CN112164605B - Vacuum circuit breaker copper foil flexible connection forming processing equipment and processing technology - Google Patents

Abstract

The invention provides a vacuum circuit breaker copper foil flexible connection forming processing device and a processing technology, which comprises an installation bottom plate, lifting slide rods, a top plate, a supporting mechanism, a compaction mechanism and a limiting mechanism, wherein the lifting slide rods are evenly installed at the corners around the upper end of the installation bottom plate, the top plate is installed at the upper end of each lifting slide rod, the supporting mechanism is installed on the installation bottom plate between the lifting slide rods, the limiting mechanism is installed on the supporting mechanism in a rotating fit manner, the compaction mechanism is installed on each lifting slide rod in a sliding fit manner, the compacting mechanism is positioned above the supporting mechanism, the supporting mechanism can realize the bottom supporting function on the copper foil flexible connection of the vacuum circuit breaker and provide a certain angle adjusting function, the compacting mechanism can cooperate with the supporting mechanism, and after the operation is finished, automatic hole opening operation is carried out on the copper foil flexible connection of the vacuum circuit breaker, and the working efficiency of the copper foil flexible connection forming and processing operation of the vacuum circuit breaker is further improved.

Description

Vacuum circuit breaker copper foil flexible connection forming processing equipment and processing technology

Technical Field

The invention relates to the technical field of forming and processing of copper foils of vacuum circuit breakers, in particular to flexible connection forming and processing equipment and a flexible connection forming and processing technology for copper foils of vacuum circuit breakers.

Background

The copper foil flexible connection of the vacuum circuit breaker adopts thick copper foil as a raw material, and the copper foil laminated parts are pressed together to be bent into a corresponding shape.

In the process of forming the copper foil flexible connection of the vacuum circuit breaker, the copper foil flexible connection of the vacuum circuit breaker needs to be aligned according to specific installation positions and installation modes to perform bending operations at different angles, but the following problems exist in the existing copper foil flexible connection forming operation of the vacuum circuit breaker: a, when the copper foil flexible connection forming processing operation of the traditional vacuum circuit breaker is carried out, because the bending forming angles are different greatly, the forming angle of forming processing equipment needs to be adjusted manually in real time, the labor intensity of workers is increased by the operation mode, the working efficiency of the copper foil flexible connection forming processing operation of the vacuum circuit breaker is reduced, the number of the copper foil flexible connections of the vacuum circuit breaker which are required to be processed is large, and the accuracy of angle control adjustment is difficult to carry out by manual long-term operation; b, when the flexible coupling forming processing operation of the existing vacuum circuit breaker copper foil is carried out, the flexible coupling forming processing operation of the vacuum circuit breaker copper foil after the forming processing is finished is required to be carried out, the flexible coupling forming processing operation of the vacuum circuit breaker copper foil is small in size and thin in thickness, the accuracy of the hole opening position is difficult to guarantee through manual hole opening operation, and the reject ratio generated in the hole opening operation process is high.

Disclosure of Invention

In order to make up the defects of the prior art, the invention provides a copper foil flexible connection forming processing device of a vacuum circuit breaker.

The technical scheme adopted by the invention to solve the technical problem is as follows: the utility model provides a vacuum circuit breaker copper foil flexible coupling shaping processing equipment, including mounting plate, the lift slide bar, the roof, supporting mechanism, compaction mechanism and stop gear, the lift slide bar is evenly installed to mounting plate upper end corner all around, the roof is installed to the upper end of lift slide bar, be located and install supporting mechanism on the mounting plate between the lift slide bar, stop gear is installed through normal running fit on the supporting mechanism, install compaction mechanism through sliding fit on the lift slide bar, and compaction mechanism is located the supporting mechanism top.

The supporting mechanism comprises supporting side plates, lifting slide ways, lifting slide seats, lifting electric push rods, supporting slide rods, lifting racks, lifting gears, a slide groove frame, lifting connecting rods, connecting blocks, a supporting bottom plate, a supporting rotating plate, a supporting slide plate and supporting slide grooves, wherein the supporting side plates are symmetrically arranged on the mounting bottom plate between the lifting slide rods, the number of the supporting side plates is two, the lifting slide ways are arranged on the mounting bottom plate between the supporting side plates, the lifting slide seats are arranged in the lifting slide ways in a sliding fit manner, the lifting electric push rods are arranged on the mounting bottom plate through a motor base, the output shafts of the lifting electric push rods are connected with the lifting slide seats, the supporting slide rods are arranged between the supporting side plates above the lifting slide seats in a sliding fit manner, the outer walls on two sides of the supporting slide rods are uniformly provided with the lifting racks, and the lower ends of the supporting slide rods abut against the lifting slide seats through a sliding fit manner, the upper end of the supporting slide bar is provided with a supporting bottom plate, the supporting bottom plate is provided with a supporting rotary plate through rotating fit, the supporting rotary plate is provided with a supporting slide plate through rotating fit, the supporting slide plate is symmetrically provided with an opening notch, the supporting side plates are symmetrically provided with supporting slide grooves, the side walls of the supporting slide plate are arranged in the supporting slide grooves through sliding fit, the supporting side plates at two sides of the supporting slide bar are symmetrically provided with lifting gears through rotating fit, the lifting gears are in meshing transmission with lifting racks, the supporting side plates at two sides of the lifting gears are symmetrically provided with slide groove frames, the lifting connecting rods are symmetrically arranged in the slide groove frames through sliding fit, the upper ends of the lifting connecting rods are provided with connecting blocks through rotating fit, the lifting connecting rods are connected with the supporting rotary plate through the connecting blocks, the supporting rotary plate is provided with a limiting mechanism through rotating fit, and the lifting slide seat can stably push the supporting slide bar to move through sliding fit, the bottom of the copper foil flexible connection of the vacuum circuit breaker is supported, and the function of adjusting the angle of the supporting rotating plate can be realized under the matching of the lifting gear and the meshing teeth through the lifting connecting rod which is obliquely arranged.

As a preferred technical scheme of the invention, the compaction mechanism comprises a compaction air cylinder, a compaction sliding frame, an adjusting notch, a compaction sliding chute, a fixed plate, a distance-adjusting electric push rod, a distance-adjusting slide block, a distance-adjusting rotating wheel, a connecting belt, a distance-adjusting slide rod, a distance-adjusting spring, a compaction bottom plate, a compaction sliding plate, a compaction rotating plate and a drilling unit, wherein the compaction sliding frame is arranged on a lifting slide rod positioned above a supporting side plate through sliding fit, the compaction air cylinder is arranged on a top plate, an output shaft of the compaction air cylinder is connected with the compaction sliding frame, the lower end of the compaction sliding frame is symmetrically provided with the compaction sliding chutes, the compaction sliding plates are symmetrically arranged in the compaction sliding chutes through sliding fit, the number of the compaction sliding plates is two, the compaction sliding plates are provided with an opening notch in a matching way, the compaction rotating plate is arranged on the compaction sliding plate through rotating fit, the compaction rotating plates are formed by splicing two sliding plates with the same structure in a staggered way through sliding fit, a compression spring is arranged between two adjacent sliding plates, the phenomenon that the compaction rotating plates are not extruded in place due to shrinkage in the compaction process can be avoided through the elastic force action of the compression spring, a compaction bottom plate is arranged between the compaction rotating plates in a rotating fit mode, an adjusting notch is formed in each compaction sliding frame, distance adjusting sliding blocks are symmetrically arranged on the compaction sliding plates and are arranged in the adjusting notches in a sliding fit mode, a fixing plate is arranged in each adjusting notch, a distance adjusting electric push rod is arranged on one side of each fixing plate through a motor base, an output shaft of each distance adjusting electric push rod is connected with each distance adjusting sliding block, a distance adjusting sliding rod is arranged between the other side of each fixing plate and each compaction sliding frame and is in sliding fit with each distance adjusting sliding rod, a distance adjusting spring is sleeved on each distance adjusting sliding rod between each distance adjusting sliding block and the compaction sliding frame, a distance adjusting rotating wheel is arranged in each adjusting notch in a rotating fit mode, and the distance adjusting sliding blocks and the distance adjusting rotating wheels are connected and driven through a connecting belt, the drilling unit is installed through normal running fit in the compaction balladeur train that is located compaction slide top, through setting up the elasticity cooperation between roll adjustment spring and the connecting band, can be under roll adjustment electric putter's promotion simultaneously through the sliding distance of roll adjustment slider control compaction slide, can promote the compaction bottom plate through the extrusion of compaction commentaries on classics board through the compression spring that sets up all the time and support and lean on the upper surface at vacuum circuit breaker copper foil flexible coupling to carry out the contour machining operation under the promotion of compaction cylinder.

As a preferred technical scheme of the invention, the drilling unit comprises an adjusting motor, an adjusting rotating shaft, an adjusting gear, an adjusting rotary drum, an adjusting slide bar, an adjusting rack, a drill bit, a drilling motor, a connecting groove, a connecting slide bar and a connecting plate, wherein the compacting carriage is provided with the connecting groove, the connecting slide bar is symmetrically installed in the connecting groove through sliding fit, the connecting slide bar is connected with the compacting slide plate through the connecting plate, the adjusting rotary drum is installed on the connecting slide bar positioned on the inner side of the compacting carriage, the adjusting slide bar is installed in the adjusting rotary drum through sliding fit, the drilling motor is installed at the lower end of the adjusting slide bar through a motor base, the drill bit is installed on an output shaft of the drilling motor through a coupler, the adjusting rack is arranged on the circumferential side wall of the adjusting slide bar, the adjusting rotating shaft is installed in the compacting carriage through rotating fit, the adjusting gear is symmetrically installed on the adjusting rotating shaft through splines, and the adjusting gear is in meshing transmission with the adjusting rack, an adjusting motor is installed in the compaction sliding frame through a motor base, an output shaft of the adjusting motor is connected with the adjusting rotating shaft through a coupler, the compaction sliding plate can drive the drill bit to move synchronously through the adjusting rotating cylinder while moving through the connecting sliding rod and the connecting plate, and the drill bit can be driven to move slowly through the meshing transmission of the adjusting rack and the adjusting gear, so that the hole opening operation is facilitated.

As a preferred technical scheme of the invention, the limiting mechanism comprises a limiting rotary groove, a limiting rotary shaft, a limiting cam and a limiting motor, the limiting rotary groove is formed in the supporting rotary plate, the limiting rotary shaft is installed in the limiting rotary groove in a rotating fit mode, the limiting cam is evenly installed on the limiting rotary shaft through splines, an engaging groove matched with the limiting cam is formed in the supporting rotary plate, the limiting cam is in sliding fit with the supporting rotary plate in the engaging groove, the limiting motor is installed in the limiting rotary groove through a motor base, an output shaft of the limiting motor is connected with the limiting rotary shaft through a coupler, and the telescopic length of the supporting rotary plate is adjusted through the mutual fit between the limiting cam and the engaging groove formed in the supporting rotary plate, so that the control of the length of an inclined plane during the forming processing of the copper foil of the vacuum circuit breaker is realized.

As a preferred technical solution of the present invention, the supporting rotating plate is a telescopic adjustable rotating plate formed by combining a plurality of independent plates in a sliding fit manner, and the telescopic length of the supporting rotating plate can be adjusted by the mutual fit between the plates.

As a preferable technical scheme of the invention, the lower end of the lifting connecting rod is uniformly provided with meshing teeth, and the lifting connecting rod is in meshing transmission with the lifting gear through the meshing teeth.

Compared with the prior art, the invention has the following advantages:

1. the supporting mechanism provided by the invention has the advantages that the lifting slide seat is arranged, the supporting slide rod can be stably pushed to move through the sliding and abutting action, the bottom of the vacuum circuit breaker copper foil flexible connection is supported, the lifting connecting rod is obliquely arranged, the function of adjusting the angle of the supporting rotating plate can be realized under the matching of the lifting gear and the meshing teeth, the telescopic length of the supporting rotating plate is adjusted through the mutual matching between the limiting cam and the meshing groove arranged on the supporting rotating plate, the control of the length of the inclined plane during the forming and processing of the vacuum circuit breaker copper foil is realized, the manual operation process is further simplified, and the working efficiency of the forming and processing of the vacuum circuit breaker copper foil flexible connection is improved.

2. The compacting mechanism designed by the invention can control the sliding distance of the compacting sliding plate through the distance adjusting slide block under the pushing of the distance adjusting electric push rod by arranging the elastic fit between the distance adjusting spring and the connecting belt, can push the compacting bottom plate to abut against the upper surface of the copper foil flexible connection of the vacuum circuit breaker through the extrusion action of the compacting rotating plate all the time by the arranged compression spring, and can carry out forming processing operation under the pushing of the compacting cylinder.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a first cross-sectional view of the present invention;

FIG. 3 is a second cross-sectional view of the present invention;

FIG. 4 is a schematic view of a partial perspective view of the support mechanism of the present invention;

FIG. 5 is a schematic view of a partial perspective of the compaction mechanism of the invention;

fig. 6 is a schematic view, partially in section, of a spacing mechanism of the present invention.

Detailed Description

In order to make the technical means, the creation features, the achievement purposes and the effects of the invention easy to understand, the invention is further explained with reference to fig. 1 to 6.

The utility model provides a vacuum circuit breaker copper foil flexible coupling shaping processing equipment, including mounting plate 1, lift slide bar 2, roof 3, supporting mechanism 4, compacting mechanism 5 and stop gear 6, 1 upper end of mounting plate corner all around evenly installs lift slide bar 2, roof 3 is installed to lift slide bar 2's upper end, be located and install supporting mechanism 4 on the mounting plate 1 between the lift slide bar 2, install stop gear 6 through normal running fit on the supporting mechanism 4, install compacting mechanism 5 through sliding fit on the lift slide bar 2, and compacting mechanism 5 is located 4 tops of supporting mechanism.

The supporting mechanism 4 comprises supporting side plates 4a, lifting slide ways 4b, lifting slide seats 4c, lifting electric push rods 4d, supporting slide rods 4e, lifting racks 4f, lifting gears 4g, chute frames 4h, lifting connecting rods 4j, connecting blocks 4k, supporting bottom plates 4m, supporting rotating plates 4n, supporting slide plates 4p and supporting chutes 4q, the supporting side plates 4a are symmetrically arranged on the mounting bottom plate 1 between the lifting slide rods 2, the number of the supporting side plates 4a is two, the lifting slide ways 4b are arranged on the mounting bottom plate 1 between the supporting side plates 4a, the lifting slide seats 4c are arranged in the lifting slide ways 4b in a sliding fit manner, the lifting electric push rods 4d are arranged on the mounting bottom plate 1 through motor bases, the output shafts of the lifting electric push rods 4d are connected with the lifting slide seats 4c, the supporting slide rods 4e are arranged between the supporting side plates 4a above the lifting slide seats 4c in a sliding fit manner, the outer walls of two sides of a supporting slide bar 4e are uniformly provided with lifting racks 4f, the lower end of the supporting slide bar 4e is abutted against a lifting slide seat 4c through sliding fit, the upper end of the supporting slide bar 4e is provided with a supporting bottom plate 4m, the supporting bottom plate 4m is provided with a supporting rotating plate 4n through rotating fit, the supporting rotating plate 4n is provided with a supporting slide plate 4p through rotating fit, supporting slide grooves 4q are symmetrically arranged on supporting side plates 4a, the side walls of the supporting slide plates 4p are arranged in the supporting slide grooves 4q through sliding fit, lifting gears 4g are symmetrically arranged on the supporting side plates 4a on two sides of the supporting slide bar 4e through rotating fit, the lifting gears 4g are in meshing transmission with the lifting racks 4f, slide groove frames 4h are symmetrically arranged on the supporting side plates 4a on two sides of the lifting gears 4g, and lifting connecting rods 4j are symmetrically arranged in the slide groove frames 4h through sliding fit, the lower extreme of lifting connecting rod 4j evenly is provided with the meshing tooth, and lifting connecting rod 4j passes through the meshing tooth and with lifting gear 4g meshing transmission, and connecting block 4k is installed through running fit in lifting connecting rod 4 j's upper end, and lifting connecting rod 4j passes through connecting block 4k and supports and change board 4n and be connected, supports and changes and install stop gear 6 through running fit on the board 4 n.

Stop gear 6 include spacing rotating groove 6a, spacing pivot 6b, spacing cam 6c and spacing motor 6d, support and seted up spacing rotating groove 6a on the commentaries on classics board 4n, install spacing pivot 6b through normal running fit in the spacing rotating groove 6a, evenly install spacing cam 6c through the spline on the spacing pivot 6b, support and seted up on the commentaries on classics board 4n with spacing cam 6c matched with meshing groove, spacing cam 6c with support commentaries on classics board 4n sliding fit in the meshing groove, install spacing motor 6d through the motor cabinet in the spacing rotating groove 6a, spacing motor 6 d's output shaft is connected with spacing pivot 6b through the shaft coupling.

When the copper foil vacuum circuit breaker forming machine works specifically, the bending angles of all parts in the supporting mechanism 4 are adjusted according to the specific processing forming shape required by the copper foil of the vacuum circuit breaker, the lifting slide seat 4c is pushed to slide along the lifting slide way 4b through the lifting electric push rod 4d, the lifting slide seat 4c pushes the supporting slide rod 4e to move through abutting against the supporting action, the supporting bottom plate 4m is further pushed to move, the height of the lowest forming surface during the forming processing of the copper foil of the vacuum circuit breaker is adjusted, the supporting slide rod 4e slides, the supporting slide rod 4e drives the lifting gear 4g to rotate through the meshing action between the lifting rack 4f and the lifting gear 4g, the lifting gear 4g drives the lifting connecting rod 4j to slide along the sliding groove frame 4h through the meshing transmission between meshing teeth arranged on the lifting connecting rod 4j, the supporting rotary plate 4n is driven to rotate through the lifting connecting rod 4j, drive spacing pivot 6b through spacing motor 6d and rotate, further drive spacing cam 6c and rotate, accessible spacing cam 6c and the flexible length of mutually supporting between the meshing groove that sets up on supporting commentaries on classics board 4n and adjusting support commentaries on classics board 4n, with this realization to the control of inclined plane length during vacuum circuit breaker copper foil forming machining, it can realize the control of inclined plane angle during vacuum circuit breaker copper foil forming machining to drive through left and right sides lifting connecting rod 4j and support commentaries on classics board 4n pivoted angle, afterwards, will treat the vacuum circuit breaker copper foil of forming machining and place between two parties on the support slide 4p through the manual work, be convenient for carry out operation on next step.

The compaction mechanism 5 comprises a compaction air cylinder 5a, a compaction sliding frame 5b, an adjusting notch 5c, a compaction sliding groove 5d, a fixing plate 5e, a distance-adjusting electric push rod 5f, a distance-adjusting slide block 5g, a distance-adjusting rotating wheel 5h, a connecting belt 5j, a distance-adjusting slide rod 5k, a distance-adjusting spring 5m, a compaction bottom plate 5n, a compaction sliding plate 5p, a compaction rotating plate 5q and a drilling unit 5r, wherein the compaction sliding frame 5b is arranged on the lifting slide rod 2 above the supporting side plate 4a in a sliding fit manner, the compaction air cylinder 5a is arranged on the top plate 3, an output shaft of the compaction air cylinder 5a is connected with the compaction sliding frame 5b, the compaction sliding grooves 5d are symmetrically arranged at the lower end of the compaction sliding frame 5b, the compaction sliding plates 5p are symmetrically arranged in the compaction sliding grooves 5d in a sliding fit manner, the number of the compaction sliding plates 5p is two, the compaction rotating plate 5q is arranged on the compaction sliding plate 5p in a rotating fit manner, the compaction rotating plate 5q is formed by splicing two sliding plates with the same structure in a staggered way through sliding fit, a compression spring is arranged between the two adjacent sliding plates, the situation that the compaction rotating plate 5q is not extruded in place due to shrinkage in the compaction process can be avoided through the elastic force action of the compression spring, a compaction bottom plate 5n is arranged between the compaction rotating plates 5q through rotating fit, an adjusting notch 5c is arranged in a compaction sliding frame 5b, distance adjusting sliding blocks 5g are symmetrically arranged on the compaction sliding plates 5p, the distance adjusting sliding blocks 5g are arranged in the adjusting notch 5c through sliding fit, a fixed plate 5e is arranged in the adjusting notch 5c, a distance adjusting electric push rod 5f is arranged on one side of the fixed plate 5e through a motor base, the output shaft of the distance adjusting electric push rod 5f is connected with the distance adjusting sliding blocks 5g, and a distance adjusting slide rod 5k is arranged between the other side of the fixed plate 5e and the compaction sliding frame 5b, and the distance adjusting slide block 5g is in sliding fit with the distance adjusting slide rod 5k, the distance adjusting spring 5m is sleeved on the distance adjusting slide rod 5k between the distance adjusting slide block 5g and the compacting sliding frame 5b, the distance adjusting rotating wheel 5h is installed in the adjusting notch 5c through rotating fit, the distance adjusting slide block 5g and the distance adjusting rotating wheel 5h are connected and driven through a connecting belt 5j, and the drilling unit 5r is installed in the compacting sliding frame 5b above the compacting sliding plate 5p through rotating fit.

When the vacuum circuit breaker copper foil is placed, the distance adjusting electric push rod 5f pulls the distance adjusting slide block 5g to move inwards under the influence of the distance between the distance adjusting slide blocks 5g, the connecting belt 5j is in a loose state, then the distance adjusting slide block 5g on the other side is pushed to slide along the distance adjusting slide rod 5k under the elastic force action of the distance adjusting spring 5m, so that the connecting belt 5j is straightened again, the distance adjusting slide blocks 5g drive the compaction slide plates 5p on the left side and the right side to slide inwards along the compaction slide grooves 5d, the compaction rotary plates 5q are driven to turn over through the rotating matching between the compaction slide plates 5p and the compaction rotary plates 5q, so that the inclination angle matched with the supporting rotary plates 4n is adjusted, meanwhile, the compaction air cylinder 5a pushes the sliding frame compaction 5b to move downwards along the lifting slide rod 2, so that the compaction bottom plate 5n is abutted to the upper surface of the vacuum circuit breaker copper foil, and then, continuously moving downwards to enable the compacting bottom plate 5n and the compacting rotating plate 5q to simultaneously move downwards, and completing the forming operation of the copper foil of the vacuum circuit breaker by matching the supporting bottom plate 4m and the supporting rotating plate 4 n.

The drilling unit 5r comprises an adjusting motor 5r1, an adjusting rotating shaft 5r2, an adjusting gear 5r3, an adjusting rotary drum 5r4, an adjusting slide bar 5r5, an adjusting rack 5r6, a drill bit 5r7, a drilling motor 5r8, a connecting groove 5r9, a connecting slide bar 5r10 and a connecting plate 5r11, wherein the compacting carriage 5b is provided with the connecting groove 5r9, the connecting groove 5r9 is internally and symmetrically provided with the connecting slide bar 5r10 through sliding fit, the connecting slide bar 5r10 is connected with the compacting slide plate 5p through the connecting plate 5r11, the connecting slide bar 5r10 positioned at the inner side of the compacting carriage 8655 b is provided with the adjusting rotary drum 5r4, the adjusting rotary drum 5r5 is internally and slidably fitted in the adjusting rotary drum 5r 355 r7, the lower end of the adjusting slide bar 5r5 is provided with the drilling motor 5r8 through a motor base, the output shaft of the drilling motor 5r8 is provided with the drill bit 5r7 through a coupler, the adjusting rack 365 r4 r5 is provided with a circumference adjusting rack 6, an adjusting rotating shaft 5r2 is installed in the compacting sliding frame 5b through rotating fit, adjusting gears 5r3 are symmetrically installed on the adjusting rotating shaft 5r2 through splines, the adjusting gears 5r3 are in meshed transmission with the adjusting rack 5r6, an adjusting motor 5r1 is installed in the compacting sliding frame 5b through a motor base, and an output shaft of the adjusting motor 5r1 is connected with the adjusting rotating shaft 5r2 through a coupler.

During the concrete work, when the compacting sliding plate 5p slides along the compacting sliding groove 5d, the connecting plate 5r11 drives the connecting sliding rod 5r10 to slide along the connecting groove 5r9, and further drives the adjusting rotary drum 5r4 to move, after the forming operation is finished, the adjusting motor 5r1 rotates forwards, the adjusting gear 5r3 is driven to rotate by the adjusting rotating shaft 5r2, the adjusting gear 5r3 drives the adjusting slide bar 5r5 to slide downwards through the meshing transmission with the adjusting rack 5r6, meanwhile, the drilling motor 5r8 drives the drill bit 5r7 to rotate, drilling the copper foil of the vacuum circuit breaker, adjusting the motor 5r1 to rotate reversely after the drilling is finished, and the adjusting gear 5r3 is driven to rotate by the adjusting rotating shaft 5r2, and the drill 5r7 is driven to move upwards by the adjusting slide bar 5r5 and move out of the drilled hole on the copper foil of the vacuum circuit breaker.

In addition, the invention also provides a vacuum circuit breaker copper foil flexible connection forming processing technology which is mainly completed by matching the vacuum circuit breaker copper foil flexible connection forming processing equipment and comprises the following steps:

the first step is as follows: firstly, the bending angle of each part in the supporting mechanism 4 is adjusted according to the specific processing and forming shape required by the copper foil of the vacuum circuit breaker, the lifting electric push rod 4d pushes the supporting bottom plate 4m to move through the lifting slide seat 4c and the supporting slide rod 4e so as to adjust the height of the lowest forming surface during the forming and processing of the copper foil of the vacuum circuit breaker,

the second step is that: when supporting slide bar 4e and carrying out the slip, support slide bar 4e and drive lifting connecting rod 4j through lifting rack 4f and lifting gear 4g and slide along chute frame 4h, it rotates to drive through lifting connecting rod 4j and support commentaries on classics board 4n, it can realize the control of inclined plane angle to vacuum circuit breaker copper foil contour machining with supporting commentaries on classics board 4n pivoted angle to drive through left and right sides lifting connecting rod 4j, afterwards, place the vacuum circuit breaker copper foil of treating contour machining between two parties on supporting slide 4p through the manual work, be convenient for carry out operation on next step.

The third step: after the vacuum circuit breaker copper foil is placed and is accomplished, roll adjustment electric putter 5f passes through roll adjustment slider 5g and roll adjustment spring 5m and drives the compaction slide 5p of the left and right sides simultaneously along compaction spout 5d inboard slip, and rotate the cooperation through between compaction slide 5p and the compaction commentaries on classics board 5q and drive compaction commentaries on classics board 5q and overturn, with this regulation and support the inclination of matched with between the commentaries on classics board 4n, simultaneously, compaction cylinder 5a promotes compaction balladeur train 5b and moves along lift slide bar 2 downwards, make compaction bottom plate 5n and compaction commentaries on classics board 5q simultaneously move downwards, and cooperate supporting bottom plate 4m and support commentaries on classics board 4n to accomplish the shaping operation to the vacuum circuit breaker copper foil.

The fourth step: when the compaction sliding plate 5p slides along the compaction sliding groove 5d, the connection sliding rod 5r10 is driven to slide along the connection groove 5r9 through the connection plate 5r11, the adjustment rotary drum 5r4 is further driven to move, after the forming operation is completed, the adjustment motor 5r1 rotates forwards, the adjustment rotary shaft 5r2 and the adjustment gear 5r3 drive the adjustment sliding rod 5r5 to slide downwards, meanwhile, the drilling motor 5r8 drives the drill bit 5r7 to rotate, the drilling operation is performed on the copper foil of the vacuum circuit breaker, after the drilling operation is completed, the adjustment motor 5r1 rotates backwards, the adjustment sliding rod 5r5 drives the drill bit 5r7 to move upwards, and the drill hole on the copper foil of the vacuum circuit breaker is removed.

The fifth step: after the flexible connection forming processing operation of the copper foil of the vacuum circuit breaker is completely finished, the compaction sliding frame 5b is pulled to move upwards through the compaction air cylinder 5a, the lifting sliding seat 4c is pushed to slide through the lifting electric push rod 4d, the supporting bottom plate 4m is further pushed to move upwards through the supporting sliding rod 4e, the processed copper foil of the vacuum circuit breaker is ejected out, and the copper foil is collected manually.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (5)

1. The utility model provides a vacuum circuit breaker copper foil flexible coupling shaping processing equipment, includes mounting plate (1), lift slide bar (2), roof (3), supporting mechanism (4), compacting mechanism (5) and stop gear (6), its characterized in that: mounting plate (1) upper end corner all around evenly installs lift slide bar (2), roof (3) are installed to the upper end of lift slide bar (2), be located and install supporting mechanism (4) on mounting plate (1) between lift slide bar (2), install stop gear (6) through normal running fit on supporting mechanism (4), install on lift slide bar (2) compaction mechanism (5) through sliding fit, and compaction mechanism (5) are located supporting mechanism (4) top, wherein:

the supporting mechanism (4) comprises supporting side plates (4 a), lifting slide ways (4 b), lifting slide seats (4 c), lifting electric push rods (4 d), supporting slide rods (4 e), lifting racks (4 f), lifting gears (4 g), a chute frame (4 h), lifting connecting rods (4 j), connecting blocks (4 k), supporting bottom plates (4 m), supporting rotating plates (4 n), supporting slide plates (4 p) and supporting slide grooves (4 q), the supporting side plates (4 a) are symmetrically arranged on a mounting bottom plate (1) positioned between the lifting slide rods (2), the number of the supporting side plates (4 a) is two, the lifting slide ways (4 b) are arranged on the mounting bottom plate (1) positioned between the supporting side plates (4 a), the lifting slide ways (4 c) are arranged in the lifting slide ways (4 b) in a sliding fit manner, the lifting electric push rods (4 d) are arranged on the mounting bottom plate (1) through a motor base, the output shaft of lift electric putter (4 d) is connected with lift slide (4 c), install through sliding fit between the support curb plate (4 a) that is located lift slide (4 c) top and support slide bar (4 e), the both sides outer wall that supports slide bar (4 e) evenly is provided with lift rack (4 f) and supports the lower extreme of slide bar (4 e) and leans on lift slide (4 c) through sliding fit, supporting baseplate (4 m) is installed to the upper end that supports slide bar (4 e), install support rotor plate (4 n) through sliding fit on supporting baseplate (4 m), install support slide (4 p) through rotating fit on support rotor plate (4 n), the symmetry is provided with support spout (4 q) on support curb plate (4 a), the lateral wall that supports slide (4 p) is installed in support spout (4 q) through sliding fit, it rises to install through rotating fit symmetry on the support curb plate (4 a) that is located support slide bar (4 e) both sides to be located to support curb plate (4 a) and to support slide bar (4 c) both sides The lifting mechanism comprises a lifting gear (4 g), a lifting gear (4 g) and a lifting rack (4 f) are in meshed transmission, sliding groove frames (4 h) are symmetrically installed on supporting side plates (4 a) located on two sides of the lifting gear (4 g), lifting connecting rods (4 j) are symmetrically installed in the sliding groove frames (4 h) through sliding fit, connecting blocks (4 k) are installed at the upper ends of the lifting connecting rods (4 j) through rotating fit, the lifting connecting rods (4 j) are connected with a supporting rotating plate (4 n) through the connecting blocks (4 k), and limiting mechanisms (6) are installed on the supporting rotating plate (4 n) through rotating fit;

the compaction mechanism (5) comprises a compaction cylinder (5 a), a compaction sliding frame (5 b), an adjusting notch (5 c), a compaction sliding groove (5 d), a fixing plate (5 e), a distance adjusting electric push rod (5 f), a distance adjusting slide block (5 g), a distance adjusting rotating wheel (5 h), a connecting belt (5 j), a distance adjusting slide rod (5 k), a distance adjusting spring (5 m), a compaction bottom plate (5 n), a compaction sliding plate (5 p), a compaction rotating plate (5 q) and a drilling unit (5 r), wherein the compaction sliding frame (5 b) is arranged on a lifting slide rod (2) positioned above a supporting side plate (4 a) through sliding fit, the compaction cylinder (5 a) is arranged on a top plate (3), an output shaft of the compaction cylinder (5 a) is connected with the compaction sliding frame (5 b), the compaction sliding grooves (5 d) are symmetrically arranged at the lower end of the compaction sliding frame (5 b), and the compaction sliding plates (5 p) are symmetrically arranged in the compaction sliding fit, the number of the compaction sliding plates (5 p) is two, the compaction rotating plates (5 q) are arranged on the compaction sliding plates (5 p) through rotating fit, the compaction rotating plates (5 q) are formed by splicing two sliding plates with the same structure in a staggered mode through sliding fit, compaction bottom plates (5 n) are arranged between the compaction rotating plates (5 q) through rotating fit, adjusting notches (5 c) are arranged in the compaction sliding frames (5 b), distance adjusting sliding blocks (5 g) are symmetrically arranged on the compaction sliding plates (5 p), the distance adjusting sliding blocks (5 g) are arranged in the adjusting notches (5 c) through sliding fit, fixing plates (5 e) are arranged in the adjusting notches (5 c), distance adjusting electric push rods (5 f) are arranged on one sides of the fixing plates (5 e) through motor bases, output shafts of the distance adjusting electric push rods (5 f) are connected with the distance adjusting sliding blocks (5 g), distance adjusting slide rods (5 k) are arranged between the other sides of the fixing plates (5 e) and the compaction sliding frames (, and roll adjustment slider (5 g) and roll adjustment slide bar (5 k) sliding fit, the cover is equipped with roll adjustment spring (5 m) on roll adjustment slide bar (5 k) between roll adjustment slider (5 g) and compaction balladeur train (5 b), install roll adjustment runner (5 h) through normal running fit in adjusting notch (5 c), connect the transmission through connecting band (5 j) between roll adjustment slider (5 g) and roll adjustment runner (5 h), install drilling unit (5 r) through normal running fit in compaction balladeur train (5 b) that is located compaction slide (5 p) top.

2. The vacuum circuit breaker copper foil flexible connection molding processing equipment as claimed in claim 1, characterized in that: the drilling unit (5 r) comprises an adjusting motor (5 r 1), an adjusting rotating shaft (5 r 2), an adjusting gear (5 r 3), an adjusting rotary drum (5 r 4), an adjusting slide bar (5 r 5), an adjusting rack (5 r 6), a drill bit (5 r 7), a drilling motor (5 r 8), a connecting groove (5 r 9), a connecting slide bar (5 r 10) and a connecting plate (5 r 11), wherein the compacting carriage (5 b) is provided with the connecting groove (5 r 9), the connecting slide bar (5 r 10) is symmetrically installed in the connecting groove (5 r 9) through sliding fit, the connecting slide bar (5 r 10) is connected with the compacting slide plate (5 p) through the connecting plate (5 r 11), the adjusting rotary drum (5 r 4) is installed on the connecting slide bar (5 r 10) positioned on the inner side of the compacting carriage (5 b), the adjusting rotary drum (5 r 4) is internally provided with an adjusting rotary drum (5 r 5) through sliding fit, and the lower end of the adjusting rotary drum (5 r 5) is provided with the drilling motor (8) through a sliding bar base, the drill bit (5 r 7) is installed through the shaft coupling to the output shaft of drilling motor (5 r 8), the circumference lateral wall of adjusting slide bar (5 r 5) is provided with adjusting rack (5 r 6), install regulation pivot (5 r 2) through normal running fit in compaction balladeur train (5 b), install adjusting gear (5 r 3) through the spline symmetry on regulation pivot (5 r 2), and adjusting gear (5 r 3) and adjusting rack (5 r 6) meshing transmission, install adjusting motor (5 r 1) through the motor cabinet in compaction balladeur train (5 b), the output shaft of adjusting motor (5 r 1) is connected with regulation pivot (5 r 2) through the shaft coupling.

3. The vacuum circuit breaker copper foil flexible connection molding processing equipment as claimed in claim 1, characterized in that: limiting mechanism (6) including spacing rotating groove (6 a), spacing pivot (6 b), spacing cam (6 c) and spacing motor (6 d), support and seted up spacing rotating groove (6 a) on commentaries on classics board (4 n), install spacing pivot (6 b) through normal running fit in spacing rotating groove (6 a), evenly install spacing cam (6 c) through the spline on spacing pivot (6 b), support and seted up the meshing groove with spacing cam (6 c) matched with on commentaries on classics board (4 n), spacing cam (6 c) are at meshing inslot and support commentaries on classics board (4 n) sliding fit, install spacing motor (6 d) through the motor cabinet in spacing rotating groove (6 a), the output shaft of spacing motor (6 d) is connected with spacing pivot (6 b) through the shaft coupling.

4. The vacuum circuit breaker copper foil flexible connection molding processing equipment as claimed in claim 1, characterized in that: the supporting rotating plate (4 n) is a telescopic adjustable rotating plate formed by combining a plurality of independent plates in a sliding fit mode, and the telescopic length of the supporting rotating plate (4 n) can be adjusted through mutual matching of the plates.

5. The vacuum circuit breaker copper foil flexible connection molding processing equipment as claimed in claim 1, characterized in that: the lower end of the lifting connecting rod (4 j) is uniformly provided with meshing teeth, and the lifting connecting rod (4 j) is in meshing transmission with the lifting gear (4 g) through the meshing teeth.

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