CN219007244U - High-toughness oxford fabric - Google Patents

Abstract

The utility model discloses a high-toughness oxford fabric, relates to the technical field of textile, and aims to solve the problem that the structural strength of a pull ring belt is not high enough, and the technical scheme is as follows: the carbon-coated steel sheet comprises a toughness layer and a supporting layer, wherein a plurality of toughness holes are formed in the surface of the toughness layer, carbon particles are filled in the toughness holes, sealing cloth for sealing the toughness holes is sewn at the opening parts of the toughness holes, and one surface of the toughness layer, which is far away from the sealing cloth, is bonded with the supporting layer. The high-toughness oxford fabric achieves the technical effect of strengthening the structural toughness of the pull ring belt by using polyester fibers.

Description

High-toughness oxford fabric

Technical Field

The utility model relates to the technical field of textile, in particular to high-toughness oxford fabric.

Background

Oxford is also called oxford, is a fabric with various functions and wide application, and mainly comprises the following components in the market: the materials include a set of grids, a full bullet, chinlon, a lifting grid and the like. The traditional combed cotton fabric named by oxford university originates from the united kingdom, and starts from about 1900, and has the advantages of light and thin texture, soft hand feeling, good waterproofness, good durability and the like.

On the subway, because not have the seat all the time, can design some passengers that conveniently stand and stabilize self pull ring, part is through oxford woven pull ring area connection between the grab rail of pull ring and subway, this kind of pull ring area general deformability is higher, can conveniently deal with the different atress circumstances of riding the car environment of difference towards arbitrary direction deformation, prior art's pull ring area can open the line and make the structure produce the damage of certain degree when using for a long time, broken pull ring area is easy structural fracture on the subway, lead to drawing the people of pull ring area and appear different degree damage, therefore prior art's pull ring area has the problem that toughness is not strong enough and uses easy fracture for a long time.

There is therefore a need to propose a new solution to this problem.

Disclosure of Invention

Aiming at the defects existing in the prior art, the utility model aims to provide the high-toughness oxford fabric, and the technical effect of strengthening the toughness of the stretch broken belt fabric is achieved through the arrangement of the structure.

The technical aim of the utility model is realized by the following technical scheme: the utility model provides a high toughness oxford cloth, includes toughness layer and supporting layer, a plurality of toughness holes have been seted up to toughness layer surface, and is a plurality of the carbon granules are filled in the toughness downthehole packing, toughness hole opening part is sewed up and is sealed the seal cloth in toughness hole, the toughness layer keep away from the one side of seal cloth with the supporting layer bonds.

The utility model is further provided with: the supporting layer is towards one side array distribution of toughness layer has a plurality of friction strips, toughness layer orientation one side of supporting layer has seted up with a plurality of friction grooves that match of friction strip.

The utility model is further provided with: the sealing cloth is woven into plain weave through warps and wefts of a plurality of sealing yarns, and the sealing yarns are formed by twisting terylene fibers and nylon fibers.

The utility model is further provided with: the toughness layer is knitted through first compound yarn and second compound yarn warp and weft and forms the thru hole structure, the thru hole structure is 6 page healds and warp floating point is the float, and weft floating point is heavy, the thru hole structure is from left to right from bottom to top the structure circulation is: a floating, sinking, floating and sinking sinking, floating, sinking, floating, sinking and sinking sinking and floating.

The utility model is further provided with: the first composite yarn is formed by twisting polyester fibers and nylon fibers, the second composite yarn is formed by twisting polyester special-shaped cross-section fibers and nylon special-shaped cross-section fibers, and the cross sections of the polyester special-shaped cross-section fibers and the nylon special-shaped cross-section fibers are triangular.

The utility model is further provided with: the supporting layer is knitted through a plurality of third compound yarn warps and wefts to form a raised strip tissue, the raised strip tissue is 8-page heald, warp floating points are floating, weft floating points are sinking, and the raised strip tissue is circularly: and the device comprises a floating, sinking and sinking.

The utility model is further provided with: the third composite yarn is formed by a plurality of nylon fibers and a coating yarn coating the nylon fibers, and the coating yarn is formed by twisting a plurality of polyester fibers.

In summary, the utility model has the following beneficial effects: set up toughness layer and supporting layer, toughness layer surface possesses toughness, can bear very strong power, the supporting layer supports toughness layer and prevents that the surface of surface material from taking place to disintegrate, a plurality of toughness holes have been seted up on the surface of toughness layer, a plurality of toughness downthehole carbon granule that fills, carbon granule possesses fairly strong intensity and certain toughness, it makes the average toughness increase on surface material surface to fill into in the toughness hole, the atress ability of surface material has been strengthened, the sealed cloth in sealed toughness hole has been sewed up in the opening part in toughness hole, prevent that the downthehole carbon granule of toughness from falling out in the toughness hole, elastic deformation that prevents simultaneously to pull the surface material from taking place can make toughness hole opening increase deformation, further strengthened the strengthening toughness effect in toughness hole, one side and the supporting layer bonding of keeping away from the sealed cloth of toughness layer, make supporting layer and toughness layer integrative bonding, the structural stability of surface material has been strengthened, thereby the technological effect of strengthening surface material toughness has been reached.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is an organizational chart of the through-hole tissue of the present utility model;

FIG. 3 is an organizational chart of the rib organization of the present utility model;

FIG. 4 is a cross-sectional view of a closure yarn of the present utility model;

FIG. 5 is a cross-sectional view of a first composite yarn of the present utility model;

FIG. 6 is a cross-sectional view of a second composite yarn of the present utility model;

FIG. 7 is a cross-sectional view of a third composite yarn of the present utility model;

in the figure: 1. a ductile layer; 2. carbon particles; 3. a sealing cloth; 4. a ductile hole; 5. a support layer; 6. a friction bar; 7. polyester fiber; 8. nylon fiber; 9. a closure yarn; 10. a first composite yarn; 11. nylon special-shaped section fiber; 12. polyester special-shaped section fiber; 13. a second composite yarn; 14. covering yarn; 15. and a third composite yarn.

Detailed Description

The present utility model will be described in detail below with reference to the accompanying drawings and examples.

A high-toughness oxford fabric is shown in fig. 1, and comprises a toughness layer 1 and a support layer 5, wherein a plurality of toughness holes 4 are formed in the surface of the toughness layer 1, carbon particles 2 are filled in the toughness holes 4, a sealing fabric 3 for sealing the toughness holes 4 is sewn at the opening of the toughness holes 4, and one surface of the toughness layer 1, which is far away from the sealing fabric 3, is bonded with the support layer 5.

As shown in fig. 1-7, the polyester fiber 7 and the nylon fiber 8 are put into a twisting machine to be twisted to form the closed yarn 9, the polyester fiber 7 and the nylon fiber 8 have toughness and firmness, so that the closed yarn 9 has good toughness and wear resistance, a plurality of closed yarns 9 are put into a shuttle loom to be woven into plain weave through warp and weft knitting, and the weaving structure of the plain weave is compact enough to effectively ensure the structural stability of the surface of the fabric.

As shown in fig. 1-7, the polyester fiber 7 and the nylon fibers 8 are put into a twisting machine to form a first composite yarn 10, the first composite yarn 10 has toughness and fiber strength, the polyester fiber 7 is put onto a spinneret plate to form a polyester profiled cross section fiber 12, the nylon fiber 8 is put onto the spinneret plate to form a nylon profiled cross section fiber 11, the polyester profiled cross section fiber 12 and the nylon profiled cross section fiber 11 are triangular, the mutual twisting of the fibers in the shape greatly increases cohesive force among the fibers, the twist among the fibers is strengthened, the structural strength of the fibers is optimized, the structural stability among the fibers is greatly enhanced, the polyester profiled cross section fiber 12 and the nylon profiled cross section fiber 11 are put into the twisting machine to form a second composite yarn 13, and the second composite yarn 13 has strong structural stability.

As shown in fig. 1 to 7, the first composite yarn 10 and the second composite yarn 13 are put into a shuttle loom, warp and weft knitting are performed to form a ductile layer 1 and to form a through hole structure, the through hole structure is 6-page healds, warp and weft floating points are floating, weft floating points are sinking, and the structure circulation of the through hole structure from left to right and from bottom to top is as follows: the surface of the fabric is integrally formed with a plurality of toughness holes 4, so that other materials are conveniently filled in the toughness holes 4 to neutralize and strengthen the overall toughness and density of the fabric.

As shown in fig. 1 to 7, a plurality of polyester fibers 7 are put into a twisting machine to form a cladding yarn 14, the cladding yarn 14 has strong fiber strength, a plurality of nylon fibers 8 and the cladding yarn 14 are put into a ring twisting machine to form a third composite yarn 15, the third composite yarn 15 has good fiber structure stability, a plurality of third composite yarns 15 are put into a shuttle loom to be warp and weft knitted to form a supporting layer 5 and form a raised line structure, the raised line structure is 8-page healds, warp and floating points are floating, weft and floating points are sinking, and the raised line structure circulates from left to right from bottom to top to bottom: the supporting layer 5 is integrally formed with a plurality of friction strips, so that the friction force between the supporting layer 5 and the toughness layer 1 is increased, and the structural stability of the rare-earth O-shaped alloy is improved.

As shown in fig. 1-7, a plurality of friction grooves matched with friction strips are formed in one surface of the flexible layer 1 through a gold stamping process, one surface of the support layer 5 with the friction strips is bonded with the friction grooves of the flexible layer 1, the friction strips 6 are embedded into the friction grooves, two ends of the flexible layer 1 and the support layer 5 are sewed to enable the friction strips 6 and the friction grooves to be relatively stable, carbon particles 2 are filled in flexible holes 4 on the surface of the flexible layer 1, and then the sealing cloth 3 is cut into small blocks to be sewed and then the openings of the flexible holes 4 are sealed, so that the fabric can be obtained.

When making this surface fabric and drawing the clitellum, when others draw and draw to break, the surface of the fabric can compress, and carbon granules 2 can play sufficient making effect to the outside of surface fabric, and the inner wall in friction groove can restrict the removal of supporting layer 5 simultaneously, guarantees that the inside wearing and tearing can not take place of surface fabric, forms structural damage, finally under carbon fiber's high strength support, and the pull ring area has promoted sufficient toughness and intensity, can not damage easily and carbon fiber nature is stable hardly along with time structural strength reduces to reached the technological effect that strengthens and draw the clitellum toughness.

The above description is only a preferred embodiment of the present utility model, and the protection scope of the present utility model is not limited to the above examples, and all technical solutions belonging to the concept of the present utility model belong to the protection scope of the present utility model. It should be noted that modifications and adaptations to the present utility model may occur to one skilled in the art without departing from the principles of the present utility model and are intended to be within the scope of the present utility model.

Claims (7)

1. The utility model provides a high toughness oxford cloth which characterized in that: including toughness layer (1) and supporting layer (5), a plurality of toughness holes (4) have been seted up on toughness layer (1) surface, a plurality of toughness hole (4) intussuseption is full of carbon granule (2), toughness hole (4) opening part is sewed up and is sealed seal cloth (3) of toughness hole (4), toughness layer (1) are kept away from one side of seal cloth (3) with supporting layer (5) bond.

2. The high tenacity oxford of claim 1 wherein: the friction grooves matched with the friction strips (6) are formed in one face, facing the supporting layer (5), of the supporting layer (5), and the friction strips (6) are distributed on one face, facing the ductile layer (1), of the ductile layer (1) in an array mode.

3. The high tenacity oxford of claim 1 wherein: the sealing cloth (3) is woven into plain weave through warps and wefts of a plurality of sealing yarns (9), and the sealing yarns (9) are formed by twisting polyester fibers (7) and nylon fibers (8).

4. The high tenacity oxford of claim 1 wherein: the toughness layer (1) is knitted through a first composite yarn (10) and a second composite yarn (13) in a warp and weft mode to form a through hole structure, the through hole structure is 6-page healds, warp floating points are floating, weft floating points are sinking, and the through hole structure is circularly formed by a structure from left to right, from bottom to top: a floating, sinking, floating and sinking sinking, floating, sinking, floating, sinking and sinking sinking and floating.

5. The high tenacity oxford fabric of claim 4 wherein: the first composite yarn (10) is formed by twisting polyester fibers (7) and a plurality of nylon fibers (8), the second composite yarn (13) is formed by twisting a plurality of polyester special-shaped cross-section fibers (12) and a plurality of nylon special-shaped cross-section fibers (11), and the cross sections of a plurality of polyester special-shaped cross-section fibers (12) and a plurality of nylon special-shaped cross-section fibers (11) are triangular.

6. The high tenacity oxford fabric of claim 2, wherein: the supporting layer (5) is knitted through a plurality of third compound yarns (15) warps and wefts to form raised line tissues, the raised line tissues are 8-page healds, warp floating points are floating, weft floating points are sinking, and the raised line tissues are circularly formed by the tissues from left to right from bottom to top: and the device comprises a floating, sinking and sinking.

7. The high tenacity oxford fabric of claim 6 wherein: the third composite yarn (15) is formed by a plurality of nylon fibers (8) and a coating yarn (14) coating the nylon fibers (8), and the coating yarn (14) is formed by twisting a plurality of polyester fibers (7).

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