CN221022677U - Moisture-absorbing heating acrylic thermal raised cloth - Google Patents

Abstract

An absorbent heating acrylic warm-keeping raised fabric belongs to the technical field of raised fabrics; including the cloth body, the inside of cloth body is equipped with the moisture absorption layer, the moisture absorption layer includes flax fiber, flax fiber locates the inside of cloth body, flax fiber's one side and be located the inside of cloth body are equipped with separation gauze, separation gauze keeps away from flax fiber's one side and is located the inside of cloth body and is equipped with polyester fiber, polyester fiber keeps away from separation gauze's one side and is located the inside of cloth body and is equipped with first base member, and first base member and cloth body sewing up and be connected. According to the moisture-absorbing and heating acrylic thermal napping cloth, moisture of tens of times of the weight of the napping cloth can be absorbed through the linen fiber, the linen has remarkable air permeability due to the structural characteristics of the linen fiber, sweat or external moisture can be evaporated quickly after being absorbed, and the moisture absorption effect of the napping cloth can be effectively improved through the fact that the linen fiber is matched with the polyester fiber.

Description

Moisture-absorbing heating acrylic thermal raised cloth

Technical Field

The utility model belongs to the technical field of raised cloth, and particularly relates to moisture-absorbing and heating acrylic warm-keeping raised cloth.

Background

The napped fabric is cotton fabric with a plump napped surface. The single-sided velvet and the double-sided velvet are divided into two types. The single-sided velvet tissue is mainly twill and is also called serge velvet; the double-faced velvet is mainly plain weave. The flannelette is soft, comfortable to wear, good in warmth retention and suitable for being used as winter underwear and night wear. The printed flannelette and the yarn-dyed strip flannelette are suitable for being used as spring and autumn outerwear for women and children. The flannelette printed with animal, flower and fairy tale patterns is also called as Beibei velvet, and is suitable for children. Natural color velvet, bleached velvet, assorted velvet, sesame velvet are commonly used as winter clothing, gloves, shoe and hat covers, etc. The napping of the flannelette is formed by repeatedly acting on the tip of a steel wire needle of the napping machine for a plurality of times and pulling up a part of fibers on the cloth surface of the grey cloth, and the napping is required to be short, dense and uniform.

The existing fleece on the market has poor moisture absorption effect during use, so that foreign moisture is easy to invade, and the problem that the vapor on the fleece is inconvenient to evaporate is caused.

Disclosure of Invention

The utility model provides a moisture-absorbing heating acrylic warm-keeping fleece, which solves the problem that moisture on the fleece is inconvenient to evaporate due to invasion of external moisture.

In order to solve the technical problems, the moisture-absorbing and heating acrylic warm-keeping fleece comprises a cloth body, wherein a moisture absorption layer is arranged in the cloth body, the moisture absorption layer comprises flax fibers, the flax fibers are arranged in the cloth body, separation gauze is arranged on one side of the flax fibers and positioned in the cloth body, polyester fibers are arranged on one side of the separation gauze, far away from the flax fibers, and positioned in the cloth body, a first substrate is arranged on one side, far away from the separation gauze, and positioned in the cloth body, and is connected with the cloth body in a sewing mode, a heating layer is arranged in the first substrate, and the heating layer comprises acrylic fibers.

Preferably, a graphene layer is arranged on one side of the acrylic fiber and positioned in the first matrix, and an antistatic layer is arranged on one side of the graphene layer away from the acrylic fiber and positioned in the first matrix.

Preferably, the antistatic layer is far away from one side of the graphene layer and is positioned in the first matrix, a second matrix is arranged in the antistatic layer, and the second matrix is connected with the first matrix in a sewing mode.

Preferably, a wind-proof layer is arranged at one side of the second substrate and positioned in the first substrate, and the wind-proof layer is made of silk fabric.

Preferably, the windproof layer is far away from one side of the second substrate and positioned in the first substrate, and a cotton yarn layer is arranged on the inner side of the windproof layer, and a cotton-hemp layer is arranged on the inner side of the first substrate.

Preferably, the cotton-flax layer is far away from one side of the cotton yarn layer and is positioned outside the cloth body, and the nylon layer is connected with the cloth body in a sewing way.

Compared with the related art, the moisture-absorbing and heating acrylic warm-keeping fleece has the following beneficial effects:

The fleece can absorb water of tens times of the weight of the fleece through the flax fibers, the flax has extraordinary air permeability due to the structural characteristics of the flax fibers, sweat or external moisture can be evaporated quickly after being absorbed, and the moisture absorption effect of the fleece can be effectively improved by the cooperation of the flax fibers and the polyester fibers.

Drawings

FIG. 1 is a schematic diagram of a preferred embodiment of a moisture-absorbing and heat-generating acrylic thermal fleece according to the present utility model;

FIG. 2 is a schematic view of the absorbent layer shown in FIG. 1;

FIG. 3 is a schematic view of the internal structure of the first substrate shown in FIG. 1;

fig. 4 is a schematic view of the heat generating layer shown in fig. 1.

Reference numerals in the drawings: 1. a cloth body; 2. a moisture absorption layer; 21. flax fibers; 22. separating gauze; 23. a polyester fiber; 3. a first substrate; 4. a heat generating layer; 41. acrylic fiber; 42. a graphene layer; 43. an antistatic layer; 44. a second substrate; 5. an air-proof layer; 6. a cotton yarn layer; 7. a cotton-flax layer; 8. nylon layer.

Detailed Description

The technical scheme of the utility model is further specifically described below through examples and with reference to the accompanying drawings.

Examples: the utility model will be further described with reference to the drawings and embodiments.

Examples: the utility model provides a moisture absorption heating acrylic fiber cold-proof play cotton flannel, as shown in fig. 1-4, a moisture absorption heating acrylic fiber cold-proof play cotton flannel includes the cloth body 1, the inside of cloth body 1 is equipped with hygroscopic layer 2, hygroscopic layer 2 includes flax fiber 21, flax fiber 21 locates the inside of cloth body 1, one side of flax fiber 21 and be located the inside of cloth body 1 is equipped with separation gauze 22, separation gauze 22 is kept away from flax fiber 21 one side and is located the inside of cloth body 1 is equipped with polyester fiber 23, one side of polyester fiber 23 is kept away from separation gauze 22 and be located the inside of cloth body 1 is equipped with first base member 3, and first base member 3 and cloth body 1 stitch-connect, the inside of first base member 3 is equipped with heating layer 4, heating layer 4 includes acrylic fiber 41;

The moisture absorption performance of the linen fiber 21 is that the ranking of all the fibers is relatively forward, the linen fiber 21 can absorb water with the weight of tens of times, the linen fiber 21 has the remarkable air permeability due to the structural characteristics, sweat or external moisture can be evaporated quickly after being absorbed, and the moisture absorption effect of the fleece can be effectively improved by matching the linen fiber 21 with the polyester fiber 23.

A graphene layer 42 is arranged on one side of the acrylic fiber 41 and positioned in the first matrix 3, and an antistatic layer 43 is arranged on one side of the graphene layer 42 away from the acrylic fiber 41 and positioned in the first matrix 3;

The acrylic fiber 41 has similar performance to wool, the elasticity of the acrylic fiber is even better than that of wool, the acrylic fiber 41 has better rebound rate under the condition of greatly rising, the acrylic fiber 41 is in a fluffy state, has soft feel to the touch, has good warmth retention property, and can generate visible heating value or heat by matching with the graphene layer 42.

The antistatic layer 43 is far away from one side of the graphene layer 42 and is positioned in the first matrix 3, a second matrix 44 is arranged in the antistatic layer, and the second matrix 44 is connected with the first matrix 3 in a sewing way;

The anti-static layer 43 can better separate the graphene layers 42, and can avoid the situation that the raised cloth is easy to static after being manufactured.

One side of the second matrix 44 and positioned in the first matrix 3 is provided with a wind-proof layer 5, and the wind-proof layer 5 is made of silk fabric;

The wind-proof layer 5 can prevent wind from penetrating into the raised cloth, so that the raised cloth can keep warm better after being made into clothes.

The side of the wind-proof layer 5 away from the second matrix 44 and positioned in the first matrix 3 is provided with a cotton yarn layer 6, and the side of the cotton yarn layer 6 away from the wind-proof layer 5 and positioned in the first matrix 3 is provided with a cotton-hemp layer 7;

the cotton-flax layer 7 can improve the dryness of the fleece.

The cotton-flax layer 7 is arranged at one side far away from the cotton yarn layer 6 and positioned outside the cloth body 1, and the nylon layer 8 is connected with the cloth body 1 in a sewing way;

the nylon layer 8 can improve the wear resistance of the fleece and has a certain moisture absorption effect.

The utility model provides a moisture-absorbing and heating acrylic warm-keeping fleece, which has the following working principle:

The first step: firstly, the moisture absorption performance of the fleece through the linen fiber 21 is that all the fibers are ranked forward, the linen fiber 21 can absorb water with the weight of tens of times of the linen fiber 21, the linen has extraordinary air permeability due to the structural characteristics of the linen fiber 21, and sweat or external moisture can be evaporated quickly after being absorbed;

And a second step of: acrylic fiber 41 has similar performance to wool, has elasticity even exceeding that of wool, has good rebound rate under the condition of large-scale rising, and combines with graphene layer 42 to ensure that the raised cloth has excellent heat preservation performance;

And a third step of: the wind-proof layer 5 plays a role in wind prevention on the raised cloth, the cotton-flax layer 7 is matched to improve the dry performance of the raised cloth, and the nylon layer 8 is used for improving the wear resistance of the raised cloth.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present utility model.

Claims (6)

1. The utility model provides a wet absorption heating acrylic fiber cold-proof play cotton flannel, includes the cloth body (1), its characterized in that: the inside of cloth body (1) is equipped with hygroscopic layer (2), hygroscopic layer (2) include flax fiber (21), flax fiber (21) locate the inside of cloth body (1), flax fiber (21) one side and be located the inside of cloth body (1) are equipped with separation gauze (22), separation gauze (22) keep away from flax fiber (21) one side and be located the inside of cloth body (1) and be equipped with polyester fiber (23), polyester fiber (23) keep away from separation gauze (22) one side and be located the inside of cloth body (1) and be equipped with first base member (3), and first base member (3) are sewed up with cloth body (1) and are connected, the inside of first base member (3) is equipped with layer (4) that generates heat, layer (4) that generates heat includes acrylic fiber (41).

2. The moisture-absorbing and heating acrylic warm-keeping fleece according to claim 1, wherein a graphene layer (42) is arranged on one side of the acrylic fiber (41) and positioned in the cloth body (1), and an antistatic layer (43) is arranged on one side of the graphene layer (42) away from the acrylic fiber (41) and positioned in the cloth body (1).

3. The moisture-absorbing and heating acrylic warm-keeping fleece according to claim 2, wherein the antistatic layer (43) is far away from one side of the graphene layer (42) and is positioned in the first substrate (3), a second substrate (44) is arranged in the first substrate (3), and the second substrate (44) is connected with the first substrate (3) in a sewing mode.

4. A moisture-absorbing and heat-generating acrylic warm-keeping fleece according to claim 3, wherein a wind-proof layer (5) is arranged on one side of the second substrate (44) and positioned in the first substrate (3), and the wind-proof layer (5) is made of silk fabric.

5. The moisture-absorbing and heating acrylic warm-keeping fleece according to claim 4, wherein the windproof layer (5) is far away from one side of the second substrate (44) and positioned in the first substrate (3) and is provided with a cotton yarn layer (6), and the cotton yarn layer (6) is far away from one side of the windproof layer (5) and positioned in the cloth body (1) and is provided with a cotton-hemp layer (7).

6. The moisture-absorbing and heating acrylic warm-keeping fleece according to claim 5, wherein a nylon layer (8) is arranged outside the first substrate (3) on one side of the cotton-flax layer (7) far away from the cotton yarn layer (6), and the nylon layer (8) is connected with the fleece body (1) in a sewing mode.