WO2019031989A1 - Portable means for preventing spreading of a fire and for controlling same - Google Patents

Abstract

The invention relates to firefighting technology, more specifically to a portable means for preventing spreading of a fire and for controlling same, and can be used as an initial firefighting means in the work of fire-rescue teams for preventing spreading of an open flame in production openings, and in door and window openings in the event of a fire in buildings and structures. The portable means for preventing spreading of a fire and for controlling same comprises a fireproof blanket in the form of a rectangular section of heatproof material in a kit with mounting means for fixing the blanket in a spread state on a wall surface so as to be able to cover an opening in a burning building; according to the invention, the fireproof blanket is formed from layers of heatproof material which are fastened together and at least one of which is capable of screening or absorbing a heat flux from a combustion zone, the mounting means for fixing the blanket in a spread state on a wall surface are in the form of length-adjustable posts which are provided with spacer mechanisms for fixing the posts in a working state, primarily between horizontal floors of a building, and the mounting of the fireproof blanket on the posts is in the form of coupling- or clamping-type fixing connections.

Description

 Portable Spill Prevention Tool

 and localization of fire

The invention relates to fire fighting equipment, more specifically, to a portable means to prevent the spread and localization of fire and can be used as a primary fire fighting equipment when fire and rescue teams to prevent the spread of open flame in the process, door and window openings in case of fire in buildings and constructions.

Known technical solutions associated with the use of mobile fire barriers in the form of a fire curtain to prevent the spread of an open flame in a fire (see, for example, patents of the Russian Federation 2243796, 2244578, 2351378). A fire curtain of this kind includes a movable fireproof screen wound on a drum, a frame with means for fixing and moving the screen to create a fire barrier.

Fire curtains are used as a preventive measure in the construction of theaters, shopping centers, warehouses, large industrial and office facilities. However, due to the relatively complex design, their use is impractical, for example, to prevent the spread and localization of fire in numerous door and window openings of buildings and structures.

A portable means is known to prevent the spread and localization of fire, which contains a flame-retardant cloth in the form of a rectangular piece of heat-resistant fabric with fasteners and a cover for holding the blade in a folded state (see Fire-prevention sheet (1111-1200), produced by STROYPOZHNADZOR LLC, RF Vladimir region ., Vladimir, Stroitelny pr-d, 40).

Fire blades are used in case of fires at industrial and domestic facilities and are an effective and inexpensive means to eliminate localized fires. Fire blades can be made of glass, basalt, silica fabrics and other heat-resistant materials that do not contain harmful substances. If necessary, the canvas is easily removed from the storage case and quickly opens. Fireproof cloth produced is durable and relatively resistant to high temperatures. Such a canvas is effective in extinguishing local fires and protection from sparks and flames, its temperature is up to +1000 ° С and more. Vladimir enterprise supplies fire-prevention cloths 1111-300, 1111-600, 1111-1200 and other fire-fighting equipment, has licenses of the Ministry of Emergency Situations and certificates for manufactured products.

The disadvantages of the known technical solution should include a limited scope, mainly for extinguishing local fires by restriction of access of oxygen of air when throwing a fire-prevention cloth on the ignition center.

The closest technical solution to the proposed is a portable tool to prevent the spread and localization of fire, containing fire-retardant fabric in the form of a rectangular piece of heat-resistant fabric complete with means of its fastening. The peculiarity of such a portable means is that the flame retardant fabric is peripherally provided with flexible fastening attachment points, on the free ends of which there are fastening hooks for fixing the canvas in the flattened state on the wall surface with the possibility of blocking the aperture in the burning building, at least one incision with a patch valve for evacuating people from the fire zone to the safe zone (see RF patent 161992, published on 05.05.2016, bul. Ν ° 14 - prototype). The known portable device in the state of transportation to the fire place is completed with fire-retardant cloth and the necessary means of its fastening to the walls of the building (traction, tapes, cables, hooks, carbines, hooks, pins, auxiliary devices ...). In this case, the canvas and the means of attachment (otherwise, the elements, assemblies, devices) are folded in a common container or in a sheath. The disadvantages of a known portable device identified by the applicant as a result of actual fire tests include the relatively large time spent on shutting down technological, door or window openings with a fire-retardant sheet, which reaches 10 to 25 minutes during fire fighting work, consisting of two to three rescuers. This period is caused by the need to ensure reliable attachment of the flame retardant fabric in the flattened state on the wall surface and is difficult due to the need to select suitable mounting points and the difficulty of fixing several (six or more) fastening hooks initially hanging from the edges of the fabric at the ends of flexible rods. Fixation of the flame retardant fabric for a known portable device on the wall surface in conditions of limited space (balcony, corridor, etc.) is also difficult due to the need for simultaneous interaction of at least two firefighters, one of which fixes hooks on the wall alternately on each from the sides of the flame retardant fabric, and the other, if necessary, keeps the canvas in an unfolded state, including to protect the people being rescued from the effects of open fire from the side of the blocked opening in a burning building.

The objective of the proposed invention is to increase the efficiency of the use of portable means to prevent the spread of open flame and fire localization by shutting down the process, door and window openings in buildings and structures with fire-retardant cloth, as well as increasing the level of fire safety while limiting the access of air oxygen to the fire sources. The use of the invention allows to increase the number of people rescued in case of fire, to preserve their life and health. The technical result of the invention is to reduce the time of fire overlapping calculations of the openings in buildings by means of high-tech flame retardant cloth and means of its attachment, as well as a significant increase in the safe time of rescuers and victims outside the fire center under the protection of a heat shield with enhanced flame retardant properties. Additional technical result is to simplify and facilitate the operating conditions of the portable device, especially in areas of open flame propagation. The use of the proposed technical solution also makes it possible to alleviate the evacuation conditions from the fire zone, reduce the quantitative composition of fire brigades and increase the level of fire safety of the premises while ensuring the conditions of tactical ventilation in the building.

This technical result is achieved by the fact that in a portable means to prevent the spread and localization of a fire containing fire-retardant cloth in the form of a rectangular piece of heat-resistant material complete with fastening means for fixing the canvas in the flattened state on the wall surface with the possibility of blocking the opening in a burning building, according to the invention, the flame retardant fabric is made of layers of heat-resistant material bonded to each other, at least one of which has the property ohm shielding or absorbing heat flow from the fire zone, the fixing means for fixing the web in the flattened state on the wall surface are made in the form of racks adjustable along the length, equipped with spacer mechanisms for fixing the racks in working condition, mainly between the horizontal ceilings of the building, and the mounting of the fire retardant cloth to racks made in the form of fixing devices cap or clamping type.

In addition, the flame retardant fabric can be made of two layers of heat-resistant material, stitched together, the layer facing the fire zone can be made of heat-resistant fabric with low thermal conductivity, impregnated with a flame retardant, and the layer on the opposite side of the flame-retardant cloth can be made with full or partial metallization of its surface. In addition, the flame retardant fabric can be made of three layers of heat-resistant material stitched together, and the outer layers of the fabric can be made of heat-resistant fabric with low thermal conductivity, and the intermediate layer can be made of fibrous inorganic material with the inclusion of many narrow foil fragments.

In addition, the flame retardant fabric can be made of three layers of heat-resistant material sewn together, and the outer layers of the fabric can be made of heat-resistant fabric with low thermal conductivity, and the intermediate layer can be made of fibrous inorganic material impregnated flame retardant composition with the possibility of phase transformation during evaporation or ablation.

In addition, layers of fireproof flame retardant fabric can be made in the form of heat-resistant fabric from glass, basalt, silica or carbon fibers, impregnated with a flame retardant composition that does not contain harmful substances to health.

In addition, the expansion mechanism of each of the adjustable racks can be configured to adjust their length in the form of one of the mechanisms for smooth regulation (screw - nut, rail - lever, rail - worm, piston hydraulic mechanism) or in the form of a gear regulation (telescopic connection with clamps, lever connection with a spring, piston pneumatic mechanism).

In addition, the fixing devices for fastening the flame retardant fabric on the adjustable racks can be made in the form of cap washers, rings or carbines attached to the periphery of the canvas, and the response fasteners on the racks in the form of hooks, clamps, carbines or bolts.

In addition, adjustable along the length of the rack for ease of transportation can be made partially collapsible in the form of inserts or folding using a swivel. In addition, adjustable along the length of the rack for fixing the canvas in the flattened state on the wall surface can be made in the form of metal pipes equipped with spacer mechanisms for fixing the racks in working condition between the vertical overlappings of the building. The proposed technical solution provides an increase in the efficiency of using portable equipment to prevent the spread of open flame and localize fire in buildings and structures due to the simultaneous increase in the operational reliability of the portable device and its ease of use. The timely overlapping of various types of technological, door and window openings in apartments, offices, industrial premises, garages, workshops and workshops increases the level of fire safety of the premises. The proposed portable tool is made relatively simple in design, adaptable to manufacture and convenient to use, which contributes to a significant reduction in the time of overlapping of these openings by fire calculations. The use of the proposed portable means also provides opportunities and conditions for the use of tactical ventilation techniques, limits the access of oxygen to the fire zone and provides the possibility of evacuation at various stages of a fire. The achievement of the technical result when using the proposed portable means to prevent the spread and localization of fire is due to a significant reduction in the time of fire overlap of these openings with fire-retardant cloth, primarily due to simplified installation and dismantling of portable means in the zone of propagation of an open flame. A typical prototype control time for installing a similar device for a fire brigade of two people is at least 10 - 25 minutes. In the simplest case, the fastening time on the concrete or brick wall of one of the 6 to 8 hooks manually with the dowel takes at least one to three minutes. For the proposed portable means in the most adverse conditions, the total installation time is reduced to almost 5 - 6 minutes or less. The time schedule for the installation of the proposed portable means to prevent the spread of an open flame from the opening is specified in the detailed instructions for its use. Approximately after the fire brigade arrives at the door aperture, one minute is needed to free the fire retardant fabric and supporting racks from the cover, two minutes to fix the fabric on the racks, and two to three minutes to install both racks with the web against the wall with the door opening.

The implementation of the flame retardant fabric of layers of heat-resistant material bonded to each other, at least one of which has the property of additional shielding or absorption of heat flux from the fire zone, allows drastically (by tens of minutes) to increase its temporal characteristics for resistance to high temperatures and efficiency when protection against sparks and flames in temperature conditions up to +1200 ° С and more, which significantly exceeds the similar characteristics of the best known fireproof cloths 1111-1200 and other fire-fighting equipment.

FIG. 1 shows a typical example of the implementation of the proposed device for use on a balcony in a fire indoors.

Portable means to prevent the spread of an open flame from a burning room into the space on the balcony (not shown) in accordance with the inventive concept contains a multi-layered flame retardant cloth 1 in the form of a rectangular piece of heat-resistant material, fastening means for fixing the blade 1 in the flattened state on the wall surface 2 with the possibility overlapping door 3 and window openings 4 in a burning building.

According to the considered example of the implementation of the utility model, these fastening means for fixing the web 1 on the surface of the wall 2 are made in the form of two racks 5, 6 that are adjustable along the length, vertically installed between the horizontal slabs 7. 8 on the building’s balcony by means of spacer mechanisms 9, 10, and the fire retardant mount blade 1 to the racks 5, 6 is provided through the use of fixing devices cap or clamping type. These fixing devices on the flame retardant fabric 1 can be made, for example, in the form of cap rings 11, and the response elements mounting on racks 5, 6 - in the form of clips 12, holding the canvas 1 in the straightened state.

To achieve the technical result of this example of implementation, the flame retardant fabric 1 is made of two bonded layers (not shown) of a heat-resistant flame retardant material, between which is a woven or nonwoven fibrous third layer 13, which has the property of additional absorption and shielding of the radiant heat flux from fire zone. In this example implementation of the device, the flame-retardant cloth 1 consists of two layers of heat-resistant woven material sewn together, similar to the known woven materials for fire-prevention webs, which correspond to the said material 1111-1200 in heat resistance. A third mineral-based fibrous layer 13 (basalt fiber) is placed between these layers, which has properties that provide additional absorption and shielding of heat flux due to the thermal resistance of the fibrous layer 13 and due to the metallization of the fibers of layer 13 with a thin (10 - 50 μm) layer of refractory metal (copper, nickel, chrome), providing partial screen insulation from thermal radiation. In the middle part of the blade 1 there are two sections 14, 15 in the form of flap valves for evacuation of people from the burning room through the door 3 or window 4 openings into the safe zone into the space on the balcony. On each of the telescopic racks 5, 6 there are supporting heel pads 16. In addition, the fire-retardant blade 1 in the middle part can have a heat-resistant liner 17 mounted in it to install a compact non-volatile optical or audible alarm system to simplify orientation to the exit of the victims from the smoke-filled or burning room. to the safe zone on the balcony through flaps 15, 16 in the canvas 1. Such a system may include a pulsed light source, an audible siren or a buzzer.

In another example of implementation of the device (see Fig. 2), the flame retardant cloth 1 is made of two layers 18, 19 of heat-resistant material of the type indicated above, the layer 18 facing the fire zone made of a typical heat-resistant fabric with low thermal conductivity impregnated with flame retardant and the second layer 19 on the opposite side of the flame retardant fabric 1 is made with full or partial metallization of its surface, mainly in the form of spraying a thin layer (up to 100 μm) of a refractory metal (for example, chromium) onto one of its sides 20. D To facilitate surface metallization, the second woven layer 19 may include carbon fibers or carbon sputtering. Metal carbines or rings 21 are placed along the edges of the blade 1.

In the third exemplary embodiment of the device (see FIG. 3), the flame-retardant cloth 1 consists of two layers 18, 19 of heat-resistant woven material sewn together, similar to the known woven materials for fire-prevention webs corresponding to the heat resistance of said material 1111-1200, between which is placed the third layer 22 of fibrous inorganic material based on basalt fibers. To provide additional absorption and shielding of the heat flux, many narrow fragments of a refractory metal metal foil (for example, nickel) are introduced into the composition of the third layer 22.

In the fourth exemplary embodiment of the device, the flame retardant fabric 1 is made of three layers of heat-resistant material sewn together, and the outer layers of the fabric 1 are made of heat-resistant fabric with low thermal conductivity as in the previous examples, and the intermediate layer can be made of porous or fibrous inorganic material impregnated with flame retardant composition, with the possibility of phase transformation during its evaporation or ablation of the fibrous material under the influence of heat flow. Fireproof cloth 1 in its upper part in working condition may have a horizontally positioned manifold with holes directed inside the intermediate layer and a supply channel for pneumomechanical supply from the compact container of the fire retardant composition into the intermediate layer through the control valve (not shown). In the simplest case, water or other safe to use liquid with a high value of heat of evaporation can be used as a flame retardant.

As is clear from the foregoing, for most examples of the implementation of portable means, the flame retardant fabric 1 can be made of layers of heat-resistant woven material, similar to known woven materials for fire-prevention webs, corresponding in temperature resistance to the above-mentioned material 1111-1200, as well as materials based on various types of glass, basalt, silica woven and non-woven heat-resistant materials that do not contain harmful substances. As the latter, it is possible to use the most heat-resistant to date carbon-containing or composite materials with these types of fibers. The choice of a material for the manufacture of multilayer flame retardant fabric 1 based on glass, basalt fibers or on the basis of non-woven or woven heat-resistant safe polymeric, metal-polymer or carbon-containing materials can have a significant impact on the application of the finished product (more or less heat resistance), and to reduce the weight and cost of the portable device.

In accordance with the inventive concept, the achievement of the specified technical result for a portable device is possible in the examples of the fire retardant fabric 1 according to other layouts of the cross-linked layers of heat-resistant material with the above-mentioned properties. The achievement of the technical result is also possible with the use of various performance telescopic racks 5, 6 for fixing the canvas 1 in the straightened state on the surface of the wall 2. Below are the optimal design and circuit solutions adjustable along the racks, ensuring increased operational reliability of the portable tool and ease of use for localization of fire in buildings and structures while reducing installation time in conditions of open flame propagation.

As mentioned, the achievement of the specified technical result for a portable device is possible if the vertical (telescopic) racks 5, 6 adjustable in length for fixing the blade 1 in the flattened state on the surface of the wall 2 are made mainly in the form of metal pipes with the possibility of controlling their installation length, and each of the racks 5, 6 must be equipped with a spacer mechanism 9, 10 for fixing the racks in working condition between the horizontal 7, 8 or vertical floors (not shown) of the building with y thrust bearings 16 at the ends of the racks 5, 6.

Spacer mechanisms 9, 10 of each of the vertical adjustable racks 5, 6 must be made with the ability to control their length in the range determined by the design capabilities of the racks and the spacer mechanisms taking into account the placement relative to the building floors. Adjusting the length of the telescopic racks 5, 6 can be smooth and stepped. Stepped adjustment of the length of the telescopic racks may have a greater range of regulation, and smooth - less. Smooth regulation is provided mainly by one of the known mechanisms for smooth regulation (rail - lever, rail - gear, piston hydraulic mechanism), and stepped regulation - through telescopic connection with retainers, using additional tubular inserts, lever connections with spring or piston pneumatic mechanism .

In one exemplary embodiment of the portable means, the expansion mechanism of the rail-lever type (see FIG. 4) includes a housing 23 with a toothed rack 24, which are mounted in the lower part of the rack adjustable in length. On the housing 23, a bracket 25 with a ratchet (not shown) and a lifting lever 26 for changing the length of the telescopic stand are fixed. The rack also shows conventionally the fixtures 27 for fastening the fire retardant blade 1 to the top and bottom parts of the rack in four places.

In another of the examples, a rake-gear type spacer mechanism (see FIG. 5) can be mounted on the lower part 28 of an integral length-adjustable stand including the lower and upper parts 28, 29. The spacer mechanism has a body 30 with a rack 31 and a rotary knob 32 with gear and ratchet (not shown).

In the third exemplary embodiment of the portable means, a spacer mechanism of a piston type with hydraulic adjustment of the length of the rack (see FIG. 6) can be installed on the lower part 33 of the length-adjustable stand including the parts 33, 35 connected through a hinge 34. The spacer mechanism has a piston housing 36 37 and channels 38 for supplying hydraulic fluid using a manual drive (not shown). In the fourth exemplary embodiment of the portable means, the expansion mechanism for stepped adjustment of the length of the rack (see Fig. 7) includes a housing 39 provided with several fixing holes 40, which include a fixing rod 41 for stepping increasing the total height of the telescopic rack when mounting the portable means.

In the fifth exemplary embodiment of the portable means, the expansion mechanism for stepped adjustment of the length of the rack (see FIG. 8) comprises a spring-lever device 42 comprising a spring 43, levers 44 and a trigger lever 45 for rapidly increasing the total height of the rack when mounting the portable means.

In view of the above, the technical result is achieved in each of the examples of the implementation of the portable device, including various embodiments of the fire retardant fabric design elements and means of its attachment by means of racks that vary along the length for fixing the fabric in the flattened state on the wall surface with the possibility of blocking different openings in the burning building. It should also be noted that these racks 5, 6 for ease of transportation in each of the examples of the portable means can be made partially collapsible or foldable using a swivel or plug-in nozzles. In addition, portable means with adjustable length racks for fixing the web in the flattened state on the wall surface in some cases (for example, in the absence of horizontal overlaps) can also be used when fixing the racks in a horizontal position between the vertical overlaps of the building.

The proposed portable means to prevent the spread and localization of fire in the process of rescuers when used on a balcony operates as follows. Upon arrival at the site of the fire, the fire extinguisher should assess the situation and, in the event of a threat to human life, decide to carry out work related to rescuing people or evacuating them. At the same time, the necessary orders are given for the deployment of forces and means for extinguishing a fire. Depending on the situation in a fire, various options for fighting to save people and extinguish a fire can be used. In particular, in case of fires in high-rise buildings, car lifts, articulated booms, manual fire escapes, and other rescue devices used by fire departments are used to rescue people from balconies and loggias.

It is known that the largest number of fires is registered in the residential sector, much of which consists of multi-storey buildings. In case of fires in residential premises in buildings of low, medium and large number of floors in cases where internal living quarters, flight stairs, corridors and other main and alternate paths are densely smoke-filled or engulfed in flames to save people. use window openings, balconies, loggias, transitions and exits to the roof. The experience of carrying out rescue operations in case of fires in the residential premises of high-rise buildings indicates that often people tend to escape from the open flame on the secluded balconies and loggias. At the same time, rescuers arriving at the balcony have a minimum time reserve of from one to ten minutes in order to organize the rescue route for victims, among whom may be children, women and elderly people. The primary task is to prevent the spread of open flame from the interior to the balcony or loggia by quickly closing the door and window openings. One of the solutions to this problem is to use the proposed portable means to prevent the spread of open flame from the interior of the room to the balcony area and limit the flow of oxygen into the room covered by fire. The rescuer, who first reached the balcony with the rescue tool, pulls out from the general storage case (not shown) the components of the kit - fire retardant cloth 1 and adjustable along the length of the rack 5, 6, which for convenience of transportation are usually in the folded state. The rescuer deploys the flame retardant cloth 1 so that under its protection to secure the closest upper and lower corners of one edge of the blade 1 to one of the uprights 5, 6 using metal carbines or rings 11 arranged along the edge of the canvas on the corresponding pins or clips 12 of the uprights. The rescuer performs a similar operation, fixing the other edge of the blade 1 to the second, adjustable in length stand. The specified fixing in some cases regulated by regulations (in the warehouse storage option for a specific type of building) can be carried out in advance. Then, under the protection of the blade 1 from the flames from the door and window openings, the rescuer reliably places the pillars 5, 6 into the thrust between the ceilings 7, 8 with the help of the spacer mechanisms 9, 10. The time to install the portable device into the working position by unfolding the fire-retardant blade 1 its attachment to wall 2 using adjustable racks 5, 6 for one experienced rescuer will be several minutes, depending on the complexity of the situation and the intensity of the open flame escaping from the interior. For two rescuers, this time may be less. The presence in the middle part of the blade 1 of one or two cuts 14, 15 with overhead valves provides the ability to evacuate people from the burning room through the door 3 or window 4 openings to the safe area on the balcony 6.

The temperature resistance of the layers of flame retardant fabric 1 made of woven materials based on the most heat-resistant silica or carbon-containing fibers today can exceed +1200 ° C, and the time spent by injured and rescuers in safe conditions when protected by web 1 against an open flame escaping from the openings of the open flame can be many tens of minutes. Thus, reliable overlapping of the protected aperture from the fire front by means of the proposed device allows longer stay in the safety of people and lifeguards on the balcony, loggia or indoors, up to the organization of the rescue of all victims by forces of the newly arrived fire departments. Thus, the proposed technical solution provides an increase in the effectiveness of the use of portable equipment to prevent the spread of open flame and fire localization by shutting down technological, door and window openings in buildings and structures with fire retardant cloth, as well as to limit access of air oxygen to the sources of fire. In this case, it is possible to significantly reduce the time of fire overlapping of the above openings with a flame-retardant blade, increase convenience and simplify the operating conditions of the portable equipment and its elements in the zone of open flame propagation. An additional result is the possible reduction in the quantitative composition of fire brigades when using the proposed portable means. The proposed portable tool is relatively simple in design, adaptable to manufacture and convenient to use.

To assess the possible extent of the application and the expected effect from the use of the proposed invention, we give some information on fire statistics in the past years mentioned earlier in the prototype. According to the Directorate for Supervision of Regional Centers of the Russian Emergencies Ministry (see http://wiki-fire.org/), in 2013 there were 152,959 fires registered in the Russian Federation, with 10,548 people killed, including 499 children. 11.076 people were injured. Material damage amounted to 13.2 billion rubles. 424 fires occurred every day in Russia, in which 29 people died and 30 people were injured. As a result of the actions of fire departments in 2013, 91,349 people were rescued. The use of the proposed portable equipment, as shown above, greatly improves the efficiency of the fire safety units and can be recommended for widespread use in the units of regional centers and emergency services in order to reduce the negative effects of fires.

Claims

Claim

1. Portable means to prevent the spread and localization of fire, containing fire retardant cloth in the form of a rectangular piece of heat-resistant material complete with fastening means for fixing the canvas in the straightened state on the wall surface with the possibility of blocking the opening in a burning building, characterized in that the fire retardant cloth is made of layers of heat-resistant material bonded to each other, at least one of which has the property of shielding or absorbing heat flux from The ignition means, the fixing means for fixing the web in the straightened state on the wall surface are made in the form of racks adjustable in length, equipped with spacer mechanisms for fixing the racks in working condition, mainly between the horizontal overlaps of the building, and the fixing of the fire retardant fabric to the racks is made in the form of fixing devices cap or clamping type.

2. A portable tool according to claim 1, characterized in that the flame retardant fabric is made of two layers of heat-resistant material, stitched together, the layer facing the fire zone made of heat-resistant fabric with low thermal conductivity, impregnated with flame retardant, and the layer on the opposite side fire retardant fabric is made with full or partial metallization of its surface.

3. Portable tool according to Claim. 1, characterized in that the flame retardant fabric is made of three layers of heat-resistant material stitched together, the outer layers of the fabric made of heat-resistant fabric with low thermal conductivity, and the intermediate layer is made of fibrous inorganic material with the inclusion of many narrow fragments foil.

4. Portable tool according to Claim. 1, characterized in that the flame-retardant fabric is made of three layers of heat-resistant material, stitched together, the outer layers of the fabric are made of heat-resistant fabric with low thermal conductivity, and the intermediate layer is made of fibrous inorganic material impregnated with flame retardant possibility of phase transformation during evaporation or ablation.

5. A portable tool according to claim 1, characterized in that the layers of the fireproof flame retardant fabric are made in the form of a heat-resistant fabric of glass, basalt, silica or carbon fibers impregnated with a flame retardant that does not contain harmful substances to health.

6. Portable tool according to Claim. 1, characterized in that the spacer mechanism of each of the adjustable uprights is adapted to control their length in the form of one of the mechanisms for stepless regulation (screw-nut, rail-lever,

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SUBSTITUTE SHEET (RULE 26) rail - worm, piston hydraulic mechanism) or in the form of a mechanism for stepped regulation (telescopic connection with clamps, lever connection with a spring, piston pneumatic mechanism).

7. Portable tool according to Claim. 1, characterized in that the fixing devices for fastening the flame-retardant fabric on the adjustable racks are made in the form of cap washers, rings or carbines attached to the periphery of the fabric, and the response fastening elements on the racks are in the form of hooks, clamps, carabiners or bolts.

8. Portable tool according to Claim. 1, characterized in that the racks adjustable along the length for the convenience of transportation are made partially collapsible in the form of inserts or foldable using a hinged connection.

9. Portable tool according to Claim. 1, characterized in that the racks adjustable in length for fixing the web in the flattened state on the wall surface are made in the form of metal pipes equipped with spacer mechanisms for fixing the racks in working condition between the vertical overlaps of the building.

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 SUBSTITUTE SHEET (RULE 26)