Mesh fixation assembly
By combining frame components, mesh components, fixing components, and mesh pressing components, the aluminum alloy protective fence mesh can be detachably fixed, solving the problem of destructive cutting when the mesh is damaged, and improving maintenance efficiency and aesthetics.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHANGHAI XIANGDA IND ALUMINUM PROFILES CO LTD
- Filing Date
- 2025-07-22
- Publication Date
- 2026-06-19
AI Technical Summary
Existing aluminum alloy protective fences require destructive cutting when the mesh is damaged, resulting in a large workload and reduced aesthetics.
It adopts a combination structure of frame components, mesh components, fasteners and mesh pressing components, and achieves detachable fixing of the mesh through threaded connection, avoiding destructive cutting by welding.
It simplifies the mesh replacement process, improves maintenance efficiency, and maintains the overall aesthetic appeal.
Smart Images

Figure CN224379537U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of mesh fixing technology, and more particularly to mesh fixing components. Background Technology
[0002] Aluminum profile safety fencing consists of several aluminum profiles and a mesh. It is used to delineate a safety zone around equipment to maintain a safe distance between workers and equipment, and to prevent direct contact between people or objects and equipment, thus providing safety protection.
[0003] When assembling an aluminum profile protective fence, several aluminum profiles need to be assembled first to build a column frame, and then the mesh is fixed in the middle of the column frame.
[0004] In existing aluminum alloy protective fences, the mesh is fixed to the middle of the post frame by welding the aluminum profile of the post frame to the mesh. However, when the mesh is damaged, it needs to be destructively cut off to separate it from the aluminum profile, so that the mesh can be replaced. This greatly increases the workload of the workers. At the same time, the cuts created by the destructive cutting will reduce the overall aesthetics of the aluminum alloy protective fence. Utility Model Content
[0005] To address the aforementioned technical problems and achieve at least one advantage of this application, this application provides a mesh fixing component, wherein the mesh fixing component comprises:
[0006] A plurality of frame components are connected end to end to form a frame and an installation space is formed within the frame. Each frame component has an insertion groove and an opening communicating with the insertion groove along the extension direction. The inner wall of each insertion groove extends towards each other near the opening to form two extension edges.
[0007] A mesh element having a plurality of barbs around its perimeter, the mesh element being positioned in the mounting space such that each of the barbs extends through an opening into a corresponding insertion slot.
[0008] A plurality of fasteners, each of the fasteners including a main body and at least one insert, the main body of each fastener being disposed near a spiked edge in a manner close to a frame member, and the insert of each fastener being disposed in each main body in a manner that allows it to extend into a corresponding insertion slot through an opening;
[0009] A plurality of pressing members corresponding to the fixing member, each of the pressing members being respectively disposed on the corresponding main body portion in such a way that it can press one of the barbed edges located near each of the main body portions toward one of the extended edges located near the barbed edge.
[0010] According to one embodiment of this application, each of the pressing members is implemented to include a screw, and each pressing member is movably threaded to the corresponding body portion in such a way that it remains through the corresponding body portion, and the barbed edge is located in the extending direction of the pressing member.
[0011] According to one embodiment of this application, each of the inserted portions extends in a direction perpendicular to the extension direction of the corresponding frame member to form at least one protrusion, and each protrusion forms a first pressing surface facing the corresponding extension edge.
[0012] According to one embodiment of this application, each of the inserted portions extends in a direction away from the corresponding spike along the extension direction perpendicular to the corresponding frame member to form the protrusion.
[0013] According to one embodiment of this application, each of the protruding portions extends a different distance along the extension direction perpendicular to the extension direction of the corresponding frame member to form a plurality of protrusions. The extension distance of the protrusions near the corresponding extension edge to the protrusions away from the corresponding extension edge gradually increases, and each protrusion forms the first pressing edge surface.
[0014] According to one embodiment of this application, each of the main body portions has a receiving groove formed near the corresponding barbed edge, the receiving groove being adapted to the corresponding barbed edge, and the receiving groove being located at the protruding position when the corresponding pressing mesh member passes through the main body portion.
[0015] According to one embodiment of this application, each of the fasteners further includes a pressing flange portion, which is formed by extending from the main body portion in a direction away from the corresponding barbed edge, and the pressing flange portion has a second pressing flange surface opposite to the corresponding first pressing flange surface and facing the corresponding extended edge.
[0016] According to one embodiment of this application, each of the first flange surfaces gradually tilts away from the corresponding extension edge from the area near the corresponding barbed edge to the area away from the corresponding barbed edge.
[0017] According to one embodiment of this application, each of the fasteners further includes a pair of limiting portions, the pair of limiting portions being disposed on the main body portion, and the pair of limiting portions being located on both sides of the corresponding spike edge.
[0018] According to one embodiment of this application, several of the frame members are implemented to include aluminum profiles, and several of the insertion slots are implemented as T-shaped slots. Attached Figure Description
[0019] Figure 1A perspective view of a preferred embodiment of this application is shown.
[0020] Figure 2 A cross-sectional view of a preferred embodiment of this application is shown.
[0021] Figure 3 It shows Figure 2 A magnified view of a portion of point A in the diagram.
[0022] Figure 4 A three-dimensional structural diagram of the fastener and the pressure mesh member according to a preferred embodiment of this application is shown. Detailed Implementation
[0023] The following description is intended to disclose this application and enable those skilled in the art to implement it. The preferred embodiments described below are merely examples, and other obvious variations will occur to those skilled in the art. The basic principles of this application defined in the following description can be applied to other embodiments, modifications, improvements, equivalents, and other technical solutions that do not depart from the spirit and scope of this application.
[0024] Those skilled in the art should understand that, in the disclosure of this application, the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," and "outer," etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this application and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, the above terms should not be construed as limitations on this application.
[0025] It is understood that the term "a" should be understood as "at least one" or "one or more", that is, in one embodiment, the number of an element can be one, while in another embodiment, the number of the element can be multiple, and the term "a" should not be understood as a limitation on the number.
[0026] refer to Figures 1 to 4 A preferred embodiment of the mesh fixing component according to this application will be described in detail below, wherein the mesh fixing component includes a plurality of frame members 10, a mesh member 20, a plurality of fixing members 30 and a plurality of mesh pressing members 40 corresponding to the fixing members 30.
[0027] Several frame members 10 are connected end to end to form a frame, and an installation space is formed within the frame. Each frame member 10 has an insertion groove 101 and an opening 102 communicating with the insertion groove 101 along its extension direction. The inner wall of each insertion groove 101 extends towards each other near the opening 102 to form two extending edges 11.
[0028] The mesh element 20 has a plurality of barbs 21 located around its perimeter. The mesh element 20 is positioned in the mounting space such that the plurality of barbs 21 extend into the corresponding insertion slot 101 through one of the openings 102.
[0029] Each of the fasteners 30 includes a main body 31 and at least one insertion portion 32. The main body 31 of each fastener 30 is positioned near a spike 21, close to a frame member 10. The insertion portion 32 of each fastener 30 is positioned in each main body 31 such that it extends into a corresponding insertion slot 101 through an opening 102.
[0030] Each of the pressing members 40 is respectively disposed on the corresponding body portion 31 in such a way that it can press one of the barbed edges 21 located near each of the main body portions 31 toward one of the extension edges 11 located near the barbed edge 21.
[0031] It is understandable that, taking a single fixing member 30 and a corresponding single pressing member 40 as an example, when a barbed edge 21 near the main body 31 is pressed by the pressing member 40 against one of the extension edges 11 near the barbed edge 21, the reaction force of the pressing member 40 pressing the barbed edge 21 can drive the fixing member 30 as a whole to move away from the barbed edge 21, and press the protruding part 32 against another extension edge 11 near the barbed edge 21. Then, by keeping the protruding part 32 and the barbed edge 21 pressed against the two extension edges 11 respectively, the position of the barbed edge 21 is fixed. Then, under the combined action of several fixing members 30 and several pressing members 40 corresponding to the fixing members 30, the positions of several barbed edges 21 are fixed at the same time, so as to stably keep the mesh 20 in the installation space.
[0032] Preferably, in this embodiment, each of the mesh clamping members 40 is implemented to include screws. Each mesh clamping member 40 is movably threaded to the corresponding body portion 31 in a manner that maintains penetration through the corresponding body portion 31. The barbed edge 21 is located in the extending direction of the mesh clamping member 40, so that by screwing each mesh clamping member 40, the corresponding barbed edge 21 is pressed against one of the extension edges 11 located near the corresponding barbed edge 21 through the end of each mesh clamping member 40. The reaction force of each mesh clamping member 40 pressing against the corresponding barbed edge 21 moves each fixing member 30 as a whole away from the corresponding barbed edge 21, and presses each protruding part 32 against another extension edge 11 located near the corresponding barbed edge 21, thereby fixing the corresponding barbed edge 21 and stably holding the mesh member 20 in the installation space.
[0033] It should be noted that, since the mesh pressing component 40 is connected to the main body 31 by threads, the mesh pressing component 40 and the main body 31 are detachable. Furthermore, since the mesh pressing component 40 and the barbed edge 21 are separable, when the mesh component 20 is damaged, the mesh pressing component 40 and the barbed edge 21 can be separated simply by twisting the mesh pressing component 40. This allows the mesh component 20 to move within the installation space, facilitating the replacement of the damaged mesh component 20 and ultimately increasing the speed of maintenance and replacement. Moreover, compared to welding several of the barbed edges 21 of the mesh component 20 to the frame component 10 to stably hold the mesh component 20 in the installation space, this solution eliminates the need for destructive cutting of the welded joints between the barbed edges 21 and the frame component 10 during maintenance and replacement, thus improving the overall aesthetics of the mesh component 20 after maintenance and replacement.
[0034] Preferably, the insertion slot 101 formed by each of the frame members 10 is in communication with the installation space through the corresponding opening 102.
[0035] As an example, the frame member 10 is implemented to include an aluminum profile, and the insertion groove 101 is implemented as a T-shaped groove.
[0036] Furthermore, in one embodiment, the mesh element 20 is formed by interlacing and weaving several iron wires. Correspondingly, when the several iron wires are interlaced and woven to form the mesh element 20, the ends of the several iron wires extend outward around the perimeter of the entire mesh element 20 to form several barbed edges 21.
[0037] To facilitate understanding of this application by those skilled in the art, the following description will only use a single fastener 30, a single mesh pressing member 40 corresponding to the single fastener 30, a single barbed edge 21 corresponding to the single mesh pressing member 40, and a corresponding frame member 10 that is inserted into the insertion groove 101 as examples.
[0038] Preferably, the extension portion 32 extends in a direction perpendicular to the extension direction of the corresponding frame member 10 to form at least one protrusion 321. The protrusion 321 forms a first pressing surface 3211 facing the extension edge 11.
[0039] Understandably, when the mesh component 20 as a whole wobbles within the installation space, and the mesh component 20, through the corresponding barbed edge 21, the mesh pressing component 40, and the main body 31, causes the extension portion 32 to tend to pass through the opening 102 and be pulled out from the corresponding insertion groove 101, the movement of the extension portion 32 can be restricted by the first pressing edge surface 3211 of the protrusion 321 abutting against the extension edge 11, preventing the extension portion 32 from being pulled out from the corresponding insertion groove 101, thereby improving the overall stability of the fixing component 30 and improving the stability of the corresponding barbed edge 21 when it is fixed, thus making the mesh component 20 more stably held in the installation space.
[0040] Preferably, the extension portion 32 extends in a direction perpendicular to the extension direction of the corresponding frame member 10 away from the corresponding barbed edge 21 to form the protrusion 321. When the reaction force generated when the mesh pressing member 40 presses against the corresponding barbed edge 21 drives the extension portion 32 away from the corresponding barbed edge 21 through the main body portion 31, the first pressing edge surface 3211 of the protrusion 321 always faces the other extension edge 11 away from the corresponding barbed edge 21. When the mesh member 20 as a whole shakes in the installation space, and the mesh member 20, through the corresponding barbed edge 21, the mesh pressing member 40 and the main body portion 31, causes the extension portion 32 to tend to pass through the opening 102 and be pulled out of the insertion groove 101, the first pressing edge surface 3211 of the protrusion 321 can stably abut against the other extension edge 11 away from the corresponding barbed edge 21 to stably restrict the movement of the extension portion 32.
[0041] More preferably, the protruding portion 32 extends a certain distance along the extending direction perpendicular to the extending direction of the frame member 10 to form a plurality of protrusions 321, with the extension distance of the protrusions 321 near the extension edge 11 gradually increasing to that of the protrusions 321 away from the extension edge 11. Correspondingly, each protrusion 321 forms the first pressing surface 3211.
[0042] It should be noted that, in order to stably restrict the movement of the protruding part 32 by abutting the first pressing surface 3211 of the protrusion 321 against the other extended edge 11 away from the corresponding barb 21, the fixing member 30 as a whole will move slightly to drive the protruding part 32 to move within the corresponding insertion groove 101, thereby abutting the first pressing surface 3211 against the other extended edge 11 away from the corresponding barb 21. Therefore, the distance between the other extended edge 11 away from the corresponding barb 21 and the first pressing surface 3211 determines the distance the protruding part 32 moves within the insertion groove 101. The smaller the movement distance of the protruding part 32 within the insertion groove 101, the less likely the fixing member 30 as a whole is to move, and the better the stability when the corresponding barb 21 is fixed.
[0043] When the thickness of the extension edge 11 varies due to the use of different frame members 10, the arrangement of multiple protrusions 321 can reduce the distance that the extension part 32 needs to move within the insertion groove 101. This allows the first pressing surface 3211 of one of the protrusions 321 near the extension edge 11 to adhere to the extension edge 11 with a smaller moving distance when the extension part 32 moves, thereby improving the versatility of the fastener 30.
[0044] Preferably, the main body 31 has a receiving groove 3101 near the corresponding barbed edge 21. The receiving groove 3101 is adapted to the corresponding barbed edge 21, and the receiving groove 3101 is located at the protruding position when the pressing mesh member 40 passes through the main body 31.
[0045] It is understood that when the pressing member 40 is not movably threaded to the main body 31 in a manner that penetrates the main body 31, the corresponding barbed edge 21 can be placed in the receiving groove 3101 to limit the relative position between the corresponding barbed edge 21 and the fixing member 30 as a whole. Then, when the pressing member 40 is movably threaded to the main body 31 in a manner that penetrates the main body 31, the end of the pressing member 40 can pass through the main body 31 and be stably pressed against the barbed edge 21.
[0046] The fastener 30 further includes a pressing edge portion 33. The pressing edge portion 33 is formed by extending from the main body portion 31 in a direction away from the corresponding barbed edge 21, and the pressing edge portion 33 has a second pressing edge surface 331 opposite to the first pressing edge surface 3211 and facing the extension edge 11.
[0047] It should be noted that the pressing member 40 is movably threaded to the corresponding main body 31 and the pressing edge 33 in such a way that it remains through the corresponding main body 31 and the pressing edge 33.
[0048] Specifically, the second pressing surface 331 of the pressing portion 33, pressed against the extension edge 11, prevents the extension portion 32 from excessively extending into the corresponding insertion groove 101 through the opening 102. Simultaneously, the first pressing surface 3211 of the protrusion 321 abuts against the extension edge 11, preventing the extension portion 32 from being pulled out of the corresponding insertion groove 101. Therefore, the relative position of the fixing member 30 is more stably maintained under the combined action of the first pressing surface 3211 of the protrusion 321 and the second pressing surface 331 of the pressing portion 33.
[0049] Preferably, the first pressing edge surface 3211 gradually slopes away from the extension edge 11 from near the corresponding barbed edge 21 to away from the corresponding barbed edge 21.
[0050] As an example, during the process of twisting the clamping member 40 and pressing its end against the barbed edge 21, the reaction force of the clamping member 40 pressing against the barbed edge 21 will gradually push the fixing member 30 away from the barbed edge 21. At this time, due to the inclination of the first pressing flange surface 3211, the extension edge 11 will gradually slide along the surface of the first pressing flange surface 3211 while remaining attached to it, and the fixing member 30 will be secured by the extension edge 11. The extension portion 32 is gradually pressed into the insertion groove 101 so that the second pressing surface 331 of the pressing surface portion 33 of the fixing member 30 is attached to the extension edge 11. Under the relative pressing of the second pressing surface 331 and the first pressing surface 3211, the position of the fixing member 30 on the extension edge 11 is fixed, thereby making the mesh pressing member 40 stably press the barbed edge 21 onto the corresponding extension edge 11, so as to achieve the purpose of stably holding the mesh member 20 in the installation space.
[0051] Preferably, the fixing member 30 further includes a pair of limiting portions 34. The pair of limiting portions 34 are disposed on the main body 31, and the pair of limiting portions 34 are respectively located on both sides of the corresponding barbed edge 21, so as to limit the relative position between the fixing member 30 as a whole and the barbed edge 21 by the pair of limiting portions 34, so that when the pressing member 40 is twisted and the end of the pressing member 40 is pressed against the barbed edge 21, the end of the pressing member 40 is stably pressed against the barbed edge 21.
[0052] Preferably, the main body 31, the extension 32, the pressing edge 33 and the limiting part 34 are integrally formed to improve the overall integrity of the fastener 30.
[0053] Those skilled in the art should understand that the embodiments of this application described above and shown in the accompanying drawings are merely examples and do not limit the scope of this application. The advantages of this application have been fully and effectively implemented. The functional and structural principles of this application have been demonstrated and explained in the embodiments, and any variations or modifications can be made to the implementation of this application without departing from the stated principles.
Claims
1. A grid fixation assembly, characterized in that, The grid fixing component includes: A plurality of frame components are connected end to end to form a frame and an installation space is formed within the frame. Each frame component has an insertion groove and an opening communicating with the insertion groove along the extension direction. The inner wall of each insertion groove extends towards each other near the opening to form two extension edges. A mesh element having a plurality of barbs around its perimeter, the mesh element being positioned in the mounting space such that each of the barbs extends through an opening into a corresponding insertion slot. A plurality of fasteners, each of the fasteners including a main body and at least one insert, the main body of each fastener being disposed near a spiked edge in a manner close to a frame member, and the insert of each fastener being disposed in each main body in a manner that allows it to extend into a corresponding insertion slot through an opening; A plurality of pressing members corresponding to the fixing member, each of the pressing members being respectively disposed on the corresponding main body portion in such a way that it can press one of the barbed edges located near each of the main body portions toward one of the extended edges located near the barbed edge.
2. The grid fixture assembly of claim 1, wherein, Each of the clamping members is implemented with screws, and each clamping member is movably threaded to the corresponding body portion in a manner that maintains penetration through the corresponding body portion, with the barbs located in the extending direction of the clamping member.
3. The grid fixture assembly of claim 2, wherein, Each of the protruding portions extends in a direction perpendicular to the extension direction of the corresponding frame member to form at least one protrusion, and each protrusion forms a first pressing surface toward the corresponding extension edge.
4. The grid fixture assembly of claim 3, wherein, Each of the protruding portions extends in a direction perpendicular to the extension direction of the corresponding frame member, away from the corresponding spike, to form the protrusion.
5. The grid fixture assembly of claim 4, wherein, Each of the protruding portions extends a different distance along the extension direction perpendicular to the extension direction of the corresponding frame member to form a plurality of protrusions. The extension distance of the protrusions near the corresponding extension edge to the protrusions away from the corresponding extension edge gradually increases, and each of the protrusions forms the first pressing edge surface.
6. The grid fixture assembly of claim 5, wherein, Each of the main body portions has a receiving groove provided near the corresponding barbed edge, the receiving groove being adapted to the corresponding barbed edge, and the receiving groove being located at the protrusion position when the corresponding pressing mesh member passes through the main body portion.
7. The grid fixture assembly of claim 6, wherein, Each of the fasteners further includes a flange portion extending from the main body portion in a direction away from the corresponding barbed edge, the flange portion having a second flange surface opposite to the corresponding first flange surface and facing the corresponding extended edge.
8. The grid fixture assembly of claim 7, wherein, Each of the first flange surfaces gradually slopes away from the corresponding extension edge from the area near the corresponding barbed edge to the area away from the corresponding barbed edge.
9. The grid fixture assembly of claim 8, wherein, Each of the fasteners further includes a pair of limiting portions, which are disposed on the main body and are located on both sides of the corresponding spike.
10. The grid fixture assembly of any one of claims 2 to 9, wherein, Several of the frame components are implemented as aluminum profiles, and several of the insertion slots are implemented as T-shaped slots.