RU179783U1 - Fire retardant material - Google Patents

Abstract

The utility model relates to fire-retardant materials and can be used mainly for the manufacture of canopies for fire fighting, evacuation of people and property, as well as for sewing work clothes while providing protection from dangerous and harmful production factors of fire, elevated temperature, sparks and splashes of molten metal, thermal high-intensity flows, etc. The required technical result is to increase the flame retardant and mechanical properties of the material and reduce its thermal conductivity. The essence of the utility model consists in the fact that the fire-retardant material consists of an external fire-retardant layer, a heat-insulating layer, a vapor-moisture-insulating layer placed between the external fire-retardant layer and the heat-insulating layer, and a reinforcing fire-retardant layer made of heat-resistant fibers, the heat-insulating layer being needle-pierced by a heat-resistant method fibers of the reinforcing fire retardant layer, and the fire retardant layer, the heat insulating layer, the vapor-moisture insulating layer and the reinforcing fire retardant layer are bonded Non-combustible aramid filaments. 10 C.p. fs, 3 ill.

Description

The utility model relates to fire-retardant materials and can be used mainly for the manufacture of canopies for fire fighting, evacuation of people and property, as well as for sewing work clothes while providing protection from dangerous and harmful production factors of fire, elevated temperature, sparks and splashes of molten metal, thermal high-intensity flows, etc.

Known fire-retardant material in the form of a fabric [RU 2309204, C1, D03D 15/12, 10.27.2007] containing staple yarn based on weft and including staple fibers based on triple aromatic copolyamide mixed with natural or artificial fibers, while the fabric performed by derivatives, combined and complex weaves, and cotton, linen, woolen fibers are used as natural fibers, fire-resistant viscose fibers are used as artificial fibers.

The disadvantage of this material is the relatively low fire retardant properties due to the high gas permeability of the fabric.

Also known is a fabric [RU 121256, U1, D03D 15/12, 10.20.2012], made by weaving the main threads selected from the group of para-aramid fibers and weft threads selected from the group containing natural fibers, moreover, the main threads additionally contain yarn from natural fibers, and the weft yarns additionally contain yarn from fibers selected from the group of paraamide fibers in the following ratio of components, wt%: paraamide fibers 20-30, natural fibers 70-80, while the surface density of the produced fabric is 290-310 g / m ^2.

The disadvantage of this fabric is also the relatively low fire retardant properties.

Closest to the proposed one is a multilayer fire-retardant material for clothing [RU 121256, U1, D03D 15/12, 10.20.2012] containing a fire-retardant layer of heat-resistant fibers and at least one heat-insulating layer of natural fibers, as well as a water-insulating layer and made in in the form of a package, moreover, the fire-retardant layer is made in the form of a nonwoven needle-punched heat-resistant fabric of high-modulus fibers of the CBM type, Terlon, Armos, a water-insulating polymer layer is applied to the fire-retardant layer by lubrication and heat treatment, and heat-insulating layers and layers of wool batting are formed adjacent to the flame retardant layer and layers of cotton fabric, the layers combined in the firmware package.

The disadvantage of this material is the relatively low heat-insulating properties, since layers formed by layers of wool batting, which do not have high heat-insulating properties and are directly adjacent to the fire-retardant layer, are used as heat-insulating. In addition, the disadvantage of this material is its relatively low fire retardant properties, since exposure and exposure to hot media do not provide localization of exposure, and they spread along the surface of the fabric. An additional disadvantage of the closest technical solution is the relatively low mechanical strength of the material, which can exclude the use of fabric for sewing clothes when working in an environment associated with surrounding metal structures and other rigid materials having elevated temperature and sharp protrusions.

The problem that is solved in the utility model is the creation of a flame retardant material with high mechanical strength, high flame retardant properties and low thermal conductivity.

The required technical result is to increase the flame retardant and mechanical properties of the material and reduce its thermal conductivity.

The problem is solved, and the required technical result is achieved by the fact that, in the fire retardant material, consisting of an external fire retardant layer and a heat insulating layer, according to a utility model, a vapor-moisture insulating layer placed between the external fire retardant layer and the heat insulating layer and a reinforcing fire retardant layer are introduced, made of heat-resistant fibers, and the heat-insulating layer is needle-punched with heat-resistant fibers of the reinforcing fire-retardant layer, and the fire-retardant layer, heat-insulating emitting layer, the vapor-proofing layer and the reinforcing layer are bonded flame retardant nonflammable aramid yarns.

In addition, the required technical result is achieved in that the external fire retardant layer is made of basalt fibers.

In addition, the required technical result is achieved by the fact that the external flame retardant layer is made of fiberglass.

In addition, the desired technical result is achieved in that the heat insulating layer is made of polyacrylonitrile oxidized fibers.

In addition, the required technical result is achieved in that the heat insulating layer is made of silica fibers.

In addition, the required technical result is achieved in that the vapor-moisture insulating layer is made of rubberized fabric.

In addition, the desired technical result is achieved in that the vapor-moisture insulating layer is made of a polyester film.

In addition, the required technical result is achieved in that the reinforcing fire retardant layer is made of basalt fibers.

In addition, the required technical result is achieved in that the reinforcing fire retardant layer is made of fiberglass.

In addition, the required technical result is achieved in that the fire-retardant material is made in the form of a rectangular canvas with sizes from 1 × 1 m to 1.5 × 3 m.

In addition, the required technical result is achieved by the fact that, on the outer surface of the fire retardant layer of a rectangular sheet of fire retardant material, sewn handles of heat-resistant material are made.

The drawing shows

in FIG. 1 - structure of flame retardant material;

in FIG. 2 - various types of firmware flame retardant material;

in FIG. 3 is an example of a web with handles on the upper surface.

Fire-retardant material consists of an external fire-retardant layer 1, a heat-insulating layer 2, a vapor-moisture-insulating layer 3, placed between the external fire-retardant layer 1 and the heat-insulating layer 2, as well as a reinforcing fire-retardant layer 4 made of heat-resistant fibers.

The peculiarity of the fire-retardant material is that the heat-insulating layer 2 is needle-pierced by the heat-resistant fibers of the reinforcing fire-retardant layer 4, and the fire-retardant layer 1, the heat-insulating layer 2, the vapor-moisture-insulating layer and the reinforcing fire-retardant layer 4 are fastened with non-combustible aramid threads 5.

The peculiarities of the fire-retardant material is that the external fire-retardant layer 1 can be made of either basalt fibers or fiberglass, the heat-insulating layer 2 can be made of either polyacrylonitrile oxidized fibers or silica fibers, the vapor-moisture-proof layer 3 is made of rubberized fabric or polyester film, and the reinforcing fire-retardant layer 4 is made of basalt fibers or fiberglass.

The fire-retardant material, depending on the practical application, can be made, in particular, in the form of a rectangular cloth with dimensions in the range from 1 × 1 m to 1.5 × 3 m, and, for example, sewing handles 6 made of heat-resistant material can be fixed on top of the fabric . This allows you to use the canvas to transfer wealth and people in conditions of fire when moving, for example, in a fire and burning surfaces.

Fire retardant material is used as follows.

With strong thermal or fire exposure, the external fire-retardant layer protects under short-term temperatures up to 750 ° C and long-term up to 350 ° C, which is caused by the use of external fireproof layer 1 of basalt fibers or fiberglass. At the same time, the heat-insulating layer 2 is needle-pierced by heat-resistant fibers of the reinforcing fire-retardant layer 4. This provides additional anti-fire protection during radiation and contact exposure to hot environments due to the fact that it provides localization of exposure and reduces its spread over the surface of the material. The vapor-moisture-insulating layer 3 is made of rubberized fabric or polyester film and provides additional thermal protection and comfortable conditions for the fire-retardant material to contact the body, providing protection from steam and hot water. The fireproof material quilted (stitched) with heat-resistant threads (mainly aramid), which ensures the strength and heat resistance of the connection of the layers.

Thus, thanks to the introduced improvements, the required technical result is achieved, which consists in increasing the flame retardant and mechanical properties of the material and reducing its thermal conductivity.

Claims (11)

1. Fire-retardant material, consisting of an external fire-retardant layer and a heat-insulating layer, characterized in that a vapor-moisture-insulating layer is placed between the external fire-retardant layer and the heat-insulating layer, and a reinforcing fire-retardant layer made of heat-resistant fibers, moreover, the heat-insulating layer is needle-punched heat-resistant fibers of the reinforcing fire-retardant layer, and the fire-retardant layer, the heat-insulating layer, the vapor-moisture-insulating layer and the reinforcing fire-retardant layer are bonded with non-combustible aramid threads. 2. Fire retardant material according to claim 1, characterized in that the external fire retardant layer is made of basalt fibers. 3. Fire retardant material according to claim 1, characterized in that the external fire retardant layer is made of fiberglass. 4. Fire-retardant material according to claim 1, characterized in that the heat insulating layer is made of polyacrylonitrile oxidized fibers. 5. Fire-retardant material according to claim 1, characterized in that the heat-insulating layer is made of silica fibers. 6. Fire retardant material according to claim 1, characterized in that the vapor-moisture insulating layer is made of rubberized fabric. 7. Fire retardant material according to claim 1, characterized in that the vapor-moisture insulating layer is made of a polyester film. 8. Fire retardant material according to claim 1, characterized in that the reinforcing fire retardant layer is made of basalt fibers. 9. Fire retardant material according to claim 1, characterized in that the reinforcing fire retardant layer is made of fiberglass. 10. Fire-retardant material according to claim 1, characterized in that the fire-retardant material is made in the form of a rectangular canvas with sizes from 1 × 1 m to 1.5 × 3 m. 11. Fire-retardant material according to claim 1, characterized in that, on the outer surface of the fire-retardant layer of the rectangular sheet of fire-retardant material, sewn handles made of heat-resistant material are made.

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