CN210911393U - Wear-resistant fiber fabric - Google Patents

Abstract

The utility model discloses a wear-resisting fiber fabric, weave the strip including the tough layer of hot melt rubber gluing layer, polyamide fibre surface fabric firm layer, the tough layer of PU material, the close skin layer of nanometer and vertical cotton-flax, hot melt rubber gluing layer bottom all evenly is provided with polyamide fibre surface fabric firm layer, and polyamide fibre surface fabric firm layer inside all evenly is provided with cotton-flax gluing granule, and polyamide fibre surface fabric firm layer bottom all evenly is provided with the tough layer of PU material. The utility model discloses an intermediate position in the tough layer inside of PU material is provided with to weave glues glutinous piece, and weave all to be provided with vertical inside on gluing glutinous piece and weave the strip, and weave glutinous piece inside and weave the strip in vertical and run through, the device weave the strip in the vertical in the in-process that uses and weave glutinous piece and weave and glue glutinous piece and mutually support and strengthen the tough and tough of device, can make the inside toughness of device weave the strip with vertical cotton-flax and weave the toughness of strip and horizontal dense cotton-flax and mutually support, strengthened the use strength of device, can prevent simultaneously that the device from tearing.

Description

Wear-resistant fiber fabric

Technical Field

The utility model relates to a fiber fabric technical field specifically is a wear-resisting fiber fabric.

Background

The fiber fabric is a synthetic fiber obtained by spinning polyester obtained by polycondensation of organic dibasic acid and dihydric alcohol, and a polyester chain research report indicates that polyester fibers produced in an industrialized and mass production are made of polyethylene terephthalate, the Chinese trade name is terylene, which is the first major variety of the current synthetic fibers, and the traditional fiber fabric still has certain problems and defects in the use process, and the specific details are as follows:

1. the traditional fiber fabric has poor toughness in the using process of the device, and the service life of the device is shortened.

2. In the traditional fiber fabric, the surface layer of the device is abraded by contact, so that the service life of the device is shortened.

3. The traditional fiber fabric, generally traditional cloth can reduce the use intensity of the device, can not effectually prevent simultaneously that the device from tearing.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a wear-resisting fiber surface fabric to the device that proposes in solving above-mentioned background art is relatively poor at the in-process toughness who uses, has shortened the life of device, and the top layer of device can produce wearing and tearing through the contact, thereby has shortened the life scheduling problem of device.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a wear-resisting fiber fabric, includes that hot melt rubber glues glutinous layer, the firm layer of polyamide fibre surface fabric, the tough layer of PU material, the strip is woven to the close skin layer of nanometer and vertical cotton-flax, hot melt rubber glues glutinous layer bottom and all evenly is provided with the firm layer of polyamide fibre surface fabric, and the firm in situ portion of polyamide fibre surface fabric all evenly is provided with cotton-flax gluing granule, and the firm layer bottom of polyamide fibre surface fabric all evenly is provided with the tough layer of PU material, and the bottom on the tough layer of PU material all installs the close skin layer of nanometer, the equidistant vertical cotton-flax that vertically is provided with in top on hot melt rubber glues glutinous layer weaves the strip, and the equidistant horizontal close cotton-flax that is provided with in top on hot melt rubber glues.

Preferably, the top of the hot-melt rubber adhesive layer is provided with protruding wear-resistant particles at equal intervals, the top of the protruding wear-resistant particles is provided with a nylon fabric wear-resistant layer at equal intervals, and the bottom of the nylon fabric wear-resistant layer is connected with the top of the protruding wear-resistant particles.

Preferably, the tough layer inside intermediate position of PU material is provided with to weave glues glutinous piece, and weaves to glue and all be provided with vertical inside on gluing glutinous piece and weave the strip, and weave and glue glutinous piece inside and weave the strip and run through by vertical inside.

Preferably, the nano skin-friendly particles are uniformly arranged in the nano skin-friendly layer, the height of the nano skin-friendly particles is smaller than that of the nano skin-friendly layer, and the nano skin-friendly particles are woven in the nano skin-friendly layer in a weaving state.

Preferably, the height of the inside of the tough layer of PU material is identical with the diameter of the vertical inner weaving strip, and the top end and the bottom end of the outer side of the vertical inner weaving strip are connected with the top end and the bottom end of the inside of the tough layer of PU material.

Preferably, the vertical cotton-flax woven strips and the transverse dense cotton-flax woven strips are in a staggered woven structure, and the bottom ends of the vertical cotton-flax woven strips and the transverse dense cotton-flax woven strips are adhered to the top end of the hot-melt rubber adhesive layer.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) this kind of wear-resisting fiber surface fabric vertically is provided with vertical cotton-flax through the top equidistant at hot melt rubber adhesion layer and weaves the strip, and the top equidistant of hot melt rubber adhesion layer transversely is provided with horizontal dense cotton-flax and weaves the strip, has realized that the device weaves the strip through vertical cotton-flax and weaves the mode that the strip was woven with horizontal dense cotton-flax and carry out the optimization of toughness, can increase the life of device.

(2) This kind of wear-resisting fiber surface fabric is provided with protruding wear-resisting granule through all equidistant on the top on hot melt rubber adhesive layer, and protruding wear-resisting granule equidistant on top is provided with polyamide fibre surface fabric wearing layer, and polyamide fibre surface fabric wearing layer's bottom all is connected with the top of protruding wear-resisting granule, has realized that the top layer of device has wear-resisting function, can reduce the device in the use to the wearing and tearing on hot melt rubber adhesive layer, has increased the complete degree on hot melt rubber adhesive layer top layer.

(3) This kind of wear-resisting fiber surface fabric is provided with through the intermediate position in the tough layer inside of PU material and weaves and glue glutinous piece, and weave all to be provided with vertical inwards on gluing glutinous piece and weave the strip, and weave glutinous piece inside and weave the strip by vertical in and run through, the device weaves the strip and weaves gluing glutinous piece and mutually support the tough and tough of device in the in-process that uses through vertical in, can make the inside toughness of device and vertical cotton-flax weave the strip and transversely closely the cotton-flax weave the toughness of strip and mutually support, the service strength of device has been strengthened, can prevent simultaneously that the device from tearing.

Drawings

Fig. 1 is a schematic side view of the cross-sectional structure of the present invention.

Fig. 2 is a schematic view of the structure of the hot-melt rubber adhesive layer of the present invention.

Fig. 3 is an enlarged schematic view of a portion a in fig. 1 according to the present invention.

Fig. 4 is the side view structure schematic diagram of the vertical cotton-flax woven strip of the utility model.

In the figure: 1. a hot-melt rubber adhesive layer; 101. raised wear resistant particles; 102. a nylon fabric wear-resistant layer; 2. a nylon fabric stabilizing layer; 201. sticking the cotton and the hemp to the particles; 3. a PU material tough layer; 301. vertically inward weaving strips; 302. weaving the sticky block; 4. a nano skin-friendly layer; 401. a nano skin-friendly particle; 5. vertical cotton and hemp weaving strips; 6. transversely dense cotton-flax braided strips.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides an embodiment: the utility model provides a wear-resisting fiber fabric, including hot melt rubber adhesion layer 1, nylon fabric stable layer 2, the tough layer of PU material 3, strip 5 is woven to nanometer close skin layer 4 and vertical cotton-flax, hot melt rubber adhesion layer 1 bottom all evenly is provided with nylon fabric stable layer 2, hot melt rubber adhesion layer 1's top all equidistant is provided with protruding wear-resisting granule 101, and protruding wear-resisting granule 101 top equidistant is provided with nylon fabric wearing layer 102, nylon fabric wearing layer 102's bottom all is connected with the top of protruding wear-resisting granule 101, the top layer that has realized the device has wear-resisting function, can reduce the device in the use to the wearing and tearing of hot melt rubber adhesion layer 1, the complete degree on hot melt rubber adhesion layer 1 top layer has been increased.

Cotton and linen sticky and sticky particles 201 are uniformly arranged inside the nylon fabric stabilizing layer 2, the bottom end of the nylon fabric stabilizing layer 2 is uniformly provided with the PU tough layer 3, the middle position inside the PU tough layer 3 is provided with a woven sticky block 302, the woven sticky block 302 is provided with vertical inward woven strips 301, the interior of the woven sticky block 302 is penetrated by the vertical inward woven strips 301, the height inside the PU tough layer 3 is matched with the diameter of the vertical inward woven strips 301, the top end and the bottom end outside the vertical inward woven strips 301 are connected with the top end and the bottom end inside the PU tough layer 3, the toughness of the device is enhanced through the mutual matching of the vertical inward woven strips 301 and the woven sticky blocks 302 in the use process of the device, the toughness inside the device can be matched with the toughness of the vertical cotton and linen knitted strips 5 and the transverse dense cotton and linen woven strips 6, and the use strength of the device is enhanced, while preventing the device from tearing.

Nanometer close skin layer 4 is all installed to the bottom on the tough layer 3 of PU material, and nanometer close skin layer 4 is inside all evenly to be provided with nanometer close skin granule 401, and nanometer close skin granule 401 highly is less than nanometer close skin layer 4's height, and nanometer close skin granule 401 is the inside of weaving the state and weaving at nanometer close skin layer 4, has improved the comfort level that the cloth used through nanometer close skin granule 401 and nanometer close skin layer 4 mutually supporting, strengthens the practicality of device.

The equidistant vertical cotton-flax of being provided with of top on hot melt rubber adhesive layer 1 weaves strip 5, and the equidistant horizontal dense cotton-flax of being provided with in top on hot melt rubber adhesive layer 1 weaves strip 6, vertical cotton-flax weaves strip 5 and transversely closely the cotton-flax weaves strip 6 and is the crisscross structure of weaving, vertical cotton-flax weaves strip 5 and transversely closely the bottom that cotton-flax weaved strip 6 all with the top of hot melt rubber adhesive layer 1 glutinous, realized that the device weaves strip 5 and transversely closely the cotton-flax through vertical cotton-flax and weaves the mode that strip 6 were woven and carry out the optimization of toughness, can increase the life of device.

The working principle is as follows: when the device is used, firstly, the vertical cotton-flax woven strips 5 woven at the top of the hot-melt rubber adhesive layer 1 and the horizontal dense cotton-flax woven strips 6 are mutually matched to optimize toughness in a weaving mode, so that the service life of the device can be prolonged, the bottom end of the nylon fabric wear-resistant layer 102 is connected with the top ends of the raised wear-resistant particles 101, the surface layer of the device has a wear-resistant function, the abrasion of the device on the hot-melt rubber adhesive layer 1 in the using process can be reduced, the integrity of the surface layer of the hot-melt rubber adhesive layer 1 is increased, meanwhile, the toughness of the device is enhanced through the mutual matching of the vertical inner woven strips 301 and the woven adhesive blocks 302 in the using process, the toughness inside of the device can be mutually matched with the vertical cotton-flax woven strips 5 and the horizontal dense cotton-flax woven strips 6, the use strength of the device is enhanced, meanwhile, the device can be prevented from being torn, and the nano skin-friendly particles 401 are woven inside the nano skin-, the comfort level of the cloth in use is improved through the mutual matching of the nanometer skin-friendly particles 401 and the nanometer skin-friendly layer 4, and the practicability of the device is enhanced.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides a wear-resisting fiber fabric, includes that hot melt rubber glues glutinous layer (1), polyamide fibre surface fabric stable layer (2), the tough and tensile layer of PU material (3), nanometer close skin layer (4) and vertical cotton-flax weave strip (5), its characterized in that: the nylon fabric stabilizing layer (2) is uniformly arranged at the bottom end of the hot-melt rubber adhesive layer (1), cotton and hemp adhesive particles (201) are uniformly arranged inside the nylon fabric stabilizing layer (2), the tough PU layer (3) is uniformly arranged at the bottom end of the nylon fabric stabilizing layer (2), the nanometer skin-friendly layer (4) is arranged at the bottom end of the tough PU layer (3), vertical cotton and hemp woven strips (5) are longitudinally arranged at equal intervals on the top end of the hot-melt rubber adhesive layer (1), and transverse dense cotton and hemp woven strips (6) are transversely arranged at equal intervals on the top end of the hot-melt rubber adhesive layer (1).

2. A wear-resistant fibrous web as claimed in claim 1, wherein: the top end of the hot-melt rubber adhesive layer (1) is provided with protruding wear-resistant particles (101) at equal intervals, the top ends of the protruding wear-resistant particles (101) are provided with nylon fabric wear-resistant layers (102) at equal intervals, and the bottom ends of the nylon fabric wear-resistant layers (102) are connected with the top ends of the protruding wear-resistant particles (101).

3. A wear-resistant fibrous web as claimed in claim 1, wherein: the middle position of the inside of the PU material tough layer (3) is provided with a woven adhesive block (302), the woven adhesive block (302) is provided with a vertical inner woven strip (301), and the woven adhesive block (302) is penetrated through by the vertical inner woven strip (301).

4. A wear-resistant fibrous web as claimed in claim 1, wherein: the nanometer skin-friendly layer (4) is internally and uniformly provided with nanometer skin-friendly particles (401), the height of the nanometer skin-friendly particles (401) is smaller than that of the nanometer skin-friendly layer (4), and the nanometer skin-friendly particles (401) are woven in the nanometer skin-friendly layer (4) in a weaving state.

5. A wear-resistant fibrous web as claimed in claim 1, wherein: the inside height of the tough layer (3) made of PU material is identical with the diameter of the vertical inner weaving strip (301), and the top end and the bottom end of the outer side of the vertical inner weaving strip (301) are connected with the top end and the bottom end of the inside of the tough layer (3) made of PU material.

6. A wear-resistant fibrous web as claimed in claim 1, wherein: the vertical cotton-flax woven strips (5) and the transverse dense cotton-flax woven strips (6) are of a staggered woven structure, and the bottom ends of the vertical cotton-flax woven strips (5) and the transverse dense cotton-flax woven strips (6) are adhered to the top end of the hot-melt rubber adhesive layer (1).

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