A garment cutting and positioning device
By designing a garment cutting positioning device with automatic positioning and static elimination mechanisms, the problem of low efficiency in manual positioning and fixing was solved, and automatic clamping and static elimination were achieved, thereby improving cutting efficiency and processing quality.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- YICHANG LIANGYA CLOTHING CO LTD
- Filing Date
- 2025-07-10
- Publication Date
- 2026-07-03
AI Technical Summary
In the process of garment cutting, the fabric needs to be manually positioned and fixed, which makes the operation cumbersome and inefficient.
A garment cutting and positioning device was designed, which includes an adjustment and positioning mechanism and a static elimination mechanism. The device achieves automatic clamping and fixing of the fabric through an automatic positioning pressure bar and a scraping component, and eliminates static electricity through an ion air bar and a dust removal brush.
It achieves positioning without manual pressing, improves cutting efficiency, and effectively eliminates static electricity on the fabric, ensuring normal cutting processing.
Smart Images

Figure CN224451206U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of garment cutting and processing, and in particular to a garment cutting and positioning device. Background Technology
[0002] Garment cutting is a crucial step in the garment production process. It refers to the process of cutting fabrics, linings, and accessories into specific shapes and sizes using specialized tools based on paper patterns or digital templates designed for the garment style. It is a key step connecting garment design and sewing, directly affecting the accuracy of the garment pattern, fabric utilization, and the efficiency of subsequent sewing.
[0003] When cutting clothing, for example in some small clothing stores, the fabric to be cut is usually fixed on a flat and smooth table. Then, according to the pattern designed for the clothing style, the fabric can be cut with a cutting knife to achieve the desired shape and size.
[0004] However, when using the above method, it is often necessary to position and fix the clothing fabric during the cutting process. The traditional method is to manually press the fabric to position and fix it. This means that the staff often need to use one hand to press and position the fabric while the other hand needs to cut the fabric. The operation is troublesome and time-consuming, and the efficiency is often relatively low.
[0005] Therefore, it is necessary to provide a garment cutting and positioning device to solve the above problems. Summary of the Invention
[0006] To address the technical problem that workers often need one hand to press and position the fabric while the other hand cuts it, which is cumbersome, time-consuming, and inefficient, this utility model provides a garment cutting and positioning device.
[0007] This utility model provides a garment cutting and positioning device, comprising: a worktable, the top of which is provided with an adjustment and positioning mechanism; the adjustment and positioning mechanism includes two positioning rods, an adjustment and moving component, a pressing component, and two smoothing components, the adjustment and moving component being installed on the top of the worktable, one end of each of the two positioning rods being installed on the side wall of the adjustment and moving component via the pressing component, and the two smoothing components being respectively installed on the bottom of the two positioning rods; and an electrostatic elimination mechanism located on the side wall of the adjustment and positioning mechanism for performing electrostatic elimination treatment on the garment fabric.
[0008] Preferably, the adjusting and moving assembly includes a moving frame, a bidirectional threaded rod, a control knob, two moving blocks, and two threaded holes. The bottom of the moving frame is fixedly connected to the top of the workbench. The two ends of the bidirectional threaded rod are rotatably connected to the two ends of the moving frame. One end of the bidirectional threaded rod is fixedly connected to the control knob by rotating through one end of the moving frame. The middle parts of the two moving blocks are symmetrically rotatably connected to the side wall of the bidirectional threaded rod through the two threaded holes.
[0009] Preferably, the pressing assembly includes two rotating frames and several torsion springs. One end of each of the two rotating frames is fixedly connected to the side wall of the two moving blocks, and one end of each of the two positioning rods is rotatably connected to the middle of the other end of the two rotating frames. The two ends of the several torsion springs are fixedly connected to the side wall of the two rotating frames and the side wall of the two positioning rods, respectively.
[0010] Preferably, the leveling assembly includes a telescopic groove, several springs, and a scraper plate. The telescopic groove is formed at the bottom of the positioning pressure rod. One end of each of the springs is symmetrically fixed to the top of the telescopic groove. The side wall of the scraper plate is slidably connected to the side wall of the telescopic groove, and the top of the scraper plate is fixedly connected to the other end of each of the springs.
[0011] Preferably, the static electricity elimination mechanism includes two support frames and two ion air bars. One end of each of the two support frames is fixedly connected to the side wall of two positioning pressure rods, and the two ion air bars are fixedly connected to the middle of the two support frames.
[0012] Preferably, the static electricity elimination mechanism further includes a plurality of dust removal bristles, which are uniformly distributed and fixedly connected to the bottom of the two ion air bars.
[0013] Compared with related technologies, the garment cutting and positioning device provided by this utility model has the following beneficial effects:
[0014] By setting up an adjustable positioning mechanism, it is easy to automatically press down, clamp, and fix garment fabrics of different sizes according to usage needs. This eliminates the need for manual pressing and positioning of the garment fabric, making operation simple, convenient, time-saving, and labor-saving. It also facilitates the cutting of garment fabrics by workers and effectively improves work efficiency. Furthermore, by setting up a static electricity elimination mechanism, it is easy to neutralize and eliminate the static electricity accumulated on the garment fabrics according to usage needs, thereby facilitating the normal cutting and processing of garment fabrics. Attached Figure Description
[0015] Figure 1 This is a structural schematic diagram of the present invention;
[0016] Figure 2An exploded view of a partial structure of the adjustment and positioning mechanism provided by this utility model;
[0017] Figure 3 A partial exploded cross-sectional view of the adjustment and positioning mechanism provided by this utility model;
[0018] Figure 4 A bottom view of a partial structure of the static elimination mechanism provided by this utility model.
[0019] The following are the labels in the diagram: 1. Workbench; 2. Adjustment and positioning mechanism; 201. Positioning pressure rod; 3. Adjustment and movement assembly; 301. Moving frame; 302. Two-way threaded rod; 303. Control knob; 304. Moving block; 305. Threaded hole; 4. Pressing assembly; 401. Rotating frame; 402. Torsion spring; 5. Scraping assembly; 501. Telescopic groove; 502. Spring; 503. Scraper plate; 6. Static elimination mechanism; 601. Support frame; 602. Ionizing air bar; 603. Dust removal brush. Detailed Implementation
[0020] The present invention will be further described below with reference to the accompanying drawings and embodiments.
[0021] Please refer to the following: Figures 1 to 4 A garment cutting and positioning device includes: a workbench 1, with an adjustment and positioning mechanism 2 mounted on the top of the workbench 1; the adjustment and positioning mechanism 2 includes two positioning rods 201, an adjustment and moving component 3, a pressing component 4, and two leveling components 5; the adjustment and moving component 3 is mounted on the top of the workbench 1, one end of each of the two positioning rods 201 is mounted on the side wall of the adjustment and moving component 3 via the pressing component 4, and the two leveling components 5 are respectively mounted on the bottom of the two positioning rods 201; and an electrostatic elimination mechanism 6, located on the side wall of the adjustment and positioning mechanism 2, for performing electrostatic elimination treatment on the garment fabric.
[0022] The adjustment and moving assembly 3 includes a moving frame 301, a bidirectional threaded rod 302, a control knob 303, two moving blocks 304, and two threaded holes 305. The bottom of the moving frame 301 is fixedly connected to the top of the workbench 1. The two ends of the bidirectional threaded rod 302 are rotatably connected to the two ends of the moving frame 301. One end of the bidirectional threaded rod 302 is fixedly connected to the control knob 303 by rotating through one end of the moving frame 301. The middle parts of the two moving blocks 304 are symmetrically rotatably connected to the side wall of the bidirectional threaded rod 302 through the two threaded holes 305.
[0023] The pressing assembly 4 includes two rotating frames 401 and several torsion springs 402. One end of each of the two rotating frames 401 is fixedly connected to the side wall of each of the two moving blocks 304. One end of each of the two positioning rods 201 is rotatably connected to the middle of the other end of each of the two rotating frames 401. The two ends of each of the several torsion springs 402 are fixedly connected to the side wall of each of the two rotating frames 401 and the side wall of each of the two positioning rods 201.
[0024] The leveling assembly 5 includes a telescopic groove 501, several springs 502, and a scraper plate 503. The telescopic groove 501 is opened at the bottom of the positioning pressure rod 201. One end of several springs 502 is symmetrically fixedly connected to the top of the telescopic groove 501. The side wall of the scraper plate 503 is slidably connected to the side wall of the telescopic groove 501, and the top of the scraper plate 503 is fixedly connected to the other end of several springs 502.
[0025] In the specific implementation process, firstly, by manually pulling up the two positioning pressure rods 201, they are lifted and rotated by the rotating frame 401 supported on the side wall of the moving block 304. At this time, the garment fabric to be cut is placed on the worktable 1. Then, the strong torsion spring 402 provides a reaction force, causing the positioning pressure rods 201 to rotate and fall in the middle of the rotating frame 401. The rotation and fall of the positioning pressure rods 201 provides initial pressure and fixation to the placed garment fabric. At the same time, according to the size of the garment fabric, by manually rotating the control knob 303, a force is provided to drive the connected bidirectional threaded rod 302 to rotate on the moving frame 301. The rotation of the bidirectional threaded rod 302 with reverse threads on the moving frame 301 causes the two moving blocks 304 connected through the threaded hole 305 to be limited by the moving frame 301 and subjected to force on the bidirectional threaded rod 302. The reverse sliding movement opens the worktable 1 by moving the moving block 304 on the bidirectional threaded rod 302, thereby driving the positioning pressure rod 201 to move in the opposite direction and open along the top of the worktable 1. The spring 502 provides force, causing the scraper plate 503 connected to it to slide out from the telescopic groove 501 at the bottom of the positioning pressure rod 201. The scraper plate 503 extends from the telescopic groove 501 and fits against the garment fabric placed on the worktable 1. At this time, the reverse movement of the positioning pressure rod 201 drives the scraper plate 503 to move and flatten the garment fabric. Moving the positioning pressure rod 201 in the opposite direction to both ends of the garment fabric allows for automatic pressing, clamping, and positioning of garment fabrics of different sizes according to usage needs. This eliminates the need for manual pressing and positioning of the garment fabric, making operation simple, convenient, time-saving, and labor-saving, facilitating garment fabric cutting for workers and effectively improving work efficiency.
[0026] Furthermore, the static elimination mechanism 6 includes two support frames 601 and two ion air bars 602. One end of each of the two support frames 601 is fixedly connected to the side wall of the two positioning pressure rods 201, and the two ion air bars 602 are fixedly connected to the middle of the two support frames 601.
[0027] The static electricity elimination mechanism 6 also includes several dust removal bristles 603, which are uniformly distributed and fixedly connected to the bottom of the two ion air bars 602.
[0028] Based on the above embodiment, by moving the positioning pressure rod 201 in the opposite direction and opening it, the ion air bar 602, which is supported and fixed by the support frame 601, can be moved accordingly. At this time, by activating the ion air bar 602, a large number of ion air masses with positive and negative charges can be blown onto the surface of the garment fabric during the movement. The ion air masses can neutralize the static electricity ions accumulated on the surface of the garment fabric. Furthermore, by moving the ion air bar 602, the dust removal brush 603 can be moved accordingly. The dust removal brush 603 can clean and remove dust from the surface of the garment fabric. Under the action of the ion air masses, the swept-down floating dust can be directly blown away from the fabric. In this way, it is possible to neutralize and eliminate the static electricity accumulated on the garment fabric according to the needs of use, thereby facilitating the normal cutting and processing of the garment fabric.
[0029] The working principle of the garment cutting and positioning device provided by this utility model is as follows:
[0030] In use, firstly, by manually pulling up the two positioning pressure rods 201, they are lifted and rotated by the rotating frame 401 supported on the side wall of the moving block 304. At this time, the garment fabric to be cut is placed on the worktable 1. Then, the strong elastic torsion spring 402 provides a reaction force, causing the positioning pressure rods 201 to rotate and fall in the middle of the rotating frame 401. The rotation and fall of the positioning pressure rods 201 initially presses down and fixes the placed garment fabric. At the same time, depending on the size of the garment fabric, by manually turning the control knob 303, a force is provided to drive the connected bidirectional threaded rod 302 to rotate on the moving frame 301. The rotation of the bidirectional threaded rod 302 with reversed threads on the moving frame 301 causes the two moving blocks 304 connected through the threaded hole 305 to slide and open in the opposite direction on the bidirectional threaded rod 302 under the limiting force of the moving frame 301. The opening and closing of the moving blocks 304 on the bidirectional threaded rod 302 causes the positioning pressure rod 201 to follow suit and open in the opposite direction at the top of the worktable 1. Furthermore, the force provided by the spring 502 causes the scraper plate 503 connected to it to slide out from the telescopic groove 501 at the bottom of the positioning pressure rod 201. The extension of the scraper plate 503 from the telescopic groove 501 allows it to slide and extend from the worktable 1. When the garment fabric is properly fitted, the positioning pressure rod 201 moves in the opposite direction to open it, which in turn moves the scraper plate 503 to flatten and spread the garment fabric. Moving the positioning pressure rod 201 in the opposite direction to both ends of the garment fabric allows for automatic pressing, clamping, and positioning of garment fabrics of different sizes according to usage needs. This eliminates the need for manual pressing and positioning of the garment fabric, making operation simple, convenient, time-saving, and labor-saving. It also facilitates the cutting of garment fabrics by workers, effectively improving work efficiency. Furthermore, the reverse movement of the positioning pressure rod 201 further moves the ion air bar 602, which is supported and fixed by the support frame 601. When the ion bar 602 is activated, a large number of positively and negatively charged ion clusters are blown onto the surface of the garment fabric during its movement. These ion clusters neutralize the static electricity accumulated on the surface of the garment fabric. Furthermore, the movement of the ion bar 602 further drives the dust removal brush 603 to move as well. The dust removal brush 603 cleans and removes dust from the surface of the garment fabric. Under the action of the ion clusters, the swept-down dust is directly blown off the fabric. This effectively neutralizes and eliminates the static electricity accumulated on the garment fabric according to the needs of use, thereby facilitating the normal cutting and processing of the garment fabric.
[0031] The above description is merely an embodiment of this utility model and does not limit the patent scope of this utility model. Any equivalent structural or procedural transformations made based on the content of this utility model specification and drawings, or direct or indirect applications in other related technical fields, are similarly included within the patent protection scope of this utility model.
Claims
1. A garment cutting positioning device, comprising: include: Workbench (1), the top of which is provided with an adjustment and positioning mechanism (2); The adjustment and positioning mechanism (2) includes two positioning rods (201), an adjustment and moving assembly (3), a pressing assembly (4), and two leveling assemblies (5). The adjustment and moving assembly (3) is installed on the top of the workbench (1). One end of each of the two positioning rods (201) is installed on the side wall of the adjustment and moving assembly (3) through the pressing assembly (4). The two leveling assemblies (5) are respectively installed on the bottom of the two positioning rods (201). The static elimination mechanism (6) is located on the side wall of the adjustment and positioning mechanism (2) for static elimination treatment of the garment fabric.
2. A garment cutting and positioning device according to claim 1, wherein, The adjustment and movement assembly (3) includes a moving frame (301), a bidirectional threaded rod (302), a control knob (303), two moving blocks (304), and two threaded holes (305). The bottom of the moving frame (301) is fixedly connected to the top of the workbench (1). The two ends of the bidirectional threaded rod (302) are rotatably connected to the two ends of the moving frame (301). One end of the bidirectional threaded rod (302) is fixedly connected to the control knob (303) by rotating through one end of the moving frame (301). The middle parts of the two moving blocks (304) are symmetrically rotatably connected to the side wall of the bidirectional threaded rod (302) through the two threaded holes (305).
3. A garment cutting positioning device according to claim 2, wherein, The pressing assembly (4) includes two rotating frames (401) and several torsion springs (402). One end of each of the two rotating frames (401) is fixedly connected to the side wall of each of the two moving blocks (304). One end of each of the two positioning rods (201) is rotatably connected to the middle of the other end of each of the two rotating frames (401). The two ends of each of the several torsion springs (402) are fixedly connected to the side wall of each of the two rotating frames (401) and the side wall of each of the two positioning rods (201).
4. The garment cutting and positioning device of claim 1, wherein, The leveling assembly (5) includes a telescopic groove (501), several springs (502) and a scraper plate (503). The telescopic groove (501) is opened at the bottom of the positioning pressure rod (201). One end of several springs (502) is symmetrically fixedly connected to the top of the telescopic groove (501). The side wall of the scraper plate (503) is slidably connected to the side wall of the telescopic groove (501), and the top of the scraper plate (503) is fixedly connected to the other end of several springs (502).
5. The garment cutting and positioning device of claim 1, wherein, The static elimination mechanism (6) includes two support frames (601) and two ion air bars (602). One end of each of the two support frames (601) is fixedly connected to the side wall of the two positioning pressure rods (201), and the two ion air bars (602) are fixedly connected to the middle of the two support frames (601).
6. A garment cutting positioning device according to claim 5, wherein, The static electricity elimination mechanism (6) also includes a number of dust removal bristles (603), which are uniformly distributed and fixedly connected to the bottom of the two ion wind bars (602).