CN220005606U - Multi-direction punching and forming integrated die for plate - Google Patents

Abstract

The utility model discloses an integrated die for multi-direction punching and forming of a plate, which is provided with an upper bracket convenient to install on a punching machine, wherein an upper die carrier is assembled on the lower surface of the upper bracket, a lower die carrier is connected to the lower surface of the upper die carrier in a nested manner, and a lower bracket is assembled on the lower surface of the lower die carrier; comprising the following steps: the die cavity is connected to the inner surface of the upper die frame in a nested mode, and a first punching column is assembled on the inner surface of the die cavity in a nested mode. This fashioned integrated mold that punches a hole in plate multi-direction is provided with the die cavity of nested equipment, and the first post that punches a hole that sets up runs through to the plate body, and then the nested extrusion of the cover that punches a hole that sets up, runs through the use to the plate body, and extrudees gliding extrusion piece control second post that punches a hole, can punch a hole to the surface rear side of plate body in the side direction to the extrusion of the first cutting member and the second cutting member that sets up is clear away the leftover bits, and the surface upper end of the second cutting member can carry out the shaping setting to the plate body.

Description

Multi-direction punching and forming integrated die for plate

Technical Field

The utility model relates to the technical field of punching dies, in particular to an integrated die for multi-directional punching and molding of a plate.

Background

When the punching die works, the upper die and the lower die which are arranged are clamped, and the plate is punched stably, but the existing punching die forms stable sliding to punch holes laterally through the sliding blocks which are arranged, and is matched with the sliding reset structure to carry out subsequent use, and the existing punching die still has some problems during working.

In the prior art, the grant publication (bulletin) number: the utility model relates to the technical field of workpiece punching auxiliary devices, in particular to a multidirectional side punching die, which is disclosed in CN216801331U, wherein each elastic oblique device of the multidirectional side punching die … … is fixed on an upper die holder through a cushion block I, and an upper die punch is arranged on each elastic oblique device through a punch clamping plate;

in the process of the device operation, after the whole die assembly is completed, the die is installed on the punch press, a product is placed on the lower die plate … …, so that the upper die punch can be used for punching a hole on the side face, but when the device is used, the used elastic sliding reset punching device is easy to cause a shell to be clamped, multi-direction punching is inconvenient to use, and redundant materials are inconvenient to cooperate with the punching structure to be cut simultaneously.

Disclosure of Invention

The utility model aims to provide an integrated die for multi-direction punching and forming of a plate, which solves the problems that the elastic sliding reset punching device proposed in the background technology is easy to cause shell clamping, is inconvenient to punch in multiple directions, and is inconvenient to match with a punching structure for simultaneous cutting of redundant materials.

In order to achieve the above purpose, the present utility model provides the following technical solutions: an integrated die for multi-directional punching molding of a plate is provided with an upper bracket which is convenient to install on a punching machine, an upper die carrier is assembled on the lower surface of the upper bracket, a lower die carrier is connected to the lower surface of the upper die carrier in a nested manner, and a lower bracket is assembled on the lower surface of the lower die carrier;

comprising the following steps: the die cavity is connected to the inner surface of the upper die frame in a nested mode, a first punching column is assembled on the inner surface of the die cavity in a nested mode, the lower end of the outer surface of the first punching column is connected with a punching sleeve in a penetrating mode, and meanwhile the outer surface of the first punching column penetrates through the plate body;

the upper connecting block is arranged on the inner surface of the upper die frame, the lower surface of the upper connecting block is connected with an extrusion part in a sliding manner, the lower surface of the outer surface of the extrusion part is connected with a lower sliding block in a sliding manner, and meanwhile, a second punching column is nested and assembled on the outer surface of the extrusion part;

the movable piece is nested sliding connection in the inner surface left and right ends of the upper die frame, the connecting block is assembled on the lower surface of the movable piece in a threaded mode, the movable seat is connected on the lower surface of the connecting block in a sliding mode, meanwhile, the first cutting piece is assembled on the inner side of the outer surface of the movable piece, the second cutting piece is connected on the lower surface of the first cutting piece, leftover materials are connected between the first cutting piece and the second cutting piece, and a material bearing plate is arranged on the lower surface of the leftover materials.

Through the structure, stable nested assembly is carried out when the punching die is used, penetrating punching is carried out through the assembly of the first punching column and the punching sleeve, and the first cutting piece and the second cutting piece are matched to remove leftover materials.

Preferably, the side block is nested to the inner surface rear side of going up the die carrier, and the lower surface sliding connection of going up the die carrier has the base to the surface inboard of side block installs side up the slabbing, and the lower surface of side up the slabbing is connected with side down the slabbing simultaneously.

Through the structure, stable assembly is carried out when the device is used, and the device is matched with the downward-pressing type inclined sliding of linkage, so that the stable mobility of the device is improved.

Preferably, the cavity and the first punching column form a built-in nested structure, and the first punching column, the punching sleeve and the plate body form a penetrating structure.

Through the structure, the plate body is effectively nested and assembled when in use, and the plate body is punched through the first punching column.

Preferably, the upper connecting block is arranged in an embedded mode with the upper end of the inner surface of the upper die frame, the upper connecting block, the extrusion piece and the lower sliding block form a linked sliding structure, the lower sliding block and the lower die frame form an integrated structure, the extrusion piece is extruded between the upper connecting block and the lower sliding block, and the extrusion piece and the plate body form a penetrating structure through the second punching column.

Through the structure, stable nested assembly is carried out when the punching device is used, and the second punching column is controlled to stably penetrate through the plate body by matching with sliding adjustment of the extrusion piece.

Preferably, the moving part and the upper die frame form a limiting sliding structure, the moving part and the moving seat form a linkage sliding structure through a connecting block, and the moving part and the leftover materials form an extrusion shearing structure through a first cutting part and a second cutting part.

Through above-mentioned structure, control first cutting member and second cutting member when using, the effectual leftover bits of cleaing away, and the moving member and the connecting piece of setting and the cooperation of moving the seat, stability when improving the removal of device.

Preferably, the lateral block and the upper die frame form a built-in nested structure, the lateral block, the base and the lateral upper cutting block form a limiting sliding structure, and the lateral upper cutting block and the lateral lower cutting block form a cutting structure.

Through the structure, the lateral block is matched with the downward movement of the lateral block when the plate body is used, the plate body slides on the base, and the plate body is cut by the lateral upward cutting block and the lateral downward cutting block which are matched with each other.

Compared with the prior art, the utility model has the beneficial effects that:

1. the integrated die for multi-direction punching and forming of the plate is provided with a die cavity which is convenient for nesting and assembling, and is matched with a first punching column which is arranged to penetrate a plate body, so that a set punching sleeve is used for nesting and extruding the plate body, and an extrusion part which extrudes and slides controls a second punching column to laterally punch the rear side of the outer surface of the plate body, extrusion of a first cutting piece and a second cutting piece is arranged to remove leftover materials, and the upper end of the outer surface of the second cutting piece can be used for forming and setting the plate body;

2. this fashioned integrated mold that punches a hole in plate multi-direction is provided with the moving part of being convenient for spacing equipment to cooperation connecting block and the movable seat of equipment, effectual control first cutting part and second cutting part contact, and clear away the angle material, and when then the compound die, the slip regulation of accessible side direction piece and base that sets up, control side direction up the piece and contact with side direction down the piece, effectually cut simultaneously rear end leftover bits, and then the second cutting part and the side direction down the piece that set up, can cooperate down the die carrier to form wholly, and form the corresponding core of die cavity, carry out stamping forming when forming the location, improve the stability of device.

Drawings

FIG. 1 is a schematic view of the three-dimensional structure of an upper bracket of the present utility model;

FIG. 2 is a schematic view of a semi-sectional perspective structure of an upper bracket of the present utility model;

FIG. 3 is a schematic view of a partial cross-sectional perspective structure of a lower mold frame of the present utility model;

FIG. 4 is an enlarged perspective view of the structure of FIG. 3A according to the present utility model;

fig. 5 is a schematic view of a side block of the present utility model in partial cross-section and in perspective.

In the figure: 1. an upper bracket; 2. a die carrier is arranged; 3. a lower die frame; 4. a lower bracket; 5. a cavity; 6. a first punching post; 7. punching a sleeve; 8. a panel body; 9. an upper joint block; 10. an extrusion; 11. a lower slide block; 12. a second punching post; 13. a moving member; 14. a connecting block; 15. a movable seat; 16. a first cutting member; 17. a second cutting member; 18. leftover materials; 19. a material bearing plate; 20. a lateral block; 21. a base; 22. cutting the blocks upwards laterally; 23. cutting the side downwards.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, the present utility model provides a technical solution: an integrated die for multi-directional punching molding of a plate is provided with an upper bracket 1 which is convenient to install on a punching machine, an upper die carrier 2 is assembled on the lower surface of the upper bracket 1, a lower die carrier 3 is connected to the lower surface of the upper die carrier 2 in a nested manner, and a lower bracket 4 is assembled on the lower surface of the lower die carrier 3;

comprising the following steps: the die cavity 5 is connected to the inner surface of the upper die frame 2 in a nested manner, a first punching column 6 is assembled on the inner surface of the die cavity 5 in a nested manner, a punching sleeve 7 is connected to the lower end of the outer surface of the first punching column 6 in a penetrating manner, and meanwhile, the outer surface of the first punching column 6 is provided with a plate body 8 in a penetrating manner;

the upper connecting block 9 is arranged on the inner surface of the upper die frame 2, the lower surface of the upper connecting block 9 is connected with an extrusion piece 10 in a sliding manner, the lower surface of the outer surface of the extrusion piece 10 is connected with a lower sliding block 11 in a sliding manner, and meanwhile, a second punching column 12 is nested and assembled on the outer surface of the extrusion piece 10;

the cavity 5 and the first punching column 6 form a built-in nested structure, and the first punching column 6, the punching sleeve 7 and the plate body 8 form a penetrating structure.

The upper connecting block 9 is arranged in an embedded mode with the upper end of the inner surface of the upper die frame 2, the upper connecting block 9, the extrusion piece 10 and the lower sliding block 11 form a linked sliding structure, the lower sliding block 11 and the lower die frame 3 form an integrated structure, meanwhile, the extrusion piece 10 is extruded between the upper connecting block 9 and the lower sliding block 11, and the extrusion piece 10 and the plate body 8 form a penetrating structure through the second punching column 12.

When the punching machine is used, when the punching machine works, the upper bracket 1 is driven to drive the upper die frame 2 to move downwards, the first punching column 6 assembled by the die cavity 5 is further penetrated through the punching sleeve 7 assembled by the lower die frame 3, the lower die frame 3 assembled by the upper end of the lower bracket 4 and the plate body 8 assembled by the upper side of the lower die frame 3 are effectively punched, punched materials are stably arranged on the material bearing plate 19, when the upper die frame 2 moves downwards, the extrusion piece 9 assembled by the upper connecting block is extruded by the extrusion piece 10 in sliding connection, the extrusion piece 10 is controlled to slide obliquely at the upper end of the lower sliding block 11, and the second punching column 12 and the plate body 8 are further controlled to penetrate through and punch the punching holes, so that the punching effect is improved.

The movable piece 13 is nested and slidably connected to the left end and the right end of the inner surface of the upper die frame 2, the connecting block 14 is assembled on the lower surface of the movable piece 13 in a threaded manner, the movable seat 15 is slidably connected to the lower surface of the connecting block 14, the first cutting piece 16 is assembled on the inner side of the outer surface of the movable piece 13, the second cutting piece 17 is connected to the lower surface of the first cutting piece 16, the leftover materials 18 are connected between the first cutting piece 16 and the second cutting piece 17, and the material bearing plate 19 is arranged on the lower surface of the leftover materials 18.

The inner surface rear side of the upper die carrier 2 is nested and assembled with a lateral block 20, the lower surface of the upper die carrier 2 is connected with a base 21 in a sliding manner, a lateral upward cutting block 22 is arranged on the inner side of the outer surface of the lateral block 20, and meanwhile, the lower surface of the lateral upward cutting block 22 is connected with a lateral downward cutting block 23.

The moving part 13 and the upper die frame 2 form a limiting sliding structure, the moving part 13 and the moving seat 15 form a linkage sliding structure through the connecting block 14, and the moving part 13 and the leftover materials 18 form an extrusion shearing structure through the first cutting part 16 and the second cutting part 17.

The lateral block 20 and the upper die frame 2 form a built-in nested structure, the lateral block 20, the base 21 and the lateral upper cutting block 22 form a limited sliding structure, and the lateral upper cutting block 22 and the lateral lower cutting block 23 form a cutting structure.

When the upper die frame 2 moves downwards, the movable piece 13 is driven to slide at the left end and the right end in the upper die frame 2, the movable piece 13 is stably controlled to slide on the movable seat 15 connected with the connecting block 14 in a linkage manner, the first cutting piece 16 assembled by the movable piece 13 is driven to be tangent with the second cutting piece 17 assembled by the edge of the lower die frame 3, the leftover materials 18 assembled by the plate body 8 are extruded and cut, the waste materials are discharged through the material bearing plate 19, and when the upper die frame 2 moves downwards, the side blocks 20 which are equidistantly arranged are driven to slide and are arranged with the base 21, the side upper cutting pieces 22 assembled by the side blocks 20 are matched, the side lower cutting pieces 23 assembled by the lower die frame 3 are stably contacted, the leftover materials 18 of the plate body 8 are stably cut, the second cutting piece 17 and the side lower cutting pieces 23 are assembled by the lower die frame 3, the opposite assembling type core can be formed with the die cavity 5, the stability of the device is improved, and the plate body 8 is conveniently molded and used.

What is not described in detail in this specification is prior art known to those skilled in the art.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. An integrated die for multi-directional punching molding of a plate is provided with an upper bracket (1) which is convenient to install on a punching machine, an upper die carrier (2) is assembled on the lower surface of the upper bracket (1), a lower die carrier (3) is connected to the lower surface of the upper die carrier (2) in a nested manner, and a lower bracket (4) is assembled on the lower surface of the lower die carrier (3);

characterized by comprising the following steps:

the die cavity (5) is connected to the inner surface of the upper die frame (2) in a nested manner, a first punching column (6) is assembled on the inner surface of the die cavity (5) in a nested manner, a punching sleeve (7) is connected to the lower end of the outer surface of the first punching column (6) in a penetrating manner, and meanwhile, the outer surface of the first punching column (6) is provided with a plate body (8) in a penetrating manner;

the upper connecting block (9) is arranged on the inner surface of the upper die frame (2), the lower surface of the upper connecting block (9) is connected with an extrusion piece (10) in a sliding manner, the lower surface of the outer surface of the extrusion piece (10) is connected with a lower sliding block (11) in a sliding manner, and meanwhile, a second punching column (12) is nested and assembled on the outer surface of the extrusion piece (10);

the movable piece (13), nested sliding connection in the inner surface left and right ends of last die carrier (2), and the lower surface screw thread group of movable piece (13) has connecting block (14) to the lower surface sliding connection of connecting block (14) has movable seat (15), and the surface inboard group of movable piece (13) has first cutting member (16) simultaneously, and then the lower surface of first cutting member (16) is connected with second cutting member (17), and is connected with leftover bits (18) between first cutting member (16) and second cutting member (17), and the lower surface of leftover bits (18) is provided with holds flitch (19).

2. The integrated die for multidirectional punching and forming of a plate as claimed in claim 1, wherein: the side block (20) is nested and assembled on the rear side of the inner surface of the upper die carrier (2), the base (21) is connected to the lower surface of the upper die carrier (2) in a sliding mode, the side upper cutting block (22) is arranged on the inner side of the outer surface of the side block (20), and meanwhile the side lower cutting block (23) is connected to the lower surface of the side upper cutting block (22).

3. The integrated die for multidirectional punching and forming of a plate as claimed in claim 1, wherein: the cavity (5) and the first punching column (6) form a built-in nested structure, and the first punching column (6), the punching sleeve (7) and the plate body (8) form a penetrating structure.

4. The integrated die for multidirectional punching and forming of a plate as claimed in claim 1, wherein: the upper connecting block (9) is arranged in an embedded mode with the upper end of the inner surface of the upper die frame (2), the upper connecting block (9) and the extrusion piece (10) and the lower sliding block (11) form a sliding structure in a linkage mode, the lower sliding block (11) and the lower die frame (3) form an integrated structure, meanwhile, the extrusion piece (10) is extruded between the upper connecting block (9) and the lower sliding block (11), and the extrusion piece (10) and the plate body (8) form a penetrating structure through the second punching column (12).

5. The integrated die for multidirectional punching and forming of a plate as claimed in claim 1, wherein: the movable piece (13) and the upper die frame (2) form a limiting sliding structure, the movable piece (13) and the movable seat (15) form a linkage sliding structure through the connecting block (14), and the movable piece (13) and the leftover materials (18) form an extrusion shearing structure through the first cutting piece (16) and the second cutting piece (17).

6. An integrated die for multidirectional punch forming of a plate as claimed in claim 2, wherein: the lateral block (20) and the upper die frame (2) form a built-in nested structure, the lateral block (20) and the base (21) and the lateral upper cutting block (22) form a limiting sliding structure, and the lateral upper cutting block (22) and the lateral lower cutting block (23) form a cutting structure.