CN216507274U - Wear-resisting radiation protection oxford - Google Patents

Abstract

The application discloses wear-resisting radiation protection oxford: the method comprises the following steps: the base cloth layer is formed by interweaving warp yarns and weft yarns; the radiation-proof layer is arranged above the base cloth layer and used for preventing radiation, the radiation-proof layer comprises a radiation-proof outer layer and a radiation-proof inner layer, the radiation-proof outer layer is formed by weaving a plurality of radiation-proof strips, and the radiation-proof inner layer is formed by weaving stainless steel fibers; the wear-resistant layer is arranged above the radiation-proof layer and comprises a wear-resistant upper layer and a wear-resistant lower layer, and the wear-resistant upper layer and the wear-resistant lower layer are interwoven into a whole; the PU coating is arranged on the wear-resistant layer and is used for improving the shading and radiation-proof performance of the oxford fabric; wherein, wear-resisting upper strata is including the first wear-resisting weft and the first wear-resisting weft of interweaving each other, wear-resisting lower floor is including the wear-resisting warp of many second that are parallel to each other, is equipped with a plurality of connecting rings on the wear-resisting warp of second, and first wear-resisting weft passes the connecting ring that the wear-resisting warp of many second formed in proper order.

Description

Wear-resisting radiation protection oxford

Technical Field

The utility model belongs to the technical field of oxford cloth, and particularly relates to wear-resistant and radiation-resistant oxford cloth.

Background

Oxford, also known as oxford, originated from traditional combed cotton fabric, named oxford university, in the uk. The fabric is soft in color and luster, soft in cloth body and good in air permeability, is usually applied to clothes backpacks of various outdoor exercises and the like, is particularly suitable for canopy materials, and can be used for sunshades, tents, building cloth, advertising lamp box signboards, agricultural cover cloth, inflatable fabrics, machines, automobile cover cloth and the like.

The existing oxford fabric has a plurality of problems, namely, the oxford fabric is influenced by external illumination factors, and after the oxford fabric is used for a long time, the oxford fabric is aged and is easy to tear; secondly, the radiation-proof capability of the existing oxford fabric is not enough.

The publication number is: CN 214491925U's patent, it discloses a rain-proof scour prevention oxford, including oxford base fabric layer, the upper surface on oxford base fabric layer is provided with the ultraviolet resistance enhancement layer, the surface of ultraviolet resistance enhancement layer is provided with wear-resisting enhancement layer, the lower surface on oxford base fabric layer is provided with antibiotic layer, the lower surface on antibiotic layer is provided with the layer of protecting against radiation, the lower surface on the layer of protecting against radiation is provided with cold-proof close skin layer.

Above-mentioned oxford carries out the radiation protection through setting up the antiradiation layer and handles, carries out abrasive treatment through setting up wear-resisting enhancement layer to block the ultraviolet ray through being equipped with the ultraviolet ray enhancement layer, but above-mentioned oxford does not handle the ageing problem of oxford, leads to oxford to produce easily ageing, still needs the enhancement.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide wear-resistant radiation-proof oxford fabric which can solve the problems.

The application aims at providing a wear-resisting radiation protection oxford: the method comprises the following steps: the base cloth layer is formed by interweaving warp yarns and weft yarns; the radiation-proof layer is arranged above the base cloth layer and used for preventing radiation, the radiation-proof layer comprises a radiation-proof outer layer and a radiation-proof inner layer, the radiation-proof outer layer is formed by weaving a plurality of radiation-proof strips, and the radiation-proof inner layer is formed by weaving stainless steel fibers; the wear-resistant layer is arranged above the radiation-proof layer and comprises a wear-resistant upper layer and a wear-resistant lower layer, and the wear-resistant upper layer and the wear-resistant lower layer are interwoven into a whole; the PU coating is arranged on the wear-resistant layer and is used for improving the shading and radiation-proof performance of the oxford fabric; wherein, wear-resisting upper strata is including the first wear-resisting weft and the first wear-resisting weft of interweaving each other, wear-resisting lower floor is including the wear-resisting warp of many second that are parallel to each other, is equipped with a plurality of connecting rings on the wear-resisting warp of second, and first wear-resisting weft passes the connecting ring that the wear-resisting warp of many second formed in proper order.

By adopting the wear-resistant radiation-proof oxford fabric, the radiation-proof layer is arranged, so that the radiation-proof performance of the whole oxford fabric can be improved, the radiation-proof outer layer and the radiation-proof inner layer are included, the radiation-proof outer layer is formed by weaving a plurality of radiation-proof strips, and the radiation-proof inner layer is formed by weaving stainless steel fibers, so that a double-layer protection effect can be formed, and the radiation-proof effect is further improved; through being equipped with the wearing layer, can improve the holistic wear resistance of oxford and increase of service life, through be equipped with the PU coating at the wearing layer, can make the oxford have the shading, the function of protecting against radiation, wherein, first wear-resisting weft passes a plurality of connections and interweaves into an organic whole with first wear-resisting warp, makes wear-resisting upper strata and wear-resisting lower floor form inseparable structure, can increase oxford overall structure intensity.

Furthermore, elastic fibers are arranged in the radiation protection strips, and radiation protection metal wires are wound outside the elastic fibers.

Through be equipped with elastic fiber in the strip of protecting against radiation, can make the layer of protecting against radiation that the strip of protecting against radiation constitutes have certain compliance, and the winding has the metal silk of protecting against radiation outside elastic fiber, can improve the holistic radiation protection performance of oxford.

Further: the heat preservation layer is arranged below the base cloth layer and is a cotton cloth layer, the heat preservation layer is provided with a plurality of storage bags, and fire retardants are arranged in the storage bags.

The heat preservation layer made of the cotton cloth layer is arranged below the base cloth layer, so that the overall heat preservation performance of the oxford fabric can be effectively improved, and meanwhile, the flame retardant performance of the oxford fabric can be effectively improved by arranging the storage bags in the heat preservation layer and arranging the flame retardant in the storage bags.

Furthermore, a fireproof layer is arranged between the radiation protection layer and the wear-resistant layer, a plurality of fireproof grooves are formed in the fireproof layer, and flame-retardant hot melt adhesive is filled in the fireproof grooves.

Through being equipped with the flame retardant coating to be equipped with a plurality of fireproof groove that have fire-retardant hot melt adhesive of packing in the flame retardant coating, can effectively improve the holistic fire-retardant ability of oxford, the intraformational fire retardant of cooperation heat preservation can further improve holistic fire behaviour.

Furthermore, an anti-tearing layer is arranged between the base cloth layer and the heat insulation layer and is formed by alternately weaving metal wires and nylon threads.

Through being equipped with the anti-tear layer, and the anti-tear layer adopts metal filament and nylon wire to weave in turn and forms, can make the anti-tear layer not only have the intensity of metal filament but also possess the toughness of nylon wire to improve the holistic intensity and the toughness of oxford.

The utility model has the beneficial effects that:

1. the anti-radiation performance of the entire oxford fabric can be improved by arranging the anti-radiation layer, the anti-radiation performance comprises an anti-radiation outer layer and an anti-radiation inner layer, the anti-radiation outer layer is formed by weaving a plurality of anti-radiation strips, the anti-radiation inner layer is formed by weaving stainless steel fibers, a double-layer protection effect can be formed, the anti-radiation effect is further improved, and the oxford fabric can have the functions of shading and preventing radiation by arranging the PU coating on the wear-resistant layer;

2. the wear-resistant layer is arranged, so that the overall wear resistance of the oxford fabric can be improved, the service life of the oxford fabric can be prolonged, the first wear-resistant weft threads penetrate through the plurality of connections and are interwoven with the first wear-resistant warp threads into a whole, the wear-resistant upper layer and the wear-resistant lower layer form a compact structure, and the overall structural strength of the oxford fabric can be improved;

3. the heat-insulating layer made of the cotton cloth layer is arranged below the base cloth layer, so that the heat-insulating performance of the entire oxford fabric can be effectively improved, and meanwhile, the flame retardant performance of the oxford fabric can be effectively improved by arranging the storage bags in the heat-insulating layer and arranging the flame retardant in the storage bags; through being equipped with the flame retardant coating to be equipped with a plurality of fireproof groove that have fire-retardant hot melt adhesive of packing in the flame retardant coating, can effectively improve the holistic fire-retardant ability of oxford, the intraformational fire retardant of cooperation heat preservation can further improve holistic fire behaviour.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the construction of the radiation protective strip of the present invention;

fig. 3 is a schematic structural view of the wear-resistant layer of the present invention.

The reference numbers in the figures are: 100. a base cloth layer; 200. a radiation protective layer; 210. an anti-radiation outer layer; 211. a radiation protection strip; 212. an elastic fiber; 213. radiation-proof metal wires; 220. a radiation-resistant inner layer; 300. a wear layer; 310. a wear-resistant upper layer; 311. a first wear resistant weft; 312. a first wear resistant warp yarn; 320. a wear-resistant lower layer; 321. a second wear resistant warp yarn; 322. a connecting ring; 400. a heat-insulating layer; 410. a storage bladder; 411. a flame retardant; 500. a fire barrier layer; 510. a fire-proof slot; 511. flame-retardant hot melt adhesive; 600. a tear resistant layer; 700. and (4) coating the PU.

Detailed Description

The technical solutions in the embodiments of the present application will be described clearly below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some, but not all, embodiments of the present application. All other embodiments that can be derived by one of ordinary skill in the art from the embodiments given herein are intended to be within the scope of the present disclosure.

The terms first, second and the like in the description and in the claims of the present application are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It will be appreciated that the data so used may be interchanged under appropriate circumstances such that embodiments of the application may be practiced in sequences other than those illustrated or described herein, and that the terms "first," "second," and the like are generally used herein in a generic sense and do not limit the number of terms, e.g., the first term can be one or more than one. In addition, "and/or" in the specification and claims means at least one of connected objects, a character "/" generally means that a preceding and succeeding related objects are in an "or" relationship.

The wear-resistant radiation-proof oxford fabric provided by the embodiment of the application is described in detail through specific embodiments and application scenarios thereof with reference to the accompanying drawings.

Example 1:

as shown in fig. 1 and fig. 3, the embodiment of the present application provides a wear-resistant radiation-proof oxford: the method comprises the following steps: a base fabric layer 100, the base fabric layer 100 being formed by interweaving warp yarns and weft yarns; the radiation protection layer 200 is arranged above the base cloth layer 100 and used for preventing radiation, the radiation protection layer 200 comprises a radiation protection outer layer 210 and a radiation protection inner layer 220, the radiation protection outer layer 210 is formed by weaving a plurality of radiation protection strips 211, and the radiation protection inner layer 220 is formed by weaving stainless steel fibers; the wear-resistant layer 300 is arranged above the radiation-proof layer 200, the wear-resistant layer 300 comprises a wear-resistant upper layer 310 and a wear-resistant lower layer 320, and the wear-resistant upper layer 310 and the wear-resistant lower layer 320 are interwoven into a whole; the PU coating 700 is arranged on the wear-resistant layer 300 and is used for improving the light-shielding and radiation-proof performance of the oxford fabric; wherein, wear-resisting upper strata 310 includes first wear-resisting weft 311 and the first wear-resisting weft 311 that interweaves each other, and wear-resisting lower floor 320 includes the wear-resisting warp 321 of many second that are parallel to each other, is equipped with a plurality of connecting rings 322 on the wear-resisting warp 321 of second, and first wear-resisting weft 311 passes the connecting ring 322 that many wear-resisting warp 321 of second formed in proper order.

In some embodiments of the embodiment of the application, as shown in fig. 1, the wear-resistant radiation-proof oxford fabric is provided with the radiation-proof layer 200, so that the radiation protection performance of the whole oxford fabric can be improved, the radiation-proof oxford fabric comprises a radiation-proof outer layer 210 and a radiation-proof inner layer 220, the radiation-proof outer layer 210 is formed by weaving a plurality of radiation-proof strips 211, and the radiation-proof inner layer 220 is formed by weaving stainless steel fibers, so that a double-layer protection effect can be formed, and the radiation protection effect is further improved; through being equipped with wearing layer 300, can improve the holistic wear resistance of oxford and increase of service life, through being equipped with PU coating 700 at wearing layer 300, can make oxford have the shading, the function of protecting against radiation, wherein, first wear-resisting weft 311 passes a plurality of connections and interweaves into an organic whole with first wear-resisting warp 312, makes wear-resisting upper strata 310 and wear-resisting lower floor 320 form inseparable structure, can increase oxford overall structure intensity.

In addition, as shown in fig. 2, the radiation protection strip 211 is provided with elastic fibers 212 therein, and radiation protection wires 213 are wound around the elastic fibers 212.

In the embodiment of the application, the elastic fiber 212 is arranged in the radiation protection strip 211, so that the radiation protection layer 200 formed by the radiation protection strip 211 has certain softness, and the radiation protection metal wire 213 is wound outside the elastic fiber 212, so that the radiation protection performance of the oxford fabric can be improved.

Example 2:

the embodiment of the application provides a wear-resisting radiation protection oxford, except including above-mentioned technical characteristics, the wear-resisting radiation protection oxford of the embodiment of the application still includes following technical characteristics.

As shown in fig. 1, an insulating layer 400 is disposed below the base fabric layer 100, the insulating layer 400 is a cotton fabric layer, the insulating layer 400 is provided with a plurality of storage cells 410, and a fire retardant 411 is disposed in the storage cells 410.

In this application embodiment, through being equipped with the heat preservation 400 of being made by the cotton layer below base cloth layer 100, can effectively improve the holistic thermal insulation performance of oxford, simultaneously, through being equipped with a plurality of storage bags 410 in heat preservation 400 to be equipped with fire retardant 411 in storage bag 410, can effectively improve the fire behaviour of oxford.

Example 3:

the embodiment of the application provides a wear-resisting radiation protection oxford, except including above-mentioned technical characteristics, the wear-resisting radiation protection oxford of the embodiment of the application still includes following technical characteristics.

As shown in fig. 1, a fire-proof layer 500 is arranged between the radiation-proof layer 200 and the wear-resistant layer 300, a plurality of fire-proof grooves 510 are arranged in the fire-proof layer 500, and the fire-proof grooves 510 are filled with flame-retardant hot melt adhesive 511.

In this application embodiment, through being equipped with flame retardant coating 500 to be equipped with a plurality of fireproof groove 510 that fill has fire-retardant hot melt adhesive 511 in flame retardant coating 500, can effectively improve the holistic fire-retardant ability of oxford, the fire retardant 411 in the cooperation heat preservation 400 can further improve holistic fire behaviour.

Example 4:

the embodiment of the application provides a wear-resisting radiation protection oxford, except including above-mentioned technical characteristics, the wear-resisting radiation protection oxford of the embodiment of the application still includes following technical characteristics.

As shown in fig. 1, a tear-resistant layer 600 is disposed between the base fabric layer 100 and the insulation layer 400, and the tear-resistant layer 600 is formed by alternately weaving metal wires and nylon threads.

In this embodiment, through being equipped with anti-tear layer 600, and anti-tear layer 600 adopts metal filament and nylon wire to weave in turn and forms, can make anti-tear layer 600 not only have the intensity of metal filament but also possess the toughness of nylon wire to improve the holistic intensity and the toughness of oxford.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element. Further, it should be noted that the scope of the methods and apparatus of the embodiments of the present application is not limited to performing the functions in the order illustrated or discussed, but may include performing the functions in a substantially simultaneous manner or in a reverse order based on the functions involved, e.g., the methods described may be performed in an order different than that described, and various steps may be added, omitted, or combined. In addition, features described with reference to certain examples may be combined in other examples.

While the present embodiments have been described with reference to the accompanying drawings, it is to be understood that the utility model is not limited to the precise embodiments described above, which are meant to be illustrative and not restrictive, and that various changes may be made therein by those skilled in the art without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (5)

1. The wear-resistant radiation-proof oxford fabric is characterized in that: the method comprises the following steps:

a base fabric layer (100), the base fabric layer (100) being interwoven by warp yarns and weft yarns;

the radiation-proof layer (200) is arranged above the base cloth layer (100) and used for preventing radiation, the radiation-proof layer (200) comprises a radiation-proof outer layer (210) and a radiation-proof inner layer (220), the radiation-proof outer layer (210) is formed by weaving a plurality of radiation-proof strips (211), and the radiation-proof inner layer (220) is formed by weaving stainless steel fibers;

the wear-resistant layer (300) is arranged above the radiation-proof layer (200), the wear-resistant layer (300) comprises a wear-resistant upper layer (310) and a wear-resistant lower layer (320), and the wear-resistant upper layer (310) and the wear-resistant lower layer (320) are interwoven into a whole;

the PU coating (700) is arranged on the wear-resistant layer (300) and is used for improving the shading and radiation-proof performance of the oxford fabric;

wherein, wear-resisting upper strata (310) are including first wear-resisting weft (311) and first wear-resisting warp (312) of interweaving each other, wear-resisting lower floor (320) are equipped with a plurality of connecting rings (322) including many second wear-resisting warp (321) that are parallel to each other on the wear-resisting warp (321) of second, and first wear-resisting weft (311) pass connecting ring (322) that many second wear-resisting warp (321) formed in proper order.

2. The wear-resistant radiation-proof oxford fabric according to claim 1, wherein: elastic fiber (212) is arranged in the radiation protection strip (211), and a radiation protection metal wire (213) is wound outside the elastic fiber (212).

3. The wear-resistant radiation-proof oxford fabric according to claim 2, wherein: the heat-insulating layer (400) is arranged below the base cloth layer (100), the heat-insulating layer (400) is a cotton cloth layer, the heat-insulating layer (400) is provided with a plurality of storage bags (410), and a fire retardant (411) is arranged in each storage bag (410).

4. The wear-resistant radiation-proof oxford fabric according to claim 3, wherein: the radiation protection coating is characterized in that a fireproof layer (500) is arranged between the radiation protection layer (200) and the wear-resistant layer (300), a plurality of fireproof grooves (510) are formed in the fireproof layer (500), and flame-retardant hot melt adhesives (511) are filled in the fireproof grooves (510).

5. The wear-resistant radiation-proof oxford fabric according to claim 4, wherein: an anti-tearing layer (600) is arranged between the base cloth layer (100) and the heat insulation layer (400), and the anti-tearing layer (600) is formed by alternately weaving metal wires and nylon threads.

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