CN216127911U - Terylene fabric with flame retardant function and sanitary garment - Google Patents

Abstract

The utility model relates to the field of fabric design, in particular to a polyester fabric with a flame-retardant function and a sanitary garment. The terylene fabric comprises a fabric layer, a first flame-retardant layer, a waterproof layer, a second flame-retardant layer and a base fabric layer which are sequentially arranged from top to bottom; wherein the first flame retardant layer comprises a plurality of first warp groups arranged side by side in a longitudinal direction and a plurality of first weft groups arranged side by side in a latitudinal direction; the first warp group comprises a first flame-retardant yarn, a second flame-retardant yarn and a third flame-retardant yarn which are sequentially arranged side by side; the first weft group comprises a fourth flame-retardant yarn, a fifth flame-retardant yarn and a sixth flame-retardant yarn which are sequentially arranged side by side; through precoat, first fire-retardant layer, waterproof layer, the fire-retardant layer of second and base cloth layer, fire behaviour is superior, and the security performance is high, and user's comfort level of wearing is high simultaneously, very big satisfied people daily life demand.

Description

Terylene fabric with flame retardant function and sanitary garment

Technical Field

The utility model relates to the field of fabric design, in particular to a polyester fabric with a flame-retardant function and a sanitary garment.

Background

The terylene fabric is a very large chemical fiber garment fabric used in daily life; the most important advantage is that it has good crease resistance and shape-preserving property, so that it is suitable for making outdoor articles such as coat and clothing, various bags and tents, etc.

The existing polyester fabric has poor flame retardant property and low safety degree, and can not meet the increasing living demands of people.

Therefore, it is necessary to provide a technical solution to solve the above-mentioned drawbacks.

SUMMERY OF THE UTILITY MODEL

The utility model adopts the following technical scheme:

the polyester fabric with the flame retardant function comprises a fabric layer, a first flame retardant layer, a waterproof layer, a second flame retardant layer and a base fabric layer which are sequentially arranged from top to bottom; wherein the first flame retardant layer comprises a plurality of first warp groups arranged side by side in a longitudinal direction and a plurality of first weft groups arranged side by side in a latitudinal direction; the first warp group comprises a first flame-retardant yarn, a second flame-retardant yarn and a third flame-retardant yarn which are sequentially arranged side by side; the first weft group comprises a fourth flame-retardant yarn, a fifth flame-retardant yarn and a sixth flame-retardant yarn which are sequentially arranged side by side; the first flame-retardant layer is formed by weaving the first flame-retardant yarns, the second flame-retardant yarns, the third flame-retardant yarns, the fourth flame-retardant yarns, the fifth flame-retardant yarns and the sixth flame-retardant yarns in a floating and sinking manner.

Preferably, the first flame-retardant yarn and the fifth flame-retardant yarn are formed by twisting a plurality of basalt fibers; the second flame-retardant yarn and the sixth flame-retardant yarn are formed by twisting a plurality of meta-aramid fibers; the third flame resistant yarn and the sixth flame resistant yarn are each formed by twisting a plurality of PBO fibers.

Preferably, the second flame retardant layer comprises a plurality of second warp groups arranged side by side in the longitudinal direction and a plurality of second weft groups arranged side by side in the latitudinal direction; the second warp group comprises seventh flame-retardant yarns and eighth flame-retardant yarns which are sequentially arranged side by side; the second weft group comprises ninth flame-retardant yarns and tenth flame-retardant yarns which are sequentially arranged side by side; the second flame-retardant layer is formed by weaving the seventh flame-retardant yarn, the eighth flame-retardant yarn, the ninth flame-retardant yarn and the tenth flame-retardant yarn in a floating and sinking manner.

Preferably, the seventh flame-retardant yarn and the ninth flame-retardant yarn are formed by blended knitting of the first flame-retardant yarn, the second flame-retardant yarn and the third flame-retardant yarn; the first flame-retardant wire is formed by twisting a plurality of polyacrylonitrile fibers; the second flame-retardant wire is formed by twisting a plurality of Anhan-spun flame-retardant fibers; the third flame-retardant yarn is made of polyimide fibers.

Preferably, the eighth flame-retardant yarn and the tenth flame-retardant yarn are formed by blending and weaving a fourth flame-retardant yarn and a fifth flame-retardant yarn; the fourth flame-retardant wire is formed by twisting a plurality of polybenzimidazole fibers; the fifth flame-retardant yarn is formed by twisting a plurality of polyvinyl chloride fibers.

Preferably, an elastic layer is further arranged between the waterproof layer and the second flame-retardant layer; and arc elastic reinforcing ribs are arranged in the elastic layer.

Preferably, an arc-shaped air vent is arranged in the fabric layer, the first flame-retardant layer, the waterproof layer, the second flame-retardant layer and the base fabric layer in a penetrating manner.

Preferably, the anti-wrinkle bulge is arranged above the fabric layer; and water absorbent cotton is arranged in the waterproof layer.

Preferably, a sweat absorbing layer is further arranged below the base cloth layer; the sweat absorbing layer is a natural cotton wadding layer.

Preferably, the fabric layer is formed by weaving polyester fibers; the base cloth layer is formed by blending and weaving modal fibers and milk protein fibers.

Preferably, the utility model also relates to a sweater which comprises the fabric.

According to the polyester fabric with the flame-retardant function, the fabric layer, the first flame-retardant layer, the waterproof layer, the second flame-retardant layer and the base fabric layer are adopted, so that the flame-retardant performance is excellent, the safety performance is high, the wearing comfort of a user is high, and the daily life requirements of people are greatly met.

The sweater disclosed by the utility model has the advantages that due to the adoption of the fabric, the flame retardant property is excellent, the safety performance is high, the wearing comfort of a user is high, and the daily life requirements of people are greatly met.

Drawings

FIG. 1 is a schematic view of the overall structure of a polyester fabric with a flame retardant function according to the present invention;

FIG. 2 is a schematic diagram of weaving a first flame retardant layer in the polyester fabric with a flame retardant function according to the utility model;

FIG. 3 is a schematic diagram of weaving a second flame retardant layer in the polyester fabric with a flame retardant function according to the utility model;

FIG. 4 is a schematic structural diagram of fifth flame-retardant yarns in the polyester fabric with a flame-retardant function according to the utility model;

FIG. 5 is a schematic structural diagram of sixth flame-retardant yarns in the polyester fabric with a flame-retardant function according to the utility model;

fig. 6 is an overall view of the sanitary garment of the present invention.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1 to 5, a polyester fabric 100 with a flame retardant function, the polyester fabric 100 includes a fabric layer 10, a first flame retardant layer 20, a waterproof layer 30, a second flame retardant layer 40 and a base fabric layer 50, which are sequentially arranged from top to bottom; wherein the first flame retardant layer 20 includes a plurality of first warp groups 21 arranged side by side in the longitudinal direction and a plurality of first weft groups 22 arranged side by side in the latitudinal direction; the first warp group 21 includes a first flame-retardant yarn 21a, a second flame-retardant yarn 21b, and a third flame-retardant yarn 21c arranged side by side in this order; the first weft group 22 includes a fourth flame-retardant yarn 22a, a fifth flame-retardant yarn 22b, and a sixth flame-retardant yarn 22c arranged side by side in this order; the first flame retardant layer 20 is formed by weaving first flame retardant yarns 21a, second flame retardant yarns 21b, third flame retardant yarns 21c, fourth flame retardant yarns 22a, fifth flame retardant yarns 22b, and sixth flame retardant yarns 22c in a floating and sinking manner. Through the setting of first fire-retardant layer 20 and the fire-retardant layer 40 of second, the effectual fire behaviour that has improved has increased the degree of safety, simultaneously, because first fire-retardant layer 20 and the fire-retardant layer 40 of second adopt the blending that has multiple flame retardant fiber to weave for it can the cooperateing in the performance, has further improved fire behaviour.

In the same specific embodiment, the first flame-retardant yarns 21a and the fifth flame-retardant yarns 22b are formed by twisting a plurality of basalt fibers; the second flame-retardant yarn 21b and the sixth flame-retardant yarn 22c are formed by twisting a plurality of meta-aramid fibers; the third flame resistant yarn 21c and the sixth flame resistant yarn 22c are each formed by twisting a plurality of PBO fibers.

Further, two first flame-retardant yarns 21a, two second flame-retardant yarns 21b, two third flame-retardant yarns 21c, two fourth flame-retardant yarns 22a, two fifth flame-retardant yarns 22b and two sixth flame-retardant yarns 22c are arranged in the first warp group 21 and the first weft group 22.

In a specific embodiment, the second flame retardant layer 40 includes a plurality of second warp groups 41 arranged side by side in the longitudinal direction and a plurality of second weft groups 42 arranged side by side in the latitudinal direction; the second warp group 41 includes a seventh flame-retardant yarn 43 and an eighth flame-retardant yarn 44 arranged side by side in this order; the second weft group 42 includes a ninth flame resistant yarn 45 and a tenth flame resistant yarn 46 arranged side by side in this order; the second flame retardant layer 40 is formed by weaving the seventh flame retardant yarn 43, the eighth flame retardant yarn 44, the ninth flame retardant yarn 45, and the tenth flame retardant yarn 46 in a floating and sinking manner one on top of the other. Further, three of the seventh flame-retardant yarn 43, the eighth flame-retardant yarn 44, the ninth flame-retardant yarn 45 and the tenth flame-retardant yarn 46 are provided in the second warp group 41 and the second weft group 42.

In a specific embodiment, the seventh flame-retardant yarn 43 and the ninth flame-retardant yarn 45 are formed by blended knitting of the first flame-retardant yarn 41a, the second flame-retardant yarn 41b and the third flame-retardant yarn 41 c; the first flame-retardant thread 41a is formed by twisting a plurality of polyacrylonitrile fibers; the second flame-retardant thread 41b is formed by twisting a plurality of electrospun flame-retardant fibers; the third flame-retardant yarn is made of polyimide fibers. Further, four second flame-retardant wires 41b are provided, and the four second flame-retardant wires 41b are spirally wound on the outer side of the first flame-retardant wire 41 a; six third flame-retardant wires 41c are provided, and the six third flame-retardant wires 41c are spirally wound on the outer sides of the four second flame-retardant wires 41 b.

In a specific embodiment, the eighth flame resistant yarn 44 and the tenth flame resistant yarn 46 are formed by blended knitting of the fourth flame resistant yarn 44a and the fifth flame resistant yarn 44 b; the fourth flame-retardant thread 44a is formed by twisting a plurality of polybenzimidazole fibers; the fifth flame-retardant yarn 22b is formed by twisting a plurality of polyvinyl chloride fibers. Further, three fifth flame retardant wires 44b are provided, and three fifth flame retardant wires 44b are spirally wound on the outer side of the fourth flame retardant wire 44 a.

In a specific embodiment, in order to enhance the resilience of the fabric and improve the wearing comfort of the user, an elastic layer 60 is further disposed between the waterproof layer 30 and the second flame-retardant layer 40; the elastic layer 60 is provided with arc elastic reinforcing ribs 61. Further, the arc-shaped elastic reinforcing ribs 61 may be made of rubber.

In one embodiment, in order to improve the air permeability of the fabric and the wearing comfort of the user, an arc-shaped air hole 70 is formed through the fabric layer 10, the first flame-retardant layer 20, the waterproof layer 30, the second flame-retardant layer 40 and the base fabric layer 50. Because the arc-shaped air holes 70 are arc-shaped, moisture is effectively prevented from permeating from the air holes while air is ventilated, and the waterproof performance is improved.

In a specific embodiment, in order to enhance the anti-wrinkle performance of the fabric, anti-wrinkle protrusions 80 are arranged above the fabric layer 10; in order to enhance the waterproof performance of the fabric, water absorbent cotton is arranged in the waterproof layer 30, and meanwhile, the waterproof layer 30 can be formed by weaving bamboo fibers.

In one particular embodiment, a sweat-absorbent layer 90 is also disposed beneath the base fabric layer 50; the sweat absorbing layer 90 is a natural cotton wadding layer. On one hand, the natural cotton wool strengthens the skin affinity, improves the wearing comfort of a user, and on the other hand, has good sweat absorption effect.

In a specific embodiment, the fabric layer 10 is formed by weaving a polyester fabric 100; the base fabric layer 50 is formed by blending and weaving modal fiber fabric and milk protein fiber fabric. The modal fiber and the milk protein fiber have good skin affinity, and meanwhile, the milk protein fiber has good antibacterial performance, so that the wearing requirement of a user is effectively improved.

Preferably, the utility model also relates to a sweater 200 which comprises the fabric.

According to the polyester fabric 100 with the flame-retardant function, the fabric layer 10, the first flame-retardant layer 20, the waterproof layer 30, the second flame-retardant layer 40 and the base fabric layer 50 are adopted, so that the polyester fabric is excellent in flame-retardant performance and high in safety performance, and meanwhile, a user is high in wearing comfort, and the daily life requirements of people are greatly met.

The sweater disclosed by the utility model has the advantages that due to the adoption of the fabric, the flame retardant property is excellent, the safety performance is high, the wearing comfort of a user is high, and the daily life requirements of people are greatly met

The above examples only show some embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. The polyester fabric with the flame-retardant function is characterized in that: the terylene fabric comprises a fabric layer, a first flame-retardant layer, a waterproof layer, a second flame-retardant layer and a base fabric layer which are sequentially arranged from top to bottom; wherein the first flame retardant layer comprises a plurality of first warp groups arranged side by side in a longitudinal direction and a plurality of first weft groups arranged side by side in a latitudinal direction; the first warp group comprises a first flame-retardant yarn, a second flame-retardant yarn and a third flame-retardant yarn which are sequentially arranged side by side; the first weft group comprises a fourth flame-retardant yarn, a fifth flame-retardant yarn and a sixth flame-retardant yarn which are sequentially arranged side by side; the first flame-retardant layer is formed by weaving the first flame-retardant yarns, the second flame-retardant yarns, the third flame-retardant yarns, the fourth flame-retardant yarns, the fifth flame-retardant yarns and the sixth flame-retardant yarns in a floating and sinking manner.

2. The polyester fabric with the flame retardant function according to claim 1, characterized in that: the first flame-retardant yarn and the fifth flame-retardant yarn are formed by twisting a plurality of basalt fibers; the second flame-retardant yarn and the sixth flame-retardant yarn are formed by twisting a plurality of meta-aramid fibers; the third flame resistant yarn and the sixth flame resistant yarn are each formed by twisting a plurality of PBO fibers.

3. The polyester fabric with the flame retardant function according to claim 1, characterized in that: the second flame-retardant layer comprises a plurality of second warp groups arranged side by side in the longitudinal direction and a plurality of second weft groups arranged side by side in the latitudinal direction; the second warp group comprises seventh flame-retardant yarns and eighth flame-retardant yarns which are sequentially arranged side by side; the second weft group comprises ninth flame-retardant yarns and tenth flame-retardant yarns which are sequentially arranged side by side; the second flame-retardant layer is formed by weaving the seventh flame-retardant yarn, the eighth flame-retardant yarn, the ninth flame-retardant yarn and the tenth flame-retardant yarn in a floating and sinking manner.

4. The polyester fabric with the flame-retardant function according to claim 3, characterized in that: the seventh flame-retardant yarn and the ninth flame-retardant yarn are formed by blending and weaving the first flame-retardant yarn, the second flame-retardant yarn and the third flame-retardant yarn; the first flame-retardant wire is formed by twisting a plurality of polyacrylonitrile fibers; the second flame-retardant wire is formed by twisting a plurality of Anhan-spun flame-retardant fibers; the third flame-retardant yarn is made of polyimide fibers.

5. The polyester fabric with the flame-retardant function according to claim 3, characterized in that: the eighth flame-retardant yarn and the tenth flame-retardant yarn are formed by blending and weaving a fourth flame-retardant yarn and a fifth flame-retardant yarn; the fourth flame-retardant wire is formed by twisting a plurality of polybenzimidazole fibers; the fifth flame-retardant yarn is formed by twisting a plurality of polyvinyl chloride fibers.

6. The polyester fabric with the flame-retardant function according to claim 1, characterized in that: an elastic layer is further arranged between the waterproof layer and the second flame-retardant layer; and arc elastic reinforcing ribs are arranged in the elastic layer.

7. The polyester fabric with the flame retardant function according to claim 1, characterized in that: an arc-shaped air vent is arranged in the fabric layer, the first flame-retardant layer, the waterproof layer, the second flame-retardant layer and the base fabric layer in a penetrating manner.

8. The polyester fabric with the flame retardant function according to claim 1, characterized in that: a wrinkle-preventing bulge is arranged above the fabric layer; and water absorbent cotton is arranged in the waterproof layer.

9. The polyester fabric with the flame retardant function according to claim 1, characterized in that: a sweat absorbing layer is arranged below the base cloth layer; the sweat absorbing layer is a natural cotton wadding layer; the fabric layer is formed by weaving polyester fibers; the base cloth layer is formed by blending and weaving modal fibers and milk protein fibers.

10. A kind of defends the clothes, characterized by: the sweater comprises the polyester fabric of any one of the claims 1 to 9.

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