A cutting device for processing a clothing
By introducing scrapers and mobile collection boxes into the cutting equipment, the problem of waste adsorption on the conveyor belt was solved, achieving efficient waste cleaning and collection, and improving the production efficiency and quality of garment processing.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- XUCHANG WANMAO CLOTHING CO LTD
- Filing Date
- 2025-06-05
- Publication Date
- 2026-06-19
AI Technical Summary
In existing automated cutting equipment, the cut fabric waste is easily attracted to the conveyor belt due to static electricity, which affects the cutting accuracy of subsequent batches and is cumbersome to clean manually, thus reducing production efficiency.
Design a cutting device for garment processing, comprising a scraper and a moving collection box. The scraper cleans up waste material via a conveyor belt, and the moving collection box collects waste material. The device also features a sliding shell, a bidirectional threaded rod, and other structures to facilitate scraper cleaning and ensure the stability of the collection box.
It effectively reduces the risk of waste adsorption on the conveyor belt, ensures cutting quality, and improves production efficiency through convenient scraper disassembly and collection box operation.
Smart Images

Figure CN224378558U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of garment processing technology, specifically a cutting device for garment processing. Background Technology
[0002] In the modern apparel manufacturing industry, cutting is a core production process. Its processing precision and efficiency not only determine the quality of the finished garments, but also directly affect the length of the production cycle. In order to improve cutting efficiency, many manufacturers have introduced automated cutting equipment for garment processing.
[0003] Currently, most mainstream automated cutting equipment adopts a conveyor belt transport mode: the fabric is transported to the cutting blades to complete the cutting, and then the finished product and waste are transported simultaneously. This process significantly improves production efficiency.
[0004] However, such equipment still faces technical bottlenecks. Although conveyor belt operation reduces the workload of workers frequently handling finished products and waste materials, the cut fabric waste often adheres to the conveyor belt due to electrostatic adsorption and other reasons. If it is not cleaned in time, the residual waste will directly interfere with the cutting accuracy of subsequent batches of fabric and affect product quality. Manually cleaning the conveyor belt is not only cumbersome, but also significantly reduces the overall production efficiency, becoming a key obstacle to the smooth operation of automated processing. Therefore, a cutting equipment for clothing processing is proposed to address the above problems. Utility Model Content
[0005] In order to overcome the shortcomings of the prior art and solve at least one of the technical problems mentioned in the background art, this utility model proposes a cutting device for clothing processing.
[0006] The technical solution adopted by this utility model to solve its technical problem is as follows: A cutting device for clothing processing according to this utility model includes a support plate; a support leg is fixedly connected to the bottom of the support plate; a conveyor belt is provided on the side wall of the support plate; a cutting frame is provided on the top of the support plate; a through groove is opened on the bottom side of the end of the support plate; a rectangular shell slides in the middle of the through groove; a sliding shell is slidably connected to the middle of the rectangular shell; a scraper is inserted into the middle of the sliding shell; a slider is fixedly connected to the side wall of the rectangular shell; a sliding groove is opened on the inner wall of the through groove; the slider is slidably connected to the middle of the sliding groove; a stop block is slidably connected through the side wall of the support plate; a bidirectional threaded rod is threadedly connected to the middle of the stop block; the bidirectional threaded rod is rotatably connected through the side wall of the support plate; the side wall of the stop block contacts the side wall of the end of the rectangular shell.
[0007] Preferably, a movable collection box is provided at the bottom of the conveyor belt; a second through groove is provided on the side wall of the support leg; a limiting groove is provided in the middle of the second through groove; a fixed shell is fixedly connected to the side wall of the movable collection box; the fixed shell is inserted into the middle of the second through groove; a connecting plate is elastically connected to the inner wall of the fixed shell by a second spring; the connecting plate is slidably connected to the middle of the fixed shell; a locking block is fixedly connected to the end of the connecting plate; the locking block is slidably connected to the middle of the fixed shell; the top of the locking block contacts the middle of the limiting groove; a handle is fixedly connected to the side wall of the other end of the connecting plate.
[0008] Preferably, the bottom of the sliding shell is fixed with a spring, and there are multiple sets of springs; the bottom of the spring is fixed to the middle of the rectangular shell; the multiple sets of springs are arranged in a linear array and evenly distributed at the bottom of the sliding shell.
[0009] Preferably, the bottom of the scraper is T-shaped; the outer wall of the bottom end of the scraper is adapted to the inner wall of the sliding shell.
[0010] Preferably, the top side of the card block is set as an inclined surface.
[0011] Preferably, the mobile collection box has a positioning groove on its top; a rectangular strip slides along the inner wall of the positioning groove; a rectangular plate is fixed to the side wall of the rectangular strip; and the rectangular plate contacts the middle of the mobile collection box.
[0012] Preferably, the outer wall of the rectangular strip and the inner wall of the positioning groove are interference fit.
[0013] The beneficial effects of this utility model are:
[0014] 1. This utility model provides a cutting device for garment processing. By setting a scraper, the conveyor belt can be cleaned, reducing the risk of waste material adhering to the conveyor belt and ensuring the quality of garment cutting. At the same time, the scraper can be disassembled and cleaned by the provided rectangular shell, bidirectional threaded rod, stop block, sliding shell, spring and slider, ensuring the cleaning effect of the scraper.
[0015] 2. This utility model provides a cutting device for clothing processing. The mobile collection box can collect the cut waste material, making it convenient to collect the waste material in a centralized manner. The stability of the mobile collection box during use can be ensured by the cooperation between the handle, rectangular shell, connecting plate, locking block and spring. Attached Figure Description
[0016] The accompanying drawings, which are included to provide a further understanding of the present invention and form part of this application, illustrate exemplary embodiments of the present invention and, together with the description thereof, serve to explain the present invention and do not constitute an undue limitation thereof. In the drawings:
[0017] Figure 1This is a perspective view of the overall device of this utility model;
[0018] Figure 2 This is a three-dimensional sectional view of the support leg and the mobile collection box in this utility model.
[0019] Figure 3 This is a three-dimensional sectional view of the rectangular shell and scraper in this utility model.
[0020] Figure 4 This is a three-dimensional, split cross-sectional view of the movable collection box and rectangular plate in this utility model;
[0021] Figure 5 This utility model Figure 2 A magnified 3D view of region A.
[0022] Legend:
[0023] 1. Support leg; 2. Conveyor belt; 3. Support plate; 4. Cutting rack; 5. Rectangular shell; 51. Two-way threaded rod; 52. Stop block; 53. Scraper; 54. Sliding shell; 55. Spring 1; 56. Slider; 6. Moving collection box; 61. Handle; 62. Fixed shell; 63. Connecting plate; 64. Rectangular plate; 65. Locking block; 66. Spring 2; 67. Rectangular strip; 68. Positioning groove; 7. Through groove 1; 8. Through groove 2; 9. Limiting groove; 10. Slide groove. Detailed Implementation
[0024] 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 scope of protection of the present utility model.
[0025] Specific implementation examples are given below.
[0026] Please see Figures 1-5This utility model provides a cutting device for clothing processing, including a support plate 3; a support leg 1 is fixedly connected to the bottom of the support plate 3; a conveyor belt 2 is provided on the side wall of the support plate 3; a cutting frame 4 is provided on the top of the support plate 3; a through groove 7 is opened on the bottom side of the end of the support plate 3; a rectangular shell 5 is slidably connected in the middle of the through groove 7; a sliding shell 54 is slidably connected in the middle of the rectangular shell 5; a scraper 53 is inserted in the middle of the sliding shell 54; a slider 56 is fixedly connected to the side wall of the rectangular shell 5; a sliding groove 10 is opened in the inner wall of the through groove 7; the slider 56 is slidably connected to the sliding groove. In the middle of 10; a stop 52 is slidably connected through the side wall of the support plate 3; a double-threaded rod 51 is threadedly connected to the middle of the stop 52; the double-threaded rod 51 is rotatably connected through the side wall of the support plate 3; the side wall of the stop 52 contacts the side wall of the end of the rectangular shell 5; during operation, the fabric to be cut is placed on the conveyor belt 2, and then the fabric is transported to a suitable position by the conveyor belt 2, and the cutting frame 4 can be started to cut the fabric. After cutting, the conveyor belt 2 can be started to transport the cut fabric towards the moving collection box 6, where the worker can stand. After processing, the garment is removed flat. No waste is needed; the waste will fall into the mobile collection box 6 via the conveyor belt 2 for collection. During the conveyor belt 2's transport process, the scraper 53 cleans the surface of the conveyor belt 2 by scraping, reducing the risk of waste adhering to the surface and ensuring the quality of garment cutting. When the scraper 53 needs to be disassembled and cleaned after a period of use, the bidirectional threaded rod 51 can be rotated. This causes the stop 52, threaded to its outer wall, to move linearly until the stop 52 no longer contacts the rectangular shell 5. At this point, the rectangular shell 5 can be pulled to disengage it from the through groove 7. When the rectangular shell 5 moves, it will drive the slider 56 to slide on the inner wall of the groove 10 until the rectangular shell 5 is completely separated from the middle of the through groove 7. At this time, the scraper 53 will be exposed. Simply pull the scraper 53 to make it come out from the middle of the sliding shell 54. This allows the scraper 53 to be cleaned regularly to ensure the cleaning effect of the scraper 53 on the conveyor belt 2. During installation, the scraper 53 is inserted into the middle of the sliding shell 54, and then the rectangular shell 5 is completely pushed into the middle of the through groove 7. Finally, the bidirectional threaded rod 51 is rotated to make the stop block 52 block the rectangular shell 5.
[0027] Furthermore, such as Figures 1-2 and Figure 4As shown, a movable collection box 6 is provided at the bottom of the conveyor belt 2; a through groove 8 is provided on the side wall of the support leg 1; a limiting groove 9 is provided in the middle of the through groove 8; a fixed shell 62 is fixedly connected to the side wall of the movable collection box 6; the fixed shell 62 is inserted into the middle of the through groove 8; a connecting plate 63 is elastically connected to the inner wall of the fixed shell 62 by a spring 66; the connecting plate 63 is slidably connected to the middle of the fixed shell 62; a locking block 65 is fixedly connected to the end of the connecting plate 63; the locking block 65 is slidably connected to the middle of the fixed shell 62; the top of the locking block 65 contacts the middle of the limiting groove 9; a handle 61 is fixedly connected to the side wall of the other end of the connecting plate 63. During operation, the movable collection box 6 can collect the cutting waste. When it is necessary to transfer the waste inside the movable collection box 6, the handle 61 can be pushed to make the connecting plate 63 slide in the middle of the fixed shell 62, and the connecting plate 63 will drive the locking block 65. Move the collection box 6 until the locking block 65 disengages from the center of the limiting groove 9. Then, pull the handle 61 to move the collection box 6 until the fixed shell 62 completely disengages from the inner wall of the through groove 8. Workers can then freely push the collection box 6 to transfer waste materials, thus enabling centralized waste processing and improving convenience. After the waste is discharged, push the collection box 6 to insert the fixed shell 62 into the inner wall of the through groove 8. During insertion, the support leg 1 will push the locking block 65 along its inclined surface into the center of the fixed shell 62. The locking block 65 will drive the connecting plate 63 to move and compress the spring 66. When the locking block 65 is fully overlapped with the limiting groove 9, the spring 66 will use its elasticity to push the connecting plate 63 and the locking block 65 to move in opposite directions to reset, so that the locking block 65 is inserted into the center of the limiting groove 9. This completes the limiting of the collection box 6, ensuring the stability of the collection box 6 during use.
[0028] Furthermore, such as Figure 3 As shown, multiple sets of springs 55 are fixed to the bottom of the sliding shell 54; the bottom of the springs 55 is fixed to the middle of the rectangular shell 5; multiple sets of springs 55 are arranged in a linear array at the bottom of the sliding shell 54. During operation, the springs 55 have a certain elasticity, which ensures that when the scraper 53 is at the bottom of the conveyor belt 2, it always pushes the sliding shell 54 towards the conveyor belt 2, so that the scraper 53 is in close contact with the conveyor belt 2, ensuring the cleaning effect on the surface of the conveyor belt 2.
[0029] Furthermore, such as Figure 3 As shown, the bottom of the scraper 53 is T-shaped; the outer wall of the bottom end of the scraper 53 is adapted to the inner wall of the sliding shell 54. When working, the T-shape can improve the stability of the scraper 53 installed in the middle of the sliding shell 54 and improve its practicality.
[0030] Furthermore, such as Figure 2 and Figure 4 As shown, the top side of the locking block 65 is set as an inclined surface. During operation, the inclined surface ensures that when the fixing shell 62 is pushed into the middle of the through groove 8, the support leg 1 can be pushed along the inclined surface of the locking block 65 to move it without manually pushing the handle 61, which improves the speed of installation.
[0031] Furthermore, such as Figure 4 As shown, the top of the mobile collection box 6 has a positioning groove 68; a rectangular strip 67 slides along the inner wall of the positioning groove 68; a rectangular plate 64 is fixed to the side wall of the rectangular strip 67; the rectangular plate 64 contacts the middle of the mobile collection box 6. During operation, when processing the waste inside the mobile collection box 6, the rectangular plate 64 can be pulled, and the rectangular plate 64 will drive the rectangular strip 67 to move until the rectangular strip 67 is completely separated from the inner wall of the positioning groove 68. At this time, the waste in the middle of the mobile collection box 6 can be poured out smoothly. During installation, the rectangular strip 67 can be directly inserted into the middle of the positioning groove 68.
[0032] Furthermore, such as Figure 4 As shown, the outer wall of the rectangular strip 67 and the inner wall of the positioning groove 68 are interference fit. During operation, the rectangular strip 67 and the positioning groove 68 are interference fit, which can ensure the stability of the rectangular plate 64 installed in the middle of the mobile collection box 6.
[0033] Working principle: The fabric to be cut is placed on conveyor belt 2, which then transports it to the appropriate position. The cutting frame 4 can then be activated to cut the fabric. After cutting, conveyor belt 2 transports the cut fabric towards the moving collection box 6. Workers can stand at this point and process the fabric flat without worrying about waste. The waste will fall into the moving collection box 6 for collection by the conveyor belt 2. During the transport process, scraper 53 cleans the surface of conveyor belt 2 by scraping, reducing the risk of waste adhering to the surface and ensuring the quality of garment cutting. When scraper 53 needs to be disassembled and cleaned after a period of use, the bidirectional threaded rod 51 can be rotated to open the threaded connection. The stop 52 on its outer wall will move linearly until the stop 52 no longer contacts the rectangular shell 5. At this time, the rectangular shell 5 can be pulled to disengage it from the inner wall of the through groove 7. When the rectangular shell 5 moves, it will drive the slider 56 to slide on the inner wall of the slide groove 10 until the rectangular shell 5 is completely disengaged from the middle of the through groove 7. At this time, the scraper 53 will be exposed. Simply pull the scraper 53 to disengage it from the middle of the sliding shell 54. This allows the scraper 53 to be cleaned regularly to ensure the cleaning effect of the scraper 53 on the conveyor belt 2. During installation, the scraper 53 is inserted into the middle of the sliding shell 54, and then the rectangular shell 5 is completely pushed into the middle of the through groove 7. Finally, the bidirectional threaded rod 51 is rotated to make the stop 52 block the rectangular shell 5.
[0034] The movable collection box 6 can collect cutting waste. When it is necessary to transfer the waste inside the movable collection box 6, the handle 61 can be pushed to make the connecting plate 63 slide in the middle of the fixed shell 62. The connecting plate 63 will drive the locking block 65 to move until the locking block 65 disengages from the middle of the limiting groove 9. At this time, the movable collection box 6 can be moved by pulling the handle 61 until the fixed shell 62 is completely disengaged from the inner wall of the through groove 8. Workers can then easily push the movable collection box 6 to transfer the waste. This allows for centralized processing of waste and improves convenience. After the waste is discharged, the mobile collection box 6 can be pushed so that the fixed shell 62 is inserted into the inner wall of the through groove 8. During the insertion process, the support leg 1 will be pushed along the inclined surface of the locking block 65 to move into the middle of the fixed shell 62. The locking block 65 will drive the connecting plate 63 to move and squeeze the spring 66. When the locking block 65 is completely overlapped with the limiting groove 9, the spring 66 will push the connecting plate 63 and the locking block 65 to move in opposite directions to reset through its own elasticity, so that the locking block 65 is inserted into the middle of the limiting groove 9. In this way, the mobile collection box 6 is limited, ensuring the stability of the mobile collection box 6 during use.
[0035] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claimed utility model.
Claims
1. A cutting device for garment processing, comprising a support plate (3); characterized in that: The support plate (3) has a support leg (1) fixedly connected to its bottom; a conveyor belt (2) is provided on the side wall of the support plate (3); a cutting frame (4) is provided on the top of the support plate (3); a through groove (7) is opened on the bottom side of the end of the support plate (3); a rectangular shell (5) slides in the middle of the through groove (7); a sliding shell (54) is slidably connected in the middle of the rectangular shell (5); a scraper (53) is inserted in the middle of the sliding shell (54); the rectangular shell (5) has a side... A slider (56) is fixed to the wall; a groove (10) is provided on the inner wall of the through groove (7); the slider (56) is slidably connected to the middle of the groove (10); a stop block (52) is slidably connected through the side wall of the support plate (3); a bidirectional threaded rod (51) is threadedly connected to the middle of the stop block (52); the bidirectional threaded rod (51) is rotatably connected through the side wall of the support plate (3); the side wall of the stop block (52) contacts the side wall of the end of the rectangular shell (5).
2. The cutting equipment for garment processing according to claim 1, characterized in that: The bottom of the conveyor belt (2) is provided with a movable collection box (6); the side wall of the support leg (1) is provided with a through groove (8); a limiting groove (9) is provided in the middle of the through groove (8); a fixed shell (62) is fixedly connected to the side wall of the movable collection box (6); the fixed shell (62) is inserted into the middle of the through groove (8); a connecting plate (63) is elastically connected to the inner wall of the fixed shell (62) by a spring (66); the connecting plate (63) is slidably connected to the middle of the fixed shell (62); a locking block (65) is fixedly connected to the end of the connecting plate (63); the locking block (65) is slidably connected to the middle of the fixed shell (62); the top of the locking block (65) contacts the middle of the limiting groove (9); a handle (61) is fixedly connected to the side wall of the other end of the connecting plate (63).
3. The cutting equipment for garment processing according to claim 1, characterized in that: The bottom of the sliding shell (54) is fixed with a spring (55) in multiple sets; the bottom of the spring (55) is fixed in the middle of the rectangular shell (5); the multiple sets of springs (55) are arranged in a linear array and uniformly distributed at the bottom of the sliding shell (54).
4. The cutting equipment for garment processing according to claim 3, characterized in that: The bottom of the scraper (53) is T-shaped; the outer wall of the bottom end of the scraper (53) is adapted to the inner wall of the sliding shell (54).
5. The cutting equipment for garment processing according to claim 2, characterized in that: The top side of the card block (65) is set as a slope.
6. The cutting equipment for garment processing according to claim 2, characterized in that: The mobile collection box (6) has a positioning groove (68) on its top; a rectangular strip (67) slides on the inner wall of the positioning groove (68); a rectangular plate (64) is fixed to the side wall of the rectangular strip (67); the rectangular plate (64) contacts the middle part of the mobile collection box (6).
7. The cutting equipment for garment processing according to claim 6, characterized in that: The outer wall of the rectangular strip (67) and the inner wall of the positioning groove (68) are interference fit.