RU66966U1 - SELF-RESCUE-GAS WATERPROOF KIT - Google Patents

Abstract

The invention relates to the production of personalized air purifiers, in particular to gas masks, and can be used to protect the respiratory organs, eyes and head of a person in case of emergency evacuation from the zone of chemical infection, radiation pollution, as well as fire from chemically hazardous substances, carbon monoxide and radioactive substances. The self-rescuer includes a hood made of elastic material with a viewing window of colorless or colored materials, a half mask with an element for attaching a filter-absorbing cartridge, hermetically connected to the hood so that the half mask is inside the hood; adjustable headband. The filtering and absorbing cartridge consists of an anti-aerosol filter and an absorber charge sequentially located along the air. The main differences of the known self-rescuers are that the charge of the filtering and absorbing cartridge is made in the form of layers of a chemical absorber based on activated carbon with additions of chromium, copper and silver ions, a desiccant based on activated carbon with lithium and calcium and hopcalite additives moreover, the sum of the lengths of the layers of the chemical absorbent, desiccant and hopcalite is a constant value; wherein the length of the chemical absorber layer refers to the inner diameter of the filter-absorbing cartridge as 1: 12 ÷ 16.2 the length of the desiccant layer refers to the internal diameter of the filter-absorbing cartridge case as 1: 10.7 ÷ 13.7, the hopcalite layer length refers to the internal case diameter

filtering and absorbing cartridge as 1: 4.8 ÷ 5.6. The hood is made of heat-resistant reflective or colored elastic materials. This implementation of the device allows to achieve high quality air purification, provides the necessary operational and ergonomic characteristics with the versatility of respiratory protection in extreme situations.

Description

The invention relates to the production of personalized air purifiers, in particular to gas masks, and can be used to protect the respiratory organs, eyes and head of a person in case of emergency evacuation from the zone of chemical infection, radiation pollution, as well as fire from chemically hazardous substances, carbon monoxide and radioactive substances.

A personal protective equipment is known, including a hood made of an elastic heat-resistant material with a viewing window made of transparent material (film), a half mask with a cuff for attaching a filter-absorbing cartridge, tightly connected to the hood so that the half mask is inside the hood, and the cuff outside is filter-absorbing a cartridge consisting of an anti-aerosol filter and an absorber charge sequentially arranged along the air (DE 3921603 A1, 01/10/1991).

The disadvantage of this device is that the mixture of the absorber contains only hopcalite, which does not allow to fully ensure air purification from a wide range of harmful impurities generated during fires such as CO, NH ₃ , HCl, HCN, acrolein, SO ₂ . In addition, as follows from the description, the material of the hood, being heat-resistant, does not have reflective properties, which complicates the visual connection between people who use gas and smoke protection systems in smoke conditions during fires.

Also known is a filtering-absorbing box of a gas smoke protection kit, consisting of an anti-aerosol filter and an absorber charge sequentially arranged along the air, consisting of a desiccant-absorber and hopcalite (RU 2206351 C1, 06/20/2003).

The disadvantages of this device is that in connection with the adoption of the new standard "Personal protective equipment in emergency situations. Filtering self-rescuers ”, GOST R 22.9.09 - 2005, the charge of the absorber will not be able to provide comprehensive protection from the harmful substances listed in the standard, which will significantly limit the use of the device in emergency situations.

Closest to the claimed device is an individual means of protection, including a hood made of an elastic material with a viewing window made of transparent colored material, a half mask with an element for attaching a filter-absorbing cartridge, tightly connected to the hood so that the half mask is inside the hood, filter-absorbing cartridge, consisting of an anti-aerosol filter and an absorber charge sequentially arranged along the air; adjustable headband (RU 2159646 C1, 11.27.2000).

The disadvantage of this device is that the charge of the absorber does not fully protect the respiratory system from the substances listed in the standard GOST R 22.9.09 - 2005, which limits the use of the device in emergency situations.

The technical result consists in improving the quality and reliability of the individual protective equipment, as well as

an increase in the working life while fully protecting the respiratory system from a wide range of harmful impurities generated during fires and in other emergency situations, including from carbon monoxide, chemically hazardous and radioactive substances.

The specified technical result is achieved in that in the self-rescuer - gas and smoke protection kit, including a hood made of elastic material with a viewing window of transparent colorless or colored material, a half mask for attaching a filter-absorbing cartridge, tightly connected to the hood so that the half mask is inside the hood, filtering absorbing cartridge, consisting of an anti-aerosol filter and an absorber charge sequentially arranged along the air, adjustable headband, according to the invention the filter-absorbing cartridge ichta is made in the form of layers of a chemical absorber based on activated carbon with catalytic additives of chromium, copper, silver ions, a desiccant based on activated carbon with lithium and calcium ions, and hopcalite to protect the respiratory system chemically hazardous substances, carbon monoxide and radioactive substances, the sum of the lengths of the layers of the chemical absorber, desiccant and hopcalite is constant, and the length of the layer of chemical absorber refers to the internal the lower diameter of the filter-absorbing cartridge as 1: 12 ÷ 16.2;

the length of the desiccant layer refers to the inner diameter of the filter-absorbing cartridge housing, as 1: 10.7 ÷ 13.7; the length of the hopcalite layer refers to the inner diameter of the filter-absorbing cartridge case, as 1: 4.8 ÷ 5.6, and the hood

made of heat-resistant reflective or colored elastic materials.

This embodiment of the device provides high operational and ergonomic qualities with universality of respiratory protection in extreme situations, provides reliable thermal protection and comfortable conditions when using personal protective equipment in fire conditions, as well as reliable preservation of visibility in smoke conditions.

The essence of the device is illustrated by drawings, where in Fig.1 and Fig.2 shows a General view of a self-spasgel - gas smoke protection kit with various options for attaching a filter-absorbing cartridge to the half mask; figure 3 is a view of figure 1; 2 in FIG. 4 is a view B of FIG. 1; figure 5 is a view In figure 2; Fig.6 - dependence of the time of the protective action of the filter-absorbing cartridge for carbon monoxide and hydrogen cyanide on the ratio between the layer of the chemical absorber and the inner diameter of the filter-absorbing cartridge d _k / I _xn , Fig.7 - dependence of the time of the protective effect of the filter-absorbing cartridge for carbon monoxide, ammonia vapor and sulfur dioxide from the ratio between the desiccant layer and the inner diameter of the filter-absorbing cartridge d _k / I _OS ;

on Fig - dependence of the time of the protective action of the filter-absorbing cartridge for carbon monoxide and acrolein vapor on the ratio between the hopcalite layer and the inner diameter of the filter-absorbing cartridge d _k / I _g .

Self-rescuer - gas and smoke protection kit includes a hood 1 made of elastic material with a viewing window 2 of transparent colorless or colored material, half mask 3 s

an element 4 for attaching a filtering and absorbing cartridge 5, hermetically connected to the hood 1 so that the half mask 3 is inside the hood 1, filtering and absorbing cartridge 5, consisting of an anti-aerosol filter 6, layers of a chemical absorbent 7, a desiccant 8 and hopcalite 9, as well as an adjustable headband 10.

Self-rescuer - gas and smoke protection kit can be performed in two versions of attaching the filter-absorbing cartridge 5 to the half mask 3:

a) using a cuff cast at the same time with a half mask, figure 1, position 4;

b) using a connecting element with a thread for mounting a removable version of the cartridge, figure 2, pos.4.

The device operates as follows. In emergency situations, for example, in case of accidents, industrial disasters, fires, a self-rescuer - a gas and smoke protection kit is put on the head, while the hood 1 is mounted on the head using an adjustable headband 10 so that the half mask 3 covers the nose and mouth and passes along the chin of the face, and viewing window 2 was at eye level. Polluted air through a hole in the bottom enters the filter-absorbing cartridge 5. After passing sequentially through the anti-aerosol filter 6, a layer of chemical absorbent 7, desiccant 8 and hopcalite 9, the air is cleaned and enters the mask space in the half mask and is used for breathing.

To improve the quality of air purification and ensure the universality of respiratory protection in extreme situations, layers of a chemical absorber based on activated carbon sequentially located along the air flow

catalytic additives of chromium, copper, silver ions, a desiccant based on activated carbon with additions of lithium and calcium ions, as well as hopcalite are made so that the sum of the lengths of the layers of the chemical absorber, desiccant and hopcalite is constant, and the length of the layer of the chemical absorber refers to the inner diameter of the filter absorbing cartridge as 1: 12 ÷ 16.2; the length of the desiccant layer refers to the inner diameter of the filter-absorbing cartridge housing, as 1: 10.7 ÷ 13.7; the length of the hopcalite layer refers to the inner diameter of the filter-absorbing cartridge housing, as 1: 4.8 ÷ 5.6.

Figure 6-8 shows the results of experiments justifying the feasibility of choosing the relationship between the lengths of the layers of absorbers and the diameter of the filter-absorbing cartridge.

Figure 6 shows the dependence of the time of the protective action of the filter-absorbing cartridge for carbon monoxide (CO) and hydrogen cyanide (HCN) on the ratio between the length of the chemical absorber layer (1 _xp ) and the inner diameter of the casing (d _k ). The dashed line indicates the requirements of GOST R 22.9. 09-2005 to this type of protective equipment for carbon monoxide and hydrogen cyanide.

Test conditions for filter-absorbing cartridge for carbon monoxide:

With _{0 (co)} = 3000 mg / m ³ - the initial concentration of harmful impurities;

V = (30 ± 0.5) dm ³ / min - volumetric flow rate of the gas-air mixture;

t = (20 ± 1) ° C - temperature;

φ = (70 ± 2)% - relative humidity.

Test conditions filtering-absorbing cartridge for hydrogen cyanide:

With _{0 (co)} = 10 mg / m ³ - the initial concentration of harmful impurities;

V = (30 ± 0.5) dm ^s / min - volumetric flow rate of the gas-air mixture;

t = (20 ± 1) ° С - temperature;

φ = (70 ± 2)% - relative humidity.

From the experimental results it follows that in the range 12≤d _k / l _xп ≤16.2 the protective action time for hydrogen cyanide decreases and when d _k / l _xп ≤16.2 it falls below the maximum permissible value according to GOST due to the reduction of the length of the chemical absorber layer , at the same time, at 12≤d _k / l _xn ≤16.2, the time of the protective action on carbon monoxide increases since at l _xn + l _oc + l _g = const. with a decrease in the length of the chemical absorber layer, correspondingly, the lengths of the drier of desiccant and hopcalite increase, and, conversely, when the ratio dk / l _xn ≤12, the time of the protective action of carbon monoxide decreases below the maximum permissible value.

Figure 7 shows the dependence of the time of the protective action of the filter-absorbing cartridge for carbon monoxide (CO), sulfur dioxide (SO ₂ ) and ammonia vapor (NH ₃ ) on the ratio between the length of the desiccant layer (l _os ) and the inner diameter of the casing (d _to )

Test conditions filtering-absorbing cartridge for sulfur dioxide:

With _{0 (so2)} = 700 mg / m ³ - the initial concentration of harmful impurities;

V = (30 ± 0.5) dm ³ / min - volumetric flow rate of the gas-air mixture;

t = (20 ± 1) ° С - temperature;

φ = (70 ± 2)% - relative humidity.

Test conditions filtering-absorbing cartridge for ammonia:

With _{0 (NH3)} = 1320 mg / m ³ - the initial concentration of harmful impurities;

V = (30 ± 0.5) dm ³ / min - volumetric flow rate of the gas-air mixture;

t = (20 ±) ° С - temperature;

φ = (70 ± 2)% - relative air humidity.

The test conditions of the filter-absorbing cartridge for carbon monoxide are given above. The dashed line indicates the requirements of GOST R 22.9. 09-2005 by CO, SO ₂ , NH ₃ .

From the results of the experiments it follows that when the length of the desiccant layer and the diameter of the filter-absorbing cartridge are 10.7≤d _k / l _oc ≤13.7, the protective time for sulfur dioxide increases due to the fact that with a decrease in the length of the desiccant layer at a constant amount the lengths of other layers increase the lengths of the layers of the chemical absorber and hopcalite, which apparently leads to an increase in the time of the protective effect on sulfur dioxide, while at d _k / l _oc <13.7 the short length of the desiccant layer leads to hopcalite on which oxidation-reduction occurs The final processes, under the action of moisture, breaks down, and the time of the protective action of the filter-absorbing cartridge for carbon monoxide and ammonia vapor decreases below the maximum permissible values and, conversely, when d _k / l _oc <13.7, an increase in the time of the protective action of the monoxide is observed carbon and ammonia vapors, and when d _k / l _oc = 10.7, the time of the protective effect on sulfur dioxide decreases to below acceptable values.

On Fig shows the dependence of the time of the protective action of the filter-absorbing cartridge for carbon monoxide (CO) and acrolein on the ratio between the length of the desiccant layer (1 g) and the inner diameter of the housing (d _k ).

Test conditions filtering-absorbing cartridge for acrolein:

With _{0 (acre)} = 10 mg / m ³ - the initial concentration of harmful impurities;

V = (30 ± 0.5) dm ³ / min - volumetric flow rate of the gas-air mixture;

t = (20 ± 1) ° C - temperature;

φ = (70 ± 2)% - relative humidity.

The test conditions of the filter-absorbing cartridge for carbon monoxide are given above. The dashed line indicates the requirements of GOST R 22.9. 09-2005 on carbon monoxide and acrolein.

As follows from the experimental results for d _k / l _g ≤4.8, the time of the protective action for acrolein becomes lower than the requirements of GOST, which is associated with an increase in the length of the hopcalite layer and a decrease in the length of the layers containing absorbers based on activated carbons, at the same time the protective action on carbon monoxide has maximum values. At d _k / l _g ≥5.6, the time of the protective action for carbon monoxide becomes lower than the requirements of GOST, while the time of the protective effect for acrolein reaches maximum values, which is associated with a decrease in the length of the hopcalite layer and an increase in the lengths of the layers containing absorbers by based on activated carbon.

The implementation of the hood of reflective or colored materials can significantly improve the safety of people using a self-rescuer - gas and smoke protection kit in smoke and in poor visibility conditions

emergency situations due to the fact that the indicated self-rescuer increases the possibility of orientation when leaving the affected area, improves visual communication between people and increases the likelihood of finding victims during rescue operations. Thus, this embodiment of the device allows to achieve high quality air purification, provides the necessary operational and ergonomic characteristics with the versatility of respiratory protection in extreme situations, reliable body protection and comfortable conditions when using personal protective equipment in fire and other emergency situations, as well as reliable maintaining visibility in smoke conditions, due to the fact that the charge of the filtering-absorbing cartridge is made in the form of a follower layers of a chemical absorber based on activated carbon with catalytic additives of chromium, copper, silver ions, a desiccant based on activated carbon with lithium and calcium ions, as well as hopcalite, the sum of the lengths of the layers of a chemical absorbent, desiccant, and hopcalite is constant ., while the length of the chemical absorber layer refers to the inner diameter of the filter-absorbing cartridge as 1: 12 ÷ 16, the length of the desiccant layer refers to the internal diameter of the filter-absorbing cartridge case as 1: 10.7 13.7, hopcalite bed length refers to the internal diameter of the casing filtering-absorbing cartridge as 1: 4.8 ÷ 5.6, and the hood is made of a heat-resistant elastic svetootrazhagottsego or colored materials.

Claims (5)

1. Self-rescue gas and smoke protection kit, including a hood made of an elastic material with a viewing window made of transparent colorless or colored material, a half mask for attaching a filter-absorbing cartridge, hermetically connected to the hood so that the half mask is inside the hood, a filter-absorbing cartridge, consisting of sequentially located along the air of the aerosol filter and the charge of the absorber, an adjustable headband, characterized in that the charge of a filtering and absorbing cartridge is made in the form of layers of a chemical absorbent based on activated carbon with catalytic additives of chromium, copper, silver, desiccant based on activated carbon with additives of lithium and calcium ions, as well as hopcalite, the sum of the lengths of layers of a chemical absorbent, desiccant, and hopcalite is constant . 2. Self-rescue gas and smoke protection kit according to claim 1, characterized in that the length of the chemical absorber layer refers to the inner diameter of the filtering and absorbing cartridge as 1: 12 ÷ 16.2. 3. Self-rescue gas and smoke protection kit according to claim 1, characterized in that the desiccant layer length refers to the inner diameter of the filter-absorbing cartridge housing as 1: 10.7 ÷ 13.7. 4. Self-rescue gas and smoke protection kit according to claim 1, characterized in that the length of the hopcalite layer refers to the inner diameter of the filter-absorbing cartridge housing as 1: 4.8 ÷ 5.6. 5. Self-rescue gas and smoke protection kit according to claim 1, characterized in that the hood is made of heat-resistant reflective or colored elastic materials.