An improved mesh fabric cutting tool
By improving the positioning plate and clamping structure design of the mesh cutting tool, the problems of low cutting accuracy and uneven edges in mesh cutting are solved, and the stability and efficiency of cutting are improved, making it suitable for the simple cutting needs of small and medium-sized enterprises.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHENQIU COUNTY CHIGU TRADING CO LTD
- Filing Date
- 2025-08-29
- Publication Date
- 2026-07-03
Smart Images

Figure CN224451216U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of fabric cutting tools, and in particular to an improved mesh fabric cutting tool. Background Technology
[0002] Currently, mesh fabric cutting is widely used in industries such as textiles, printing, and packaging. Common cutting tools include manual scissors, electric fabric cutting machines, and semi-automatic cutting tables. Manual scissors are flexible to operate but inefficient, suitable for small-batch, low-precision operations. Electric fabric cutting machines increase cutting speed, but the equipment is large, expensive, and requires a high-quality operating environment. Semi-automatic cutting tables use guide rails and fixing devices to position and cut the mesh fabric, but their structure is complex, installation and debugging are time-consuming, and cutting accuracy is easily reduced due to mesh fabric slippage or cutter deviation during the cutting process. In actual production, especially in small and medium-sized enterprises, simple cutting tools are still commonly used, with mesh fabric cutting completed manually by positioning and hand-held operation.
[0003] In traditional mesh cutting, operators often need to hold the mesh and cutting tools by hand. Due to the lack of effective fixing devices, the mesh is prone to slipping or shifting during the cutting process, resulting in inaccurate cutting paths and uneven edges. This seriously affects product quality and the accuracy of subsequent processes. The error is even more significant when cutting multiple layers or multiple pieces of mesh at the same time, increasing rework rate and material waste.
[0004] To address the above problems, an improved mesh fabric cutting tool needs to be designed to overcome them. Utility Model Content
[0005] The main objective of this invention is to provide an improved mesh fabric cutting tool that can effectively solve the problems in the background art.
[0006] To achieve the above objectives, the technical solution adopted by this utility model is as follows:
[0007] An improved mesh fabric cutting tool includes a first positioning plate and a second positioning plate. Both the first and second positioning plates have through holes, and the number of through holes in both the first and second positioning plates is three. An auxiliary plate is fixedly installed between the first and second positioning plates. The auxiliary plate has second positioning holes, and the number of second positioning holes is five.
[0008] As a preferred embodiment of this utility model, a first L-shaped clamping plate is placed on the upper side of the first positioning plate, and a second L-shaped clamping plate is placed on the upper side of the second positioning plate.
[0009] As a preferred embodiment of this utility model, the first L-shaped clamping plate and the second L-shaped clamping plate are respectively provided with a first positioning hole and a round hole.
[0010] As a preferred embodiment of this utility model, the number of the first positioning holes is three sets, and the positions of the three sets of the first positioning holes are far away from the position of the circular hole.
[0011] As a preferred embodiment of this utility model, an anti-slip ring is fixedly installed on one side of the outer wall of the circular hole, and a rope-tying square ring is installed inside the circular hole and the anti-slip ring.
[0012] As a preferred embodiment of this utility model, a blade mounting shell is tightly attached to one side of the outer wall of the auxiliary plate, and a cutting blade is fixedly installed inside the blade mounting shell.
[0013] As a preferred embodiment of this utility model, an anti-slip clamping strip is attached to the inner side of the blade mounting shell near the tip of the cutting blade. Two sets of anti-slip clamping strips are provided, and threaded rods are installed in the through hole, the first positioning hole, and the second positioning hole.
[0014] As a preferred embodiment of this utility model, threaded caps are threaded to both ends of the threaded rod, and an anti-slip pad is sleeved on the outer wall of the threaded rod located on one side of the threaded cap.
[0015] Beneficial effects
[0016] Compared with the prior art, the present invention has the following beneficial effects:
[0017] 1. In this utility model, an improved mesh fabric cutting tool is designed. By utilizing the combined design of the first positioning plate, the second positioning plate, and the auxiliary plate, along with the fastening structure of the through hole, the second positioning hole, the threaded rod, and the threaded cap, the rapid assembly of each component is achieved. The symmetrical layout of the first L-shaped clamping plate and the second L-shaped clamping plate, combined with the symmetrical layout of the first positioning plate and the second positioning plate, effectively prevents the mesh fabric from sliding or shifting during the cutting process. The structure is simple and easy to operate. Compared with the traditional handheld scissors cutting method, it effectively improves the neatness of the cutting edge and the cutting speed.
[0018] 2. In this utility model, an improved mesh fabric cutting tool is designed. The cutting blade is double-fixed by the blade mounting shell and the anti-slip clamping strip to ensure that the blade does not loosen or shift during the cutting process, thus extending the service life of the blade. The design of the blade mounting shell closely attached to the outer wall of the auxiliary plate makes the contact angle between the blade and the mesh fabric stable, and the cutting process is smooth and without jamming, further ensuring the cutting quality. Attached Figure Description
[0019] Figure 1 This is a schematic diagram of the structure of the first positioning plate and the first L-shaped clamping plate of this utility model;
[0020] Figure 2This is an exploded structural diagram of the first positioning plate and the first L-shaped clamping plate of this utility model;
[0021] Figure 3 This is a schematic diagram of the structure of the blade mounting shell and the cutting blade of this utility model;
[0022] Figure 4 This is a side view of the first positioning plate and the second positioning plate of this utility model.
[0023] In the diagram: 1. First positioning plate; 2. Second positioning plate; 3. First L-shaped clamping plate; 4. Second L-shaped clamping plate; 5. Round hole; 6. Anti-slip ring; 7. Tie rope square ring; 8. Through hole; 9. Auxiliary plate; 10. Threaded rod; 11. First positioning hole; 12. Second positioning hole; 13. Threaded cap; 14. Anti-slip pad; 15. Blade mounting shell; 16. Anti-slip clamping strip; 17. Cutting blade. Detailed Implementation
[0024] To make the technical means, creative features, objectives and effects of this utility model easier to understand, the present utility model will be further described below in conjunction with specific embodiments.
[0025] like Figure 1-4 As shown, an improved mesh fabric cutting tool includes a first positioning plate 1 and a second positioning plate 2. Both the first positioning plate 1 and the second positioning plate 2 have through holes 8. The number of through holes 8 in both the first positioning plate 1 and the second positioning plate 2 is three sets. An auxiliary plate 9 is fixedly installed between the first positioning plate 1 and the second positioning plate 2. The auxiliary plate 9 has second positioning holes 12. The number of second positioning holes 12 is five sets.
[0026] Please see the appendix Figure 1 Appendix Figure 2 and attached Figure 3 As shown, a first L-shaped clamping plate 3 is placed on the upper side of the first positioning plate 1, and a second L-shaped clamping plate 4 is placed on the upper side of the second positioning plate 2. The first L-shaped clamping plate 3 and the second L-shaped clamping plate 4 are respectively provided with a first positioning hole 11 and a round hole 5. There are three sets of first positioning holes 11, positioned away from the round hole 5. An anti-slip ring 6 is fixedly installed on one outer wall of the round hole 5. A rope-tying square ring 7 is installed inside the round hole 5 and the anti-slip ring 6. An auxiliary plate 9... A blade mounting shell 15 is tightly attached to the outer side wall. A cutting blade 17 is fixedly installed inside the blade mounting shell 15. An anti-slip clamping strip 16 is attached to the inner side of the blade mounting shell 15 near the tip of the cutting blade 17. There are two sets of anti-slip clamping strips 16. Threaded rods 10 are installed in the through hole 8, the first positioning hole 11 and the second positioning hole 12. Threaded caps 13 are threaded to both ends of the threaded rods 10. An anti-slip pad 14 is sleeved on the outer wall of the threaded rods 10 located on the side of the threaded cap 13.
[0027] Among them, after each component is aligned with the second positioning hole 12 through the through hole 8 and the second positioning hole 12, and the first positioning hole 11 and the second positioning hole 12, it can be quickly fixed with only the threaded rod 10 and the threaded cap 13. The installation and disassembly process is simple and efficient, without the need for professional tools or complicated adjustments. The setting of the rope square ring and anti-slip ring makes it easy for the operator to pull the tool with the rope for cutting, reducing the labor intensity of manual hand-held operation.
[0028] This tool features a simple structure and compact size, making it suitable for cutting mesh fabrics of different thicknesses and materials. It also eliminates the need for electricity or large equipment, thus reducing the requirements for the production environment.
[0029] The working process of this utility model is as follows: When using the improved mesh fabric cutting tool designed in this scheme, firstly, the mesh fabric cutting tool needs to be assembled. Assembly involves aligning the second positioning hole 12 on the lower side of the auxiliary plate 9 with the two sets of through holes 8 at the lower rear end of the first positioning plate 1. Then, the second positioning plate 2 is placed on one side of the auxiliary plate 9, with the two sets of through holes 8 at the lower rear end of the second positioning plate 2 also aligned with the second positioning hole 12 on the lower side of the auxiliary plate 9. The threaded rod 10 is then inserted through the aligned through holes 8 and the second positioning... Hole 12, secured to both ends of threaded rod 10 via threaded cap 13 and anti-slip pad 14, thus fixing the first positioning plate 1, second positioning plate 2, and auxiliary plate 9. Then, the cutting blade 17 is installed inside the blade mounting housing 15. Next, the installed cutting blade 17 is snapped into one side of auxiliary plate 9, with the outer wall of blade mounting housing 15 tightly against the outer wall of auxiliary plate 9. Simultaneously, the first L-shaped clamping plate 3 and the second L-shaped clamping plate 4 are placed on either side of the upper outer wall of auxiliary plate 9, with the first L-shaped clamping plate... 3. The first positioning hole 11 of the second L-shaped clamping plate 4 is aligned with the second positioning hole 12 on the upper side of the auxiliary plate 9. Then, the first L-shaped clamping plate 3, the auxiliary plate 9, and the second L-shaped clamping plate 4 are fixed by the threaded rod 10, the threaded cap 13, and the anti-slip pad 14, thereby clamping and fixing the position of the cutting blade 17 to prevent it from shifting. By installing the rope-tying square ring 7 at the round hole 5 of the first L-shaped clamping plate 3 and the second L-shaped clamping plate 4, it is convenient for people to tie the rope to the rope-tying square ring 7. The design facilitates easy pulling during cutting. After installation, the mesh is clamped between the first positioning plate 1, the second positioning plate 2, the first L-shaped clamping plate 3, and the second L-shaped clamping plate 4. People can move the mesh by pulling the rope connected to the square ring 7. During the movement, the first L-shaped clamping plate 3, the second L-shaped clamping plate 4, the first positioning plate 1, and the second positioning plate 2 move, which simultaneously drives the cutting blade 17 to cut along the mesh. The structure is simple and facilitates easy cutting of the mesh.
[0030] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.
Claims
1. An improved webbing cutting tool comprising a first positioning plate (1) and a second positioning plate (2), characterized in that: Both the first positioning plate (1) and the second positioning plate (2) are provided with through holes (8). The number of through holes (8) provided by the first positioning plate (1) and the second positioning plate (2) is three. An auxiliary plate (9) is fixedly installed between the first positioning plate (1) and the second positioning plate (2). The auxiliary plate (9) is provided with second positioning holes (12). The number of second positioning holes (12) is five.
2. The improved webbing cutting tool of claim 1 wherein: A first L-shaped clamping plate (3) is placed on the upper side of the first positioning plate (1), and a second L-shaped clamping plate (4) is placed on the upper side of the second positioning plate (2).
3. The improved mesh fabric cutting tool according to claim 2, characterized in that: The first L-shaped clamping plate (3) and the second L-shaped clamping plate (4) are respectively provided with a first positioning hole (11) and a round hole (5).
4. The improved webbing cutting tool of claim 3 wherein: The number of the first positioning holes (11) is three sets, and the positions of the three sets of the first positioning holes (11) are far away from the position of the circular hole (5).
5. The improved webbing cutting tool of claim 4 wherein: An anti-slip ring (6) is fixedly installed on one side of the outer wall of the circular hole (5), and a rope-tying square ring (7) is installed inside the circular hole (5) and the anti-slip ring (6).
6. The improved webbing cutting tool of claim 5 wherein: The auxiliary plate (9) has a blade mounting shell (15) attached to one side of its outer wall, and a cutting blade (17) is fixedly installed inside the blade mounting shell (15).
7. The improved webbing cutting tool of claim 6 wherein: An anti-slip clamping strip (16) is attached to the inner side of the blade mounting shell (15) near the tip of the cutting blade (17). Two sets of the anti-slip clamping strip (16) are provided. Threaded rods (10) are installed in the through hole (8), the first positioning hole (11) and the second positioning hole (12).
8. The improved webbing cutting tool of claim 7 wherein: The two ends of the threaded rod (10) are respectively threaded with threaded caps (13), and the outer wall of the threaded rod (10) located on the side of the threaded cap (13) is fitted with an anti-slip pad (14).