CN112388050A - Shaping tool for die machining and trimming - Google Patents

Abstract

The invention relates to a shaping tool for mould processing and trimming, comprising vertical plates arranged vertically correspondingly on the left and right, a workbench is fixed horizontally between the left and right vertical plates, and a top plate parallel to the workbench is fixed on the top of the left and right vertical plates. , There is a horizontal lifting shell between the top plate and the worktable, the top of the lifting shell is connected with a lifting mechanism, a plate conveyor is installed above the worktable, and a debris collection box is installed at the lower part of the left and right vertical plates. The debris collection box is located under the workbench. The present invention facilitates trimming and shaping of molds of different widths by arranging front and rear drive casings with front and rear drive assemblies, and a lift casing with a drive mechanism, in conjunction with a pressure plate and a plate conveyor with electromagnetic suction cups. When trimming molds with different widths, there is no need to replace the corresponding shaping tooling, which reduces the production cost and improves the mass production efficiency of the mold.

Description

Shaping tool for die machining and trimming

Technical Field

The invention relates to the technical field of die machining, in particular to a shaping tool for die machining and trimming.

Background

Stamping is a press working method which applies pressure to a plate material or a hot material on a press machine by utilizing a stamping die at normal temperature to cause the plate material or the hot material to generate plastic deformation or separation so as to obtain a part with required shape and size. A stamping die is a special process device for processing materials into parts in cold stamping processing. In the batch production process of the die, burrs and flaws are inevitable, and the formed die needs to be trimmed and shaped to obtain the die meeting the requirements. However, in the existing shaping tool for machining and trimming the die, only the die with a single width can be trimmed and shaped when in use, and only the corresponding shaping tool can be replaced when the die with different widths is trimmed, so that the production cost is high, and the batch production efficiency of the die is reduced.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a shaping tool for processing and trimming a die.

In order to achieve the purpose, the invention adopts the following technical scheme:

a shaping tool for processing and trimming a die comprises vertical plates which are vertically arranged correspondingly from left to right, a workbench is horizontally and fixedly connected between the left vertical plate and the right vertical plate, a top plate parallel to the workbench is fixedly connected at the top ends of the left vertical plate and the right vertical plate, a horizontal lifting shell is arranged between the top plate and the workbench, a lifting mechanism is connected at the top end of the lifting shell and is installed on the top plate, a connecting column is fixedly connected at the center of the lower surface of the lifting shell, a pressing plate is installed at the bottom of the connecting column, lifting electric cylinders I which correspond from left to right are arranged at two sides of the pressing plate, a driving mechanism for driving the lifting electric cylinders I to move horizontally is installed in the lifting shell, a front driving shell and a rear driving shell which are arranged from front to rear are connected at the bottom of the lifting electric cylinders I, a front driving component and a rear driving component are installed, a plate conveyor is arranged above the workbench, an electromagnetic chuck positioned below the pressing plate is arranged on the plate conveyor, a scrap collecting box is arranged on the lower portion of the left vertical plate and the lower portion of the right vertical plate, the scrap collecting box is positioned below the workbench, and the open end of the scrap collecting box is positioned at the front end of the plate conveyor.

The lifting mechanism comprises a second lifting electric cylinder vertically installed on the top plate, the lifting end of the second lifting electric cylinder penetrates through the top plate to be fixedly connected with the lifting shell, and first telescopic rods symmetrical about the second lifting electric cylinder are fixedly connected between the lifting shell and the top plate.

The drive mechanism includes the two-way lead screw of horizontal installation in the lift casing, and the one end of two-way lead screw is rotated on the inner end wall of lift casing, and the other end of two-way lead screw is coaxial to be linked there is motor one, and motor one is installed on the outer end wall of lift casing, is equipped with the spacing hole about spliced pole bilateral symmetry at the lower surface of lift casing, and threaded sleeve has the screw about the spliced pole symmetry on two-way lead screw, and the bottom of screw even has the installation pole, controls the installation pole and all passes corresponding spacing hole and be connected with the lift electric jar that corresponds.

The front and rear driving assembly comprises a threaded rod arranged in a front and rear driving shell, the front end of the threaded rod rotates on the inner end wall of the front and rear driving shell, the rear end of the threaded rod is coaxially connected with a second motor, the second motor is arranged on the rear end wall of the front and rear driving shell, a sliding block is sleeved on the threaded rod in a threaded manner, a rotating roller is arranged at the top end of the sliding block in a rotating manner, the rotating roller is in contact with the inner wall of the top end of the front and rear driving shell, a second telescopic rod parallel to the threaded rod is connected between the upper portion of the sliding block and the inner wall of the front and rear driving shell, front and rear limiting holes are formed in the lower surface of the front and rear driving shell.

The front and rear driving shells are of hollow cuboid structures.

A handle is arranged on the front wall of the debris collection box.

The thickness of the pressing plate is 5-9 mm.

The invention has the beneficial effects that: according to the invention, the front and rear driving shell provided with the front and rear driving components, the lifting shell provided with the driving mechanism, the pressing plate and the plate conveyor provided with the electromagnetic chuck are matched, so that trimming and shaping treatment can be conveniently carried out on the dies with different widths, when the dies with different widths are trimmed, a corresponding shaping tool does not need to be replaced, the production cost is reduced, and the batch production efficiency of the dies is improved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of a front and rear driving assembly according to the present invention;

in the figure: 1-standing a plate; 2-a debris collection box; 3-a workbench; 4-a slat conveyor; 5-an electromagnetic chuck; 6-trimming cutter; 7-front and back driving the shell; 8-lifting the first electric cylinder; 9-motor one; 10-a bidirectional lead screw; 11-lifting the housing; 12-a first telescopic rod; 13-lifting electric cylinder II; 14-connecting column; 15-pressing plate; 16-a screw nut; 17-a limiting hole; 18-a top plate; 19-a second telescopic rod; 20-rotating rollers; 21-a slide block; 22-a mounting block; 23-a threaded rod; 24-motor two;

the following detailed description will be made in conjunction with embodiments of the present invention with reference to the accompanying drawings.

Detailed Description

The invention is further illustrated by the following examples:

a shaping tool for processing and trimming a die comprises vertical plates 1 which are vertically arranged in a left-right corresponding mode, a workbench 3 is horizontally and fixedly connected between the left vertical plate 1 and the right vertical plate 1, a top plate 18 parallel to the workbench 3 is fixedly connected to the top ends of the left vertical plate 1 and the right vertical plate 1, a horizontal lifting shell 11 is arranged between the top plate 18 and the workbench 3, a lifting mechanism is connected to the top end of the lifting shell 11 and mounted on the top plate 18, a connecting column 14 is fixedly connected to the center of the lower surface of the lifting shell 11, a pressing plate 15 is mounted at the bottom of the connecting column 14, lifting electric cylinders 8 which correspond to each other in a left-right mode are arranged on two sides of the pressing plate 15, a driving mechanism for driving the lifting electric cylinders 8 to move horizontally is mounted in the lifting shell 11, a front-back driving shell 7 which is arranged from front to back is connected to the bottom of the lifting electric cylinders 8, the top ends of a left trimming cutter and a right trimming cutter 6 are respectively connected with corresponding front and rear driving components, a plate conveyor 4 is arranged above a workbench 3, an electromagnetic chuck 5 positioned below a pressing plate 15 is arranged on the plate conveyor 4, a scrap collecting box 2 is arranged at the lower part of a left vertical plate 1 and a right vertical plate 1, the scrap collecting box 2 is positioned below the workbench 3, and the opening end of the scrap collecting box 2 is positioned at the front end of the plate conveyor 4.

The lifting mechanism comprises a second lifting electric cylinder 13 vertically arranged on the top plate 18, the lifting end of the second lifting electric cylinder 13 penetrates through the top plate 18 to be fixedly connected with the lifting shell 11, and a first expansion rod 12 which is symmetrical with respect to the second lifting electric cylinder 13 is fixedly connected between the lifting shell 11 and the top plate 18.

The driving mechanism comprises a bidirectional screw rod 10 horizontally installed in a lifting shell 11, one end of the bidirectional screw rod 10 rotates on the inner end wall of the lifting shell 11, the other end of the bidirectional screw rod 10 is coaxially connected with a motor I9, the motor I9 is installed on the outer end wall of the lifting shell 11, a limiting hole 17 which is symmetrical left and right relative to a connecting column 14 is formed in the lower surface of the lifting shell 11, a screw nut 16 which is symmetrical relative to the connecting column 14 is sleeved on the bidirectional screw rod 10 in a threaded mode, an installation rod is connected to the bottom of the screw nut 16, and the left installation rod and the right installation rod are connected with a corresponding lifting electric cylinder I8 through the corresponding limiting hole 17.

The front and rear driving component comprises a threaded rod 23 arranged in the front and rear driving shell 7, the front end of the threaded rod 23 rotates on the inner end wall of the front and rear driving shell 7, the rear end of the threaded rod 23 is coaxially connected with a second motor 24, the second motor 24 is arranged on the rear end wall of the front and rear driving shell 7, a sliding block 21 is sleeved on the threaded rod 23 in a threaded manner, a rotating roller 20 is rotatably arranged at the top end of the sliding block 21, the rotating roller 20 is in contact with the inner wall of the top end of the front and rear driving shell 7, a second telescopic rod 19 parallel to the threaded rod 23 is connected between the upper part of the sliding block 21 and the inner wall of the front and rear driving shell 7, a front and rear limiting hole is formed in the lower surface of the front and rear driving shell 7, an installation block 22 is.

The front and rear driving housings 7 are hollow cuboid structures.

The front wall of the debris collection box 2 is provided with a handle.

The thickness of the pressing plate 15 is 5-9 mm.

When the invention is used, a die needing trimming is placed on a plate conveyor 4 provided with an electromagnetic chuck 5, the die needing trimming is conveyed to the position under a pressure plate 15 through the plate conveyor 4, then a lifting shell 11 is driven to move downwards through a lifting mechanism, a connecting column 14 drives the pressure plate 15 to move downwards to press and fix the die needing trimming, then a lifting electric cylinder I8 is started to enable a trimming cutter 6 to move downwards to a position with the position needing trimming, then front and back driving components in a left and right front and back driving shell 7 are started to enable the trimming cutter 6 to carry out shaping treatment on the die, the lifting shell 11 is driven to move upwards through the lifting mechanism after trimming, the pressure plate 15 is far away from the die, a worker transfers the finished die to the next trimming procedure on the plate conveyor 4, meanwhile, trimmed scraps fall into a scrap collecting box 2, and the trimming and shaping treatment can be conveniently carried out on the dies with different widths, when the trimming device is used for trimming the dies with different widths, the corresponding shaping tool does not need to be replaced, so that the production cost is reduced, and the batch production efficiency of the dies is improved.

Example 1

A shaping tool for processing and trimming a die comprises vertical plates 1 which are vertically arranged in a left-right corresponding mode, a workbench 3 is horizontally and fixedly connected between the left vertical plate 1 and the right vertical plate 1, a top plate 18 parallel to the workbench 3 is fixedly connected to the top ends of the left vertical plate 1 and the right vertical plate 1, a horizontal lifting shell 11 is arranged between the top plate 18 and the workbench 3, a lifting mechanism is connected to the top end of the lifting shell 11 and mounted on the top plate 18, a connecting column 14 is fixedly connected to the center of the lower surface of the lifting shell 11, a pressing plate 15 is mounted at the bottom of the connecting column 14, lifting electric cylinders 8 which correspond to each other in a left-right mode are arranged on two sides of the pressing plate 15, a driving mechanism for driving the lifting electric cylinders 8 to move horizontally is mounted in the lifting shell 11, a front-back driving shell 7 which is arranged from front to back is connected to the bottom of the lifting electric cylinders 8, the top ends of a left trimming cutter and a right trimming cutter 6 are respectively connected with corresponding front and rear driving components, a plate conveyor 4 is arranged above a workbench 3, an electromagnetic chuck 5 positioned below a pressing plate 15 is arranged on the plate conveyor 4, a scrap collecting box 2 is arranged at the lower part of a left vertical plate 1 and a right vertical plate 1, the scrap collecting box 2 is positioned below the workbench 3, and the opening end of the scrap collecting box 2 is positioned at the front end of the plate conveyor 4.

The lifting mechanism comprises a second lifting electric cylinder 13 vertically arranged on the top plate 18, the lifting end of the second lifting electric cylinder 13 penetrates through the top plate 18 to be fixedly connected with the lifting shell 11, and a first expansion rod 12 which is symmetrical with respect to the second lifting electric cylinder 13 is fixedly connected between the lifting shell 11 and the top plate 18.

The driving mechanism comprises a bidirectional screw rod 10 horizontally installed in a lifting shell 11, one end of the bidirectional screw rod 10 rotates on the inner end wall of the lifting shell 11, the other end of the bidirectional screw rod 10 is coaxially connected with a motor I9, the motor I9 is installed on the outer end wall of the lifting shell 11, a limiting hole 17 which is symmetrical left and right relative to a connecting column 14 is formed in the lower surface of the lifting shell 11, a screw nut 16 which is symmetrical relative to the connecting column 14 is sleeved on the bidirectional screw rod 10 in a threaded mode, an installation rod is connected to the bottom of the screw nut 16, and the left installation rod and the right installation rod are connected with a corresponding lifting electric cylinder I8 through the corresponding limiting hole 17.

The front and rear driving component comprises a threaded rod 23 arranged in the front and rear driving shell 7, the front end of the threaded rod 23 rotates on the inner end wall of the front and rear driving shell 7, the rear end of the threaded rod 23 is coaxially connected with a second motor 24, the second motor 24 is arranged on the rear end wall of the front and rear driving shell 7, a sliding block 21 is sleeved on the threaded rod 23 in a threaded manner, a rotating roller 20 is rotatably arranged at the top end of the sliding block 21, the rotating roller 20 is in contact with the inner wall of the top end of the front and rear driving shell 7, a second telescopic rod 19 parallel to the threaded rod 23 is connected between the upper part of the sliding block 21 and the inner wall of the front and rear driving shell 7, a front and rear limiting hole is formed in the lower surface of the front and rear driving shell 7, an installation block 22 is.

The front and rear driving housings 7 are hollow cuboid structures.

The front wall of the debris collection box 2 is provided with a handle.

The thickness of the pressing plate 15 is 5 mm.

Example 2

A shaping tool for processing and trimming a die comprises vertical plates 1 which are vertically arranged in a left-right corresponding mode, a workbench 3 is horizontally and fixedly connected between the left vertical plate 1 and the right vertical plate 1, a top plate 18 parallel to the workbench 3 is fixedly connected to the top ends of the left vertical plate 1 and the right vertical plate 1, a horizontal lifting shell 11 is arranged between the top plate 18 and the workbench 3, a lifting mechanism is connected to the top end of the lifting shell 11 and mounted on the top plate 18, a connecting column 14 is fixedly connected to the center of the lower surface of the lifting shell 11, a pressing plate 15 is mounted at the bottom of the connecting column 14, lifting electric cylinders 8 which correspond to each other in a left-right mode are arranged on two sides of the pressing plate 15, a driving mechanism for driving the lifting electric cylinders 8 to move horizontally is mounted in the lifting shell 11, a front-back driving shell 7 which is arranged from front to back is connected to the bottom of the lifting electric cylinders 8, the top ends of a left trimming cutter and a right trimming cutter 6 are respectively connected with corresponding front and rear driving components, a plate conveyor 4 is arranged above a workbench 3, an electromagnetic chuck 5 positioned below a pressing plate 15 is arranged on the plate conveyor 4, a scrap collecting box 2 is arranged at the lower part of a left vertical plate 1 and a right vertical plate 1, the scrap collecting box 2 is positioned below the workbench 3, and the opening end of the scrap collecting box 2 is positioned at the front end of the plate conveyor 4.

The lifting mechanism comprises a second lifting electric cylinder 13 vertically arranged on the top plate 18, the lifting end of the second lifting electric cylinder 13 penetrates through the top plate 18 to be fixedly connected with the lifting shell 11, and a first expansion rod 12 which is symmetrical with respect to the second lifting electric cylinder 13 is fixedly connected between the lifting shell 11 and the top plate 18.

The driving mechanism comprises a bidirectional screw rod 10 horizontally installed in a lifting shell 11, one end of the bidirectional screw rod 10 rotates on the inner end wall of the lifting shell 11, the other end of the bidirectional screw rod 10 is coaxially connected with a motor I9, the motor I9 is installed on the outer end wall of the lifting shell 11, a limiting hole 17 which is symmetrical left and right relative to a connecting column 14 is formed in the lower surface of the lifting shell 11, a screw nut 16 which is symmetrical relative to the connecting column 14 is sleeved on the bidirectional screw rod 10 in a threaded mode, an installation rod is connected to the bottom of the screw nut 16, and the left installation rod and the right installation rod are connected with a corresponding lifting electric cylinder I8 through the corresponding limiting hole 17.

The front and rear driving component comprises a threaded rod 23 arranged in the front and rear driving shell 7, the front end of the threaded rod 23 rotates on the inner end wall of the front and rear driving shell 7, the rear end of the threaded rod 23 is coaxially connected with a second motor 24, the second motor 24 is arranged on the rear end wall of the front and rear driving shell 7, a sliding block 21 is sleeved on the threaded rod 23 in a threaded manner, a rotating roller 20 is rotatably arranged at the top end of the sliding block 21, the rotating roller 20 is in contact with the inner wall of the top end of the front and rear driving shell 7, a second telescopic rod 19 parallel to the threaded rod 23 is connected between the upper part of the sliding block 21 and the inner wall of the front and rear driving shell 7, a front and rear limiting hole is formed in the lower surface of the front and rear driving shell 7, an installation block 22 is.

The front and rear driving housings 7 are hollow cuboid structures.

The front wall of the debris collection box 2 is provided with a handle.

The thickness of the pressing plate 15 is 9 mm.

Example 3

A shaping tool for processing and trimming a die comprises vertical plates 1 which are vertically arranged in a left-right corresponding mode, a workbench 3 is horizontally and fixedly connected between the left vertical plate 1 and the right vertical plate 1, a top plate 18 parallel to the workbench 3 is fixedly connected to the top ends of the left vertical plate 1 and the right vertical plate 1, a horizontal lifting shell 11 is arranged between the top plate 18 and the workbench 3, a lifting mechanism is connected to the top end of the lifting shell 11 and mounted on the top plate 18, a connecting column 14 is fixedly connected to the center of the lower surface of the lifting shell 11, a pressing plate 15 is mounted at the bottom of the connecting column 14, lifting electric cylinders 8 which correspond to each other in a left-right mode are arranged on two sides of the pressing plate 15, a driving mechanism for driving the lifting electric cylinders 8 to move horizontally is mounted in the lifting shell 11, a front-back driving shell 7 which is arranged from front to back is connected to the bottom of the lifting electric cylinders 8, the top ends of a left trimming cutter and a right trimming cutter 6 are respectively connected with corresponding front and rear driving components, a plate conveyor 4 is arranged above a workbench 3, an electromagnetic chuck 5 positioned below a pressing plate 15 is arranged on the plate conveyor 4, a scrap collecting box 2 is arranged at the lower part of a left vertical plate 1 and a right vertical plate 1, the scrap collecting box 2 is positioned below the workbench 3, and the opening end of the scrap collecting box 2 is positioned at the front end of the plate conveyor 4.

The lifting mechanism comprises a second lifting electric cylinder 13 vertically arranged on the top plate 18, the lifting end of the second lifting electric cylinder 13 penetrates through the top plate 18 to be fixedly connected with the lifting shell 11, and a first expansion rod 12 which is symmetrical with respect to the second lifting electric cylinder 13 is fixedly connected between the lifting shell 11 and the top plate 18.

The driving mechanism comprises a bidirectional screw rod 10 horizontally installed in a lifting shell 11, one end of the bidirectional screw rod 10 rotates on the inner end wall of the lifting shell 11, the other end of the bidirectional screw rod 10 is coaxially connected with a motor I9, the motor I9 is installed on the outer end wall of the lifting shell 11, a limiting hole 17 which is symmetrical left and right relative to a connecting column 14 is formed in the lower surface of the lifting shell 11, a screw nut 16 which is symmetrical relative to the connecting column 14 is sleeved on the bidirectional screw rod 10 in a threaded mode, an installation rod is connected to the bottom of the screw nut 16, and the left installation rod and the right installation rod are connected with a corresponding lifting electric cylinder I8 through the corresponding limiting hole 17.

The front and rear driving component comprises a threaded rod 23 arranged in the front and rear driving shell 7, the front end of the threaded rod 23 rotates on the inner end wall of the front and rear driving shell 7, the rear end of the threaded rod 23 is coaxially connected with a second motor 24, the second motor 24 is arranged on the rear end wall of the front and rear driving shell 7, a sliding block 21 is sleeved on the threaded rod 23 in a threaded manner, a rotating roller 20 is rotatably arranged at the top end of the sliding block 21, the rotating roller 20 is in contact with the inner wall of the top end of the front and rear driving shell 7, a second telescopic rod 19 parallel to the threaded rod 23 is connected between the upper part of the sliding block 21 and the inner wall of the front and rear driving shell 7, a front and rear limiting hole is formed in the lower surface of the front and rear driving shell 7, an installation block 22 is.

The front and rear driving housings 7 are hollow cuboid structures.

The front wall of the debris collection box 2 is provided with a handle.

The thickness of the pressing plate 15 is 7 mm.

The invention has been described in an illustrative manner, and it is to be understood that the invention is not limited to the specific embodiments described above, but is intended to cover various modifications, which may be made by the methods and technical solutions of the invention, or may be applied to other applications without modification.

Claims (7)

1. A shaping tool for processing and trimming a die is characterized by comprising vertical plates (1) which are vertically and correspondingly arranged on the left and right sides, a workbench (3) is horizontally and fixedly connected between the left vertical plate and the right vertical plate (1), a top plate (18) parallel to the workbench (3) is fixedly connected to the top ends of the left vertical plate and the right vertical plate (1), a horizontal lifting shell (11) is arranged between the top plate (18) and the workbench (3), a lifting mechanism is connected to the top end of the lifting shell (11), the lifting mechanism is installed on the top plate (18), a connecting column (14) is fixedly connected to the center of the lower surface of the lifting shell (11), a pressing plate (15) is arranged at the bottom of the connecting column (14), lifting electric cylinders (8) which correspond to the left and the right are arranged on two sides of the pressing plate (15), a driving mechanism for driving the lifting electric cylinders (8) to move horizontally is arranged in the lifting shell (11), a front driving shell (7) and a rear shell, a front driving assembly and a rear driving assembly are arranged in a front driving shell (7) and a rear driving shell (7), trimming cutters (6) are arranged below the front driving shell and the rear driving shell (7), the top ends of a left trimming cutter and a right trimming cutter (6) are respectively connected with the corresponding front driving assembly and the rear driving assembly, a plate conveyor (4) is arranged above a workbench (3), an electromagnetic chuck (5) positioned below a pressing plate (15) is arranged on the plate conveyor (4), chip collecting boxes (2) are arranged at the lower parts of a left vertical plate and a right vertical plate (1), the chip collecting boxes (2) are positioned below the workbench (3), and the open ends of the chip collecting boxes (2) are positioned at the front ends of the plate conveyor (.

2. The shaping tool for die machining and trimming as claimed in claim 1, wherein the lifting mechanism comprises a second lifting electric cylinder (13) vertically mounted on the top plate (18), a lifting end of the second lifting electric cylinder (13) penetrates through the top plate (18) to be fixedly connected with the lifting shell (11), and a first expansion link (12) symmetrical with respect to the second lifting electric cylinder (13) is fixedly connected between the lifting shell (11) and the top plate (18).

3. The shaping tool for die machining and trimming as claimed in claim 1, wherein the driving mechanism comprises a bidirectional screw (10) horizontally mounted in a lifting shell (11), one end of the bidirectional screw (10) rotates on the inner end wall of the lifting shell (11), the other end of the bidirectional screw (10) is coaxially connected with a first motor (9), the first motor (9) is mounted on the outer end wall of the lifting shell (11), limiting holes (17) which are bilaterally symmetrical about a connecting column (14) are formed in the lower surface of the lifting shell (11), nuts (16) which are symmetrical about the connecting column (14) are sleeved on the bidirectional screw (10) in a threaded manner, the bottom of each nut (16) is connected with a mounting rod, and the left mounting rod and the right mounting rod penetrate through the corresponding limiting holes (17) to be connected with corresponding first lifting electric cylinders (8).

4. The shaping tool for die machining and trimming as claimed in claim 1, wherein the front and rear driving assembly comprises a threaded rod (23) arranged in the front and rear driving shells (7), the front end of the threaded rod (23) rotates on the inner end walls of the front and rear driving shells (7), the rear end of the threaded rod (23) is coaxially connected with a second motor (24), the second motor (24) is installed on the rear end walls of the front and rear driving shells (7), a sliding block (21) is sleeved on the threaded rod (23) in a threaded manner, a rotating roller (20) is installed at the top end of the sliding block (21) in a rotating manner, the rotating roller (20) is in contact with the inner wall of the top end of the front and rear driving shells (7), a second telescopic rod (19) parallel to the threaded rod (23) is connected between the upper part of the sliding block (21) and the inner wall of the front and rear driving shells (7), and front, the bottom of the sliding block (21) is provided with an installation block (22), and the top end of the trimming cutter (6) passes through the front and rear limiting holes to be fixedly connected with the bottom of the installation block (22).

5. The shaping tool for die machining and trimming as claimed in claim 1, wherein the front and rear driving housings (7) are hollow cuboid structures.

6. The shaping tool for die machining and trimming as claimed in claim 1, wherein a handle is mounted on a front wall of the debris collection box (2).

7. The shaping tool for die machining and trimming as claimed in claim 1, wherein the thickness of the pressure plate (15) is 5-9 mm.

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