RU211355U1 - Rescue cover for isolation of the source of fire - Google Patents

Abstract

The utility model relates to fire-fighting equipment and can be used as an individual rescue cover, related to the primary portable means for localizing and extinguishing fires by isolating them from the oxygen of the surrounding air, as well as for evacuating people and animals, as a fire and heat-protective cape, for evacuation material resources from the fire zone, as a frameless stretcher. The required technical result, which consists in increasing the protection against fire exposure and expanding on this basis the arsenal of technical means used to prevent the spread and localization of a fire, is achieved by the fact that the cover contains a rectangular segment of a three-layer fire-retardant fabric, in which the front layer is made of basalt fabric, the middle layer is made of lining cotton-polyester oilcloth with PVC coating, and the outer fire and heat-protective layer is made of fire-retardant material "Oksipan", duplicated by fire-retardant fabric, and silica fabric is used as a fire-retardant fabric with a number of threads per 1 cm from 11 to 14 with a thread thickness of 0, 12 mm. 3 w.p. f-ly, 2 ill.

Description

The utility model relates to fire-fighting equipment and can be used as a blanket for isolating a rescue fire. It refers to the primary portable means for localizing and extinguishing fires by isolating them from ambient oxygen, for evacuating people and animals, as protection against dangerous fire factors (flames, sparks, heat flux, hot objects), as well as for evacuating material funds from the fire zone, as a fire and heat-protective frameless stretcher (drag).

Known technical solutions associated with the use of a fire barrier in the form of a fire-retardant material [RU 174909, U1, D03D 15/12, 09.11.2017], which consists of an external fire-retardant layer and a heat-insulating layer combined with firmware, and a heat-protective layer is placed between the outer fire-retardant and heat-insulating layers. a layer of non-woven material of heat-resistant fibers, and the outer fire-retardant layer is made of aramid fabric and needle-punched with heat-resistant fibers of the heat-protective layer.

The disadvantage of this technical solution is the relatively narrow functionality, since no means are provided to ensure the evacuation of people from the fire zone.

It is also known a technical solution associated with the use of a fire barrier in the form of a fire screen [RU 161142, U1, C09K 21/00, B32V 1/00, A62C 2/10, 10.04.2016], characterized in that it includes a metal frame, which is a box with a casing fixed on the wall, inside the box there is a shaft with elements of its attachment to the box, while on one side of the shaft there is a drive, and on the other - a coupling, in addition, the screen contains two vertical guides, each of which is located with a corresponding sides of the shaft, on the shaft there is a multi-layer fire curtain fabric formed of at least three layers of material, while the outer layers are made of pre-heat-treated silica fabric with a thickness of 0.7 mm and a weight of 600 g/m ² with applied to their outer and the inner surface with a polyurethane coating, the intermediate layer is made in the form of a needle-punched glass mat 3 mm thick and weighing 500 g / m ² , while all layers are stitched between it has a silica thread, which has the same heat resistance as the fabric itself, at the end of the fabric there is a bar that loads the fabric when the curtains are lowered.

The disadvantage of this technical solution is the relatively high complexity and low suitability for the evacuation of people from the fire zone.

Close in technical essence to the proposed one is a portable tool for preventing the spread and localization of fire [RU 161992, U1, А62С 2/00, 05/20/2016], containing a fire-retardant fabric in the form of a rectangular piece of heat-resistant fabric with fastening elements, provided along the periphery with flexible fastening points. rods, on the free ends of which there are fastening hooks for fixing the canvas in the expanded state on the wall surface with the possibility of closing the opening in a burning building, and in the middle part of the canvas there is at least one cut with an overhead valve for evacuating people from the fire zone to a safe one. zone.

A feature of this technical solution is that the fastening points along the periphery of the fire-retardant fabric and the flexible rods connected to them with fastening hooks are made of heat-resistant material using metal elements like steel tapes or cables, moreover, the fastening hooks can be in the form of rings, carabiners, hooks or pins driven into the wall.

In addition, in the middle part of the fabric there is an additional slit with an overhead flap for using the fabric as an individual fire-resistant cape in the form of a cloak or poncho, and at the corners of the fabric there are additional rods in the form of ribbons for use in the construction of rescue ammunition, such as a stretcher.

The disadvantage of this technical solution is the relatively high complexity and low suitability for the evacuation of people from the fire zone, especially in the most common case of evacuation by hand or by dragging.

The closest in technical essence to the proposed one is a portable tool for preventing the spread and localization of fire [RU 195200, U1, A61G 1/00, A62C 2/00, A62C 8/06, 01/17/2020], containing a rectangular segment of a fire-retardant fabric, on opposite on the short sides along the edges on its front side there are slings with pairs of fastening amplifiers at each end, while between the sling amplifiers of each pair of amplifiers overhead handles are made.

The peculiarities of this technical solution, which characterizes its particular embodiments, is that the slings, reinforcements for attaching slings and overhead handles are made of fire-resistant material, the reinforcements for attaching slings are made in the form of overhead pieces of fire-resistant material fixed on the canvas perpendicular to the slings, that the fire-retardant fabric is three-layer , in which the front layer is made of basalt fabric, the middle layer is made of lining cotton-polyester oilcloth with PVC coating, and the outer (reverse) layer is made of Oksipan material, duplicated by needle punching with basalt fiber.

In addition, a rectangular segment of the fire-retardant fabric is made with dimensions of 1500 × 2000 mm, three layers of the fire-retardant fabric are stitched with stitching lines of heat-resistant threads along the edges and two inclined stitches in the middle part, forming an isosceles trapezoid with segments of stitching lines along the long sides of the fabric, slings between the fastening amplifiers at each end they are equipped with Fastex fasteners, and the slings, sling reinforcements and overhead handles are made of fire-resistant material 30 mm wide.

The closest technical solution has a simple design, convenient for delivery to the fire zone and adapted not only for localizing and extinguishing fires by isolating them from ambient oxygen by covering, but also for evacuating people, animals and material assets from the fire zone, in particular , in the most common case of evacuation by hand by carrying or dragging.

However, the closest technical solution has a drawback associated with a relatively low maximum allowable operating temperature for basalt fabric of about 800°C with a maximum allowable short-term exposure temperature of about 900°C, which reduces the effectiveness of fire protection even when the fire-retardant fabric is made in the form of a three-layer structure, in which the front layer is made of basalt fabric, the middle layer is made of lining cotton-polyester oilcloth with PVC coating, and the back layer is made of Oxypan material, duplicated by needle punching with basalt fiber.

The task, which is solved in the utility model, is aimed at creating a cover for isolating the rescue source of fire, which has increased protection from fire exposure.

The required technical result is to increase the protection against fire exposure and expand the arsenal of primary technical means used to prevent the spread and containment of fire by covering fires, to evacuate people and animals, as a fire and heat-protective cape, and to evacuate material assets from the fire zone, in in particular, by hand or by dragging, as a soft, heat- and heat-protective, frameless stretcher.

The problem is solved, and the required technical result is achieved by the fact that, in a rescue blanket for isolating a fire, containing a rectangular segment of a three-layer fire-retardant fabric, in which the front layer is made of basalt fabric (aramid, silica fabric), the middle layer is made of oilcloth lining cotton-polyester with PVC-coated, and the outer fire-and-heat-protective layer is made of fire-retardant material "Oksipan", duplicated with a fire-retardant fabric, according to the utility model, silica fabric is used as a fire-retardant fabric with a number of threads per 1 cm from 11 to 14 with a thread thickness of 0.12 mm.

In addition, the required technical result is achieved by the fact that the duplication of the fire-retardant material "Oksipan" is produced by a needle-punched method.

In addition, the required technical result is achieved by the fact that the duplication of the fire-retardant material "Oksipan" is produced by thermal fastening.

In addition, the required technical result is achieved by the fact that the duplication of the fire-retardant material "Oksipan" is produced by stitching.

In addition, the required technical result is achieved by the fact that, on the outer fire and heat-protective layer at its angles at 45° to the sides, overhead handles are made of slings 355 mm long and 30 mm wide.

The drawing shows a rescue blanket for isolating fires:

in fig. 1 - front side;

in fig. 2 - outer side.

The rescue cover for isolating fires is made in the form of a rectangular segment 1, on the front side along the short edges there are slings 2 with pairs of reinforcements 3 fastenings at each end, while between the amplifiers of the slings of each pair of amplifiers there are overhead handles 4. Three layers of fire-retardant fabric are stitched stitching stitches 5 of heat-resistant threads along the edges and two oblique stitches 6 in the middle part, forming an isosceles trapezoid with segments of stitching stitches 5 along the long sides of the fabric. The slings between the fastening amplifiers at each end are equipped with fasteners 7, for example, of the Fastex type. Slings 2, reinforcements 3 for attaching slings and overhead handles 4 can be made of slings 30 mm wide.

From the point of view of practical use, it is optimal to make a cover with dimensions of 1600 × 2000 mm for insulating a rescue fire and 1600 × 2000 mm and 1600 × 1600 mm for a cover for isolating an individual fire.

On the reverse side 8 of the bedspread, at its angles at 45° to the sides, overhead handles 9 are made of a sling 355 mm long and 30 mm wide.

The main feature of the proposed three-layer bedspread is the execution of the outer side 8 of the bedspread from silica fabric, duplicated with Oksipan by a needle-punching method (or thermal bonding, or stitching), which has significantly better characteristics with a maximum short-term exposure temperature of 2000 °. In this case, threads with a thickness of 0.12 mm are used with a number of 1 cm from 11 to 14. A smaller number of threads will not provide the necessary thread density to minimize the penetration of hot gases generated during combustion, and a larger number of threads will not significantly improve the flame retardant properties of the fabric, but will lead to its unjustified weighting (which is undesirable for individual use of the bedspread) and to an increase in material consumption. The thickness of the threads 0.12 mm was chosen from the condition of ensuring a sufficiently high density of their longitudinal fit and the exclusion of crack formation defects (gas permeability). All three layers are sewn with stitching lines of non-combustible threads both along the periphery of the canvas and in the middle part with two lines in the shape of an isosceles trapezoid.

A rescue blanket is used to isolate sources of fire as follows.

The cloth is intended for localization and extinguishing of sources of ignition of solid (rank no more than 0.5A) and liquid (rank no more than 34V) combustible and flammable materials, electrical equipment with a voltage of not more than 1000 V, as well as for evacuation and / or self-rescue of people from the fire zone , as a fire and heat protection cape. The canvas can be used for the evacuation of material assets weighing up to 120 kg, as a soft stretcher (drag).

The presence of handles is of great practical importance, since the practice of using various kinds of canvases and other means of evacuating victims from a fire zone shows that in most cases evacuation is carried out by dragging a canvas with a person lying on it. The method of carrying in a fire zone is used less frequently due to a significant increase in ambient temperature, the concentration of toxic combustion products and smoke as they move away from the floor surface.

The proposed reinforced fastening of the lines allows you to increase the resistance to separation. For multiple use of the means of evacuation of people, animals and material assets from the fire zone, the design of the canvas provided for the possibility of using a Fastex-type fastener, which ensures reliable fastening of the floor when using the bedspread as a fire and heat-protective cape.

Thus, the proposed tool achieves the required technical result, which consists in increasing the protection from fire exposure and expanding the arsenal of technical means used to prevent the spread and localization of a fire by covering fires, for evacuating people and animals, as a fire and heat-protective cape, and material means from the fire zone during evacuation by hand or dragging, as a frameless stretcher (drag).

Claims (7)

1. A rescue blanket for isolating the source of fire, containing a rectangular segment of a three-layer fire-retardant fabric, in which the front layer is made of basalt fabric, the middle layer is made of PVC-coated cotton-polyester lining, and the outer fire and heat-protective layer is made of fire-retardant material "Oksipan", duplicated by fire-retardant fabric, characterized in that silica fabric is used as a fire-retardant fabric with the number of threads per 1 cm from 11 to 14 with a thread thickness of 0.12 mm. 2. A rescue blanket for isolating the source of fire according to claim 1, characterized in that the duplication of the fire-retardant material "Oksipan" is produced by a needle-punched method. 3. A rescue cover for isolating the source of fire according to claim 1, characterized in that the duplication of the fire-retardant material "Oksipan" is carried out by thermal fastening. 4. A rescue blanket for isolating a source of fire according to claim 1, characterized in that the duplication of the fire-retardant material "Oksipan" is carried out by stitching. 5. A rescue blanket for isolating a source of fire according to claim 1, characterized in that on the outer fire and heat-protective layer at its angles at 45 ° to the sides, overhead handles are made of slings 355 mm long and 30 mm wide. 6. A rescue blanket for isolating a source of fire according to claim 1, characterized in that the front layer is made of aramid fabric. 7. A rescue blanket for isolating a source of fire according to claim 1, characterized in that the front layer is made of silica fabric.

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