A cutting work platform for clothing design

By employing components for automatic positioning, straightening, and precise cutting on the garment design cutting platform, the problem of fabric misalignment during cutting is solved, achieving efficient and precise cutting results.

CN224451225UActive Publication Date: 2026-07-03SHANGHAI JUANRAN CLOTHING CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANGHAI JUANRAN CLOTHING CO LTD
Filing Date
2025-09-02
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

Existing apparel design platforms require manual operation during cutting, which can easily lead to fabric misalignment and affect the cutting efficiency and accuracy of beginners.

Method used

The system employs components such as an outer end block, a first lead screw, a four-sided slider, an electric rotating seat, a hydraulic telescopic rod, and a pneumatic clamp to achieve automatic positioning and straightening of the fabric, and precise cutting through a condenser lens and a projection cutter head.

Benefits of technology

It improves the automation level of cutting, reduces the burden on users, and enhances the accuracy and efficiency of cutting.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224451225U_ABST
    Figure CN224451225U_ABST
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Abstract

This utility model provides a cutting platform for clothing design, relating to the field of clothing design technology. It includes a control projection mounting component and a positioning and straightening component. The positioning and straightening component is arranged around the outer periphery of the control projection mounting component, and a cutting mechanism is provided at the output end of the control projection mounting component. The positioning and straightening component includes an outer end block, a first lead screw, a square slider, an electric rotating seat, a hydraulic telescopic rod, an electric rotating frame, a lower clamping plate, and a pneumatic clamping plate. The outer end block is located around the outer periphery of the control projection mounting component. This utility model mainly utilizes the first lead screw, square slider, electric rotating seat, and hydraulic telescopic rod on the outer end block to position and straighten the fabric via the lower clamping plate and pneumatic clamping plate after output operation. This allows for precise cutting and shaping using a focusing lens and projection cutter head following a planned path, resulting in a high degree of automation, low user burden, and high precision processing.
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Description

Technical Field

[0001] This utility model relates to the field of clothing design technology, and in particular to a cutting work platform for clothing design. Background Technology

[0002] Fashion design belongs to the category of arts and crafts. It is an art form that combines practicality and artistry. Design means planning, conception, and setting up a plan. It also includes imagery, drawing, and modeling. The definition of fashion design is creative planning and creation that solves various problems in people's clothing and life system. Clothing cutting refers to the clothing production process of turning fabric into garment pieces through technical cutting. It covers the entire process from drawing to cutting and is the core process of the clothing industry. It must meet the requirements of size accuracy, fit, and appearance.

[0003] Existing cutting platforms primarily rely on designers using pattern-making techniques, including manual drafting and computer-aided design (CAD) digital pattern creation, to adapt and process fabrics using scissors, chalk, electric shears, and hole punches to create the desired product. However, in existing technologies, manual operation is required during cutting, and the elastic deformation of the fabric during cutting can easily lead to misalignment, often resulting in failures for beginners and impacting design and cutting efficiency. Therefore, this invention proposes a cutting platform for clothing design to address the problems existing in the prior art. Utility Model Content

[0004] To address the aforementioned problems, this utility model proposes a cutting platform for garment design. This cutting platform mainly utilizes a first lead screw, a four-sided slider, an electric rotating seat, and a hydraulic telescopic rod on the outer end block. After output operation, the lower clamping plate and pneumatic clamping plate position and straighten the fabric. Then, by using a condenser lens and a projection cutter head to run along a planned route, it can accurately cut and shape the fabric. It has the advantages of high automation, low user burden, and high precision processing.

[0005] To achieve the purpose of this utility model, the utility model is implemented through the following technical solution: a cutting work platform for clothing design, including a control projection mounting component and a positioning and straightening component, wherein the positioning and straightening component is provided on the outer periphery of the control projection mounting component, and a cutting mechanism is provided at the output end of the control projection mounting component;

[0006] The positioning and straightening component includes an outer end block, a first lead screw, a square slider, an electric rotating seat, a hydraulic telescopic rod, an electric rotating frame, a lower clamp, and a pneumatic clamp. The outer end block is disposed around the outer periphery of the control projection mounting assembly. The output end of the outer end block is provided with a first lead screw, and the first lead screw is threadedly connected to a square slider. An electric rotating seat is disposed above the square slider, and the output end of the electric rotating seat is provided with a hydraulic telescopic rod. An electric rotating frame is disposed on the inner side of one end of the hydraulic telescopic rod. A lower clamp is disposed on the output end of the electric rotating frame, and a pneumatic clamp is disposed on the inner top side of the lower clamp.

[0007] In a preferred embodiment of this utility model, the electric rotating seat and the electric rotating frame are symmetrically and parallelly distributed about the central axis of the hydraulic telescopic rod.

[0008] In a preferred embodiment of the present invention, the control projection mounting assembly includes a pad, a tool cabinet, a slotted base, and a mounting platform. The tool cabinet is disposed above the pad, and the slotted base is disposed above the tool cabinet. The mounting platform is disposed on the inner side of the slotted base.

[0009] In a preferred embodiment of this utility model, the control projection mounting assembly further includes a bolt side frame, a crossbar frame, a control panel, a hoisting beam, and a projection lamp. The outer side of the tool cabinet is provided with a bolt side frame, and the outer side of the bolt side frame is bolted to a crossbar frame for mounting the control panel. The top of the bolt side frame is provided with a hoisting beam for mounting the projection lamp.

[0010] In a preferred embodiment of the present invention, the cutting mechanism includes a second lead screw assembly, a first slider, a base groove, a third lead screw assembly, and a second slider. The second lead screw assembly is provided on the inner sides of both ends of the slotted base. The second lead screw assembly is threadedly connected to the first slider, and a base groove is provided above the first slider. The second slider is threadedly connected to the base groove through the third lead screw assembly.

[0011] In a preferred embodiment of the present invention, the cutting mechanism further includes a cylinder, a telescopic rod, a lifting sleeve, a condenser lens, and a projection blade. A cylinder is provided on the inner side of one end of the second slider, and a telescopic rod is provided on the output end of the cylinder. A lifting sleeve is provided below the telescopic rod, and a condenser lens is provided on the inner side of one end of the lifting sleeve. A projection blade is provided on the output end of the condenser lens.

[0012] The beneficial effects of this utility model are as follows:

[0013] This utility model mainly utilizes the first lead screw, square slider, electric rotating seat, and hydraulic telescopic rod on the outer end block to position and straighten the lower clamping plate and pneumatic clamping plate after output operation. In this way, the fabric can be accurately cut and shaped after the condenser lens and projection cutter head run along the planned route. It has the advantages of high automation, low user burden, and high precision processing. Attached Figure Description

[0014] Figure 1 This is a three-dimensional structural diagram of the present invention;

[0015] Figure 2 This is a bottom-view three-dimensional structural diagram of the present invention;

[0016] Figure 3 This is a three-dimensional structural diagram of the positioning and straightening component of this utility model;

[0017] Figure 4 This is a three-dimensional structural diagram of the cutting mechanism of this utility model.

[0018] The components include: 1. Control projection mounting assembly; 101. Pad block; 102. Tool cabinet; 103. Slotted base; 104. Mounting platform; 105. Bolt side frame; 106. Horizontal bar frame; 107. Control panel; 108. Lifting beam; 109. Projection lamp; 2. Positioning and straightening components; 201. Outer end block; 202. First lead screw; 203. Square slider; 204. Electric rotating seat; 205. Hydraulic telescopic rod; 206. Electric rotating frame; 207. Lower clamp; 208. Pneumatic clamp; 3. Cutting mechanism; 301. Second lead screw assembly; 302. First slider; 303. Base groove; 304. Third lead screw assembly; 305. Second slider; 306. Cylinder; 307. Telescopic rod; 308. Lifting sleeve; 309. Condenser lens; 3010. Projection cutter head. Detailed Implementation

[0019] To deepen the understanding of this utility model, the following detailed description will be provided in conjunction with embodiments. These embodiments are only used to explain this utility model and do not constitute a limitation on the scope of protection of this utility model.

[0020] according to Figure 1-4 As shown, this embodiment proposes a cutting work platform for clothing design, including a control projection mounting component 1 and a positioning and straightening component 2. The positioning and straightening component 2 is provided on the outer periphery of the control projection mounting component 1, and a cutting mechanism 3 is provided at the output end of the control projection mounting component 1.

[0021] The positioning and straightening component 2 includes an outer end block 201, a first lead screw 202, a square slider 203, an electric rotating seat 204, a hydraulic telescopic rod 205, an electric rotating frame 206, a lower clamp 207, and a pneumatic clamp 208. The outer end block 201 is located on the outer periphery of the control projection mounting component 1. The output end of the outer end block 201 is provided with the first lead screw 202, and the first lead screw 202 is threadedly connected to the square slider 203. The electric rotating seat 204 is located above the square slider 203, and the output end of the electric rotating seat 204 is provided with the hydraulic telescopic rod 205. The inner side of one end of the hydraulic telescopic rod 205 is provided with the electric rotating frame 206. The output end of the electric rotating frame 206 is provided with the lower clamp 207, and the inner top side of the lower clamp 207 is provided with the pneumatic clamp 208.

[0022] The electric rotating seat 204 and the electric rotating frame 206 are symmetrically and parallelly distributed about the central axis of the hydraulic telescopic rod 205.

[0023] In this embodiment, the lower clamping plate 207 at the output end of the electric rotating frame 206, in conjunction with the pneumatic clamping plate 208, clamps and positions the four corners of the fabric. Then, the first lead screw 202 is used to drive the square slider 203 to move the electric rotating seat 204 to a suitable position. After the electric rotating seat 204, the hydraulic telescopic rod 205, and the electric rotating frame 206 are in operation, the fabric is stretched and positioned.

[0024] The control projection mounting assembly 1 includes a pad 101, a tool cabinet 102, a slotted base 103, and a mounting platform 104. The tool cabinet 102 is located above the pad 101, and the slotted base 103 is located above the tool cabinet 102. The mounting platform 104 is located on the inner side of the slotted base 103.

[0025] In this embodiment, when in use, the fabric to be placed is placed flat using the slotted base 103 and mounting platform 104 above the tool cabinet 102.

[0026] The control projection mounting assembly 1 also includes a bolt side frame 105, a crossbar frame 106, a control panel 107, a hoisting beam 108, and a projection lamp 109. The bolt side frame 105 is provided on the outer side of the tool cabinet 102, and the crossbar frame 106 for mounting the control panel 107 is bolted to the outer side of the bolt side frame 105. The hoisting beam 108 for mounting the projection lamp 109 is provided at the top of the bolt side frame 105.

[0027] In this embodiment, after operating the control panel 107 on the outer side of one end of the crossbar 106, the output command is input to the projection lamp 109 on the hoisting beam 108, which outputs a projection beam onto the fabric to form a projected image of the cutting state.

[0028] The cutting mechanism 3 includes a second lead screw assembly 301, a first slider 302, a base groove 303, a third lead screw assembly 304, and a second slider 305. The second lead screw assembly 301 is provided on the inner side of both ends of the slotted base 103. The second lead screw assembly 301 is threadedly connected to the first slider 302, and the base groove 303 is provided above the first slider 302. The second slider 305 is threadedly connected to the base groove 303 through the third lead screw assembly 304.

[0029] In this embodiment, when cutting is required, the second lead screw assembly 301 is used to drive the first slider 302 to a suitable position. Then, the output end on the base groove 303 is used to drive the third lead screw assembly 304 to drive the second slider 305 to a suitable position.

[0030] The cutting mechanism 3 also includes a cylinder 306, a telescopic rod 307, a lifting sleeve 308, a condenser lens 309, and a projection cutter head 3010. The cylinder 306 is provided on the inner side of one end of the second slider 305, and the telescopic rod 307 is provided on the output end of the cylinder 306. The lifting sleeve 308 is provided below the telescopic rod 307. The condenser lens 309 is provided on the inner side of one end of the lifting sleeve 308, and the projection cutter head 3010 is provided on the output end of the condenser lens 309.

[0031] In this embodiment, when cutting is required, the output end of the cylinder 306 is used to operate, which causes the telescopic rod 307 to extend and retract, and then drives the lifting sleeve 308 to adjust to a suitable height position. After the movement of the running trajectory, the condenser lens 309 is output and operated, which causes the projection cutter head 3010 to cut and shape the fabric.

[0032] The working principle of this garment design cutting platform is as follows: During use, the fabric to be placed is laid flat on the slotted base 103 and mounting platform 104 above the tool cabinet 102. The lower clamping plate 207 at the output end of the electric rotating frame 206, in conjunction with the pneumatic clamping plate 208, clamps and positions the four corners of the fabric. Then, the first lead screw 202 drives the square slider 203 to move the electric rotating seat 204 to a suitable position. After the electric rotating seat 204, hydraulic telescopic rod 205, and electric rotating frame 206 operate, the fabric is stretched and positioned. Operation commands are output using the control panel 107 on the outer side of one end of the horizontal bar frame 106. The projection lamp 109 on the hoisting beam 108 outputs a projection beam onto the fabric to form a projection image of the cutting state. When cutting is required, the second lead screw group 301 is used to drive the first slider 302 to a suitable position. Then, the output end on the base groove 303 is used to drive the third lead screw group 304 to drive the second slider 305 to a suitable position. When cutting is required, the output end of the cylinder 306 is used to drive the telescopic rod 307 to extend and retract, thereby driving the lifting sleeve 308 to adjust to a suitable height position. After the movement along the running trajectory, the condenser lens 309 is used to drive the projection cutter head 3010 to cut and shape the fabric.

[0033] 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. The scope of protection of this utility model is defined by the appended claims and their equivalents.

Claims

1. A cutting work platform for garment design, comprising a control projection assembly (1) and a positioning stretching component (2), characterized in that: The control projection mounting component (1) is provided with positioning and straightening components (2) on its outer periphery, and the output end of the control projection mounting component (1) is provided with a cutting mechanism (3). The positioning and straightening component (2) includes an outer end block (201), a first lead screw (202), a square slider (203), an electric rotating seat (204), a hydraulic telescopic rod (205), an electric rotating frame (206), a lower clamp (207), and a pneumatic clamp (208). The outer end block (201) is disposed on the outer periphery of the control projection mounting assembly (1). The output end of the outer end block (201) is provided with a first lead screw (202), and the first lead screw (204) is disposed on the outer periphery of the control projection mounting assembly (1). 02) A four-sided slider (203) is threadedly connected. An electric rotating seat (204) is provided above the four-sided slider (203). A hydraulic telescopic rod (205) is provided at the output end of the electric rotating seat (204). An electric rotating frame (206) is provided on the inner side of one end of the hydraulic telescopic rod (205). A lower clamp (207) is provided at the output end of the electric rotating frame (206). A pneumatic clamp (208) is provided on the inner top side of the lower clamp (207).

2. The cutting work platform for designing a garment according to claim 1, wherein: The electric rotating seat (204) and the electric rotating frame (206) are symmetrically parallel to each other about the central axis of the hydraulic telescopic rod (205).

3. The cutting work platform for designing a garment according to claim 1, wherein: The control projection mounting assembly (1) includes a pad (101), a tool cabinet (102), a slotted base (103), and a mounting platform (104). The tool cabinet (102) is located above the pad (101), and the slotted base (103) is located above the tool cabinet (102). The mounting platform (104) is located above the inner side of the slotted base (103).

4. The cutting work platform for designing a garment according to claim 3, wherein: The control projection mounting assembly (1) also includes a bolt side frame (105), a crossbar frame (106), a control panel (107), a hoisting beam (108), and a projection lamp (109). The tool cabinet (102) is provided with a bolt side frame (105) on its outer side, and the outer side of the bolt side frame (105) is bolted to a crossbar frame (106) for mounting the control panel (107). The top of the bolt side frame (105) is provided with a hoisting beam (108) for mounting the projection lamp (109).

5. The cutting work platform for designing a garment according to claim 3, wherein: The cutting mechanism (3) includes a second lead screw assembly (301), a first slider (302), a base groove (303), a third lead screw assembly (304), and a second slider (305). The inner sides of both ends of the slotted base (103) are provided with the second lead screw assembly (301). The second lead screw assembly (301) is threadedly connected to the first slider (302), and a base groove (303) is provided above the first slider (302). The second slider (305) is threadedly connected to the base groove (303) through the third lead screw assembly (304).

6. A cutting table for garment design according to claim 5, wherein: The cutting mechanism (3) also includes a cylinder (306), a telescopic rod (307), a lifting sleeve (308), a condenser lens (309), and a projection blade (3010). A cylinder (306) is provided on the inner side of one end of the second slider (305), and a telescopic rod (307) is provided on the output end of the cylinder (306). A lifting sleeve (308) is provided below the telescopic rod (307), and a condenser lens (309) is provided on the inner side of one end of the lifting sleeve (308). A projection blade (3010) is provided on the output end of the condenser lens (309).