RU126604U1 - UNIVERSAL ABSORBING BOX FOR INDIVIDUAL PROTECTION OF RESPIRATORY BODIES - Google Patents

Abstract

The utility model relates to integrated devices for protecting respiratory organs in emergency situations from aerosols of radioactive, harmful substances and vapors, toxic substances contained in air and can be used in gas masks, self-rescuers.

A universal absorbing box for personal respiratory protective equipment contains a cylindrical body with an outlet neck and a bottom with an air intake, while functional layers of a mixture based on activated carbon with functional additives are sequentially placed inside the body, separated by nets and dust tampons.

What is new is that the casing is made stepwise, on the lower ledge of which there is a congruent bottom with an air intake in the form of a gas distribution grill, carrying an aerosol filter communicating through the receiver with a layer of an integrated absorber installed on the casing step made on the basis of activated carbon from an impregnated coconut shell oxides and molybdates of zinc and copper, sulfonates of zinc and / or copper and molybdenum oxide, while in the structure of the complex absorber functional additives are contained in the trace the ratio (wt.%): 5-8 in terms of zinc oxide and zinc molybdate, 6-10 in terms of copper oxide and molybdate of copper, 2-4 in terms of zinc and / or copper, zinc and / or copper sulfates and 1-4 molybdenum oxide, and on the upper ledge under the cover grid, layers of the absorber-dryer and hopcalite are sequentially located in the mass ratio of the layers of the charge complex absorber: absorber-dryer: hopcalite as (2.5-3) :( 1.5-2) : 1, and the absorber-dryer is made on the basis of activated carbon from a coconut shell impregnated with a solution of halides Christmas tree and alkaline earth metals, preferably calcium chloride in an amount of 18-20 wt.%), lithium chloride in an amount of 10-12 wt.%, or mixtures thereof.

Alternatively, to increase the efficiency of functioning on benzene, hydrogen sulfide and sulfur dioxide (when protection against carbon monoxide is not relevant for open spaces), in the box on the upper ledge under the cover grid, instead of layers of absorbent-desiccant and hopcalite, a filler layer based on active coal from a coconut shell impregnated with carbonates of Cu (NH ₃ ) ₂ CO ₃ and potassium, the mass of which is adequate to the mass of the layer of a complex absorber.

The proposed technical solution ensured an increase in the efficiency of complex air purification for breathing and improved performance characteristics of the box: versatility of protection against organic gases and vapors with a boiling point above 65 ° C (group A), inorganic gases and vapors (group B), acid gases and vapors (group E), ammonia and its organic derivatives (group K), hydrogen sulfide and its mixture (group KD), carbon monoxide and separate the solid phase of aerosols (smoke, dust, fog).

Description

The proposed utility model relates to complex devices for protecting respiratory organs in emergency situations from aerosols of radioactive, harmful substances and vapors, toxic substances contained in air and can be used in gas masks, self-rescuers.

The level of this technical field is characterized by a filter-absorbing box of Russian manufacture of brand M according to GOST 12.4.122-83, the multilayer charge of which contains an absorber-cupramite (activated carbon impregnated with a solution of copper sulfate), a desiccant-carbogel and a catalyst-hopcalite (a mixture of copper oxides and Manganese), separated by metal grids.

This box provides protection against carbon monoxide, organic vapors, ammonia, acid gases, arsine, phosphine, and mercury vapor.

The disadvantage of the described box, which has large dimensions: a height of 200 mm and a diameter of 100 mm, is a high breathing resistance, which limits practical use.

The noted drawback is eliminated in a small-sized filtering and absorbing box of a gas and smoke protection kit described in patent RU 2206351 C1, A62B 23/02, 2003, which contains a cylindrical body with a neck for connecting to a gas mask and a bottom with a suction port where an aerosol is installed filter, and functional layers of the mixture, which are: a carbon-based absorber-dryer with the addition of calcium chloride and hopcalite, the moisture content of which does not exceed 1%.

The mass ratio of the layers of the mixture is 1: (1.3-1.8), respectively.

Two layers of the mixture are separated by a mesh (metal or silicate canvas).

The placement of a desiccant-absorber on a carbon basis with the addition of calcium chloride before hopcalite is necessary for air drying in order to maintain the functionality of the GFG brand hopcalite.

Air containing harmful substances passing through an aerosol filter is cleaned of the solid phase of aerosols (dust, smoke, moisture).

The advantage of the described box is the provision of a set level of protection for carbon monoxide for a relatively short time (30 minutes in an enclosed space).

The low moisture content of the mixture allows to increase the time of the protective effect on carbon monoxide by 2–3 times, compared with the existing analogues, since hopcalite when absorbing moisture loses its oxidation functional properties to CO ₂ .

The disadvantage of this small-sized box is its narrow focus, mainly for neutralizing carbon monoxide in a fire, and unsuitable for cleaning inhaled air of toxic and toxic chemicals and vapors.

A more perfect is a universal absorbing box for personal protective equipment for respiratory organs, the charge of which is made three-layer, according to patent RU 2111028 C1, A62B 23/02, 1998, which is selected as the closest analogue of the proposed one according to the technical nature and the number of matching features.

The known box includes a cylindrical body with a neck for connecting to a gas mask filled with functional layers of the charge, separated by metal grids or active carbon cloth to even out the front of the gas to be treated, and a bottom equipped with an air inlet.

A disadvantage of the known box is its relatively short action due to the limited amount of catalyst and the absence of special means for separating the solid phase of aerosols, which sharply reduces the polyvalency of the absorbing box, narrowing its technological application possibilities.

In addition, the bulk (not compacted) material of the charge freely adjoins the walls of the housing with gaps, which does not prevent the breakdown of untreated air due to the so-called wall effect, which limits the use of the known box in emergency situations with harmful and toxic substances and vapors.

The technical problem, the solution of which the present utility model is aimed at, is to increase the efficiency of cleaning inhaled air from a wider range of harmful and toxic substances and vapors.

The required technical result is achieved by the fact that in the well-known universal absorbing box for personal respiratory protection, containing a cylindrical body with an outlet neck and a bottom with an air intake, while inside the body are functional layers of a mixture based on activated carbon with functional additives separated by grids and at the suggestion of the authors, the dust-filled swabs are made stepwise, on the lower ledge of which a congruent bottom rests with an air intake in the form f a gas distribution grill carrying an aerosol filter communicating through a receiver with a layer of a complex absorber installed on the casing step made of activated carbon from coconut shell impregnated with zinc and copper oxides and molybdates, zinc and / or copper sulfonates and molybdenum oxide, in the structure of the complex absorber, functional additives are contained in the following ratio (wt.%): 5-8 in terms of zinc oxide and zinc molybdate, 6-10 in terms of copper oxide and molybdate of copper, 2-4 in terms of the zinc and / or copper sulfates of zinc and / or copper and 1-4 molybdenum oxide, and on the upper ledge under the grid of the lid are sequentially arranged layers of the absorber-desiccant and hopcalite in the mass ratio of the layers of the charge complex absorber: absorber-desiccant: hopcalite as ( 2.5-3) :( 1.5-2): 1, and the absorber-dryer is made on the basis of activated carbon from a coconut shell impregnated with a solution of halides of alkali and alkaline earth metals, mainly calcium chloride in an amount of 18-20 wt.% , lithium chloride in an amount of 10-12 ma .%, Or mixtures thereof.

Alternatively, to increase the efficiency of functioning on benzene, hydrogen sulfide and sulfur dioxide (when protection against carbon monoxide is not relevant for open spaces), in the box on the upper ledge under the cover grid, instead of layers of absorbent-desiccant and hopcalite, a filler layer based on active coal from a coconut shell impregnated with a copper compound Cu (NH ₃ ) ₂ CO ₃ and potassium carbonate, the mass of which is adequate to the mass of the layer of a complex absorber.

Distinctive features of the proposed technical solution have provided an increase in the efficiency of complex air purification for breathing and improved performance characteristics of the box: versatility of protection against organic gases and vapors with a boiling point above 65 ° C (group A), inorganic gases and vapors (group B), acid gases and vapors (group E), ammonia and its organic derivatives (group K), hydrogen sulfide and its mixture (group KD), carbon monoxide and separate the solid phase of aerosols (smoke, dust, fog).

The execution of the case from the inside stepwise virtually eliminates near-wall flows, which are braked and stopped during turns on the step ledges, as a result of which the distributed gases penetrate the charge layer, which prevents untreated gases from flowing along the box body.

Equipping the box with a receiver under the charge, in which excess respirable air is accumulated and where shock waves are damped, pressure is mixed and equalized, it allows the use of an additional aerosol filter and a catalyst layer 1.5–2.5 times higher without increasing the breathing load. This increases the contact surface of the gas-permeable catalyst, which improves the quality of processing and increases the service life of the layer and the box as a whole.

The use of the charge filter layer in the form of an ABEK absorber made it possible to make a layer of absorbent desiccant based on activated carbon from chemically treated coconut for targeted absorption of hydrogen sulfide and its mixture, than to expand the technological capabilities of the gas mask box for a more efficient and varied purification of inhaled air.

The implementation of the air intake in the form of a gas distribution grid forms a multi-jet laminar flow over the entire developed surface of the aerosol filter with a reduced dynamic and filtration load, which increases the efficiency of separation of solid inclusions and helps to improve the subsequent processing of air gases.

The optimization of the mass ratio of the functional layers of a mixture of activated carbon with functional additives, namely the height of the layers of the combined absorber, absorber-desiccant and hopcalite, in the range (2.5-3) :( 1.5-2): 1 was carried out according to the mathematical planning model experiment and is confirmed by tests of prototypes, which ensured the maximum degree of air purification in the gas mask box of the proposed design.

Therefore, each essential feature is necessary, and their combination in a stable relationship is sufficient to achieve a novelty of quality that is not inherent in the characteristics of disunity, that is, the technical problem posed in the utility model is not solved by the sum of the effects, but by a new super-effect of the sum of the attributes.

The essence of the utility model is illustrated by the drawing, which has a purely illustrative purpose and does not limit the scope of claims of the totality of the essential features of the formula.

The drawing schematically shows:

figure 1 - the proposed gas-absorbing box;

figure 2 is the same embodiment.

The wall of the cylindrical body 1 has a stepped shape from the inside, formed by two ledges 2 and 3, the lower and upper, respectively.

On the lower ledge 2, where the gas distribution grill 4 is laid, covered with an anti-dust swab 5, the cassette 6 rests, the bottom of which is made in the form of a gas distribution grill 4 (air intake), which carries an anti-aerosol filter 7, which is closed on top with a similar grill 4 so that a free one is formed above it volume - receiver 8.

On the step of building 1, between ledges 2 and 3, a layer 9 is placed 2.3 cm high activated carbon from a coconut shell impregnated with a chemical solution (followed by heat treatment) in the composition, wt.%: 5-8 in terms of zinc oxide and zinc molybdate, 6-10 in terms of copper oxide and copper molybdate, 2-4 in terms of zinc and / or copper sulfates of zinc and / or copper, 1-4 molybdenum oxide.

Layer 9 is covered on top of a grid 10 located on the upper ledge 3 of the housing 1.

Above the grid 10, a layer 11 with a height of 1.5 cm of an absorber-desiccant and a layer 12 with a height of 0.8 cm of hopcalite (activated carbon with the addition of a mixture of copper and manganese oxides) sequentially coated with a grid of 10 with a dust swab 5, pressed against the cover 13 with a threaded neck are successively formed 14 for connection with a gas mask.

Layer 11 is made on the basis of activated carbon from a coconut shell impregnated with a solution of halides of alkali and alkaline earth metals, mainly calcium chloride in an amount of 18-20 wt.%, Lithium chloride in an amount of 10-12 wt.% Or mixtures thereof.

Thus, the height of the three functional layers 9, 11 and 12 of a mixture based on activated carbon has a ratio of 2.9: 1.9: 1, which corresponds to an optimized ratio according to the formula (2.5-3) :( 1.5-2) :one.

According to the embodiment (Fig. 2), the charge contains two adequate masses of layer 9 and 15: a combined ABEK absorber and a filler made on the basis of activated carbon from a coconut shell impregnated with copper compound Cu (NH ₃ ) ₂ CO ₃ and potassium carbonate, in As a result, an efficiency parameter is provided (probability of protection) for benzene, hydrogen sulfide and sulfur dioxide comparable with its values for ABEK test substances.

The absorbing gas box operates as follows.

When inhaling, air through the lattice 4 of the bottom cassette 6 enters with a uniform distributed flow into the box through the filter 7, where the solid phase of the aerosols is delayed.

Next, the air enters the receiver 8, where it expands, mixes and equalizes the pressure.

In the volume of the adsorption layer 9, air from the receiver 8 enters through the grill 4 and the dust tampon 5 with a noticeable damping of the efforts of the respiratory organs.

On the ledge 2, the near-wall air flow stops and unfolds across the main flow, forming a gas-dynamic resistance - a thrombus, which blocks possible breakthroughs of untreated air along the wall of the housing 1.

In layer 9 of increased volume, the main series of harmful and toxic substances and vapors of groups A, B, E, K are neutralized.

Further, the purified air through the grid 10 enters the bulk layer 11 of activated carbon, where hydrogen sulfide and its mixtures are adsorbed.

In the hopcalite layer 12, chemical monoxidation of carbon monoxide to carbon dioxide is carried out, after which the completely purified air through the mesh 10 and tampon 5, which traps the remaining small solid particles and moisture, enters through the mouth 14 of the cover 13 into the gas mask line to the inhalation volume suitable for inhalation breathing air.

Alternatively, according to the embodiment of the charge, the inhaled air passing through the layer 11 enters the layer 15 (FIG. 2), where benzene, hydrogen sulfide and sulfur dioxide are adsorbed.

In this case, on the ledge 3, the air near-wall flow expands and slows down, which forms a gas-dynamic plug, eliminating breakthroughs along the wall of the untreated gas body 1.

The proposed universal filtering and absorbing box for personal respiratory protection is characterized by increased dynamic activity, which provides the maximum likelihood of comprehensive protection in the area of chemical contamination, which is illustrated by the average parameters of the results of an experimental verification of the effectiveness of the proposed box.

Tests of the proposed design of the absorbing box showed that it meets the requirements of GOST P 12.4.1093-99 "SSBT Personal respiratory protection. Gas filters and combined. General specifications. "

The characteristic indicators of the purpose achieved during the testing of prototypes of boxes on a utility model are summarized in table.

Table. Values of the main parameters of the box. Indicators Test substance carbon monoxide chlorine ammonia benzene hydrogen sulfide sulfur dioxide hydrogen cyanide The time of the protective action, min (not less) 45 35 45 35 80 70 fifty Concentration, mg / L 6.2 0.09 3,5 1,0 1.4 2.7 2.0 Probability of protection 0.95 0.96 0.96 0.59 0.93 0.94 0.99

The utility model box is intended for use by military and civilians, suitable for children to breathe, which makes it indispensable at the current stage of technical development of gas masks in areas of natural and man-made accidents and disasters.

The results of comparative tests of prototypes of the proposed box with well-known analogues allow us to recommend a universal design for the effective purification of breathing air in a gas mask for serial delivery to customers.

A comparative analysis of the proposed technical solution with identified analogues of the prior art, from which the utility model does not explicitly follow for a gas purification specialist, showed that it is unknown, and given the possibility of practical manufacturing of an absorbing box in an existing production unit in series, we can conclude that the criteria are met patentability.

Claims (4)

1. A universal absorbing box for personal protective equipment for respiratory organs, comprising a cylindrical body with an outlet neck and a bottom with an air intake, while the functional layers of a mixture based on activated carbon with functional additives are sequentially placed inside the body, separated by nets and dust tampons, characterized in that the casing is made stepwise, on the lower ledge of which a congruent bottom is supported with an air intake in the form of a gas distribution grill carrying an aerosol filter, co via the receiver-rotating with the housing mounted on the stage integrated absorber layer, formed on the basis of active carbon from coconut shell impregnated oxides and molybdates of zinc and copper sulfonate zinc and / or copper and molybdenum oxide. 2. The box according to claim 1, characterized in that in the structure of the complex absorber functional additives are contained in the following ratio (wt.%): 5-8 in terms of zinc oxide and zinc molybdate, 6-10 in terms of copper oxide and molybdate copper, 2-4 in terms of zinc and / or copper sulfates of zinc and / or copper and 1-4 molybdenum oxide. 3. The box according to claim 1, characterized in that on the upper ledge under the lid mesh, the layers of the absorber-desiccant and hopcalite are sequentially located in the mass ratio of the layers of the charge complex absorber: absorber-desiccant: hopcalite as (2.5-3) :( 1 5-2): 1, and the absorbent-desiccant is made on the basis of activated carbon from a coconut shell impregnated with a solution of halides of alkali and alkaline earth metals, mainly calcium chloride in an amount of 18-20 wt. %, lithium chloride in an amount of 10-12 wt. % or mixtures thereof. 4. The box according to claim 1, characterized in that on the upper ledge under the lid grid there is a filler layer made on the basis of activated carbon from a coconut shell impregnated with copper compound Cu (NH ₃ ) ₂ CO ₃ and potassium carbonate, the mass of which is adequate the mass of the layer of the complex absorber.

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