided with left part resilient conductive structures and right part resilient conductive structures, described left part resilient conductive structures and described right part resilient conductive structures described binding post with two ends respectively connects, and the middle part of described insulator foot is provided with for controlling described left part resilient conductive structures and the lift conductive structure of described right part resilient conductive structures break-make.Compared with the circular arc type plug-in strip operation trace of prior art, this utility model utilizes the break-make controlling chopper at the lift conductive structure of movement in vertical direction, greatly reduce working place, and resilient conductive structures also ensure that enough sufficiently conductive contact surfaces, is the most just not likely to produce electric arc.

Description

A kind of power distribution chopper

Technical field

This utility model relates to power switch technical field, is specifically related to a kind of power distribution chopper.

Background technology

Existing high-tension electricity distributor breaker is usually guillotine type structure, and this structure, when operation, needs bigger Working place, during long-time use, the contact surface of plug-in strip is likely to produce deformation, easily causes conductive contact surfaces inadequate Fully, electric arc may be produced in operation, there is certain potential safety hazard.

Utility model content

The purpose of this utility model is that provides a kind of power distribution chopper to solve the problems referred to above.

This utility model is achieved through the following technical solutions above-mentioned purpose:

A kind of power distribution chopper, including insulator foot, the two ends of described insulator foot are provided with binding post, described The upper surface of insulator foot is provided with left part resilient conductive structures and right part resilient conductive structures, described left part resilient conductive structures Described binding post with two ends connects respectively with described right part resilient conductive structures, the middle part of described insulator foot be provided with for Control described left part resilient conductive structures and the lift conductive structure of described right part resilient conductive structures break-make.

Further, described left part resilient conductive structures is connected by the described binding post of conductive copper sheet with left end, described Right part resilient conductive structures is connected by the described binding post of conductive copper sheet with right-hand member.

Further, described left part resilient conductive structures and described right part resilient conductive structures all include being fixedly installed on Conductive support, spring, conductive slider and conduction voussoir on described insulator foot, described conduction voussoir and described conductive slider One end is fixing to be connected, and the other end of described conductive slider is connected with described conductive support elasticity by described spring, described conduction Bearing is connected with described binding post by described conductive copper sheet, described lift conductive structure include inverted conduction trapezoid block, Insulating bar and the elevating lever being arranged on described insulator foot, described insulating bar is fixing with the lift side of described elevating lever to be connected, Described conduction trapezoid block and described insulating bar are fixing to be connected, the inclined-plane phase of the inclined-plane of described conduction trapezoid block and described conduction voussoir Coupling.

Further, described insulator foot being provided with limit guide rail, described conductive slider is installed on described spacing lead In rail and slidably.

Further, described insulator foot is provided with bar-shaped trough, and described bar-shaped trough is positioned at the underface of described trapezoid block.

Further, described insulator foot is provided with cap, described conductive copper sheet, described left part resilient conductive structures It is placed in described cap with described right part resilient conductive structures.

Further, described insulator foot is provided with multiple installing hole.

The beneficial effects of the utility model are:

Compared with the circular arc type plug-in strip operation trace of prior art, this utility model utilizes the lifting in movement in vertical direction Formula conductive structure controls the break-make of chopper, greatly reduces working place, and resilient conductive structures also ensure that Enough sufficiently conductive contact surfaces, is the most just not likely to produce electric arc.

Accompanying drawing explanation

Fig. 1 is that power distribution chopper described in the utility model is without main TV structure schematic diagram during cap；

Fig. 2 is that power distribution chopper described in the utility model is without plan structure schematic diagram during cap；

Fig. 3 is that power distribution chopper described in the utility model is with plan structure schematic diagram during cap；

In figure: 1-insulator foot, 2-binding post, 3-conductive copper sheet, 4-conductive support, 5-conductive slider, 6-insulating bar, 7- Elevating lever, 8-conduction voussoir, 9-spring, 10-limit guide rail, 11-bar-shaped trough, 12-conduction trapezoid block, 13-installing hole, 14-envelope Capping.

Detailed description of the invention

The utility model is described in further detail below in conjunction with the accompanying drawings:

As shown in Figure 1, Figure 2 and Figure 3, this utility model includes that insulator foot 1, the two ends of insulator foot 1 are provided with and connect Terminal 2, the upper surface of insulator foot 1 is provided with left part resilient conductive structures and right part resilient conductive structures, left part elastic conduction Structure and right part resilient conductive structures binding post 2 with two ends respectively connects, and the middle part of insulator foot 1 is provided with for controlling a left side Portion's resilient conductive structures and the lift conductive structure of right part resilient conductive structures break-make.

Left part resilient conductive structures is connected by the binding post 2 of conductive copper sheet 3 with left end, and right part resilient conductive structures is passed through Conductive copper sheet 3 connects with the binding post 2 of right-hand member.

Left part resilient conductive structures and right part resilient conductive structures all include that the conduction being fixedly installed on insulator foot 1 is propped up Seat 4, spring 9, conductive slider 5 and conduction voussoir 8, conduction voussoir 8 is fixing with one end of conductive slider 5 to be connected, conductive slider 5 The other end is connected with conductive support 4 elasticity by spring 9, and conductive support 4 is connected with binding post 2 by conductive copper sheet 3, lift Conductive structure includes inverted conduction trapezoid block 12, insulating bar 6 and the elevating lever 7 being arranged on insulator foot 1, insulating bar 6 with The lift side of elevating lever 7 is fixing to be connected, and conduction trapezoid block 12 is fixing with insulating bar 6 to be connected, conduct electricity trapezoid block 12 inclined-plane with lead The slopes which match of electricity voussoir 8.

Limit guide rail 10 it is provided with on insulator foot 1, in conductive slider 5 is installed on limit guide rail 10 and slidably, this Structure matches with spring 9, it is ensured that the direction of motion is consistent with the axis direction of spring all the time.

Insulator foot 1 is provided with bar-shaped trough 11, and bar-shaped trough 11 is positioned at the underface of trapezoid block, and this structure can avoid conduction Trapezoid block 12 is during moving downward, and bottom surface strikes on insulator foot 1.

Insulator foot 1 is provided with cap 14, conductive copper sheet 3, left part resilient conductive structures and right part resilient conductive structures It is placed in cap 14.

Insulator foot 1 is provided with multiple installing hole 13.

The operation principle of power distribution chopper described in the utility model is as follows:

By installing hole 13, whole chopper is installed in circuit, for controlling the break-make of circuit.

In the off state, insulating bar 6 moves to top under the effect of elevating lever 7, now conducts electricity trapezoid block 12 are completely separate with conduction voussoir 8, and the conduction voussoir 8 of left part and the conduction voussoir 8 of right part are off, i.e. left part is elastic Conductive structure and right part resilient conductive structures are off.

When needs are by circuit connected, insulating bar 6 is driven to move downward vertically by elevating lever 7, by conduction trapezoid block 12 the conduction voussoir 8 of left part connected with the conduction voussoir 8 of right part together with, in the process that conduction trapezoid block 12 moves downward In, owing to the effect of spring 9, the inclined-plane of conduction trapezoid block 12 and the inclined-plane of conduction voussoir 8 can perfectly fit together, from Without producing electric arc, when the conduction voussoir 8 of conduction trapezoid block 12 with left and right portion maintains an equal level, conduction conduction trapezoid block 12 and left and right The conduction voussoir 8 in portion constitutes cube structure together.

These are only preferred embodiment of the present utility model, not in order to limit this utility model, all in this practicality Any amendment, equivalent and the improvement etc. made within novel spirit and principle, should be included in guarantor of the present utility model In the range of protecting.

Claims (7)

1. a power distribution chopper, including insulator foot, the two ends of described insulator foot are provided with binding post, its feature It is: the upper surface of described insulator foot is provided with left part resilient conductive structures and right part resilient conductive structures, described left part bullet Property conductive structure and described right part resilient conductive structures described binding post with two ends respectively connects, the middle part of described insulator foot It is provided with for controlling described left part resilient conductive structures and the lift conductive structure of described right part resilient conductive structures break-make.

Power distribution chopper the most according to claim 1, it is characterised in that: described left part resilient conductive structures is by leading Electrolytic copper sheet connects with the described binding post of left end, and described right part resilient conductive structures is by the described wiring of conductive copper sheet with right-hand member Post connects.

Power distribution chopper the most according to claim 2, it is characterised in that: described left part resilient conductive structures and described Right part resilient conductive structures all includes conductive support, spring, conductive slider and the conduction being fixedly installed on described insulator foot Voussoir, described conduction voussoir is fixing with one end of described conductive slider to be connected, and the other end of described conductive slider passes through described bullet Spring is connected with described conductive support elasticity, and described conductive support is connected with described binding post by described conductive copper sheet, described liter Fall formula conductive structure includes inverted conduction trapezoid block, insulating bar and the elevating lever being arranged on described insulator foot, described absolutely Edge bar is fixing with the lift side of described elevating lever to be connected, and described conduction trapezoid block is fixing with described insulating bar to be connected, described conduction The inclined-plane of trapezoid block and the slopes which match of described conduction voussoir.

Power distribution chopper the most according to claim 3, it is characterised in that: it is provided with spacing leading on described insulator foot Rail, described conductive slider is installed in described limit guide rail and slidably.

Power distribution chopper the most according to claim 3, it is characterised in that: described insulator foot is provided with bar-shaped trough, Described bar-shaped trough is positioned at the underface of described trapezoid block.

Power distribution chopper the most according to claim 3, it is characterised in that: described insulator foot is provided with cap, Described conductive copper sheet, described left part resilient conductive structures and described right part resilient conductive structures are placed in described cap.

Power distribution chopper the most according to claim 3, it is characterised in that: described insulator foot is provided with multiple installation Hole.