CN214083271U - Higher glass fiber cloth of intensity - Google Patents

Abstract

The utility model discloses a higher glass fiber cloth of intensity belongs to glass fiber cloth technical field, and it includes high strength antiskid wear-resisting inoxidizing coating, the lower surface of high strength antiskid wear-resisting inoxidizing coating and the upper surface bonding of the mixed weaving layer of bimaterial, the lower surface of the mixed weaving layer of bimaterial bonds with the upper surface of high density aramid fiber heat-sink shell, the lower surface of high density aramid fiber heat-sink shell bonds with the upper surface of heat-resisting corrosion-resistant inoxidizing coating. This higher glass fiber cloth of intensity through setting up the mixed weaving layer of bi-material, and the crooked in-process that drives the glass fiber precursor of this device, and the flax fiber precursor can be crooked along with the glass fiber precursor on the glass fiber precursor surface together, has strengthened the pulling force of flax fiber cloth, avoids because glass fiber precursor self crack resistance nature leads to this device to take place cracked condition and takes place, has guaranteed the normal life of this device, has avoided the waste of material.

Description

Higher glass fiber cloth of intensity

Technical Field

The utility model belongs to the technical field of the glass fiber cloth, specifically be a higher glass fiber cloth of intensity.

Background

The glass fiber is an inorganic non-metallic material with excellent performance, which is manufactured by taking glass balls or waste glass as raw materials through processes of high-temperature melting, wire drawing, winding, weaving and the like, the diameter of the glass fiber is several micrometers to twenty micrometers, the glass fiber cloth is a twistless roving plain weave fabric produced by weaving and winding the glass fiber, the twistless roving plain weave fabric is usually used as a reinforcing material, an electric insulating material and a heat insulating material in a composite material, the glass fiber is melted at high temperature and has poor heat resistance, the glass fiber cloth woven by the glass fiber can deform and bend when being heated and cannot be recovered, the subsequent use of the glass fiber cloth is influenced, and meanwhile, the glass fiber cloth products are easy to break or wear in the use process due to the influences of the brittle physical properties and poor wear resistance of the glass fiber, the glass fiber cloth needs to be replaced and repaired repeatedly, the cost consumption of the glass fiber cloth is increased, and the service life of the glass fiber cloth is influenced.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

In order to overcome prior art's above-mentioned defect, the utility model provides a higher glass fiber cloth of intensity, it forms through high temperature melting to have solved glass fiber, its heat resistance is relatively poor, the glass fiber cloth that forms is woven by glass fiber when being heated, the condition of deformation and bending can appear, and can't recover, influence follow-up use to glass fiber cloth, simultaneously because of glass fiber's physical property is more fragile, the relatively poor influence of wearability, lead to the condition that break or wearing and tearing appear easily in the use of most glass fiber cloth goods, need change repeatedly and restore, the cost consumption of using glass fiber cloth has been strengthened, the life's of glass fiber cloth problem has been influenced.

(II) technical scheme

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a higher glass fiber cloth of intensity, includes high strength antiskid wear-resistant protection layer, the lower surface of high strength antiskid wear-resistant protection layer and the upper surface bonding of the mixed weaving layer of bimaterial, the lower surface of the mixed weaving layer of bimaterial bonds with the upper surface of high density aramid fiber heat-absorbing layer, the lower surface of high density aramid fiber heat-absorbing layer and the upper surface bonding of heat-resisting corrosion-resistant protection layer, the lower surface of heat-resisting corrosion-resistant protection layer and the upper surface bonding of dampproofing ventilative inoxidizing coating, the lower surface of dampproofing ventilative inoxidizing coating and the upper surface bonding on anti-oxidant corrosion-resistant protection top layer.

As a further aspect of the present invention: the high-strength anti-skid wear-resistant protective layer is made of nylon fibers.

As a further aspect of the present invention: the double-material mixed woven layer comprises a plurality of glass fiber strands, flax fiber strands are wound and bonded on the outer surfaces of the glass fiber strands, and the glass fiber strands and the flax fiber strands are mixed and woven in a staggered mode.

As a further aspect of the present invention: the heat-resistant corrosion-resistant protective layer is made of resin.

As a further aspect of the present invention: the moisture-proof breathable protective layer is made of non-woven fabrics.

As a further aspect of the present invention: the oxidation-resistant corrosion-resistant protective surface layer is made of fluororubber.

(III) advantageous effects

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

1. the glass fiber cloth with higher strength is characterized in that the dual-material mixed woven layer is arranged and comprises glass fiber precursors and flax fiber precursors, when the device is stressed, the device drives the dual-material mixed woven layer to be bent, the dual-material mixed woven layer is formed by weaving a plurality of glass fiber precursors in a staggered manner, the flax fiber precursors are wound on the surface of each glass fiber precursor, the surface of each flax fiber precursor is soft, and the device has the characteristics of strong tensile force, good ductility, weak electric conduction, quick water absorption and heat dissipation and the like, avoiding waste of material.

2. This higher glass fiber cloth of intensity, through setting up heat-resisting anti-corrosion inoxidizing coating, when this device is heated, material because of heat-resisting anti-corrosion inoxidizing coating is the resin, material because of the resin is heat-resisting unsaturated polyester resin, heat-resisting unsaturated polyester resin has heat resistance and corrosion resistance, after reinforcing through this device collocation, heat resistance and corrosion resistance further promote, can absorb the heat that receives, prevent heat infiltration to glass fiber precursor, prevent that glass fiber precursor from appearing the condition of deformation damage after receiving a large amount of heats, and heat-resisting coating has corrosion resistance, can effectually protect glass fiber precursor, the corrosion resistance of this device has been strengthened, the protective capacities to glass fiber precursor has been improved.

3. This higher glass fiber cloth of intensity, through setting up the wear-resisting inoxidizing coating of high strength antiskid, when article were placed on this device surface, because be provided with the wear-resisting inoxidizing coating of high strength antiskid, and the wear-resisting inoxidizing coating of high strength antiskid sets up to the nylon fiber material, the nylon fiber material has very high mechanical strength, heat-resisting, the coefficient of friction is low, it is stand wear and tear, self-lubricity, shock absorption nature and amortization nature, when this device receives the friction, the friction object at first contacts the wear-resisting inoxidizing coating of high strength antiskid, the mechanical strength of this device has been strengthened, the wearability of this device has been strengthened, the probability of this device because frictional force is great and the phenomenon of wearing and tearing when using has been reduced, the life of this device has been guaranteed.

4. This higher glass fiber cloth of intensity, through setting up high density aramid fiber heat-sink shell, high density aramid fiber heat-sink shell has superstrong intensity, the high modulus, high temperature resistant, good properties such as acid and alkali resistant and light in weight, when using this device, high density aramid fiber heat-sink shell can absorb the heat that this device received, prevent heat infiltration, the normal life of this device has been guaranteed, when this device contacts acid alkaline material, high density aramid fiber heat-sink shell can shelter from acid alkaline material, avoid this device to take place because the condition corroded with acid alkaline material contact, guaranteed that this device lasts normal use.

5. This higher glass fiber cloth of intensity, through setting up anti-oxidant corrosion-resistant protection top layer, anti-oxidant corrosion-resistant protection top layer comprises fluororubber, fluororubber is the synthetic polymer elastomer who contains the fluorine atom on the carbon atom of main chain or side chain, the introduction of fluorine atom, give rubber excellent heat resistance, oxidation resistance, oil resistance, corrosion resistance and resistant atmosphere ageing resistance, can protect this device surface when this device uses, avoid this device oxidation to appear, simultaneously when this device and the material contact that has corrosivity, fluororubber can block corrosive substance, avoid this device to appear damaging, fluororubber still has the heat resistance simultaneously, the normal life of this device has been guaranteed.

Drawings

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

fig. 2 is a schematic sectional view of the top view of the present invention;

in the figure: 1 high strength antiskid wear-resisting inoxidizing coating, 2 mixed weaving layers of two materials, 201 glass fiber precursor, 202 flax fiber precursor, 3 high density aramid fiber heat-absorbing layers, 4 heat-resisting corrosion-resistant inoxidizing coating, 5 dampproofing ventilative inoxidizing coating, 6 oxidation-resistant corrosion-resistant protective surface layer.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

As shown in fig. 1-2, the utility model provides a technical solution: a glass fiber cloth with higher strength comprises a high-strength anti-skid wear-resistant protective layer 1, wherein the high-strength anti-skid wear-resistant protective layer 1 is arranged, when articles are placed on the surface of the device, because the high-strength anti-skid wear-resistant protective layer 1 is arranged, and the high-strength anti-skid wear-resistant protective layer 1 is made of nylon fiber materials, the nylon fiber materials have high mechanical strength, heat resistance, low friction coefficient, wear resistance, self-lubricating property, shock absorption and noise reduction properties, when the device is subjected to friction, a friction object firstly contacts the high-strength anti-skid wear-resistant protective layer 1, the mechanical strength of the device is enhanced, the wear resistance of the device is enhanced, the probability of wear phenomenon caused by large friction force when the device is used is reduced, the service life of the device is ensured, the lower surface of the high-strength anti-skid wear-resistant protective layer 1 is bonded with the upper surface of a double-material mixed braided layer 2, by arranging the bi-material mixed braided layer 2, the bi-material mixed braided layer 2 comprises the glass fiber precursor 201 and the flax fiber precursor 202, when the device is stressed, the device drives the bi-material mixed braided layer 2 to be bent, the bi-material mixed braided layer 2 is formed by weaving the glass fiber precursor 201 in a staggered manner, the flax fiber precursor 202 is wound on the surface of each glass fiber precursor 201, the surface of the flax fiber precursor 202 is soft, and the device has the characteristics of strong tension, good ductility, weak conduction, fast water absorption and heat dissipation and the like, in the process of bending the device and driving the glass fiber precursor 201, the flax fiber precursor 202 can be bent along with the glass fiber precursor 201 on the surface of the glass fiber precursor 201, the tension of the flax fiber cloth is enhanced, the situation that the device is broken because the glass fiber precursor 201 does not resist crack by itself is avoided, and the normal service life of the device is ensured, the waste of materials is avoided, the lower surface of the double-material mixed woven layer 2 is bonded with the upper surface of the high-density aramid fiber heat-absorbing layer 3, and the high-density aramid fiber heat-absorbing layer 3 has the excellent performances of super-strong strength, high modulus, high temperature resistance, acid and alkali resistance, light weight and the like, when the device is used, the high-density aramid fiber heat-absorbing layer 3 can absorb heat received by the device, so that the heat permeation is prevented, the normal service life of the device is ensured, when the device is contacted with acidic alkaline substances, the high-density aramid fiber heat-absorbing layer 3 can shield the acidic alkaline substances, the device is prevented from being corroded due to the contact with the acidic alkaline substances, the continuous normal use of the device is ensured, the lower surface of the high-density aramid fiber heat-absorbing layer 3 is bonded with the upper surface of the heat-resistant corrosion-resistant protective layer 4, the lower surface of the heat-resistant corrosion-resistant protective layer 4 is bonded with the upper surface of the moisture-resistant breathable protective layer 5, the moisture-resistant breathable protective layer 5 is composed of a non-woven fabric layer, and the non-woven fabric layer has the characteristics of moisture resistance, breathability, flexibility, light weight, no combustion supporting, easiness in decomposition, no toxicity, no irritation, rich color, low price, recycling and the like, and can make the device more breathable in the using process of the device, when the device contacts a water source, the non-woven fabric layer can isolate the water source to avoid the device from being affected with damp, so that the normal use of the device is ensured, the lower surface of the moisture-resistant breathable protective layer 5 is bonded with the upper surface of the oxidation-resistant corrosion-resistant protective surface layer 6, the oxidation-resistant corrosion-resistant protective surface layer 6 is composed of fluororubber, and the fluororubber is a synthetic polymer elastomer containing fluorine atoms on carbon atoms of a main chain or side chains, the introduction of fluorine atom gives rubber excellent heat resistance, oxidation resistance, oil resistance, corrosion resistance and atmospheric aging resistance, oxidation resistance and corrosion resistance protection top layer 6 sets up to fluororubber, can protect this device surface when this device uses, avoid this device oxidation to appear, when this device contacts with the material that has corrosivity simultaneously, fluororubber can block corrosive substance, avoid this device to appear damaging, fluororubber still has the heat resistance simultaneously, has guaranteed the normal life of this device.

Specifically, as shown in fig. 1 and fig. 2, the high-strength anti-skid wear-resistant protective layer 1 is made of nylon fibers, the dual-material mixed woven layer 2 includes a plurality of glass fiber strands 201, flax fiber strands 202 are wound and bonded on the outer surfaces of the glass fiber strands 201, the mixture of the glass fiber strands 201 and the flax fiber strands 202 is woven in a staggered manner, the heat-resistant and corrosion-resistant protective layer 4 is made of resin, by arranging the heat-resistant and corrosion-resistant protective layer 4, when the device is heated, the heat-resistant and corrosion-resistant protective layer 4 is made of resin, the resin layer is made of heat-resistant unsaturated polyester resin, the heat-resistant unsaturated polyester resin has heat resistance and corrosion resistance, after being enhanced by matching of glass fibers, the heat resistance and corrosion resistance are further improved, the received heat can be absorbed, the heat is prevented from permeating into the glass fiber strands 201, and the glass fibers in the glass fiber strands 201 are prevented from being deformed and damaged after receiving a large amount of heat, and the heat-resisting coating has corrosion resistance, can effectually protect glass fiber precursor 201, has strengthened the corrosion resistance of this device, has improved the protective capacities to glass fiber precursor 201, and dampproofing ventilative inoxidizing coating 5 sets up to the non-woven fabrics, and oxidation-resistant corrosion-resistant protective surface layer 6 sets up to fluororubber.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

Although the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims (6)

1. The utility model provides a higher glass fiber cloth of intensity, includes high strength antiskid wear-resisting inoxidizing coating (1), its characterized in that: the lower surface of wear-resisting inoxidizing coating of high strength antiskid (1) and the upper surface bonding of two material mixed weaving layer (2), the lower surface of two material mixed weaving layer (2) and the upper surface bonding of high density aramid fiber heat-sink shell (3), the lower surface of high density aramid fiber heat-sink shell (3) and the upper surface bonding of heat-resisting corrosion-resistant inoxidizing coating (4), the lower surface of heat-resisting corrosion-resistant inoxidizing coating (4) and the upper surface bonding of dampproofing ventilative inoxidizing coating (5), the lower surface of dampproofing ventilative inoxidizing coating (5) and the upper surface bonding of anti-oxidant corrosion-resistant protective top layer (6).

2. The high-strength glass fiber cloth according to claim 1, wherein: the high-strength anti-skid wear-resistant protective layer (1) is made of nylon fibers.

3. The high-strength glass fiber cloth according to claim 2, wherein: the double-material mixed woven layer (2) comprises a plurality of glass fiber strands (201), flax fiber strands (202) are wound and bonded on the outer surfaces of the glass fiber strands (201), and the mixtures of the glass fiber strands (201) and the flax fiber strands (202) are woven in a staggered mode.

4. The high-strength glass fiber cloth according to claim 1, wherein: the heat-resistant corrosion-resistant protective layer (4) is made of resin.

5. The high-strength glass fiber cloth according to claim 1, wherein: the moisture-proof breathable protective layer (5) is made of non-woven fabrics.

6. The high-strength glass fiber cloth according to claim 1, wherein: the oxidation-resistant corrosion-resistant protective surface layer (6) is made of fluororubber.

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