CN216139571U - Pressure-resistant and fireproof glass fiber cloth - Google Patents

Abstract

The invention relates to a pressure-resistant fireproof glass fiber cloth, which comprises a plurality of warps and wefts made of glass fiber composite yarns, wherein the surfaces of the warps and the wefts are coated with flame-retardant layers, the warps and the wefts, the surfaces of which are coated with the flame-retardant layers, are interwoven into flame-retardant gridding cloth, the flame-retardant gridding cloth is divided into two groups, an elastic buffer layer is arranged between the two groups of flame-retardant gridding cloth, a latticed reinforcing layer is arranged between the elastic buffer layer and the flame-retardant gridding cloth, raised lines are uniformly arranged on the end surface, in the reinforcing layer, in contact with the flame-retardant gridding cloth, of the reinforcing layer, the raised parts buckled on the corresponding raised lines are sunken on the flame-retardant gridding cloth, a leveling layer is also arranged on the end surface outside the flame-retardant gridding cloth, a waterproof layer made of waterproof coating is arranged outside the leveling layer, and the elastic buffer layer is composed of an elastic matrix extending in a wave shape and a buffer material filled between the two groups of reinforcing layers, wherein a spring is also arranged in the buffer material. The invention has the characteristics of high compression resistance, fire resistance and the like.

Description

Pressure-resistant and fireproof glass fiber cloth

Technical Field

The invention relates to the technical field of glass fiber cloth, in particular to pressure-resistant and fireproof glass fiber cloth.

Background

The glass fiber mesh fabric is prepared by taking glass fiber woven fabric as a base material and soaking a coating layer by using a high-molecular anti-emulsion. Therefore, the high-strength heat-insulating waterproof paint has good alkali resistance, flexibility and high tensile resistance in the warp and weft directions, and can be widely used for heat insulation, water resistance, fire resistance, crack resistance and the like of inner and outer walls of buildings. The glass fiber mesh cloth is mainly alkali-resistant glass fiber mesh cloth, is formed by twisting medium-alkali-free glass fiber yarns (the main component is silicate and has good chemical stability) through a special tissue structure, namely a gauze structure, and then is subjected to high-temperature heat setting treatment such as alkali resistance, a reinforcing agent and the like.

Glass fiber net check cloth is often used in the PLASTIC LAMINATED, pastes and is used for avoiding wanting the burning of external conflagration to panel on various types of easily firing panel, and in the traditional use of net check cloth, all be with the fire retardant coating on the net check cloth the flame retardant efficiency who is used for increasing net check cloth, but this kind of mode is difficult to accomplish completely fire-retardant, causes the infiltration of external flame retardant source to net check cloth very easily in the gap of the establishment of net check cloth to influence the flame retardant efficiency of net check cloth. And the glass fiber cloth has higher requirements on the compressive strength and the strength of the glass fiber cloth when in use, otherwise, the glass fiber cloth does not reach the standard and is easy to cause potential safety hazards or accidents.

Disclosure of Invention

The invention aims to provide pressure-resistant and fireproof glass fiber cloth.

The technical problem of the invention is mainly solved by the following technical scheme:

a pressure-resistant fireproof glass fiber cloth comprises warps and wefts, wherein the warps and the wefts are made of glass fiber composite yarns, flame-retardant layers are coated on the surfaces of the warps and the wefts, the surfaces of the warps and the wefts are coated with the flame-retardant layers, flame-retardant gridding cloth is interwoven between the warps and the wefts, the flame-retardant gridding cloth is divided into two groups, an elastic buffer layer is arranged between the two groups of flame-retardant gridding cloth, a latticed reinforcing layer is arranged between the elastic buffer layer and the flame-retardant gridding cloth, raised lines are uniformly arranged on end faces, in the reinforcing layer, in contact with the flame-retardant gridding cloth, of the reinforcing layer, raised parts buckled on the corresponding raised lines are sunken on the flame-retardant gridding cloth, a leveling layer is further arranged on the end face outside the flame-retardant gridding cloth, a waterproof layer made of waterproof coating is arranged on the outer side of the leveling layer, the elastic buffer layer is composed of an elastic base body extending in a waveform shape and a buffer material filled between the two groups of reinforcing layers, wherein a spring is also arranged in the buffer material.

Preferably, the cushioning material is asbestos.

Preferably, epoxy resin glue is filled between the flame-retardant mesh cloth and the elastic matrix and between the flame-retardant mesh cloth and the reinforcing layer.

Preferably, the screed is made of a thermally insulating material.

Preferably, the warps are arranged longitudinally at equal intervals, the wefts are arranged transversely at equal intervals, and the warps and the wefts are interwoven into the flame-retardant gridding cloth.

The invention has the beneficial effects that: according to the invention, the flame retardant is coated on the warp and the weft, so that the flame retardant effect of the flame-retardant grid cloth obtained after weaving is improved, and the compressive strength of the whole glass fiber cloth can be enhanced through the elastic buffer layer.

Drawings

Fig. 1 is a schematic structural view of the present invention.

In the figure: 1. the fireproof door comprises a fireproof mesh fabric, 2 parts of an elastic buffer layer, 21 parts of an elastic base body, 22 parts of a buffer material, 23 parts of a spring, 3 parts of a reinforcing layer, 4 parts of a convex strip, 5 parts of an arch part, 6 parts of a leveling layer, 7 parts of a waterproof layer.

Detailed Description

The technical scheme of the invention is further specifically described by the following embodiments and the accompanying drawings.

The utility model provides a glass fiber cloth of withstand voltage fire prevention, includes that a plurality of materials are the warp and the weft of glass fiber composite yarn, warp and weft surface all are coated with fire-retardant layer, and wherein the surface scribbles the warp equidistance longitudinal arrangement on fire-retardant layer, and the surface scribbles the weft equidistance transverse arrangement on fire-retardant layer for interweave into fire-retardant net cloth 1 between warp and the weft, and scribble the lamination binder on fire-retardant net cloth 1's surface.

In the embodiment, the surface of the flame-retardant grid cloth 1 is coated with the laminating adhesive, so that the adhesion effect of the interwoven flame-retardant warps and flame-retardant wefts is improved, the warps and wefts are prevented from loosening, and meanwhile, compared with the traditional grid cloth which is coated with the flame retardant after the interweaving is finished, the flame retardant is preferentially coated on the warps and the wefts, so that the flame-retardant effect of the grid cloth is improved.

As shown in fig. 1, the flame-retardant grid cloth 1 is two groups, wherein an elastic buffer layer 2 is bonded between the two groups of flame-retardant grid cloth 1, a latticed reinforcing layer 3 is bonded between the elastic buffer layer 2 and the flame-retardant grid cloth 1, raised lines 4 integrally arranged with the flame-retardant grid cloth 1 are uniformly arranged on the end surface of the reinforcing layer 3 contacting with the flame-retardant grid cloth 1, and arch parts 5 buckled on the corresponding raised lines 4 are sunken on the flame-retardant grid cloth 1. The elastic buffer layer 2 is composed of an elastic base 21 extending in a wave shape and a buffer material 22 filled between the two reinforcing layers 3 and made of asbestos, wherein a spring 23 is further arranged in the buffer material 22.

Wherein buckle on sand grip 4 through hunch-up portion 5 for fire-retardant net cloth 1 is difficult for taking place gliding problem on 3 terminal surfaces of enhancement layer, and still increaseed the bonding area between the two and in order to promote the steadiness each other, simultaneously because fire-retardant net cloth 1 is the straight state of wave structure rather than tight, makes it also be difficult for being pulled apart, wherein latticed enhancement layer 3 can strengthen its and fire-retardant net cloth 1 and elastic buffer layer 2 between frictional force, and its aperture can hold more glue in order to strengthen its connection steadiness each other.

In this embodiment, the elastic substrate 21 is a rubber corrugated partition board with a certain elasticity, and the elastic buffer layer 2 is clamped and fixed by the two sets of flame-retardant mesh cloth 1, so that the glass fiber cloth after being compounded has the characteristic of strong compressive strength, and the elastic buffer layer 2 with elasticity can also enhance the overall compressive strength of the glass fiber cloth. Meanwhile, epoxy resin glue is filled between the elastic base body 21 and the reinforcing layer 3 and between the flame-retardant grid cloth 1 and the reinforcing layer 3, the elastic base body 21, the flame-retardant grid cloth 1 and the reinforcing layer 3 are firmly bonded together through the epoxy resin glue, the elastic base body 21, the flame-retardant grid cloth 1 and the reinforcing layer 3 are prevented from shaking, and the insulation and heat dissipation performance of the glass fiber cloth are enhanced.

Because elastic buffer layer 2 is lived by the centre gripping parcel of two sets of fire-retardant net cloth 1 for even there is the fire source in the external world not directly rather than the contact and burn it out, fire-retardant net cloth 1 can play fire-retardant effect this moment and prevent the fire source and contact with elastic buffer layer 21 in order to promote its security, and when elastic buffer layer 21 received the extrusion, when elastic substrate 21 and buffer material 22 cushioned it, external force also can extrude spring 23 and make its shrink and expand, then its buffering cushioning effect of accessible spring 23 further promotion this moment, the spring 23 still can strengthen elastic buffer layer 2's bulk strength simultaneously.

In this embodiment, the leveling layer 6 made of a heat insulating material is further bonded to the outer end surface of the flame-retardant mesh fabric 1, wherein a waterproof layer 7 made of a waterproof coating material is disposed on the outer side of the leveling layer 6, the waterproof layer 7 can prevent liquid from permeating into the glass fiber fabric from the outer side, so that a waterproof effect is achieved, the leveling layer 6 plays a role in heat insulation due to the material relationship, and the outer end surface of the flame-retardant mesh fabric 1 is prevented from being uneven, so that the flame-retardant mesh fabric is not convenient to bond with other equipment or material layers, or the surface of the glass fiber fabric is prevented from being finally uneven, so that the ornamental performance is affected.

The upper side and the lower side of the glass fiber cloth have the same structure, so that the glass fiber cloth can be used without special separation when in use, and the glass fiber cloth is more convenient and fast to use in specific.

The present invention has been described in detail, but the above description is only a preferred embodiment of the present invention, and is not to be construed as limiting the scope of the present invention. All equivalent changes and modifications made within the scope of the present invention shall fall within the scope of the present invention.

Claims (5)

1. A pressure-resistant fireproof glass fiber cloth comprises warps and wefts, wherein the warps and the wefts are made of glass fiber composite yarns, the pressure-resistant fireproof glass fiber cloth is characterized in that flame-retardant layers are coated on the surfaces of the warps and the wefts, flame-retardant gridding cloth is interwoven between the warps and the wefts, the flame-retardant gridding cloth is divided into two groups, an elastic buffer layer is arranged between the two groups of flame-retardant gridding cloth, a latticed reinforcing layer is arranged between the elastic buffer layer and the flame-retardant gridding cloth, raised lines are uniformly arranged on the end faces, in the reinforcing layer, in contact with the flame-retardant gridding cloth, of the reinforcing layer, raised parts buckled on the corresponding raised lines are sunken on the flame-retardant gridding cloth, a leveling layer is further arranged on the end face outside the flame-retardant gridding cloth, a waterproof layer made of waterproof coating is arranged outside the leveling layer, the elastic buffer layer is composed of an elastic base body extending in a waveform shape and a buffer material filled between the two groups of reinforcing layers, wherein a spring is also arranged in the buffer material.

2. A pressure-resistant fire-resistant fiberglass cloth as claimed in claim 1, wherein, said cushioning material is asbestos.

3. The pressure-resistant fireproof glass fiber cloth of claim 1, wherein epoxy resin glue is filled between the flame-retardant mesh cloth and the elastic matrix and the reinforcing layer.

4. A pressure-resistant and fire-resistant fiberglass cloth as claimed in claim 1, wherein, said leveling layer is made of heat insulating material.

5. A pressure-resistant fireproof glass fiber cloth according to claim 1, wherein the warp threads are arranged longitudinally at equal intervals, the weft threads are arranged transversely at equal intervals, and the warp threads and the weft threads are interwoven to form a flame-retardant mesh cloth.

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