A laser-cut support plate slag removal machine

CN224424390UActive Publication Date: 2026-06-30HEBEI YIBAI METAL CONSTRUCTION CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HEBEI YIBAI METAL CONSTRUCTION CO LTD
Filing Date
2025-08-06
Publication Date
2026-06-30

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Abstract

This utility model discloses a laser-cut support plate cleaning machine. A drive unit is mounted on the frame, and the drive end of the drive unit is equipped with a double-bladed disc-shaped cutting blade. A drive gap is provided between the two disc-shaped cutting blades, and drive teeth are provided around the periphery of the disc-shaped cutting blades. A material drop gap is provided below the disc-shaped cutting blades, and a support plate placement platform is provided in front of the material drop gap. In use, the support plate is placed into the drive gap. When the double-bladed disc-shaped cutting blades rotate, they apply force through the drive teeth to the attached materials on the left and right sides of the support plate, driving the support plate to move. Simultaneously, the double-bladed disc-shaped cutting blades cut and remove the attached materials. This utility model has a simple and novel structure. The user only needs to place the support plate into the drive gap, which can improve the cleaning speed of attached materials and ensure the cleaning effect. It can also reshape the support plate while cleaning the attached materials.
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Description

Technical Field

[0001] This utility model belongs to the field of cleaning equipment technology, and specifically relates to a slag remover for removing attachments from the side of the support plate on a laser cutting machine. Background Technology

[0002] On the load-bearing platform of the laser cutting machine, the workpiece is supported by multiple support plates arranged at intervals. After continuous cutting, the high-temperature flying chips and high-temperature slag particles generated during the cutting process fall onto the support plates. After a long period of accumulation, the amount of deposits on the sides of the support plates increases, and may even block the intervals of the support plates, affecting the normal use of the support plates.

[0003] The current solution is to remove the deposits by manual grinding. However, these deposits are made of steel or iron and are attached to the support plate in a molten state at high temperature. After solidification, they are firmly fixed to the support plate, making manual cleaning extremely difficult. Since each laser cutting machine has multiple support plates, manual cleaning of the support plates not only significantly increases the operating cost of the laser cutting machine but also becomes a bottleneck process in the operation and maintenance of the cutting machine.

[0004] In response to the technical problems mentioned above, the technical problem that urgently needs to be solved by those skilled in the art is: to design a new laser-cut support plate cleaning machine that can achieve automated or semi-automated operation, with the aim of improving the cleaning efficiency of the attachments on the support plate. Summary of the Invention

[0005] In view of the shortcomings of the prior art described above, this utility model proposes a laser cutting support plate cleaning machine, which can realize the support and drive of the support plate by setting a special machine, and realize the rapid removal of the attached objects on its side while driving the support plate to move.

[0006] The technical solution adopted by this utility model to solve its technical problem is:

[0007] A laser cutting support plate cleaning machine includes a frame, on which a driving device is mounted. The driving end of the driving device is equipped with a double-disc-shaped cutting blade, and a driving gap is provided between the double-disc-shaped cutting blades. Driving teeth are provided around the outer periphery of the disc-shaped cutting blades. A material dropping gap is provided below the disc-shaped cutting blades, and a support plate placement platform is provided in front of the material dropping gap.

[0008] The disc-shaped cutting blade is provided with centrifugal notches on its periphery. There are multiple centrifugal notches, which are evenly distributed on the outer diameter surface of the disc-shaped cutting blade. Centrifugal drive teeth are formed between each pair of adjacent centrifugal notches.

[0009] The disc-shaped cutting blade is provided with several small driving teeth evenly distributed around its periphery, and several process grooves are also provided around its periphery. In each process groove area, a radial hole is provided in the driving gap.

[0010] The frame is equipped with a support base, and the double-bladed disc cutting blade is supported by the support base, which can improve the stability of the double-bladed disc cutting blade during rotation cutting.

[0011] The support plate placement platform is provided with a guide arc surface and a positioning protrusion, which constrains the support plate to move toward the drive gap.

[0012] A material storage bin or a guide slope is provided below the material drop gap to achieve unified collection and treatment of the removed attached materials.

[0013] The material storage compartment is equipped with drawers, and at least one of the outer baffles of the drawers is movable, allowing the materials inside the drawers to be cleaned by opening the outer baffles.

[0014] The frame consists of support legs and a desktop. The bottom of the support legs is equipped with a balance base, which improves the stability of the support legs.

[0015] A swing seat is movably fixed on the side of the support leg, and a moving wheel is fixed on the swing seat. A drive rod is also provided on the swing seat. Positioning holes are provided on the drive rod and the side of the support leg. The positioning holes include horizontal positioning holes and vertical positioning holes. The balance base is made of square steel, and an extension rod is inserted inside it. The extension rod is pulled out from the balance base when the moving wheel is in operation.

[0016] This utility model has the following beneficial effects: It discloses a laser cutting support plate cleaning machine, which has a driving device on a frame. The driving end of the driving device is equipped with a double-bladed disc-shaped cutting blade, with a driving gap between the two blades. Driving teeth are arranged around the outer periphery of the disc-shaped cutting blades. A material dropping gap is provided below the disc-shaped cutting blades, and a support plate placement platform is provided in front of the material dropping gap. In use, the support plate is placed into the driving gap. When the double-bladed disc-shaped cutting blades rotate, they apply force through the driving teeth to the attached materials on the left and right sides of the support plate, driving the support plate to move. Simultaneously, the double-bladed disc-shaped cutting blades cut and remove the attached materials.

[0017] This utility model has a simple and novel structure. Users only need to place the support plate into the drive gap, which can improve the cleaning speed of the attached materials and ensure the cleaning effect. While cleaning the attached materials, it can also shape the support plate. It is an ideal laser cutting support plate cleaning machine. Attached Figure Description

[0018] The present invention will be further described below with reference to the accompanying drawings and embodiments.

[0019] Figure 1 This is a schematic diagram of the three-dimensional structure of the support plate;

[0020] Figure 2 This is a three-dimensional structural diagram of Embodiment 1 of the present utility model;

[0021] Figure 3 This is a side view of Embodiment 1 of the present invention.

[0022] Figure 4 This is a three-dimensional structural diagram of the second embodiment of the present invention in use.

[0023] Figure 5 This is a side view of the structure of Embodiment 2 of the present invention in use.

[0024] Figure 6 This is a side view of the structure in the moving state of Embodiment 2 of this utility model;

[0025] Figure 7 This is a schematic diagram of the structure of this utility model after adding an outer protective cover.

[0026] In the diagram, 1. Support plate, 11. Tooth, 12. Attachment; 2. Frame, 20. Support leg, 21. Balance base, 22. Extension rod, 23. Tabletop, 24. Wheel hinge hole, 25. Horizontal positioning hole, 26. Vertical positioning hole, 27. Outer cover; 3. Material storage bin, 30. Base plate, 31. Drawer, 32. Side baffle, 33. Insertion slot, 34. Handle; 4. Support seat, 41. Bearing seat; 5. Motor, 6. Disc-shaped cutting blade, 60. Drive clearance, 61. Centrifugal notch, 62. Centrifugal drive tooth, 63. Process groove, 64. Drive tooth, 65. Radial hole; 7. Support plate placement platform, 71. Guide plate, 72. Guide arc surface, 73. Positioning protrusion, 74. Drop clearance; 8. Swing seat, 81. Drive rod, 82. Moving wheel, 83. Positioning hole. Detailed Implementation

[0027] The present invention will be further described below through embodiments. Those skilled in the art can refer to the embodiments for implementation, and can also make technical improvements and innovations based on the existing technical solutions.

[0028] This utility model is used to clean the attachments 12 on the support plate 1 of the load-bearing table of a laser cutting machine, such as... Figure 1 As shown, this illustrates the specific structure of the support plate 1. The support plate 1 is provided with teeth 11, and the side with teeth 11 is used for supporting external workpieces. Figure 1 As can be seen, there are deposits 12 on the side of the support plate 1.

[0029] Example 1:

[0030] A laser-cut support plate slag removal machine, such as Figure 2 , 3 As shown, it includes a frame 2, which consists of four support legs 20 and a tabletop 23. The bottom of each support leg 20 is provided with a balance base 21. In this embodiment, the balance base 21 is a square steel welded to two support legs 20. The balance base 21 is provided in two positions, front and back, and the stability of the support legs 20 is improved by the two balance bases 21.

[0031] This invention features a motor 5 fixed on a desktop 23 as a driving device. The driving device can also be a fuel motor or a hydraulic motor. The driving end of the motor 5 is provided with double-bladed disc-shaped cutting blades 6 spaced apart, with a driving gap 60 between the blades. During cleaning of attached materials, the driving gap 60 allows the support plate 1 to pass through. The outer periphery of each disc-shaped cutting blade 6 has multiple centrifugal notches 61 evenly distributed on its outer diameter surface. Each pair of adjacent centrifugal notches 61 forms a centrifugal driving tooth 62.

[0032] A material drop gap 74 is provided below the disc-shaped cutting blade 6. In this embodiment, the hole machined in the tabletop 23 serves as the material drop gap 74. A support plate placement platform 7 is provided on the front side of the material drop gap 74, which supports the guide plate 71. A guide arc surface 72 is provided on the top surface of the guide plate 71. A positioning protrusion 73 is provided through the support plate placement platform 7 or the guide plate 71, which constrains the support plate 1 to move toward the drive gap. The support plate 1 shifts left and right when moving. An outer protective cover 27 is provided above the motor 5 and the disc-shaped cutting blade 6 to cover the drive and rotating parts of the present invention and prevent personnel injury.

[0033] Below the material drop gap 74, a material storage bin 3 or a guiding slope is provided. In this embodiment, a material storage bin 3 is used. Those skilled in the art can use a guiding slope to discharge the material to the outside, and then set up a receiving device on the outside to achieve unified collection of the attached material.

[0034] In this embodiment, a base plate 30 is provided in the material storage compartment 3, and a drawer 31 is provided on the upper part of the support plate. The outer side of the drawer 31 is provided with double-sided insertion slots 33, and a side baffle 32 is provided in the insertion slots 33. With this design, the side baffle 32 is a vertically inserted movable type, and the material inside the drawer can be cleaned by opening the side baffle 32. The drawer 31 is also provided with a handle 34, which can be used to pull the entire drawer 31 inward and outward.

[0035] Furthermore, those skilled in the art can also provide a support base 4 on the desktop 23, and the double-bladed disc-shaped cutting blade 6 can be externally supported by the support base 4, which can improve the stability of the double-bladed disc-shaped cutting blade 6 when rotating and cutting.

[0036] With the above structural setup, when using this equipment, place the support plate on the guide arc surface 72 and insert the support plate into the drive gap 60. At this time, the double-bladed disc cutter 6 rotates in the direction of material inflow, and the centrifugal drive teeth 62 rub against the attached material 12 to convey the support plate 1 backward. During the conveying process, the double-bladed disc cutter 6 cuts and removes the attached material on both sides of the support plate. The waste generated during the removal process is temporarily stored in the drawer 31 and then disposed of centrally.

[0037] Example 2:

[0038] Based on the structure of Example 1, such as Figure 3 , 4 As shown in Figure 5, furthermore, the disc-shaped cutting blade 6 is provided with several small driving teeth 64 evenly distributed around its periphery, and the disc-shaped cutting blade 6 is also provided with several process grooves 63. The process grooves reduce the overall weight and enable the blade to impact the support plate 1 when removing chips.

[0039] When using this equipment, place the support plate on the guide arc surface 72 and insert the support plate into the drive gap 60. At this time, the double-bladed disc-shaped cutting blade 6 rotates in the direction of material inflow, and the support plate 1 is conveyed backward by several small drive teeth 64 rubbing against the attached material 12. At the same time as conveying, the small drive teeth 64 cut and remove the attached material on both sides of the support plate. The waste generated during the removal process is temporarily stored in the drawer 31 and then disposed of centrally.

[0040] This utility model also includes a swing seat 8 movably fixed on the side of the support leg 20 via a wheel hinge hole 24. A movable wheel 82 is fixed on the swing seat 8, and a drive rod 81 is also provided on the swing seat 8. Positioning holes 83 are provided on the drive rod 81 and the side of the support leg 20. The positioning holes on the support leg 20 include horizontal positioning holes 25 and vertical positioning holes 26. The balance base 21 is made of square steel, and an extension rod 22 is inserted inside it. When cleaning the attachments on the support plate, such as... Figure 5 As shown, the positioning hole 83 on the drive rod 81 engages with the horizontal positioning hole 25 to achieve insertion and fixation. After insertion, the moving wheel 82 is in the storage state. When the laser cutting support plate cleaning machine is moved as a whole, the extension rod 22 is pulled out of the balance base 21, and the positioning hole 83 on the drive rod 81 engages with the vertical positioning hole 26 to achieve insertion and fixation. The laser cutting support plate cleaning machine can be lifted at one end, and the moving wheel 82 can touch the ground to achieve the overall dragging of the equipment.

[0041] In summary, this utility model has a simple and novel structure. Users only need to place the support plate 1 into the drive gap 60, which can improve the cleaning speed of the attached material 12 and clean it thoroughly. While cleaning the attached material 12, it can also reshape the support plate 1. It is an ideal laser cutting support plate cleaning machine.

Claims

1. A slag removal machine for laser-cut support plates, characterized in that: It includes a frame, on which a drive device is mounted. The drive end of the drive device is equipped with a double-bladed disc-shaped cutting blade. A drive gap is provided between the double-bladed disc-shaped cutting blades. Drive teeth are provided around the disc-shaped cutting blades. A material dropping gap is provided below the disc-shaped cutting blades. A support plate placement platform is provided in front of the material dropping gap.

2. The laser cutting support plate slag removal machine as described in claim 1, characterized in that: The disc-shaped cutting blade is provided with centrifugal notches on its periphery. There are multiple centrifugal notches, which are evenly distributed on the outer diameter surface of the disc-shaped cutting blade. Centrifugal drive teeth are formed between each pair of adjacent centrifugal notches.

3. The laser cutting support plate slag removal machine as described in claim 1, characterized in that: The disc-shaped cutting blade is provided with several small driving teeth evenly distributed around its periphery, and several process grooves are also provided around its periphery. In each process groove area, a radial hole is provided in the driving gap.

4. A laser cutting support plate slag removal machine as described in claim 2 or 3, characterized in that: The frame is provided with a support base, and the double-bladed disc-shaped cutting blade is supported by the support base.

5. A laser cutting support plate slag removal machine as described in claim 2 or 3, characterized in that: The support plate placement platform is provided with a guide arc surface and a positioning protrusion, which constrains the support plate to move toward the drive gap.

6. A laser cutting support plate slag removal machine as described in claim 2 or 3, characterized in that: A material storage bin or a guide ramp is provided below the material drop gap.

7. The laser cutting support plate slag removal machine as described in claim 6, characterized in that: The material storage compartment is equipped with drawers, and at least one of the outer baffles of the drawers is movable, allowing the materials inside the drawers to be cleaned by opening the outer baffles.

8. A laser cutting support plate slag removal machine as described in claim 2 or 3, characterized in that: The frame consists of support legs and a desktop. The bottom of the support legs is equipped with a balance base, which improves the stability of the support legs.

9. A laser cutting support plate slag removal machine as described in claim 8, characterized in that: A swing seat is movably fixed on the side of the support leg, and a moving wheel is fixed on the swing seat. A drive rod is also provided on the swing seat. Positioning holes are provided on the drive rod and the side of the support leg. The positioning holes include horizontal positioning holes and vertical positioning holes. The balance base is made of square steel, and an extension rod is inserted inside it. The extension rod is pulled out from the balance base when the moving wheel is in operation.