CN213675824U - High-warp-density brocade fabric - Google Patents

Abstract

The utility model relates to a surface fabric technical field discloses a high warp density brocade surface fabric, including the waterproof layer that bonds in proper order, the silk weaves the layer, glues fine layer, nexine, the nexine is used for directly contacting with skin, it is used for adsorbing the steam of nexine to glue fine layer, the waterproof layer is used for separation liquid and silk fabric to contact, it has a plurality of elastic balls to inlay on the silk weaves the layer, and the upper surface on silk weaves the layer is provided with first elasticity silk thread, and the lower surface is provided with second elasticity silk thread, makes the surface fabric can both obtain the restoring force when all directions are folding to avoid producing the fold.

Description

High-warp-density brocade fabric

Technical Field

The utility model relates to a surface fabric technical field especially relates to a high warp density brocade surface fabric.

Background

The brocade fabric is a silk fabric with gorgeous colors and patterns, and is formed by interweaving mulberry silk and rayon, the high warp density refers to high count and high density, the higher the yarn count is, the thinner the yarn is, the higher the density is, the more the yarn is, and the standard is that the high warp density fabric can be called only the fabric with the warp density of more than 200. The brocade fabric is commonly used as decorative cloth, such as a brocade table carpet for indoor decoration, a brocade bedspread, a brocade quilt cover, covers of various high-grade gift boxes and frames of famous and precious books, and is widely used for manufacturing ties, waistbands, cotton wadded jacket fabrics, robes of minority nationalities and the like in the aspect of clothes. However, the existing high-warp-density brocade fabric is easy to wrinkle due to the fact that the silk threads of the existing high-warp-density brocade fabric are not elastic.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a high warp density brocade surface fabric, aim at solving the easy wrinkle problem that the brocade surface fabric exists among the prior art.

In order to achieve the above purpose, the basic scheme of the utility model is as follows:

a high-warp-density brocade fabric comprises a waterproof layer, a silk weaving layer, a fiber sticking layer and an inner layer which are sequentially bonded, wherein the inner layer is used for contacting with skin, the fiber sticking layer is used for adsorbing water vapor of the inner layer, the waterproof layer is used for preventing liquid from contacting with the silk weaving layer, a plurality of elastic balls are embedded in the silk weaving layer, the elastic balls are uniformly distributed in the silk weaving layer, a plurality of first concave parts are formed on the surface, close to the waterproof layer, of the silk weaving layer, the first concave parts are arranged between every two adjacent elastic balls, first elastic silk threads are contained in the first concave parts, the first elastic silk threads are respectively abutted against the silk weaving layer and the waterproof layer, a plurality of second concave parts are formed on the surface, close to the fiber sticking layer, of the silk weaving layer, the second concave parts are arranged between every two adjacent elastic balls, the length direction of each second concave part is perpendicular to the length direction of the corresponding first concave part, and second elastic silk threads are contained in the second concave parts, the second elastic silk threads are respectively abutted against the silk weaving layer and the viscose layer.

Furthermore, a plurality of reinforcing strips which are parallel to each other are arranged in the silk weaving layer, each reinforcing strip comprises a plurality of first reinforcing parts and a plurality of second reinforcing parts, the first reinforcing parts and the second reinforcing parts are alternately arranged, the first reinforcing parts and the second reinforcing parts respectively penetrate through the silk weaving layer in an inclined mode, the first reinforcing part and the second reinforcing part have opposite inclination directions, a connecting part is connected between the adjacent first reinforcing part and the second reinforcing part, the connecting portion are exposed out of the silk-woven layer, the length direction of the first concave portion is perpendicular to the planes of the first reinforcing portion, the second reinforcing portion and the connecting portion, the reinforcing strips penetrate through the silk-woven layer, warp yarns of different layers can be connected in series, the tightness of combination among all the silk yarns is increased, the fact that the silk yarns are distributed unevenly due to slippage of the silk yarns of different layers is avoided, wrinkles are avoided, and the appearance of the silk hooking condition can be reduced.

Furthermore, the first elastic thread and the second elastic thread are made of polyether ester elastic fibers, and the polyether ester elastic fibers have high strength and elasticity and can be processed into elastic fabrics.

Furthermore, the elastic balls are of a hollow structure, so that the fabric can have good flexibility when being used in the fabric, and the comfort level of the fabric is improved.

Furthermore, the inner layer is formed by interweaving long stapled cotton fibers, and the long stapled cotton has good softness, high skin-friendly degree and better air permeability.

Furthermore, a plurality of air holes are uniformly distributed on the inner layer, so that the air permeability of the inner layer is enhanced, and water vapor can reach the viscose layer through the inner layer.

Furthermore, the viscose fiber layer is formed by interweaving viscose fibers, and the viscose fibers have good moisture absorption and can absorb water vapor of the inner layer and keep the inner layer dry.

Furthermore, the sun-proof coating is coated on the sun-proof layer, the sun-proof coating can reflect ultraviolet rays in sunlight, silk threads can be prevented from fading due to the fact that the fabric absorbs the ultraviolet rays, gorgeous colors are reserved, and the service life of the fabric is prolonged.

Furthermore, the waterproof layer comprises a polytetrafluoroethylene clothing film, the polytetrafluoroethylene clothing film is bonded with the silk weaving layer in an adhesive mode, the waterproof layer can prevent rainwater from damaging the sun-proof coating so as to guarantee the sun-proof effect, the porosity of the polytetrafluoroethylene clothing film is high, and water vapor molecules can be discharged out of the fabric through the pores.

Compared with the prior art, the scheme has the beneficial effects that:

the first elastic silk threads and the second elastic silk threads which are perpendicular to each other are arranged on the silk weaving layer, so that the fabric can obtain restoring force when being folded in all directions, and wrinkles are avoided; the elastic balls bear the pressure in each direction in the silk weaving layer, so that the silk threads are prevented from being broken due to uneven pressure in the silk weaving layer, the fabric has elasticity, and can recover to the original shape after being extruded, and the phenomenon that the pattern on the silk weaving layer is damaged due to extrusion is avoided; the inner layer separates the silk weaving layer from the skin, so that the skin is prevented from directly contacting with the silk weaving layer to damage the pattern of the fabric; the viscose fiber layer can absorb the water vapor in the inner layer, so that the wearing comfort is improved; the waterproof layer can avoid liquid such as rainwater directly to contact the silk layer of weaving, can also prevent to cause the damage to the silk layer of weaving when being convenient for clean.

Drawings

FIG. 1 is a schematic view of the sectional structure of the high-warp-density brocade fabric in the length direction;

fig. 2 is a schematic view of the cross-sectional structure of the high-warp-density brocade fabric in the width direction.

Reference numerals in the drawings of the specification include:

1. a waterproof layer; 2. a silk layer; 21. a first recess; 211. a first elastic thread; 22. a second recess; 221. a second elastic thread; 3. a fiber-binding layer; 4. an inner layer; 41. air holes are formed; 5. an elastic ball; 6. reinforcing the strips; 61. a first reinforcing section; 62. a second reinforcing section; 63. a connecting portion; 7. a sun-proof coating.

Detailed Description

The invention will be described in further detail by means of specific embodiments with reference to the accompanying drawings:

example (b):

a high-warp-density brocade fabric is sequentially provided with a waterproof layer 1, a silk weaving layer 2, a viscose layer 3 and an inner layer 4 from outside to inside as shown in figure 1. The waterproof layer 1 is bonded with the silk-woven layer 2, two side surfaces of the silk-woven layer 2 are bonded with the waterproof layer 1 and the fiber-bonded layer 3 respectively, and the other side surface of the fiber-bonded layer 3 is bonded with the lining layer 4. The inner layer 4 is used for directly contacting with the skin, the inner layer 4 is formed by interweaving long stapled cotton fibers, a plurality of air holes 41 are uniformly distributed on the inner layer 4, and sweat and water vapor generated by the skin can be conducted to the viscose layer 3 through the air holes 41. The viscose layer 3 is used for absorbing water vapor of the inner layer 4, the viscose layer 3 is formed by interweaving viscose fibers, and the viscose fibers have good moisture absorption performance. The surface of the silk weaving layer 2 close to the waterproof layer 1 is coated with the sun-proof coating, so that the silk threads are prevented from being damaged by ultraviolet rays, and the gorgeous color of the brocade fabric is reserved. The waterproof layer 1 is used for preventing liquid from contacting with the silk woven layer 2, the waterproof layer 1 is a polytetrafluoroethylene clothing film, and the polytetrafluoroethylene clothing film is bonded with the silk woven layer 2 in a viscose mode.

As shown in fig. 1 and 2, a plurality of elastic balls 5 are embedded in the silk weaving layer 2, the elastic balls 5 are uniformly distributed in the silk weaving layer 2, and the elastic balls 5 are of a hollow structure, so that the situation that the fabric is too hard due to too high elasticity is prevented. A plurality of first concave parts 21 are formed on the upper surface of the silk weaving layer 2, the first concave parts 21 are arranged between two adjacent elastic balls 5, first elastic silk threads 211 are contained in the first concave parts 21, the first elastic silk threads 211 are respectively abutted against the silk weaving layer 2 and the waterproof layer 1, a plurality of second concave parts 22 are formed on the lower surface of the silk weaving layer 2, the second concave parts 22 are arranged between two adjacent elastic balls 5, the length direction of the second concave parts 22 is vertical to the length direction of the first concave parts 21, second elastic silk threads 221 are contained in the second concave parts 22, the second elastic silk threads 221 are respectively abutted against the silk weaving layer 2 and the viscose layer 3, so that the first elastic silk threads 211 and the second elastic silk threads 221 can contact the adjacent layers, when the fabric is subjected to an external force, the first elastic silk threads 211 and the second elastic silk threads 221 can play a supporting role, and when the external force is removed, the restoring force on the first elastic silk threads 211 and the second elastic silk threads 221 can restore the fabric to an original state, thereby avoiding the occurrence of wrinkles. The material of the first elastic thread 211 and the second elastic thread 221 is polyether ester elastic fiber.

As shown in fig. 1, a plurality of reinforcing strips 6 parallel to each other are arranged in the knitted silk layer 2, each reinforcing strip 6 includes a plurality of first reinforcing portions 61 and a plurality of second reinforcing portions 62, the first reinforcing portions 61 and the second reinforcing portions 62 are alternately arranged, the first reinforcing portions 61 and the second reinforcing portions 62 respectively penetrate through the knitted silk layer 2 in an inclined manner, the first reinforcing portions 61 and the second reinforcing portions 62 are opposite in inclination direction, a connecting portion 63 is connected between the adjacent first reinforcing portions 61 and the adjacent second reinforcing portions 62, the connecting portion 63 is exposed out of the knitted silk layer 2, the first reinforcing portions 61 and the second reinforcing portions 62 on the reinforcing strips 6 penetrate through the knitted silk layer 2 in an inclined manner, different warp yarns can be connected in series, the tightness of combination between the yarns is increased, and slippage between the yarns is avoided.

The specific implementation mode of the scheme is as follows:

when the surface fabric is folded or extruded, the first elastic silk thread 211 and the second elastic silk thread 221 on the surface of the silk weaving layer 2 play a supporting role, the force borne by the surface fabric is transmitted to the first elastic silk thread 211 and the second elastic silk thread 221 to be converted into elastic force, the fibers on the surface fabric are prevented from being extruded to generate deformation and fracture, the first connecting part 63 and the second connecting part 63 on the reinforcing strip 6 are connected with the multilayer silk threads in series, the tightness of combination between the silk threads on different layers is enhanced, each silk thread is not easy to slide, the silk thread is prevented from being distributed unevenly due to the fact that the silk threads on different layers slide, and therefore the generation of folds is avoided. Elastic ball 5 can bear the ascending extrusion in all directions, turns into elasticity with restraint power, and after external restraint was got rid of, elastic ball 5 reconversion avoided the fold to generate. The inner layer 4 can be directly contacted with the skin, water vapor is transmitted to the viscose layer 3 through the breathable opening on the inner layer 4, and the viscose layer 3 absorbs the water vapor and keeps the inner layer 4 dry and comfortable. The sunscreen coating has a sunscreen effect by reflecting sunlight. The molecular particles are small under the water vapor state, the principle of capillary motion, water vapor can permeate to the opposite side from one side of the waterproof layer 1, and when water drops fall on the surface of the waterproof layer 1, the water drops are difficult to pass through the capillary tubes due to the tension of water, so that the waterproof effect is achieved.

The above description is only an example of the present invention, and the common general knowledge of the known specific structures and characteristics of the embodiments is not described herein. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several modifications and improvements can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (9)

1. The high-warp-density brocade fabric is characterized in that: including waterproof layer (1) that bonds in proper order, the fine layer (2) of silk weaving, glue fine layer (3), nexine (4) are used for contacting with the skin, glue fine layer (3) and be used for adsorbing the steam of nexine (4), waterproof layer (1) is used for separation liquid and the fine layer (2) of weaving to contact, it has a plurality of elasticity balls (5) to inlay on the fine layer (2) of silk weaving, elasticity ball (5) evenly distributed is in the fine layer (2) of silk weaving, the fine layer (2) of silk weaving is close to being formed with a plurality of first concave parts (21) on the surface of waterproof layer (1), first concave part (21) set up between two adjacent elasticity balls (5), first elasticity silk thread (211) have been held in first concave part (21), first silk thread elasticity silk thread (211) respectively with the fine layer (2) of silk weaving and waterproof layer (1) counterbalance, the fine layer (2) of silk weaving is close to being formed with a plurality of second concave parts (22) on the surface of gluing fine layer (3), the second concave parts (22) are arranged between two adjacent elastic balls (5), the length direction of the second concave parts (22) is perpendicular to the length direction of the first concave parts (21), second elastic threads (221) are contained in the second concave parts (22), and the second elastic threads (221) are abutted to the silk weaving layer (2) and the viscose layer (3) respectively.

2. The high-warp-density brocade fabric according to claim 1, characterized in that: the silk is knitted and is provided with a plurality of reinforcing strips (6) that are parallel to each other in layer (2), reinforcing strip (6) include a plurality of first reinforcing portion (61) and a plurality of second reinforcing portion (62), first reinforcing portion (61) and second reinforcing portion (62) set up in turn, first reinforcing portion (61) and second reinforcing portion (62) slant run through silk respectively and are knitted layer (2), the slope direction of first reinforcing portion (61) and second reinforcing portion (62) is opposite, be connected with connecting portion (63) between adjacent first reinforcing portion (61) and second reinforcing portion (62), connecting portion (63) expose in silk and are knitted layer (2), the length direction of first concave part (21) is perpendicular to the plane that first reinforcing portion (61), second reinforcing portion (62) and connecting portion (63) were located each other.

3. The high-warp-density brocade fabric according to claim 1, characterized in that: the first elastic thread (211) and the second elastic thread (221) are made of polyether ester elastic fibers.

4. The high-warp-density brocade fabric according to claim 1, characterized in that: the elastic ball (5) adopts a hollow structure.

5. The high-warp-density brocade fabric according to claim 1, characterized in that: the inner layer (4) is formed by interweaving long stapled cotton fibers.

6. The high-warp-density brocade fabric according to claim 1, characterized in that: a plurality of air holes (41) are uniformly distributed on the inner layer (4).

7. The high-warp-density brocade fabric according to claim 1, characterized in that: the viscose fiber layer (3) is formed by interweaving viscose fibers.

8. The high-warp-density brocade fabric according to claim 1, characterized in that: and the surface of the silk weaving layer (2) close to the waterproof layer (1) is coated with a sun-proof coating (7).

9. The high-warp-density brocade fabric according to claim 1, characterized in that: the waterproof layer (1) is a polytetrafluoroethylene clothing film, and the polytetrafluoroethylene clothing film is bonded with the silk-woven layer (2) in an adhesive mode.

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