RU2050806C1 - Protective shoes - Google Patents

Abstract

FIELD: anti-torpedo protection. SUBSTANCE: known construction is equipped with additional members: multicellular cassette, damping gasket, inclined umbrella-shaped flaps and damping protrusions. Cassette is filled with vacuumized members put into cassette cells and is provided with ribbed supporting surface. Damping gasket has adjustable initial compression force values and may be shifted by extreme compression force. Flaps and damping protrusions are positioned on inner surface of protective stockings rigidly secured on supporting platform. EFFECT: increased efficiency in protection of legs against damage during explosion of torpedo. 3 cl, 1 dwg, 1 tbl

Description

 The invention relates to protective equipment, in particular to devices for protecting the legs from damage during the explosion of min

 Known safety shoes with a deflector edged with a metal strip located in a container filled with energy-absorbing material (1).

 The disadvantage of this device is the ineffective absorption of energy from a mine explosion transmitted to the foot, and the possibility of additional formation of secondary wounding shells during the destruction of the metal edging of the deflector.

 This device, which is the closest in technical essence, is taken as a prototype.

 The purpose of the invention is to increase the level of protection of the legs from the energy of mine explosions, to protect against the effects of secondary wounding shells and fragments, as well as the compression effect of the blast wave on the lower legs.

 This goal is achieved by the inclusion in the design of the protective sole, rigidly attached to the support platform of the tank in the form of a multi-cell cartridge with vacuum elements inserted into it, made of materials easily destroyed during the explosion of mines and equipped with fins on the supporting surface. The supporting platform further comprises a damping pad with an adjustable value of the initial compression force and displacement to the maximum compression. Protective stockings rigidly connected to the support platform are provided on the outside with umbrella-shaped umbrella flaps made of ballistic resistant material, and on the inside they are provided with protrusions made of damping material, for example, polyethylene foam.

 A comparative analysis of the inventive device with known solutions shows that it differs significantly in ways of protecting the legs from the effects of the damaging factors of mine explosions. Protection is provided by removing the foot from the surface of the earth, reducing the amount of energy transmitted to the foot due to the destruction of part of the supporting structure, as well as the active capture of gaseous products of the explosion into the cavity of the evacuated elements that are destroyed by the explosion of mines. In addition, the use of angle-shaped umbrella flaps made of ballistic-resistant fabric on the outer surface of the stocking allows for active capture of mine fragments and secondary wounding shells, and the location of the protrusions of energy-absorbing material inside the stocking reduces the compression effect of the blast wave on the outer part of the limb.

 As a result of the patent information search, no analogues of the claimed protective sole were found that coincided with it in technical essence, which allows us to conclude that the invention meets the criteria of "novelty" and "non-obviousness".

 In turn, the availability of the structure for its manufacture in industrial conditions and the possibility of its practical use without prior training and training in the rules for using both civilian and military contingents of persons testifies to the conformity of its criterion of "production applicability".

 The performance of the proposed device is confirmed by testing a prototype.

 The drawing shows safety shoes.

 The protective sole contains a support platform 1 made of reinforced plastic, to the lower part of which is attached a container in the form of a multi-cell cassette 2 with a fin 10 on the supporting surface. Cassettes 2 are filled with evacuated elements 3, made in the form of thin-walled cups of aluminum alloy, the lower part of which is closed with a glass plug 4, while the volume of evacuated elements 3 is selected taking into account the mass of the explosive in the mine.

 On the upper surface of the platform 1 there is a damping pad 5, for example, in the form of a tape shock absorber, additionally sprung by an elastic insert 6 with the possibility of adjusting it according to the value of the initial compression force and displacement to the maximum compression, for example, by using replaceable inserts 6 made of different thicknesses and elasticity of materials.

Ballistic resistant protective stocking 7, made of multilayer high-modulus fabric, is rigidly fixed around the perimeter to the supporting platform 1 and cassette 2, and to increase the reliability of fixing the stocking 7 on the leg, the latter is equipped with a locking fastener 8. On the outer surface of the protective stocking 7 is fixed at an angle of 45 ^about umbrella-shaped flaps 9 made of ballistic resistant fabric. The lower part of the platform on the chassis is equipped with a fin 10. On the inner surface of the stocking 7 is equipped with an energy-absorbing system in the form of separately located protrusions 11 with a height of 10-20 mm, made, for example, of polyethylene foam.

 Protective sole works as follows.

 If it is necessary to overcome a mined area, the consumer puts on a protective sole over regular shoes. To do this, place the foot in stocking 7 and fasten the clasp 8.

 When stepping on a mine with a foot advanced while walking, a fuse is triggered, which is designed for a certain pressing force, which, thanks to the use of a damping pad 5, made in the form of a tape shock absorber, additionally sprung with a liner 6, the thickness of which is selected taking into account the estimated power of the explosive in the mine, It turns out to be significantly lower (not less than 5-10 times) of the total pressure of the foot on the ground, developed with the complete transfer of body weight to the entire foot, located on the guard tnoj platform 1, which allows full use of the natural capabilities of the musculoskeletal system to compensate for a mine detonation energy by reducing the direct transmission of the explosion energy on the knee and hip joints. In addition, at the initial moment of the explosion, there is also a free displacement of the support platform 1 upwards due to the compression of the shock-absorbing elements 5 and 6, due to which the energy of a mine explosion per foot is further reduced.

 The presence of fins 10 on the lower part of the tank 2 provides an increase in the specific pressure of the protective sole on the ground when walking, which creates the conditions for an earlier actuation of the mine fuse before the full transfer of body weight to the leg occurs. The height of the fins 10 directly affects the magnitude of the energy of the mine explosion transmitted to the foot. A container filled of material that is easily destroyed by explosion, for example polystyrene, kapron and other plastics in the form of a multi-cell cassette 2 with vacuum elements 3 inserted into it, the lower part of which is closed by a glass plug 4, which collapses during a mine explosion, ensures active absorption of gaseous products by elements 3.

 Protection against fragments and secondary wounding shells generated during a mine explosion is provided by a protective stocking 7 and umbrella-shaped flaps 9 made of ballistic-resistant material. Protection against the compression action of the blast wave on the lower part of the leg is provided by the stocking 7 together with the protrusions 11 mounted on its inner surface, made of energy-absorbing material, for example polyethylene foam.

 The effectiveness of the proposed device is illustrated by the data presented in the table.

 The data presented in the table indicate that the proposed design compares favorably with known devices, and the principles laid down in its basis will allow providing effective protection against most types of mines that are currently used to defeat people when walking.

Claims (3)

 1. PROTECTIVE FOOTWEAR, containing a sole in the form of a support platform with a container of readily destructible material rigidly fixed under it with cavities filled with an energy-absorbing agent, and an upper in the form of a stocking made of ballistic-resistant fabric, characterized in that the container is made in the form of a multi-cell cartridge with ribbing on its running surface, and the energy-absorbing agent is in the form of evacuated elements.  2. Shoes according to claim 1, characterized in that a damping pad is arranged on the surface of the support platform facing the leg, configured to adjust the initial compression and displacement forces to the maximum compression, mainly in the form of tape shock absorbers with interchangeable damping inserts.  3. Shoes according to claim 1, characterized in that the stocking is rigidly connected to the supporting platform and is equipped with umbrella-shaped flaps made of ballistic-resistant fabric, located on the outside at an angle to the plane of the stocking, while separately separated from each other damping are formed on the inside of the stocking protrusions.

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