CN213671450U - Die for upright post spring clamp - Google Patents

Abstract

The utility model relates to a stand spring is mould for card, belong to the mould field, including last mould and bed die, it has set gradually first trimming mechanism to go up between mould and the bed die according to the processing order, first mechanism, the second mechanism, the third mechanism, the second trimming mechanism, the fourth mechanism, the third trimming mechanism and the fifth mechanism of bending, first trimming mechanism, second trimming mechanism and third trimming mechanism are used for cutting the different positions of raw and other materials, first mechanism, the second mechanism, the third mechanism, the fourth mechanism and the fifth mechanism of bending are used for bending raw and other materials and make the former material shaping. This application has the effect of being convenient for improve machining efficiency.

Description

Die for upright post spring clamp

Technical Field

The application relates to the field of dies, in particular to a die for a stand column spring clamp.

Background

The stamping die is a special process equipment for processing materials (metal or nonmetal) into parts (or semi-finished products) in cold stamping processing, and is called a cold stamping die (commonly called a cold stamping die). Stamping is a press working method in which a die mounted on a press is used to apply pressure to a material at room temperature to cause separation or plastic deformation of the material, thereby obtaining a desired part.

When a stamping die is used to process a material, a plurality of processing steps are usually included, and each processing step needs to use a different stamping die, so that a worker needs to process the material by using different punching machines, which results in the reduction of the processing efficiency of the material.

SUMMERY OF THE UTILITY MODEL

In order to improve machining efficiency, this application provides a stand is mould for spring card.

The application provides a stand is mould for spring card adopts following technical scheme:

the utility model provides a stand spring is mould for card, includes mould and bed die, go up and set gradually first trimming mechanism, first mechanism, the second of bending, the third mechanism, the second trimming mechanism, the fourth mechanism, the third trimming mechanism and the fifth mechanism of bending according to the process order between mould and the bed die, first trimming mechanism, second trimming mechanism and third trimming mechanism are used for cutting the different positions of raw and other materials, first mechanism, the second of bending mechanism, the third mechanism, the fourth mechanism and the fifth mechanism of bending are used for bending raw and other materials and make the raw and other materials shaping.

By adopting the technical scheme, when the die is used, a worker installs the upper die and the lower die on the punch respectively, then the raw material is placed between the upper die and the lower die, the upper die and the lower die can be separated after being closed at intervals by using the punch, the raw material is moved between the upper die and the lower die according to the processing sequence, and in the moving process, the raw material sequentially passes through the first trimming mechanism, the first bending mechanism, the second bending mechanism, the third bending mechanism, the second trimming mechanism, the fourth bending mechanism, the third trimming mechanism and the fifth bending mechanism, so that different processing is carried out, and finally the raw material is formed into a product, so that the one-time processing of the raw material is realized, and the processing efficiency is improved.

Optionally, the first trimming mechanism includes a first trimming punch arranged on the upper die, and the lower die is provided with a first trimming punch slot corresponding to the first trimming punch; the second trimming mechanism comprises a second trimming punch arranged on the upper die, and a second trimming punching groove corresponding to the second trimming punch is arranged on the lower die; the third trimming mechanism comprises a third trimming punch arranged on the upper die, and a third trimming punching groove corresponding to the third trimming punch is arranged on the lower die.

Through adopting above-mentioned technical scheme, when last mould and bed die compound die, go up the mould and drive first cut edge drift and impress in the first cut edge die groove for first cut edge drift cuts raw and other materials, realizes the cutting of raw and other material relevant positions, and likewise, utilize second cut edge drift and second cut edge die groove and third cut edge drift and third cut edge die groove to cut other positions that need the cutting of raw and other materials, so just realized cutting of raw and other materials and processed.

Optionally, the first bending mechanism includes a first bending punch arranged on the upper die, and the lower die is provided with a first bending punching groove corresponding to the first bending punch; the second bending mechanism comprises a second bending punch arranged on the upper die, and a second bending punching groove corresponding to the second bending punch is arranged on the lower die; the third bending mechanism comprises a third bending punch head arranged on the upper die, and a third bending punching groove corresponding to the third bending punch head is arranged on the lower die; the fourth bending mechanism comprises a fourth bending punch arranged on the upper die, and a fourth bending punching groove corresponding to the fourth bending punch is arranged on the lower die; the fifth bending mechanism comprises a fifth bending punch head arranged on the upper die, and a fifth bending punching groove corresponding to the fifth bending punch head is arranged on the lower die.

Through adopting above-mentioned technical scheme, at the in-process of last mould and bed die compound die, go up the mould and drive first drift of bending and impress in the first dashpot of bending for first drift extrudees raw and other materials, thereby make raw and other materials extruded deformation and be bent, and similarly, utilize second drift of bending and second dashpot of bending, third drift of bending and third dashpot of bending, fourth drift of bending and fourth dashpot and fifth drift of bending and the lower position dashpot of bending, alright with carrying out the bending of different positions to raw and other materials, make raw and other materials final forming.

Optionally, a first material guiding assembly is arranged on the lower die and at a position where the raw material is fed, and the first material guiding assembly is used for guiding the raw material.

Through adopting above-mentioned technical scheme, utilize first guide subassembly to make raw and other materials can get into the position of processing between mould and the bed die better, promoted the processing convenience.

Optionally, the first material guiding assembly includes two first material guiding plates disposed oppositely, the first material guiding plates extend to the outside of the lower mold, and a material guiding space for raw materials to enter is reserved between the two first material guiding plates.

Through adopting above-mentioned technical scheme, in the use, arrange raw and other materials in the guide space to make raw and other materials move to between cope match-plate pattern and the bed die, make raw and other materials continuously move again, utilize first stock guide can guarantee that raw and other materials move on the direction of processing all the time, reduce the skew of raw and other materials position.

Optionally, a second material guiding assembly is arranged between the first edge cutting mechanism and the first bending mechanism, and the second material guiding assembly is used for reducing the offset of the position of the raw material.

Through adopting above-mentioned technical scheme, after cutting edge and before the processing of first bending to raw and other materials, utilize the second guide subassembly can guarantee that raw and other materials can not produce offset at the in-process of bending to make raw and other materials can remove according to the processing order better, further promoted raw and other materials's stability.

Optionally, the second material guiding assembly includes two second material guiding plates disposed on the lower mold, and the two second material guiding plates are disposed opposite to each other.

By adopting the technical scheme, the raw materials can be relatively kept at a certain position by utilizing the second material guide plate, so that the subsequent bending processing can not influence the position of the raw materials.

Optionally, a material charging groove is arranged on the lower die and at a position close to the fifth bending mechanism.

Through adopting above-mentioned technical scheme, after raw and other materials final forming, the product will shift out from the charging conduit, and the setting up of charging conduit makes the product can shift out upper mold and bed die better.

In summary, the present application includes at least one of the following beneficial technical effects:

the first edge cutting mechanism, the first bending mechanism, the second bending mechanism, the third bending mechanism, the second edge cutting mechanism, the fourth bending mechanism, the third edge cutting mechanism and the fifth bending mechanism are sequentially arranged between the upper die and the lower die according to the processing sequence, so that one-time processing of raw materials is realized, and the processing efficiency is improved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

fig. 2 is a schematic structural view of the upper mold in fig. 1 after being turned over in the embodiment of the present application.

Description of reference numerals: 1. an upper die; 11. a die shank; 12. an upper back plate; 13. an upper die holder; 14. an upper base plate; 15. an upper splint; 16. a stopper plate; 17. an upper stripping plate; 2. a lower die; 21. a lower template; 22. a lower base plate; 23. a lower die holder; 311. a first trimming punch; 312. a first cut edge punching groove; 321. a second trimming punch; 322. a second trimming notching; 331. a third trimming punch; 332. thirdly, trimming and notching; 411. a first bending punch; 412. a first bending notching; 421. a second bending punch; 422. second bending and notching; 431. a third bending punch; 432. a third bending punching groove; 441. a fourth bending punch; 442. fourth bending and notching; 451. a fifth bending punch; 452. a fifth bending punching groove; 5. a first material guide plate; 6. a second material guide plate; 7. and a feeding chute.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses stand is mould for spring card.

Referring to fig. 1, a stand spring is mould for card, including last mould 1 and bed die 2, it includes die shank 11 from top to bottom to go up mould 1, go up backplate 12, upper die base 13, upper padding plate 14, punch holder 15, backstop board 16, go up stripper 17, die shank 11 runs through in backplate 12 imbeds upper die base 13, pass through bolt fixed connection between board and the board, utilize die shank 11 can install upper die 1 on the punching machine, bed die 2 includes lower bolster 21 from top to bottom, lower bolster 22 and lower bolster 23, lower bolster 21 and lower bolster 22 pass through fixing bolt fixed connection on lower bolster 23.

Referring to fig. 1 and 2, a first edge cutting mechanism, a first bending mechanism, a second bending mechanism, a third bending mechanism, a second edge cutting mechanism, a fourth bending mechanism, a third edge cutting mechanism and a fifth bending mechanism are sequentially arranged between an upper die 1 and a lower die 2 according to a processing sequence, the first edge cutting mechanism, the second edge cutting mechanism and the third edge cutting mechanism can cut different positions of raw materials, and the first bending mechanism, the second bending mechanism, the third bending mechanism, the fourth bending mechanism and the fifth bending mechanism can bend different positions of the raw materials to form the raw materials.

After the upper die 1 and the lower die 2 are respectively installed on a punching machine, raw materials are placed between the upper die 1 and the lower die 2, and then the raw materials are sequentially processed by the first trimming mechanism, the first bending mechanism, the second bending mechanism, the third bending mechanism, the second trimming mechanism, the fourth bending mechanism, the third trimming mechanism and the fifth bending mechanism, so that the raw materials are finally formed, one-time processing of the raw materials can be realized, and the efficiency is improved.

Referring to fig. 2, the first trimming mechanism includes a first trimming punch 311 and a second trimming punch slot 322, the first trimming punch 311 is fixedly connected to the upper clamp plate 15 of the upper die holder 13, the first trimming punch 311 penetrates through the stop plate 16 and the upper stripper plate 17, the first trimming punch slot 312 is arranged on the lower die plate 21 of the lower die 2, and the position of the first trimming punch slot 312 corresponds to the position of the first trimming punch 311; the second trimming mechanism comprises a second trimming punch 321 and a second trimming notching slot 322, the third trimming mechanism comprises a third trimming punch 331 and a third trimming notching slot 332, the second trimming punch 321 and the third trimming punch 331 are both fixed on the upper clamping plate 15, and the second trimming notching slot 322 and the third trimming notching slot 332 are both arranged on the lower die plate 21.

Referring to fig. 2, the first bending mechanism includes a first bending punch 411 fixedly connected to the upper clamping plate 15 of the upper die 1, the first bending punch 411 penetrates through the stop plate 16 and the upper stripper plate 17, and a first bending punch slot 412 corresponding to the position of the first bending punch 411 is arranged on the lower die plate 21 of the lower die 2; the second bending mechanism comprises a second bending punch 421 and a second bending punching groove 422, the third bending mechanism comprises a third bending punch 431 and a third bending punching groove 432, the fourth bending mechanism comprises a fourth bending punch 441 and a fourth bending punching groove 442, the fifth bending mechanism comprises a fifth bending punch 451 and a fifth bending punching groove 452, and similarly, the second bending punch 421, the third bending punch 431, the fourth bending punch 441 and the fifth bending punch 451 are all fixedly connected with the upper clamping plate 15, and the second bending punch 422, the third bending punch 432, the fourth bending punch 442 and the fifth bending punch 452 are all disposed on the lower mold plate 21, the second bending punch 422 corresponds to the second bending punch 421, the third bending punch 432 corresponds to the third bending punch 431, the fourth bending punch 442 corresponds to the fourth bending punch 441, and the fifth bending punch 452 corresponds to the fifth bending punch 451.

In the processing process, the upper die 1 drives the first trimming punch 311 to press into the first trimming punch groove 312, so that the raw material is cut, and the second trimming punch 321 and the third trimming punch 331 can cut other positions of the raw material to be cut; similarly, the first bending punch 411 can bend the material at a position where the material needs to be bent when being pressed into the first bending groove 412, and the second bending punch 421, the third bending punch 431, the fourth bending punch 441, and the fifth bending punch 451 can bend the material at another position where the material needs to be bent.

Referring to fig. 1, in order to enable raw materials to more accurately enter between an upper die 1 and a lower die 2, a first material guiding assembly is arranged on the lower die 2 and located at a position where the raw materials are fed, the first material guiding assembly is composed of two first material guiding plates 5, the two first material guiding plates 5 are oppositely arranged and connected to a lower die plate 21 through fixing bolts, one side of each first material guiding plate 5 is located at a position close to a first trimming mechanism 31, the other side of each first material guiding plate 5 extends out of the lower die 2, and a material guiding space for the raw materials to enter is reserved between the two first material guiding plates 5.

When the raw materials are processed, the raw materials enter between the upper die 1 and the lower die 2 from the material guiding space, and the first material guiding plate 5 can continuously guide the raw materials in the processing process, so that the position of the raw materials is ensured not to deviate.

Referring to fig. 2, in order to further ensure the accuracy of the position of the raw material, a second material guiding assembly is further disposed between the first trimming mechanism 31 and the first bending mechanism 41, the second material guiding assembly includes two second material guiding plates 6 opposite to each other, the second material guiding plates 6 are fixedly connected to the lower template 21 of the lower mold 2 through fixing bolts, and the second material guiding plates 6 are located between the first trimming chute 312 and the first bending chute 412; the second material guide plate 6 can reduce the offset generated in the subsequent processing of the raw materials, so that the raw materials can be better processed.

Referring to fig. 2, the lower mold 2 is provided with a chute 7 at a position close to the fifth bending mechanism 45, and the bottom wall of the chute 7 is inclined, so that the molded product can be moved out of the chute 7.

The implementation principle of the mold for the stand spring clamp in the embodiment of the application is as follows: when the die is used, an operator respectively installs the upper die 1 and the lower die 2 on a punching machine, then raw materials are placed between the upper die 1 and the lower die 2, the upper die 1 and the lower die 2 can be separated after being closed at intervals by the punching machine, the raw materials move between the upper die 1 and the lower die 2 according to a processing sequence, and the raw materials sequentially pass through the first trimming mechanism, the first bending mechanism, the second bending mechanism, the third bending mechanism, the second trimming mechanism, the fourth bending mechanism, the third trimming mechanism and the fifth bending mechanism in the moving process, so that different processing is performed, and finally the raw materials are formed into products, so that one-time processing of the raw materials is realized, and the processing efficiency is improved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a stand is mould for spring card which characterized in that: the bending device comprises an upper die (1) and a lower die (2), wherein a first edge cutting mechanism, a first bending mechanism, a second bending mechanism, a third bending mechanism, a second edge cutting mechanism, a fourth bending mechanism, a third edge cutting mechanism and a fifth bending mechanism are sequentially arranged between the upper die (1) and the lower die (2) according to a processing sequence, the first edge cutting mechanism, the second edge cutting mechanism and the third edge cutting mechanism are used for cutting different positions of raw materials, and the first bending mechanism, the second bending mechanism, the third bending mechanism, the fourth bending mechanism and the fifth bending mechanism are used for bending the raw materials to enable the raw materials to be formed.

2. The mold for the column spring clip according to claim 1, wherein: the first trimming mechanism comprises a first trimming punch (311) arranged on the upper die (1), and the lower die (2) is provided with a first trimming punching groove (312) corresponding to the first trimming punch (311); the second trimming mechanism comprises a second trimming punch head (321) arranged on the upper die (1), and a second trimming punching groove (322) corresponding to the second trimming punch head (321) is arranged on the lower die (2); the third trimming mechanism comprises a third trimming punch (331) arranged on the upper die (1), and a third trimming punching groove (332) corresponding to the third trimming punch (331) is arranged on the lower die (2).

3. The mold for the column spring clip according to claim 1, wherein: the first bending mechanism comprises a first bending punch head (411) arranged on the upper die (1), and a first bending punching groove (412) corresponding to the first bending punch head (411) is arranged on the lower die (2); the second bending mechanism comprises a second bending punch (421) arranged on the upper die (1), and a second bending punching groove (422) corresponding to the second bending punch (421) is arranged on the lower die (2); the third bending mechanism comprises a third bending punch head (431) arranged on the upper die (1), and a third bending punching groove (432) corresponding to the third bending punch head (431) is arranged on the lower die (2); the fourth bending mechanism comprises a fourth bending punch (441) arranged on the upper die (1), and a fourth bending punching groove (442) corresponding to the fourth bending punch (441) is arranged on the lower die (2); the fifth bending mechanism comprises a fifth bending punch (451) arranged on the upper die (1), and a fifth bending punching groove (452) corresponding to the fifth bending punch (451) is arranged on the lower die (2).

4. The mold for the column spring clip according to claim 1, wherein: and a first material guide assembly is arranged on the lower die (2) and positioned at the position where the raw materials are fed, and the first material guide assembly is used for guiding the raw materials.

5. The mold for the pillar spring clip as set forth in claim 4, wherein: the first material guiding assembly comprises two first material guiding plates (5) which are oppositely arranged, the first material guiding plates (5) extend out of the lower die (2), and a material guiding space for raw materials to enter is reserved between the two first material guiding plates (5).

6. The mold for the column spring clip according to claim 1, wherein: a second material guiding assembly is arranged between the first edge cutting mechanism (31) and the first bending mechanism (41), and the second material guiding assembly is used for reducing the offset of the position of the raw material.

7. The mold for the pillar spring clip as set forth in claim 6, wherein: the second material guiding assembly comprises two second material guiding plates (6) arranged on the lower die (2), and the two second material guiding plates (6) are arranged oppositely.

8. The mold for the column spring clip according to claim 1, wherein: and a charging chute (7) is arranged on the lower die (2) and at a position close to the fifth bending mechanism (45).

Images