CN212666883U - Breathable woolen fabric - Google Patents

Abstract

The utility model relates to a surface fabric especially relates to a ventilative formula woolen fabric, and its technical scheme main points lie in, including the woolen layer, be equipped with fine hair on the woolen layer, one side that fine hair was kept away from on the woolen layer is equipped with the base cloth layer, is equipped with the thickening layer between base cloth layer and the woolen layer, is equipped with a plurality of the same air exchange chamber in the thickening layer, and the air exchange chamber is the rhombus, and one side complex connection that the woolen layer was kept away from on the base cloth layer has the polar fleece layer of shaking. The application has the advantages that the woolen fabric has good heat preservation performance and has a ventilation effect.

Description

Breathable woolen fabric

Technical Field

The application relates to a fabric, in particular to a breathable woolen fabric.

Background

Woolen cloth is a general name of fabrics woven by various kinds of wool and cashmere, and is usually made into formal and high-grade clothes such as dresses, suits, overcoats and the like. The existing woolen fabric cannot have both air permeability and heat retention performance.

SUMMERY OF THE UTILITY MODEL

In order to enable the woolen fabric to have good heat preservation performance and good air permeability, the application provides the air-permeable woolen fabric.

The application provides a ventilative formula woolen fabric adopts following technical scheme:

the utility model provides a ventilative woolen fabric, includes the woolen layer, one side on woolen layer is equipped with fine hair, the opposite side on woolen layer is equipped with the base cloth layer, the base cloth layer with be equipped with the thickening layer between the woolen layer, be equipped with a plurality of the same air exchange chamber in the thickening layer, the air exchange chamber is the rhombus.

By adopting the technical scheme, when a user wears the overcoat made of the material with the rhombic air exchange cavity, the woolen layer is positioned outside the overcoat, and the polar fleece layer is positioned inside the overcoat. When the user is in a walking state, the air flow exchange cavity in the overcoat is in a state of being continuously opened and closed by the motion of a human body, and when the air flow exchange cavity is opened and closed, the air in the compressed air flow exchange cavity of the overcoat is discharged to the periphery, so that the air on the surface of the overcoat flows in a small range, and the air-permeable effect is achieved. Because the density of the polar fleece layer is greater than that of the woolen layer, most of the air compressed in the air exchange cavity is discharged from the woolen layer on the outer surface of the overcoat, and a small part of the air is compressed into the polar fleece layer, so that the fabric with the structure has the effects of ventilation and heat preservation. When the airflow exchange cavity is in an open state from a closed state, because the density of the woolen layer is smaller than that of the polar fleece layer, the airflow exchange cavity sucks a large amount of air from the outer surface of the overcoat and a small amount of air from the inside of the overcoat, so that the air flows. The setting of the airflow exchange chamber of rhombus for airflow exchange chamber has the effect that promotes the air and flows in a piece of one, reaches ventilative effect, because in ventilative, gaseous only a small amount of follow overcoat internal suction, only scatters out in a small amount of steam overcoat promptly, makes the whole performance that has cold-proof and ventilative concurrently of surface fabric.

Preferably, each of the gas flow exchange chambers is located at the same height in the thickened layer.

By adopting the technical scheme, the airflow exchange cavities with the same height enable the air to flow in a consistent pace.

Preferably, a plurality of the airflow exchange cavities are arranged at equal intervals.

By adopting the technical scheme, the airflow exchange cavities with reasonable intervals do not conflict when the air flows, and the air flows reasonably and orderly.

Preferably, one of the two axes of symmetry of the air exchange chamber is perpendicular to the woolen layer, and the length of the air exchange chamber is smaller than that of the other axis of symmetry.

By adopting the technical scheme, the airflow exchange cavity in the shape is more beneficial to opening and closing.

Preferably, the thickening layer is an elastic fiber.

By adopting the technical scheme, the elastic fiber has good shape, so that the overcoat made of the fabric has good hand feeling.

Preferably, the fabric structure of the base fabric layer is a plain weave structure.

By adopting the technical scheme, the base cloth layer has the advantages of interlacing points, firm texture, smooth surface and further light weight, wear resistance and good air permeability in the interlacing mode.

Preferably, one side of the base fabric layer, which is far away from the woolen layer, is provided with a polar fleece layer.

By adopting the technical scheme, the polar fleece has soft hand feeling, thick texture and good heat retention.

Preferably, the base cloth layer is connected with the polar fleece layer in a composite mode.

Through adopting above-mentioned technical scheme for after the soft polar fleece fold, with the help of the elasticity of base cloth layer recover to smooth state, have certain wrinkle resistance.

Preferably, a plurality of pull wires are arranged between the woolen layer and the base cloth layer, the pull wires penetrate through the thickening layer, and the pull wires are perpendicular to the woolen layer and the base cloth layer.

Through adopting above-mentioned technical scheme, the setting of acting as go-between helps strengthening to be connected between woolen layer and the base cloth layer firmly.

Preferably, the stay wires are arranged in the thickened layer at equal intervals, and one stay wire is arranged between every two airflow exchange chambers.

By adopting the technical scheme, the length of the stay wire ensures the thickness of the thickening layer between the opening and the closing of the airflow exchange cavity, and the airflow exchange cavity is prevented from being too large.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through the arrangement of the rhombic airflow exchange cavity; the airflow exchange cavities are integrated one by one, and the effect of promoting the air flow is achieved;

2. through the setting of shake-grain fine hair layer, because the density of shake-grain fine hair layer is greater than the woolen layer for the air that flows is difficult for passing shake-grain fine hair layer, thereby strengthens whole surface fabric's warmth retention property.

Drawings

Fig. 1 is a schematic view of a layered structure of a breathable woolen fabric.

Description of reference numerals: 1. fluff; 2. a woolen layer; 3. thickening the layer; 4. a base cloth layer; 5. a polar fleece layer; 31. an airflow exchange cavity; 32. and pulling a wire.

Detailed Description

The present application is described in further detail below with reference to fig. 1.

The embodiment of the application discloses a breathable woolen fabric. Referring to fig. 1, the breathable woolen fabric comprises a woolen layer 2, fluff 1 is arranged on the woolen layer 2, a base cloth layer 4 is arranged on one side, away from the fluff 1, of the woolen layer 2, a thickening layer 3 is arranged between the base cloth layer 4 and the woolen layer 2, a plurality of rhombic airflow exchange cavities 31 and a plurality of stay wires 32 are arranged in the thickening layer 3, and a polar fleece layer 5 is arranged on one side, away from the woolen layer 2, of the base cloth layer 4.

Referring to fig. 1, the fabric structure of the base fabric layer 4 is a plain weave structure, i.e., warp yarns and weft yarns are interwoven one over the other. The base cloth layer 4 has the advantages of interlacing points, firm texture, flat surface, light weight, wear resistance and good air permeability in an interlacing mode. The polar fleece has soft hand feeling, thick texture and good heat retention. The base cloth layer 4 is in composite connection with the polar fleece layer 5, so that the soft polar fleece is recovered to a flat state by virtue of the elasticity of the base cloth layer 4 after being wrinkled, and certain wrinkle resistance is achieved.

Referring to fig. 1, the thickening layer 3 is an elastic fiber, and particularly, the thickening layer 3 is a polyurethane fiber. Polyurethane fiber is added between the woolen layer 2 and the base cloth layer 4, so that the whole fabric has good hand feeling and body. When a user wears the overcoat made of the fabric with the rhombic airflow exchange cavity 31, the outer surface of the overcoat is the woolen layer 2, and the inner side of the overcoat is the polar fleece layer 5. When the user is in a walking state, the airflow exchange cavity 31 in the overcoat is in a state of being continuously opened and closed by the motion of the human body. When the air exchange cavity 31 is opened to closed, the overcoat compresses the air in the air exchange cavity 31 to be discharged to the periphery, so that the air on the surface of the overcoat flows in a small range, and the air permeation effect is achieved. Because the density of the polar fleece layer 5 is greater than that of the woolen layer 2, most of the air compressed in the air exchange cavity 31 is discharged from the woolen layer 2 on the outer surface of the overcoat, and a small part of the air is compressed into the polar fleece layer 5, so that the fabric with the structure has the effects of ventilation and heat preservation. When the airflow exchange cavity 31 is in an open state from a closed state, because the density of the woolen layer 2 is smaller than that of the polar fleece layer 5, the airflow exchange cavity 31 sucks a large amount of air from the outer surface of the overcoat and a small amount of air from the inside of the overcoat, and the air is mixed in the airflow exchange cavity 31 to promote the flow of the air. The arrangement of the rhombic airflow exchange cavity 31 enables the airflow exchange cavity 31 to be arranged between one piece of clothes, the airflow exchange cavity has the effect of promoting air flow, and the breathable effect is achieved.

Referring to fig. 1, one of the two axes of symmetry of the airflow exchanging cavity 31 is perpendicular to the woolen layer 2, and the length of the other axis of symmetry is smaller, so that the rhombic airflow exchanging cavity 31 is more convenient to open and close. The airflow exchange cavities 31 are all located at the same height and are arranged at equal intervals, the orderly airflow exchange cavities 31 are arranged to enable the airflow exchange cavities to be orderly opened and closed, and the airflow generated during opening and closing is orderly and consistent.

Referring to fig. 1, a plurality of pull threads 32 are arranged between the woolen layer 2 and the base cloth layer 4, and the pull threads 32 penetrate through the thickening layer 3 and are perpendicular to the woolen layer 2 and the base cloth layer 4. A plurality of drawing wires 32 are arranged at equal intervals in the thickening layer 3, and each drawing wire 32 is arranged between two airflow exchange cavities 31. The arrangement of the stay wires 32 helps to strengthen the connection stability between the woolen cloth layer 2 and the base cloth layer 4, namely, the integral structure of the fabric is ensured, and simultaneously, the thickness of the thickening layer 3 between the open and the close of the airflow exchange cavity 31 is ensured so as to ensure the thickness of the fabric.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a ventilative formula woolen fabric, includes woolen layer (2), its characterized in that: one side of woolen layer (2) is equipped with fine hair (1), the opposite side of woolen layer (2) is equipped with base cloth layer (4), base cloth layer (4) with be equipped with thickening layer (3) between woolen layer (2), be equipped with a plurality of the same air exchange chamber (31) in thickening layer (3), air exchange chamber (31) are the rhombus.

2. The breathable woolen fabric according to claim 1, characterized in that: each air flow exchange cavity (31) is positioned at the same height in the thickening layer (3).

3. The breathable woolen fabric according to claim 1, characterized in that: the airflow exchange cavities (31) are arranged at equal intervals.

4. The breathable woolen fabric according to claim 1, characterized in that: one of the two symmetry axes of the airflow exchange cavity (31) is vertical to the woolen layer (2), and the length of the airflow exchange cavity is smaller than that of the other symmetry axis.

5. The breathable woolen fabric according to claim 1, characterized in that: the thickening layer (3) is made of elastic fibers.

6. The breathable woolen fabric according to claim 1, characterized in that: the fabric structure of the base fabric layer (4) is a plain weave structure.

7. The breathable woolen fabric according to claim 1, characterized in that: one side of the base fabric layer (4) far away from the woolen layer (2) is provided with a polar fleece layer (5).

8. The breathable woolen fabric according to claim 7, characterized in that: the base cloth layer (4) is in composite connection with the polar fleece layer (5).

9. The breathable woolen fabric according to claim 1, characterized in that: be equipped with a plurality of acting as go-between (32) between woolen cloth layer (2) and base cloth layer (4), a plurality of acting as go-between (32) all run through thickening layer (3), and a plurality of acting as go-between (32) all are perpendicular to woolen cloth layer (2) with base cloth layer (4).

10. The breathable woolen fabric according to claim 9, characterized in that: the pull wires (32) are arranged in the thickening layer (3) at equal intervals, and one pull wire (32) is arranged between every two airflow exchange cavities (31).

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