RU2564975C1 - Overalls of rescuers operating in extraordinary, seismic and hazardous conditions in combination with radioactive radiation - Google Patents

Abstract

FIELD: personal demand items.

SUBSTANCE: overalls of rescuers operating in extraordinary, seismic and hazardous conditions in combination with radioactive radiation consisting of the protective jacket from mechanical impact, semi-overalls, vest, vibroprotective footwear and the rescuer's helmet, the protective jacket is made with protective shell, is consists of the fabric lining connected to protective shells, and elastic frame studs are fixed by means of clamps on the belt in the fabric lining, and the protective shells are fastened on elastic frame studs, the protective shell has three layers, and the first layer facing towards the operator environment, is implemented in the form of the interconnected rings the material of which is stainless steel, the third layer facing towards the operator's body, is made from punched polymeric material, for example aramide fibre, it differs in that the second layer, located between them is used, is elastic and made from ferromagnetic fabric containing the base, binding polymeric substance and powder of ferromagnetic material, the base of fabric is manufactured by the calico weave method, the main and weft threads are arranged as alternating mylar and magnetosoft monothreads, the amount of threads per meter amounts 5000÷7000, magnetosoft monothreads are made from supermalloy or from molybdenic permalloy with the diameter 0.05÷0.1 mm, and mylar threads have the linear density 10÷20 tex, the ferromagnetic powder is high-coercive alloy powder, and the content of components in fabric is in the following ratio, wt %: lavsan threads 10÷15 ; monothreads of magnetosoft material 20÷25; binding polymeric substance - acrylic copolymers 10÷15; powder of a high-coercive alloy 50÷55, and the second layer is made of the material absorbing radioactive radiation with the absorption coefficient corresponding to the rate of dose of ionizing radiation, which is the material containing the filler in the form lead oxides (oxide of lead II, IY) and binder - polyvinylbutyral, ethyl acetate, di-(alkyl polyethylene glycol) ether of phosphoric acid with the formula

where n = 6, R - the alkyl residue containing 8-10 atoms of carbon, and ethyl cellulose at the following ratio of components, is used, wt %: oxide of lead II, IY 30.6-56.8; polyvinylbutyral 3.8-10.2; ethyl acetate 14.3-26.5; di-(alkyl polyethylene glycol ether of phosphoric acid) 0.2-0.4; ethyl cellulose - the rest; the new composition of the binder in the offered invention provides full compatibility with oxides of lead and allows to produce materials with high lead equivalent and degree of flexibility which has good adhesion to metals, to concrete, brick, also the material is the high-concentrated suspension which quickly hardens in air, and the material viscosity is 20÷70 Pa×s that allows to cast from it films of various thickness by die or extruder, to apply on a surface with brush, splashing, fill in various cavities, cracks and channels.

EFFECT: increase of efficiency of protection of rescuer in seismic and hazardous conditions in combination with radioactive radiation due to use of ferromagnetic material with improved parameters of absorption and dispersion of radioactive radiation, and also its increased durability.

8 dwg

Description

The invention relates to the equipment of rescuers in the field of emergency, in particular for the equipment of rescuers during emergency rescue operations in natural and man-made emergencies.

The closest technical solution to the claimed object is the clothes of rescuers according to the patent of the Russian Federation No. 2495610, publ. in BI No. 29 dated 10.20.13 - [prototype], consisting of a protective jacket from mechanical stress, semi-overalls, a vest, vibration-proof shoes and a lifeguard helmet, while the protective jacket is made with a protective shell consisting of a fabric lining connected to the protective shells, and in the fabric lining elastic frame racks are fixed by means of clamps on the belt, and the protective shells are attached to the elastic frame racks, and the protective shell is made of three layers.

A disadvantage of the known design of lifeguard clothes is the relatively low protection against the mechanical action of the lifeguard in the conditions of flying and falling objects of a collapsing object, as well as in conditions of radioactive radiation.

A technically achievable result is an increase in the efficiency of protection of a lifeguard in seismically hazardous conditions in combination with radioactive radiation through the use of ferromagnetic material with increased absorption and scattering of radioactive radiation, as well as its increased strength.

This is achieved by the fact that in the clothes of rescuers operating in extreme seismic hazardous conditions in combination with radioactive radiation, consisting of a protective jacket from mechanical stress, semi-overalls, a vest, vibration-proof shoes and a lifeguard helmet, the protective jacket is made with a protective sheath, consists of a fabric lining connected to the protective shells, and elastic frame racks are fixed in the fabric lining by means of latches on the belt, and the protective shells are mounted on elastic frame racks, the protective shell is made of three layers, the first layer facing the operator’s environment, made in the form of interconnected rings, the material of which is stainless steel, the third layer facing the operator’s body is made of perforated polymeric material, such as aramid fiber, and the second layer located between them is made elastic of ferromagnetic fabric containing a base, a binder polymer substance and a powder of ferromagnetic material, while the fabric base is made weaving with plain weave, while the main and weft threads are made of alternating dacron and soft magnetic monofilaments, the number of threads per meter is 5000 ÷ 7000, soft magnetic monofilaments are made of superalloy or molybdenum permalloy with a cross-sectional size of 0.05 ÷ 0.1 mm, and lavsan filaments have a linear density of 10 ÷ 20 tex, a highly coercive alloy powder is used as a ferromagnetic powder, and the content of components in the fabric by weight is in the ratio, wt. %: lavsan filament 10 ÷ 15; monofilament of soft magnetic material 20 ÷ 25; polymer binder - acrylic copolymers 10 ÷ 15; highly coercive alloy powder 50 ÷ 55.

In FIG. 1 shows a front view of the design of a protective jacket against mechanical stress, FIG. 2 - its profile projection, in FIG. 3 is a diagram of a protective jacket of a protective jacket; FIG. 4 is a general view of the lifeguard clothes, in FIG. 5 is a general view of the rescue helmet, in FIG. 6 shows a general view of vibration-proof shoes; FIG. 7 - elastic damping elements in the heel of the shoe, in FIG. 8 - elastic damping elements in the sole.

Clothing of rescuers operating in extreme seismic hazardous conditions in combination with radioactive radiation (Fig. 4) consists of a protective jacket from mechanical stress (Fig. 1, 2) with a protective shell (Fig. 3) and a rescue helmet (Fig. 4). 5).

Lifeguard clothes (Fig. 4) includes a protective jacket 1, which has a central zipper on the front side 11, closed with a windproof valve on the buttons (not shown in the drawing), side and vertical welt pockets with a “zipper”, volumetric patch a pocket for a walkie-talkie and a welt pocket with a "zipper" on the shoulder yoke left and right, respectively (not shown in the drawing). There is a welt pocket with a flap on the right sleeve. On the back of the jacket is the inscription "EMERCOM OF RUSSIA." On the bottom of the jacket is pulled together by a cord 12 with clamps. The bottom of the sleeves is treated with a cuff, tightened with an elastic tape and a strap with a textile fastener. The set-in hood 10, which is retractable in a pocket on the collar, has adjustment according to the front cut-out with the help of an elastic cord. Reflective stripes are sewn along the chest line, on the bottom of the jacket, on the front and on the back, and also on the bottom of the sleeves. The removable insulation, fastened to the sides of the jacket with a "zipper", has front patch pockets and a knitted collar in front.

Semi-overalls 8 has a zipper closure, closed by a valve on the buttons, as well as stitched straps, the free ends of which are attached to the front upper part with zupfer locks. Side welt pockets with a zipper are placed below the waistline of the semi-overalls, a welt pocket with a zipper is located on the right of the chest line on the right, and side welt pockets with a textile fastener in the knee area, including on the right is a pocket for a knife (not shown in the drawing). Five loops are located along the waistline. The knee area and the seating area are reinforced with pads (not shown in the drawing). The bottom of the overalls has pockets with "zippers" and cords with a retainer covering the vibration-proof shoes 9. Reflective strips are sewn below the knee area. The removable insulation, fastened to the jumpsuit on top with buttons, has a zipper fastener, a drawstring with a cord along the waistline, knitted erasers and dowels. The vest is made of one-piece with fixation on a textile fastener and has a retroreflective strip at the bottom. On the back of the vest is the inscription "Ministry of Emergencies

The design of the protective jacket from mechanical stress (Fig. 1, 2) consists of a fabric lining 1, in which the elastic frame racks 2 are fixed by means of the clips 4 on the belt 5. The protective shells 3 are mounted on the elastic frame racks 2. The protective shells 3 are mounted on the frame racks 2 over the entire area of the lifeguard torso

Each of the protective shells 3 is made three-layer, and the first layer facing the environment of the lifeguard is made in the form of interconnected rings, the material of which is stainless steel. The third layer 6, facing the body of the rescuer, is made of perforated polymer material, for example, aramid fiber, and the second layer 7 located between them is made of elastic ferromagnetic fabric containing a base, a binder polymer substance and a powder of ferromagnetic material, while the fabric base by weaving by plain weaving, while the main and weft threads are made of alternating dacron and soft magnetic monofilaments, the number of threads per meter is 5000 ÷ 7000, magnetically soft mononi and are made of supermalloy or molybdenum permalloy with a cross-sectional size of 0.05–0.1 mm, and mylar threads have a linear density of 10–20 tex, a highly coercive alloy powder is used as a ferromagnetic powder, and the content of components in the fabric by weight is in the ratio wt. %: lavsan filament 10 ÷ 15; monofilament of soft magnetic material 20 ÷ 25; polymer binder - acrylic copolymers 10 ÷ 15; highly coercive alloy powder 50 ÷ 55.

The second layer 7 is made of a material that absorbs radioactive radiation, with an absorption coefficient corresponding to the dose rate of ionizing radiation, as a material that absorbs radioactive radiation, a material is used that contains lead oxides (lead oxide II, IY) and a binder of polyvinyl butyral as a filler , ethyl acetate, di- (alkylpolyethylene glycol) ester of phosphoric acid of the formula

where n = 6, R is an alkyl group containing 8-10 carbon atoms, and ethyl cellulose in the following ratio of components, wt. %: lead oxide II, IY 30.6-56.8; polyvinyl butyral 3.8-10.2; ethyl acetate 14.3-26.5; phosphoric acid di- (alkylpolyethylene glycol ether) 0.2-0.4; ethyl cellulose - the rest, while the new binder composition in the claimed invention provides full compatibility with lead oxides and allows to obtain materials with a high lead equivalent and a degree of flexibility that has good adhesion to metals, concrete, brick, in addition, the material is a highly concentrated suspension, quickly hardens in air, and the viscosity of the material is 20 ÷ 70 Pa × s, which allows casting films of different thickness from it with a die or extruder, and apply to the surface to Stu, pouring, poured into the various cavities, crevices and channels.

Rescuers' clothes are also equipped with a rescue helmet (Fig. 5) of the “Cromwell ER1” type, designed for field trips in rescue operations in various accidents where the use of a fire helmet is not required (accident, fires in the forest, rescue operations on the water, search and rescue of victims under rubble, industrial accidents). The Cromwell ER1 helmet is made of thermoplastic (high temperature resistant PVC). Visor and glasses - polycarbonate.

Vibro-protective shoes consist of an internal protective toe 13 (Fig. 6-8) made of a composite material that protects against shock. Gasket 14 eliminates possible pressure on the foot. Polyurethane pad 15 (filling) of the toe of the shoe protects the foot of the foot from mechanical damage. The insert insole 16 of an anatomical shape, together with the set-in (strobelny) insole 17 optimizes the dynamics of the foot during operation. A two-layer sole 18 with an intermediate layer of polyurethane and a layer 29) of elastic-elastic mesh elements with shock-absorbing properties and a running layer of thermoplastic polyurethane with wear-resistant properties creates comfortable conditions for the operator when working with vibroactive equipment. 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 and the material of the wire of the elastic mesh elements is steel grade EI-708, and its diameter is in the optimal range of values 0.09 mm ... 0.15 mm.

Details of the upper 19 shoes are made of heat-resistant waterproof leather, and the lining 20 of the shoe is made of leather split. The protector of the sole 21 is made with increased adhesion to the surfaces of the operator’s working area, and the hard back 22 of thermoplastic material protects the heel of the operator from mechanical and thermal effects.

In the heel of the shoe (Fig. 7), under the insert insole 16 of an anatomical shape, there is a tab 24 of elastic-damping elements containing a support plane with bushings 25 fixed on it, in which elastic elements are located, for example, springs 23 in contact with a damping block made three-layer and containing plates 26 and 28 of a rigid vibration-damping material, for example, type "Agate", between which is a layer of polyurethane 27, damping vibration at medium frequencies. The elastic elements in contact with the damping block are made in the form of conical springs 23 having equal-frequency properties, while the coils of the springs 23 are covered with a layer of vibration-damping mastic (not shown in the drawing).

The inner protective toe cap 13, made of composite material, is made in the form (in the section of the upper part) of the arch type (not shown in the drawing), and on top of it is a polyurethane pad 15 (filling) of the toe of the shoe, which is also made in this part of the arch type. When performing work belonging to the category of "heavy", the internal protective toe cap 13 can be made of perforated metal of increased strength (not shown in the drawing).

Clothing rescuers operating in extreme, seismic-hazardous conditions in combination with radioactive radiation, works as follows.

Protective jacket 1 for rescuers also protects a person in the winter season from sudden blows from flying and falling objects of a collapsing object. The implementation of the frame racks 2 elastic allows you to soften the blow, the protective shell 3 prevents injury to the skin of the lifeguard and increase the absorption and scattering of radioactive radiation when it passes through the material, and also increase the overall strength of the protective jacket 1.

By magnetizing the fabric in different directions, using soft magnetic monofilaments made of supermalloy or molybdenum permalloy, applying an external magnetic field of different sizes, varying its direction, you can control the characteristics of the magnetic field created by the fabric as a whole and in microvolumes limited by soft magnetic monofilaments. Changing the magnetic field in the above zones allows you to control the properties of magnetic systems that use ferromagnetic tissue, as well as the process of shielding radioactive radiation when changing the wavelength and power of this radiation.

Vibration protection shoes 9 works as follows.

The inner protective toe cap 13, made of composite material, protects against shock, and the gasket 14 eliminates possible pressure on the foot. A polyurethane pad 15 (filling) of the toe of the shoe protects the foot of the foot from mechanical damage, and an insert insole 16 of an anatomical shape optimizes the dynamics of the foot during operation.

A two-layer sole 18 with an intermediate layer of polyurethane and a layer 29 of elastic-elastic mesh elements with shock-absorbing properties creates comfortable conditions for the operator when working with vibroactive equipment. The protector of the sole 21 is made with increased adhesion to the surfaces of the operator’s working area, and in the heel of the shoe, under the insert insole 16 of an anatomical shape, there is a tab 24 made of elastic damping elements that provide vibration protection and damping at medium frequencies. The elastic elements in the form of conical springs 23 have equal frequency properties, therefore, they will compensate for the change in the weight of the operator in connection with the performance of heavy work with the transfer of weights.

Helmet ER1 (Fig. 5) can also be used by paramedics, lifeguards on the water and civil defense - it is equipped with goggles and an accessory for optional protection of the ears. In addition, this helmet can be made for use in a helicopter (not by pilots), coastguards and airborne marine rescuers, etc. When developing the helmet, international anthropometric data were used for men and women - members of the fire and rescue teams. These data include differences of many ethnic groups, which makes this helmet convenient for use in all countries by representatives of any nationalities.

Using the proposed device will significantly increase the safety of rescuers in the conditions of flying and falling objects of a collapsing object, as well as in extreme, seismically dangerous conditions in combination with radioactive radiation.

Claims (1)

Clothing of rescuers operating in extreme seismic-hazardous conditions in combination with radioactive radiation, consisting of a protective jacket from mechanical impact, semi-overalls, vest, vibration-proof shoes and a lifeguard helmet, while the protective jacket is made with a protective shell, consists of a fabric lining connected with protective shells, and elastic frame racks are fixed in the fabric lining by means of clamps on the belt, and protective shells are mounted on elastic frame racks, the protective shell is made on a three-layer, and the first layer facing the operator’s environment is made in the form of interconnected rings, the material of which is stainless steel, the third layer facing the operator’s body is made of perforated polymeric material, for example aramid fiber, characterized in that the second layer located between them is made elastic of ferromagnetic fabric containing a base, a binder polymer substance and a powder of ferromagnetic material, while the base of the fabric is made by the weaver linen weaving, while the main and weft threads are made of alternating lavsan and soft magnetic monofilaments, the number of threads per meter is 5000 ÷ 7000, soft magnetic monofilaments are made of superalloy or molybdenum permalloy with a cross-section size of 0.05 ÷ 0.1 mm, and mylar the filaments have a linear density of 10 ÷ 20 tex, a highly coercive alloy powder is used as a ferromagnetic powder, and the content of components in the fabric by mass is in the ratio, wt.%: lavsan filament 10 ÷ 15; monofilament of soft magnetic material 20 ÷ 25; polymer binder - acrylic copolymers 10 ÷ 15; high coercive alloy powder 50 ÷ 55, while the second layer is made of a material that absorbs radioactive radiation, with an absorption coefficient corresponding to the dose rate of ionizing radiation, a material that contains lead oxides (lead oxide as a filler) is used as a material that absorbs radioactive radiation II, IY) and a binder - polyvinyl butyral, ethyl acetate, di- (alkylpolyethylene glycol) phosphoric acid ester of the formula

where n = 6, R is an alkyl group containing 8-10 carbon atoms, and ethyl cellulose in the following ratio of components, wt. %: lead oxide II, IY 30.6-56.8; polyvinyl butyral 3.8-10.2; ethyl acetate 14.3-26.5; phosphoric acid di- (alkylpolyethylene glycol ether) 0.2-0.4; ethyl cellulose - the rest, while the new binder composition in the claimed invention provides full compatibility with lead oxides and allows to obtain materials with a high lead equivalent and a degree of flexibility that has good adhesion to metals, concrete, brick, in addition, the material is a highly concentrated suspension, quickly hardening in air, and the viscosity of the material is 20 ÷ 70 Pa × s, which allows casting films of different thickness from it with a die or an extruder, apply to the surface to Pour, pour, pour into various cavities, crevices and channels.

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