CN210309337U - Cold-proof artificial cotton fabric - Google Patents

Abstract

The utility model discloses a cold-proof artificial cotton fabric, which comprises an antifouling layer, a waterproof layer, a heat-preservation cotton cloth layer, a heat-preservation breathable layer, an inner lining cotton cloth layer, a micropore breathable layer and a flannelette layer; the bottom side of the antifouling layer is provided with a waterproof layer, the waterproof layer is arranged on a heat-insulating cotton cloth layer, a heat-insulating breathable layer is arranged below the heat-insulating cotton cloth layer, an inner cotton cloth layer is arranged on the lower surface of the heat-insulating breathable layer, a microporous breathable layer is arranged below the inner cotton cloth layer, and a flannelette layer is arranged below the microporous breathable layer; the heat-preservation breathable layer comprises a first rubber layer, a first air bag layer, a second air bag layer, a first microporous layer, a hot-pressing overlock layer, a third air bag layer, a second microporous layer and a fourth air bag layer, the hot-pressing overlock layer is arranged between the second air bag layer and the third air bag layer, the first air bag layer is arranged on the top side of the second air bag layer, and the first microporous layer is arranged between the first air bag layer and the second air bag layer. The utility model has the characteristics of it is effectual to keep warm, and it is strong to lead sweat nature, keeps inboard dry and comfortable.

Description

Cold-proof artificial cotton fabric

Technical Field

The utility model relates to a winter protection type rayon cotton surface fabric, especially one kind have keep warm effectual, lead sweat strong, keep inboard dry and comfortable winter protection type rayon cotton surface fabric.

Background

With the progress of society and the rapid development of economy, the quality of life of people is continuously improved, and meanwhile, higher requirements are also put forward on the quality of daily necessities, for example, higher requirements are put forward on the quality and the performance of textile fabrics, and in cold seasons, people hope for textile fabrics with heat preservation performance, so that the traditional heavy and clumsy dressing mode is replaced. The prior art has the following problems: the structure is complex, the skin-friendly performance and the air permeability are poor, the comfort is poor, the manufacturing cost is high, the cleaning is not easy, the skin-friendly performance and the moisture absorption are not ideal, the manufacturing cost is high, and the requirements which are continuously improved in the prior art are not met.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a have and keep warm effectually, lead sweat strong, keep inboard dry and comfortable winter protection type artificial cotton surface fabric.

The purpose of the utility model can be realized by the following technical scheme:

a cold-proof artificial cotton fabric comprises an antifouling layer, a waterproof layer, a heat-insulating cotton cloth layer, a heat-insulating breathable layer, an inner lining cotton cloth layer, a microporous breathable layer and a flannelette layer;

the bottom side of the antifouling layer is provided with a waterproof layer, the waterproof layer is arranged on a heat-insulating cotton cloth layer, a heat-insulating breathable layer is arranged below the heat-insulating cotton cloth layer, an inner cotton cloth layer is arranged on the lower surface of the heat-insulating breathable layer, a microporous breathable layer is arranged below the inner cotton cloth layer, and a flannelette layer is arranged below the microporous breathable layer;

the heat-preservation breathable layer comprises a first rubber layer, a first air bag layer, a second air bag layer, a first microporous layer, a hot-pressing overlock layer, a third air bag layer, a second microporous layer and a fourth air bag layer, the hot-pressing overlock layer is arranged between the second air bag layer and the third air bag layer, the first air bag layer is arranged on the top side of the second air bag layer, and the first microporous layer is arranged between the first air bag layer and the second air bag layer; a first rubber layer is arranged on the top side of the first air bag layer; a fourth air bag layer is arranged on the bottom side of the third air bag layer, and a second microporous layer is arranged between the fourth air bag layer and the third air bag layer; a second rubber layer is arranged at the bottom side of the fourth air bag layer;

the second air bag layer and the third air bag layer are sealed through a hot-pressing overlock layer;

the top side of the first air bag layer is sealed by a first rubber layer;

the bottom side of the third air bag layer is sealed through a second rubber layer;

a plurality of trapezoidal cavities are arranged in the second air bag layer and the third air bag layer, and the trapezoidal cavities are distributed along the upper surface and the lower surface of the hot-pressing overlocking layer according to a matrix to form the second air bag layer and the third air bag layer respectively;

the first air bag layer and the fourth air bag layer are respectively matched with the second air bag layer and the third air bag layer, a plurality of triangular cavities are arranged in the first air bag layer and the fourth air bag layer, and the triangular cavities are respectively distributed along the lower surface of the first rubber layer and the upper surface of the second rubber layer in a matrix manner;

the first microporous layer and the second microporous layer are internally provided with breathable micropores, and the breathable micropores are distributed along the first microporous layer and the second microporous layer respectively.

The utility model provides a winter protection type artificial cotton surface fabric has and keeps warm effectually, and it is strong to lead the sweat nature, keeps inboard dry and comfortable characteristics. The utility model has the advantages that: the antifouling layer prevents the outer side of the fabric from being stained, and the waterproof layer prevents water drops on the outer side of the fabric from permeating into the inner side of the fabric; the heat preservation cotton cloth layer, the heat preservation breathable layer and the lining cotton cloth layer enhance the heat preservation effect of the fabric; the microporous breathable layer is beneficial to guiding out sweat in the fabric, and the drying and heat-preserving effect in the fabric is improved; the flannelette layer has a soft skin-friendly effect, and the comfort of the fabric is improved;

the trapezoidal cavity arranged in the second air bag layer reduces the thermal conductivity coefficient of the fabric by utilizing air filled in the cavity, and improves the heat preservation capability of the fabric; the first air bag layer and the fourth air bag layer are respectively arranged at the outer sides of the second air bag layer and the third air bag layer and are matched with the second air bag layer and the third air bag layer, gaps in the second air bag layer and the third air bag layer are respectively filled with the first air bag layer and the fourth air bag layer, and the heat insulation effect of the second air bag layer and the third air bag layer is supplemented by the first air bag layer and the fourth air bag layer, so that the heat insulation capability of the fabric is further improved;

the first microporous layer and the second microporous layer are internally provided with breathable micropores, the breathable micropores are respectively distributed along the first microporous layer and the second microporous layer, sweat on the inner side of the fabric is led out of the fabric through the breathable micropores, the breathability in the fabric is enhanced, and the sweat of a person wearing the fabric is prevented from gathering in the fabric.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

Fig. 1 is a schematic structural view of the cold-proof type artificial cotton fabric of the present invention.

Detailed Description

The purpose of the utility model can be realized by the following technical scheme:

a cold-proof type artificial cotton fabric is shown in figure 1 and comprises an antifouling layer 1, a waterproof layer 2, a heat-preservation cotton cloth layer 3, a heat-preservation breathable layer, an inner lining cotton cloth layer 13, a micropore breathable layer 14 and a flannelette layer 15;

the bottom side of the antifouling layer 1 is provided with a waterproof layer 2, the waterproof layer 2 is arranged on a heat-insulating cotton cloth layer 3, a heat-insulating breathable layer is arranged below the heat-insulating cotton cloth layer 3, an inner lining cotton cloth layer 13 is arranged on the lower surface of the heat-insulating breathable layer, a micropore breathable layer 14 is arranged below the inner lining cotton cloth layer 13, and a flannelette layer 15 is arranged below the micropore breathable layer 14; the antifouling layer 1 prevents the outer side of the fabric from being stained, and the waterproof layer 2 prevents water drops on the outer side of the fabric from permeating into the inner side of the fabric; the heat preservation cotton cloth layer 3, the heat preservation breathable layer and the lining cotton cloth layer 13 enhance the heat preservation effect of the fabric; the microporous breathable layer 14 is beneficial to guiding out sweat in the fabric, and the drying and heat-preserving effect in the fabric is improved; the flannelette layer 15 has a soft skin-friendly effect, and improves the comfort of the fabric;

the heat-preservation breathable layer comprises a first rubber layer 4, a first air bag layer 5, a second air bag layer 6, a first microporous layer 7, a hot-pressing lockstitching layer 8, a third air bag layer 9, a second microporous layer 10 and a fourth air bag layer 11, the hot-pressing lockstitching layer 8 is arranged between the second air bag layer 6 and the third air bag layer 9, the first air bag layer 5 is arranged on the top side of the second air bag layer 6, and the first microporous layer 7 is arranged between the first air bag layer 5 and the second air bag layer 6; the top side of the first air bag layer 5 is provided with a first rubber layer 4; a fourth air bag layer 11 is arranged at the bottom side of the third air bag layer 9, and a second microporous layer 10 is arranged between the fourth air bag layer 11 and the third air bag layer 9; a second rubber layer 12 is arranged at the bottom side of the fourth air bag layer 11;

the second air bag layer 6 and the third air bag layer 9 are sealed through a hot-press overlock layer 8;

the top side of the first air bag layer 5 is sealed by a first rubber layer 4;

the bottom side of the third air bag layer 9 is sealed by a second rubber layer 12;

a plurality of trapezoidal cavities are arranged in the second air bag layer 6 and the third air bag layer 9, and the trapezoidal cavities are distributed along the upper surface and the lower surface of the hot-press lockrand layer 8 according to a matrix to form the second air bag layer 6 and the third air bag layer 9 respectively; the trapezoidal cavity arranged in the second air bag layer 6 reduces the thermal conductivity coefficient of the fabric by utilizing the air filled in the cavity, and improves the heat preservation capability of the fabric; the outer sides of the second air bag layer 6 and the third air bag layer 9 are respectively provided with a first air bag layer 5 and a fourth air bag layer 11 which are matched with the second air bag layer 6 and the third air bag layer 9, the first air bag layer 5 and the fourth air bag layer 11 are respectively filled in gaps in the second air bag layer 6 and the third air bag layer 9, and the heat insulation effect of the second air bag layer 6 and the third air bag layer 9 is supplemented by the first air bag layer 5 and the fourth air bag layer 11, so that the heat insulation capability of the fabric is further improved;

the first air bag layer 5 and the fourth air bag layer 11 are respectively matched with the second air bag layer 6 and the third air bag layer 9, a plurality of triangular cavities are arranged in the first air bag layer 5 and the fourth air bag layer 11, and the triangular cavities are respectively distributed along the lower surface of the first rubber layer 4 and the upper surface of the second rubber layer 12 in a matrix manner;

the first microporous layer 7 and the second microporous layer 10 are respectively provided with breathable micropores, a plurality of breathable micropores are respectively distributed along the first microporous layer 7 and the second microporous layer 10, sweat on the inner side of the fabric is led out of the fabric through the breathable micropores, the breathability in the fabric is enhanced, and the sweat of a person wearing the fabric is prevented from gathering in the garment.

The utility model discloses a theory of operation:

the utility model is provided with a waterproof layer 2 at the bottom side of an antifouling layer 1, the waterproof layer 2 is arranged on a heat preservation cotton cloth layer 3, a heat preservation breathable layer is arranged below the heat preservation cotton cloth layer 3, an inner lining cotton cloth layer 13 is arranged at the lower surface of the heat preservation breathable layer, a micropore breathable layer 14 is arranged below the inner lining cotton cloth layer 13, and a flannelette layer 15 is arranged below the micropore breathable layer 14; the antifouling layer 1 prevents the outer side of the fabric from being stained, and the waterproof layer 2 prevents water drops on the outer side of the fabric from permeating into the inner side of the fabric; the heat preservation cotton cloth layer 3, the heat preservation breathable layer and the lining cotton cloth layer 13 enhance the heat preservation effect of the fabric; the microporous breathable layer 14 is beneficial to guiding out sweat in the fabric, and the drying and heat-preserving effect in the fabric is improved; the flannelette layer 15 has a soft skin-friendly effect, and improves the comfort of the fabric;

the trapezoidal cavity arranged in the second air bag layer 6 reduces the thermal conductivity coefficient of the fabric by utilizing the air filled in the cavity, and improves the heat preservation capability of the fabric; the outer sides of the second air bag layer 6 and the third air bag layer 9 are respectively provided with a first air bag layer 5 and a fourth air bag layer 11 which are matched with the second air bag layer 6 and the third air bag layer 9, the first air bag layer 5 and the fourth air bag layer 11 are respectively filled in gaps in the second air bag layer 6 and the third air bag layer 9, and the heat insulation effect of the second air bag layer 6 and the third air bag layer 9 is supplemented by the first air bag layer 5 and the fourth air bag layer 11, so that the heat insulation capability of the fabric is further improved;

the first microporous layer 7 and the second microporous layer 10 are respectively provided with breathable micropores, a plurality of breathable micropores are respectively distributed along the first microporous layer 7 and the second microporous layer 10, sweat on the inner side of the fabric is led out of the fabric through the breathable micropores, the breathability in the fabric is enhanced, and the sweat of a person wearing the fabric is prevented from gathering in the garment.

The utility model provides a winter protection type artificial cotton surface fabric has and keeps warm effectually, and it is strong to lead the sweat nature, keeps inboard dry and comfortable characteristics. The utility model has the advantages that: the antifouling layer prevents the outer side of the fabric from being stained, and the waterproof layer prevents water drops on the outer side of the fabric from permeating into the inner side of the fabric; the heat preservation cotton cloth layer, the heat preservation breathable layer and the lining cotton cloth layer enhance the heat preservation effect of the fabric; the microporous breathable layer is beneficial to guiding out sweat in the fabric, and the drying and heat-preserving effect in the fabric is improved; the flannelette layer has a soft skin-friendly effect, and the comfort of the fabric is improved;

the trapezoidal cavity arranged in the second air bag layer reduces the thermal conductivity coefficient of the fabric by utilizing air filled in the cavity, and improves the heat preservation capability of the fabric; the first air bag layer and the fourth air bag layer are respectively arranged at the outer sides of the second air bag layer and the third air bag layer and are matched with the second air bag layer and the third air bag layer, gaps in the second air bag layer and the third air bag layer are respectively filled with the first air bag layer and the fourth air bag layer, and the heat insulation effect of the second air bag layer and the third air bag layer is supplemented by the first air bag layer and the fourth air bag layer, so that the heat insulation capability of the fabric is further improved;

the first microporous layer and the second microporous layer are internally provided with breathable micropores, the breathable micropores are respectively distributed along the first microporous layer and the second microporous layer, sweat on the inner side of the fabric is led out of the fabric through the breathable micropores, the breathability in the fabric is enhanced, and the sweat of a person wearing the fabric is prevented from gathering in the fabric.

The foregoing is merely exemplary and illustrative of the structure of the invention, and various modifications, additions and substitutions as described in the detailed description may be made by those skilled in the art without departing from the structure or exceeding the scope of the invention as defined in the claims.

Claims (6)

1. A cold-proof type artificial cotton fabric comprises an antifouling layer (1), a waterproof layer (2), a heat-preservation cotton cloth layer (3), a heat-preservation breathable layer, an inner lining cotton cloth layer (13), a micropore breathable layer (14) and a flannelette layer (15), and is characterized in that;

a waterproof layer (2) is arranged on the bottom side of the antifouling layer (1), the waterproof layer (2) is arranged on the heat-insulating cotton cloth layer (3), a heat-insulating breathable layer is arranged below the heat-insulating cotton cloth layer (3), an inner lining cotton cloth layer (13) is arranged on the lower surface of the heat-insulating breathable layer, a microporous breathable layer (14) is arranged below the inner lining cotton cloth layer (13), and a flannelette layer (15) is arranged below the microporous breathable layer (14);

the heat-preservation breathable layer comprises a first rubber layer (4), a first air bag layer (5), a second air bag layer (6), a first microporous layer (7), a hot-pressing edge locking layer (8), a third air bag layer (9), a second microporous layer (10) and a fourth air bag layer (11), the hot-pressing edge locking layer (8) is arranged between the second air bag layer (6) and the third air bag layer (9), the first air bag layer (5) is arranged on the top side of the second air bag layer (6), and the first microporous layer (7) is arranged between the first air bag layer (5) and the second air bag layer (6); a first rubber layer (4) is arranged on the top side of the first air bag layer (5); a fourth air bag layer (11) is arranged at the bottom side of the third air bag layer (9), and a second microporous layer (10) is arranged between the fourth air bag layer (11) and the third air bag layer (9); a second rubber layer (12) is arranged at the bottom side of the fourth air bag layer (11);

the first microporous layer (7) and the second microporous layer (10) are respectively provided with a plurality of breathable micropores, and the breathable micropores are respectively distributed along the first microporous layer (7) and the second microporous layer (10).

2. The cold-proof type artificial cotton cloth fabric is characterized in that the second air bag layer (6) and the third air bag layer (9) are sealed through a hot-press overlock layer (8).

3. The cold-proof type rayon cotton fabric as claimed in claim 1, wherein said first air bag layer (5) is sealed at its top side by a first rubber layer (4).

4. The cold-proof type rayon cotton fabric as claimed in claim 1, wherein the bottom side of said third air bag layer (9) is sealed by a second rubber layer (12).

5. The cold-proof type artificial cotton cloth fabric is characterized in that a plurality of trapezoidal cavities are arranged in the second air bag layer (6) and the third air bag layer (9), and the trapezoidal cavities are distributed along the upper surface and the lower surface of the hot-press lock edge layer (8) in a matrix manner to form the second air bag layer (6) and the third air bag layer (9) respectively.

6. The cold-proof type rayon cotton fabric as claimed in claim 1, wherein the first air bag layer (5) and the fourth air bag layer (11) are respectively matched with the second air bag layer (6) and the third air bag layer (9), a plurality of triangular cavities are arranged in the first air bag layer (5) and the fourth air bag layer (11), and the triangular cavities are respectively distributed along the lower surface of the first rubber layer (4) and the upper surface of the second rubber layer (12) in a matrix manner.

Images