CN217412157U - V-shaped double-side driving wedge - Google Patents

Abstract

The utility model discloses a V-shaped bilateral driving wedge, wherein a punch mounting block is arranged in a groove at the left end of a left lower slide block, an integrated punch and three groups of pressure nitrogen cylinders are arranged on the punch mounting block, the output end of each pressure nitrogen cylinder is connected with a pressure plate, and two sides of the pressure plate are connected with the left lower slide block through pressure plate safety blocks; the bottom of the right lower sliding block is supported at the upper ends of the two groups of second copper guide plates, a second return nitrogen cylinder is arranged between the two groups of second copper guide plates, the output end of the second return nitrogen cylinder is connected to the bottom of the right lower sliding block, and the front side of the bottom of the right lower sliding block is connected to the inner side of the second sliding block guide block; the utility model discloses V type drives the piece and moves down, can make set drift carry out the punching press to material A, the shaping piece carries out stamping forming to material B, improves work efficiency, through the setting of first return stroke nitrogen cylinder and second return stroke nitrogen cylinder, can realize the material of taking off to material A and material B, and the work efficiency of production is high.

Description

V-shaped double-side driving wedge

Technical Field

The utility model relates to a drive slide wedge technical field specifically is a two side drive slide wedges of V type.

Background

The production of the figurative diversification of stamping workpiece and special section structure needs the punching press technology level constantly to improve to satisfy the diversified realization of stamping workpiece, punching a hole or the stamping forming of stamping workpiece can be realized to the two side drive slide wedges of V type, and the two side drive slide wedges of current V type can only carry out punching press operation to a material once only, greatly reduced carry out stamping forming's work efficiency to a plurality of materials, for this reason, we have released a two side drive slide wedges of V type.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a two side drive wedges of V type to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a V-shaped bilateral driving wedge comprises an installation base, a left lower sliding block, a right lower sliding block and a V-shaped driving block, wherein a groove at the left end of the left lower sliding block is internally provided with a punch installation block, the punch installation block is provided with a set punch and three groups of material pressing nitrogen cylinders, the output end of each material pressing nitrogen cylinder is connected with a material pressing plate, and two sides of each material pressing plate are connected with the left lower sliding block through material pressing plate safety blocks;

a first return nitrogen cylinder is installed in the middle of the upper end of the installation base, first copper guide plates located on two sides of the first return nitrogen cylinder are installed at the upper end of the installation base, first slider guide blocks are installed on two sides of the upper end of the installation base, two sides of the lower end of the left lower slider are connected between the two groups of first slider guide blocks, and the output end of the first return nitrogen cylinder is connected to the bottom of the left lower slider;

the bottom of the right lower sliding block is supported at the upper ends of the two groups of second copper guide plates, a second return nitrogen cylinder is arranged between the two groups of second copper guide plates, the output end of the second return nitrogen cylinder is connected to the bottom of the right lower sliding block, and the front side of the bottom of the right lower sliding block is connected to the inner side of the second sliding block guiding block;

a first copper wear-resistant plate is fixed on the right side of the upper part of the left lower sliding block, an adjustable insert is mounted on the lower part of the left side of the V-shaped driving block and supported on the surface of the first copper wear-resistant plate, and the front side of the adjustable insert is connected to the front side of the left lower sliding block through a first forced safety return block;

the safety return stroke slide block is characterized in that a second copper wear-resisting plate is installed on the left side of the upper portion of the right lower slide block, a third copper wear-resisting plate is installed on the lower portion of the right side of the V-shaped driving block and supported on the surface of the second copper wear-resisting plate, the front side of the V-shaped driving block is connected to the front side of the right lower slide block through a second forced safety return stroke block, and a forming block is installed on the surface of the right end of the right lower slide block.

Compared with the prior art, the beneficial effects of the utility model are that: the V-shaped driving block of the utility model moves downwards, so that the integrated punch punches the material A, and the forming block punches the material B, thereby improving the working efficiency;

a first return nitrogen cylinder stop block at the output end of the first return nitrogen cylinder extends out, so that the first return nitrogen cylinder drives the left lower sliding block to move towards the right side along the space between the two groups of first sliding block guide blocks, and the output end of the material pressing nitrogen cylinder drives the material pressing plate to move towards the direction far away from the left lower sliding block, so that the material A is removed; meanwhile, a second return nitrogen cylinder stop block at the output end of the second return nitrogen cylinder extends out, so that the right lower sliding block moves leftwards along the second sliding block guide block, and the forming block removes the material B;

therefore, the first return nitrogen cylinder and the second return nitrogen cylinder are arranged, so that the stripping of the material A and the material B can be realized, and the production efficiency is high; and the size of the die is greatly reduced, so that the manufacturing cost of the die is saved to the maximum extent and the production efficiency of the die is improved.

Drawings

Fig. 1 is a schematic view of an overall first three-dimensional structure of the present invention;

fig. 2 is a schematic view of a three-dimensional structure of the first copper guide plate, the first return nitrogen cylinder, the first slider guide block and the mounting base of the present invention after being mounted;

fig. 3 is a schematic diagram showing the relative positions of two sets of second copper guide plates and a second return nitrogen cylinder according to the present invention;

FIG. 4 is a schematic structural view of the bottom of the left lower slider and the right lower slider of the present invention;

fig. 5 is a schematic view of a second overall three-dimensional structure of the present invention;

fig. 6 is a schematic diagram of the relative positions of the collective punch, the material-pressing nitrogen cylinder and the positioning pin according to the present invention;

fig. 7 is a schematic structural view of the punch mounting block of the present invention after being mounted.

In the figure: 1. a V-shaped driving block; 2. a second return nitrogen cylinder; 3. a third copper wear plate; 4. a second copper wear plate; 5. a second forced safety return block; 6. forming a block; 7. a right lower slide block; 8. a second slide block guide block; 9. a second copper guide plate; 10. installing a base; 11. a first slide block guide block; 12. a pressure pad safety block; 13. a material pressing plate; 14. collecting the punches; 15. a left lower slide block; 16. the insert can be adjusted; 17. a first copper wear plate; 18. a first copper guide plate; 19. a first return nitrogen cylinder stop; 20. a first return nitrogen cylinder; 21. a second return nitrogen cylinder stop block; 22. inserting grooves; 23. a first forced safety backhaul block; 24. a card slot; 25. a material pressing nitrogen cylinder; 26. positioning pins; 27. a groove; 28. and a punch mounting block.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution: a V-shaped double-side driving wedge comprises an installation base 10, a left lower sliding block 15, a right lower sliding block 7 and a V-shaped driving block 1, wherein a punch installation block 28 is arranged in a groove 27 at the left end of the left lower sliding block 15, an integrated punch 14 and three groups of material pressing nitrogen cylinders 25 are installed on the punch installation block 28, the output end of each material pressing nitrogen cylinder 25 is connected with a material pressing plate 13, and two sides of each material pressing plate 13 are connected to the left lower sliding block 15 through material pressing plate safety blocks 12;

an upper group of positioning pins 26 and a lower group of positioning pins 26 are further arranged in the groove 27, and the outer ends of the positioning pins 26 sequentially penetrate through the punch mounting block 28 and the material pressing plate 13. Therefore, when the pressure plate 13 moves, the pressure plate 13 can be ensured to move smoothly, and the position deviation can not occur.

A first return nitrogen cylinder 20 is installed in the middle of the upper end of the installation base 10, first copper guide plates 18 located on two sides of the first return nitrogen cylinder 20 are installed at the upper end of the installation base 10, first slider guide blocks 11 are installed on two sides of the upper end of the installation base 10, and two sides of the lower end of a left lower slider 15 are laterally connected between the two groups of first slider guide blocks 11;

the output end of the first return nitrogen cylinder 20 is connected to the bottom of the left lower sliding block 15, the output end of the first return nitrogen cylinder 20 is connected with a first return nitrogen cylinder stop block 19, the right side of the left lower sliding block 15 is provided with a clamping groove 24, and the first return nitrogen cylinder stop block 19 is fixed in the clamping groove 24.

The bottom of the right lower sliding block 7 is supported at the upper ends of the two groups of second copper guide plates 9, a second return nitrogen cylinder 2 is arranged between the two groups of second copper guide plates 9, the output end of the second return nitrogen cylinder 2 is connected to the bottom of the right lower sliding block 7, the output end of the second return nitrogen cylinder 2 is connected with a second return nitrogen cylinder stop block 21, an insertion groove 22 is formed in the bottom of the right lower sliding block 7, and the second return nitrogen cylinder stop block 21 is fixed in the insertion groove 22. The front side of the bottom of the right lower sliding block 7 is laterally connected with the inner side of the second sliding block guide block 8;

a first copper wear-resistant plate 17 is fixed on the right side of the upper part of the left lower slide block 15, an adjustable insert 16 is mounted on the lower part of the left side of the V-shaped driving block 1, the adjustable insert 16 is supported on the surface of the first copper wear-resistant plate 17, and the front side of the adjustable insert 16 is connected to the front side of the left lower slide block 15 through a first forced safety return block 23;

second copper antifriction plate 4 is installed in the upper portion left side of slider 7 under the right side, third copper antifriction plate 3 is installed to the right side lower part of V type drive block 1, and third copper antifriction plate 3 supports in the surface of second copper antifriction plate 4, the front side of V type drive block 1 is forced safe return stroke piece 5 through the second and is connected in the front side of slider 7 under the right side, the right-hand member surface mounting of slider 7 has shaping piece 6 under the right side.

Specifically, when the device is used, the V-shaped driving block 1 moves downwards, so that the V-shaped driving block 1 pushes the first copper wear-resisting plate 17 and the left lower slide block 15 to move towards the left integrally through the adjustable insert 16, and simultaneously, the V-shaped driving block 1 pushes the second copper wear-resisting plate 4 and the right lower slide block 7 to move towards the right integrally through the third copper wear-resisting plate 3;

at the moment, the output end of the material pressing nitrogen cylinder 25 drives the material pressing plate 13 to move towards the direction close to the left lower slide block 15 to press the material A tightly, and the left lower slide block 15 moves towards the left along between the two groups of first slide block guide blocks 11, so that the material A is punched by the integrated punch 14;

meanwhile, the right lower slide block 7 moves rightwards along the second slide block guide block 8, so that the forming block 6 performs punch forming on the material B;

after the punching operation of the material A by the integrated punch 14 and the punching operation of the material B by the forming block 6 are finished, the first return nitrogen cylinder stop block 19 at the output end of the first return nitrogen cylinder 20 extends out, so that the first return nitrogen cylinder 20 drives the left lower slide block 15 to move towards the right side along the space between the two groups of first slide block guide blocks 11, and the output end of the material pressing nitrogen cylinder 25 drives the material pressing plate 13 to move towards the direction far away from the left lower slide block 15, so as to strip the material A; meanwhile, a second return nitrogen cylinder stop block 21 at the output end of the second return nitrogen cylinder 2 extends out, so that the right lower sliding block 7 moves leftwards along the second sliding block guide block 8, and the forming block 6 removes the material B.

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

Claims (4)

1. The utility model provides a two side drive wedges of V type, includes installation base (10), left side lower slider (15), right side lower slider (7) and V type drive block (1), its characterized in that: a punch mounting block (28) is arranged in a groove (27) at the left end of the left lower sliding block (15), a set punch (14) and three groups of material pressing nitrogen cylinders (25) are mounted on the punch mounting block (28), the output end of each material pressing nitrogen cylinder (25) is connected with a material pressing plate (13), and two sides of each material pressing plate (13) are connected to the left lower sliding block (15) through material pressing plate safety blocks (12);

a first return nitrogen cylinder (20) is installed in the middle of the upper end of the installation base (10), first copper guide plates (18) located on two sides of the first return nitrogen cylinder (20) are installed at the upper end of the installation base (10), first slider guide blocks (11) are installed on two sides of the upper end of the installation base (10), two sides of the lower end of a left lower slider (15) are connected between the two groups of first slider guide blocks (11), and the output end of the first return nitrogen cylinder (20) is connected to the bottom of the left lower slider (15);

the bottom of the right lower sliding block (7) is supported at the upper ends of the two groups of second copper guide plates (9), a second return nitrogen cylinder (2) is arranged between the two groups of second copper guide plates (9), the output end of the second return nitrogen cylinder (2) is connected to the bottom of the right lower sliding block (7), and the front side of the bottom of the right lower sliding block (7) is connected to the inner side of the second sliding block guide block (8);

a first copper wear-resisting plate (17) is fixed on the right side of the upper part of the left lower sliding block (15), an adjustable insert (16) is installed on the lower portion of the left side of the V-shaped driving block (1), the adjustable insert (16) is supported on the surface of the first copper wear-resisting plate (17), and the front side of the adjustable insert (16) is connected to the front side of the left lower sliding block (15) through a first forced safety return block (23);

second copper antifriction plate (4) are installed in the upper portion left side of slider (7) under the right side, third copper antifriction plate (3) are installed to the right side lower part of V type drive block (1), and third copper antifriction plate (3) support in the surface of second copper antifriction plate (4), the front side of V type drive block (1) is forced safe return stroke piece (5) through the second and is connected in the front side of slider (7) under the right side, the right-hand member surface mounting of slider (7) has shaping piece (6) under the right side.

2. The V-shaped double-sided driving wedge of claim 1, wherein: an upper group of positioning pins (26) and a lower group of positioning pins (26) are further arranged in the groove (27), and the outer ends of the positioning pins (26) sequentially penetrate through the punch mounting block (28) and the material pressing plate (13).

3. The V-shaped double-sided driving wedge of claim 1, wherein: the output end of the first return nitrogen cylinder (20) is connected with a first return nitrogen cylinder stop block (19), the right side of the left lower sliding block (15) is provided with a clamping groove (24), and the first return nitrogen cylinder stop block (19) is fixed in the clamping groove (24).

4. The V-shaped double-sided drive wedge of claim 1, wherein: the output end of the second return nitrogen cylinder (2) is connected with a second return nitrogen cylinder stop block (21), the bottom of the right lower sliding block (7) is provided with a plug-in groove (22), and the second return nitrogen cylinder stop block (21) is fixed in the plug-in groove (22).

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