A stamping device with digital positioning function

CN224406156UActive Publication Date: 2026-06-26DONGGUAN PAMIN ELECTRONICS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
DONGGUAN PAMIN ELECTRONICS CO LTD
Filing Date
2025-06-05
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

Existing stamping equipment cannot adapt to the flexible adjustment of the distance from the side to the end face of the stamping hole on the material, resulting in insufficient forming accuracy.

Method used

The stamping processing device with digital display positioning function realizes precise adjustment of the reference baffle through electronic ruler and digital display controller. Combined with the cooperation of locking fastener and reference block, it ensures that the distance between the side of the forming hole and the end face of each material is consistent.

Benefits of technology

It achieves precise control of the distance between the side of the stamping hole and the end face of the material, improving the quality and accuracy of stamping and adapting to the positioning requirements of different materials.

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Abstract

The utility model relates to punch forming technical field especially is a kind of punch processing device with digital display positioning function, including machine table, base, female die, male die subassembly, punch press, electronic ruler, with the digital display controller of electronic ruler electricity connection, with the positioning baffle of electronic ruler's slider connection, the reference baffle slidingly connected in base or machine table, the locking piece of locking reference baffle in base or machine table and the reference block of the female cavity of female die is detachably connected, positioning baffle can slide on the top surface of female die, reference block and female die's female cavity concave-convex adaptation.This application measures by electronic ruler and displays measurement value by digital display controller to realize digital display positioning, it is convenient to adjust and fix the position of reference baffle, to facilitate accurate adjustment of the position of reference baffle, and then ensure that the margin between the side of the forming hole of each material and the end face of material is constant and equal to the required margin value, improve the quality and precision of the material punch forming.
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Description

Technical Field

[0001] This utility model relates to the field of stamping forming technology, and in particular to a stamping processing device with digital display positioning function. Background Technology

[0002] Stamping is a pressure processing method that uses a die mounted on a stamping press to apply pressure to a material at room temperature, causing it to separate or plastically deform, thereby obtaining the desired part. In stamping, material positioning is often necessary to ensure the accuracy of the stamping process. However, existing stamping equipment can only position materials with specific structures, and the stamping positions on the material are fixed. When it is necessary to strictly control the distance between the side of the stamping hole and the end face of the material, and this distance can be changed according to actual needs, existing stamping equipment cannot be adapted when a new die is created. Therefore, the shortcomings are obvious, and a solution is urgently needed. Utility Model Content

[0003] In order to solve the above-mentioned technical problems, the purpose of this utility model is to provide a stamping processing device with digital display positioning function.

[0004] To achieve the above objectives, the present invention adopts the following technical solution:

[0005] A stamping processing device with digital display positioning function includes a machine base, a base mounted on the top surface of the machine base, a die mounted on the base, a punch assembly lifted and disposed above the die, a stamping press mounted on the machine base for driving the punch assembly closer to or away from the die, an electronic ruler mounted on the top surface of the machine base, a digital display controller mounted on the machine base and electrically connected to the electronic ruler, a positioning baffle connected to the slider of the electronic ruler, a reference baffle slidably connected to the base or the machine base, a locking fastener for locking the reference baffle to the base or the machine base, and a reference block detachably connected to the cavity of the die. The positioning baffle can slide on the top surface of the die, and the reference block is adapted to the cavity of the die.

[0006] Furthermore, the locking device is a locking bolt, the base or machine tool is provided with a threaded hole, the reference baffle is provided with an adjustment groove that communicates with the threaded hole, and the locking bolt passes through the adjustment groove and is threadedly connected to the threaded hole.

[0007] Furthermore, the reference baffle includes a horizontal plate that is slidably connected to the base or machine tool and a vertical plate that is perpendicularly connected to the horizontal plate, with an adjustment groove provided on the horizontal plate.

[0008] Furthermore, the base or machine tool is provided with a guide sleeve, and the punch assembly is provided with a guide post, with the guide post and the guide sleeve being slidably connected.

[0009] Furthermore, the stamping processing device with digital display positioning function also includes a locking component for locking the positioning baffle to the machine base.

[0010] The beneficial effects of this utility model are as follows: In practical applications, when the die cavity and punch assembly are in the open state, the reference block is first placed in the cavity of the die cavity. Then, the slider of the electronic ruler, along with the positioning baffle, is moved until the positioning baffle contacts the reference surface of the reference block. At this time, the digital display controller zeroes the electronic ruler. Then, the slider of the electronic ruler, along with the positioning baffle, is moved away from the reference surface of the reference block. The reading of the electronic ruler on the digital display controller is equal to the required edge distance value. At this time, the reference block is removed from the cavity of the die cavity. Then, the material is placed in the cavity... The material is placed on the die, with its end face abutting against the positioning baffle. Then, the position of the reference baffle is adjusted until its reference surface abuts against the end face of the material. Finally, the reference baffle is locked with fasteners, allowing the positioning baffle to retract from the die cavity. The press drives the punch assembly downwards until it engages with the cavity of the die to stamp the material. The press then drives the punch assembly upwards and resets, allowing the stamped material to be removed. The distance between the side of the forming hole on the formed material and the end face of the material is the required edge distance. When stamping the next material, simply place the material on the die cavity, ensuring its end face abuts against the reference surface of the reference baffle. The distance between the side of the forming hole and the end face of each material is equal to the required edge distance. Furthermore, when adjusting the edge distance between the side of the forming hole and the end face of the material, repeat the above steps to adjust and fix the position of the reference baffle. This invention uses an electronic ruler to measure and displays the measured values ​​via a digital display controller to achieve digital positioning. This facilitates the adjustment and fixing of the position of the reference baffle, thereby enabling precise adjustment of the reference baffle's position. Consequently, it ensures that the edge distance between the side of the forming hole of each material and the end face of the material remains constant and equal to the required edge distance value, thus improving the quality and precision of the stamping and forming of the material. Attached Figure Description

[0011] Figure 1 This is a three-dimensional structural diagram of the present invention.

[0012] Figure 2 This is a three-dimensional structural diagram of the concealed machine base, digital display controller, and stamping machine of this utility model.

[0013] Explanation of reference numerals in the attached figures:

[0014] 1. Machine base; 2. Base; 3. Die; 4. Punch assembly; 5. Press; 6. Electronic ruler; 7. Digital display controller; 8. Positioning baffle; 9. Reference baffle; 10. Reference block; 11. Cavity; 12. Locking fastener; 13. Adjustment groove; 14. Horizontal plate; 15. Vertical plate; 16. Guide sleeve; 17. Guide post. Detailed Implementation

[0015] To facilitate understanding by those skilled in the art, the present invention will be further described below with reference to embodiments and accompanying drawings. The content mentioned in the embodiments is not intended to limit the present invention.

[0016] like Figure 1 and Figure 2 As shown, the present invention provides a stamping processing device with digital display positioning function, which includes a machine base 1, a base 2 mounted on the top surface of the machine base 1, a die 3 mounted on the base 2, a punch assembly 4 lifted and disposed above the die 3, a stamping press 5 mounted on the machine base 1 and used to drive the punch assembly 4 to approach or move away from the die 3, an electronic ruler 6 mounted on the top surface of the machine base 1, a digital display controller 7 mounted on the machine base 1 and electrically connected to the electronic ruler 6, a positioning baffle 8 connected to the slider of the electronic ruler 6, a reference baffle 9 slidably connected to the base 2 or the machine base 1, a locking fastener 12 for locking the reference baffle 9 to the base 2 or the machine base 1, and a reference block 10 detachably connected to the cavity 11 of the die 3. The positioning baffle 8 can slide on the top surface of the die 3, and the reference block 10 is adapted to the cavity 11 of the die 3.

[0017] In practical applications, with the die cavity 3 and punch assembly 4 in the open state, the reference block 10 is first placed in the cavity 11 of the die cavity 3. Then, the slider of the electronic ruler 6, along with the positioning baffle 8, is moved until the positioning baffle 8 contacts the reference surface of the reference block 10. At this point, the digital display controller 7 zeroes the electronic ruler 6. Then, the slider of the electronic ruler 6, along with the positioning baffle 8, is moved away from the reference surface of the reference block 10. The reading of the electronic ruler 6 on the digital display controller 7 is equal to the required edge distance value. At this point, the reference block 10 is removed from the cavity 11 of the die cavity 3. Then, the material is placed in the die cavity 3. The material is placed on the die 3, with its end face abutting against the positioning baffle 8. Then, the position of the reference baffle 9 is adjusted until its reference surface abuts against the end face of the material. Finally, the reference baffle 9 is locked in place by the locking fastener 12, allowing the positioning baffle 8 to retract from the die 3. The press 5 drives the punch assembly 4 downwards until it engages with the cavity 11 of the die 3 to stamp the material. The press 5 then drives the punch assembly 4 upwards and resets, allowing the stamped material to be removed. The distance between the side of the forming hole on the formed material and the end face of the material is the required edge distance. When stamping the next material, simply place the material on the die 3, ensuring its end face abuts against the reference surface of the reference baffle 9, to stamp the material. The distance between the side of the forming hole and the end face of each material is equal to the required edge distance. Furthermore, when it is necessary to adjust the distance between the side of the forming hole and the end face of the material, repeating the above steps will adjust and fix the position of the reference baffle 9. This invention uses an electronic ruler 6 to measure and display the measured values ​​via a digital display controller 7 to achieve digital positioning, facilitating the adjustment and fixing of the reference baffle 9. This allows for precise adjustment of the reference baffle 9's position, ensuring that the distance between the side of the forming hole and the end face of each material remains constant and equal to the required distance value, thus improving the quality and precision of the stamping process. Preferably, the material is a long strip profile.

[0018] In this embodiment, the locking device 12 is a locking bolt. The base 2 or machine base 1 is provided with a threaded hole, and the reference baffle 9 has an adjustment groove 13 communicating with the threaded hole. The locking bolt passes through the adjustment groove 13 and is threadedly connected to the threaded hole. In practical applications, the locking bolt is threadedly connected to the threaded hole, and the nut of the locking thread locks the reference baffle 9 onto the base 2 or machine base 1. When it is necessary to adjust the position of the reference baffle 9, the locking bolt is loosened, so that the reference baffle 9 can move horizontally relative to the base 2 or machine base 1 along the locking bolt until the position of the reference baffle 9 is adjusted. Then, the locking bolt locks the reference baffle 9 onto the base 2 or machine base 1.

[0019] In this embodiment, the reference baffle 9 is L-shaped and includes a horizontal plate 14 that is slidably connected to the base 2 or the machine platform 1 and a vertical plate 15 that is vertically connected to the horizontal plate 14. The adjustment groove 13 is provided on the horizontal plate 14 and the vertical plate 15 is used to abut against the end face of the material.

[0020] In this embodiment, the base 2 or machine base 1 is provided with a guide sleeve 16, and the punch assembly 4 is provided with a guide post 17, which is slidably connected to the guide sleeve 16. During the process of the punch assembly 4 being driven to rise and fall by the press 5, the guide post 17 and the guide sleeve 16 are slidably engaged to improve the rising and falling stability of the punch assembly 4 and the mold closing accuracy between the punch assembly 4 and the die 3.

[0021] In this embodiment, the stamping processing device with digital display positioning function also includes a locking member for locking the positioning baffle 8 onto the machine base 1; specifically, the locking member can be a locking bolt. When the positioning baffle 8 moves to the required position and abuts against the reference surface of the reference block 10, the locking member locks the positioning baffle 8 onto the machine base 1, and then the reading of the electronic ruler 6 is cleared by the digital display controller 7.

[0022] All technical features in this embodiment can be freely combined according to actual needs.

[0023] The above embodiments are preferred implementations of this utility model. In addition, this utility model can also be implemented in other ways. Any obvious substitutions without departing from the concept of this technical solution are within the protection scope of this utility model.

Claims

1. A stamping processing device with digital display positioning function, characterized in that: Includes a machine base (1), a base (2) mounted on the top surface of the machine base (1), a die (3) mounted on the base (2), a punch assembly (4) that is lifted and positioned above the die (3), a press (5) mounted on the machine base (1) and used to drive the punch assembly (4) closer to or further away from the die (3), an electronic ruler (6) mounted on the top surface of the machine base (1), a digital display controller (7) mounted on the machine base (1) and electrically connected to the electronic ruler (6), and an electric... The positioning baffle (8) connected to the slider of the ruler (6), the reference baffle (9) slidably connected to the base (2) or the machine (1), the locking fastener (12) for locking the reference baffle (9) to the base (2) or the machine (1), and the reference block (10) detachably connected to the cavity (11) of the die (3), the positioning baffle (8) can slide on the top surface of the die (3), and the reference block (10) is adapted to the cavity (11) of the die (3).

2. The punching device with digital positioning function according to claim 1, characterized in that: The locking device (12) is a locking bolt. The base (2) or machine base (1) is provided with a threaded hole. The reference baffle (9) is provided with an adjustment groove (13) that communicates with the threaded hole. The locking bolt passes through the adjustment groove (13) and is threadedly connected to the threaded hole.

3. A stamping processing device with digital display positioning function according to claim 2, characterized in that: The reference baffle (9) includes a horizontal plate (14) slidably connected to the base (2) or the machine tool (1) and a vertical plate (15) vertically connected to the horizontal plate (14), and an adjustment groove (13) is provided on the horizontal plate (14).

4. A stamping processing device with digital display positioning function according to claim 1, characterized in that: The base (2) or machine base (1) is provided with a guide sleeve (16), and the punch assembly (4) is provided with a guide post (17), and the guide post (17) is slidably connected to the guide sleeve (16).

5. A stamping processing device with digital display positioning function according to claim 1, characterized in that: The stamping processing device with digital display positioning function also includes a locking component for locking the positioning baffle (8) onto the machine base (1).