RU2212870C2 - Goggles of closed type - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: device has casing having ventilation openings, goggles holder, armored safety glasses, thermophotochrome light filters and flexible head ribbon. Additional removable insert manufactured from light- absorbing filtering material corresponding in shape to internal casing configuration is available as well as obturation strips and ventilation holes. Goggles holder has slot outside of the casing for setting the thermophotochrome light filters. EFFECT: reduced harmful aerosol, vapor or gas concentration in the space under the goggles before putting on respirator. 1 dwg

Description

 The invention relates to the field of personal protective equipment against WMD and other damaging factors, in particular to devices for protecting the eyes from toxic chemicals (TX), potent toxic substances (SDYaV), biological agents (BA), high-intensity thermal and optical radiation (VOI) .

 Sealed goggles are known for protecting the eyes from the harmful effects of various gases, vapors, dust, smoke, spray of corrosive liquids (Gaevaya L.A., PPE for eyes and face, VTsPS, 1983, Handbook of PPE, Leningrad: Chemistry, 1989 )

 Sealed goggles have a rubber case consisting of two rings, a foam rubber shutter and a headband. In the housing there are rims for glasses cast in the form of cylinders and constituting a single unit with the housing. The tightness of the glasses is conditional, since its level is sufficient to protect the eyes from gases, vapors and aerosols of low toxic substances. A foam shutter does not have filtering properties from highly dispersed aerosols and sorbing properties from vapors of highly toxic substances (lethal and non-lethal action). The main disadvantages of sealed goggles (analogs) are the complete lack of ventilation in the subpharyngeal space and, as a result, the fast fogging of the glasses, the insufficient level of protective properties from SDYAV, TX and BA, the lack of protection against VOI and fragments.

 It should be noted that the level of toxicity of TX and SDYA vapors upon exposure to the eyes is slightly inferior to their toxicity through the respiratory system. Therefore, the use of well-known safety glasses together with a respirator or self-rescuer for preventive protection of toxic substances from vapors and aerosols during their sudden exposure does not give a significant gain in increasing the user's protection from the beginning of exposure to the moment of putting on a gas mask.

 To protect the eyes from the dazzling brightness of visible radiation, infrared radiation, ultraviolet radiation and their combinations, as well as from laser radiation, closed glasses with indirect ventilation of the renal space are known (the same source of information).

Safety glasses for protection against thermal and optical radiation consist of a main or one-piece case (plastic or rubber) with ventilation devices for indirect ventilation of the renal space, two light filters, including photochromic (or reflective action) mounted in frames, in holders, rims or directly into the body. These industrial safety goggles (analogues) do not protect against chemical effects of fumes, dust, splinters and light radiation with an intensity of more than 2.0 cal • cm ^-2 • s ^-1 .

 Domestic lightweight goggles of the closed type were selected as the closest analogue (L. Gaeva, PPE for eyes and face in production. - M.: Mashinostroenie, 1980, p. 135 ... 136), the main disadvantage of which is the lack of protective properties from vapors and highly dispersed aerosols TX, BA, SDYAV, VOI and dust, which is due to the relatively loose fit of the body shutter to the face and the absence of thermophotochromic filters.

 The objective of the invention is to reduce the concentration of aerosols, vapors and gases TX and SDYaV in the subrenal space when they are suddenly exposed to provide preventive protection of the eyes until putting on a gas mask and providing protection against VOI.

 The task is achieved due to the fact that the case of goggles has an additional interchangeable insert-shutter formed of filtering and absorbing material, the shape corresponding to the configuration of the inner surface of the case, strip obturation. ventilation holes, as well as the inner perimeter of the frame.

 The spectacle holder has a groove on the outside to accommodate a thermophotochromic filter in it for protection against VoI.

 As a filter-absorbing material, active carbon fabric or a non-woven material from active carbon fibers or a non-woven material from polyacrylonitrile fibers impregnated with activated carbon SKT-6A can be used together with a filter material (such as a Petryanov filter, or a universal filter-absorbing material from ultrathin active carbon fibers).

An example of the manufacture of the liner. Pattern from a package of active carbon fabric K-AUT (with a static benzene activity of at least 0.4 g • m- ³ ) and a non-woven filter-absorbing material FPKS-1B-20 with an obturation strip in the form of folded edges of the pattern, between which a gasket is placed from a plastic film to prevent their bonding, saturated with water, impregnated with a dispersion of latex, for example 1,4-cispolisoprene with a dry weight gain of 1.0% or 5.. .10% solution of acrylic binder in dimethylformamide, form a liner on a matrix corresponding to the surface and volumetric internal shape of the case of glasses, followed by intensive drying at a temperature of 105 ... 110 ^° C to restore static activity encapsulated in latex or active carbon polymer tissue due to the opening of the pores of the fibers (or activated carbon) during the explosive exit of water vapor from them through a film of latex or polymer. A plastic film is removed from the molded liner and the liner is placed inside the housing, the edges are tucked under the leather cover of the housing.

 The technical solution diagram is shown in the figure, where 1 is the case of a spectacle frame, 2 is an insert, 3 is an armored glass with a thermophotochromic filter on the outer surface, 4 is a headband with an adjustable buckle, 5 is a storage case.

 The test results of the protective properties of glasses from an aerosol cloud of toxic substances are given in the table.

 The table shows that the greatest decrease in concentration is observed with a relatively low weight gain of latex on active carbon fabric, however, in this case, the liner stability is insufficient - it is shifted along the surface of the glasses obturation strip, and the liner edges fall out from under the leather obturator. The optimal weight gain of the latex used is 1.0 ... 1.5%.

 Thus, the proposed technical solution allows more than two orders of magnitude (see table) to reduce the concentration of toxic substances that have penetrated into the gallstone space of goggles, and to solve the problem of eye protection during sudden exposure to TX and SDYA before putting on a gas mask.

Thermophotochromic filters provide, in combination with polycarbonate glass, eye protection from VOI at a level of at least 10 cal • cm ^-2 .

 The preventive use of these goggles together with respirators in the form of a face mask type allows you to refuse to constantly wear a gas mask for protection in the face of the threat of sudden exposure to TX, SDYAV, BA, which significantly reduces the physiological load exerted by PPE on a person with constant wearing, and provide comprehensive eye protection from ballistic, thermal, chemical damaging factors. If there is no threat of sudden exposure to TX and AD, the insert can be removed and glasses used to protect against other damaging and harmful factors.

Sources of information
1. Gaevaya L.A. PPE of the eyes and face. - VTsPS, 1983

 2. Handbook of PPE. - Leningrad .: Chemistry, 1983.

 3. Gaevaya L. A. PPE of the eyes and face in production. - M.: Mechanical Engineering, 1980, p. 135 ... 136.

Claims (1)

 Protective goggles of the closed type, consisting of a case with ventilation holes, a spectacle holder, armored glasses, thermophotochromic light filters, an elastic headband, characterized in that they additionally have a removable insert formed of filter-absorbing material in a shape corresponding to the configuration of the inner surface of the case, obturation bands and ventilation holes, and the eyeglass clip on the outside of the case has a groove for accommodating thermophotochromic filters.

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