A tool for cutting shielding mesh

By designing a tooling for cutting shielding mesh, and using a cylinder-driven sliding column translation and guiding mechanism to achieve mechanical cutting of the shielding mesh, the waste of time and safety hazards caused by manual cutting with scissors are solved, and the cutting efficiency and stability are improved.

CN224425829UActive Publication Date: 2026-06-30SUZHOU BORDNETZE ELECTRICAL SYST LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SUZHOU BORDNETZE ELECTRICAL SYST LTD
Filing Date
2025-08-01
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

Existing cable cutting machines cannot cut shielded network cables, requiring manual cutting with scissors, which wastes time and poses safety hazards.

Method used

Design a tooling for cutting shielding mesh, comprising a tooling base plate, equipment box, sliding column, tube column, fixed upright plate and outer tube. The sliding column is driven to move horizontally by a cylinder, and combined with a guiding mechanism and a fixed pressure plate, the shielding mesh is mechanically cut.

Benefits of technology

It improves cutting efficiency, reduces wasted time and safety hazards, ensures the stability and precision of the cutting process, and enhances the versatility and safety of the tooling.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224425829U_ABST
    Figure CN224425829U_ABST
Patent Text Reader

Abstract

This utility model discloses a fixture for cutting shielding mesh, including a fixture base plate. An equipment box is fixedly installed on one side of the fixture base plate, and a stabilizing sleeve is fixedly installed on one side of the equipment box. A sliding column is slidably disposed inside the stabilizing sleeve, and a tube column is fixedly installed on one side of the sliding column. A cylinder for driving the sliding column to move horizontally is fixedly installed inside the equipment box. A fixed upright plate is fixedly installed on the other side of the fixture base plate, and an outer sleeve is fixedly installed inside the fixed upright plate. The outer sleeve and the tube column are on the same center line. This fixture enables the cutting of shielding mesh, increasing its practicality and solving the problem that shielding mesh cannot be cut on a wire cutting machine, requiring manual cutting with scissors, which is both time-consuming and poses certain safety hazards.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model relates to the field of tooling technology, specifically a tooling for cutting shielding mesh. Background Technology

[0002] In today's digital age, the internet has become the core of society, and network cables are the cornerstone of this network. In industrial environments with harsh electromagnetic conditions, such as near automated production lines, where numerous motors and frequency converters generate strong electromagnetic interference, shielded network cables are used. These cables have an added braided shielding layer that can block high-frequency electromagnetic interference, greatly improving the stability and security of network transmission.

[0003] With the rapid development of network technology and the rapid iteration of equipment, a large number of old shielded network cables have been phased out. Shielded network cables are rich in non-ferrous metals such as copper and are valuable secondary resources. Through recycling, these metals can be refined and processed again to manufacture new electronic products and electrical equipment, reducing dependence on primary mineral resources and reducing energy consumption and environmental pollution during mining and processing.

[0004] Recycling and processing shielded wire usually requires cutting the wire first. However, most wire cutting machines cannot cut the shielded wire, so it can only be cut manually with scissors, which is both time-consuming and poses certain safety hazards. Therefore, there is an urgent need in the market to develop a tool for cutting shielded wire to help people solve the existing problems. Utility Model Content

[0005] The purpose of this utility model is to provide a tooling for cutting shielding mesh, so as to solve the problem mentioned in the background art that the shielding mesh cannot be cut off on the wire cutting machine and can only be cut manually with scissors, which is both time-consuming and poses certain safety hazards.

[0006] To achieve the above objectives, this utility model provides the following technical solution: a tooling for cutting shielding mesh, comprising a tooling base plate, an equipment box fixedly installed on one side above the tooling base plate, a stabilizing sleeve fixedly installed on one side of the equipment box, a sliding column slidably disposed inside the stabilizing sleeve, a tube column fixedly installed on one side of the sliding column, a cylinder for driving the sliding column to move horizontally fixedly installed inside the equipment box, a fixed upright plate fixedly installed on the other side above the tooling base plate, an outer sleeve fixedly installed inside the fixed upright plate, and the outer sleeve and the tube column being on the same center line.

[0007] Preferably, a guide mechanism is provided below the sliding column, the guide mechanism including a guide rail, a linear slider and a connecting plate.

[0008] Preferably, the guide rail is fixedly connected to the tooling base plate, the linear slider is slidably disposed on the outside of the guide rail, the connecting plate is fixedly installed above the linear slider, and the upper end of the connecting plate is fixedly connected to the sliding column.

[0009] Preferably, a square groove is provided on one end face of the fixed upright plate along one side of the outer sleeve, a fixed pressure plate is provided at the upper part of the square groove, and a support plate is provided at the lower part of the square groove.

[0010] Preferably, a fixing screw is rotatably installed above the fixing plate, the upper end of the fixing screw is threadedly connected to the fixing plate and extends to the top of the fixing plate, and a fixing cap is fixedly installed above the fixing screw.

[0011] Preferably, a square groove two is provided on one side end face of the fixed upright plate along the lower part of the square groove one, an adjusting screw is fixedly installed on the lower part of the support plate, the lower end of the adjusting screw is threadedly connected to the fixed upright plate and extends into the interior of the square groove two, and an adjusting cap is fixedly installed on the lower part of the adjusting screw.

[0012] Preferably, reinforcing plates are symmetrically fixedly installed at the front and rear ends of one side of the fixed upright plate, and the reinforcing plates are fixedly connected to the tooling base plate. Pneumatic switches are symmetrically arranged at the front and rear ends of one side of the tooling base plate.

[0013] Compared with the prior art, the beneficial effects of this utility model are:

[0014] (1) This utility model sets up a structure such as an equipment box, a stabilizing sleeve, a sliding column, a pipe column, a fixed upright plate and an outer sleeve on the tooling base plate, and uses the cylinder in the equipment box to drive the sliding column to move horizontally, so that the pipe column and the outer sleeve cooperate to realize the mechanical cutting of the shielded wire. This design not only avoids the waste of time caused by manual cutting and improves the cutting efficiency, but also reduces the safety hazards of manual operation and increases the practicality.

[0015] (2) The utility model improves the stability and accuracy of the sliding column movement by setting the guide mechanism. The cooperation between the guide rail and the linear slider enables the sliding column to move along a fixed trajectory under the drive of the cylinder, avoiding shaking or jamming caused by lateral force, ensuring the smoothness of the cutting action. The connecting plate rigidly connects the sliding column and the slider, enhancing the rigidity of the overall structure and making the cutting process more stable and reliable.

[0016] (3) The utility model provides a stable clamping of the wire mesh through the combination structure of the fixed pressure plate and the support plate, ensuring that the wire mesh will not slip during cutting. The fixed screw adjusts the height of the pressure plate through the thread, which enhances the versatility of the tooling. Attached Figure Description

[0017] Figure 1This is a schematic diagram of the structure of a tooling for cutting shielding mesh according to the present invention;

[0018] Figure 2 This is a schematic diagram of the left side structure of the fixed upright plate of this utility model;

[0019] Figure 3 This is a schematic diagram of the right side structure of the fixed upright plate of this utility model;

[0020] Figure 4 This is a schematic diagram of the guiding mechanism of this utility model.

[0021] In the diagram: 1. Tooling base plate; 2. Equipment box; 3. Stabilizing sleeve; 4. Sliding column; 5. Pipe column; 6. Fixed vertical plate; 601. Square channel one; 602. Square channel two; 7. Outer tube; 8. Pneumatic switch; 9. Guide mechanism; 901. Guide rail; 902. Linear slider; 903. Connecting plate; 10. Reinforcing plate; 11. Fixed pressure plate; 12. Fixed screw; 13. Fixed rotating cap; 14. Support plate; 15. Adjusting screw; 16. Adjusting rotating cap. Detailed Implementation

[0022] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments.

[0023] Please see Figure 1-4 An embodiment of this utility model provides a tooling for cutting shielding mesh, including a tooling base plate 1, an equipment box 2 fixedly installed on one side above the tooling base plate 1, a stabilizing sleeve 3 fixedly installed on one side of the equipment box 2, a sliding column 4 slidably arranged inside the stabilizing sleeve 3, a tube column 5 fixedly installed on one side of the sliding column 4, a cylinder for driving the sliding column 4 to move horizontally fixedly installed inside the equipment box 2, a fixed upright plate 6 fixedly installed on the other side above the tooling base plate 1, an outer sleeve 7 fixedly installed inside the fixed upright plate 6, and the outer sleeve 7 and the tube column 5 are on the same center line.

[0024] The cylinder drives the sliding column 4 to move the tube column 5, which works in conjunction with the outer tube 7 to achieve cutting. This realizes the mechanical and automated cutting of the shielding mesh. Compared with the traditional method of manually cutting the shielding mesh with scissors, it greatly improves the cutting efficiency, saves a lot of manpower and time costs, and reduces the safety hazards such as cuts that workers may suffer from when using scissors, thus increasing its practicality.

[0025] Please see Figure 1 and Figure 4A guide mechanism 9 is provided below the sliding column 4. The guide mechanism 9 includes a guide rail 901, a linear slider 902 and a connecting plate 903. The guide rail 901 is fixedly connected to the tooling base plate 1. The linear slider 902 is slidably disposed on the outside of the guide rail 901. The connecting plate 903 is fixedly installed above the linear slider 902. The upper end of the connecting plate 903 is fixedly connected to the sliding column 4.

[0026] The guide mechanism 9 provides guidance for the movement of the sliding column 4, preventing deviation or shaking. This helps improve the accuracy of the docking between the tube column 5 and the outer tube 7, ensuring that the two can work closely together during cutting, thereby further improving the precision and quality of the cutting.

[0027] Please see Figure 3 A square groove 601 is provided on one side end face of the fixed upright plate 6 along one side of the outer sleeve 7. A fixed pressure plate 11 is provided at the upper part of the inside of the square groove 601, and a support plate 14 is provided at the lower part of the inside of the square groove 601. Both ends of the fixed pressure plate 11 and the support plate 14 are in close contact with the two sides of the square groove 601. A fixed screw 12 is rotatably installed on the upper part of the fixed pressure plate 11. The upper end of the fixed screw 12 is threadedly connected to the fixed upright plate 6 and extends to the upper part of the fixed upright plate 6. A fixed rotating cap 13 is fixedly installed on the upper part of the fixed screw 12.

[0028] After the shielding mesh is placed on the column 5, the unstripped portion of the mesh is placed on the support plate 14. By rotating the fixing cap 13, the fixing screw 12 is rotated, which in turn causes the fixing pressure plate 11 to move downward, pressing the shielding mesh tightly onto the support plate 14 to prevent movement during the cutting process and ensure the stability of the cutting.

[0029] Please see Figure 3 A square groove 602 is provided below the square groove 601 on one side end face of the fixed plate 6. An adjusting screw 15 is fixedly installed below the support plate 14. The lower end of the adjusting screw 15 is threadedly connected to the fixed plate 6 and extends into the interior of the square groove 602. An adjusting cap 16 is fixedly installed below the adjusting screw 15.

[0030] By rotating the adjusting cap 16 to drive the adjusting screw 15 to rotate, the support plate 14 can be moved up and down in the vertical direction, which makes it convenient to adjust the distance between the support plate 14 and the fixed pressure plate 11 according to the specifications of different network cables, thus improving the versatility and flexibility of the tooling.

[0031] Please see Figure 1 and Figure 2 A reinforcing plate 10 is symmetrically fixedly installed at the front and rear ends of one side of the fixed upright plate 6. The reinforcing plate 10 is fixedly connected to the tooling base plate 1. A pneumatic switch 8 is symmetrically installed at the front and rear ends of one side of the tooling base plate 1. The pneumatic switch 8 is electrically connected to the external control terminal of the tooling.

[0032] The symmetrical arrangement of the reinforcing plate 10 enhances the overall rigidity and vibration resistance of the fixed upright plate 6, preventing deformation or loosening of the upright plate due to stress during the cutting process and ensuring long-term stability. The two pneumatic switches 8 are set as dual manual switches, which improves the safety of use.

[0033] Working principle: In use, the outer sheath of the network cable end is peeled off and the shielding mesh is shrunken. The internal wire core is cut off. Then, the exposed end of the shielding mesh is passed through the outer tube 7 and put on the tube post 5. At the same time, the unpeeled part of the network cable is placed on the support plate 14. The fixed pressure plate 11 is pressed down to fix the network cable by rotating the fixed cap 13. Then, the drive cylinder pushes the slide column 4 to move smoothly along the guide mechanism 9, driving the tube post 5 to be accurately pushed towards the outer tube 7. The shielding mesh is cut by the coaxial squeezing action of the tube post 5 and the outer tube 7.

[0034] It will be apparent to those skilled in the art that this invention is not limited to the details of the exemplary embodiments described above, and that it can be implemented in other specific forms without departing from the spirit or essential characteristics of this invention. Therefore, the embodiments should be considered illustrative and non-limiting in all respects, and the scope of this invention is defined by the appended claims rather than the foregoing description. Thus, it is intended that all variations falling within the meaning and scope of equivalents of the claims be included within this invention. No reference numerals in the claims should be construed as limiting the scope of the claims.

Claims

1. A tool for cutting a shielding net, comprising a tool base plate (1), characterized in that: An equipment box (2) is fixedly installed on one side above the tooling base plate (1). A stabilizing sleeve (3) is fixedly installed on one side of the equipment box (2). A sliding column (4) is slidably arranged inside the stabilizing sleeve (3). A pipe column (5) is fixedly installed on one side of the sliding column (4). A cylinder for driving the sliding column (4) to move is fixedly installed inside the equipment box (2). A fixed upright plate (6) is fixedly installed on the other side above the tooling base plate (1). An outer sleeve (7) is fixedly installed inside the fixed upright plate (6). The outer sleeve (7) and the pipe column (5) are on the same center line.

2. The tooling for cutting a shielding net according to claim 1, wherein: A guide mechanism (9) is provided below the slide column (4), and the guide mechanism (9) includes a guide rail (901), a linear slider (902), and a connecting plate (903).

3. The tooling for cutting a shielding net according to claim 2, wherein: The guide rail (901) is fixedly connected to the tooling base plate (1), the linear slider (902) is slidably disposed on the outside of the guide rail (901), the connecting plate (903) is fixedly installed above the linear slider (902), and the upper end of the connecting plate (903) is fixedly connected to the sliding column (4).

4. The tooling for cutting a shielding net according to claim 1, wherein: A square groove (601) is provided on one side end face of the fixed upright plate (6) along one side of the outer sleeve (7). A fixed pressure plate (11) is provided above the inside of the square groove (601), and a support plate (14) is provided below the inside of the square groove (601).

5. The tooling for cutting a shielding net according to claim 4, wherein: A fixing screw (12) is rotatably installed above the fixing plate (11). The upper end of the fixing screw (12) is threadedly connected to the fixing plate (6) and extends to the top of the fixing plate (6). A fixing cap (13) is fixedly installed above the fixing screw (12).

6. The tooling for cutting a shielding net according to claim 5, wherein: A square groove 2 (602) is provided on one side end face of the fixed plate (6) below the square groove 1 (601). An adjusting screw (15) is fixedly installed below the support plate (14). The lower end of the adjusting screw (15) is threadedly connected to the fixed plate (6) and extends into the interior of the square groove 2 (602). An adjusting cap (16) is fixedly installed below the adjusting screw (15).

7. The tooling for cutting a shielding net according to claim 6, wherein: A reinforcing plate (10) is symmetrically fixedly installed at the front and rear ends of one side of the fixed upright plate (6). The reinforcing plate (10) is fixedly connected to the tooling base plate (1). A pneumatic switch (8) is symmetrically installed at the front and rear ends of one side of the tooling base plate (1).