UA8958U - Regenerative cartridge of isolating breathing device - Google Patents

Abstract

A regenerative cartridge of isolating breathing device with chemically bound oxygen comprises a case with inlet and outlet connecting pipes, a granulated oxygen-containing substance between the perforated partitions generating the cavities with the lids of the case connected with the pipes, a heat distributor, a deduster in the cavity with the inlet connecting pipe, and an actuator. The heat distributor represents a set of the identical elements disposed oppositely one to another; the contours of each element are not in contact with the contours of the adjacent elements. Each element is designed as the metallic stack with two-sided unequal-sized ribs. The free ends are bent at the right angles to the internal contour of the shell.

Description

Description of the invention

A useful model relates to parts of chemically bonded oxygen breathing apparatus, such as mine 2 self-contained self-rescuers used in the mining industry to protect the human respiratory system in hostile environments.

The known regenerative cartridge of the isolation breathing apparatus with chemically bound oxygen | (A.s. of the USSR

Мо1169673, Аб2819/00, 19851), which has a body with nozzles, an internal sleeve with an oxygen-containing substance between the perforated partitions of the sleeve located with a gap relative to its walls, a heat distributor in the mass of the substance, made in the form of cross-ribbed and placed one above the other multi-cell spatial lattices from corrugated staff. The upper part of the heat distributor is made with cells of a smaller size by installing intermediate flat cells between the corrugated cells, which ensures that the cells of both parts of the grid do not overlap.

This cartridge has the following disadvantages: 12 - the possibility of carbon dioxide "leaking" from the exhaled air into the inhaled air through the gaps between the flat walls of the corrugated staff of the heat distributor and granules of an oxygen-containing substance, which worsens breathing conditions; - the complexity of the design of the heat distributor due to the presence of intermediate flat posts of lower height between the corrugated posts, which increases the possibility of "leaping" carbon dioxide from the exhaled air

In breathed in gaps between the tops of the corrugations staff, where there are no intermediate flat staff.

These shortcomings are eliminated in the regenerative cartridge of the isolation breathing apparatus with chemically bound oxygen (Ass. USSR Mo1127118, Ab2819/00, 1983), which has a housing with nozzles and a starting device, an inner sleeve with an oxygen-containing substance located with a gap relative to the walls of the housing with perforated partitions of the shell, the heat distributor in the mass of the substance, made in the form of two cross-ribbed multi-cell spatial grids made of corrugated staffs and a wire mesh between the grids, while the walls of the cells n) of one grid are shifted relative to the walls of the cells of the second grid.

The dimensions of the cells of both gratings are the same, and the ratio of the area of the longitudinal section of the substance layer in the cartridge to the area of its cross section is 1.2-1.4.

As the closest analogue, the regenerative cartridge of the breathing apparatus according to the a.s. was chosen. USSR Mo1127118. co

This cartridge has the following disadvantages: u - extreme complexity due to the presence of three elements of different design in the heat distributor; - the possibility of deviating the time of the protective effect from the nominal value when using the Me breathing apparatus. according to the purpose, which is related to the instability and uncertainty of the amount of carbon dioxide "leaping" from the exhaled air to the inhaled air, which depends not only on the conditions of the course of chemical reactions in the substance of the cartridge, but also on the dimensions of the channels between the shapeless granules of the substance and the high walls cells in lattices, the size of which in the direction of air movement in the cartridge is equal to half the height of the substance layer.

On the basis of the above, it follows that the task to be solved by the proposed useful model is to eliminate the specified shortcomings, that is, to improve the operating characteristics of the cartridge and the breathing apparatus as a whole by increasing the time of the protective action and improving the breathing conditions in the apparatus due to reducing the volume fraction of carbon dioxide in inhaled air, and simplifying the design of the heat distributor. c" The solution to this problem is achieved by the fact that in the regenerative cartridge of the breathing apparatus, which contains a housing with inhalation and exhalation nozzles, a granular oxygen-containing substance between perforated partitions that form cavities with the lids of the housing, connected to the nozzles, a heat distributor in 49 mass of the substance, a dust-capturing filter in the cavity with the inhalation nozzle and the starting device, according to

According to the useful model, the heat distributor is made in the form of a set of identical elements, placed mutually (Te) oppositely without overlapping the contour of each of them with the contours of neighboring elements, while each element is made as a metal staff with two-sided ribs of different sizes attached to it, and the free ends of the ribs and i-th staffs are bent in such a way that they form right angles with the inner contour of the body shell, the height A of each so 20 element is within A-(2-3)8, where B is the size of the granules of the oxygen-containing substance, which is equal to B-(2 -7) mmm; the staff and ribs of the element are made of spring steel and placed to ensure the contact of the ends of the bent ends with the shell of the body; the bent ends of the ribs and the staffs of the element of the heat distributor are connected to the body by electric welding with the provision of thermal contact; the surface of each element of the heat spreader has a galvanic copper coating. The performance of the isolation breathing apparatus with such a regenerative cartridge is characterized by improved operational characteristics, because it ensures an increase in the time of the protective effect of the apparatus due to the prevention of premature "leaping" of carbon dioxide from the exhaled air to the inhaled air, and also because it improves the conditions of human breathing due to a decrease in temperature of inhaled air as a result of ensuring uniform exhaust of the oxygen-containing substance in all areas of the layer and effective removal of 60 heat from the mass of the substance to the body shell and outside.

This is explained as follows: - execution of the heat spreader in the form of a set (of 4 pieces) of the same elements, placed in the cartridge opposite to each other without matching the contour of each of them with the contours of neighboring elements, and execution of each element in the form of a metal staff with two-sided ribs of different sizes attached to it, and the free ends of the ribs and the staffs are bent so that they form right angles with the inner contour of the body shell, as well as the choice of the height A of the element within the limits of A-(2-3)B, where B is the largest size of the granules of the substance B-(2 --7)mMm, ensures uniform working out of the entire mass of the substance and contributes to the creation of conditions that exclude the "leaking" of carbon dioxide from the exhaled air into the inhaled air. These conditions arise due to

The absence of long channels between the granules of the substance and the walls of the component parts of each element of the heat distributor, and the satisfactory sealing of the right angles between the core and the adjacent bent ends of the staff and ribs of the elements with the substance; - making the shafts and ribs of the heat distributor element from spring steel and placing the ends of the bent ends to ensure contact with the cartridge sleeve, or connecting the bent ends of the shaft and ribs of the 7/0 elements of the heat distributor to the sleeve by electric welding with the provision of thermal contact contributes to the effective removal of heat from the zone of chemical reactions in a layer of matter on the outside through the shell of the case, which is cooled due to heat transfer and heat radiation to the environment; - execution of each element of the heat distributor with galvanic copper coating of the entire surface ensures | Volnov I.Y., "Peroxide compounds of alkali metals", Nauka, M., 1980, p. 85) uniform 7/5 distribution of heat over the mass of the substance and acts as a catalyst in the course of chemical reactions, which creates optimal conditions for the uniform working out of the entire mass of the substance and increasing the time of the protective effect of the respiratory apparatus.

The essence of the useful model is explained by the drawings, where: - Fig. 1 shows the general view of the breathing apparatus with an open cover (in a state of readiness for use); - Fig. 2 shows a regenerative cartridge (longitudinal section); - Fig. 3 shows the cross-section A-A of Fig. 2; - Fig. 4 shows a cross-section B-B of Fig. 2 (an embodiment); - Fig. 5 shows the element of the heat distributor in a free state (axonometric projection);

The isolation breathing apparatus (Fig. 1) has a regenerative cartridge 1, which is fixed inside the body 2 on shock absorbers З and 4. On the end cover 5 (Fig. 2) of the cartridge 1, there are inhalation 6 and exhalation nozzles 7, to which c) a breathing bag is attached 8, a corrugated tube U with a front part in the form of a mouthpiece 10 with a nose clip 11. On the cover 5 there is a starting device 12, which has a starting briquette, an ampoule with an initiating liquid and a mechanism for destroying ampoules (not shown). A shoulder strap 13 is attached to the body 2. p

The regenerative cartridge (Fig. 2) has a body 14 with end caps 5 and 15, horizontal perforated partitions 16 and 17, which, with the end caps 5 and 15, form cavities that communicate with the nozzles 6 and 7. Between the partitions 16 and 17, a spacer is placed of oxygen-containing substance 18 and a heat distributor 19 in the mass of substance 18. Oxygen-containing substance 18 is produced in the form of granules with dimensions within (2-7) mm.

The heat distributor 19 has a set (for example, 4 pieces) of the same elements 20 (Fig. 5), which are made as

Metal staff 21 with ribs 22 and 23 of different sizes attached to it. The free ends of the ribs 22, 23 and washers 21 are bent so that they form right angles with the casing 14. As a result of the details of the element made of spring steel, the ends of the bent ends of the staffs 21 and ribs 22, 23 are in contact with the casing 14.

It is desirable that the free ends of the ribs 23 and the staffs 21 were connected to the body shell 14 (Fig. 4) by electric welding (Kt - contact point) with the provision of thermal contact, i.e. without a gap between them. WITH

It is also desirable that the surface of each element 20 of the heat spreader has a galvanic coating of copper. c The height of the element of the heat distributor should be chosen within (14-21) mm, which allows the location of 2-3 granules of the substance along and adjacent to the planes of the ribs and the staff. This ensures a small length of the channels between the "" granules and the planes of the component parts of the element compared to the height of the substance layer in the cartridge (which is equal to 50-120 mm), which prevents carbon dioxide from escaping along the ribs and staffs from the exhaled air to the inhaled air. o In case 14 (Fig. .3) the elements 20 of the heat distributor 19 are placed opposite to each other, that is, the even ones are on one side of the housing, and the odd ones are on the opposite side of the housing: this excludes the coincidence of the contour of each element 20 with the contours of neighboring elements and the appearance of long channels between the granules of the substance and the walls of the headquarters 21 and ribs c 22 and 23, the plane of which coincides with the direction of movement of inhaled and exhaled air in the layer of substance 18.

The cavity of the starting device 12 is connected to the cavity of the cartridge 1 and the cavity of the respiratory bag 8 and the front part. The breathing bag has an excess pressure valve 24. A dust-capturing filter 25 is installed on the partition 17. The mouthpiece 10 is placed on the body of the heat-moisture exchanger 27, connected to the tube 9.

When using the breathing apparatus as intended, the cover is separated from the case and thrown away (no

SU 55 is shown), which is connected by a flexible cord to the ampoule destruction mechanism of the starting device 12. When the ampoule is destroyed, the initiating liquid (sulphuric acid solution) enters the starting briquette. When the starting device 12 is activated, the briquette decomposes with the release of hot briquette gas containing oxygen and water vapor. The gas enters the cavity of the cartridge 1, the bag 8 and the corrugated tube 9 with the front part.

The amount of oxygen released by the briquette is sufficient for the device user to breathe in the initial period, that is, until the heat and moisture of the briquette gas, as well as the carbon dioxide and moisture of the exhaled air, entering the cartridge 1 through the mouthpiece 10, the tube 9 and nozzle 6 activate the course of chemical reactions in the layer of substance 18, as a result of which oxygen is released in an amount sufficient for human breathing during the protective action of the device.

The chemical reactions of recovery in the regenerative cartridge proceed with the release of heat. Elements 20 b5 of the heat distributor 19 contribute to the uniform heating of the granules of the substance 18 and divert part of the heat to the walls of the casing 14 of the cartridge 1, which emit it into the environment.

Air purified from carbon dioxide and enriched with oxygen flows from the cavity of the cartridge into the cavity of the bag 8. An excess pressure valve 24 is mounted in the bag, which releases part of the air into the environment when the bag 8 is filled, which reduces exhalation resistance and improves the breathing conditions of a person in the apparatus.

When breathing, the air goes in the opposite direction, that is, from the bag 8 through the nozzle 7, it enters the cavity of the cartridge 1, and then through the partition 16 into the interlayer of the substance 18, the perforated partition 17, the dust-capturing filter 25 and the nozzle 6 into the corrugated tube 9 with the heat-moisture exchanger 27, the mouthpiece 10 and further into the human respiratory tract. Thanks to the heat-moisture exchanger 27, the temperature of the inhaled air decreases due to heat consumption for the evaporation of moisture from synthetic fibers, which remained on them after exhalation. 70 In comparison with the nearest analogue, the proposed regenerative cartridge contributes to the improvement of the operational characteristics of the breathing apparatus, because it provides an increase in the time of the protective action of the apparatus and the improvement of human breathing conditions when it is used as intended.

The regenerative cartridge was used in the development of the SiI-30 mine isolation self-rescuer, which is being prepared for release by OJSC "Donetsk Plant of Mining Rescue Equipment" every 2 (ee)

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Claims (5)

Formula of the invention that 2 1. Regenerative cartridge of an isolation breathing apparatus with chemically bound oxygen, containing a body with inhalation and exhalation nozzles, a granular oxygen-containing substance between perforated partitions that form cavities with the lids of the body, connected to the nozzles, a heat distributor in the mass of the substance, a dust-capturing filter in the cavity with an inhalation nozzle and a starting device, which is distinguished by the fact that the 09 heat distributor is made in the form of a set of identical elements, placed opposite each other without matching the contour of each of them with the contours of neighboring elements, while each element is made as a metal staff with two-sided ribs of different sizes attached to it, and the free ends of the ribs and staffs are bent so that 9 they form right angles with the inner contour of the body shell. co 2. The regenerative cartridge of the isolation breathing apparatus according to claim 1, which differs in that the height A and Zo of each element is within A-(2-3)B, where B is the size of the granules of the oxygen-containing substance, which is equal to B-2-7 mm. " 3. The regenerative cartridge of the isolation breathing apparatus according to claims 1, 2, which is characterized by the fact that the staff and ribs of the element are made of spring steel and are placed to ensure the contact of the ends of the bent ends (she) with the body shell. 4. The regenerative cartridge of the isolation breathing apparatus according to claims 1,2, which differs in that the bent ends of the ribs and the staffs of each element of the heat distributor are connected to the shell by electric welding "z with the provision of thermal contact. p - . - .. 5. The regenerative cartridge of the isolation breathing apparatus according to claims 1-3, which is characterized by the fact that the surface of each element of the heat distributor has a galvanic coating of copper. Official Bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated Ge) microcircuits", 2005, M 8, 15.08.2005. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. 1 IC e) So 60 b5