RU2090123C1 - Protective boots - Google Patents

Abstract

FIELD: boots for protecting user's legs from injury during mine explosion. SUBSTANCE: protective boot has energy-absorbing module enclosed in single plastic casing open at sides and having vacuum containers and containers filled with powder substances, and spring-and-wedge type shock-absorbing module with supporting plastic platform and deflector positioned below platform. Deflector has plastic pipe halves positioned one below another, with central space between halves being at least 5 mm. All members of energy-absorbing and shock-absorbing modules are connected with enclosure, one with another and with stocking positioned on supporting platform to define single construction by means of plastic rivets having restricted resistance of 60-80 kg to pulsed longitudinal and transverse explosive loads. EFFECT: increased efficiency in leg protection and enhanced reliability in usage. 2 cl, 2 dwg

Description

 The invention relates to personal protective equipment, in particular to means for protecting the feet from damage by explosion of mines

 Known safety shoes with a deflector edged with a metal strip located in a container filled with energy-absorbing material (UK patent N 2191384, CL A 43 B 3/00, 1987).

 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.

 The objective of the invention is to increase the level of protection of the legs from damaging factors in mine explosions.

-образного сечения, внутри которого на основании расположен равный по высоте не менее 3 радиусам массы заряда взрывчатого вещества энергопоглощающий модуль, содержащий продольно расположенные вакуумные емкости и емкости, заполненные энергопоглощающими материалами, не образующими при взрыве вторичных ранящих снарядов, например парафином в порошкообразном виде, которые заключены в общую защитную оболочку, а также амортизирующий модуль рессорно-клинового типа, содержащий опорную пластиковую платформу, прикрепленную к нижней поверхности верхних выступов корпуса, и расположенный между ней и защитной оболочкой энергопоглощающего модуля дефлектор, выполненный в виде пластиковых полутруб разного диаметра, из которых полутруба меньшего диаметра размещена под полутрубой большего диаметра с зазором по их центру не менее 5 мм, а концы полутрубы большого диаметра расположены снаружи опорной платформы. Все элементы энергопоглощающего и амортизирующего модулей соединены с корпусом, между собой и с чулком, расположенным на опорной платформе, в единую конструкцию заклепками с ограниченной устойчивостью к импульсным продольно и поперечно проходящим разрывным нагрузкам, составляющим 60-80 кг. Причем заклепки выполнены из гибких пластмассовых элементов, например полиэтиленового шнура, на концах которых термообработкой сформированы головки.The task is achieved by the sole in the form of a plastic case open on the sides

-shaped section, inside of which on the base there is an energy-absorbing module, equal in height to at least 3 radii of the mass of the explosive charge, containing longitudinally arranged vacuum containers and containers filled with energy-absorbing materials that do not form secondary injuring shells, for example, in powder form, which enclosed in a common protective shell, as well as a shock absorber module of spring-wedge type, containing a supporting plastic platform attached to the bottom surface and the upper protrusions of the body, and a deflector located between it and the protective shell of the energy-absorbing module, made in the form of plastic half-pipes of different diameters, of which a half-pipe of a smaller diameter is placed under a half-pipe of a larger diameter with a gap at their center of at least 5 mm, and the ends of the half-pipe of a large diameter are located outside the support platform. All elements of the energy-absorbing and shock-absorbing modules are connected with the housing, with each other and with the stocking located on the supporting platform, in a single design with rivets with limited resistance to impulse longitudinal and transversely passing tensile loads of 60-80 kg. Moreover, the rivets are made of flexible plastic elements, for example, a polyethylene cord, at the ends of which heads are formed by heat treatment.

In FIG. 1 shows the proposed safety shoes (side view); in FIG. 2
cross section AA in FIG. one.

 Safety shoes contain a sole 1 and a stocking 2 made of ballistic resistant fabric with fasteners 3.

-образного сечения, внутри которого на основании 5 расположен равный по высоте не менее 3 радиусам массы заряда взрывчатого вещества энергопоглощающий 6 и амортизирующий 7 модули.The sole 1 is made in the form of a plastic case 4 open on the sides

-shaped section, inside of which on the base 5 there is an energy-absorbing 6 and shock-absorbing 7 modules equal in height to at least 3 radii of the mass of explosive charge.

 The energy-absorbing module 6 contains a common protective shell 8, inside which longitudinally arranged vacuum containers 9 and containers 10 are installed, filled with energy-absorbing materials that do not form secondary injuring shells during the explosion, for example, paraffin in powder form.

 The shock-absorbing module 7 spring-wedge type contains a supporting plastic platform 11, rigidly attached to the lower surface of the upper protrusions 12 of the housing 4 and the deflector 13, made in the form of plastic half-tubes located one below the other with a center clearance of at least 5 mm, the lower the smaller half-pipe 14 is located under the upper half-pipe 15, inside of which a longitudinal platform 11 is placed along the longitudinal section 16. All elements of the energy-absorbing 6 and shock-absorbing 7 modules are connected to the housing 4, to each other, and to lk 2, located on the supporting platform 11, in a single design with plastic rivets 17.

 Safety shoes are used as follows. Protective shoes are removed from the stocking and set sole 1 on a flat platform. Insert the foot 2 into the stocking and fix it on the support platform 11 of the sole 1 with the help of fasteners 2. The same is done when putting shoes on the second leg.

-образного сечения, внутри которого на основании 5 расположен энергопоглощающий 6 и амортизирующий 7 модули.Mine protection properties provide the manufacture of the sole 1 of the protective shoe in the form of a plastic case 4 open on the sides

-shaped section, inside of which on the base 5 there is an energy-absorbing 6 and shock-absorbing 7 modules.

 The energy-absorbing module 6, equal in height to at least 3 radii of the mass of the explosive charge, contains a common protective shell 8, inside of which there are longitudinally located vacuum containers 9 and containers 10 filled with energy-absorbing materials that do not form secondary wounds during the explosion, for example, paraffin in powder form . The energy-absorbing module 6, which collapses during a mine explosion, provides active absorption of gaseous products by elements 9 and 10.

 The shock-absorbing module 7 spring-wedge type contains a supporting plastic platform 11, rigidly attached to the lower surface of the upper protrusions 12 of the housing 4, and the deflector 13, made in the form of plastic half-tubes located one below the other with a center clearance of at least 5 mm, moreover the lower smaller half-pipe 14 is located under the upper half-pipe 15, inside of which a longitudinal platform 11 is placed along the longitudinal section 16. All elements of the energy-absorbing 6 and shock-absorbing 7 modules are connected to the housing 4, to each other, and to lok 2, located on the supporting platform 11 in a single design, rivets 1 with limited, for example 60-80 kg, resistance to impulse longitudinally and transversely passing breaking loads, and the rivets are made of flexible plastic elements, for example a polyethylene cord, at the ends of which the heads are formed by heat treatment .

 Protection against fragments and secondary wounding shells resulting from a mine explosion is provided by a protective stocking 2 made of ballistic resistant material and a shock-absorbing module 7. Protection from impulse loads is ensured by the damping properties of the housing 4 and deflector 13, as well as by the exclusion of direct transfer of explosion energy on the supporting platform 11 due to the destruction of the connecting rivets 17.

 When performing all of the above operations and conditions, safety shoes are put into working position.

 Shoes are removed in the reverse order.

 Experimental studies of safety shoes have confirmed the attainability of positive effects, in particular, the possibility of using it as a personal protective equipment for sappers and other specialists has been shown.

Claims (2)

1. Safety shoes, containing the upper in the form of a stocking made of ballistic-resistant fabric, and the sole having a deflector and containers filled with energy-absorbing material, characterized in that the sole contains a plastic case open on the sides

a cross-section with energy-absorbing and shock-absorbing modules placed inside it, while the energy-absorbing module is formed by a common protective shell with vacuum containers and containers longitudinally placed in it, filled with energy-absorbing material that does not form secondary injuring shells, for example, in powder form, in the explosion, equal to at least three radii of the mass of explosive charge, and is installed on the base of the body, and the shock-absorbing module is made of spring-wedge and form a supporting plastic platform, rigidly attached to the lower surfaces of the upper protrusions of the sole body, and a deflector made in the form of two plastic half-pipes of different diameters, of which a half-pipe of a smaller diameter is placed under a half-pipe of a larger diameter with a center gap of at least 5 mm, and the ends of the half-pipe are larger diameters are located outside the support platform, with the deflector placed between the support platform and the protective shell of the energy-absorbing module, the stocking is located on the support platform, and all elements ergopogloschayuschego and cushioning modules connected to one another, with a housing and with a stocking in a single structure by means of rivets with limited resistance to impulse longitudinally and transversely extending tensile stress of 60 80 kg.  2. Shoes according to claim 1, characterized in that the rivets are made of flexible plastic elements, for example a polyethylene cord, at the ends of which heads are formed by heat treatment.

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