CN108198718B

CN108198718B - Static contact assembling die

Info

Publication number: CN108198718B
Application number: CN201810121127.7A
Authority: CN
Inventors: 陈奎; 刘新伟; 沈国民; 黄浩; 黄晓亮; 李欣
Original assignee: Suzhou Spark Automation Equipment Co ltd
Current assignee: Suzhou Yingos Technology Co ltd
Priority date: 2018-02-07
Filing date: 2018-02-07
Publication date: 2023-11-03
Anticipated expiration: 2038-02-07
Also published as: CN108198718A

Abstract

The invention discloses a static contact assembling die which comprises a bottom plate, a die holder, square sliding blocks, a baffle plate, a first spring, a guide plate, a limit seat, a striking rod, a first clamping ring, a second spring and a second clamping ring, wherein an elastic sheet forming a static contact is placed on the bottom plate of a die cavity, then an elastic sheet framework is placed at the upper end of the elastic sheet, and then the striking rod is pushed by an external striking mechanism to extend into the die cavity along the guide plate, so that the elastic sheet is pushed to move forward into a bayonet on the framework. The device simple structure can replace the staff to assemble, reduces operating personnel intensity of labour, moreover, carries out buffering application of force through elastic force for shell fragment and skeleton atress are even continuous.

Description

Static contact assembling die

Technical Field

The invention relates to a mechanical device, in particular to a fixed contact assembling die.

Background

The static contact is one of key components of the switching device and mainly comprises a framework 100 and an elastic sheet 200 (shown in the attached drawing 1), the elastic sheet 200 is required to penetrate through a bayonet 300 arranged on the framework 100 during assembly, and the bayonet 300 is arranged in a notch 400 arranged on the elastic sheet 200, and as the width of the elastic sheet 200 is larger than the inner width of the bayonet 300, the bayonet 300 is required to be deformed and opened by uniform force during assembly, and the traditional manual assembly is still adopted during assembly of the static contact, so that the production efficiency is low, uneven force tends to occur during manual operation, and the problem of large deformation of the bayonet 300 occurs. In view of the above drawbacks, it is necessary to design a stationary contact assembly mold.

Disclosure of Invention

The technical problems to be solved by the invention are as follows: the static contact assembling die solves the problem that deformation is large due to uneven force during manual assembly.

In order to solve the technical problems, the technical scheme of the invention is as follows: the utility model provides a static contact assembling die, includes bottom plate, die holder, square slider, baffle, first spring, deflector, spacing seat, strike pole, first rand, second spring, second rand, the die holder be located the bottom plate upper end, die holder and base pass through the bolt and link to each other, square slider run through the die holder, square slider can follow the die holder side-to-side, the baffle be located the die holder left side and be located square slider left side, baffle and die holder pass through the bolt and link to each other, first spring be located between square slide and the baffle, the deflector be located the die holder right side, deflector and die holder pass through the bolt and link to each other, spacing seat be located the deflector right side, spacing seat and deflector pass through the bolt and link to each other, spacing seat still be equipped with the step hole, the step hole run through spacing seat, deflector and die holder in proper order, first rand outside and be located the step hole side, the second spring be located the pole outside and be located the step hole side and be located the second rand outside and be located the striking seat outside.

The invention is further improved as follows:

furthermore, the die holder is also provided with a die cavity, the die cavity is positioned at the top of the die holder, and the die cavity does not penetrate through the die holder main body.

Furthermore, the square slide block is also provided with a push rod, the push rod is positioned on the right side of the square slide block and extends into the die cavity, and the push rod is connected with the square slide block in a welding way.

Further, the square slide block is also provided with a limiting groove, the limiting groove does not penetrate through the square slide block main body, and the limiting groove is used for limiting the first spring.

Furthermore, the striking rod is also provided with a first clamping groove, the first clamping groove is positioned at the outer side of the striking rod, the first clamping groove does not penetrate through the striking rod, the first clamping ring is embedded into the first clamping groove, and the outer diameter of the first clamping ring is larger than that of the second spring, so that the first clamping ring can compress the second spring along with the action of the striking rod.

Further, the striking rod still be equipped with the second draw-in groove, the second draw-in groove be located the striking rod outside, the second draw-in groove not run through the striking rod, the second rand imbeds in the second draw-in groove, effectively prevent the striking rod and get into the problem that does not kick-back after in the spacing seat completely.

Compared with the prior art, this static contact equipment mould, during operation, place the shell fragment that constitutes the static contact at the die cavity bottom plate that sets up on the die holder, place the shell fragment skeleton that constitutes the static contact in the shell fragment upper end again, afterwards, it stretches into the die cavity along the deflector to promote the striking rod through the striking mechanism (like the cylinder) of peripheral hardware, promote the shell fragment to move forward in stretching into the bayonet socket on the skeleton, because the skeleton is not fixed, therefore, when shell fragment and skeleton contact, the skeleton moves forward, after the ejector pin that sets up on square slider contacted with the skeleton, first spring compression, thereby have a reaction to the skeleton, along with the continued movement of striking rod, when the elastic force of first spring is greater than the elastic force that the shell fragment moved forward in stretching into the bayonet socket on the skeleton, the shell fragment stretches into the skeleton in the equipment of accomplishing the static contact. Then, the striking mechanism is reset, the second spring is reset to push the striking rod fixedly connected with the first clamping ring to reset, and the first spring is reset to push the square sliding block to reset, so that the assembled fixed contact is driven to reset. The device simple structure can replace the staff to assemble, reduces operating personnel intensity of labour, moreover, carries out buffering application of force through elastic force for shell fragment and skeleton atress are even continuous.

Drawings

FIG. 1 shows an exploded view of all assembled stationary contacts of the present invention

FIG. 2 shows an exploded view of the present invention

FIG. 3 is a three-dimensional view showing a limiting seat according to the present invention

In the figure: the die comprises a bottom plate 1, a die holder 2, a square sliding block 3, a baffle plate 4, a first spring 5, a guide plate 6, a limiting seat 7, a striking rod 8, a first clamping ring 9, a second spring 10, a second clamping ring 11, a die cavity 201, a top rod 301, a limiting groove 302, a step hole 701, a first clamping groove 801 and a second clamping groove 802.

Detailed Description

As shown in fig. 1, 2 and 3, the static contact assembling die comprises a bottom plate 1, a die holder 2, a square sliding block 3, a baffle 4, a first spring 5, a guide plate 6, a limit seat 7, a striking rod 8, a first clamping ring 9, a second spring 10 and a second clamping ring 11, wherein the die holder 2 is positioned at the upper end of the bottom plate 1, the die holder 2 is connected with the base 1 through bolts, the square sliding block 3 penetrates through the die holder 2, the square sliding block 3 can slide left and right along the die holder, the baffle 4 is positioned at the left side of the die holder 2 and is positioned at the left side of the square sliding block 3, the baffle 4 is connected with the die holder 2 through bolts, the first spring 5 is positioned between the square sliding block 3 and the baffle 4, the guide plate 6 is positioned at the right side of the die holder 2, the guide plate 6 is connected with the die holder 2 through bolts, the limit seat 7 is positioned at the right side of the guide plate 6, the limit seat 7 is connected with the guide plate 6 through bolts, the limit seat 7 is also provided with a step hole 701, the step hole 701 penetrates through the limit seat 7, the striking rod 8 penetrates through the limit seat 7, the guide plate 6 and the die holder 2 in sequence, the first clamping ring 9 is positioned at the outer side of the striking rod 8 and positioned at the inner side of the step hole 701, the second spring 10 is positioned at the outer side of the striking rod 8 and positioned at the inner side of the step hole 701, the second clamping ring 11 is positioned at the outer side of the striking rod 8 and positioned at the outer side of the limit seat 7, the die holder 2 is also provided with a die cavity 201, the die cavity 201 is positioned at the top of the die holder 2, the die cavity 201 does not penetrate through the die holder 2 main body, the square slide 3 is also provided with a push rod 301, the push rod 301 is positioned at the right side of the square slide 3 and stretches into the die cavity 201, the push rod 301 is welded and connected with the square slide 3, the square slide 3 is also provided with a limit groove 302, the limit groove 302 does not penetrate through the square slide block 3 main body, the limit groove 302 is used for limiting the first spring 5, the striking rod 8 is also provided with a first clamping groove 801, the first clamping groove 801 is positioned at the outer side of the striking rod 8, the first clamping groove 801 does not penetrate through the striking rod 8, the first clamping ring 9 is embedded into the first clamping groove 801, and because the outer diameter of the first clamping ring 9 is larger than that of the second spring 10, the first clamping ring 9 can compress the second spring 10 when moving along with the striking rod 8, the striking rod 8 is also provided with a second clamping groove 802, the second clamping groove 802 is positioned at the outer side of the striking rod 8, the second clamping groove 802 does not penetrate through the striking rod 8, the second clamping ring 11 is embedded into the second clamping groove 802, thereby effectively preventing the problem that the striking rod 8 does not rebound after completely entering the limit seat 7, this static contact equipment mould, during operation, place the shell fragment that constitutes the static contact at the die cavity 201 bottom plate that sets up on die holder 2, place the shell fragment skeleton that constitutes the static contact in the shell fragment upper end again, afterwards, in pushing the striking rod 8 along deflector 6 stretch into die cavity 201 through peripheral hardware's striking mechanism (like the cylinder), promote the shell fragment to move forward and stretch into in the bayonet socket on the skeleton, because the skeleton is not fixed, therefore, when shell fragment and skeleton contact, the skeleton moves forward, after the ejector pin 301 that sets up on square slider 3 contacted with the skeleton, first spring 5 compression, thereby have a reaction to the skeleton, along with the continued movement of striking rod 8, when the elastic force of first spring 5 is greater than the blocking force that the shell fragment moved forward stretches into in the bayonet socket on the skeleton, the shell fragment stretches into in the skeleton and accomplishes the equipment of static contact. Then, the striking mechanism is reset, the second spring 10 is reset to push the striking rod 8 fixedly connected with the first clamping ring 9 to reset, and the first spring 5 is reset to push the square sliding block 3 to reset, so that the assembled fixed contact is driven to reset. The device simple structure can replace the staff to assemble, reduces operating personnel intensity of labour, moreover, carries out buffering application of force through elastic force for shell fragment and skeleton atress are even continuous.

The present invention is not limited to the above-described specific embodiments, and various modifications may be made by those skilled in the art without inventive effort from the above-described concepts, and are within the scope of the present invention.

Claims

1. The fixed contact assembling die is characterized by comprising a bottom plate, a die holder, square sliding blocks, a baffle, a first spring, a guide plate, a limit seat, a striking rod, a first clamping ring, a second spring and a second clamping ring, wherein the die holder is positioned at the upper end of the bottom plate, the die holder is connected with the base through bolts, the square sliding blocks penetrate through the die holder, the square sliding blocks can slide left and right along the die holder, the baffle is positioned at the left side of the die holder and is positioned at the left side of the square sliding blocks, the baffle is connected with the die holder through bolts, the first spring is positioned between the square sliding blocks and the baffle, the guide plate is positioned at the right side of the die holder, the guide plate is connected with the die holder through bolts, the limit seat is also provided with a step hole, the striking rod penetrates through the limit seat, the guide plate and the die holder sequentially, the first spring is positioned at the outer side of the rod and is positioned at the inner side of the step hole, the guide plate is positioned at the outer side of the second clamping ring and is positioned at the outer side of the limit seat. The die holder is also provided with a die cavity, the die cavity is positioned at the top of the die holder, and the die cavity does not penetrate through the die holder main body; the square slide block is also provided with a push rod, the push rod is positioned on the right side of the square slide block and extends into the die cavity, and the push rod is connected with the square slide block in a welding way; the square slide block is also provided with a limit groove, and the limit groove does not penetrate through the square slide block main body.

2. The stationary contact assembling die of claim 1, wherein the striking rod is further provided with a first clamping groove, the first clamping groove is located at the outer side of the striking rod, and the first clamping groove does not penetrate through the striking rod.

3. The stationary contact assembling die of claim 1, wherein the striking rod is further provided with a second clamping groove, the second clamping groove is located at the outer side of the striking rod, and the second clamping groove does not penetrate through the striking rod.