RU2503914C2 - Combat garment suit of rescuers operating under conditions of biogeneous circumstances - Google Patents

Abstract

FIELD: rescue operations.

SUBSTANCE: combat garment suit of rescuers comprises a jacket with a hood, a protective waistcoat, and also trousers and high boots. The protective waistcoat consists of a fabric lining with a protective shell. In the fabric lining the elastic frame racks are secured by clips to the belt of the pants. The protective shell is attached to the elastic frame racks and comprises the outer and the inner protective packets between which the interlining is placed. The interlining is made in the form of a ribbon with fixed folds which are located at a constant pitch from the side of the protected object. The outer packet faces the environment surrounding the operator and is made multi-layered. Each layer is made in the form of interconnected rings of stainless steel. The layers are located to overlap the ring clearance by their articulation. The inner protective packet is made of three layers. Two upper layers are made of the perforated polymer material. The intermediate layer is made elastic of elastic mesh elements. The mesh structure density of the flexible-elastic mesh elements is in the range of values of 1.2 g/cm³-2.0 g/cm³. The wire material of the elastic mesh elements is steel EI-708. The fabric used for the garment upper part is the textile material which comprises the biologically-active polyester fiber.

EFFECT: increased effectiveness and reliability of the design of garment of rescuers operating under conditions of biogeneous exposure.

9 dwg

Description

The invention relates to the equipment of rescuers in the field of emergency.

The closest technical solution to the claimed object is a suit of combat clothing of fire rescuers, described in a review article by the authors: Rusetskiy Yu.G., Ivanov A.V. Suit of combat clothing of fire-rescuers of the first level of protection. Firm "Volbrok", [1] - site http://volbrok.ru/article01.shtml , [prototype], and consisting of a jacket with a detachable hood and trousers, while developed as part of the fabric for the top of combat clothing assignments of the State Scientific and Technological Park “Emergencies” heat-resistant fabric from polyphenylene-oxadiazole fiber yarn and Rusar multifilament yarn (TU RB 300620644.008-2003 “Severe fire-resistant fabrics for clothing of firefighters-rescuers of the first level of protection”). Comparative characteristics of the most important technical and economic indicators of heat-resistant fabric at the top of a fire-rescue combat clothing suit are presented in Table 1. The technical specifications of TU RB 300620644.007-2003 “Suit of combat clothing of fire-rescuers of the first level of protection” have been developed and approved. The article describes the progress of the research work carried out by the Research Center (SIC) of the Vitebsk Regional Department of the Ministry of Emergencies (Belarus).

Table 1 The most important technical and economic indicators of the developed heat-resistant fabric for the top of the firefighter-rescue combat clothing suit. The best Russian analogue (CBM) Best Western counterpart (Nomex) Indicator Created Material Surface density, g / m ² , no more 270 220 265 Breaking load, H, not less than: based 1400 1200 1200 by duck 1000 1000 1000 Elongation at break,%, not less than: based 33 twenty twenty by duck 22 22 twenty Tearing load, H, not less than: based one hundred one hundred 00 by duck 120 one hundred 60 Shrinkage after heating,%, no more 5 7 12 Resistance to impact ambient temperature 300 300 300 medium up to + 300 ° С, s, not less than Resistance to contact with heated to + 400 ° C 10 10 5 hard surfaces, s, not less

Tests of a package of materials, the material of the top of the obtained sample were carried out for compliance with thermal and physical and mechanical parameters of the requirements of fire safety [1]. The tests showed that the manufactured experimental model fully complies with the fire safety standards NPB 29-2000 for combat clothing of fire-rescuers of the 1st level of protection, provides convenience in dynamics when performing fire-rescue work. The designed suit protects the human body not only from high temperature, heat fluxes of high intensity, but also from possible flames. The calculation of technical and economic indicators allows us to conclude that it is expedient and economical to manufacture firefighter-rescue clothing from domestic materials.

A comparative description of the most important technical and economic indicators of the combat clothing of a firefighter-rescuer is shown in Table 2.

table 2 Technical and economic indicators of a suit of combat clothing firefighter-rescuer Indicator Created Sample Best Russian Dialogue (CBM) Best Western counterpart (Nomex) Resistance to heat flux: 5,0 kW / m ² , s, not less 250 240 240 40.0 kW / m ² , s, not less 10 10 5 Water permeability, mm of water. Art., not less 1000 1000 220 Resistance to weak (up to 20%) acids and alkalis (H ₂ SO ₄ , HCl, KOH, NaOH), flow volume at zero penetration,%, not less 80 80 80

A disadvantage of the famous rescue combat clothing suit is its weak degree of protection against biogenic exposure.

Currently, a protective vest according to the patent of the Russian Federation No. 2426059 (an analogue of the claimed object) is known for protecting against mechanical impact of piercing and cutting objects flying and falling from a collapsing object, which consists of a fabric lining in which elastic frame racks are fixed by means of latches on the waist belt where the protective shell is secured against mechanical stress.

A technically achievable result is an increase in the efficiency and reliability of the design of lifeguard clothes operating under conditions of biogenic impact.

This is achieved by the fact that in a suit of combat clothing of rescuers operating in conditions of burning objects in the presence of flying and falling objects of a collapsing object, containing combat clothing of rescuers having fire-retardant properties and consisting of a jacket with sleeves and a hood with a protective transparent element located in the working condition on the front of the head, as well as trousers with suspenders and a hard belt, and boots made of fireproof and resistant to mechanical stresses seismic nature of the material, and in quality Your fabrics for the top of combat clothing use a heat-resistant fabric made of polyphenylene oxadiazole fiber yarn and Rusar complex yarn, as well as a protective helmet made by Cromwell F600, with a high level of comfort and a protective vest, the protective vest consists of a fabric lining connected to the protective the shell, and in the fabric lining the elastic frame racks are fixed by means of the clips on the waist belt of the trousers, and the protective shell is attached to the elastic frame racks, and contains external and internal protective packages, between the gasket is made in the form of a tape with fixed folds placed at a constant step from the side of the protected object, and placed sequentially in two outer shells, and the outer package facing the operator’s environment is multilayer, and each layer is made in the form of interconnected rings, the material of which is stainless steel, the layers are located with overlap of the lumen of the rings by their joint, and the inner protective package is made of three layers, while contacting the outer shell and the layer facing the operator’s body are made of perforated polymeric material, for example, aramid fiber, and the intermediate layer located between them is made elastic of elastic mesh elements, while the density of the mesh structure of elastic-elastic mesh elements is in optimal the range of values of 1.2 g / cm ³ ... 2.0 g / cm ³ , and the material of the wire of the elastic mesh elements is steel EI-708, and its diameter is in the optimal range of 0.09 mm ... 0.15 mm, and as Kani for the top of combat clothing uses a textile fiber material with bioprotective properties based on natural or chemical fibers, including biologically active polyester fiber obtained by modifying the fiber during crazing, with a linear density of at least 0.33 tex, and a linear density of natural or chemical fiber is 0.33 ÷ 0.51 of its linear density with the following component content, wt.%: natural or chemical fiber 70 ÷ 95, biologically active polyester fiber 5 ÷ 30.

Figures 1 and 2 show a sketch of a model of a rescue combat clothing suit (front and rear views, respectively), Fig. 3 is a general view of a protective helmet of a lifeguard combat clothing, and Figures 4, 5, 6 are a technical sketch of a jacket, hood, and trousers, Fig.7 shows a profile projection of a protective vest, Fig.8 is a front view of a protective vest, Fig.9 is a diagram of the protective shell of a protective vest.

The combat clothing suit of rescuers operating in conditions of burning objects in the presence of flying and falling objects of a collapsing object is a set of the following objects. Rescue combat clothing (Figs. 1, 2, 4, 5, 6), which has fire retardant properties and consists of a jacket 1 with sleeves 2, and a hood 6 with a protective transparent element 3, located in working condition on the front of the head, as well as trousers 4 with suspenders and a hard belt, and boots 5 made of fireproof and resistant to mechanical stresses (including seismic nature) material (not shown in the drawing).

As the fabric for the top of combat clothing, a textile fibrous material with bioprotective properties based on natural or chemical fibers is used, including biologically active polyester fiber obtained by modifying the fiber during crazing with a linear density of at least 0.33 tex and a linear density of natural or chemical fiber is 0.33 ÷ 0.51 of its linear density with the following content of components, wt.%: natural or chemical fiber 70 ÷ 95, biologically active polyester fiber about 5 ÷ 30.

When testing the samples of the proposed material for antimicrobial activity, high activity against microorganisms, gram-positive microflora (St. epidermidis) was obtained, and high activity against Escherichia coli (E. Coli) was achieved.

The next protection element used in burning facilities with flying and falling objects of a collapsing object is the Cromwell F600 safety helmet (figure 3), used by most firefighters in the UK, and having a reputation for a helmet with a high level of comfort (double CE certification , both a helmet and a visor, providing maximum protection for the head and face). The material of the outer shell 7 of the helmet is fiberglass coated with fire-retardant paint, which is resistant to the open flame of the helmet body 7 with the upper forehead protective part 8, at least 15 seconds, and the face shield 9-10 seconds. An easily replaceable upper forehead protector 8 protects the visor 9 and the front of the helmet where the most damage occurs. The visor is made of polycarbonate and protects the most important part of the helmet and is easily replaced if damaged; provides a wide view, optically correct for anti-distortion. Comfortable temperature is maintained by the inner insulating layer. The helmet is compatible with all types of breathing apparatus. There is a simple four-position adjustment for all head sizes (52 ÷ 63 cm) using a special mechanism. The helmet can be moved forward or backward on the head with a bezel over the eyebrows. The bezel around the eyebrows is very soft - for optimal comfort. The height of the seat is adjusted by pulling or loosening the chin strap 10. The fire-resistant, quickly detachable chin strap can withstand a static load of 500 H. The angle of the helmet is adjusted by turning the rim above the eyebrows (compatibility with the breathing apparatus is also provided).

Specifications: weight - 1320 grams, the helmet can withstand vertical impact of a blunt object with an energy of 80 J; in a vertical impact with a sharp object with an energy of 30 J, it is impossible to touch the surface of the head; the visor withstands single strokes of a load with an energy of 1.2 J while maintaining the operability of the rotary locking device; the connection of parts of the internal equipment with the helmet body at each attachment point can withstand a load of 80 H. The helmet body protects against electric shock with a voltage of 400 V.

The next protection element used in conditions of burning objects in the presence of flying and falling objects of a collapsing object is a protective vest (Figs. 7, 8, 9), which protects the human operator from sudden impacts of mechanical impact from the surrounding burning environment, and which put on under a jacket 1. The implementation of the elastic material of the frame racks 12 connected to the belt of the trousers 4 allows you to dampen the impact (make it elastic), and the protective shell 13 prevents injury to the skin of the lifeguard.

The protective vest consists of a fabric lining 11 in which the elastic frame racks 12 are fixed by means of the clips 14 on the hard waist belt of the trousers 4. The protective shell 13 is mounted on the elastic frame racks 12. The protective shell 13 can be fixed on the frame racks 12 over the entire area of the lifeguard torso , including the shoulder joints and hands (not shown in the drawing).

The protective shell 13 contains an external 15 and an inner protective bag, between which there is a gasket 17 with folds 18 placed in the shell 19. The gasket 17 is made in the form of a tape with fixed folds 18 placed at a constant step from the side of the protected object, and placed in series in two outer shells 19. The outer package 15, facing the environment, is multilayer, and each layer is made in the form of interconnected rings, the material of which used stainless steel. In this case, the layers are arranged with overlapping lumen of the rings by their articulation. The inner protective bag is made three-layer, with the layer 16 in contact with the outer shell 19 and the layer 21 facing the operator’s body made of perforated polymeric material, for example, aramid fiber, and the intermediate layer 20 located between them is made of elastic from elastic mesh elements, while the density of the mesh structure of the elastic mesh elements is in the optimal range of 1.2 g / cm ³ ... 2.0 g / cm ³ , moreover, the material of the wire of the elastic mesh elements is steel EI-708, and its diameter is in the optimal range of 0.09 mm ... 0.15 mm.

Suit combat clothing rescuers works as follows.

With a large kinetic energy of a mechanical action or an attacking element, an external protective package 15 can be pierced with a loss of this energy to a certain extent. But the damaging fragment approaches the inner protective package with less speed and, as a result, with less energy, which ensures the penetration of the hard layers 16 and 21 of the material of this layer. In this case, the elastic material 20 acts as a shock absorber, reducing the shock pulse to a safe level.

If the outer layer 15 is not broken, the gasket 17 begins to work as a means of reducing the shock pulse. In this case, partial absorption of energy occurs due to the closing of the folds and the simultaneous dispersion of the shock pulse over a larger area due to the air present between the folds. In this case, the air gradually leaves due to the load from the shells, which allows you to stretch the shock pulse in time. Further removal of the shock pulse occurs due to the internal protective package.

Using the proposed device will significantly increase the safety of rescuers in the liquidation of emergency situations and their consequences.

Claims (1)

A suit of combat clothing of rescuers operating in a biogenic environment, containing combat clothing of rescuers having fire-retardant properties and consisting of a jacket with sleeves and a hood with a protective transparent element located in working condition on the front of the head, as well as trousers with suspenders and a hard belt, and boots made of fire-retardant and resistant to mechanical influences seismic nature of the material, moreover, as a fabric for the top of combat clothing is used heat-resistant fabric from polyphenyl yarn of noxadiazole fiber and the Rusar complex thread, as well as a protective helmet manufactured by Cromwell F600, with a high level of comfort and a protective vest, characterized in that the protective vest consists of a fabric lining connected to the protective shell, and elastic lining is fixed to the fabric lining frame racks by means of clamps on the waist belt of the trousers, and the protective shell is mounted on elastic frame racks, and contains external and internal protective packages, between which there is a gasket made in the form of a tape with fixed folds placed at a constant step from the side of the protected object, and placed sequentially in two outer shells, and the outer bag facing the operator’s environment is multilayer, each layer is made in the form of interconnected rings, the material of which is stainless steel, while the layers are arranged with the lumen of the rings overlapping by their articulation, and the inner protective package is made three-layer, with the layer in contact with the outer shell and the layer facing the body of the operas ators are made of perforated polymeric material, for example, aramid fiber, and the intermediate layer located between them is made of elastic mesh elements, while the density of the mesh structure of elastic elastic mesh elements is in the optimal range of 1.2-2.0 g / cm ³ , and the material of the wire of the elastic mesh elements is EI-708 steel, and its diameter is in the optimal range of 0.09-0.15 mm, and textile fiber material is used as the fabric for the top of combat clothing with bioprotective properties based on natural or chemical fiber, including biologically active polyester fiber obtained by modifying the fiber during the crazing process, with a linear density of at least 0.33 tex, and the linear density of the natural or chemical fiber is 0.33 ÷ 0.51 linear density with the following components, wt.%:
natural or chemical fiber 70 ÷ 95 biologically active polyester fiber 5 ÷ 30

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