CN219059287U - Moisture-absorbing sweat-releasing breathable knitted fabric - Google Patents

Abstract

The utility model relates to a moisture-absorbing sweat-releasing breathable knitted fabric, which comprises a plurality of weft yarns with moisture-absorbing sweat-releasing function yarns and one weft yarn with polyester FDY fully-stretched yarns, wherein the weft yarns are woven into a mesh structure, and the weft yarns are added into the middle positions of the weft yarns and woven into a mesh traction reinforcing structure at the mesh position; the outer two wefts of the multipath wefts are of a full-loop structure, the middle wefts of the multipath wefts adopt a structure with alternate loop formation and loop collection, and one path of wefts are hooked with the loop formation around the meshes in a net-shaped mode. Through the traction reinforcing structure of one path of weft, the stability of the meshes is increased, the shape of the through holes of the meshes cannot be deformed easily, and the quality of the fabric is ensured.

Description

Moisture-absorbing sweat-releasing breathable knitted fabric

Technical Field

The utility model belongs to a knitted fabric, and particularly relates to a moisture-absorbing sweat-releasing breathable knitted fabric.

Background

The knitted fabric is formed by bending yarns into loops by using knitting needles and mutually stringing the loops, the yarns of the knitted fabric are overlapped in the knitting process due to the looping, so that the thickness of the part of the fabric is increased, if the loops are dense, the whole weight of the fabric is easily increased, the sense of thickness is increased, meanwhile, the fabric is increased, some defects are brought to the use of the fabric, but the looping overlapping cannot be changed, so that people can lighten the weight of the fabric by designing a mesh structure, thereby lightening the weight of the fabric, and meanwhile, the through holes of the fabric are increased by meshes, thereby improving the ventilation effect.

However, in actual use, the mesh knitted fabric is mostly of a single-layer structure, and sweat on the skin can pass through the through holes due to the existence of the through holes and infiltrate yarns at the edges of the through holes, so that the fabric is attached to the skin. Meanwhile, due to the existence of the through holes, the yarns are stretched laterally at the edges of the through holes, so that the through holes are deformed, the sizes of the through holes are increased, and the surface quality defects of the fabric are caused.

Disclosure of Invention

The utility model provides a moisture-absorbing sweat-releasing breathable knitted fabric, which is integrally of a mesh knitting structure, and meshes are knitted by moisture-absorbing sweat-releasing fibers, so that the fabric has a good moisture-absorbing sweat-releasing function, and filaments are added at the positions of through holes of the meshes, so that the traction stability of yarns at the edges of the through holes is increased by the filaments, the deformation of the through holes of the fabric is avoided, and the quality of the fabric is ensured.

The specific technical scheme of the utility model is as follows: a moisture-absorbing sweat-releasing breathable knitted fabric comprises a plurality of weft yarns with moisture-absorbing sweat-releasing function yarns and one weft yarn with polyester FDY fully-stretched yarns, wherein the weft yarns are woven into a mesh structure, and the weft yarns are added into the middle positions of the weft yarns and woven into a net-shaped traction reinforcing structure at the mesh position; the outer two wefts of the multipath wefts are of a full-loop structure, the middle wefts of the multipath wefts adopt a structure with alternate loop formation and loop collection, and one path of wefts are hooked with the loop formation around the meshes in a net-shaped mode.

The multi-path weft is woven into a mesh structure to serve as a main body of the fabric, and one path of weft is woven in meshes of the fabric, so that the stability of the meshes is increased through the traction reinforcing structure of one path of weft, the shape of through holes of the meshes cannot be easily deformed, and the quality of the fabric is ensured; the traction reinforcing structure that weft woven to be all the way adopts the net, and the weft adopts polyester FDY to stretch entirely all the way, and traction reinforcing structure is thinner like this, can not be noticed easily, just can not cause the influence to the surface of the fabric yet, and the net that the while woven also can not too much blocks the mesh thru hole, keeps the ventilation effect of mesh all the time.

Preferably, the multiple weft yarns are thicker than one weft yarn, the specification of the multiple weft yarns is 100D, and the specification of one weft yarn is 30D.

Preferably, the meshes formed by the multi-path weft knitting are square mesh structures, diamond mesh structures, or hexagonal mesh structures.

Preferably, the positions of one weft corresponding to the looping positions of the plurality of weft adopt a floating structure, one weft forms a cross weaving point in the mesh, and a quadrilateral structure is formed between the cross weaving point and the hooking point of the looping around the mesh. One path of weft forms a cross weaving point in the mesh, and the formed traction reinforcing structure can generate centripetal traction force.

Preferably, the multi-path weft is four-path weft, two needle tucks and four needle loops are mutually alternated in the middle two weft of the four-path weft, the two needle tucks of the two weft are identical in position, and the four needle tucks form square meshes.

Preferably, one weft forms two crossed weaving points at the middle position of the mesh, one weft forms four quadrilateral structures at the looping of the periphery of the hooked mesh, and the edges formed by the two crossed weaving points are the shared edges of the four quadrilaterals.

Preferably, the multipath weft is five paths of weft, and three-needle looping and three-needle gathering loops are mutually alternated in the weft in the middle of the five paths of weft; five-needle looping and one-needle looping are alternated in the wefts at two sides, and the one-needle looping corresponds to the middle looping position of the middle weft; the five-needle tuck forms a diamond mesh.

Preferably, one weft forms a cross weaving point at the middle position of the mesh, one weft hooks six looping positions at the periphery of the mesh, the middle cross weaving point and the three looping positions form a quadrangle, and one weft forms two quadrangles which are symmetrical relative to the cross weaving point in the mesh.

The beneficial effects of the utility model are as follows: the multi-path weft is woven into a mesh structure to serve as a main body of the fabric, and one path of weft is woven in meshes of the fabric, so that the stability of the meshes is increased through the traction reinforcing structure of one path of weft, the shape of through holes of the meshes cannot be easily deformed, and the quality of the fabric is ensured; the traction reinforcing structure that weft woven to be all the way adopts the net, and the weft adopts polyester FDY to stretch entirely all the way, and traction reinforcing structure is thinner like this, can not be noticed easily, just can not cause the influence to the surface of the fabric yet, and the net that the while woven also can not too much blocks the mesh thru hole, keeps the ventilation effect of mesh all the time.

Drawings

FIG. 1 is a schematic view of a square mesh structure according to the present utility model;

FIG. 2 is a schematic view of a diamond mesh structure according to the present utility model;

in the figure: 1. multipath weft, 2, one path of weft, 3, square meshes, 4, cross weaving points, 5, quadrilateral structures, 6 and diamond meshes.

Detailed Description

The utility model will now be further described by way of specific examples with reference to the accompanying drawings.

Example 1:

a moisture-absorbing sweat-releasing breathable knitted fabric comprises a plurality of weft yarns 1 adopting moisture-absorbing sweat-releasing functional yarns and one weft yarn 2 adopting polyester FDY fully-stretched yarns, wherein the plurality of weft yarns are woven into a mesh structure, and one weft yarn is added into the middle position of the plurality of weft yarns and woven into a mesh traction reinforcing structure at the mesh position. The outer two wefts of the multipath wefts are of a full-loop structure, the middle wefts of the multipath wefts adopt a structure with alternate loop formation and loop collection, and one path of wefts are hooked with the loop formation around the meshes in a net-shaped mode. The specification of the multipath weft is 100D, and the specification of the multipath weft is 30D.

As shown in fig. 1, the multipath weft in the present embodiment is a four-way weft, the mesh is a square mesh 3, two needle tucks and four needle loops are mutually alternated in the middle two wefts of the four-way weft, the two needle tucks of the two wefts are positioned at the same position, and the four needle tucks form a square mesh. The position of one weft corresponding to the looping position of the plurality of weft adopts a floating structure, one weft forms a cross weaving point 4 inside the mesh, and a quadrilateral structure 5 is formed between the cross weaving point and the hooking point of the looping around the mesh. In this embodiment, two intersecting points are formed at the middle position of the mesh, and four quadrangle structures are formed by looping one weft around the hooked mesh, and the sides formed by the two intersecting points are the common sides of the four quadrangles. One weft yarn is turned at the first cross weaving point, and is turned at the second cross weaving point after hooking two loops, and is turned at the first cross weaving point after hooking two loops, and the hooking is repeated for two times again to form four quadrilaterals. The meshes at the same weft are separated by 4 loops, and the meshes at adjacent weft are separated by two loops.

Example 2:

as shown in fig. 2, the difference from embodiment 1 is that: the multipath weft is five paths of weft, three-needle looping and three-needle gathering loops are mutually alternated in the weft in the middle of the five paths of weft, five-needle looping and one-needle gathering loop are mutually alternated in the weft on two sides, the one-needle gathering loop corresponds to the middle gathering loop of the middle weft, and the five-needle gathering loop forms a diamond mesh 6.

One weft forms a cross weaving point 4 at the middle position of the mesh, one weft hooks six looping positions at the periphery of the mesh, the middle cross weaving point and the three looping positions form a quadrangle, and one weft forms two quadrangles which are symmetrical relative to the cross weaving point in the mesh. One weft yarn is turned at the cross knitting point, and forms a quadrangle at the cross knitting point after three looping is continuously and sequentially hooked, and forms a quadrangle at the cross knitting point after three looping is hooked again after turning.

The foregoing description is only a preferred embodiment of the present utility model, and is not intended to limit the present utility model, and any simple modification, variation and equivalent transformation of the above embodiment according to the technical substance of the present utility model still fall within the scope of the technical solution of the present utility model.

Claims (8)

1. The moisture-absorbing sweat-releasing breathable knitted fabric is characterized by comprising a plurality of paths of wefts adopting moisture-absorbing sweat-releasing functional yarns and one path of wefts adopting polyester FDY fully-stretched yarns, wherein the plurality of paths of wefts are woven into a mesh structure, and the one path of wefts are added into the middle positions of the plurality of paths of wefts and are woven into a mesh traction reinforcing structure at the mesh position; the outer two wefts of the multipath wefts are of a full-loop structure, the middle wefts of the multipath wefts adopt a structure with alternate loop formation and loop collection, and one path of wefts are hooked with the loop formation around the meshes in a net-shaped mode.

2. The moisture-absorbing sweat-releasing breathable knitted fabric according to claim 1, wherein the multiple paths of wefts are thicker than one path of wefts, the specification of the multiple paths of wefts is 100D, and the specification of the one path of wefts is 30D.

3. The moisture-absorbing sweat-releasing breathable knitted fabric according to claim 1, wherein the meshes woven by the plurality of weft yarns are square-mesh structures, diamond-mesh structures or hexagonal-mesh structures.

4. The moisture-absorbing sweat-releasing breathable knitted fabric according to claim 1, wherein the positions of one weft corresponding to the looping positions of multiple weft adopt a floating structure, one weft forms a cross knitting point inside a mesh, and a quadrilateral structure is formed between the cross knitting point and a hooking point of the looping of the periphery of the mesh.

5. The moisture-absorbing sweat-releasing breathable knitted fabric according to claim 1, 2, 3 or 4, wherein the multiple weft yarns are four weft yarns, two tuck loops and four needle loops are mutually alternated in two middle weft yarns of the four weft yarns, two tuck loops of the two weft yarns are positioned at the same position, and four needle tuck loops form square meshes.

6. The moisture-absorbing sweat-releasing breathable knitted fabric according to claim 5, wherein one weft forms two intersecting weaving points at the middle position of the mesh, one weft forms four quadrilateral structures at the looping of the periphery of the hooked mesh, and the edges formed by the two intersecting weaving points are the common edges of the four quadrilaterals.

7. The moisture-absorbing sweat-releasing breathable knitted fabric according to claim 1, 2, 3 or 4, wherein the plurality of weft yarns are five weft yarns, and three-needle looping and three-needle tucking are alternated in the middle weft yarn of the five weft yarns; five-needle looping and one-needle looping are alternated in the wefts at two sides, and the one-needle looping corresponds to the middle looping position of the middle weft; the five-needle tuck forms a diamond mesh.

8. The moisture-absorbing sweat-releasing breathable knitted fabric according to claim 7, wherein one weft forms a cross knitting point at the middle position of the mesh, one weft hooks six looping positions around the mesh, the middle cross knitting point and the three looping positions form a quadrangle, and one weft forms two quadrangles symmetrical to the cross knitting point in the mesh.

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