RU2495694C1 - Combined filter (versions) - Google Patents

Abstract

FIELD: salvage facilities.

SUBSTANCE: invention relates to breathing organs individual protection facilities (BOIPF) for a human being to protect against harmful substances. The combined filter comprises a body, a bottom with an inlet hole, a three-layer charge, a net for charge fixation, an anti-aerosol filter. The body has an outer threaded neck, where there is an outlet hole. The charge is made in the form of three serially arranged layers from the outer thread of the neck in the volume ratio of 1.0:(0.3-1.0):(1.0-0.3), respectively. The first layer of the charge is an absorber on the basis of the active aluminium oxide impregnated with barium permanganate and/or copper permanganate, and/or zinc permanganate, and/or nickel permanganate. The second layer of the charge is an absorber on the basis of active carbon with oxides and salts of copper and/or zinc, including additives for absorption of ammonia in the form of copper and/or zinc sulfates. The third layer of the charge is an absorber on the basis of active carbon with copper and/or zinc sulfate. The second and third layers of the charge may be arranged in the body mutually instead of one another.

EFFECT: combined filter according to the first and second versions has long-term universal multiple protection against oxides of nitrogen, ammonia, vapours of organic substances, inorganic and acid vapours and gases, aerosols, high protective capacity by chlorine cyanide.

16 cl, 2 dwg

Description

The invention relates to personal respiratory protection (PPE) of a person from harmful substances, in particular from organic fumes - grade A (cyclohexane), inorganic - grade B (hydrogen cyanide) and acidic - grade E (sulfur dioxide) of gases and vapors, ammonia grade K, nitrogen monoxide, chlorocyanine, aerosols (dust, smoke, fog).

Known filtering and sorbing element for air purifiers according to patent RU No. 2195993 (publ. 10.01.2003), containing sorbent particles bonded by thermoplastic polymer particles in the frontal layer, which is a mechanical mixture of a carbon-containing catalyst, modified by compounds of copper, chromium, silver , triethylenediamine, and active alumina impregnated with barium permanganate, and in the trailing layer, which is active alumina impregnated with palladium.

The disadvantages of the filtering and sorbing element are:

- lack of elements (body, bottom, etc.) that allow the use of a filtering and sorbing element in the filtering RPE as a filter;

- technological difficulties in obtaining a filtering and sorbing element associated with the duration of obtaining uniformity of the mechanical mixture of sorbents and sorbents with a thermoplastic polymer;

- a decrease in the overall protective ability of sorbents due to clogging of their active surface with a polymer melt;

- low protective action time (VZD) for organic vapors and ammonia;

- insufficiently high CDW for hydrogen cyanide, sulfur dioxide, nitrogen monoxide and chlorocyanine;

- lack of protection against aerosols.

Known polyvalent absorption box according to patent RU No. 2111028 (publ. 05/20/1998), consisting of a housing with a bottom, grids for separating three layers of the charge, made in the form of sequentially located along the inhaled air of the catalyst-absorber on a carbon basis with additives of oxides copper, chromium, silver, absorbent-desiccant and hopcalite in a mass ratio of 1.0: (2.0-1.5) :( 2.0-1.0), respectively. The disadvantages of the polyvalent absorbent box are:

- the housing does not contain a convenient connecting element for connection to the RPE elements;

- insufficiently high CDW for sulfur dioxide and nitrogen monoxide;

- lack of protection against aerosols;

- the probability of penetration of dust from the mixture into the human respiratory system through the openings of the upper mesh.

A common disadvantage of analogues is the lack of an aerosol filter, which makes them inadequate to GOST R 12.4.193-99 “Occupational safety standards system. Personal respiratory protection. Gas filters and combined. General technical conditions ”, presented to the special brand of the combined NOP3 filter, protecting against nitrogen oxides with mandatory simultaneous protection against aerosols.

The closest in technical essence to the proposed options for a combined filter is a gas mask according to patent RU No. 2344858 (published on January 27, 2009), comprising a housing, a bottom with an inlet and an external threaded neck, a three-layer charge part, consisting of layers sequentially arranged along the air activated carbon, desiccant based on activated carbon with lithium bromide or activated carbon with lithium bromide and calcium chloride and hopcalite with a ratio of layer lengths or volume ratio of 1.0: (1.15-1.17) :( 1.2-1, 35) respectively etstvenno, the lower and upper grid for mounting the charge, particle filter, cover with the outlet opening and a threaded neck for attachment of the filter to the mask.

The disadvantages of a gas filter are:

- insufficiently high operational reliability of the design of the gas filter, since the connection of the cover with the threaded neck and the housing at the air outlet after the charge and the aerosol filter increases the probability of penetration of gases, vapors and highly dispersed aerosols at the junction of the cover and the housing bypassing the charge and the aerosol filter during human breathing through a gas filter;

- low pressure drop in ammonia;

- insufficiently high CDW for hydrogen cyanide, sulfur dioxide, nitrogen monoxide and chlorocyanine;

- does not allow to control the length of the layers of the charge, since the body of the gas filter is smooth and does not have any marks;

- technological complexity of the equipment of the charge associated with the possibility of mixing the layers together due to the lack of separation devices between the layers of the charge.

Common disadvantages of the second analogue and prototype are:

- the lack of absorption of nitrogen monoxide in conditions of moistening the mixture, especially hopcalite, which eliminates the possibility of using the second analogue and prototype reusable and leads to the need to use such filtering devices for reasons of operational reliability once, and this meets the requirements of GOST R 12.4.193-99, but makes the use of disposable nitrogen oxide filtering devices unnecessarily expensive and inefficient;

- corrosiveness of chloride-containing layers of the charge in relation to the metal parts of the filtering devices;

- the inability to arrange the first and second layer of the charge along the respirable air in the housing mutually instead of each other, which limits the technological paths for the manufacture of filtering devices.

In addition, in the analogue and in both prototypes, the sealing elements of the filtering device are not shown, which allows the charge, especially hopcalite, to come into contact with the surrounding air during storage, to moisten and lose its catalytic and absorption properties.

The present invention, according to the first embodiment, solves the problem of developing a combination filter that is technologically advanced in manufacturing and has a sufficiently high pressure drop that meets the requirements of GOST R 12.4.193-99 for grades and protection efficiency classes, respectively A1, B2, E2, K2, NOP3, capable of absorbing monoxide nitrogen and meet the requirements of GOST R 12.4.193-99 for the brand NOP3 in conditions of equilibrium moistening of the mixture; having a sufficiently high CHP for chlorocyanine; possessing a non-corrosive charge; having a sufficiently convenient and reliable element in the housing for connection to RPE elements; excluding the probability of dust emission from the mixture; containing sealing elements.

The proposed invention, according to the second embodiment, solves the problem of developing a combination filter that is technologically advanced in manufacturing and has a sufficiently high pressure drop that meets the requirements of GOST R 12.4.193-99 for grades and protection efficiency classes, respectively A1, B2, E2, K2, NOP3, capable of absorbing monoxide nitrogen and meet the requirements of GOST R 12.4.193-99 for the brand NOP3 in conditions of equilibrium moistening of the mixture; possessing a high CHP for ammonia and a sufficiently high CHP for chlorocyanine; having a sufficiently convenient and reliable element in the housing for connection to RPE elements; excluding the probability of dust emission from the mixture; containing sealing elements.

To achieve the specified technical result in the combined filter according to the first embodiment, comprising a housing, a bottom with an inlet, a three-layer charge, grids for securing the charge, an aerosol filter, the housing has a connecting element - an external threaded neck in which the outlet is located, the charge is made in in the form of layers successively located from the external threaded neck in a volume ratio of 1.0: (0.3-1.0) :( 1.0-0.3), respectively, the first charge layer is an absorber based on of active alumina impregnated with barium permanganate and / or copper permanganate and / or zinc permanganate and / or nickel permanganate, the second charge layer is an active carbon absorber based on oxides and salts of copper and / or zinc, including additives for absorption of ammonia in the form of copper and / or zinc sulfates, the third charge layer is an absorber based on activated carbon with copper and / or zinc sulfate, and the second and third layers of the charge can be located mutually instead of each other; in a particular embodiment, the absorber of the second charge layer may additionally contain oxides and salts of chromium and / or molybdenum and / or silver, the salts being formed by copper and / or zinc compounds, or the absorber of the second and / or absorber of the third charge layer may additionally contain sulfates , carbonates, oxides and hydroxides of potassium and / or sodium, or an absorber of the second and / or absorber of the third layer of the charge may additionally contain sulfates, carbonates, oxides and hydroxides of potassium and / or sodium, and the absorber of the second layer of the charge - oxides and salts of chromium and / or molybdenum and / or silver, the salts being formed by copper and / or zinc compounds; also in the combined filter, the layers of the mixture can be separated by grids; in the case, the last along the inhaled air and / or as one or two nets for separating the charge layers between each other and / or to separate the charge and the first along the inhaled air mesh for fixing the charge can be used dust-proof swab; the holes of the external threaded neck and bottom can be closed with removable locking devices.

To achieve the specified technical result in the combined filter according to the second embodiment, comprising a housing, a bottom with an inlet, a three-layer charge using a second layer of absorbent based on activated carbon with metal chloride, a mesh for securing the charge, an aerosol filter, the housing has a connecting element - external threaded neck in which the outlet is located, the charge is made in the form of layers sequentially located from the outer threaded neck in a volume ratio 1.0: (0.3-1.0) :( 1.0-0.3), respectively, the first charge layer is an absorber based on active alumina impregnated with barium permanganate and / or zinc permanganate, and / or nickel permanganate, the absorber of the second charge layer additionally contains oxides and salts of copper and / or zinc, and nickel chloride and / or zinc chloride and / or cobalt chloride and / or copper chloride are used as metal chloride, the third charge layer is activated carbon absorber with nickel chloride and / or zinc chloride and / or cobal chloride lithium and / or copper chloride, moreover, the second and third layers of the mixture can be arranged mutually instead of each other, and additives in the form of metal chlorides can be accompanied by their oxychlorides; in a particular embodiment, the absorber of the second charge layer may additionally contain oxides and salts of chromium and / or molybdenum and / or silver, the salts being formed by copper and / or zinc compounds, or the absorber of the second and / or absorber of the third charge layer may additionally contain chlorides , potassium and sodium carbonates, oxides and hydroxides, or the absorber of the second and / or third charge layer may additionally contain chlorides, potassium and / or sodium oxides and hydroxides of the charge, and the absorber of the second charge layer contains chromium oxides and salts a, and / or molybdenum and / or silver, the salts being formed by copper and / or zinc compounds; in the particular case of execution, the second charge layer can be an absorber based on activated carbon with oxides and salts of copper and / or zinc, including additives for the absorption of ammonia in the form of copper and / or zinc sulfates, while the absorber of the second charge layer may additionally contain oxides and salts of chromium or molybdenum and / or silver, the salts being formed by copper and / or zinc compounds, or the absorber of the second charge layer may additionally contain sulfates, carbonates, oxides and hydroxides of potassium or sodium, or an absorber of the second layer I charge may further comprise sulfates, carbonates, oxides and hydroxides of potassium and / or sodium oxides and salts of chromium and / or molybdenum and / or silver salts being formed by compounds of copper and / or zinc; in the particular case of execution, the third charge layer may be an absorber based on activated carbon with copper and / or zinc sulfate, while the absorber of the third charge layer may additionally contain potassium and / or sodium sulfates, carbonates, oxides and hydroxides; also in the combined filter, the layers of the mixture can be separated by grids; in the case, the last along the inhaled air and / or as one or two nets for separating the charge layers between each other and / or to separate the charge and the first along the inhaled air mesh for fixing the charge can be used dust-proof swab; the holes of the external threaded neck and bottom can be closed with removable locking devices.

A distinctive feature of the proposed combined filter according to the first embodiment is that the housing has a connecting element - an external threaded neck in which the outlet is located; the charge is made in the form of three layers successively located from the external threaded neck in a volume ratio of 1.0: (0.3-1.0) :( 1.0-0.3), respectively; the first charge layer is an absorber based on active alumina impregnated with barium permanganate and / or copper permanganate and / or zinc permanganate and / or nickel permanganate; the second layer of the charge is an absorber based on activated carbon with oxides and salts of copper and / or zinc, including additives for the absorption of ammonia in the form of copper and / or zinc sulfates; the third layer of the charge is an absorber based on activated carbon with copper and / or zinc sulfate; the absorber of the second charge layer may further comprise oxides and salts of chromium and / or molybdenum and / or silver, the salts being formed by copper and / or zinc compounds; the absorber of the second and / or absorber of the third layer of the charge may additionally contain sulfates, carbonates, oxides and hydroxides of potassium and / or sodium; the absorber of the second charge layer may further comprise sulfates, carbonates, oxides and hydroxides of potassium and / or sodium, oxides and salts of chromium and / or molybdenum and / or silver, the salts being formed by copper and / or zinc compounds; the second and third layers of the mixture can be located in the housing mutually instead of each other; charge layers can be separated by grids; in the case, the last along the inhaled air and / or as one or two nets for separating the charge and the first along the inhaled air mesh for fixing the charge can be used dust-proof swab; the holes of the external threaded neck and bottom can be closed with removable locking devices.

A distinctive feature of the proposed combined filter according to the second embodiment is that the housing has a connecting element - an external threaded neck in which the outlet is located; the charge is made in the form of three layers successively located from the external threaded neck in a volume ratio of 1.0: (0.3-1.0) :( 1.0-0.3), respectively; the first charge layer is an absorber based on active alumina impregnated with barium permanganate and / or copper permanganate and / or nickel permanganate; the absorber of the second charge layer further comprises oxides and salts of copper and / or zinc, and nickel chloride and / or zinc chloride and / or cobalt chloride and / or copper chloride are used as metal chloride; the third charge layer is an active carbon absorber based on nickel chloride and / or zinc chloride and / or cobalt chloride and / or copper chloride; in the charge, additives in the form of metal chlorides may be accompanied by their oxychlorides; the absorber of the second charge layer may further comprise oxides and salts of chromium and / or molybdenum and / or silver, the salts being formed by copper and / or zinc compounds; the absorber of the second and / or absorber of the third layer of the charge may additionally contain chlorides, carbonates, oxides and hydroxides of potassium and / or sodium; the absorber of the second charge layer may further comprise chlorides, carbonates, oxides and hydroxides of potassium and / or sodium, oxides and salts of chromium and / or molybdenum and / or silver, the salts being formed by copper and / or zinc compounds; the second layer of the charge may be an absorber based on activated carbon with oxides and salts of copper and / or zinc, including additives for the absorption of ammonia in the form of copper and / or zinc sulfates, while the absorber of the second layer of the mixture may additionally contain chromium oxides and salts, and / or molybdenum and / or silver, the salts being formed by copper and / or zinc compounds, or potassium and / or sodium sulfates, carbonates, oxides and hydroxides, or potassium and / or sodium sulfates, carbonates, oxides and hydroxides, oxides and salts chromium and / or molybdenum and / or silver, moreover, salts are formed by compounds of copper and / or zinc; the third layer of the charge may be an absorber based on activated carbon with copper and / or zinc sulfate, while the absorber of the third layer of the mixture may additionally contain sulfates, carbonates, oxides and hydroxides of potassium and / or sodium; the second and third layers of the mixture can be located in the housing mutually instead of each other; charge layers can be separated by grids; in the case, the last along the inhaled air and / or as one or two nets for separating the charge layers between each other and / or to separate the charge and the first along the inhaled air mesh for fixing the charge can be used dust-proof swab; the holes of the external threaded neck and bottom can be closed with removable locking devices.

Due to the presence of these signs, a combined filter of two versions has been created, which is technologically advanced to manufacture, has a sufficiently high VZD that meets the requirements of GOST R 12.4.193-99 for grades and protection efficiency classes, respectively A1, B2, E2, K2, NOP3, and is capable of absorb nitrogen monoxide and meet the requirements of GOST R 12.4.193-99 for the brand NOP3 under conditions of equilibrium moistening of the charge; has a sufficiently high CDI for chlorocyanine; has a sufficiently convenient and reliable element in the housing for connection to the elements of the RPE; contains sealing elements. The combined filter according to the first embodiment has a non-corrosive charge, which allows the use of metal parts for its manufacture, and the combined filter according to the second embodiment has a higher ammonia CDW.

The combination filter according to the second embodiment is most preferred, for example, in plastic parts.

The proposed combination filter is shown in the drawings.

Figure 1 presents a General view of the combined filter (options 1, 2).

Figure 2 presents the combined filter containing sealing elements (options 1, 2).

Figure 1 presents the proposed combined filter, which consists of a housing 1 with an external threaded neck 2, bottom 3, anti-aerosol filter 4, grids for securing the charge 5, separation grids or dust tampons 6, dust tampon (s) 7, layers of the charge 8 (first layer), 9 (second layer) and 10 (third layer).

Figure 2 presents the proposed combined filter containing sealing elements - removable locking device 11 (outer threaded neck) and 12 (bottom holes).

The proposed combined filter according to the first and second options works as follows. The removable locking devices 11 and 12 are removed, after which, using the external threaded neck 2, the combined filter is connected to the elements of the RPD. When inhaling, air through the bottom opening 3 enters the inside of the filter. Passing through the aerosol filter 4 and the charge layers 10, 9 and 8, fixed in the housing 1 by nets 5 and separated by nets or dust tampons 6, as well as through the dust tampon (s) 7, the air is cleaned and enters through the external threaded neck 2 of the housing 1 in the mask space of the RPD and is used for breathing.

Tables 1-4 are attached to the description.

Table 1 shows the dependence of the VZD on the composition of the charge of the combined filter according to the first embodiment in comparison with the prototype and analogues.

Table 2 shows the dependence of the VZD on the composition of the charge of the combined filter according to the second embodiment in comparison with the prototype and analogues.

Table 3 shows the dependence of the VZD on the ratio of the layers of the charge of the combined filter according to the first embodiment.

Table 4 shows the dependence of the VZD on the ratio of the layers of the charge of the combined filter according to the second embodiment.

Explanations for tables 1, 2, 3 and 4

1 The tables give averaged values from the results of six tests under identical conditions.

2 Test conditions for CDW on cyclohexane: output concentration of 10 ppm, volumetric flow rate of constant gas-air flow (30 ± 0.75) dm ³ / min, relative humidity (70 ± 2)%, air temperature (20 ± 1) ° С.

3 Test conditions for VZD on hydrogen cyanide: according to GOST 12.4.158-90 "SSBT. SIZOD filtering. Methods for determining the time of the protective action of filtering and absorbing boxes by vaporous harmful substances ”at an output concentration of 10 ppm, a volumetric flow rate of a constant gas-air stream (30 ± 0.75) dm ³ / min, relative humidity (70 ± 5)%, air temperature ( 20 ± 5) ° С.

4 Test conditions for the VZD on sulfur dioxide and ammonia: according to GOST 12.4.159-90 "SSBT. SIZOD filtering. Methods for determining the time of the protective effect of filtering and absorbing boxes on gaseous harmful substances ”at an output concentration of sulfur dioxide of 5 ppm, an output concentration of ammonia of 25 ppm, a volumetric flow rate of a constant gas-air stream (30 ± 0.75) dm ³ / min, relative humidity of air (70 ± 5)%, air temperature (20 ± 5) ° С.

5 Conditions for testing for NRW by nitrogen monoxide: output concentration of 5 ppm, volumetric flow rate of constant gas-air flow (30 ± 0.75) dm ³ / min, relative humidity (70 ± 2)%, air temperature (20 ± 1) ° С .

Equilibrium wetting of the charge was carried out by passing a constant air flow through the charge of the filter with a flow rate of (30 ± 5) dm ³ / min at a relative humidity of (70 ± 2)% and a temperature of (20 ± 1) ° С. The filter was weighed periodically. The filter mixture was considered equilibrium wet if the filter weight reached a constant.

6 Test conditions for CDR for chlorocyanine: according to GOST 18673-73 “Filter-absorbing gas mask system. Test methods for the duration of the protective action of chlorocyanine. "

7 AOA - active alumina, PMT - permanganate, Ba - barium, Cu - copper, Zn - zinc, Ni - nickel, AC - activated carbon.

The results presented in table 1 show that the proposed combined filter according to the first embodiment:

1 Meets the requirements of GOST R 12.4.193-99 for grades and classes of protection efficiency, respectively A1, B2, E2, K2, NOP3.

2 Compared with the first analogue, it complies with the requirements of GOST R 12.4.193-99 for the HPLC for cyclohexane, ammonia, nitrogen monoxide under conditions of moistening the charge, has a higher HPL for cyclohexane, hydrogen cyanide, sulfur dioxide, ammonia, nitrogen monoxide and chlorocyanine.

3 Compared with the second analogue, it has a higher VZD for sulfur dioxide and nitrogen monoxide, it is able to absorb nitrogen monoxide under conditions of moistening the charge, and meets the requirements of GOST R 12.4.193-99 for VZD for nitrogen monoxide.

4 Compared with the prototype, it complies with the requirements of GOST R 12.4.193-99 for the HPA for ammonia, has a higher for the cyanohydrogen, sulfur dioxide, ammonia, nitrogen monoxide and chlorocyanine, has the ability to absorb nitrogen monoxide under conditions of charge moistening and meets the requirements GOST R 12.4.193-99 according to the VZD on nitrogen monoxide.

5 Contains barium permanganate and / or copper permanganate and / or zinc permanganate and / or nickel permanganate and / or nickel permanganate in an absorber of the first layer of a charge based on active alumina and / or nickel permanganate.

6 Contains oxides and salts of copper and / or zinc in the absorber of the second layer of a charge on the basis of activated carbon, which equally affect the VZD.

7 Contains in the absorber of the second layer of the mixture on the basis of activated carbon copper sulfate and / or zinc sulfate, which to a similar extent affect the absorption of ammonia.

8 Contains in the absorber of the third layer of a mixture based on activated carbon copper sulfate and / or zinc sulfate, which to a similar extent affect the absorption of ammonia.

9 May contain oxides and salts of chromium and / or molybdenum in the absorber of the second layer of the charge, which, to a similar degree, promote an increase in the CHP of chlorocyanine, without interfering with the absorption of other substances.

10 May contain silver oxides and salts in the absorber of the second layer of the charge, which do not interfere with the absorption of cyclohexane, hydrogen cyanide, sulfur dioxide, ammonia, nitrogen monoxide and chlorocyanine.

11 May contain sulphates, carbonates, oxides and hydroxides of potassium and / or sodium in the absorber of the second layer of the charge, which contribute to an increase in the HPA of cyclohexane and ammonia, while not interfering with the absorption of other substances.

12 May contain sulphates, carbonates, oxides and hydroxides of potassium and / or sodium in the absorber of the third layer of the charge, which contribute to an increase in the CDW of cyclohexane and ammonia, without interfering with the absorption of other substances.

13 Contains the second and third layers of the charge, which can be located in the housing mutually instead of each other, without reducing the VZD for all substances.

14 Has an arrangement of layers of the mixture, which allows absorbing nitrogen monoxide under conditions of moistening of the mixture and have a sufficiently high CDW of nitrogen monoxide.

The results presented in table 2 show that the proposed combined filter according to the second embodiment:

1 Meets the requirements of GOST R 12.4.193-99 for grades and protection efficiency classes, respectively A1, B2, E2, K2, NOP3.

2 Compared with the first analogue, it complies with the requirements of GOST R 12.4.193-99 for the HPLC for cyclohexane, ammonia, nitrogen monoxide under conditions of moistening the charge, has a higher HPL for cyclohexane, hydrogen cyanide, sulfur dioxide, ammonia, nitrogen monoxide and chlorocyanine.

3 Compared with the second analogue, it has a higher VZD for sulfur dioxide, ammonia, and nitrogen monoxide, it is able to absorb nitrogen monoxide under conditions of moistening the charge, and meets the requirements of GOST R 12.4.193-99 for VZD for nitrogen monoxide.

4 Compared with the prototype, it complies with the requirements of GOST R 12.4.193-99 for the HPA for ammonia, has a higher for the cyanohydrogen, sulfur dioxide, ammonia, nitrogen monoxide and chlorocyanine, has the ability to absorb nitrogen monoxide under conditions of charge moistening and meets the requirements GOST R 12.4.193-99 according to the VZD on nitrogen monoxide.

5 It has an increased ammonia CDW.

6 Contains barium permanganate and / or copper permanganate and / or zinc permanganate and / or nickel permanganate and / or nickel permanganate in an absorber of the first layer of a charge based on active alumina and / or nickel permanganate, which equally affect the VZD.

7 Contains oxides and salts of copper and / or zinc in the absorber of the second layer of a charge on the basis of activated carbon, which equally affect the VZD.

8 Contains nickel chloride and / or zinc chloride and / or cobalt chloride and / or copper chloride in the absorber of the second layer of an active carbon-based charge, which equally affect the absorption of ammonia.

9 Contains nickel chloride, and / or zinc chloride, and / or cobalt chloride, and / or copper chloride in the absorber of the third layer of an active carbon charge, which affect the absorption of ammonia to a similar extent.

10 May contain nickel, zinc, cobalt and copper oxychlorides in the absorber of the second layer of the charge, which contribute to an increase in the HPA of ammonia and cyclohexane, without interfering with the absorption of other substances.

11 May contain nickel, zinc, cobalt and copper oxychlorides in the absorber of the third layer of the charge, which contribute to an increase in the HPA of ammonia and cyclohexane, without interfering with the absorption of other substances.

12 May contain oxides and salts of chromium and / or molybdenum in the absorber of the second layer of the charge, which to a similar degree contribute to an increase in the CHP of chlorocyanine, without interfering with the absorption of other substances.

13 May contain silver oxides and salts in the absorber of the second layer of the charge, which do not interfere with the absorption of cyclohexane, hydrogen cyanide, sulfur dioxide, ammonia, nitrogen monoxide and chlorocyanine.

14 May contain in the absorber of the second layer of the charge chlorides, carbonates, oxides and hydroxides of potassium and / or sodium, which contribute to an increase in the IDP of cyclohexane and ammonia, without interfering with the absorption of other substances.

15 May contain in the absorber of the third layer of the charge chlorides, carbonates, oxides and hydroxides of potassium and / or sodium, which contribute to an increase in the IDP of cyclohexane and ammonia, without interfering with the absorption of other substances.

16 Contains the second and third layers of the mixture, which can be located in the housing mutually instead of each other, without reducing the VZD for all substances.

17 May contain, as the second layer of the charge, the second layer of the charge of the combined filter according to the first embodiment, without lowering the HPC of cyclohexane, hydrogen cyanide, sulfur dioxide, nitrogen monoxide and chlorocyanine.

18 May contain, as the third layer of the charge, the third layer of the charge of the combined filter according to the first embodiment, without lowering the CDW of cyclohexane, hydrogen cyanide, sulfur dioxide, nitrogen monoxide and chlorocyanine.

19 Has an arrangement of layers of the mixture, which allows to absorb nitrogen monoxide under conditions of moistening the mixture and have a sufficiently high CDW of nitrogen monoxide.

The data presented in tables 3 and 4 show that the optimal ratio of the layers of the charge in the proposed combined filter according to the first and second options is 1.0: (0.3-1.0) :( 1.0-0.3), respectively.

The decrease in the second layer of the mixture of more than 0.3 leads to a significant decrease in the IDP of the proposed combined filter according to the first and second options for hydrogen cyanide and the discrepancy with the requirements of GOST R 12.4.193-99.

The decrease in the third layer of the mixture of more than 0.3 leads to a significant decrease in the VZD of the proposed combined filter according to the first and second options for ammonia and non-compliance with the requirements of GOST R 12.4.193-99.

The decrease in the second layer of the mixture of more than 0.3 and the third layer of the mixture of more than 0.3 leads to a significant decrease in the IDC of the proposed combined filter according to the first and second options for cyclohexane and the discrepancy with the requirements of GOST R 12.4.193-99.

An increase in the second or third layer of the charge of more than 1.0 leads to a significant decrease in the IDR of the proposed combined filter according to the first and second options for nitrogen monoxide and the non-compliance with the requirements of GOST R 12.4.193-99.

The charge layer of the absorber based on active alumina impregnated with barium permanganate and / or copper permanganate and / or zinc permanganate and / or nickel permanganate in the proposed combined filter according to the first and second options provides absorption of nitrogen monoxide, acid gases and vapors and, to a lesser extent, inorganic gases and vapors and ammonia.

The layer of the mixture of absorbers based on activated carbon in the proposed combined filter according to the first and second options provides the absorption of organic vapors, inorganic and acid gases and vapors, ammonia, chlorocyanine.

The use of a three-layer mixture with the proposed layers determines the versatility of protection of the proposed combined filter according to the first and second options. Moreover, the charge layers do not interfere with each other to absorb the corresponding substances, and the second and third layers of the charge can be located in the proposed combined filter according to the first and second options, the first of the layers along the inhaled air, one or the other.

The ratio of the layers of the charge in the proposed combined filter according to the first and second options by volume, in contrast to the ratio of the layers along the length, guarantees the required accuracy of measuring the amount of the charge and allows you to control the ratio of the layers of the charge.

The aerosol filter in the proposed combined filter according to the first and second options provides protection against aerosols.

The location in the housing of the proposed combined filter according to the first and second options along the inhaled air at the beginning of the aerosol filter and only then the charge is due to the need for sequential cleaning of the inhaled air first from aerosols of different dispersion by the aerosol filter, then from gases and vapors with the charge. Otherwise, when the first charge is placed along the inhaled air, coarse-dispersed aerosols will be filtered on the lower grid to fix the charge, coarse-dispersed aerosols will clog the mesh openings, as a result of which the resistance to air flow through the charge will increase sharply and will lead to premature replacement of the entire combined filter.

The oxides and salts (ammonia, carbonates) of copper and / or zinc in the charge of the proposed combined filter according to the first and second options provide the absorption of inorganic and acid gases and vapors.

Copper sulfate and / or zinc sulfate in the charge of the proposed combined filter according to the first embodiment provides the absorption of ammonia.

Nickel chloride and / or zinc chloride and / or cobalt chloride and / or copper chloride in the charge of the proposed combined filter according to the second embodiment provide the absorption of ammonia.

The oxychlorides of nickel, zinc, cobalt and copper together with the chlorides in the charge of the proposed combined filter according to the second embodiment provide efficient absorption of ammonia and prevent the formation of insoluble metal compounds that can block access to micropores.

Active carbon in the charge of the proposed combined filter according to the first and second options provides the absorption of organic vapor.

Oxides and salts of chromium and / or molybdenum (chromates, dichromates, chromites, molybdates) in the charge of the proposed combined filter according to the first and second options are necessary for the absorption of chlorocyanine, as well as for the absorption of inorganic and acid gases and vapors.

The necessity of applying silver to activated carbon is due to the catalytic properties of silver compounds, for example, during the oxidation of arsenic hydrogen by atmospheric oxygen.

Sulphates, carbonates, oxides and hydroxides of potassium and / or sodium in the charge of the proposed combined filter according to the first embodiment provide hydrophilicity of the inner surface of the active carbon base and effective absorption of the absorber by ammonia in high humidity conditions.

Chlorides, carbonates, oxides and hydroxides of potassium and / or sodium in the charge of the proposed combined filter according to the second embodiment provide the hydrophilicity of the inner surface of the active carbon base and the efficient operation of the absorber in ammonia in high humidity conditions.

The proposed combined filter according to the first and second options is technologically advanced to manufacture, since it is not associated with the difficulties of obtaining uniformity of a mechanical mixture of charge components and charge components with a thermoplastic polymer.

The external threaded neck of the housing of the proposed combined filter according to the first and second variants (Fig. 1) is a convenient connecting element with RPE elements, for example a mask, due to the smaller diameter and the presence of thread compared to the housing, and is connected, for example, by screwing into a nut or cover of RPE elements.

The external threaded neck in the proposed combined filter according to the first and second options determines a sufficiently high operational reliability of its design, since, being an integral part of the filter housing, it does not require a cover with a neck and the need to connect the cover to the housing at the air outlet after the charge and thereby excludes the probability of penetration of gases, vapors and highly dispersed aerosols bypassing the aerosol filter and charge during human breathing.

An anti-dust swab located in the housing last along the path of inhaled air in the proposed combined filter according to the first and second options is necessary to prevent the ingress of dust from the charge into the human respiratory organs through the openings of the upper mesh.

The separation grid in the proposed combined filter according to the first and second options is necessary to prevent mixing of the layers of the mixture and thereby preserve the protective power of each layer.

Dust swab separating the layers of the charge in the proposed combined filter according to the first and second options is necessary to prevent dust from entering the layer into the layer, which can increase the overall resistance of the charge.

An anti-dust swab separating the charge and the first mesh along the inhaled air to secure the charge in the proposed combined filter according to the first and second options is necessary to prevent dust from the mixture from entering the anti-aerosol filter, which can clog it and reduce its dust absorption.

The use of sealing elements (figure 2) - removable locking devices of the external threaded neck of the body and the bottom hole, for example, a threaded cap with a seal and a rubber stopper, respectively, in the proposed combined filter according to the first and second options is necessary to ensure the catalytic and absorption properties of the charge during long-term storage .

The proposed combined filter according to the first and second options is a reliable and convenient element for people’s RPMD during their technological operations at chemical enterprises, has long-term universal reusable protection against nitrogen oxides, ammonia, vapors of organic substances, inorganic and acid gases and vapors, aerosols, high protective power on chlorocyanine.

The proposed combined filter has been successfully tested in the test center of FSUE VNIIM im. D.I. Mendeleev (St. Petersburg).

Claims (16)

1. Combined filter comprising a housing, a bottom with an inlet, a three-layer charge, grids for securing the charge, an anti-aerosol filter, characterized in that the housing has a connecting element - an external threaded neck in which the outlet is located, the charge is made in the form of three sequentially arranged from the external threaded neck of the layers in a volume ratio of 1.0: (0.3-1.0) :( 1.0-0.3), respectively, the first charge layer is an absorber based on active alumina impregnated with permanganato barium and / or copper permanganate and / or zinc permanganate and / or nickel permanganate, the second charge layer is an active carbon absorber with oxides and salts of copper and / or zinc, including additives for the absorption of ammonia in the form of copper sulfates and / or zinc, the third layer of the charge is an absorber based on activated carbon with copper sulfate and / or zinc, and the second and third layers of the charge can be located in the housing mutually instead of each other. 2. The combined filter according to claim 1, characterized in that the absorber of the second charge layer further comprises oxides and salts of chromium and / or molybdenum and / or silver, the salts being formed by copper and / or zinc compounds. 3. The combined filter according to claim 1, characterized in that the absorber of the second and / or absorber of the third layer of the mixture further comprises sulfates, carbonates, oxides and hydroxides of potassium and / or sodium. 4. The combined filter according to claim 1, characterized in that the absorber of the second and / or absorber of the third layer of the charge additionally contains sulfates, carbonates, oxides and hydroxides of potassium and / or sodium, and the absorber of the second layer of the charge additionally contains oxides and chromium salts, and / or molybdenum and / or silver, the salts being formed by copper and / or zinc compounds. 5. The combined filter according to claim 1, or 2, or 3, or 4, characterized in that the layers of the mixture are separated by grids. 6. The combined filter according to claim 1, or 2, or 3, or 4, characterized in that in the housing last along the inhaled air and / or as one or two nets for separating the layers of the mixture between themselves and / or for separating the mixture and the first along the inhaled air mesh used to secure the charge used an anti-dust swab. 7. The combined filter according to claim 1, or 2, or 3, or 4, characterized in that the holes of the external threaded neck and bottom are closed with removable locking devices. 8. A combined filter containing a housing, a bottom with an inlet, a three-layer charge using a second layer of activated carbon absorbent with metal chloride, a mesh for securing the charge, an anti-aerosol filter, characterized in that the housing has a connecting element - an external threaded neck, in which the outlet is located, the charge is made in the form of three layers sequentially located from the external threaded neck in a volume ratio of 1.0: (0.3-1.0) :( 1.0-0.3), respectively, the first layer of the charge is it is an absorber based on active alumina impregnated with barium permanganate and / or copper permanganate and / or zinc permanganate and / or nickel permanganate; the absorber of the second charge layer additionally contains oxides and salts of copper and / or zinc, and as chloride the metal used is nickel chloride and / or zinc chloride and / or cobalt chloride and / or copper chloride, the third charge layer is an active carbon absorber with nickel chloride and / or zinc chloride and / or cobalt chloride, and / or copper chloride, and Torah and third layers of the charge may be disposed within the housing instead of each other mutually, and additives as metal chlorides can accompany their oxychlorides. 9. The combined filter according to claim 8, characterized in that the absorber of the second charge layer further comprises oxides and salts of chromium and / or molybdenum and / or silver, the salts being formed by copper and / or zinc compounds. 10. The combined filter according to claim 8, characterized in that the absorber of the second and / or absorber of the third layer of the mixture further comprises chlorides, carbonates, oxides and hydroxides of potassium and / or sodium. 11. The combined filter according to claim 8, characterized in that the absorber of the second and / or absorber of the third layer of the charge additionally contains chlorides, carbonates, oxides and hydroxides of potassium and / or sodium, and the absorber of the second layer of the charge additionally contains oxides and chromium salts, and / or molybdenum and / or silver, the salts being formed by copper and / or zinc compounds. 12. The combined filter according to claim 8, characterized in that the second layer of the charge according to claim 1, or 2, or 3, or 4 is taken as the second layer of the charge. 13. The combined filter according to claim 8, characterized in that the third layer of the charge according to claim 1, or 3, or 4 is taken as the third layer of the charge. 14. The combined filter according to claim 8, or 9, or 10, or 11, or 12, or 13, characterized in that the layers of the mixture are separated by grids. 15. The combined filter according to claim 8, or 9, or 10, or 11, or 12, or 13, characterized in that in the housing the last along the inhaled air and / or as one or two nets for separating the layers of the mixture between themselves and / or for the separation of the charge and the first mesh along the inhaled air to secure the charge, an anti-dust swab is used. 16. The combined filter according to claim 8, or 9, or 10, or 11, or 12, or 13, characterized in that the holes of the threaded neck and bottom are closed with removable locking devices.

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