RU225334U1 - VOLUMETRIC FIRE-PROTECTIVE MATERIAL - Google Patents

Abstract

The utility model relates to composite fire-heat-protective materials and can be used in the manufacture of special firefighter protective clothing. The volumetric fire-heat-protective material contains a front layer consisting of a combined fire-retardant sublayer, on the front side of which a film coating of silicone polymer is applied, and a heat-insulating sublayer. The layers are made of heat-resistant synthetic threads and are connected to each other to form an air gap by means of jumpers. The jumpers are made of reinforced threads made of non-flammable material. Additionally, the material contains a back layer connected by gluing to the front layer. The back layer consists of two combined heat-insulating sublayers and a hygienic sublayer made of cotton threads. The heat-insulating sublayers are made of heat-resistant synthetic threads, connected to each other to form an air gap by means of jumpers. The layers are made of reinforced threads made of non-flammable material. The thickness of the air layers of the front and back layers is 4 mm. The thickness of the jumpers is 0.4 mm. The heat-insulating properties of the material are improved by increasing the resistance to crushing and compression. 6 salary f-ly.

Description

The utility model relates to composite fire-heat-protective materials and can be used in the manufacture of special firefighter protective clothing that requires increased resistance to intense thermal radiation, high-temperature environments, short-term contact with open flames and heated objects, mechanical stress and other hazardous factors that arise when extinguishing fires.

A multi-layer fire-retardant material for clothing is known (Utility model patent RU No. 10182, IPC D03D 15/00, 1999), made in the form of a package containing a fire-retardant layer of heat-resistant fibers and at least one heat-insulating layer of natural fibers, additionally containing a water-insulating layer . The fire-retardant layer is made in the form of a non-woven, needle-punched, heat-resistant fabric made of high-modulus fibers such as SVM, terlon, armos; a water-insulating polymer layer is applied to the fire-retardant layer by coating and heat treatment, and the heat-insulating layers are formed by layers of wool batting adjacent to the fire-retardant layer and layers of cotton fabric, with In this case, the layers are combined into a package by firmware.

The disadvantage of this material is the relatively low heat-insulating properties, since layers formed by layers of wool batting are used as heat-insulating ones, which do not have high heat-insulating properties and are directly adjacent to the fire-retardant layer, and relatively low fire-retardant properties, since radiation and contact exposure to hot media does not localization of the effect is ensured and it spreads over the surface of the tissue. In addition, the same disadvantage of this material is the relatively low mechanical strength of the material.

A fire-retardant material is known (Utility model patent No. 174909, IPC D03D 15/12, 2017), consisting of an external fire-retardant layer and a heat-insulating layer, united by firmware, between which a heat-protective layer is inserted, made of heat-resistant fibers of non-woven material, with the external fire-retardant The layer is made of aramid fabric and needle-punched with heat-resistant fibers of the heat-protective layer. The heat-insulating layer is made of wool fibers, cotton fibers, linen fibers. Oxidized polyacrylonitrile fibers, aramid fibers, basalt fibers, and silica fibers are used as heat-resistant fibers.

The disadvantage of the specified fire-retardant material is the relatively low mechanical strength of the material when using the specified material for sewing firefighter clothing; when working in such clothing, zones of tension in the material and zones of creases and folds are formed in the areas of the knees and elbows, in which the material loses its qualities. Another disadvantage is the relatively low thermal insulation properties, since a layer made of wool fibers, cotton fibers, and flax fibers is used as a thermal insulating layer.

A voluminous woven fire-heat-protective material is known (utility model patent RU 191460, MPK D03D 15/12, 2019), adopted as a prototype, consisting of a combined fire-retardant layer of aramid threads and a heat-insulating layer made of heat-resistant synthetic threads connected to each other so as to be located at a distance of 5÷12 mm from each other by means of jumpers, which are made of reinforced threads 0.1÷1 mm thick from non-flammable material, a film coating of organosilicon polymer is applied to the fire-retardant layer on the front side, and a heat-insulating layer on the back sides are connected to a hygienic layer of cotton threads impregnated with a biocidal solution. Reinforced threads are made of aramid, silica or basalt fibers. The organosilicon polymer contains an infrared reflective pigment.

The disadvantage of the prototype is the low rigidity of the material due to the collapse (fracture) of the jumpers, leading to the closure of the heat-insulating and fire-retardant layers, which also worsens the heat-insulating properties.

The technical result consists in increasing the resistance to crushing and compression, as well as improving the heat-insulating properties of the material.

The technical result is achieved by the fact that a volumetric fire-heat-protective material containing a front layer consisting of a combined fire-retardant sublayer, on the front side of which a film coating of silicone polymer is applied, and a heat-insulating sublayer made of heat-resistant synthetic threads connected to each other to form an air layers by means of jumpers, which are made of reinforced threads of non-flammable material, additionally contains a backing layer connected by gluing to the front layer, and consisting of two combined heat-insulating sublayers and a hygienic sublayer made of cotton threads, heat-insulating sublayers made of heat-resistant synthetic threads, connected to each other with each other with the formation of an air gap by means of jumpers, which are made of reinforced threads of non-flammable material, while the thickness of the air gaps of the front and back layers is 4 mm, and the thickness of the jumpers is 0.4 mm. Heat-resistant synthetic threads of the fire-retardant sublayer are made of aramid fibers. Reinforced threads are made of aramid fibers. Reinforced threads are made of silica fibers. Reinforced threads are made of basalt fibers. The silicone polymer contains an infrared reflective pigment. The cotton threads of the hygienic underlayer are impregnated with a biocidal solution.

The essence of the utility model is illustrated by the drawing.

Volumetric fire-heat-protective material consists of glued front layer 1 and back layer 2.

The front layer 1 is made by bulk weaving and consists of a combined fire retardant sublayer 3 and a heat-insulating sublayer 4, made of heat-resistant synthetic threads and connected to each other to form an air layer 5 4 mm thick by means of jumpers 6. The fire retardant sublayer 3 is made of heat-resistant non-flammable synthetic threads from aramid fibers. A film coating 7 of organosilicon polymer is applied to the front side of the fire-retardant sublayer 3. Making the fire-retardant sublayer 3 from non-flammable threads allows you to provide the necessary protection against open flames, as well as against mechanical influences. The film coating 7 made of an organosilicon polymer may contain a pigment that reflects infrared radiation, which improves the thermal insulation properties of the inventive material. Film coating 7 provides protection from moisture, which allows for the preservation of the heat-insulating properties of the inventive material. The bridges 6 are made of reinforced threads 0.4 mm thick from a non-flammable material, for example, aramid fibers, silica fibers or basalt fibers. Thermal insulating sublayer 4, made of heat-resistant synthetic threads, for example, polyester, polyimide, polypropylene.

The back layer 2 is made using a three-dimensional weaving method and consists of two combined heat-insulating sublayers 8 and a hygienic sublayer 9. The heat-insulating sublayers 8 are connected to each other to form an air layer 10 4 mm thick by means of jumpers 11. The heat-insulating sublayers 8 are made of heat-resistant synthetic threads, for example , polyester, polyimide, polypropylene. The jumpers 11 are made of reinforced threads 0.4 mm thick from a non-flammable material, for example, aramid fibers, silica fibers or basalt fibers. The hygienic sublayer 9 is made of cotton threads, which allows for additional thermal protection and comfortable conditions for contact of the material with the human body, and ensures optimal working conditions in clothing made from the inventive material. Cotton threads of the hygienic sublayer 9 can be impregnated with a biocidal solution.

Volumetric fire-heat-protective material from glued front 1 and back 2 layers provides a high level of thermal insulation, due to the presence of two air layers 5 and 10, as well as due to the implementation of sublayers 3, 4 and 8 forming the air layers, as well as jumpers 6 and 11 from heat-resistant threads. Obtaining the inventive volumetric fire-heat-protective material by gluing the front 1 and back 2 layers, the presence of sublayers 3, 4 and 8 forming air layers, as well as jumpers 6 and 11, increase the strength of the inventive material and resistance to crushing. The length of jumpers 6 and 11 compared to the prototype, in which it is 5÷12 mm, is significantly reduced (4 mm), this increases their elasticity and eliminates kinks and crumples. Due to the elasticity of the bridges 6 and 11, made of reinforced threads with a thickness of 0.4 mm, high interlayer strength and rapid restoration of the air gap after mechanical action, for example, compression, are ensured. The thickness values of the air layers 5 and 10, the thickness values of the reinforced threads of the bridges 6 and 11, ensuring the achievement of the technical result, were obtained by numerical modeling. Thus, the claimed volumetric fire-heat-protective material has increased resistance to crushing and compression, as well as improved thermal insulation properties, ensures the preservation of air layers when a person is exposed to external pressure. Clothing made from the claimed material will have high thermal insulation properties.

Claims (7)

1. Volumetric fire-heat-protective material containing a front layer consisting of a combined fire-retardant sublayer, on the front side of which a film coating of silicone polymer is applied, and a heat-insulating sublayer made of heat-resistant synthetic threads connected to each other to form an air gap by means of jumpers that are made made of reinforced threads made of non-flammable material, characterized in that it additionally contains a backing layer connected by gluing to the front layer and consisting of two combined heat-insulating sublayers and a hygienic sublayer made of cotton threads, the heat-insulating sublayers are made of heat-resistant synthetic threads, connected to each other with the formation of an air gap by means of jumpers, which are made of reinforced threads of non-flammable material, while the thickness of the air gaps of the front and back layers is 4 mm, and the thickness of the jumpers is 0.4 mm. 2. Bulk fire-heat-protective material according to claim 1, characterized in that the heat-resistant synthetic threads of the fire-retardant sublayer are made of aramid fibers. 3. Volumetric fire-heat-protective material according to claim 1, characterized in that the reinforced threads are made of aramid fibers. 4. Volumetric fire-heat-protective material according to claim 1, characterized in that the reinforced threads are made of silica fibers. 5. Volumetric fire-heat-protective material according to claim 1, characterized in that the reinforced threads are made of basalt fibers. 6. Volumetric fire-heat-protective material according to claim 1, characterized in that the organosilicon polymer contains a pigment that reflects infrared radiation. 7. Bulk fire-heat-protective material according to claim 1, characterized in that the cotton threads of the hygienic sublayer are impregnated with a biocidal solution.