CN108414797A - A kind of power distribution cabinet copper bar bus line quality testing auxiliary device - Google Patents

Abstract

The present invention relates to a kind of power distribution cabinet copper bar bus line quality testing auxiliary devices, including substrate, the upper surface of the substrate is equipped with two No.1 line slide rails, a dynamic column is mounted on every No.1 line slide rail, two dynamic column upper ends of two No.1 line slide rails are equipped with dynamic model, No.1 leading screw is equipped with by screw thread in the middle part of dynamic model, the left end of No.1 leading screw is provided with handwheel, the right end of No.1 leading screw is equipped with cover half by bearing, the rear end face of cover half is symmetrically welded with two fixed columns, two fixed column lower end be installed on substrate；The upper surface installation of the substrate is symmetrically installed with two guiding axis between two mounting plates, is equipped with No. two leading screws by bearing on the mounting plate inner wall on the left of substrate, the right end of No. two leading screws is equipped with mobile motor by shaft coupling there are two mounting plate.The automatic clamping conveying function of power distribution cabinet busbar may be implemented in the present invention, has many advantages, such as to grip fast conveying speed, high degree of automation and work efficiency is high.

Description

A kind of power distribution cabinet copper bar bus line quality testing auxiliary device

The present invention be the applying date be on November 02nd, 2016 submit application No. is 2016109496232, it is entitled The divisional application of the Chinese patent application of conveying device is clamped in a kind of power distribution cabinet busbar automatically.

Technical field

The present invention relates to cabinet technical field is closed, specifically a kind of power distribution cabinet copper bar bus line quality testing auxiliary fills It sets.

Background technology

Power distribution cabinet is a kind of electrical equipment, is the mster-control centre of various electric appliances, to various electric appliances provide protection, monitoring and Control and the indispensable distribution ancillary equipment of automated production, primary structure include cabinet, instrument, busbar, busbar, connect The building blocks such as ground busbar and electric elements, median generatrix are the conductors that electric energy is collected, distributed and transmitted to each electrical components, Therefore the quality of busbar directly affects the working performance of power distribution cabinet, and most widely used in existing busbar type is exactly copper bar Busbar, copper bar bus line are mainly made of conducting ring that both ends are Ω type structures, intermediate flat-shaped copper bar conducting wire, and busbar exists Using progress quality testing is usually required before, quality testing is broadly divided into conductivity detection and surface damage condition detection, existing It is mainly auxiliary mould artificial detection in busbar quality testing, this busbar manual detection mode has the following defects：Need people Work busbar of being taken from collecting box by clamping pliers is placed to that auxiliary mould is first-class to be detected, and this artificial gripping is placed mode and deposited The defects of complicated for operation, labor intensity is big, gripping placement speed is slow, the degree of automation is low, working efficiency is low.

Invention content

It to solve the above-mentioned problems, can be with the present invention provides a kind of power distribution cabinet copper bar bus line quality testing auxiliary device Solve that complicated for operation, labor intensity existing for existing power distribution cabinet busbar manual detection mode is big, gripping places that speed is slow, automation The problems such as degree is low and working efficiency is low, may be implemented the automatic clamping conveying function of power distribution cabinet busbar, easy to operate, be not necessarily to Manual operation has many advantages, such as to grip fast conveying speed, high degree of automation and work efficiency is high.

To achieve the goals above, the present invention is realized using following technical scheme：A kind of power distribution cabinet copper bar bus line quality Auxiliary device is detected, including substrate, the upper surface of the substrate are equipped with two No.1 line slide rails, every No.1 line slide rail On be mounted on a dynamic column, two dynamic column upper ends of two No.1 line slide rails are equipped with dynamic model, pass through screw thread in the middle part of dynamic model No.1 leading screw is installed, the left end of No.1 leading screw is provided with handwheel, and the right end of No.1 leading screw is equipped with cover half, cover half by bearing Rear end face be symmetrically welded with two fixed columns, two fixed column lower end be installed on substrate, two fixed columns play fixed support cover half Effect, operator drives No.1 leading screw to be rotated on cover half by handwheel, and No.1 leading screw band active and inactive mold moves, and cover half passes through Two dynamic columns steadily move on two No.1 line slide rails, to have adjusted the distance between cover half and dynamic model so that this hair The bright busbar blanking suitable for different length, while the handwheel in the present invention is also alternatively directly driven at existing servo motor The dynamic automatic adjustment for realizing distance between cover half and dynamic model；No.1 die cavity, the inner wall of cover half are provided on the inner wall of the dynamic model On be provided with No. two die cavitys corresponding with No.1 die cavity, the blanking channel as busbar of No.1 die cavity and No. two die cavitys moves First lifting guide mechanism is installed on the outer wall of mould, is equipped on the outer wall of cover half corresponding with the first lifting guide mechanism Second lifting guide mechanism is caught automatically by the first lifting guide mechanism and the second lifting guide mechanism from No.1 die cavity and two The busbar of number die cavity blanking, then busbar lifting carried out by the first lifting guide mechanism and the second lifting guide mechanism be transferred to Specified altitude assignment；The upper surface installation of the substrate is symmetrically installed with two guiding axis there are two mounting plate between two mounting plates, No. two leading screws are equipped with by bearing on mounting plate inner wall on the left of substrate, the right end of No. two leading screws is installed by shaft coupling There are mobile motor, mobile motor to be mounted on the mounting plate inner wall on the right side of substrate by motor cabinet, and leading screw is located at two Between guiding axis；Movable block is equipped with by screw thread on No. two leading screws, the upper and lower ends of movable block pass through the side of being slidably matched Formula is separately mounted on two guiding axis, and two guiding axis play limit synkinesia so that movable block can be moved with plateau It is dynamic, the phenomenon that without rotating, No. two leading screws rotations are driven by mobile motor, under the limit auxiliary of two guiding axis So that No. two leading screws drive movable block stabilization to be moved left and right；Clamping device is installed on the inner wall of the movable block, is clamped Mechanism can be moved left and right on movable block, and the present invention passes through the first lifting guide mechanism of clamping device automatic clamping and second Lifting guide mechanism lifts the busbar transmitted, and clamping device includes two No. two hydraulic pressure being mounted on movable block inner wall Cylinder is fixedly mounted on fixed frame in the middle part of two No. two hydraulic cylinders, and fixed frame is welded on movable block inner wall, and fixed frame plays The effect of two No. two hydraulic cylinders of fixed support, the top of two No. two hydraulic cylinders is equipped with clamping substrate by flange, passes through Two No. two hydraulic cylinders, which are stablized, drives clamping substrate to make stretching motion, is clamped on the inner wall of substrate and is welded with clamp plate, base is clamped Two pieces of clamping support plates are symmetrically installed on plate inner wall, each be clamped on support plate is respectively mounted there are two No. three hydraulic cylinders, and two pieces are clamped Four No. three hydraulic cylinder tops of support plate are equipped with dynamic clamping plate by flange, stablize to drive by four No. three hydraulic cylinders and move clamping plate It moves up and down, to have adjusted the distance between dynamic clamping plate and clamp plate, passes through the dynamic clamping formed between clamping plate and clamp plate The busbar transmitted is clamped automatically in power, and support plates are clamped with two pieces respectively by two buffer springs in the lower end both sides for moving clamping plate It is connected, the phenomenon that buffer spring plays good cushioning effect, anti-stop clamping plate excessive velocities damage bus bar copper row.

As a preferred technical solution of the present invention, the No.1 die cavity is through to lower face from dynamic model upper surface, and two Number die cavity is through to lower face from cover half upper surface, and No.1 die cavity and No. two die cavitys are the Ω type structures that shape, size are equal, So that the structure of No.1 die cavity and No. two die cavitys is identical as busbar two-end structure, so as to carry out limit accurate discharge, and one Number die cavity and No. two die cavity upper ends, which are inclined outwardly to be extended, guiding mould bases, is oriented to mould bases and is and No.1 die cavity and No. two moulds The corresponding Ω types structure of chamber, guiding module erect guiding busbar blanking effect, when busbar be adjusted to be oriented to mould bases inner wall on, It can automatically be slid into No.1 die cavity and No. two die cavitys by the inclination extended structure for being oriented to mould bases, to improve busbar blanking Efficiency.

As a preferred technical solution of the present invention, first lifting guide mechanism and the second lifting guide mechanism Shape, structure, size all same, a lifting guide mechanism and the second lifting guide mechanism are same mechanism, convenient for moving synchronously, First lifting guide mechanism includes the guiding matrix being welded on dynamic model outer wall, is oriented on matrix and is equipped with No.1 hydraulic cylinder, and one It is fixed on and is oriented on fixed board in the middle part of number hydraulic cylinder, be oriented to fixed board and be welded on dynamic model outer wall, be oriented to fixed board and play fixed support The top of effect in the middle part of No.1 hydraulic cylinder, No.1 hydraulic cylinder is equipped with lifter plate by flange, and the right end of lifter plate is just Positioned at the underface of No.1 die cavity, drives lifter plate to carry out busbar oscilaltion by No.1 hydraulic cylinder and transmit work.

As a preferred technical solution of the present invention, rubber is both provided on the inner wall of the clamp plate and dynamic clamping plate Pad, rubber pad play the role of protecting bus bar copper row surface, prevent the aid power between clamp plate and dynamic clamping plate from crossing macrolesion mother The phenomenon that line copper bar surface.

When work, determine that the width between cover half and dynamic model, operator pass through handwheel band according to the length of busbar first Dynamic No.1 leading screw rotates on cover half, and No.1 leading screw band active and inactive mold moves, and cover half is slided by two dynamic columns in two No.1 straight lines It is steadily moved on rail, to have adjusted the distance between cover half and dynamic model, to have adjusted between No.1 die cavity and No. two die cavitys Width, busbar both ends are put into No.1 die cavity and No. two die cavitys by distance after regulating, and busbar both ends pass through No.1 mould Chamber and No. two die cavitys are dropped to respectively on the first lifting guide mechanism and the second lifting guide mechanism, then the first lifting guide mechanism Busbar lifting is transmitted to specified altitude assignment by start to work synchronous with the second lifting guide mechanism, and then clamping device is started to work, Two No. two hydraulic cylinders drive clamping substrate to make stretching motion, and clamping substrate drives dynamic clamping plate to move to bus bar copper row with clamp plate Upper and lower ends, at this time four No. three hydraulic cylinders start to work, buffering masterpiece of four No. three hydraulic cylinders in two buffer springs It with lower drive is moved clamping plate and is slowly moved down, clamped and transmitted by the dynamic chucking power formed between clamping plate and clamp plate In the middle part of busbar, two No. two hydraulic cylinders move origin-location of stretching go back to again at this time, and then mobile motor is started to work, mobile electricity Machine drives No. two leading screw rotations, so that No. two leading screws drive movable block stabilization to be controlled under the limit auxiliary of two guiding axis Mobile, movable block drives clamping device that busbar is transmitted to designated position, in order to carry out the detection work of next step, realizes The automatic clamping conveying function of power distribution cabinet busbar, it is easy to operate, it is not necessarily to artificial sport, high degree of automation grips conveying speed Soon.

The beneficial effects of the invention are as follows：Compared with prior art, the present invention is adjusted by No.1 leading screw between cover half and dynamic model Distance arrives suitable distance, enables busbar both ends to slide into No.1 die cavity and two automatically by the inclination extended structure for being oriented to mould bases Blanking in number die cavity, is then caught automatically by the first lifting guide mechanism and the second lifting guide mechanism from No.1 die cavity and two The busbar of number die cavity blanking simultaneously carries out being transmitted to suitable position downwards, and then clamping device is finally moving automatic clamping busbar Movable block movement, movable block is driven to drive clamping device that busbar is moved to suitable position by No. two leading screws under the action of dynamic motor It sets, realizes the automatic clamping conveying function of power distribution cabinet busbar, it is easy to operate, it is not necessarily to artificial sport, high degree of automation, gripping Conveying speed is fast, solves that complicated for operation, labor intensity existing for existing power distribution cabinet busbar manual detection mode is big, gripping is placed The problems such as speed is slow, the degree of automation is low and working efficiency is low.

Description of the drawings

Present invention will be further explained below with reference to the attached drawings and examples.

Fig. 1 is the first structure schematic diagram of the present invention；

Fig. 2 is the second structural schematic diagram of the present invention；

Fig. 3 is the structural schematic diagram of clamping device of the present invention.

Specific implementation mode

In order to make the technical means, the creative features, the aims and the efficiencies achieved by the present invention be easy to understand, tie below Conjunction is specifically illustrating, and the present invention is further explained.

As shown in Figure 1 to Figure 3, a kind of power distribution cabinet copper bar bus line quality testing auxiliary device, including substrate 31, the substrate 31 upper surface is equipped with two No.1 line slide rails 32, is mounted on a dynamic column 33 on every No.1 line slide rail 32, and two Two 33 upper ends of dynamic column of root No.1 line slide rail 32 are equipped with dynamic model 34, and 34 middle part of dynamic model is equipped with No.1 leading screw by screw thread 35, the left end of No.1 leading screw 35 is provided with handwheel 36, and the right end of No.1 leading screw 35 is equipped with cover half 37 by bearing, cover half 37 Rear end face is symmetrically welded with two fixed columns 38, and on the substrate 31, two fixed columns 38 play fixed branch for two 38 lower end of fixed column installations The effect of cover half 37 is supportted, operator drives No.1 leading screw 35 to be rotated on cover half 37 by handwheel 36, and No.1 leading screw 35 drives Cover half 37 moves, and cover half 37 is steadily moved by two dynamic columns 33 on two No.1 line slide rails 32, to have adjusted cover half The distance between 37 and dynamic model 34 so that the present invention is suitable for the busbar blanking of different length, while the handwheel 36 in the present invention Also it alternatively carries out directly driving the automatic adjustment for realizing distance between cover half 37 and dynamic model 34 at existing servo motor；It is described dynamic It is provided with No.1 die cavity on the inner wall of mould 34, is provided with No. two die cavitys corresponding with No.1 die cavity on the inner wall of cover half 37, one The blanking channel as busbar of number die cavity and No. two die cavitys is equipped with the first lifting guide mechanism 39 on the outer wall of dynamic model 34, Second lifting guide mechanism 310 corresponding with the first lifting guide mechanism 39 is installed on the outer wall of cover half 37, passes through first Lifting guide mechanism 39 and the second lifting guide mechanism 310 catch the busbar from No.1 die cavity and No. two die cavity blankings automatically, so Busbar carries out lifting by the first lifting guide mechanism 39 and the second lifting guide mechanism 310 and is transferred to specified altitude assignment afterwards；It is described The upper surface installation of substrate 31 is symmetrically installed with two guiding axis 312, position there are two mounting plate 311 between two mounting plates 311 In being equipped with No. two leading screws 313 by bearing on 311 inner wall of mounting plate in 31 left side of substrate, the right end of No. two leading screws 313 passes through Shaft coupling is equipped with mobile motor 314, and mobile motor 314 is mounted on the mounting plate 311 on 31 right side of substrate by motor cabinet On inner wall, and leading screw 313 is located between two guiding axis 312；Movable block is equipped with by screw thread on No. two leading screws 313 315, the upper and lower ends of movable block 315 are separately mounted to by sliding matching mode on two guiding axis 312, two guiding axis 312 play limit synkinesia so that movable block 315 can be moved with plateau, the phenomenon that without rotating, pass through shifting Dynamic motor 314 drives No. two leading screws 313 to rotate, so that No. two leading screws 313 drive and move under the limit auxiliary of two guiding axis 312 The stabilization of motion block 315 is moved left and right；Clamping device 316 is installed, clamping device 316 can on the inner wall of the movable block 315 It is moved left and right on movable block 315, the present invention passes through 316 the first lifting guide mechanism of automatic clamping 39 of clamping device and Two lifting guide mechanisms 310 lift the busbar transmitted, and clamping device 316 includes two be mounted on 315 inner wall of movable block A No. two hydraulic cylinders 3161, the middle part of two No. two hydraulic cylinders 3161 are fixedly mounted on fixed frame 3162, and fixed frame 3162 welds It is connected on 315 inner wall of movable block, fixed frame 3162 plays the role of two No. two hydraulic cylinders 3161 of fixed support, two No. two liquid The top of cylinder pressure 3161 is equipped with clamping substrate 3163 by flange, is stablized by two No. two hydraulic cylinders 3161 and drives clamping base Plate 3163 makees stretching motion, is clamped on the inner wall of substrate 3163 and is welded with clamp plate 3164, is clamped symmetrical on 3163 inner wall of substrate Two pieces of clamping support plates 3165 are installed, each be clamped on support plate 3165 is respectively mounted there are two No. three hydraulic cylinders 3166, and two pieces are clamped Four No. three 3166 tops of hydraulic cylinder of support plate 3165 are equipped with dynamic clamping plate 3167 by flange, pass through four No. three hydraulic cylinders 3166, which stablize drive, moves the up and down motion of clamping plate 3167, to have adjusted the distance between dynamic clamping plate 3167 and clamp plate 3164, leads to It crosses the chucking power formed between clamping plate 3167 and clamp plate 3164 and the busbar transmitted is clamped automatically, move clamping plate 3167 Lower end both sides are connected with two pieces of clamping support plates 3165 respectively by two buffer springs 3168, and buffer spring 3168 plays good The phenomenon that cushioning effect, anti-3167 excessive velocities of stop clamping plate damage bus bar copper row.

The No.1 die cavity is through to lower face from 34 upper surface of dynamic model, and No. two die cavitys are through to down from 37 upper surface of cover half End face, No.1 die cavity and the Ω type structures that No. two die cavitys are shape, size is equal so that the knot of No.1 die cavity and No. two die cavitys Structure is identical as busbar two-end structure, and so as to carry out limit accurate discharge, and No.1 die cavity and No. two die cavity upper ends are outside It tilts to be extended to have and is oriented to mould bases 341, being oriented to mould bases 341 is and No.1 die cavity and the corresponding Ω types knot of No. two die cavitys Structure, be oriented to mould bases 341 play the role of guide busbar blanking, when busbar be adjusted to be oriented to 341 inner wall of mould bases on, can be by guiding The inclination extended structure of mould bases 341 is slid into automatically in No.1 die cavity and No. two die cavitys, to improve the efficiency of busbar blanking.

Shape, structure, the size all same of first lifting guide mechanism, 39 and second lifting guide mechanism 310, one Lifting guide mechanism 39 and the second lifting guide mechanism 310 are same mechanism, convenient for moving synchronously, the first lifting guide mechanism 39 Including the guiding matrix 391 being welded on 34 outer wall of dynamic model, it is oriented on matrix 391 and No.1 hydraulic cylinder 392, No.1 hydraulic pressure is installed The middle part of cylinder 392, which is fixed on, to be oriented on fixed board 393, is oriented to fixed board 393 and is welded on 34 outer wall of dynamic model, is oriented to fixed board 393 and is played The effect at fixed 392 middle part of support No.1 hydraulic cylinder, the top of No.1 hydraulic cylinder 392 are equipped with lifter plate 394 by flange, and The right end of lifter plate 394 is placed exactly in the underface of No.1 die cavity, drives lifter plate 394 to carry out mother by No.1 hydraulic cylinder 392 Work is transmitted in line oscilaltion.

Rubber pad is both provided on the inner wall of the clamp plate 3164 and dynamic clamping plate 3167, rubber pad plays protection busbar copper The effect for arranging surface, prevents the aid power between clamp plate 3164 and dynamic clamping plate 3167 from spending showing for macrolesion bus bar copper row surface As.

When work, determine that the width between cover half 37 and dynamic model 34, operator pass through hand according to the length of busbar first 36 drive No.1 leading screw 35 of wheel rotates on cover half 37, and No.1 leading screw 35 is moved with active and inactive mold 37, and cover half 37 passes through two dynamic columns 33 steadily move on two No.1 line slide rails 32, to have adjusted the distance between cover half 37 and dynamic model 34, to adjust No.1 die cavity and No. two moulds are put into busbar both ends by width between No.1 die cavity and No. two die cavitys, distance after regulating In chamber, busbar both ends pass through No.1 die cavity and No. two die cavitys to drop to the first lifting guide mechanism 39 and second lifting Guiding machine respectively On structure 310, then busbar is lifted transmission by start to work synchronous with the second lifting guide mechanism 310 of the first lifting guide mechanism 39 To specified altitude assignment, the then start-up operation of clamping device 316, two No. two hydraulic cylinders 3161 drive clamping substrates 3163 to make flexible transport Dynamic, clamping substrate 3163, which drives, moves the upper and lower ends that clamping plate 3167 moves to bus bar copper row with clamp plate 3164, four three at this time Number hydraulic cylinder 3166 is started to work, and four No. three hydraulic cylinders 3166 are dynamic in the buffering force effect lower band of two buffer springs 3168 Clamping plate 3167 slowly moves down, and clamping transmission by the dynamic chucking power formed between clamping plate 3167 and clamp plate 3164 gets off Busbar in the middle part of, two No. two hydraulic cylinders 3161 moves origin-location of stretching go back to again at this time, then mobile motor 314 beginning work Make, mobile motor 314 drives No. two leading screws 313 to rotate, so that No. two leading screws 313 under the limit auxiliary of two guiding axis 312 The stabilization of movable block 315 is driven to be moved left and right, movable block 315 drives clamping device 316 that busbar is transmitted to designated position, with It is convenient for the detection work of next step, realizes the automatic clamping conveying function of power distribution cabinet busbar, it is easy to operate, without artificial Movement, high degree of automation, gripping conveying speed is fast, and it is multiple to solve the existing operation of existing power distribution cabinet busbar manual detection mode The problems such as miscellaneous, labor intensity is greatly, gripping placement speed is slow, the degree of automation is low and working efficiency is low, have reached purpose.

The basic principles, main features and advantages of the invention have been shown and described above.The technical staff of the industry should Understand, the present invention is not limited to the above embodiments, and the description in above embodiments and description only illustrates the present invention Principle, without departing from the spirit and scope of the present invention, various changes and improvements may be made to the invention, these change and change Into all fall within the protetion scope of the claimed invention.The claimed scope of the invention is by appended claims and its equivalent It defines.

Claims (2)

1. a kind of power distribution cabinet copper bar bus line quality testing auxiliary device, it is characterised in that：Including substrate (31), the substrate (31) Upper surface two No.1 line slide rails (32) are installed, be mounted on a dynamic column on every No.1 line slide rail (32) (33), two of two No.1 line slide rails (32) dynamic column (33) upper ends are equipped with dynamic model (34), pass through spiral shell in the middle part of dynamic model (34) Line is equipped with No.1 leading screw (35), and the left end of No.1 leading screw (35) is provided with handwheel (36), and the right end of No.1 leading screw (35) passes through Bearing is equipped with cover half (37), and the rear end face of cover half (37) is symmetrically welded with two fixed columns (38), two fixed column (38) lower end peaces On substrate (31)；It is provided with No.1 die cavity on the inner wall of the dynamic model (34), is provided on the inner wall of cover half (37) and one Number die cavity corresponding No. two die cavitys are equipped with the first lifting guide mechanism (39) on the outer wall of dynamic model (34), cover half (37) The second lifting guide mechanism (310) corresponding with the first lifting guide mechanism (39) is installed on outer wall；The substrate (31) Upper surface installation there are two mounting plate (311), be symmetrically installed with two guiding axis (312), position between two mounting plates (311) No. two leading screws (313) are equipped with by bearing on mounting plate (311) inner wall on the left of substrate (31), No. two leading screws (313) Right end is equipped with mobile motor (314) by shaft coupling, and mobile motor (314) is mounted on substrate (31) right side by motor cabinet On mounting plate (311) inner wall of side, and leading screw (313) is located between two guiding axis (312)；On No. two leading screws (313) Movable block (315) is installed by screw thread, the upper and lower ends of movable block (315) are separately mounted to two by sliding matching mode On guiding axis (312)；Clamping device (316) is installed, clamping device (316) includes peace on the inner wall of the movable block (315) Peace is fixed at the middle part of two No. two hydraulic cylinders (3161) on movable block (315) inner wall, two No. two hydraulic cylinders (3161) On fixed frame (3162), fixed frame (3162) is welded on movable block (315) inner wall, two No. two hydraulic cylinders (3161) Top is equipped with clamping substrate (3163) by flange, and clamp plate (3164) is welded on the inner wall of clamping substrate (3163), presss from both sides It holds and is symmetrically installed with two pieces of clamping support plates (3165) on substrate (3163) inner wall, be each clamped on support plate (3165) and be mounted on two Four No. three hydraulic cylinder (3166) tops of a No. three hydraulic cylinders (3166), two pieces of clamping support plates (3165) are equipped with by flange Support plates are clamped with two pieces respectively by two buffer springs (3168) in dynamic clamping plate (3167), the lower end both sides for moving clamping plate (3167) (3165) it is connected；

The No.1 die cavity is through to lower face from dynamic model (34) upper surface, and No. two die cavitys are through to down from cover half (37) upper surface End face, No.1 die cavity and the Ω type structures that No. two die cavitys are shape, size is equal, and No.1 die cavity and No. two die cavity upper ends are equal It is inclined outwardly to be extended and has guiding mould bases (341), it is corresponding with No.1 die cavity and No. two die cavitys to be oriented to mould bases (341) Ω type structures；

It is both provided with rubber pad on the inner wall of the clamp plate (3164) and dynamic clamping plate (3167).

2. a kind of power distribution cabinet copper bar bus line quality testing auxiliary device according to claim 1, it is characterised in that：Described The shape, structure of one lifting guide mechanism (39) and the second lifting guide mechanism (310), size all same, the first lifting are oriented to Mechanism (39) includes the guiding matrix (391) being welded on dynamic model (34) outer wall, is oriented on matrix (391) and is equipped with No.1 hydraulic pressure Cylinder (392) is fixed in the middle part of No.1 hydraulic cylinder (392) and is oriented on fixed board (393), is oriented to fixed board (393) and is welded on dynamic model (34) on outer wall, the top of No.1 hydraulic cylinder (392) is equipped with lifter plate (394), and the right end of lifter plate (394) by flange It is placed exactly in the underface of No.1 die cavity.