CN216942149U

CN216942149U - Hexagonal eyelet fabric with high strength

Info

Publication number: CN216942149U
Application number: CN202123104336.7U
Authority: CN
Inventors: 刘红伟; 罗细兵; 顾艳平
Original assignee: Changshu Meishunqi Textile Technology Co ltd
Current assignee: Changshu Meishunqi Textile Technology Co ltd
Priority date: 2021-12-11
Filing date: 2021-12-11
Publication date: 2022-07-12
Anticipated expiration: 2031-12-11

Abstract

The utility model discloses a high-strength hexagonal mesh fabric which comprises a surface layer, a connecting layer and a bottom layer, wherein the surface layer, the connecting layer and the bottom layer are sequentially connected from top to bottom, uniform hexagonal meshes are preset on the surface layer, the surface layer is formed by weaving a fiber bundle I and a fiber bundle II, the woven surface layer comprises a polymerization branch and a splitting branch, the polymerization branch is formed by gathering two splitting branches, and each splitting branch is formed by weaving a fiber bundle I and a fiber bundle II. The utility model provides the hexagonal mesh cloth with high strength, the structure is skillfully arranged and is reasonable in arrangement, the polymerization branches and the splitting branches forming the meshes are mutually split and mutually polymerized on one hand, so that the hexagonal mesh cloth always keeps a stable whole, each splitting branch is formed by weaving two fiber bundles, each fiber on the surface layer is separately woven from inside to outside in multiple layers, and the weaving results of the multiple layers are mutually overlapped and influenced, so that the fiber strength of the whole surface layer is improved, and the anti-pulling performance is greatly improved.

Description

Hexagonal eyelet fabric with high strength

Technical Field

The utility model relates to the technical field of eyelet fabric, in particular to hexagonal eyelet fabric with high strength.

Background

A fabric with mesh-shaped pores, i.e., a mesh fabric. Different meshes can be woven by different equipment, and the main types of the meshes are woven meshes and knitted meshes 2. The weaving method of the woven mesh fabric is generally divided into two methods: one is to use two sets of warp yarns (ground warp and twisted warp) twisted with each other to form a shed, and interweave with weft yarns; the other is to weave the fabric with small holes on the cloth surface by using the change of jacquard weave or reeding method, wherein three warp yarns are taken as a group and penetrate into one reed dent. The knitted eyelet fabric is divided into two types, namely weft knitting knitted eyelet fabric and warp knitting knitted eyelet fabric, wherein the warp knitting eyelet fabric is generally woven by a Germany high-speed warp knitting machine, and the raw materials are generally nylon, terylene, spandex and the like.

When the existing mesh cloth bears pulling, the reduction is not high, and the mesh cloth is easy to be pulled, broken and cracked. Therefore, the inventor provides the hexagonal mesh cloth with high strength by combining various factors.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to a hexagonal eyelet fabric having high strength, which solves the problems of the related art.

In order to achieve the purpose, the utility model provides the following technical scheme:

the hexagonal eyelet fabric with high strength comprises a surface layer, a connecting layer and a bottom layer, wherein the surface layer, the connecting layer and the bottom layer are sequentially connected from top to bottom, uniform hexagonal meshes are preset on the surface layer, the surface layer is formed by weaving a first fiber bundle and a second fiber bundle, the woven surface layer comprises a polymerization branch and a splitting branch, the polymerization branch is formed by gathering the two splitting branches, and each splitting branch is formed by weaving the first fiber bundle and the second fiber bundle.

The polymeric branches and the splitting branches forming the meshes are mutually split and mutually polymerized on one hand, so that the polymeric branches and the splitting branches always keep a stable whole, each splitting branch is formed by weaving two fiber bundles, each fiber on the surface layer is separately woven from inside to outside in multiple layers, and the weaving results of the multiple layers are mutually overlapped and influenced, so that the fiber strength of the whole surface layer is improved, and the anti-pulling performance is greatly improved.

As a further scheme of the utility model: the gathering mode of the polymeric branches is that the two splitting branches are woven by a braiding process with the fiber bundle three as the center, and the splitting branches are woven by the braiding process, so that the polymeric branches formed by polymerization of the two splitting branches can be polymerized, and the tensile strength of the splitting branches and the polymeric branches can be increased by the braiding process.

As a further scheme of the utility model: the surface layer and the bottom layer are both made of polyester fibers, the connecting layer is made of polyester monofilaments, the surface layer and the bottom layer can be replaced by other materials such as chinlon according to different use requirements, and the weaving mode is unchanged.

As a further scheme of the utility model: the position of the polymerization branch is simultaneously knitted with the lock wire, the lock wire is wound on the position of the polymerization branch in a spiral mode, the head end and the tail end of the lock wire simultaneously extend into the polymerization branch to form fixation, the lock wire further increases the polymerization strength of the splitting branch at the position of the polymerization branch, and the mesh cloth is guaranteed to keep integral deformation when being dragged.

As a further scheme of the utility model: the first fiber bundle and the second fiber bundle are both made of terylene, the lock yarn is made of spandex, the material performance is good, the two materials are matched with each other for use, and the effect is obvious.

Compared with the prior art, the utility model has the following beneficial effects:

1. the utility model provides a high-strength hexagonal mesh cloth, which is ingenious in structural arrangement and reasonable in arrangement, the polymerization branches and the splitting branches forming meshes are mutually split and mutually polymerized on one hand, so that the meshes are always kept as a stable whole, and each splitting branch is formed by weaving two fiber bundles, so that each fiber on a surface layer is separately woven from inside to outside in multiple layers, and the weaving results of the multiple layers are mutually overlapped and influenced, thereby the fiber strength of the whole surface layer is improved, and the anti-pulling performance is greatly improved;

2. the position of the polymerization branch is further knitted with the lock wire, the lock wire further increases the polymerization strength of the splitting branch at the position of the polymerization branch, and the mesh cloth is ensured to keep the whole body without deformation when being pulled;

3. the mesh fabric has high fiber strength, good anti-pulling and anti-breaking performance and difficult deformation during pulling.

Drawings

Fig. 1 is a schematic structural view of a hexagonal eyelet fabric having high strength.

Fig. 2 is a partially enlarged view of a surface layer in a hexagonal eyelet fabric having high strength.

Fig. 3 is a schematic view showing the structure of a surface layer in a hexagonal eyelet fabric having high strength.

In the figure: 11. a surface layer; 111. polymerizing branches; 112. splitting branches; 113. locking the wire; 114. a first fiber bundle; 115. a second fiber bundle; 116. a third fiber bundle; 12. a connection layer; 13. a bottom layer.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

In the first embodiment, referring to fig. 1 to 3, a high-strength hexagonal mesh fabric includes a surface layer 11, a connecting layer 12, and a bottom layer 13, wherein the surface layer 11, the connecting layer 12, and the bottom layer 13 are sequentially connected from top to bottom;

the surface layer 11 is made of polyester fibers, uniform hexagonal meshes are preset on the surface layer 11, the surface layer 11 is formed by weaving a first fiber bundle 114 and a second fiber bundle 115, and the first fiber bundle 114 and the second fiber bundle 115 are both made of polyester;

the woven surface layer 11 comprises a polymerization branch 111 and a splitting branch 112, the polymerization branch 111 is formed by gathering the two splitting branches 112, and the gathering mode is that the two splitting branches 112 are woven by a braiding process with a fiber bundle three 116 as a center; each split branch 112 is formed by weaving a fiber bundle I114 and a fiber bundle II 115, and the split branches 112 are woven by adopting a braiding process;

the connecting layer 12 is made of polyester monofilament and the bottom layer 13 is made of polyester fiber.

In the second embodiment, referring to fig. 1 to 3, a high-strength hexagonal mesh fabric includes a surface layer 11, a connecting layer 12, and a bottom layer 13, wherein the surface layer 11, the connecting layer 12, and the bottom layer 13 are sequentially connected from top to bottom;

the woven surface layer 11 comprises a polymerization branch 111 and a splitting branch 112, the polymerization branch 111 is formed by gathering the two splitting branches 112, and the gathering mode is that the two splitting branches 112 are woven by a braiding process with a fiber bundle three 116 as a center;

the position of the polymerization branch 111 is simultaneously knitted with a lock wire 113, the lock wire 113 is spirally wound on the position of the polymerization branch 111, the head end and the tail end of the lock wire 113 simultaneously extend into the polymerization branch 111 to form fixation, the lock wire 113 is made of spandex, each splitting branch 112 is formed by weaving a fiber bundle I114 and a fiber bundle II 115, and the splitting branch 112 is formed by weaving through a braid weaving process;

The working principle of the utility model is as follows: the polymeric branches 111 and the splitting branches 112 forming the meshes are mutually split and mutually polymerized on one hand, so that the polymeric branches and the splitting branches always keep a stable whole, each splitting branch 112 is formed by weaving a fiber bundle I114 and a fiber bundle II 115, each fiber on the surface layer is separately woven from inside to outside in multiple layers, and the multiple layers of weaving results are mutually overlapped and influenced, so that the fiber strength of the whole surface layer is improved, the anti-pulling performance is greatly improved, meanwhile, the polymeric strength of the splitting branches at the positions of the polymeric branches is further increased by the lock wires 113, and the mesh cloth is ensured to keep the whole body not to deform when being pulled.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

Although the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims

1. The hexagonal mesh cloth is characterized by comprising a surface layer (11), a connecting layer (12) and a bottom layer (13), wherein the surface layer (11), the connecting layer (12) and the bottom layer (13) are sequentially connected from top to bottom, uniform hexagonal meshes are preset on the surface layer (11), the surface layer (11) is formed by weaving a first fiber bundle (114) and a second fiber bundle (115), the woven surface layer (11) comprises a polymer branch (111) and a split branch (112), the polymer branch (111) is formed by gathering the two split branches (112), and each split branch (112) is formed by weaving the first fiber bundle (114) and the second fiber bundle (115).

2. The hexagonal eyelet fabric having high strength according to claim 1, wherein the gathering manner of the polymer branches (111) is such that the two split branches (112) are woven by a braiding process with the fiber bundle three (116) as a center, and the split branches (112) are woven by a braiding process.

3. A hexagonal eyelet fabric having high strength according to claim 2, wherein said surface layer (11) and said bottom layer (13) are made of polyester fiber, and said connecting layer (12) is made of polyester monofilament.

4. The hexagonal mesh cloth with high strength as claimed in claim 2, wherein the position of the polymeric branch (111) is simultaneously knitted with the locking wire (113), the locking wire (113) is spirally wound around the position of the polymeric branch (111), and the head and the tail ends of the locking wire (113) simultaneously extend into the polymeric branch (111) to be fixed.

5. The hexagonal eyelet fabric with high strength according to claim 4, wherein the first fiber bundle (114) and the second fiber bundle (115) are made of terylene, and the lock yarn (113) is made of spandex.