CN214782459U - Super-soft high-resilience warp knitting double-needle bed mesh fabric - Google Patents

Abstract

The utility model discloses a super soft high resilience warp knitting double needle bed screen cloth, which is formed by weaving five guide bars of GB1, GB2, GB3, GB4 and GB5, wherein the GB1 and GB2 are all woven into the surface layer of the screen cloth by polyester yarns; the GB4 and the GB5 are both woven by adopting polyester yarns to form a bottom layer of mesh cloth; the GB3 adopts polyester high-elastic yarns to weave a middle layer of the mesh cloth, and simultaneously connects the surface layer and the bottom layer; the surface layer is of a mesh structure, and the bottom layer is of a plain weave structure. The utility model relates to a super soft high resilience warp knitting double needle bed screen cloth utilizes the peculiar bilayer structure technology of warp knitting double needle bed, weaves into the dacron high stretch yarn that has high resilience support in the middle of the two-layer surface fabric for the surface fabric has buffering and resilience travelling comfort concurrently.

Description

Super-soft high-resilience warp knitting double-needle bed mesh fabric

Technical Field

The utility model relates to a super soft high resilience warp knitting double needle bed screen cloth.

Background

The double-needle bed screen cloth is a warp knitting fabric which relies on connecting wires between a surface layer and a bottom layer to provide a supporting effect, so that the whole fabric has a caching effect. Is widely applied to shoe materials, mattresses and the like.

In the existing double-needle bed screen cloth, polyester monofilaments are mostly adopted as connecting yarns between a surface layer and a bottom layer; because polyester monofilaments are too stiff, the fabric feel is often too stiff and the comfort of use is poor for those in need of special care.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a supersoft high resilience warp knitting double needle bed screen cloth aims at solving above-mentioned problem.

In order to achieve the purpose, the technical scheme of the utility model is to design a super soft high resilience warp knitting double needle bed net cloth, which is formed by knitting five guide bars of GB1, GB2, GB3, GB4 and GB5, wherein the GB1 and GB2 are all knitted into the surface layer of the net cloth by adopting polyester yarns; the GB4 and the GB5 are both woven by adopting polyester yarns to form a bottom layer of mesh cloth; the GB3 adopts polyester high-elastic yarns to weave a middle layer of the mesh cloth, and simultaneously connects the surface layer and the bottom layer; the surface layer is of a mesh structure, and the bottom layer is of a plain weave structure.

Furthermore, 150D/48F low-elasticity polyester yarns are adopted in GB1, GB2, GB4 and GB 5; the GB3 adopts 150D/48F polyester high-stretch yarns.

Furthermore, the diameter of meshes of the surface layer is 5-6 mm, and the thickness of the surface fabric is 3-8 mm.

The utility model has the advantages and the beneficial effects that: the utility model relates to a super soft high resilience warp knitting double needle bed screen cloth utilizes the peculiar bilayer structure technology of warp knitting double needle bed, weaves into the dacron high stretch yarn that has high resilience support in the middle of the two-layer surface fabric for the surface fabric has buffering and resilience travelling comfort concurrently. Particularly, the surface layer adopts a mesh structure, and the bottom layer adopts a plain structure, so that the surface layer of the fabric has the touch feeling of ventilation, heat dissipation, softness and comfort, and the bottom layer has the hand feeling of stiffness and smoothness; while the middle layer is both supportive and resilient.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic cross-sectional view of the present invention.

Wherein, the surface layer 1, the middle layer 2 and the bottom layer 3.

Detailed Description

The following description will further describe embodiments of the present invention with reference to the accompanying drawings and examples. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

Example (b):

as shown in fig. 1 and fig. 2, the ultra-soft high-resilience warp-knitted double-needle bed mesh is formed by knitting five guide bars of GB1, GB2, GB3, GB4 and GB5, wherein the GB1 and GB2 are both knitted by polyester yarns to form a face layer 1 of the mesh; the GB4 and the GB5 are both woven into the bottom layer 3 of the mesh cloth by adopting polyester yarns; the GB3 adopts polyester high-stretch yarns to weave the middle layer 2 of the mesh cloth, and simultaneously connects the surface layer and the bottom layer; the surface layer is of a mesh structure, and the bottom layer is of a plain weave structure.

The tissue structure of GB1 in the surface layer 1 is 1-0-0-0/4-5-5-5/1-0-0/4-5-5/1-0-0/4-5-5/8-9-9/5-4-4/8-9-9/5-4-4/8-9-9-9/5-4-4//, and four-through four-hole; the tissue structure of GB2 is 8-9-9-9/5-4-4/8-9-9/5-4-4/8-9-9/5-4-4/1-0-0/4-5-5/1-0-0/4-5-5/1-0-0/4-5-5-5//, four-through four-hollow.

The tissue structure of GB4 in the bottom layer 3 is 2-2-1-0/1-1-1-2//, full penetration; the tissue structure of GB5 is 1-1-1-2/2-2-1-0//, full penetration.

The tissue structure of GB3 in the middle layer 2 is 2-3-2-1/1-0-1-2//, full penetration.

The surface layer 1 adopts the four-through four-hollow silk, and then meshes of meshes formed by weaving are 5-6 mm in diameter and 3-8 mm in thickness, so that the whole fabric has the air permeability and supporting effect; if the four-through four-hollow mode is changed into a more dense filament passing mode, the fabric is woven too densely, so that the hardness of the fabric is greatly increased, and the air impermeability is caused. If the 'four-through four-hollow' mode is changed into a looser wire-through mode, the support performance of the surface layer 1 can be greatly weakened, the connection between the connecting wires of the middle layer 2 and the surface layer 1 is looser, and the connecting wires of the middle layer 2 are prone to lodging along one direction.

The GB1, the GB2, the GB4 and the GB5 all adopt 150D/48F low-elasticity polyester yarns; the GB3 adopts 150D/48F polyester high-stretch yarns.

The mesh diameter of the surface layer is 5-6 mm, and the thickness of the fabric is 3-8 mm. The thickness of the fabric is less than 3mm, the rebound resilience effect of the connecting wires of the middle layer 2 is obviously weakened, and the rebound resilience effect cannot be achieved; the thickness of the fabric is larger than 8mm, and the connecting wires of the middle layer 2 are easy to fall down in the same direction.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the technical principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (6)

1. The utility model provides a supersoft high resilience warp knitting double needle bed screen cloth, is woven by five sley bars of GB1, GB2, GB3, GB4, GB5 and forms its characterized in that: the GB1 and the GB2 are both woven by adopting polyester yarns to form a surface layer of screen cloth; the GB4 and the GB5 are both woven by adopting polyester yarns to form a bottom layer of mesh cloth; the GB3 adopts polyester high-elastic yarns to weave a middle layer of the mesh cloth, and simultaneously connects the surface layer and the bottom layer; the surface layer is of a mesh structure, and the bottom layer is of a plain weave structure.

2. The ultra-soft high-resilience warp-knitted double-needle bed mesh fabric according to claim 1, characterized in that: the tissue structure of GB1 in the surface layer is 1-0-0-0/4-5-5/1-0-0/4-5-5/1-0-0/4-5-5/8-9-9/5-4-4/8-9-9/5-4-4/8-9-9-9/5-4-4//, four-through four-hollow; the tissue structure of GB2 is 8-9-9-9/5-4-4/8-9-9/5-4-4/8-9-9/5-4-4/1-0-0/4-5-5/1-0-0/4-5-5/1-0-0/4-5-5-5//, four-through four-hollow.

3. The ultra-soft high-resilience warp-knitted double-needle bed mesh fabric according to claim 1, characterized in that: the tissue structure of GB4 in the bottom layer is 2-2-1-0/1-1-1-2//, full penetration; the tissue structure of GB5 is 1-1-1-2/2-2-1-0//, full penetration.

4. The ultra-soft high-resilience warp-knitted double-needle bed mesh fabric according to claim 1, characterized in that: the tissue structure of GB3 in the middle layer is 2-3-2-1/1-0-1-2//, full penetration.

5. The ultra-soft high-resilience warp-knitted double-needle bed mesh fabric according to claim 1, characterized in that: the GB1, the GB2, the GB4 and the GB5 all adopt 150D/48F low-elasticity polyester yarns; the GB3 adopts 150D/48F polyester high-stretch yarns.

6. The ultra-soft high-resilience warp-knitted double-needle bed mesh fabric according to claim 1, characterized in that: the mesh diameter of the surface layer is 5-6 mm, and the thickness of the fabric is 3-8 mm.

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