CN218257188U - Moisture-conducting and breathable knitted fabric - Google Patents

Abstract

The utility model discloses a lead ventilative looped fabric of moisture belongs to fabrics technical field, by outer to interior be close skin layer and ventilative layer in proper order, close skin layer forms the coil one that has the spiral portion through the coiling through first yarn, close skin layer is formed through the mutual cluster cover in coil one bottom with adjacent first yarn, ventilative layer is woven through two yarns and is formed and form fat flower tissue, and close skin layer and ventilative layer complex and form, the utility model discloses a string hang the ventilative layer of this product through spiral portion and adjacent coil, and reduce with the contact surface of health after, reduced the absorption of sweat, secondly weaving the back of forming through adopting single fat tissue with ventilative layer for crisscross around third yarn and the fourth yarn, make ventilation effect increase to avoid making ventilative complete adhesion appear in close skin layer, at last through inhaling the sweat that wet yarn is good conduction, and accelerate dredging and leading and the layer of sweat in the health.

Description

Moisture-conducting and breathable knitted fabric

Technical Field

The utility model discloses a looped fabric especially relates to a lead ventilative looped fabric of wet.

Background

The knitted fabric is a fabric formed by bending yarns into loops by using a knitting needle and mutually stringing and sleeving the yarns, and is divided into a warp knitted fabric and a weft knitted fabric.

The current looped fabric is behind the sweat that absorbs the human body, because the sweat is difficult for following and discharges in the looped fabric, and the looped fabric can lead to piling up in not in time discharging, the sweat is piled up and is soaked the looped fabric, can hug closely and adsorb on the health because of sweat from this, hug closely then seal coil and ventilative hole on the looped fabric from this, lead to the reduction of gas permeability from this, consequently propose a new solution for the looped fabric has better wet and perspire effect of leading.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a moisture-permeable and breathable knitted fabric in order to solve the problems.

In order to achieve the above purpose, the utility model provides a following technical scheme: the utility model provides a lead ventilative looped fabric of wet, by outer to interior be close skin layer and ventilative layer in proper order, close skin layer forms the coil one that has the spiral portion through the coiling through first yarn, close skin layer forms through the mutual cluster cover in coil one bottom of coil one and adjacent first yarn, ventilative layer is woven through two yarns and is formed and form fat flower tissue, and close skin layer and ventilative layer complex and form.

Through adopting above-mentioned technical scheme, first yarn spiral portion through close skin layer is located to cluster with the coil of adjacent first yarn and is hung, make adjacent yarn cluster hang the department comparatively thick and be bellied surface structure from this, then have certain space and reduce the contact surface with health and skin between coil one and adjacent coil one when weaving from this, reach from this and reduce the adhesion and feel, secondly for fat flower tissue through ventilative layer, and make the mesh hole between the coil comparatively wide, and the structure is comparatively stable, avoid making the condition that the fabric takes off easily appear in the pulling, and make the mesh etc. on coil and ventilative layer comparatively stable can not deform and seal, from this keep ventilative effect throughout.

Preferably, the first yarns are provided with second yarns at the spiral part in a penetrating manner, and the second yarns are uniformly distributed.

Through adopting above-mentioned technical scheme, through wearing to be equipped with the second yarn in spiral portion department, wear to locate spiral portion at the second yarn for the difficult stability of loosing and having increased a holistic structure of close skin layer of spiral portion has secondly reduced the density of weaving, has increased the ventilation effect of surface fabric.

Preferably, the air-permeable layer is formed by winding and weaving third yarns and fourth yarns in a longitudinal row-by-row manner at intervals to form a plurality of second loops, the second loops are mutually interlooped with the adjacent second yarns and third yarns, the second loops on the third yarns and the fourth yarns are arranged in a staggered manner, and a plurality of mesh holes are formed by the loops between the adjacent second and fourth yarns.

By adopting the technical scheme, the fat flower tissue of the breathable layer is coiled by the third yarn and the fourth yarn and is serially hung with the adjacent second coil to form a single fat tissue, the two line positions of the third yarn and the fourth yarn are staggered up and down, and the third yarn and the fourth yarn are arranged alternately and staggered in longitudinal rows, so that the coil and the loop dry position formed by the third yarn and the fourth yarn are provided with certain gaps, sweat is adhered to the yarns, and when the textile yarns are adhered to a body, the third yarn and the fourth yarn are in a front-back alternating state to enable gas to still well circulate to the skin-friendly layer, so that the gas still circulates at the yarn positions which are not completely adhered to the skin-friendly layer to accelerate the drying of the skin-friendly layer, and mesh holes formed between the third yarn and the fourth yarn which are adjacently staggered can also be in a staggered state, and the breathable effect is kept all the time.

Preferably, the mesh holes at the breathable layer are attached to one part of the coil with the spiral part at the skin-friendly layer, the skin-friendly layer is provided with a piece of moisture absorption yarn at the part of the coil, and the moisture absorption yarn penetrates through the surface of the breathable layer through up-down floating type and is attached to the extension line at the bottom of the coil in a floating manner.

By adopting the technical scheme, the moisture absorption yarn is inserted into one position of the skin-friendly layer coil, the moisture absorption yarn is directly contacted with a body, the area of the coil in body contact is reduced, the sweat absorbed by the coil is also reduced, the condition that the coil is directly and closely attached to the skin to cause the coil to be closed is avoided, secondly, after the sweat absorbed by the moisture absorption yarn is absorbed, and the sweat of the moisture absorption yarn is conducted to the whole body, the moisture absorption yarn far away from the coil is extended out of the breathable layer, and the moisture absorption yarn is suspended and rewound downwards along the extension line at the bottom of the coil, so that the moisture absorption yarn can be directly contacted with the outside, and the moisture absorption yarn is staggered front and back in a third coil and a fourth yarn, therefore, the space between the third coil and the fourth yarn is increased after the moisture absorption yarn is inserted, the gas can better circulate, the moisture absorption yarn is located at the gap between the third coil and the fourth yarn, the circulating gas can be blown through the moisture absorption yarn to accelerate drying, and the phenomenon that the coil is closely attached to the moisture absorption yarn is soaked by the sweat and adsorbed on the body is avoided, and the moisture absorption yarn has a good moisture conduction effect and a knitted fabric has a good moisture conduction effect.

Preferably, the moisture-absorbing yarn is modal fiber.

By adopting the technical scheme, the excellent hygroscopicity of the modal fiber enables the moisture-absorbing fiber bundle to be in contact with the skin to enable sweat to be dredged more easily, so that the moisture-absorbing yarn is in contact with sweat on a body and can conduct the sweat to one side of the breathable layer.

Preferably, the first yarns and the second yarns are made of water-repellent modified terylene.

Through adopting above-mentioned technical scheme, the modified dacron that refuses water forms nanometer network structure through the mode of sputtering the target with the atom sputtering that polytetrafluoroethylene section was bombarded to the dacron surface, forms and refuses water the structure to have excellent hydrophobicity, then when making first yarn and second yarn contact from this, avoid excessively being infected with the condition of sweat, and avoid soaking the condition of sweat with the coil one department that the moisture absorption yarn is hugged closely and appear.

Compared with the prior art, the beneficial effects of the utility model are that:

through hanging spiral portion and adjacent coil cluster with the ventilative layer of this product, and reduce behind the contact surface with the health, the absorption of sweat has been reduced, secondly adopt the single fat tissue to weave the back that forms through the layer of will breathing freely, make third yarn and fourth yarn crisscross from beginning to end, make ventilation effect increase, and avoid making ventilative complete adhesion appear in the condition on close skin layer, at last through the sweat conduction that the yarn is good that absorbs moisture, and accelerate dredging and the perspiring of sweat in the health.

Drawings

Fig. 1 is a schematic structural diagram of a moisture-conductive and breathable knitted fabric;

FIG. 2 is a weave diagram of a skin-friendly layer;

FIG. 3 is a weave structure diagram of the breather layer;

fig. 4 is a schematic view of a weaving structure of a moisture-permeable and breathable knitted fabric.

Reference numerals: 1. a skin-friendly layer; 2. a breathable layer; 3. a spiral portion; 4. a moisture-absorbing yarn; 5. a first coil; 6. a first yarn; 7. a second yarn; 8. a third yarn; 9. a fourth yarn; 10. a second coil; 11. mesh holes.

Detailed Description

In the following description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like refer to the orientation or position relationship shown in the drawings, and are only for convenience of description and simplification of the description, but do not refer to or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus are not to be construed as limiting the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

A moisture-conducting and breathable knitted fabric is shown in figures 1-4, and sequentially comprises a skin-friendly layer 1 and a breathable layer 2 from outside to inside, wherein the skin-friendly layer 1 is formed by winding a first yarn 6 to form a coil I5 with a spiral part 3, the skin-friendly layer 1 is formed by mutually stringing and sleeving the coil I5 and the bottom of the coil I5 of the adjacent first yarn 6, the spiral part 3 of the first yarn 6 of the skin-friendly layer 1 is strung and hung with the coil I5 of the adjacent first yarn 6, so that the strung and hanging part of the adjacent yarns is thick and has a convex surface structure, a certain space is formed between the coil I5 and the adjacent coil I5 during weaving, the contact surface with a body and the skin is reduced, the adhesion feeling is reduced, and the breathable layer 2 is woven by two yarns to form a fat flower tissue, and close skin layer 1 and ventilative layer 2 complex forms, secondly for fat flower tissue through ventilative layer 2, and make mesh hole 11 between the coil comparatively widely, and the structure is comparatively stable, avoid making the easy condition that takes off of fabric appear in the pulling, and make the mesh etc. on coil and ventilative layer 2 comparatively stable can not deform and seal, from this keep ventilative effect throughout, and first yarn 6 is located spiral portion 3 department and wears to be equipped with second yarn 7, and second yarn 7 evenly arranges, through wearing to be equipped with second yarn 7 in spiral portion 3 department, spiral portion 3 is worn to locate at second yarn 7, make spiral portion 3 difficult loose and increased the stability of an holistic structure of close skin layer 1, secondly reduced the density of weaving, the ventilation effect of surface fabric has been increased. First yarn 6 all adopts the modified dacron of refusing water with second yarn 7, and the modified dacron of refusing water forms nanometer network structure through the mode of sputter target with the atom sputter of polytetrafluoroethylene section to the dacron surface, forms water repellent structure to have excellent hydrophobicity, then when making first yarn 6 and the contact of second yarn 7 from this, avoid excessively being infected with the condition of sweat, and avoid appearing with the condition that 5 departments of coil of 4 hugging closely of moisture absorption yarn soaked the sweat.

The breathable layer 2 is woven by the third yarns 8 and the fourth yarns 9 in a longitudinal line-by-line winding mode at intervals to form a plurality of loops two 10, the embossed texture of the breathable layer 2 is wound by the third yarns 8 and the fourth yarns 9 to form loops and is hung with the adjacent loops two 10 in series, the loops two 10 are sleeved with the adjacent fourth yarns 9 and the third yarns 8 in series, the loops two 10 on the third yarns 8 and the fourth yarns 9 are arranged in a staggered mode, the loops two 10 between the adjacent loops form a plurality of mesh holes 11 to form a single-embossed texture, the line positions of the third yarns 8 and the line positions of the fourth yarns 9 are arranged in a staggered mode of up-down staggering, and the third yarns 8 and the line positions of the fourth yarns 9 are arranged in an alternating mode in the longitudinal line, so that the loops two 10 and the loop dry positions formed by the third yarns 8 and the fourth yarns 9 are provided with certain gaps, therefore when sweat adheres to the yarns and the fabric yarns are adhered to the body, the front-back alternating state is formed by the third yarns 8 and the fourth yarns 9, so that the air can well flow to the skin-friendly layer 1, the air can be kept in the skin-friendly layer, and the effect of the three-skin-friendly layer and the adjacent loops and the third yarns can be kept in the interlaced mode of the adjacent loops and the third yarns and the adjacent mesh holes can be kept in the skin-friendly layer 1.

The mesh holes 11 at the position of the breathable layer 2 are attached to the coil I5 with the spiral part 3 at the position of the skin-friendly layer 1, the moisture-absorbing yarn 4 is arranged at the position of the coil I, the moisture-absorbing yarn 4 is made of modal fiber, the excellent moisture absorption of the modal fiber enables moisture-absorbing fiber bundles to be in contact with the skin to enable sweat to be more easily dredged, therefore, the moisture-absorbing yarn 4 is in contact with sweat on the body and can conduct the sweat to one side of the breathable layer 2, the moisture-absorbing yarn 4 penetrates through the surface of the breathable layer 2 in an up-and-down floating mode and is in suspension fit with the extension line at the bottom of the coil I, the moisture-absorbing yarn 4 is inserted into the coil I5 at the position of the skin-friendly layer 1, the moisture-absorbing yarn 4 is in direct contact with the body, the area of the coil I5 in contact with the body is reduced, the sweat absorbed by the coil I5 is also reduced, and the situation that the coil I5 is directly attached to the skin to cause the coil I5 to be closed is avoided, secondly behind the sweat that moisture absorption yarn 4 adsorbs, and when making moisture absorption yarn 4 sweat conduction whole piece, and keep away from moisture absorption yarn 4 of coil one 5 department and extend to ventilative layer 2 outside, and the suspension is along the extension line of coil two 10 bottoms downwards rewinder again, make moisture absorption yarn 4 directly to contact with the external world, and in the crisscross mode of third coil and fourth yarn 9 front and back, then make the space increase between third coil and the fourth yarn 9 after moisture absorption yarn 4 liner, and make gaseous better circulation, and be located the position in the gap between third coil and fourth yarn 9 at moisture absorption yarn 4, can be blown through by the gas that circulates and accelerated the drying, avoid appearing coil one 5 and being soaked by sweat and hugging closely and adsorbing on the health from this, and still make the looped fabric have better moisture conduction and sweat-releasing effect.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (6)

1. The utility model provides a lead ventilative looped fabric of wet which characterized in that: the skin-friendly fabric is characterized by comprising a skin-friendly layer (1) and a breathable layer (2) from outside to inside in sequence, wherein the skin-friendly layer (1) is formed by winding a first coil (5) with a spiral part (3) through a first yarn (6), the skin-friendly layer (1) is formed by mutually stringing and sleeving the first coil (5) and the bottom of the first coil (5) of the adjacent first yarn (6), the breathable layer (2) is formed by weaving two yarns and forms a fat flower tissue, and the skin-friendly layer (1) and the breathable layer (2) are compounded.

2. The moisture-conductive breathable knitted fabric according to claim 1, wherein: the first yarns (6) are positioned at the spiral part (3) and penetrate through second yarns (7), and the second yarns (7) are uniformly distributed.

3. The moisture-conductive breathable knitted fabric according to claim 1, wherein: the breathable layer (2) is woven by the third yarns (8) and the fourth yarns (9) in a longitudinal one-line one-interval winding mode to form a plurality of second coils (10), the coils are mutually sleeved with the adjacent second yarns (7) and the third yarns (8), the second coils on the third yarns (8) and the fourth yarns (9) are arranged in a staggered mode, and the coils between the adjacent second coils form a plurality of mesh holes (11).

4. The moisture conducting and breathable knitted fabric according to claim 3, wherein: mesh holes (11) at the breathable layer (2) are attached to a coil I (5) with a spiral part (3) at the skin-friendly layer (1), a piece of moisture absorption yarn (4) is lined at the coil position of the skin-friendly layer (1), and the moisture absorption yarn (4) penetrates through the surface of the breathable layer (2) through up-and-down floating and is attached to an extension line at the bottom of the coil in a suspending manner.

5. The moisture conducting and breathable knitted fabric according to claim 4, wherein: the moisture absorption yarns (4) adopt modal fibers.

6. The moisture-conductive breathable knitted fabric according to claim 1, wherein: the first yarns (6) and the second yarns (7) are made of water-repellent modified terylene.

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