CN206215758U - The mould of high-strength alloy lock - Google Patents

Abstract

The utility model is related to tie production mould technical field,The mould that specifically related to high-strength alloy is latched,Including upper mould,Lower mould,Lower mould is embedded on bottom plate,Bottom plate is arranged on die shoe,Upper mould is embedded on upper mounted plate,Upper mounted plate is connected to upper bolster bottom,Upper bolster,Guide pillar is provided between die shoe,Guide sleeve mechanism,By feedstock direction,Described upper mould includes forming convax mould successively,Punching and blanking die,Corresponding described lower mould includes and forming convax mould successively,Punching and blanking die molding concave die opposing upper and lower one by one,Blanking punch,Blanking punch rear side is additionally provided with flexible pusher,Flexible pusher is by push pedal,The movable actuator of control push pedal is constituted,Push pedal is arranged on punching and blanking die rear side,Push pedal and blanking punch tip contact,Push pedal rear end is connected with actuator,Pneumatically or hydraulically to drive liftout,Liftout is quick,It is reliable,Fault rate is low.

Description

The mould of high-strength alloy lock

Technical field

The utility model is related to tie production mould technical field, and in particular to the mould of high-strength alloy lock.

Background technology

Metal button member gets a lot of applications in packaging industry, and it is very big to tie up consumption in chest packing and coil.Right angle And obtuse angle metal button member can acute angle metal button member must Multi-step forming shaping with one time punching molded.For rushing for metal button member Compression mould must be multi-station Die Used in Pressworking, could be one time punching molded.Set by mould as metal button member punch forming is latter Liftout part ejection, liftout part with mould punching press act and act, to eject profiled member, be easy to next punch forming.And Prolonged initiation failure, strong influence production efficiency when using, liftout part easily weares and teares.

Utility model content

Technical problem to be solved in the utility model is directed to drawbacks described above, there is provided the shaping mould of high-strength alloy lock Tool, pneumatically or hydraulically to drive liftout, liftout is quick, reliable, and fault rate is low.

The technical scheme that the utility model solves the use of its technical problem is as follows：

The mould of high-strength alloy lock, including upper die and lower die, lower mould are embedded on bottom plate, bottom plate It is arranged on die shoe, upper mould is embedded on upper mounted plate, upper mounted plate is connected to upper bolster bottom, between upper bolster, die shoe Guide pillar, guide sleeve mechanism are provided with, by feedstock direction, described upper mould includes forming convax mould, punching and blanking die successively, it is corresponding described Lower mould include successively with forming convax mould, punching and blanking die molding concave die opposing upper and lower, blanking punch one by one, blanking punch rear side is also Flexible pusher is provided with, flexible pusher is made up of the movable actuator of push pedal, control push pedal, and push pedal is arranged on punching Cavity plate rear side, push pedal and blanking punch tip contact are cut out, push pedal rear end is connected with actuator, and this mould is placed in rushing for production row's button During pressure is set, mould, blanking die are set gradually by feedstock direction, and mould, blanking die are adjacent or are at least separated by Single row button launch after length, mould, blanking die matched moulds simultaneously, row's button flitch then first shaping, rear punching, first by into Pattern has the bulge-structure of moulding arranging button both wings, then will arrange the material that button flitch cuts into single row's button deployed condition by blanking die Piece, while be bent into eight shape to single tablet, first shaping, rear punching improve the precision of shaping heel row button, single matched moulds into In on blanking punch, actuator control push pedal moves forward the row after shaping row's buckle forming after type while upper bolster is moved upwards Button ejection die, push pedal action reduces impact, the harmful effect of shattering zone during Dies ' Blanking not by mould control, The stability of push pedal liftout is improved, reduces and avoid to break down, make push pedal liftout reliable, quick, improve production efficiency.

Further, described actuator front end is additionally provided with connecting plate, and connecting plate is connected with push pedal rear end, telescopic drive part It is cylinder or hydraulic cylinder, push pedal bottom face is contacted with blanking punch top end face, cylinder or Driven by Hydraulic Cylinder control are stable, quick, Promote the stability and agility of raising liftout.

Further, described punching and blanking die is inlaying structure, and punching and blanking die bottom is provided with groove, core is provided with groove Mould, core bottom face constitutes splayed configuration groove with groove side, and corresponding blanking punch upper end is agree with splayed configuration groove eight Font structure, it is the punching groove for setting that bottom plate corresponds at blanking punch, is punched in groove on the right side of correspondence blanking punch to set The limited block put, correspondence blanking punch left side is the knife edge die for setting in punching groove, and knife edge die is embedded on bottom plate, is punched Cavity plate and blanking punch coordinate the row for making tablet be bent into eight shape to detain, and limited block limits the position of tablet right-hand member, knife edge die with Flitch is cut into single tablet by the cooperation of punching and blanking die left side.

Further, the described corresponding bottom plate in forming convax mould bottom side is provided with material guide mechanism, forming convax mould bottom face Monosymmetric to be provided with projection, molding concave die top is provided with the groove for agreeing with projection, and the shaping structures row of mould buckles both wings On bulge-structure, the bulge-structure on row's button both wings be used to making multiple row's buttons successively clamping overlap it is in a row-shaped.

Further, described material guide mechanism is stock guide, and stock guide is arranged on both sides before and after molding concave die, material guide mechanism Limit the front and back position of flitch.

Further, described forming convax mould includes the first forming convax mould, the second forming convax mould successively, and corresponding shaping is recessed Mould includes the first molding concave die, the second molding concave die successively, and the first forming convax mould bottom face is monosymmetric to be provided with projection, first Molding concave die top is provided with the groove for agreeing with projection, and the second forming convax mould, the second molding concave die are punched matrix, the first shaping mould Has the bulge-structure of moulding arranging button both wings, the second mould is used to buckle end face shaping words identification in row.

Further, described punching and blanking die upper end, forming convax mould upper end are ledge structure, and upper mounted plate corresponding position is equal The step groove for coordinating ledge structure is provided with, backing plate is additionally provided between upper mounted plate, upper bolster, backing plate coordinates on fixed with upper mounted plate Mould.

Further, described guide pillar guide sleeve mechanism includes thick guide pillar, thick guide pin bushing, and thin guide pillar, thin guide pin bushing, thick guide pillar are fixed On die shoe, thick guide pin bushing is arranged on upper bolster and corresponds at thick guide pillar, and thin guide pillar is fixed on upper mounted plate, and thin guide pin bushing sets Put at the thin guide pillar in bottom plate corresponding position.

Further, lead column is provided between described core and punching and blanking die, lead column is slided with core, punching and blanking die and matched somebody with somebody Close, lead column bottom is concordant with punching and blanking die bottom, on the one hand lead column ensures the precision that core coordinates with punching and blanking die, another Aspect lead column plays a part of auxiliary positioning tablet in punching shaping, it is ensured that the formed precision of row's button.

Further, described upper bolster upper end is provided with die shank.

The beneficial effects of the utility model are：Using such scheme, cylinder or Driven by Hydraulic Cylinder push pedal are movable, push pedal Structure is agreed with blanking punch upper end, quickly can be detained the row after shaping and be ejected from blanking punch, it is to avoid mould matched moulds Influence of the vibratory impulse to liftout, and cylinder or Driven by Hydraulic Cylinder are more quick, and liftout is quick, efficiency high, promotes to improve and gives birth to Efficiency is produced, and the structure of mould makes the formed precision that row buckles more preferable.

Brief description of the drawings

By detailed description below in conjunction with the accompanying drawings, the utility model is foregoing to incite somebody to action with other objects, features and advantages Become apparent.

Fig. 1 is row's buckle structure schematic diagram.

Fig. 2 is the structural representation of the utility model embodiment 1.

Fig. 3 is the structural representation of the flexible pusher of the utility model.

Fig. 4 is the structural representation of the utility model embodiment 2.

Wherein：1 is die shoe, and 2 is bottom plate, and 3 is upper mounted plate, and 4 is upper bolster, and 5 is forming convax mould, and 6 is punching Cavity plate, 6.1 is core, and 7 is blanking punch, and 8 is push pedal, and 9 is cylinder, and 9.1 is connecting plate, and 10 is limited block, and 11 is knife edge die, 12 is lead column, and 13 is stock guide, and 14 is backing plate, and 15 is thick guide pillar, and 15.1 is thick guide pin bushing, and 16 is thin guide pillar, and 16.1 is carefully to lead Set.

Specific embodiment

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

Embodiment 1：The mould of high-strength alloy lock as shown in Figure 2 and Figure 3, including upper die and lower die, lower mould are embedding It is located on bottom plate 2, bottom plate 2 is arranged on die shoe 1, upper mould is embedded on upper mounted plate 3, upper mounted plate 3 is connected In the bottom of upper bolster 4, guide pillar, guide sleeve mechanism are provided between upper bolster 4, die shoe 1, mould includes mould, blanking die, into Pattern tool blanking die includes upper and lower mould, and by feedstock direction, upper mould includes forming convax mould 5, punching and blanking die 6 successively, corresponding Lower mould include successively with forming convax mould 5, punching and blanking die 6 molding concave die opposing upper and lower, blanking punch 7 one by one, after blanking punch 7 Side is additionally provided with flexible pusher, and flexible pusher is made up of the movable cylinder 9 of push pedal 8, control push pedal 8, and push pedal 8 sets Put in the rear side of punching and blanking die 6, the bottom face of push pedal 8 is contacted with the top end face of blanking punch 7, and the output end of cylinder 9 is provided with connecting plate 9.1, connecting plate 9.1 is connected with the rear end of push pedal 8, and punching and blanking die 6 is inlaying structure, and the bottom of punching and blanking die 6 is provided with groove, groove Core 6.1 is inside provided with, the bottom face of core 6.1 constitutes splayed configuration groove with groove side, and the upper end of corresponding blanking punch 7 is contract Close the splayed configuration structure of splayed configuration groove, the splayed configuration structure of the upper end of blanking punch 7 and the isosceles trapezoid groove knot that button is arranged shown in Fig. 1 Structure agrees with, and blanking punch 7 coordinates moulding arranging button with punching and blanking die 6, and the bottom of blanking punch 7 is embedded on bottom plate 2, and mountain is fixed Plate 2 is slope structure at the front end face of bottom plate 2 corresponding to punching groove 2.1, punching groove 2.1 is provided with blanking punch 7, is easy to Push pedal 8 promotes forward moulding arranging button to be detained with the row of ejection after the completion of punching, and the domatic row's button for promoting ejection drops out mould, blanking punch Limited block 10 is provided with the punching groove 2.1 on 7 right sides, limited block 10 limits the position of flitch right-hand member, the left side of blanking punch 7 punching Knife edge die 11 is provided with groove 2.1, locating piece 10, knife edge die 11 are embedded on bottom plate 2, knife edge die 11 and punching and blanking die 6 Left side coordinates cut-out flitch into single tablet, and punching and blanking die 6 coordinates with blanking punch 7 makes tablet be bent into the row of eight shape Button, lead column 11 between core 6.1 and punching and blanking die 6, lead column 11 is slidably matched with core 6.1, punching and blanking die 6, lead column 11 are located at core 6.1, the center of punching and blanking die 6, and correspondence tablet center, the bottom of lead column 12 is concordant with the bottom of punching and blanking die 6, leads To rubber blanket is additionally provided between the top of post 12 and upper bolster 4, punching and blanking die 6 is moved downward, and tablet is pushed down in the bottom of lead column 12, is risen To auxiliary positioning effect, subsequent punching and blanking die 6, the matched moulds of blanking punch 7, by tablet bending button in a row, lead column 12 is pushing down material Stop moving downward after piece, its upper end deforms rubber blanket, and after die sinking, rubber blanket makes lead column 12 reset, the side of lead column 12 1 Face ensures the precision that core 6.1 coordinates with punching and blanking die 6, and another aspect lead column 12 plays auxiliary positioning material in punching shaping The effect of piece, it is ensured that the formed precision of row's button, the inlaying structure of punching and blanking die 6 improves the precision of punching and blanking die 6, promotes to improve The formed precision of button is arranged, and also core 6.1, blanking punch 7 can be changed to be molded another eight shape row button, be conveniently replaceable Safeguard, the eight shape structures for being shaped as coordinating with blanking punch 7 of push pedal 8, the structure of cooperation good with the fitness of blanking punch 7 With guide effect, promote to improve liftout effect.

Molding concave die is relative about 5 with forming convax mould, and forming convax mould is embedded the corresponding lower fixation immediately below forming convax mould 5 In plate 2, the top end face of bottom plate 2 is provided with distance and material between stock guide 13, stock guide 13 corresponding to both sides before and after forming convax mould The width of plate is consistent, and the bottom face of forming convax mould 5 is monosymmetric to be provided with projection, and molding concave die top is provided with agrees with the recessed of projection Groove, the shaping structures row of mould buckles the bulge-structure on both wings, and the upper end of punching and blanking die 6, the upper end of forming convax mould 5 are step Structure, the corresponding position of upper mounted plate 3 is equipped with the step groove for coordinating ledge structure, and backing plate is additionally provided between upper mounted plate 3, upper bolster 4 14, backing plate 14 coordinates fixed upper mould with upper mounted plate 3.

Described guide pillar guide sleeve mechanism includes thick guide pillar 15, thick guide pin bushing 15.1, thin guide pillar 16, thin guide pin bushing 16.1, thick guide pillar 15 are fixed on die shoe 1, and thick guide pin bushing 15.1 is arranged on upper bolster 1 and corresponds at thick guide pillar 15, and thin guide pillar 16 is fixed on In fixed plate 3, thin guide pin bushing 16.1 is arranged at the thin guide pillar 16 in the corresponding position of bottom plate 2, and thick guide pillar 15, thick guide pin bushing 15.1 coordinate to be protected Card upper bolster 4, die shoe 1 are oriented to, and thin guide pillar 16, thin guide pin bushing 16.1 coordinate guiding, the quality of fit ensured between mould, it is ensured that row The formed precision of button.

This mould is placed in the punching press setting of production row's button, and the upper end of upper bolster 4 is additionally provided with die shank, and die shank connection punching press is motor-driven Make mechanism, mould, blanking die are set gradually by feedstock direction, mould, blanking die are while matched moulds, first by being molded The bulge-structure of mould molding row's button both wings, then the tablet that button flitch cuts into single row's button deployed condition will be arranged by blanking die, Simultaneously eight shape are bent into single tablet, improve shaping heel row button precision, single matched moulds shaping after row's buckle forming in On blanking punch 7, the control of cylinder 9 push pedal 8 moves forward the row's button after shaping from blanking punch 7 while upper bolster 4 is moved upwards On eject forward, push pedal 8 is acted not by mould control, reduces impact during Dies ' Blanking, the harmful effect that shattering zone comes, The stability of the liftout of push pedal 8 is improved, reduces and avoid to break down, make the liftout of push pedal 8 reliable, quick, improve production efficiency, and The drive control of cylinder 9 is stable, quick, promotes to improve the stability and agility of liftout.

Embodiment 2：The mould of high-strength alloy lock as shown in Figure 3, Figure 4, including upper die and lower die, lower mould are embedding It is located on bottom plate 2, bottom plate 2 is arranged on die shoe 1, upper mould is embedded on upper mounted plate 3, upper mounted plate 3 is connected In the bottom of upper bolster 4, guide pillar, guide sleeve mechanism are provided between upper bolster 4, die shoe 1, mould includes mould, blanking die, into Pattern tool blanking die includes upper and lower mould, and by feedstock direction, upper mould includes forming convax mould 5, punching and blanking die 6 successively, corresponding Lower mould include successively with forming convax mould 5, punching and blanking die 6 molding concave die opposing upper and lower, blanking punch 7 one by one, after blanking punch 7 Side is additionally provided with flexible pusher, and flexible pusher is made up of the movable cylinder 9 of push pedal 8, control push pedal 8, and push pedal 8 sets Put in the rear side of punching and blanking die 6, the bottom face of push pedal 8 is contacted with the top end face of blanking punch 7, and the output end of cylinder 9 is provided with connecting plate 9.1, connecting plate 9.1 is connected with the rear end of push pedal 8, and punching and blanking die 6 is inlaying structure, and the bottom of punching and blanking die 6 is provided with groove, groove Core 6.1 is inside provided with, the bottom face of core 6.1 constitutes splayed configuration groove with groove side, and the upper end of corresponding blanking punch 7 is contract Close the splayed configuration structure of splayed configuration groove, the splayed configuration structure of the upper end of blanking punch 7 and the isosceles trapezoid groove knot that button is arranged shown in Fig. 1 Structure agrees with, and blanking punch 7 coordinates moulding arranging button with punching and blanking die 6, and the bottom of blanking punch 7 is embedded on bottom plate 2, and mountain is fixed Plate 2 is slope structure at the front end face of bottom plate 2 corresponding to punching groove 2.1, punching groove 2.1 is provided with blanking punch 7, is easy to Push pedal 8 promotes forward moulding arranging button to be detained with the row of ejection after the completion of punching, and the domatic row's button for promoting ejection drops out mould, blanking punch Limited block 10 is provided with the punching groove 2.1 on 7 right sides, limited block 10 limits the position of flitch right-hand member, the left side of blanking punch 7 punching Knife edge die 11 is provided with groove 2.1, locating piece 10, knife edge die 11 are embedded on bottom plate 2, knife edge die 11 and punching and blanking die 6 Left side coordinates cut-out flitch into single tablet, and punching and blanking die 6 coordinates with blanking punch 7 makes tablet be bent into the row of eight shape Button, lead column 11 between core 6.1 and punching and blanking die 6, lead column 11 is slidably matched with core 6.1, punching and blanking die 6, lead column 11 are located at core 6.1, the center of punching and blanking die 6, and correspondence tablet center, the bottom of lead column 12 is concordant with the bottom of punching and blanking die 6, leads To rubber blanket is additionally provided between the top of post 12 and upper bolster 4, punching and blanking die 6 is moved downward, and tablet is pushed down in the bottom of lead column 12, is risen To auxiliary positioning effect, subsequent punching and blanking die 6, the matched moulds of blanking punch 7, by tablet bending button in a row, lead column 12 is pushing down material Stop moving downward after piece, its upper end deforms rubber blanket, and after die sinking, rubber blanket makes lead column 12 reset, the side of lead column 12 1 Face ensures the precision that core 6.1 coordinates with punching and blanking die 6, and another aspect lead column 12 plays auxiliary positioning material in punching shaping The effect of piece, it is ensured that the formed precision of row's button, the inlaying structure of punching and blanking die 6 improves the precision of punching and blanking die 6, promotes to improve The formed precision of button is arranged, and also core 6.1, blanking punch 7 can be changed to be molded another eight shape row button, be conveniently replaceable Safeguard, the eight shape structures for being shaped as coordinating with blanking punch 7 of push pedal 8, the structure of cooperation good with the fitness of blanking punch 7 With guide effect, promote to improve liftout effect.

Molding concave die is relative about 5 with forming convax mould, and forming convax mould is embedded the corresponding lower fixation immediately below forming convax mould 5 In plate 2, the top end face of bottom plate 2 is provided with distance and material between stock guide 13, stock guide 13 corresponding to both sides before and after forming convax mould The width of plate is consistent, and the bottom face of forming convax mould 5 is monosymmetric to be provided with projection, and molding concave die top is provided with agrees with the recessed of projection Groove, the shaping structures row of mould buckles the bulge-structure on both wings, and punched matrix is additionally provided between mould and blanking die, Punched matrix includes on punching press word mould under mould 5.1, punching press word, between forming convax mould 5 and punching and blanking die 6 at a distance of tablet away from From mould 5.1 is arranged in the middle of forming convax mould 5 and punching and blanking die 6 on punching press word, and mould is arranged on molding concave die under corresponding punching press word With between blanking punch 7, mould is relative up and down under mould, punching press word on punching press word, and mould moulding arranging buckles the bulge-structure of both wings, punching Pressure character mould is used to buckle end face shaping words identification in row, and the upper end of punching and blanking die 6, the upper end of forming convax mould 5 are ledge structure, The corresponding position of upper mounted plate 3 is equipped with the step groove for coordinating ledge structure, and backing plate 14 is additionally provided between upper mounted plate 3, upper bolster 4, pads Plate 14 coordinates fixed upper mould with upper mounted plate 3.

Described guide pillar guide sleeve mechanism includes thick guide pillar 15, thick guide pin bushing 15.1, thin guide pillar 16, thin guide pin bushing 16.1, thick guide pillar 15 are fixed on die shoe 1, and thick guide pin bushing 15.1 is arranged on upper bolster 1 and corresponds at thick guide pillar 15, and thin guide pillar 16 is fixed on In fixed plate 3, thin guide pin bushing 16.1 is arranged at the thin guide pillar 16 in the corresponding position of bottom plate 2, and thick guide pillar 15, thick guide pin bushing 15.1 coordinate to be protected Card upper bolster 4, die shoe 1 are oriented to, and thin guide pillar 16, thin guide pin bushing 16.1 coordinate guiding, the quality of fit ensured between mould, it is ensured that row The formed precision of button.

This mould is placed in the punching press setting of production row's button, and the upper end of upper bolster 4 is additionally provided with die shank, and die shank connection punching press is motor-driven Make mechanism, mould, blanking die are set gradually by feedstock direction, mould, punched matrix tool, blanking die are closed simultaneously Mould, is first buckled the bulge-structure of both wings by mould moulding arranging, then is identified punching press, finally will arrange button flitch by blanking die Cut into single row and detain the tablet of deployed condition, while being bent into eight shape to single tablet, improve the precision of shaping heel row button, In on blanking punch 7, the control of cylinder 9 push pedal 8 moves forward row's buckle forming after the shaping of single matched moulds while upper bolster 4 is moved upwards Row's button after shaping is ejected forward from blanking punch 7, push pedal 8 is acted not by mould control, reduces Dies ' Blanking process The harmful effect that middle impact, shattering zone come, improves the stability of the liftout of push pedal 8, reduces and avoid to break down, and pushes up push pedal 8 Material is reliable, quick, improve production efficiency, and the drive control of cylinder 9 stabilization, quick, promote to improve the stability of liftout with it is quick Property.

The above, is only preferred embodiment of the present utility model, and any formal limit is not done to the utility model System, it is every according to any simple modification, the equivalent variations made to above example in technical spirit of the present utility model, fall Enter within protection domain of the present utility model.

Claims (10)

1. the mould of high-strength alloy lock, including upper die and lower die, lower mould is embedded on bottom plate, and bottom plate sets Put on die shoe, upper mould is embedded on upper mounted plate, upper mounted plate is connected to upper bolster bottom, is set between upper bolster, die shoe There are guide pillar, guide sleeve mechanism, it is characterised in that：By feedstock direction, described upper mould includes forming convax mould, punching and blanking die successively, right The described lower mould answered includes and forming convax mould, punching and blanking die molding concave die opposing upper and lower, blanking punch one by one, punching successively Punch-pin rear side is additionally provided with flexible pusher, and flexible pusher is made up of the movable actuator of push pedal, control push pedal, is pushed away Plate is arranged on punching and blanking die rear side, push pedal and blanking punch tip contact, and push pedal rear end is connected with actuator.

2. the mould that high-strength alloy according to claim 1 is latched, it is characterised in that：Described actuator front end Connecting plate is additionally provided with, connecting plate is connected with push pedal rear end, telescopic drive part is cylinder or hydraulic cylinder, push pedal bottom face is convex with punching Die tip face contacts.

3. the mould that high-strength alloy according to claim 1 is latched, it is characterised in that：Described punching and blanking die is Inlaying structure, punching and blanking die bottom is provided with groove, and core is provided with groove, and it is recessed that core bottom face constitutes splayed configuration with groove side Groove, corresponding blanking punch upper end is the splayed configuration structure for agreeing with splayed configuration groove, and bottom plate corresponds at blanking punch and is The punching groove of setting, correspondence blanking punch right side is the limited block for setting in punching groove, correspondence blanking punch left side in punching groove It is the knife edge die for setting.

4. the mould that high-strength alloy according to claim 1 is latched, it is characterised in that：Described forming convax mould bottom The corresponding bottom plate in side is provided with material guide mechanism, and forming convax mould bottom face is monosymmetric to be provided with projection, and molding concave die top sets There is the groove for agreeing with projection.

5. the mould that high-strength alloy according to claim 4 is latched, it is characterised in that：Described material guide mechanism is Stock guide, stock guide is arranged on both sides before and after molding concave die.

6. the mould that high-strength alloy according to claim 1 is latched, it is characterised in that：Described forming convax mould according to It is secondary including the first forming convax mould, the second forming convax mould, corresponding molding concave die successively include the first molding concave die, second shaping it is recessed Mould, the first forming convax mould bottom face is monosymmetric to be provided with projection, and the first molding concave die top is provided with the groove for agreeing with projection, the Two forming convax moulds, the second molding concave die are punched matrix.

7. the mould that high-strength alloy according to claim 1 is latched, it is characterised in that：On described punching and blanking die End, forming convax mould upper end are ledge structure, and upper mounted plate corresponding position is equipped with the step groove for coordinating ledge structure, upper fixation Backing plate is additionally provided between plate, upper bolster.

8. the mould that high-strength alloy according to claim 1 is latched, it is characterised in that：Described guide pillar guide pin bushing machine Structure includes thick guide pillar, thick guide pin bushing, and thin guide pillar, thin guide pin bushing, thick guide pillar are fixed on die shoe, and thick guide pin bushing is arranged on right on upper bolster Should be at thick guide pillar, thin guide pillar is fixed on upper mounted plate, and thin guide pin bushing is arranged at the thin guide pillar in bottom plate corresponding position.

9. the mould that high-strength alloy according to claim 3 is latched, it is characterised in that：Described core and punching Lead column is provided between cavity plate, lead column is slidably matched with core, punching and blanking die, and lead column bottom is concordant with punching and blanking die bottom.

10. the mould that high-strength alloy according to claim 1 is latched, it is characterised in that：On described upper bolster End is provided with die shank.