CN212384364U - Stamping forming die for automobile girder parts - Google Patents

Abstract

The utility model provides an automobile girder part punch forming die, which comprises a base, a forming assembly and a punching assembly; the forming assembly comprises a fixed module, a first movable module and a second movable module, and a forming cavity is defined by the fixed module, the first movable module and the second movable module; the punching assembly comprises an installation frame, a punching block and a driving piece, wherein the punching block is connected with the driving piece installed on the installation frame and driven by the driving piece to move up and down in the vertical direction. The utility model has the advantages that the first punching rod and the second punching rod are arranged, when the punching block moves downwards to contact with the raw material, the first punching rod and the second punching rod are in rotating contact with the raw material due to friction force, and the wrinkling and cracking of the forming bending part can be avoided; set up first rotation stick, second and rotate the stick, receive the punching press power of punching press piece and when removing at the raw materials, first rotation stick, second rotate stick and raw materials and rotate the contact all the time for the raw materials can get into the die cavity gently, effectively avoids the raw materials side fracture of corrugating.

Description

Stamping forming die for automobile girder parts

Technical Field

The utility model relates to a parts machining technical field especially relates to an automobile girder class part stamping forming mould.

Background

Along with the development of the automobile industry, the requirement on the performance of the automobile is higher and higher, and the design of the automobile is more humanized, so that parts are more complicated, the difficulty of stamping forming is increased, and the problem of forming wrinkling is more prominent.

SUMMERY OF THE UTILITY MODEL

Based on the technical problem who exists among the background art, the utility model provides an automobile girder class part stamping forming mould.

The utility model provides an automobile girder part punch forming die, which comprises a base, a forming assembly and a punching assembly; the forming assembly comprises a fixed module, a first movable module and a second movable module, the fixed module, the first movable module and the second movable module are all installed on a horizontally arranged base, the first movable module and the second movable module are oppositely arranged on two sides of the fixed module, the first movable module and the second movable module are equal in height, a forming cavity is defined by the fixed module, the first movable module and the second movable module, a first rotating rod is rotatably installed at the top end of one side, close to the second movable module, of the first movable module, and a second rotating rod parallel to the first rotating rod is rotatably installed at the top end of one side, close to the first movable module, of the second movable module; the punching press subassembly includes the mounting bracket, punching press piece and driving piece, the mounting bracket is installed on the base, the punching press piece be located become die cavity top and with become die cavity looks adaptation, the punching press piece is connected and reciprocates in vertical direction by the driving piece drive with the driving piece of installing on the mounting bracket, the punching press piece bottom is close to first movable mould one side and rotates and install the first punching press stick parallel with first rotating rod, the punching press piece is close to second movable mould one side and rotates and install the second punching press stick parallel with the second rotating rod.

Preferably, a first positioning piece for fixing the raw materials is installed at the top end of the first movable module, and a second positioning piece for fixing the raw materials is installed at the top end of the second movable module.

Preferably, first locating piece includes first locating piece, first spring and first limiting plate, and first limiting plate fixed mounting is on first movable module, and first locating piece slidable mounting is on first movable module and is located first limiting plate and is close to second movable module one side, and first spring both ends are connected with first locating piece, first limiting plate respectively.

Preferably, the second positioning element comprises a second positioning block, a second spring and a second limiting plate, the second limiting plate is fixedly mounted on the second movable module, the second positioning block is slidably mounted on the second movable module and located on one side, close to the first movable module, of the second limiting plate, and two ends of the second spring are respectively connected with the second positioning block and the second limiting plate.

Preferably, the fixed module is fixedly installed on the base, the first movable module and the second movable module are both slidably installed on the base, the distance between the first movable module and the second movable module is adjustable, a first chute for inserting the fixed module is formed in one side, close to the fixed module, of the bottom end of the first movable module, and a second chute for inserting the fixed module is formed in one side, close to the fixed module, of the bottom end of the second movable module.

Preferably, the molding assembly further comprises a plurality of first adjusting sleeves with inner screw holes, a first mounting plate is arranged on the base and located on one side, away from the second movable mold, of the first movable mold, a plurality of through holes are formed in the first mounting plate, a plurality of first adjusting screws are connected to one side, away from the second movable mold, of the first movable mold, and the first adjusting screws penetrate through the first through holes and are connected with the first adjusting sleeves in a threaded fit mode respectively.

Preferably, the molding assembly further comprises a plurality of second adjusting sleeves with inner screw holes, a second mounting plate is arranged on the base and located on one side, away from the first movable mold, of the second movable mold, a plurality of penetrating second through holes are formed in the second mounting plate, a plurality of second adjusting screws are connected to one side, away from the first movable mold, of the second movable mold, and the second adjusting screws penetrate through the second through holes and are connected with the second adjusting sleeves in a threaded fit mode respectively.

The utility model provides an automobile girder part punch forming die, through rotating installation first punching stick, second punching stick in punching press piece bottom, when the punching press piece moves down and contacts with the raw materials, because frictional force, first punching stick, second punching stick rotate with the raw materials and contact, can avoid the shaping department of bending to corrugate and split; the top of the first movable mould block and the second movable mould block are respectively and rotatably installed at positions close to the forming cavity, and the first rotating rod and the second rotating rod are always in rotating contact with the raw material when the raw material is moved by the stamping force of the stamping block, so that the raw material can smoothly enter the forming cavity, and wrinkling and cracking of the side edge of the raw material are effectively avoided.

Drawings

Fig. 1 is the utility model provides a structural schematic diagram of car girder class part stamping forming mould.

Detailed Description

Referring to fig. 1, the utility model provides an automobile girder part punch forming die, which comprises a base 1, a forming assembly and a punching assembly; wherein:

the shaping subassembly includes fixed module 2, first module 3 and the second of moving moves module 4, first module 3 that moves, the second moves module 4 mutual disposition and is in fixed module 2 both sides, fixed module 2 fixed mounting is on base 1, first module 3 that moves, the equal slidable mounting of second moves module 4 on base 1 and the distance between first module 3 and the second moves module 4 is adjustable, first module 3 bottom of moving is close to fixed module 2 one side and is equipped with the first spout 17 that supplies fixed module 2 male, the second moves module 4 bottom and is close to fixed module 2 one side and is equipped with the second spout 18 that supplies fixed module 2 male. The height of the first movable module 3 is equal to that of the second movable module 4, a molding cavity 5 is formed by surrounding the fixed module 2, the first movable module 3 and the second movable module 4, the first movable module 3 is close to the top end of one side of the second movable module 4 and is rotatably provided with a first rotating rod 6, and the second movable module 4 is close to the top end of one side of the first movable module 3 and is rotatably provided with a second rotating rod 7 parallel to the first rotating rod 6.

The punching press subassembly includes mounting bracket 8, punching press piece 9 and driving piece 10, mounting bracket 8 is installed on base 1, punching press piece 9 is located one side of one-tenth die cavity 5 and with one-tenth die cavity 5 looks adaptation, punching press piece 9 is connected and reciprocates in vertical direction by the drive of driving piece 10 with the driving piece 10 of installing on mounting bracket 8, punching press piece 9 bottom is close to first 3 one side of moving the module and rotates and install the first punching press stick 25 parallel with first stick 6 that rotates, punching press piece 9 is close to the second and moves 4 one side of the module and rotates and install the second punching press stick 26 parallel with second stick 7 that rotates.

When the utility model works, the processing raw material is horizontally placed at the top ends of the first movable module 3 and the second movable module 4, the driving piece 10 drives the punching block 9 to move downwards to drive the raw material to enter the forming cavity 5 and punch the raw material into a preset shape; the utility model discloses a first punching stick 25, second punching stick 26 are installed in the rotation of punching press piece 9 bottom, when punching press piece 9 moves down and contacts with the raw materials, because frictional force, first punching stick 25, second punching stick 26 rotate with the raw materials and contact, can avoid the shaping department of bending to corrugate and split; first move module 3, second and move 4 tops of module and be close to into the mould cavity 5 positions and rotate respectively and install first rotating rod 25, second rotating rod 26, when the raw materials received the punching press power of punching press piece 9 and moved, first rotating rod 25, second rotating rod 26 rotated the contact with the raw materials all the time for the raw materials can slowly get into the mould cavity 5, effectively avoids the raw materials side to corrugate and split.

In the specific embodiment, a first positioning member for fixing the raw material is installed at the top end of the first movable module 3, and a second positioning member for fixing the raw material is installed at the top end of the second movable module 4. First locating piece includes first locating piece 11, first spring 12 and first limiting plate 13, and first limiting plate 13 fixed mounting is on first movable module 3, and first locating piece 11 slidable mounting is on first movable module 3 and is located first limiting plate 13 and is close to second movable module 4 one side, and first spring 12 both ends are connected with first locating piece 11, first limiting plate 13 respectively. The second positioning element comprises a second positioning block 14, a second spring 15 and a second limiting plate 16, the second limiting plate 16 is fixedly mounted on the second movable module 4, the second positioning block 14 is slidably mounted on the second movable module 4 and is located on one side, close to the first movable module 3, of the second limiting plate 16, and two ends of the second spring 15 are respectively connected with the second positioning block 14 and the second limiting plate 16. Under the action of the elastic forces of the first spring 12 and the second spring 15, the first positioning block 11 and the second positioning block 14 can respectively press against two ends of the raw material, so that the raw material is prevented from moving.

In a specific embodiment, the forming assembly further includes a plurality of first adjusting sleeves 19 with internal screw holes, a first mounting plate 20 is mounted on the base 1 on a side of the first movable module 3 away from the second movable module 4, the first mounting plate 20 is provided with a plurality of through holes, a plurality of first adjusting screws 21 are connected to a side of the first movable module 3 away from the second movable module 4, and the plurality of first adjusting screws 21 respectively penetrate through the plurality of first through holes and are respectively in threaded fit connection with the plurality of first adjusting sleeves 19.

In a specific embodiment, the forming assembly further includes a plurality of second adjusting sleeves 22 with internal screw holes, a second mounting plate 23 is mounted on the base 1 on one side of the second movable module 4 away from the first movable module 3, the second mounting plate 23 is provided with a plurality of through second through holes, one side of the second movable module 4 away from the first movable module 3 is connected with a plurality of second adjusting screws 24, and the plurality of second adjusting screws 24 respectively penetrate through the plurality of second through holes and are respectively in threaded fit connection with the plurality of second adjusting sleeves 22.

When the distance between the first movable mold block 3 and the second movable mold block 4 is adjusted, the first adjusting sleeve 19 and the second adjusting sleeve 22 are taken down, the first movable mold block 3 and the second movable mold block 4 are moved, and after the positions are determined, the first adjusting sleeve 19 and the second adjusting sleeve 22 are respectively connected with the first adjusting screw 21 and the second adjusting screw 24 to fix the first movable mold block 3 and the second movable mold block 4.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (7)

1. A stamping forming die for automobile beam parts is characterized by comprising a base (1), a forming assembly and a stamping assembly; the forming assembly comprises a fixed module (2), a first movable module (3) and a second movable module (4), the fixed module (2), the first movable module (3) and the second movable module (4) are all installed on a horizontally arranged base (1), the first movable module (3) and the second movable module (4) are oppositely arranged on two sides of the fixed module (2), the first movable module (3) and the second movable module (4) are equal in height, a forming cavity (5) is defined by the fixed module (2), the first movable module (3) and the second movable module (4), a first rotating rod (6) is rotatably installed at the top end of one side, close to the second movable module (4), of the first movable module (3), and a second rotating rod (7) parallel to the first rotating rod (6) is rotatably installed at the top end of one side, close to the first movable module (3), of the second movable module (4); punching press subassembly includes mounting bracket (8), punching press piece (9) and driving piece (10), mounting bracket (8) are installed on base (1), punching press piece (9) are located one side of shaping chamber (5) and with shaping chamber (5) looks adaptation, punching press piece (9) are connected and are reciprocated at vertical direction by driving piece (10) drive with driving piece (10) of installing on mounting bracket (8), punching press piece (9) bottom is close to first movable mould piece (3) one side and rotates and install first punching press stick (25) parallel with first movable rod (6), punching press piece (9) are close to second movable mould piece (4) one side and rotate and install second punching press stick (26) parallel with second movable rod (7).

2. The stamping and forming die for automobile beam parts as claimed in claim 1, wherein a first positioning member for fixing the raw materials is mounted at the top end of the first movable module (3), and a second positioning member for fixing the raw materials is mounted at the top end of the second movable module (4).

3. The automobile girder part punch forming die of claim 2, wherein the first positioning member comprises a first positioning block (11), a first spring (12) and a first limiting plate (13), the first limiting plate (13) is fixedly installed on the first movable module (3), the first positioning block (11) is slidably installed on the first movable module (3) and located on one side, close to the second movable module (4), of the first limiting plate (13), and two ends of the first spring (12) are respectively connected with the first positioning block (11) and the first limiting plate (13).

4. The stamping forming die for automobile beam parts according to claim 2, wherein the second positioning element comprises a second positioning block (14), a second spring (15) and a second limiting plate (16), the second limiting plate (16) is fixedly installed on the second movable module (4), the second positioning block (14) is slidably installed on the second movable module (4) and located on one side, close to the first movable module (3), of the second limiting plate (16), and two ends of the second spring (15) are respectively connected with the second positioning block (14) and the second limiting plate (16).

5. The automobile girder part punch forming die according to any one of claims 1 to 4, wherein the fixed module (2) is fixedly installed on the base (1), the first movable module (3) and the second movable module (4) are both slidably installed on the base (1) and the distance between the first movable module (3) and the second movable module (4) is adjustable, a first sliding groove (17) for inserting the fixed module (2) is formed in one side, close to the fixed module (2), of the bottom end of the first movable module (3), and a second sliding groove (18) for inserting the fixed module (2) is formed in one side, close to the fixed module (2), of the bottom end of the second movable module (4).

6. The automobile girder part punch forming die of claim 5, wherein the forming assembly further comprises a plurality of first adjusting sleeves (19) with inner screw holes, a first mounting plate (20) is mounted on one side, away from the second moving module (4), of the first moving module (3) on the base (1), a plurality of first through holes are formed in the first mounting plate (20), a plurality of first adjusting screws (21) are connected to one side, away from the second moving module (4), of the first moving module (3), and the first adjusting screws (21) respectively penetrate through the first through holes and are respectively in threaded fit connection with the first adjusting sleeves (19).

7. The automobile girder part punch forming die according to claim 5, wherein the forming assembly further comprises a plurality of second adjusting sleeves (22) with inner screw holes, a second mounting plate (23) is mounted on one side, away from the first moving module (3), of the second moving module (4) on the base (1), a plurality of through second through holes are formed in the second mounting plate (23), a plurality of second adjusting screws (24) are connected to one side, away from the first moving module (3), of the second moving module (4), and the plurality of second adjusting screws (24) respectively penetrate through the plurality of second through holes and are respectively in threaded fit connection with the plurality of second adjusting sleeves (22).

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