CN109622730A - A kind of blanking die ancillary equipment - Google Patents

Abstract

The invention belongs to technical field of mold, more particularly to a kind of blanking die ancillary equipment, it includes sliding block, mounting shell, oscillating rod, rotational support, mandril, belt, belt pulley, support shaft, square hole, the first scroll spring, fixed rotating shaft, limited block, guide sleeve, guiding square sleeve, and sliding block is located at below cavity plate and steel plate close contact the stamping die mold during the work time；Punch-pin pushes in shear history while can press sliding block and moves down, sliding block is constantly in product contact condition in the process, is prevented product from falling generation impact and is destroyed product, while after punch-pin leaves product, product movement is controlled away from equipment by belt, and product is facilitated to collect；And it is to move down not needing other additional power sources as driving source by punch-pin that the stamping die mold that designs of the present invention drives product to leave the entire motion process of equipment in belt, saves the energy.

Description

A kind of blanking die ancillary equipment

Technical field

The invention belongs to technical field of mold more particularly to a kind of blanking die ancillary equipments.

Background technique

In punching production, it is punched mold used and is known as blanking die.The main task of blanking die is to separate material, mesh Greatly the reason is that due to collision deformation, product is fallen under the effect of gravity for the deformation of preceding punching moulded parts in production, Shock will cause greatly very much product deformation, influence product quality；And the product being punched falls to the underface of equipment, product Take out inconvenience.

The present invention design a kind of blanking die ancillary equipment solve the problems, such as it is as above.

Summary of the invention

To solve drawbacks described above in the prior art, the present invention discloses a kind of blanking die ancillary equipment, it be use with Lower technical solution is realized.

A kind of blanking die ancillary equipment, it is characterised in that: it includes sliding block, mounting shell, oscillating rod, rotational support, top Bar, belt, belt pulley, support shaft, square hole, the first scroll spring, fixed rotating shaft, guiding square sleeve, return spring, wherein pacifying Fill and be provided with square orifice on the upper side of shell, the effect of square orifice make to be easy for sliding block be pierced by mounting shell and stamping die punch-pin and Cavity plate cooperation；Support shaft is installed, the both ends of rotational support are mounted on the another of mounting shell between two medial surfaces of mounting shell one end In the round hole opened on two medial surfaces of one end；Four belt pulleys are separately mounted to support shaft and rotational support in pairs On, and be located at two belt pulleys in group it is symmetrical at the both ends of support shaft or rotational support, belt pulley plays belt Supporting role, while two belt pulleys being mounted in rotational support have driving effect to belt；Have on belt along skin The band equally distributed square hole in periphery direction, the effect of square hole are easy for sliding block and move up and down；Belt nesting is mounted on two The outside of group belt pulley；Multiple guiding square sleeves are mounted on the periphery of belt along belt periphery direction, and guiding side The square hole opened on shape set and belt, which corresponds, to be cooperated；The effect for being oriented to square sleeve is to provide guiding and installation for sliding block.

Sliding block is drum shape, and multiple sliding blocks are by being fitted to belt with the guiding square sleeve installed on belt On, a return spring is installed between the downside and guiding square sleeve upper side of upper end of slide block；Sliding block is by moving down For driving rotational support one-directional rotation storage power.

Symmetrically there are two guiding shell, two guiding shells all have a fracture for installation on the inside of mounting shell, and guiding shell Low high distribution before and after incision position；It is slidably matched between sliding block and two guiding shells；The effect of guiding shell is slided by control guiding Block is slided along the specific track of guiding shell, and then control sliding block can be slided along specific track, so that sliding block is being oriented to Just it is being better than the downside end face cooperation of fracture between guiding shell after incision position is subdued by punch-pin between shell, is being led when sliding block again moves into When contacting to incision position between shell and steel plate, the downside of steel plate is just moved in the guiding role sliding block of guiding shell.

As the further improvement of this technology, one end of above-mentioned fixed rotating shaft is fixedly mounted on mounting shell medial surface, pendulum Lever is mounted on fixed rotating shaft by being rotatably assorted, and the first scroll spring is equipped between oscillating rod and fixed rotating shaft, the The effect of one scroll spring is to play reset response to oscillating rod；One end of oscillating rod is equipped with mandril；The other end of oscillating rod By swinging as driving rotational support one-directional rotation storage power；When the sliding block cooperated with punch-pin moves down under the promotion of punch-pin When, the mandril which will squeeze on the downside of it moves down；Mandril, which moves down, just will drive swing connected to it Bar is swung around fixed rotating shaft, and fixed rotating shaft, which is swung, just will drive arc-shaped rack swing mounted thereto.

As the further improvement of this technology, one end of above-mentioned limit plate is mounted in mounting shell, the other end of limit plate Cooperate with oscillating rod, oscillating rod is when in a horizontal state, and the upper side of limit plate and the downside of driving rotational support one end connect Touching cooperation；The effect of limit plate is to play position-limiting action to oscillating rod to prevent oscillating rod from restoring under the action of the first scroll spring Oscillating rod amplitude of fluctuation is excessive and influence mandril in the process.

As the further improvement of this technology, the inner end of above-mentioned first scroll spring is mounted on fixed rotating shaft, the first whirlpool The outer end of coil spring is mounted on oscillating rod.

As the further improvement of this technology, one end that above-mentioned oscillating rod is not installed with mandril is equipped with arc-shaped rack；The Two gears are mounted in rotational support and between corresponding two belt pulleys；First gear is mounted on by one-way clutch On the periphery of second gear；Arc-shaped rack is engaged with first gear, and the second whirlpool is equipped between second gear and rotational support Coil spring；When drive lower swing of the arc-shaped rack in oscillating rod, arc-shaped rack will make meshing state is in it The rotation of one gear, first gear rotation drives second gear rotation by one-way clutch, since in this state, sliding block exists Make that there is biggish frictional force between punch-pin and sliding block under the squeezing action of punch-pin, under this frictional force, sliding block is in static State, i.e. belt remain static, and belt pulley remains static, and rotational support remains static, i.e. the second scrollwork bullet The one end connecting on spring with rotational support is static, so second gear rotation will make power on the second scroll spring, works as punch-pin When leaving steel plate and losing the extruding to sliding block, under the elastic force effect of the second scroll spring, rotational support will pass through belt pulley Drive belt rotation；Belt rotation drives sliding block rotation mounted thereto；The effect of one-way clutch is, when oscillating rod is extensive During multiple, oscillating rod drives first gear to rotate by arc-shaped rack, and first gear rotation not will drive second gear rotation, So that second gear rotation influences the second scroll spring.

As the further improvement of this technology, symmetrically there are two guiding to slide for installation on the two sides of above-mentioned upper end of slide block Block, sliding block are slidably matched by two guide runners and two guiding shells.

As the further improvement of this technology, it is provided with the telescopic chute of one with front end face perforation on above-mentioned guide runner, stretches It is symmetrically opened on the two sides of contracting slot there are two guide groove, the downside of triggering block has an inclined-plane, symmetrical on the two sides of triggering block There are two guide block, triggering block is fitted in telescopic chute by two guide blocks and guide groove for ground installation, and triggering block and flexible Reset spring is installed between slot；The front end face cooperation of fracture between inclined-plane and guiding shell in triggering block；When sliding block is in punch-pin When moving down under impetus, sliding block will drive two guide runners and move down；Two guide runner movements just will drive Triggering block mounted thereto moves down, during triggering block is mobile, when the inclined-plane and guiding shell interruption in triggering block After mouth is located at the upper end face contact of one end of downside, triggering block will move under the extruding of guiding shell into telescopic chute, work as touching After hair block is moved fully in telescopic chute, under the action of reset spring, triggering block will remove again, and in return spring The guide groove upper side of the upper side and guiding shell that act on lower triggering block is in close contact, ensure that guide runner can smoothly along Guiding shell sliding will not be in guiding shell disengagement by fracture between guiding shell, it is mobile to influence sliding block.

As the further improvement of this technology, above-mentioned two be mounted in rotational support belt pulley is by welding It is fixedly mounted in rotational support.

As the further improvement of this technology, above-mentioned two be mounted in support shaft belt pulley is mounted on branch by bearing It supports on axis.

As the further improvement of this technology, one of them in above-mentioned two guiding shell is fixedly mounted on the inside of mounting shell Face, another guiding shell are mounted on the inside of mounting shell by mounting plate.

Relative to traditional Tool and Die Technology, the stamping die mold that the present invention designs, sliding block is located at cavity plate during the work time Lower section and steel plate are in close contact；Punch-pin pushes in shear history while can press sliding block and moves down, and sliding block is located always in the process In with product contact condition, prevents product from falling generation impact and destroy product, while after punch-pin leaves product, passing through belt It is mobile away from equipment to control product, product is facilitated to collect；And the stamping die mold that the present invention designs drives system in belt The entire motion process that part leaves equipment is to move down not needing other additional power sources as driving source by punch-pin, section Save the energy.

Detailed description of the invention

Fig. 1 is global facility appearance diagram.

Fig. 2 is global facility distribution schematic diagram.

Fig. 3 is global facility internal structure distribution schematic diagram.

Fig. 4 is global facility internal structure scheme of installation.

Fig. 5 is guiding shell scheme of installation.

Fig. 6 is mounting shell structural schematic diagram.

Fig. 7 is internal structure cooperation schematic diagram.

Fig. 8 is mandril scheme of installation.

Fig. 9 is that limit plate and oscillating rod cooperate schematic diagram.

Figure 10 is belt composition schematic diagram.

Figure 11 is the second scroll spring scheme of installation.

Figure 12 is that sliding block and guiding shell cooperate schematic diagram.

Figure 13 is sliding block and guiding shell scheme of installation.

Figure 14 is sliding block and guiding shell distribution schematic diagram.

Figure 15 is guiding shell structural schematic diagram.

Figure 16 is guide runner scheme of installation.

Figure 17 is guide runner structural schematic diagram.

Figure 18 is triggering block structural schematic diagram.

Figure 19 is return spring scheme of installation.

Figure label title: 1, sliding block；2, mounting shell；3, guiding shell；4, oscillating rod；5, rotational support；6, mandril；7, skin Band；8, belt pulley；9, mounting plate；10, square orifice；11, support shaft；12, the first scroll spring；13, limit plate；14, arc-shaped gear Item；15, fixed rotating shaft；16, square hole；17, first gear；18, second gear；19, one-way clutch；20, guide runner； 21, telescopic chute；22, guide groove；23, guide block；24, triggering block；25, reset spring；26, it is oriented to square sleeve；27, return spring；28, Second scroll spring；29, fracture.

Specific embodiment

As shown in Figure 1, 2, it includes sliding block 1, mounting shell 2, oscillating rod 4, rotational support 5, mandril 6, belt 7, belt pulley 8, support shaft 11, square hole 16, the first scroll spring 12, fixed rotating shaft 15, guiding square sleeve 26, return spring 27, wherein such as Shown in Fig. 6, it is provided with square orifice 10 on the upper side of mounting shell 2, the effect of square orifice 10 makes to be easy for sliding block 1 to be pierced by mounting shell 2 Cooperate with the punch-pin and cavity plate of stamping die；As shown in Figure 3,4, support shaft is installed between two medial surfaces of 2 one end of mounting shell 11, the both ends of rotational support 5 are mounted in the round hole opened on two medial surfaces of the other end of mounting shell 2；As shown in figure 4, Four belt pulleys 8 are separately mounted in pairs in support shaft 11 and rotational support 5, and are located at two belt pulleys 8 in group Symmetrical at the both ends of support shaft 11 or rotational support 5, belt pulley 8 plays a supporting role to belt 7, while being mounted on rotation Two belt pulleys 8 in support 5 have driving effect to belt 7；As shown in Figure 10, have on belt 7 along 7 periphery of belt The equally distributed square hole 16 in direction, the effect of square hole 16 are easy for sliding block 1 and move up and down；As shown in fig. 7, belt 7 is nested It is mounted on the outside of two groups of belt pulleys 8；As shown in Figure 10, multiple guiding square sleeves 26 are mounted on along 7 periphery direction of belt On the periphery of belt 7, and it is oriented to the square hole 16 opened on square sleeve 26 and belt 7 and corresponds and cooperate；It is oriented to square sleeve 26 effect is to provide guiding and installation for sliding block 1.

As shown in Fig. 1,7, sliding block 1 is drum shape, multiple sliding blocks 1 by with the guiding square sleeve 26 installed on belt 7 Be fitted on belt 7, as shown in figure 19, installed between the downside of 1 upper end of sliding block and guiding 26 upper side of square sleeve There is a return spring 27；Sliding block 1 is by moving down as the driving one-directional rotation storage power of rotational support 5.

As shown in figure 5, symmetrically there are two guiding shells 3 for installation for 2 inside of mounting shell, and as shown in Figure 14,15, two guiding shells 3 all have a fracture 29, and guiding shell 3 at the fracture 29 before and after low high distribution；As shown in Figure 12,13, sliding block 1 is led with two It is slidably matched between shell 3；The effect of guiding shell 3 is to be slided by control guide runner 20 along the specific track of guiding shell 3, And then control sliding block 1 can be slided along specific track, so that sliding block 1 is depressed at fracture 29 by punch-pin between guiding shell 3 Just it is being better than the downside end face cooperation of 3 fractures 29 of guiding shell after going, when sliding block 1 again moves between guiding shell 3 at fracture 29 When contacting with steel plate, the downside of steel plate is just moved in the guiding role sliding block 1 of guiding shell 3.

In summary:

It is that the present invention designs the utility model has the advantages that the stamping die mold, sliding block 1 is located at close with steel plate below cavity plate during the work time Contact；Punch-pin pushes in shear history while can press sliding block 1 and moves down, and sliding block 1 is constantly in the process contacts with product State prevents product from falling generation impact and destroys product, while after punch-pin leaves product, controlling product by belt 7 and moving It moves away from equipment, product is facilitated to collect；And the stamping die mold that the present invention designs drives product to leave equipment in belt 7 Entire motion process be to move down not needing other additional power sources as driving source by punch-pin, save the energy.

As shown in figure 3, one end of above-mentioned fixed rotating shaft 15 is fixedly mounted on 2 medial surface of mounting shell, as shown in figure 9, pendulum Lever 4 is mounted on fixed rotating shaft 15 by being rotatably assorted, and the first scrollwork bullet is equipped between oscillating rod 4 and fixed rotating shaft 15 Spring 12, the effect of the first scroll spring 12 are to play reset response to oscillating rod 4；One end of oscillating rod 4 is equipped with mandril 6；Pendulum The other end of lever 4 is by swinging as the driving one-directional rotation storage power of rotational support 5；When the sliding block 1 cooperated with punch-pin is in punch-pin When moving down under promotion, which will squeeze the mandril 6 on the downside of it and move down；Mandril 6 moves down will band It moves oscillating rod 4 connected to it to swing around fixed rotating shaft 15, the swing of fixed rotating shaft 15 just will drive arc mounted thereto Rack gear 14 is swung.

As shown in Fig. 4,9, one end of above-mentioned limit plate 13 is mounted in mounting shell 2, the other end of limit plate 13 and swing Bar 4 cooperates, as shown in figure 8, oscillating rod 4 is when in a horizontal state, upper side and driving 5 one end of rotational support of limit plate 13 Downside is engaged；The effect of limit plate 13 is to play position-limiting action to oscillating rod 4 to prevent oscillating rod 4 in the first scroll spring 4 amplitude of fluctuation of oscillating rod is excessive and influence mandril 6 in recovery process under the action of 12.

The inner end of above-mentioned first scroll spring 12 is mounted on fixed rotating shaft 15, and the outer end of the first scroll spring 12 is mounted on On oscillating rod 4.

As shown in figure 9, one end that above-mentioned oscillating rod 4 is not installed with mandril 6 is equipped with arc-shaped rack 14；As shown in figure 11, Second gear 18 is mounted in rotational support 5 and between corresponding two belt pulley 8；First gear 17 passes through one-way clutch Device 19 is mounted on the periphery of second gear 18；Arc-shaped rack 14 is engaged with first gear 17, second gear 18 and rotation branch Second scroll spring 28 is installed between support 5；When drive lower swing of the arc-shaped rack 14 in oscillating rod 4, arc-shaped rack 14 is just So that the first gear 17 for being in meshing state with it rotates, the rotation of first gear 17 drives second by one-way clutch 19 for meeting Gear 18 rotates, due in this state, sliding block 1 make to have between punch-pin and sliding block 1 under the squeezing action of punch-pin compared with Big frictional force, under this frictional force, sliding block 1 remains static, i.e., belt 7 remains static, and belt pulley 8 is in static State, rotational support 5 remain static, i.e. the one end connecting on the second scroll spring 28 with rotational support 5 is static, so the The rotation of two gears 18 will make power on the second scroll spring 28, when punch-pin, which leaves steel plate, loses the extruding to sliding block 1, the Under the elastic force effect of two scroll springs 28, rotational support 5 will drive belt 7 to rotate by belt pulley 8；The rotation of belt 7 drives Sliding block 1 mounted thereto rotates；The effect of one-way clutch 19 is that, when oscillating rod 4 is in recovery process, oscillating rod 4 passes through Arc-shaped rack 14 drives first gear 17 to rotate, and the rotation of first gear 17 not will drive the rotation of second gear 18, so that the second tooth 18 rotation of wheel influences the second scroll spring 28.

As shown in figure 16, symmetrically there are two guide runners 20 for installation on the two sides of above-mentioned 1 upper end of sliding block, such as Figure 12 institute Show, sliding block 1 is slidably matched by two guide runners 20 with two guiding shells 3.

As shown in figure 17, the telescopic chute 21 of one with front end face perforation are provided on above-mentioned guide runner 20, telescopic chute 21 It is symmetrically opened on two sides there are two guide groove 22, as shown in figure 18, the downside of triggering block 24 has an inclined-plane, and the two of triggering block 24 Symmetrically there are two guide blocks 23 for installation on side, and as shown in figure 16, triggering block 24 passes through the cooperation of two guide blocks 23 and guide groove 22 It is mounted in telescopic chute 21, and reset spring 25 is installed between triggering block 24 and telescopic chute 21；Inclined-plane in triggering block 24 with The front end face of 3 fractures 29 of guiding shell cooperates；When sliding block 1 moves down under the impetus of punch-pin, sliding block 1 will drive two A guide runner 20 moves down；Two movements of guide runners 20 just will drive triggering block 24 mounted thereto and move down, During triggering block 24 is mobile, when fracture 29 is located at the upper of one end of downside between the inclined-plane in triggering block 24 and guiding shell 3 After the contact of end face, triggering block 24 will move under the extruding of guiding shell 3 into telescopic chute 21, when triggering block 24 is moved fully to After in telescopic chute 21, under the action of reset spring 25, triggering block 24 will remove again, and under the action of return spring 27 The upper side of triggering block 24 and the guide groove upper side of guiding shell 3 are in close contact, ensure that guide runner 20 can smoothly along Guiding shell 3 is slided, and will not be in the disengagement of guiding shell 3 by fracture 29 between guiding shell 3, it is mobile to influence sliding block 1.

Above-mentioned two be mounted in rotational support 5 belt pulley 8 is fixedly mounted on rotational support 5 by welding On.

Above-mentioned two be mounted in support shaft 11 belt pulley 8 is mounted in support shaft 11 by bearing.

One of them in above-mentioned two guiding shell 3 is fixedly mounted on the medial surface of mounting shell 2, another guiding shell 3 passes through Mounting plate 9 is mounted on 2 inside of mounting shell.

Specific workflow: when the stamping die mold designed using the present invention, the sliding block 1 being mounted on belt 7 is located at A sliding block on the downside of the punch-pin downside face contact with the steel being placed on the upside of cavity plate under the action of the return spring, when punch-pin to When lower stamped steel material, steel will drive sliding block 1 and move down；The sliding block 1 will squeeze the mandril 6 on the downside of it, to moving down Dynamic just to will drive oscillating rod 4 connected to it around the swing of fixed rotating shaft 15, the swing of fixed rotating shaft 15, which just will drive, is mounted on it On arc-shaped rack 14 swing；When drive lower swing of the arc-shaped rack 14 in oscillating rod 4, arc-shaped rack 14 will make and it First gear 17 in meshing state rotates, and the rotation of first gear 17 drives 18 turns of second gear by one-way clutch 19 It is dynamic, since in this state, sliding block 1 is making have biggish friction between punch-pin and sliding block 1 under the squeezing action of punch-pin Power, under this frictional force, sliding block 1 remains static, i.e., belt 7 remains static, and belt pulley 8 remains static, and turns Dynamic support 5 remains static, i.e. the one end connecting on the second scroll spring 28 with rotational support 5 is static, so second gear 18 rotations will make power on the second scroll spring 28, while in the process, it is downward that sliding block 1 will drive two guide runners 20 It is mobile；Two movements of guide runners 20 just will drive triggering block 24 mounted thereto and move down, mobile in triggering block 24 In the process, after fracture 29 is located at the upper end face contact of one end of downside between the inclined-plane in triggering block 24 and guiding shell 3, triggering block 24 will move under the extruding of guiding shell 3 into telescopic chute 21, after triggering block 24 is moved fully in telescopic chute 21, multiple Position spring 25 under the action of, triggering block 24 will remove again, and under the action of return spring 27 triggering block 24 upper side It is in close contact with the guide groove upper side of guiding shell 3, when punch-pin, which leaves steel plate, loses the extruding to sliding block 1, in the second scrollwork Under the elastic force effect of spring 28, rotational support 5 will drive belt 7 to rotate by belt pulley 8；The rotation of belt 7, which drives, to be mounted on Sliding block 1 thereon rotates；The presswork of side disposed thereon is moved out into stamping equipment by sliding block 1, is collected；Skin simultaneously The sliding block 1 that will drive during rotation between being located on rear side of fracture with 7 is mobile, in the process when the guiding on the sliding block 1 After block skids off a fracture, guiding shell 3 loses the constraint to guide runner；It is upward that corresponding return spring just will push the sliding block 1 Movement is so that its downside for being moved to steel.

Claims (10)

1. a kind of blanking die ancillary equipment, it is characterised in that: it include sliding block, mounting shell, oscillating rod, rotational support, mandril, Belt, belt pulley, support shaft, square hole, the first scroll spring, fixed rotating shaft, guiding square sleeve, return spring, wherein installing It is provided with square orifice on the upper side of shell, support shaft, the both ends peace of rotational support are installed between two medial surfaces of mounting shell one end In the round hole opened on two medial surfaces of the other end of mounting shell；Four belt pulleys are separately mounted to support in pairs On axis and rotational support, and it is located at symmetrical at the both ends of support shaft or rotational support with two belt pulleys in group；Belt It is upper to have along the equally distributed square hole in belt periphery direction；Belt nesting is mounted on the outside of two groups of belt pulleys；It is multiple Guiding square sleeve is mounted on the periphery of belt along belt periphery direction, and is oriented to the side opened on square sleeve and belt Shape hole corresponds cooperation；

Sliding block is drum shape, and multiple sliding blocks with the guiding square sleeve installed on belt by being fitted on belt, cunning A return spring is installed between the downside and guiding square sleeve upper side of block upper end；Sliding block is by moving down as driving Rotational support one-directional rotation storage power；

Symmetrically there are two guiding shells for installation on the inside of mounting shell, and two guiding shells all have a fracture, and guiding shell is in a fracture The low high distribution in place front and back；It is slidably matched between sliding block and two guiding shells.

2. a kind of blanking die ancillary equipment according to claim 1, it is characterised in that: one end of above-mentioned fixed rotating shaft is solid Dingan County is on mounting shell medial surface, and oscillating rod is mounted on fixed rotating shaft by being rotatably assorted, and oscillating rod and fixed rotating shaft Between the first scroll spring is installed；One end of oscillating rod is equipped with mandril；The other end of oscillating rod is turned by swinging for driving Dynamic support one-directional rotation storage power.

3. a kind of blanking die ancillary equipment according to claim 1, it is characterised in that: install one end of above-mentioned limit plate In mounting shell, the other end and oscillating rod of limit plate cooperate, and oscillating rod is when in a horizontal state, the upper side of limit plate and drive The downside of dynamic rotational support one end is engaged.

4. a kind of blanking die ancillary equipment according to claim 1, it is characterised in that: above-mentioned first scroll spring it is interior End is mounted on fixed rotating shaft, and the outer end of the first scroll spring is mounted on oscillating rod.

5. a kind of blanking die ancillary equipment according to claim 2, it is characterised in that: above-mentioned oscillating rod is not installed with top One end of bar is equipped with arc-shaped rack；Second gear is mounted in rotational support and between corresponding two belt pulley；The One gear is mounted on the periphery of second gear by one-way clutch；Arc-shaped rack is engaged with first gear, second gear Second scroll spring is installed between rotational support.

6. a kind of blanking die ancillary equipment according to claim 1, it is characterised in that: the two sides of above-mentioned upper end of slide block On symmetrically there are two guide runner, sliding block is slidably matched by two guide runners and two guiding shells for installation.

7. a kind of blanking die ancillary equipment according to claim 6, it is characterised in that: be provided with one on above-mentioned guide runner The telescopic chute of a perforation with front end face, symmetrically opens that there are two guide grooves on the two sides of telescopic chute, and the downside of triggering block has Inclined-plane, symmetrically there are two guide block, triggering block is coupled by two guide blocks and guide groove for installation on the two sides of triggering block In telescopic chute, and reset spring is installed between triggering block and telescopic chute；Fracture between inclined-plane and guiding shell in triggering block Front end face cooperation.

8. a kind of blanking die ancillary equipment according to claim 1, it is characterised in that: above-mentioned to be mounted in rotational support Two belt pulleys be fixedly mounted in rotational support by welding.

9. a kind of blanking die ancillary equipment according to claim 1, it is characterised in that: above-mentioned to be mounted in support shaft Two belt pulleys are mounted in support shaft by bearing.

10. a kind of blanking die ancillary equipment according to claim 1, it is characterised in that: its in above-mentioned two guiding shell In a medial surface for being fixedly mounted on mounting shell, another guiding shell is mounted on the inside of mounting shell by mounting plate.