CN215551647U - Anti-adhesion oxford - Google Patents

Abstract

The utility model discloses anti-adhesion oxford fabric, relates to the technical field of textiles, and aims to solve the problem that fabric is prone to being stuck to skin after sweat absorption. The key points of the technical scheme are as follows: including basic unit, deformation layer and the top layer that from interior to exterior set gradually, array distribution has a plurality of ventilative cavitys between deformation layer and the basic unit, is provided with conflict portion in the ventilative cavity, and when the basic unit received a tensile effort along warp direction or latitudinal direction, basic unit along ventilative cavity array direction deformation and its cross-section were the wavy. According to the utility model, the contact part is arranged, when the fabric is subjected to a stretching acting force, one side of the fabric in contact with a human body is wavy, so that the contact area with the human body is reduced, the fabric is difficult to stick on the human body in a wet state, the contact area of air in the fabric and outside air is increased by arranging the breathable cavity, and the evaporation of water is accelerated.

Description

Anti-adhesion oxford

Technical Field

The utility model relates to the technical field of buildings, in particular to anti-adhesion oxford.

Background

The fabric is used as the basis for making clothes, and when the fabric has better performance, the quality and the effect of making the clothes are greatly improved.

When the fabric is used as a fabric of sports clothes, the fabric generally needs to have good air permeability and sweat absorption performance, after strenuous exercise, a large amount of sweat is generated on a human body, and sweat is easily adhered to the human body after being absorbed by the fabric, so that the comfort level of subsequent exercise is affected.

The utility model provides a new technical scheme for solving the problem that the fabric is easy to stick on the skin after absorbing sweat.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model aims to provide the anti-adhesion oxford fabric, the cross section of the base layer on the side contacting with a human body is wavy when the oxford fabric is subjected to external stretching acting force by arranging the air permeable cavity and the abutting part, so that the contact area of the base layer and the human body is reduced, the adhesion of the fabric and the human body is prevented, and the evaporation of sweat in the fabric is facilitated by arranging the air vents.

The technical purpose of the utility model is realized by the following technical scheme: the utility model provides an antiseized even oxford, includes basic unit, deformation layer and the top layer that from interior to exterior set gradually, array distribution has a plurality of ventilative cavitys between deformation layer and the basic unit, array distribution has conflict portion in the ventilative cavity, works as when the basic unit receives a tensile effort along warp direction or latitudinal direction, the basic unit is wavy along ventilative cavity array direction deformation and its cross-section.

Through adopting above-mentioned technical scheme, when human violent movement, can produce the effort along surface fabric warp direction or latitudinal direction and produce the sweat to the surface fabric, after the surface fabric absorbed sweat, very easily glue on skin, lead to the comfort level of surface fabric to descend, through setting up conflict portion, work as when the basic unit receives a tensile effort along warp direction or latitudinal direction, the basic unit was wavy along ventilative cavity array direction deformation and its cross-section to the area of contact of basic unit with the human body has been reduced, thereby made the most area of surface fabric keep away from the human body, the wavy adhesion that is difficult to on the human body, thereby improves the comfort level.

The utility model is further configured to: when the base layer receives a tensile acting force along the warp direction or the weft direction, the collision part receives an acting force towards the base layer.

Through adopting above-mentioned technical scheme, when the basic unit received a tensile effort along warp direction or latitudinal direction, elastic deformation took place on basic unit and top layer, because there is ventilative cavity between deformation layer and the basic unit, can make deformation layer take place simultaneously along the thickness direction of basic unit, promoted conflict portion and be close to the basic unit, applyed the effort to the basic unit, made the basic unit form wavy under the effect of conflict portion, reduced with human area of contact.

The utility model is further configured to: the elastic coefficient of the deformation layer is larger than that of the base layer and the surface layer.

Through adopting above-mentioned technical scheme, when the surface fabric received the effort along warp direction and latitudinal direction, because the elastic coefficient on deformation layer is greater than the elastic coefficient of basic unit, deformation layer can stimulate basic unit and top layer between the adjacent conflict portion and be close to each other, because conflict portion contradicts between deformation layer and basic unit, is located the basic unit and the top layer of conflict portion apart from unchangeable again to make the basic unit form the wave.

The utility model is further configured to: an air cavity is arranged between the deformation layer and the surface layer, and a plurality of air holes are distributed in the base layer, the deformation layer and the surface layer in a staggered manner.

By adopting the technical scheme, the air cavity and the air holes are formed, so that the air permeability of the fabric is improved, and the sweat evaporation capacity is improved.

The utility model is further configured to: the deformation layer is wavy, conflict portion is rectangular form, the one end fixed connection of conflict portion is in the crest department of deformation layer, bleeder vent and ventilative cavity intercommunication on the basic unit are seted up in the both sides of conflict portion.

Through adopting above-mentioned technical scheme, wavy deformation layer is single layer cloth, conveniently weaving, the one end fixed connection of conflict portion is in the crest department of deformation layer simultaneously, the promotion of convenient conflict portion prevents that conflict portion atress is uneven, it is crooked to lead to conflict portion, can not make the basic unit be wavy, through setting up the bleeder vent, make ventilative cavity, the air cavity, the surface fabric is inboard and the surface fabric outside all communicates, thereby make the air permeability of surface fabric further improve, the basic unit simultaneously, the top layer, the bleeder vent staggered distribution on the deformation layer, prevent that sunshine from sunburning skin through the bleeder vent.

The utility model is further configured to: be located on the top layer the size of bleeder vent is greater than the size that is located the bleeder vent on the deformation layer, is located on the deformation layer the size of bleeder vent is greater than the size that is located the bleeder vent on the basic unit, works as when the basic unit receives a tensile effort along warp direction or latitudinal direction, is located on the basic unit the size of bleeder vent equals the size of the bleeder vent on the deformation layer.

Through adopting above-mentioned technical scheme, through the size that sets up the bleeder vent, control inside gas flow direction, the size that is located the bleeder vent on the top layer is greater than the size that is located the bleeder vent on the deformation layer, make surperficial fresh air enter into to the air cavity easily, when warp direction or latitudinal direction received a tensile effort along the basic unit, the size that is located the bleeder vent on the basic unit equals the size of the bleeder vent on the deformation layer, thereby make the inboard steam of surface fabric enter into to the ventilative cavity more easily when tensile, accelerate the outflow of steam, when the surface fabric is stretched the back and is retracted, because the bleeder vent on the basic unit is preferred to be reduced, make the air that enters into to ventilative cavity preferentially enter into to the air cavity in, thereby make steam accelerate to lose, reach the effect of heat extraction.

The utility model is further configured to: the surface layer and the base layer are woven by polyester fibers and spandex fibers.

Through adopting above-mentioned technical scheme, the top layer that forms through polyester fiber and spandex fiber shuttle has better elasticity with the basic unit, and polyester fiber has better fatigue resistance to make top layer and basic unit adapt to fierce motion more, prevent that the clothing from tearing and fluffing.

The utility model is further configured to: the deformation layer is formed by weaving polyester fibers.

Through adopting above-mentioned technical scheme, through the deformation layer that polyester fiber made, the elastic coefficient is great, is difficult to take place deformation, has higher intensity simultaneously, breaks the deformation layer during the prevention motion.

In conclusion, the utility model has the following beneficial effects:

through setting up deformation layer and conflict portion, when the surface fabric takes place tensile, conflict portion can make the basic unit form wavy, reduces skin and basic unit area of contact to make the basic unit be difficult to glue on skin, all seted up the bleeder vent on basic unit, top layer and the deformation layer, make things convenient for gaseous circulation, set up the size of bleeder vent simultaneously, make things convenient for the circulation of gas of basic unit one side to top layer one side, during the tensile, make things convenient for the emission of air.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

In the figure: 1. a base layer; 2. a deformation layer; 3. a surface layer; 4. a contact part; 5. and (4) air holes.

Detailed Description

The utility model is described in detail below with reference to the figures and examples.

Example (b): an anti-adhesion oxford fabric is shown in figure 1 and comprises a base layer 1, a deformation layer 2 and a surface layer 3 which are sequentially arranged from inside to outside, wherein a plurality of air-permeable cavities are formed between the base layer 1 and the deformation layer 2, an air cavity is formed between the surface layer 3 and the deformation layer 2, and a contact part 4 is arranged in each air-permeable cavity.

As shown in fig. 1, deformation layer 2 is wavy, conflict portion 4 is rectangular form, conflict portion 4 adopts cloth or rubber strip to make, the one end fixed connection of conflict portion 4 is in the crest department of deformation layer 2, the other end fixed connection of conflict portion 4 is on basic unit 1, top layer 3 adopts polyester fiber and spandex fiber to weave with basic unit 1 and forms, deformation layer 2 adopts polyester fiber to weave and forms, the elastic coefficient of top layer 3 and basic unit 1 is less than the elastic coefficient of deformation layer 2 this moment, when the surface fabric received the effort at warp direction and latitudinal direction, can make the distance increase between the adjacent conflict portion 4, thereby make 4 pulling deformation layer 2 of conflict portion warp, conflict portion 4 makes basic unit 1 and 2 trough departments of deformation layer form the difference value this moment, thereby make the cross-section of basic unit 1 be wavy, the area of contact of basic unit 1 with skin has been reduced.

As shown in fig. 1, top layer 3, basic unit 1, the bleeder vent 5 has all been seted up on the deformation layer 2, the size that is located bleeder vent 5 on top layer 3 is greater than the size that is located bleeder vent 5 on the deformation layer 2, the size that is located bleeder vent 5 on the deformation layer 2 is greater than the size that is located bleeder vent 5 on basic unit 1, when basic unit 1 receives a tensile effort along warp direction or latitudinal direction, the size that is located bleeder vent 5 on basic unit 1 equals the size of bleeder vent 5 on the deformation layer 2, in operation, make the air that is close to 1 one side of basic unit more easily get into in the ventilative cavity, gas in the ventilative cavity gets into in the air cavity more easily, thereby accelerate inside gas and external gas's circulation, accomplish the emission of steam, and the comfort level is improved.

Principle of operation

The during operation, human violent movement, make the surface fabric receive the effort at warp direction and latitudinal direction, the pulling surface fabric takes place elastic deformation, top layer 3 takes place to warp with basic unit 1, the distance increase between layer 2 and the 3 junctions in top layer of warping this moment, layer 2 warp because the elastic coefficient is great, thereby pulling top layer 3 and basic unit 1 are close to each other, conflict portion 4 can conflict basic unit 1 this moment, the trough department can stimulate basic unit 1 with the junction of basic unit 1 and be close to top layer 3, thereby make basic unit 1 form the wave, thereby reduce with human area of contact.

When top layer 3, when basic unit 1 takes place elastic deformation, the corresponding grow of bleeder vent 5 on top layer 3 and basic unit 1, thereby make the air of surface fabric both sides enter into ventilative cavity and air cavity more easily, when tensile, the space in the ventilative cavity increases, can follow on basic unit 1 bleeder vent 5 and the deformation layer 2 bleeder vent 5 air of inhaling, thereby make in the air cavity gas and the 1 outside steam of basic unit get into ventilative cavity, after tensile, bleeder vent 5 reduces on basic unit 1, thereby make in the ventilative cavity air enter into the air cavity more easily, thereby make the one-way emission of steam, thereby make the gas permeability better.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the utility model may occur to those skilled in the art without departing from the principle of the utility model, and are considered to be within the scope of the utility model.

Claims (8)

1. An anti-adhesion oxford fabric is characterized in that: including basic unit (1), deformation layer (2) and top layer (3) that from interior to exterior set gradually, array distribution has a plurality of ventilative cavitys between deformation layer (2) and basic unit (1), array distribution has conflict portion (4) in the ventilative cavity, works as basic unit (1) receives a tensile effort along warp direction or latitudinal direction when, basic unit (1) is wavy along ventilative cavity array direction deformation and its cross-section.

2. The anti-blocking oxford fabric according to claim 1, wherein: when the base layer (1) receives a stretching acting force along the warp direction or the weft direction, the collision part (4) receives an acting force towards the base layer (1).

3. The anti-blocking oxford fabric according to claim 2, wherein: the elastic coefficient of the deformation layer (2) is larger than the elastic coefficients of the base layer (1) and the surface layer (3).

4. The anti-blocking oxford fabric according to claim 3, wherein: an air cavity is arranged between the deformation layer (2) and the surface layer (3), and a plurality of air holes (5) are distributed in the base layer (1), the deformation layer (2) and the surface layer (3) in a staggered manner.

5. The anti-blocking oxford fabric according to claim 4, wherein: the deformation layer (2) is wavy, conflict portion (4) are rectangular form, the one end fixed connection of conflict portion (4) is in the crest department of deformation layer (2), bleeder vent (5) on basic unit (1) communicate with ventilative cavity and set up in the both sides of conflict portion (4).

6. The anti-blocking oxford fabric according to claim 5, wherein: be located on top layer (3) the size of bleeder vent (5) is greater than the size that is located bleeder vent (5) on deformation layer (2), is located on deformation layer (2) the size of bleeder vent (5) is greater than the size that is located bleeder vent (5) on basic unit (1), works as basic unit (1) is when receiving a tensile effort along warp direction or latitudinal direction, is located on basic unit (1) the size of bleeder vent (5) on deformation layer (2) equals the size of bleeder vent (5).

7. The anti-blocking oxford fabric according to claim 1, wherein: the surface layer (3) and the base layer (1) are woven by polyester fibers and spandex fibers.

8. The anti-blocking oxford fabric according to claim 1, wherein: the deformation layer (2) is formed by weaving polyester fibers.

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