A woven mesh tube with a spreader guard
By attaching anti-spreading components to the braided mesh tube body and fixing it with mechanical interlocking or quick-drying glue, the problem of easy loosening at the ends of traditional braided mesh tubes is solved, enabling convenient length cutting and firm end fixing, thus improving operational efficiency and versatility.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HUIZHOU GUSHANG TECHNOLOGY CO LTD
- Filing Date
- 2025-07-24
- Publication Date
- 2026-06-09
AI Technical Summary
Traditional braided mesh tubes are prone to loosening at the ports, easily coming undone during installation, making them inconvenient to operate and lacking versatility.
Multiple anti-spreading components are fitted onto the braided mesh tube body. The anti-spreading components include fixing parts and clamping parts, which are connected by easy-break parts and are set in opposite directions. They are fixed by mechanical interlocking of annular grooves and annular inserts or by quick-drying glue to achieve a firm fixation of the braided mesh tube port.
It achieves reliable fixation of the braided mesh tube port, improves operational convenience and versatility, avoids the limitations of adhesives, adapts to different length requirements, and simplifies the operation procedure.
Smart Images

Figure CN224342856U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of protective sleeve technology, specifically relating to a braided mesh tube for preventing fraying. Background Technology
[0002] Anti-fraying braided duct is a tightly woven and structurally robust duct widely used for the protection of electronic equipment, wires, and optical fibers. It features a tight braided structure, strong tensile and compressive strength, and is not easily deformed or fraying. It also has high surface hardness, excellent wear resistance, and a long service life. Furthermore, this duct possesses good flame-retardant properties, which can slow the spread of fire in emergencies such as fires. However, traditional braided ducts, due to structural limitations, are prone to loosening at the ends and fraying during installation, causing inconvenience to operators and potentially requiring rework.
[0003] Chinese utility model patent CN221125573U relates to the field of protective sleeve technology and discloses a braided mesh tube for preventing fraying. It comprises a braided mesh tube body and an anti-fraying adhesive film. The anti-fraying adhesive film is disposed inside the braided mesh tube body, which is formed by a braiding mechanism to create a cross-woven main structure. The anti-fraying adhesive film is a port anti-fraying layer. Adhesive and braided mesh tube form an adhesive film at the port, which is evenly distributed at the port's wire-to-wire overlap points. It is cured at room temperature or high temperature to form an adhesive film structure. The adhesive film adheres to the port and has an anti-fraying function. The anti-fraying adhesive film is cured 1-2 cm from the port of the braided mesh tube body by dipping in adhesive. In this utility model, the port is treated with a special adhesive to achieve the anti-fraying function, effectively preventing the end of the braided mesh tube from fraying when threading large-diameter wire harnesses or pipes, simplifying the operation procedure and saving costs. However, the length of the braided mesh tube body is fixed and cannot be arbitrarily cut, resulting in poor versatility. Utility Model Content
[0004] The purpose of this utility model is to provide a braided mesh tube with anti-spillage to solve the problems mentioned in the background art.
[0005] To achieve the above objectives, this utility model provides the following technical solution: a braided mesh tube for preventing scattering, comprising a braided mesh tube body, wherein the braided mesh tube body is sleeved with a plurality of anti-scattering components, the anti-scattering components being arranged in opposite directions, each anti-scattering component including a fixing member and a clamping member, the fixing member being fixedly connected to the clamping member through a breakable member, both the fixing member and the clamping member having tube holes, the fixing member having an annular groove, and the clamping member having an annular insertion portion.
[0006] Preferably, a glue bladder is fixedly installed at the bottom of the annular groove, the glue bladder stores quick-drying glue, and the annular insertion part is fixedly connected to the needle.
[0007] Preferably, the needle is made of stainless steel, and the annular insert is fixedly connected to the needle by an insert injection molding process.
[0008] Preferably, both the fixing member and the insertion member have anti-slip textures on their surfaces.
[0009] Preferably, both the fastener and the insertion member are made of polyamide.
[0010] Compared with the prior art, the beneficial effects of this utility model are:
[0011] This utility model incorporates multiple anti-spreading components fitted onto the braided mesh tube body. Each anti-spreading component includes a fixing member and a clamping member, arranged in a positive-negative-negative configuration. The fixing member is in the positive direction, while the clamping member is in the negative direction. Adjacent anti-spreading components are paired and matched. During operation, the user cuts the braided mesh tube body according to the required length. The cut body has two anti-spreading components in opposite directions, used to fix the tube openings at both ends. By rotating the fixing member and the clamping member relative to each other, the easily broken component is dislodged. The tube opening of the braided mesh tube body is then placed in the annular groove. The annular insertion part of the clamping member is aligned with the annular groove, and by pressing, the annular insertion part, along with the tube opening of the braided mesh tube body, is inserted into the annular groove, thus fixing the tube opening and preventing the braided mesh tube body from easily spreading. Attached Figure Description
[0012] Figure 1 This is a structural view of the present invention.
[0013] Figure 2 This is a structural view of the anti-scattering component of this utility model.
[0014] Figure 3 This is an exploded structural view of the anti-scattering component of this utility model.
[0015] Figure 4 This is a structural view of the fastener of this utility model.
[0016] The diagram is labeled as follows: 1. Braided mesh tube body; 2. Anti-scattering component; 3. Fixing component; 4. Tightening component; 5. Easily broken component; 6. Tube hole; 7. Annular groove; 8. Annular insert; 9. Glue bladder; 10. Needle; 11. Anti-slip texture. Detailed Implementation
[0017] 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 protection scope of the present utility model.
[0018] Example 1:
[0019] This utility model provides a braided mesh tube for preventing scattering, comprising a braided mesh tube body 1, with multiple anti-scattering components 2 sleeved on the body 1. The anti-scattering components 2 are arranged in opposite directions. Each anti-scattering component 2 includes a fixing member 3 and a clamping member 4. The fixing member 3 is fixedly connected to the clamping member 4 via a breakable member 5. Both the fixing member 3 and the clamping member 4 have tube holes 6. The fixing member 3 has an annular groove 7, and the clamping member 4 has an annular insertion part 8. An adhesive sac 9 is fixedly installed at the bottom of the annular groove 7, and the adhesive sac 9 stores quick-drying adhesive. The annular insertion part 8 is fixedly connected to a needle 10. The needle 10 is made of stainless steel, and the annular insertion part 8 is fixedly connected to the needle 10 through an insert injection molding process. The surfaces of both the fixing member 3 and the clamping member 4 are provided with anti-slip textures 11. Both the fixing member 3 and the clamping member 4 are made of polyamide.
[0020] Through the above technical solution, this utility model has multiple anti-spreading components 2 fitted onto the braided mesh tube body 1. The anti-spreading components 2 include a fixing member 3 and a clamping member 4. The anti-spreading components 2 are arranged in opposite directions, that is, the fixing member 3 of the anti-spreading components 2 is in the positive direction and the clamping member 4 is in the opposite direction. This arrangement is that adjacent anti-spreading components 2 are matched in pairs. During operation, the user cuts the braided mesh tube body 1 according to the length requirements. The cut braided mesh tube body 1 is equipped with two anti-spreading components 2 in opposite directions, which are used to fix the tube openings at both ends. By rotating the fixing member 3 and the clamping member 4 relative to each other, the easily broken member 5 is broken. Then, the tube opening part of the braided mesh tube body 1 is placed in the annular groove 7, and the annular insertion part 8 of the clamping member 4 is aligned with the annular groove 7. By pressing, the annular insertion part 8, along with the tube opening part of the braided mesh tube body 1, is inserted into the annular groove 7, fixing the tube opening of the braided mesh tube body 1 and preventing the braided mesh tube body 1 from easily spreading.
[0021] Example 2:
[0022] In this embodiment, the braided mesh tube body 1 is fitted with multiple anti-scattering components 2, which are arranged in opposite directions. Each anti-scattering component 2 includes a fixing member 3 and a clamping member 4. The fixing member 3 is fixedly connected to the clamping member 4 via a breakable member 5. Both the fixing member 3 and the clamping member 4 are provided with tube holes 6. The fixing member 3 is provided with an annular groove 7, and the clamping member 4 is provided with an annular insertion part 8.
[0023] In practical implementation, the braided mesh tube body 1 is made using conventional braiding technology and has a main structure with interlaced braided threads. Multiple anti-spreading components 2 are pre-fitted onto the braided mesh tube body 1, with adjacent anti-spreading components 2 arranged alternately in opposite directions. The fixing part 3 and the clamping part 4 in each anti-spreading component 2 are connected by a breakable part 5, which has a moderately strong connection structure and can break when subjected to a certain torque.
[0024] When needed, the operator first cuts the braided mesh tube body 1 to the required length. Each end of the cut braided mesh tube body 1 has an anti-spreading component 2, with the two anti-spreading components 2 facing opposite directions. For each end of the anti-spreading component 2, the operator holds the fixing member 3 and the clamping member 4, applying relative rotational force to break the fragile part 5. After breakage, the end of the braided mesh tube body 1 is placed in the annular groove 7 of the fixing member 3. Then, the annular insertion part 8 of the clamping member 4 is aligned with the annular groove 7, and pressure is applied to insert the annular insertion part 8, along with the end of the braided mesh tube body 1, into the annular groove 7. This mechanical interlocking method firmly fixes the end of the braided mesh tube body 1, effectively preventing the end from loosening.
[0025] The key to this embodiment lies in the special structure and installation method of the anti-spread component 2. The anti-spread component 2 employs an alternating forward and reverse arrangement design, ensuring effective anti-spread protection at both ends of the cut braided mesh tube body 1. The design of the fastener 3 and the insert 4 connected by the easily breakable part 5 ensures both ease of initial installation and quick separation during use. The mating structure of the annular groove 7 and the annular insert 8 achieves a firm fixation of the braided mesh tube ends through mechanical interlocking, avoiding the limitations imposed by adhesives.
[0026] This structural design allows the braided mesh tube to be cut to any length as needed, while ensuring that each cut end is effectively protected against fraying. Compared to traditional adhesive fixing methods, the mechanical fixing structure in this embodiment is more reliable, unaffected by ambient temperature and usage time, and has better versatility and durability.
[0027] Example 3:
[0028] In this embodiment, a plurality of anti-spreading components 2 are fitted onto the braided mesh tube body 1, and the anti-spreading components 2 are arranged alternately in a positive and negative configuration. Each anti-spreading component 2 includes a fixing member 3 and a clamping member 4, which are connected by a breakable member 5. The fixing member 3 has an annular groove 7, and an adhesive sac 9 is fixedly installed at the bottom of the annular groove 7. The adhesive sac 9 stores quick-drying adhesive. The clamping member 4 has an annular insertion part 8, and a needle 10 is fixedly connected to the annular insertion part 8.
[0029] When it is necessary to fix the opening of the braided mesh tube body 1, first cut the braided mesh tube body 1 according to the required length. Each end of the cut braided mesh tube body 1 has an anti-spreading component 2, and these two anti-spreading components 2 face opposite directions. During operation, hold the fixing part 3 and the clamping part 4 and rotate them relative to each other to break the fragile part 5, thereby separating the clamping part 4 from the fixing part 3.
[0030] Place the opening portion of the braided mesh tube body 1 into the annular groove 7 of the fixing member 3. Then, align the annular insert 8 of the clamping member 4 with the annular groove 7 and apply pressure to insert the annular insert 8, along with the opening portion of the braided mesh tube body 1, into the annular groove 7. During this process, the needles 10 fixed on the annular insert 8 will pierce the glue sac 9, causing the quick-drying glue inside to flow out. The flowing quick-drying glue will quickly solidify, firmly fixing the opening portion of the braided mesh tube body 1 to the anti-spread component 2.
[0031] The needle 10 provides initial fixation during insertion, preventing the opening of the braided mesh tube body 1 from shifting before the adhesive cures. After the quick-drying adhesive cures, a strong bond is formed, ensuring the opening of the braided mesh tube body 1 will not come undone. This structural design makes the fixing of the opening of the braided mesh tube body 1 more reliable, effectively preventing the problem of traditional braided mesh tubes easily coming undone.
[0032] In this embodiment, the alternating forward and reverse arrangement of the anti-spreading components 2 ensures that both ends of the braided mesh tube body 1 are effectively secured. Users can arbitrarily cut the length of the braided mesh tube body 1 according to actual needs, and both ends after cutting can be secured by the anti-spreading components 2, improving the product's versatility and ease of use. The entire fixing process is simple to operate, requiring no additional tools or materials, greatly improving work efficiency.
[0033] Example 4:
[0034] This embodiment includes a braided mesh tube body 1 and multiple anti-spreading components 2. The anti-spreading components 2 are arranged in opposite directions, and each anti-spreading component 2 includes a fixing member 3 and a clamping member 4. The fixing member 3 is fixedly connected to the clamping member 4 through a breakable member 5. Both the fixing member 3 and the clamping member 4 are provided with tube holes 6. The fixing member 3 is provided with an annular groove 7, and the clamping member 4 is provided with an annular insertion part 8. An adhesive sac 9 is fixedly installed at the bottom of the annular groove 7, and the adhesive sac 9 stores quick-drying adhesive. The annular insertion part 8 is fixedly connected to a needle 10. The needle 10 is made of stainless steel, and the annular insertion part 8 is fixedly connected to the needle 10 through an insert injection molding process.
[0035] In practice, the braided mesh tube body 1 can be cut to size according to actual usage requirements. Each end of the cut braided mesh tube body 1 is equipped with an anti-spreading component 2, with the two anti-spreading components 2 positioned in opposite directions. When it is necessary to fix the opening of the braided mesh tube body 1, the operator first rotates the fixing component 3 and the clamping component 4 relative to each other to break the easily breakable component 5. Then, the opening portion of the braided mesh tube body 1 is placed in the annular groove 7 of the fixing component 3, and the annular insertion part 8 of the clamping component 4 is aligned with the annular groove 7.
[0036] During the process of pressing the annular insert 8 into the annular groove 7, the stainless steel needles 10 on the annular insert 8 first pierce the opening of the braided mesh tube body 1, providing initial fixation. With further pressing, the needles 10 continue to penetrate and pierce the glue sac 9 at the bottom of the annular groove 7, causing the quick-drying glue inside to flow out. The flowing quick-drying glue quickly penetrates the contact surface between the opening of the braided mesh tube body 1 and the annular groove 7, achieving rapid bonding and fixation.
[0037] The stainless steel needle 10 is fixed to the annular insert 8 using an insert injection molding process, ensuring the connection strength and stability between the needle 10 and the annular insert 8. The stainless steel needle 10 has sufficient hardness and corrosion resistance, enabling it to effectively pierce the braided mesh tube body 1 and the glue bag 9. The insert injection molding process not only improves the connection reliability between the needle 10 and the annular insert 8 but also reduces processing costs, facilitating mass production.
[0038] After the anti-spreading component 2 is fixed, the tube opening of the braided mesh tube body 1 is firmly fixed in the annular groove 7. The dual fixing effect of the needle 10 and the quick-drying adhesive effectively prevents the tube opening from loosening. This structural design ensures that the end tube opening of the braided mesh tube body 1 will not spread out when threading wire harnesses or pipes, simplifying the operation procedure and improving work efficiency.
[0039] In this embodiment, the anti-spreading component 2 can be placed at any position on the braided mesh tube body 1 as needed. Users can freely cut the braided mesh tube body 1 according to the actual length used, and install the anti-spreading component 2 at both ends after cutting, greatly improving the product's versatility and applicability. The forward and reverse setting of the anti-spreading component 2 ensures that the same fixing effect can be achieved regardless of which direction it is installed from.
[0040] Example 5:
[0041] In this embodiment, the braided mesh tube body 1 is fitted with multiple anti-scattering components 2. The anti-scattering components 2 are arranged in opposite directions. Each anti-scattering component 2 includes a fixing member 3 and a clamping member 4. The fixing member 3 is fixedly connected to the clamping member 4 through a breakable member 5. Both the fixing member 3 and the clamping member 4 are provided with tube holes 6. The fixing member 3 is provided with an annular groove 7, and the clamping member 4 is provided with an annular insertion part 8. The surfaces of both the fixing member 3 and the clamping member 4 are provided with anti-slip textures 11.
[0042] In practical implementation, the braided mesh tube body 1 is woven from high-strength fiber material, possessing excellent flexibility and tensile strength. The anti-scattering component 2 is injection molded from engineering plastic, exhibiting good mechanical strength and wear resistance. The fixing component 3 and the clamping component 4 are connected by a breakable component 5, which is designed as a weak connection structure, capable of breaking and separating under appropriate torque. The annular groove 7 of the fixing component 3 is designed as a concave annular structure, while the annular insertion part 8 of the clamping component 4 is designed as a convex annular structure; the two work together to achieve a tight connection.
[0043] When installation and use are required, first cut the braided mesh tube body 1 to the required length. Each end of the cut braided mesh tube body 1 has an anti-spreading component 2, and the two anti-spreading components 2 face opposite directions. The operator holds the fixing component 3 and the inserting component 4, utilizing the anti-slip texture 11 on the surface to increase friction and facilitate application of force. By rotating the fixing component 3 and the inserting component 4 relative to each other, the easily breakable component 5 is broken and separated. Then, place the tube opening of the braided mesh tube body 1 into the annular groove 7 of the fixing component 3, align the annular insertion part 8 of the inserting component 4 with the annular groove 7, and press firmly to insert the annular insertion part 8, along with the tube opening of the braided mesh tube body 1, into the annular groove 7. Due to the anti-slip texture 11, the operator is less likely to slip during gripping and pressing, allowing for more accurate installation.
[0044] After installation, the fastener 3 and the insert 4 securely fix the opening of the braided mesh tube body 1 through the cooperation of the annular groove 7 and the annular insert 8, effectively preventing the opening from loosening. The anti-slip texture 11 not only helps with gripping during installation, but also increases friction during use, preventing the anti-spread component 2 from accidentally loosening. The entire installation process is simple and quick, requiring no special tools, greatly improving work efficiency.
[0045] This embodiment, by incorporating anti-slip texture 11, significantly improves the operator's grip experience during installation, reduces operational difficulty, and increases installation efficiency. Simultaneously, the anti-slip texture 11 design enhances the stability of the anti-spread component 2 during use, further ensuring the anti-spread effect of the braided mesh tube body 1. This design considers both ease of installation and reliability, possessing high practical value.
[0046] Example 6:
[0047] In this embodiment, both the fixing member 3 and the clamping member 4 in the anti-spreading component 2 are made of polyamide. Polyamide material has excellent mechanical strength and wear resistance, which can ensure that the anti-spreading component 2 maintains a stable fixing effect during long-term use. The fixing member 3 is connected to the clamping member 4 through the breakable member 5. This connection method allows the connection to be easily disconnected by rotation when it is necessary to fix the braided mesh tube port.
[0048] Multiple anti-spreading components 2 are fitted onto the braided mesh tube body 1, arranged in alternating directions. Each anti-spreading component 2 includes a fixing member 3 and a clamping member 4. The fixing member 3 has an annular groove 7, and the clamping member 4 has a matching annular insertion part 8. When it is necessary to fix the end of the braided mesh tube, the braided mesh tube is first cut to the required length, at which point two anti-spreading components 2 facing opposite directions will be exposed at the cut. The easily broken part 5 is broken by rotation, and then the end portion of the braided mesh tube is placed in the annular groove 7 of the fixing member 3.
[0049] The polyamide fastener 3 and insert 4 possess excellent dimensional stability, ensuring a precise fit between the annular groove 7 and the annular insert 8. After aligning the annular insert 8 of the insert 4 with the annular groove 7 of the fastener 3, appropriate pressure is applied to ensure a tight seal between the two. The elastic properties of the polyamide material allow the annular insert 8 to snap firmly into the annular groove 7, thereby securely fixing the port of the braided mesh tube and effectively preventing fraying.
[0050] Due to the high heat resistance and chemical corrosion resistance of polyamide material, the anti-spread component 2 made of this material can maintain stable performance in various harsh environments. Even in environments with high temperatures or in the presence of chemicals, the anti-spread component 2 can still reliably secure the braided mesh port, ensuring the protective effect.
[0051] The anti-spreading component 2 in this embodiment has a simple structure and is easy to operate. Users can easily fix the braided mesh tube port with simple rotation and pressing actions, greatly improving work efficiency. The use of polyamide material not only enhances the durability of the anti-spreading component 2 but also gives it a longer service life and reduces maintenance costs.
[0052] This design is particularly suitable for applications requiring frequent cutting of braided tubing to different lengths. Because the anti-spreading components 2 are evenly distributed across the braided tubing, users can immediately obtain two usable anti-spreading components 2 after cutting at any location, greatly improving the product's versatility and ease of use. The combination of the polyamide anti-spreading components 2 and the braided tubing ensures both structural strength and prevents damage to the braided tubing itself.
[0053] It should be noted that, in this document, relational terms such as "first" and "second" are used only to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such a process, method, article, or apparatus. Without further limitations, an element defined by the phrase "comprising one..." does not exclude the presence of other identical elements in the process, method, article, or apparatus that includes said element.
[0054] The above description is only used to illustrate the technical solution of this utility model and is not intended to limit it. Any other modifications or equivalent substitutions made by those skilled in the art to the technical solution of this utility model, as long as they do not depart from the spirit and scope of the technical solution of this utility model, should be covered within the scope of the claims of this utility model.
Claims
1. A braided mesh tube for preventing fraying, comprising a braided mesh tube body, characterized in that, The braided mesh tube body is fitted with multiple anti-scattering components, which are arranged in opposite directions. Each anti-scattering component includes a fixing component and a clamping component. The fixing component is fixedly connected to the clamping component through a breakable component. Both the fixing component and the clamping component are provided with tube holes. The fixing component is provided with an annular groove, and the clamping component is provided with an annular insertion part.
2. The braided mesh tube for preventing fraying as described in claim 1, characterized in that, A glue bladder is fixedly installed at the bottom of the annular groove, and the glue bladder contains quick-drying glue. The annular insertion part is fixedly connected to the needle.
3. The braided mesh tube for preventing fraying as described in claim 2, characterized in that, The needle is made of stainless steel, and the annular insert is fixedly connected to the needle by an insert injection molding process.
4. The braided mesh tube for preventing fraying as described in claim 1, characterized in that, Both the fastener and the insertion member have anti-slip textures on their surfaces.
5. The braided mesh tube for preventing fraying according to claim 1, characterized in that, Both the fastener and the insertion member are made of polyamide.