A solidifying assembly for an aluminum material slitting machine

By designing a clamping assembly for an aluminum slitting machine, the machine utilizes cams and extrusion blocks to achieve adaptive fixing of the aluminum material and waste collection, solving the problem of separating fixing and waste cleaning, improving processing efficiency and reducing manual labor.

CN224488395UActive Publication Date: 2026-07-14NANJING HONGYAN NEW ENERGY MATERIALS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
NANJING HONGYAN NEW ENERGY MATERIALS CO LTD
Filing Date
2025-06-17
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

Existing aluminum slitting machines separate the processes of fixing and cleaning waste, resulting in waste residue that affects cutting performance and increases manual labor costs.

Method used

A clamping assembly including a cam, a pressing block, and a door is designed. The cam is driven by a motor to rotate, which realizes the self-adaptive fixing of aluminum material and the collection of waste. The waste cleaning and fixing process is carried out in an integrated manner.

Benefits of technology

It achieves automatic fixing of aluminum materials and collection of waste chips, avoiding waste chip residue from affecting the cutting effect and reducing the need for manual cleaning.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224488395U_ABST
    Figure CN224488395U_ABST
Patent Text Reader

Abstract

The utility model discloses a kind of for aluminum material slitting machine's compression solid component, belong to aluminum material slitting machine field, including slitting machine body, the inside of slitting machine body is provided with connecting plate, the bottom of connecting plate is fixedly connected with first telescopic link, the one end fixedly connected with positioning block of first telescopic link away from connecting plate;The utility model is through the setting of cam, extruding block and switch door, it can be pressed connecting plate downwards to make it pass first telescopic link drive positioning block to fix aluminum material, extruding block can also be mutually far from each other to make switch door be in the open state to discharge scrap, and then this device can be fixed to aluminum material and the scrap generated after cutting to aluminum material is cleaned between realization integration, prevent scrap to remain on slitting machine body can cause the uneven placement of next aluminum material, avoid affecting the cutting effect of next aluminum material, so as not to clean scrap by artificial, reduce manual labor.
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Description

Technical Field

[0001] This utility model relates to the field of aluminum slitting machine technology, specifically a pressing component for an aluminum slitting machine. Background Technology

[0002] Aluminum products are made from aluminum and other alloying elements. They are usually first processed into castings, forgings, foils, plates, strips, tubes, rods and profiles, and then made through processes such as cold bending, sawing, drilling, assembly and coloring. The main metallic element is aluminum, and some alloying elements are added to improve the performance of aluminum. In the application of metal materials, aluminum is second only to steel. At present, aluminum slitting machines are widely used processing equipment in the field of aluminum processing.

[0003] Upon investigation, a Chinese utility model patent discloses an aluminum material cutting and pressing device (publication number: CN216370412U), which includes a base, a movable cutting component, and a sliding pressing component. The base has a horizontal cutting groove at the center of its top wall. The movable cutting component is located inside the base, and the sliding pressing component is located on the top wall of the base and above the movable cutting component.

[0004] Although the aforementioned patent is easier to fix and provides a buffering and protective effect on the aluminum material compared to existing technologies, it cannot integrate the fixing of the aluminum material with the cleaning of the waste generated after cutting the aluminum material. As a result, the waste residue left on the platform will cause uneven placement of the next aluminum material, affecting the cutting effect of the next aluminum material. Therefore, it is necessary to manually clean the waste on the platform from time to time, which will increase the labor force and make the cleaning process more troublesome.

[0005] Therefore, this utility model provides a pressing component for an aluminum slitting machine to solve the above problems. Utility Model Content

[0006] (a) Technical problems to be solved

[0007] This invention provides a pressing component for an aluminum slitting machine, aiming to solve the problems mentioned in the background art.

[0008] (II) Technical Solution

[0009] To achieve the above objectives, this utility model provides the following technical solution: a pressure-fixing component for an aluminum slitting machine, comprising a slitting machine body, a connecting plate disposed inside the slitting machine body, a first telescopic rod fixedly connected to the bottom of the connecting plate, a positioning block fixedly connected to the end of the first telescopic rod away from the connecting plate, a first spring fixedly connected to the bottom of the connecting plate, the end of the first spring away from the connecting plate being fixedly connected to the outer wall of the positioning block, the first telescopic rod being inserted through the inner ring of the first spring, a hinged opening and closing door disposed inside the slitting machine body, a cam rotatably connected to the inner wall of the slitting machine body, a motor for driving the cam to rotate disposed on the outer wall of the slitting machine body, and a support mechanism disposed inside the slitting machine body.

[0010] As a preferred technical solution of this application, the support mechanism includes a bidirectional threaded rod rotatably connected to the inner wall of the slitting machine body, a transmission belt drivingly connecting the bidirectional threaded rod and the cam, a threaded sleeve threadedly connected to the outer surface of the bidirectional threaded rod, and a pressing block that contacts the opening and closing door fixedly connected to the outer surface of the threaded sleeve.

[0011] As a preferred technical solution of this application, a second telescopic rod is fixedly connected to the top of the connecting plate, and the end of the second telescopic rod away from the connecting plate is fixedly connected to the inner wall of the slitting machine body.

[0012] As a preferred technical solution of this application, a second spring is fixedly connected to the top of the connecting plate, and the end of the second spring away from the connecting plate is fixedly connected to the inner wall of the slitting machine body, and the second telescopic rod is inserted into the inner ring of the second spring.

[0013] As a preferred technical solution of this application, a limiting block is fixedly connected to the inner wall of the slitting machine body, and the threaded sleeve is slidably connected to the outer wall of the limiting block.

[0014] As a preferred technical solution of this application, the slitting machine body has a through hole for the transmission belt to move inside, and the top of the switch door has a cutting groove.

[0015] As a preferred technical solution of this application, the slitting machine body is internally fixedly connected with a placement block for placing aluminum materials, and the placement block is segmented.

[0016] As a preferred technical solution of this application, the slitting machine body has an embedding hole inside, and a collection box is provided inside the slitting machine body.

[0017] (III) Beneficial Effects

[0018] This invention, through the arrangement of a cam, a pressing block, and a switch door, allows the cam to be rotated by the motor until it contacts the connecting plate. This presses down on the connecting plate, causing the first telescopic rod to drive the positioning block to fix the aluminum material, facilitating cutting by the cutting part of the slitting machine. Waste generated during cutting can also be collected inside the switch door. When waste needs to be cleaned, the motor reverses the rotation of the cam, and the pressing blocks can move away from each other, opening the switch door to discharge the waste. This device integrates the fixing of the aluminum material and the cleaning of waste generated after cutting, preventing waste residue on the slitting machine from causing uneven placement of the next aluminum material and affecting the cutting effect. Therefore, manual cleaning of waste is unnecessary, reducing labor costs. Attached Figure Description

[0019] Figure 1 This is a schematic diagram of a clamping assembly used in an aluminum slitting machine;

[0020] Figure 2 This is a schematic diagram of the structure of the slitting machine body in a pressing assembly used in an aluminum slitting machine;

[0021] Figure 3 This is a schematic diagram of a bidirectional threaded rod in a clamping assembly used in an aluminum slitting machine;

[0022] Figure 4 for Figure 1 A magnified structural diagram at point A;

[0023] Figure 5 for Figure 1 A magnified structural diagram at point B;

[0024] Figure 6 for Figure 1 A magnified structural diagram at point C.

[0025] In the picture:

[0026] 1. Slitting machine body; 2. Connecting plate; 3. First telescopic rod; 4. Positioning block; 5. First spring; 6. Opening and closing door; 7. Cam; 8. Motor; 9. Bidirectional threaded rod; 10. Transmission belt; 11. Threaded sleeve; 12. Extrusion block; 13. Second telescopic rod; 14. Second spring; 15. Limiting block; 16. Through hole; 17. Cutting groove; 18. Placement block; 19. Embedding hole; 20. Collection box. Detailed Implementation

[0027] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0028] This utility model provides a clamping component for an aluminum slitting machine, such as... Figure 1-5 As shown, the pressing assembly of the aluminum slitting machine includes a slitting machine body 1. A connecting plate 2 is provided inside the slitting machine body 1. A first telescopic rod 3 is fixedly connected to the bottom of the connecting plate 2. A positioning block 4 is fixedly connected to the end of the first telescopic rod 3 away from the connecting plate 2. A first spring 5 is fixedly connected to the bottom of the connecting plate 2. The end of the first spring 5 away from the connecting plate 2 is fixedly connected to the outer wall of the positioning block 4. The first telescopic rod 3 passes through the inner ring of the first spring 5. A switch door 6 is hinged inside the slitting machine body 1. A cam 7 is rotatably connected to the inner wall of the slitting machine body 1. A motor 8 for driving the cam 7 to rotate is provided on the outer wall of the slitting machine body 1. A support mechanism is provided inside the slitting machine body 1.

[0029] The support mechanism includes a bidirectional threaded rod 9 rotatably connected to the inner wall of the slitting machine body 1. A transmission belt 10 is connected between the bidirectional threaded rod 9 and the cam 7. A threaded sleeve 11 is threadedly connected to the outer surface of the bidirectional threaded rod 9. An extrusion block 12 that contacts the opening and closing door 6 is fixedly connected to the outer surface of the threaded sleeve 11.

[0030] Specifically, when the motor 8 is running, the output shaft drives the cam 7 to rotate. When the cam 7 rotates to contact the connecting plate 2, it presses the connecting plate 2. The pressure on the connecting plate 2 causes the first telescopic rod 3 to move downwards. The first telescopic rod 3 drives the positioning block 4, and the elastic force provided by the first spring 5 adaptively fixes the aluminum material, preventing the positioning block 4 from excessively squeezing the aluminum material and causing deformation and damage. At this time, the cutting part of the slitting machine body 1 can cut the positioned aluminum material. At the same time, the transmission belt 10, which is connected to the cam 7, drives the bidirectional threaded rod 9 to rotate synchronously. This causes the two threaded sleeves 11, which are threaded with the bidirectional threaded rod 9, to drive the extrusion blocks 12 to move closer to each other. The operation causes the two extrusion blocks 12 to press the switch door 6 into a closed state, so that the switch door 6 can collect the waste generated during cutting. The closed switch door 6 can also provide a placement point for the aluminum material. After the aluminum material is cut, the motor 8 can drive the cam 7 to rotate in the opposite direction. When the cam 7 loses pressure on the connecting plate 2, the positioning block 4 can release the aluminum material, making it easier to pick up. At the same time, the bidirectional threaded rod 9 can also rotate in the opposite direction, so that the two extrusion blocks 12 can move away from each other, causing the switch door 6 to open, so as to discharge the waste material. This ensures that the waste material will not remain on the slitting machine body 1 and affect the placement of the aluminum material in the next operation. Moreover, no manual cleaning is required, and the cleaning process is quick.

[0031] A second telescopic rod 13 is fixedly connected to the top of the connecting plate 2, and the end of the second telescopic rod 13 away from the connecting plate 2 is fixedly connected to the inner wall of the slitting machine body 1.

[0032] A second spring 14 is fixedly connected to the top of the connecting plate 2. The end of the second spring 14 away from the connecting plate 2 is fixedly connected to the inner wall of the slitting machine body 1. The second telescopic rod 13 is inserted through the inner ring of the second spring 14.

[0033] Specifically, when the cam 7 loses pressure on the connecting plate 2, the connecting plate 2 can be reset by the elastic cooperation between the second telescopic rod 13 and the second spring 14, so that the positioning block 4 can lose its fixation on the aluminum material, making the aluminum material easy to remove. In addition, the second telescopic rod 13 makes the connection of the connecting plate 2 stable, preventing the connection of the connecting plate 2 from being unstable due to the connection of the second spring 14 alone. Furthermore, the telescopic characteristics of the second telescopic rod 13 allow the connecting plate 2 to move up and down smoothly at the same time.

[0034] A limiting block 15 is fixedly connected to the inner wall of the slitting machine body 1, and a threaded sleeve 11 is slidably connected to the outer wall of the limiting block 15.

[0035] Specifically, the limiting block 15 provides a limiting point for the threaded sleeve 11. When the threaded sleeve 11 is rotated by the bidirectional threaded rod 9, the limiting point provided by the limiting block 15 allows the threaded sleeve 11 to drive the pressing block 12 to move smoothly, preventing the threaded sleeve 11 from rotating synchronously with the bidirectional threaded rod 9 due to the lack of a limiting point. In addition, the limiting block can provide a certain shielding area for the bidirectional threaded rod 9 to prevent falling debris from getting stuck in the thread groove of the bidirectional threaded rod 9, causing interference with the movement of the threaded sleeve 11 and preventing it from moving normally.

[0036] The slitting machine body 1 has a through hole 16 for the drive belt 10 to move inside, and a cutting groove 17 is provided on the top of the switch door 6.

[0037] Specifically, the through hole 16 provides space for the transmission belt 10 to move, preventing the slitting machine body 1 from blocking the operation of the transmission belt 10 and preventing it from driving the bidirectional threaded rod 9 to rotate. The cutting groove 17 provides sufficient cutting distance for the cutting part of the slitting machine body 1, so that when the cutting part of the slitting machine body 1 continuously cuts downward and contacts the switch door 6, it will not damage the switch door 6.

[0038] The slitting machine body 1 has a fixed internal connection to a placement block 18 for placing aluminum materials. The placement block 18 is segmented.

[0039] Specifically, the placement block 18 provides a placement point for the aluminum material, making it easier for the slitting machine body 1 to cut it. The segmented design also provides a cutting space in the middle part of the placement block 18, preventing the cutting part of the slitting machine body 1 from damaging the placement block 18.

[0040] The slitting machine body 1 has an embedding hole 19 inside, and a collection box 20 is provided inside the slitting machine body 1.

[0041] Specifically, the embedded hole 19 provides space for the aluminum material to be pushed inward, making it easier for staff to place or pick up the aluminum material. The collection box 20 can collect the waste that falls through the opening and closing door 6, preventing the waste from scattering on the ground and requiring manual cleaning.

[0042] The above description is only a preferred embodiment of the present utility model, but the protection scope of the present utility model is not limited thereto. Any equivalent substitutions or changes made by those skilled in the art within the technical scope disclosed in the present utility model, based on the technical solution and the inventive concept of the present utility model, should be included within the protection scope of the present utility model.

Claims

1. A clamping assembly for an aluminum slitting machine, characterized in that: The machine includes a slitting machine body (1), a connecting plate (2) is provided inside the slitting machine body (1), a first telescopic rod (3) is fixedly connected to the bottom of the connecting plate (2), a positioning block (4) is fixedly connected to the end of the first telescopic rod (3) away from the connecting plate (2), a first spring (5) is fixedly connected to the bottom of the connecting plate (2), the end of the first spring (5) away from the connecting plate (2) is fixedly connected to the outer wall of the positioning block (4), the first telescopic rod (3) is inserted through the inner ring of the first spring (5), a switch door (6) is hinged inside the slitting machine body (1), a cam (7) is rotatably connected to the inner wall of the slitting machine body (1), a motor (8) for driving the cam (7) to rotate is provided on the outer wall of the slitting machine body (1), and a support mechanism is provided inside the slitting machine body (1).

2. The pressing assembly for an aluminum slitting machine according to claim 1, characterized in that: The support mechanism includes a bidirectional threaded rod (9) rotatably connected to the inner wall of the slitting machine body (1), a transmission belt (10) is connected between the bidirectional threaded rod (9) and the cam (7), a threaded sleeve (11) is threadedly connected to the outer surface of the bidirectional threaded rod (9), and an extrusion block (12) that contacts the opening and closing door (6) is fixedly connected to the outer surface of the threaded sleeve (11).

3. The pressing assembly for an aluminum slitting machine according to claim 1, characterized in that: A second telescopic rod (13) is fixedly connected to the top of the connecting plate (2), and the end of the second telescopic rod (13) away from the connecting plate (2) is fixedly connected to the inner wall of the slitting machine body (1).

4. A pressing assembly for an aluminum slitting machine according to claim 3, characterized in that: A second spring (14) is fixedly connected to the top of the connecting plate (2). The end of the second spring (14) away from the connecting plate (2) is fixedly connected to the inner wall of the slitting machine body (1). The second telescopic rod (13) is inserted into the inner ring of the second spring (14).

5. A pressing assembly for an aluminum slitting machine according to claim 2, characterized in that: The inner wall of the slitting machine body (1) is fixedly connected to a limiting block (15), and the threaded sleeve (11) is slidably connected to the outer wall of the limiting block (15).

6. A pressing assembly for an aluminum slitting machine according to claim 2, characterized in that: The slitting machine body (1) has a through hole (16) for the transmission belt (10) to move inside, and the top of the switch door (6) has a cutting groove (17).

7. A pressing assembly for an aluminum slitting machine according to claim 1, characterized in that: The slitting machine body (1) is internally fixedly connected to a placement block (18) for placing aluminum materials, and the placement block (18) is segmented.

8. A pressing assembly for an aluminum slitting machine according to claim 1, characterized in that: The slitting machine body (1) has an embedding hole (19) inside, and a collection box (20) is provided inside the slitting machine body (1).