UA74707C2 - Regenerating cartridge of isolating breathing apparatus - Google Patents

Abstract

A regenerating cartridge contains a housing with covers at the end-faces, an actuator, and granulated oxygen-containing substance divided by the layers by internal and external perforated partitions. Inside the cartridge, between the covers and the external partitions, the heat trap filters are mounted, while in the layers of the substance the plates of heat distributors are located. The air flow dissector is located in the upper cavity of the cartridge frontally to the pipe for the expired air. In the lower cavity of the cartridge, the springs affecting the partitions and the layers of the substance are installed.

Description

Description of the invention

The invention relates to parts of breathing apparatuses with chemically bonded oxygen, such as mine insulating 2 self-rescuers, which are used in the mining industry to protect the respiratory organs in adverse conditions, and can be used in the chemical and other industries.

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

Мо1106518, АЭ2819/02, Аб287/08, 19831, which has a case with end caps, a trigger, and inhalation and exhalation nozzles; which are placed on the top cover, installed with a gap relative to the walls of the case, an internal 70 container with a granular oxygen-containing substance (potassium peroxide KO"), which is divided by horizontal perforated partitions into layers, in which heat distributors are placed.

The central part of the inner tube has a distribution chamber, which is formed by perforated partitions and is connected to the exhalation nozzle by a central tube passing through the layer of substance located above it. The heat spreaders in the layers of the oxygen-containing substance are made of sheet metal in the form of 12 cross-ribbed spatial lattices with compartments in the form of polyhedra. When exhaling, the air enters the distribution chamber through the central tube, and then part of it passes through the upper layers of the substance, and the other - through the lower layers, after which both flows are connected in the cavity of the inhalation nozzle, which is connected to the cavity of the respiratory bag.

The disadvantage of this regenerative cartridge is the possibility of deviating the time of the protective action of the device from the nominal value, which is due to the instability and uncertainty of the amount of carbon dioxide "leaking" from the exhaled air to the inhaled air, which depends not only on the conditions of the flow of exothermic chemical reactions in the substance cartridge, which is determined by the temperature distribution in the mass of the oxygen-containing substance, but also by the dimensions of the channels between the shapeless granules of the substance, and between the granules and the flat walls of the meshes of the cross-ribbed spatial grids of heat distributors. with

This shortcoming is eliminated in the regenerative cartridge of the isolating breathing apparatus (patent of Ukraine 50641 A, (U

Ab2819/02, 20021, which has a housing with a lid, a starting device, an air flow divider, and inhalation and exhalation nozzles placed on the top cover, an inner tube installed in the housing with a gap relative to its walls, which is filled with a granular oxygen-containing substance, separated by external and by internal horizontal perforated partitions into layers, while the internal partitions form a distribution chamber in the central part of the casing, which is connected by means of a tube through the interlayers. ("With an exhalation nozzle, heat distributors consisting of plates rigidly connected to internal partitions so that their plane coincides with the direction of air movement in the layers of the substance, while between the free ends of the plates and the external partitions on the opposite sides of the "And layers of matter, plates of heat distributors are perforated.

This design of the regenerative cartridge improves the operational characteristics of the breathing apparatus, because it provides an increase in the time of the protective effect due to the prevention of premature "leaping" of carbon dioxide from the exhaled air to the inhaled air, as well as due to ensuring the uniform exhausting of oxygen-containing substances in the layers. "

As a prototype, a regenerative cartridge of an isolating breathing apparatus with chemically bound oxygen according to Ukrainian patent Mo50641 was chosen. c The cartridge of this design has the following disadvantages:

Because of the complexity of the design and the large number of parts, which not only increases the time required to manufacture the cartridge, but also increases its weight and the weight of the device as a whole; the presence of a large number of horizontal perforated partitions and vertical perforated 49 plates of heat distributors leads to the crushing of granules of oxygen-containing substance when acting on the device and vibration and shock loads that arise in the process of the miner's daily descent (ascent) into the mine and "driving" his movement through the compressed mine workings. The consequence of crushing the granules of the substance in the cartridge is an increase in breathing resistance when using the device as intended. 7 On the basis of the above, it follows that the task, the solution of which is aimed at the invention, which is claimed in 20, is the elimination of the indicated shortcomings, that is, the improvement of the operational characteristics of the cartridge of the breathing apparatus by improving the breathing conditions due to the reduction of the resistance of inhalation and exhalation, as well as the reduction of t mass of the cartridge and simplification of its design.

The solution to this problem is achieved by the fact that the regenerative cartridge of the isolating breathing apparatus, which has a case with a lid, a starting device and the inhalation and exhalation nozzles, placed on the upper cover, 29 granular oxygen-containing substance, which is separated by external and internal horizontal perforated

HF) with two-layer partitions, cavities between the lids and external partitions, connected to the intake and exhalation pipes, heat distributors in the form of perforated plates, the plane of which coincides with the direction of air movement in the layers of the substance, dust-catching filters, air flow divider, according to of the invention, has an additional horizontal perforated bridge, on both sides of which 60 internal partitions in the form of wire nets with molded pockets are rigidly attached, which form free cavities with the additional partition, while the lower cavity between the lid and the external partition is connected to the inhalation nozzle using passed through the layers of the substance, the bridge and the outer partitions of the central tube, and contains compression springs that act on the outer partition and the bridge through the layer of the substance, while the partition and the bridge are located in the housing with the possibility of movement in the direction of the axis of the cartridge, and the air flow divider is made in appearance of a flat sheet with a longitudinal corrugation along the axis, attached rigidly to the cover and oriented with a slope to the outer partition and placed in the upper cavity between the cover and the outer partition.

The performance of the insulating breathing apparatus with such a regenerative cartridge is distinguished by improved operational characteristics, because it provides comfortable breathing conditions, characterized by a decrease in inhalation and exhalation resistance, a decrease in the temperature of the inhaled air when the normalized volume fraction of carbon dioxide in the inhaled air is reached during the protective effect of the apparatus, and also because it has a lower mass compared to breathing apparatuses with chemically bound oxygen of the same nominal time of protective action.

This is explained as follows: 70 execution of internal perforated partitions in the form of wire meshes, which are rigidly attached to both sides of an additional horizontal perforated bridge made of thin sheet steel and have molded pockets that form free cavities with the additional bridge, firstly, reduces the "leaking" of dioxide carbon from exhaled air to inhaled air due to the reduction of the length of the channels between the shapeless granules of the substance, and between the granules and the flat surfaces of the plates of heat distributors, as well as /5 averages the volume fraction of carbon dioxide in the air flow, which enters from one layer of the substance into the second layer; secondly, it reduces the air flow resistance, because it prevents clogging of the perforation holes of the jumper with granules of a substance that have the same dimensions as the holes of the jumper; the location in the upper cavity of the housing between the cover and the outer partition in front of the exhalation nozzle of the air flow splitter, which is made in the form of a flat sheet with a longitudinal corrugation along the axis and is rigidly attached to the cover and oriented with a slope to the outer partition, ensures uniform distribution of the flow of exhaled air along the cross section interlayers of the substance and uniform working of the substance in all zones between the heat spreader plates; the connection of the lower cavity between the cover and the outer partition by the central tube with the inhalation nozzle, to which the bag of the breathing apparatus is attached, allows during the inhalation phase to ensure the removal of heat from the layers of the substance with a flow of much less heated air, which enters the cartridge from the bag cooled by heat transfer and heat radiation to the external environment through the walls of the bag. This prevents premature sintering of substance granules during the flow of chemical reactions in the layers, and therefore increases the resistance of inhalation and exhalation; the placement of an additional jumper and an external partition in the housing with the possibility of movement in the direction of the longitudinal axis of the cartridge under the action of compression springs, which are located in the lower cavity of the housing, excludes the possibility of free mutual movement of granules of substances in the layers, the possibility of their movement relative to perforated partitions and perforated plates heat spreaders, and therefore the crushing of food granules and increased breathing resistance when using the device as intended; reducing the number of horizontal perforated plates made of thin sheet steel, making part of them from 5 wire mesh simplifies the design of the regenerative cartridge, reduces the complexity of its manufacture and its weight. All this improves the operational characteristics of the breathing apparatus.

The essence of the invention is explained by the drawings, where: Fig. 1 shows a schematic diagram of an isolating breathing apparatus, in which the claimed regenerative cartridge is used; Fig. 2 shows a regenerative cartridge; from c on Fig. 3Z shows the section A-A of Fig. 2. . The rescue breathing apparatus (Fig. 1, 2) has a regenerative cartridge 1, which is placed in the cavity of the case 2 and? on rubber shock absorbers Z and 4. On the cover 5 of the cartridge 1 there is a trigger 6 and inhalation 7 and exhalation nozzles 8, to which a breathing bag 9 with an excess pressure valve 10 and a corrugated tube 11 with a front part in the form of a mouthpiece 12 and a nose clip 13 are attached The starting device 6 has a starting briquette of -I oxygen-containing substance, an ampoule with an initiating liquid (sulphuric acid solution) and a mechanism for destroying the ampoule (not shown). ve A waist belt 14 is attached to the case 2. -I Regenerative cartridge 1 (Figs. 2 and 3) has a body 15 with a cover 5 and a cover 16 on the ends, an oxygen-containing 5or substance divided into layers 17 and 18 by external horizontal perforated partitions 19 and 20 with a perforated bridge 21 with internal perforated partitions 22 and 23 attached to it. "M Partitions 22 and 23 are made in the form of wire meshes with molded pockets that form free cavities 24 and 25 with the bridge 21. In the layers 17 and 18, substances are placed perforated plates of 26 heat distributors, the plane of which coincides with the direction of air movement in the layers of the substance.

In the upper cavity between the cover 5 and the outer partition 19, an air flow splitter 27 is placed in front of the exhalation nozzle 7, made in the form of a flat sheet with a longitudinal corrugation along the axis, and rigidly

Ф) attached to the cover 5. The cutter 27 is located with a slope to the outer partition 19. ka The lower cavity between the cover 16 and the outer partition 20 is connected to the inhalation nozzle 8 with the help of the substance passed through the layers 17 and 18, the bridge 21 and the partition 19, 20, 22 and 23 of the central tube 28. The lower cavity also contains compression springs 29, which act on the outer partition 20 and the bridge 21 with partitions 22 and 23 through the layer of substance 18.

The bridge 21 with partitions 22 and 23 and the partition 20 are placed in the housing 15 of the cartridge 1 with the possibility of movement in the direction of the longitudinal axis of the cartridge 1.

Dust-catching filters ZO and 31 are placed on the horizontal perforated partitions 19 and 20. 65 When using the breathing apparatus as intended, the cover (not shown) is separated from the case 2 and thrown away, which is connected by a kapron cord to the ampoule destruction mechanism. When the ampoule is destroyed, the initiating liquid falls on the starting briquette. When the starting device is activated, the briquette decomposes with the release of heated briquette gas, which contains oxygen and water vapor. The gas enters the upper cavity of the cartridge 1 and the cavity of the bag 9. The amount of oxygen released by the starter briquette is enough for the user of the device to breathe in the initial period, that is, until the heat and moisture of the briquette gas, as well as carbon dioxide and moisture of exhaled air, which enter the cartridge 1 through the mouthpiece 12 and the nozzle 7, activate the course of chemical reactions in the layers 17 and 18 of the oxygen-containing substance, as a result of which oxygen is released in an amount sufficient for breathing during the protective action of the device. The chemical reactions of recovery in the regenerative cartridge 1 proceed with the release of heat. Plates of heat distributors 26, which are 7/0 attached to the partitions 22 and 23, contribute to the uniform distribution of heat over the layers 17 and 18 of the oxygen-containing substance and lead heat to the walls of the case 15 and partitions 19 and 20, which radiate it into the environment.

The air freed from carbon dioxide enters the lower cavity of the cartridge 1, and from it through the tube 28 into the cavity of the bag 9. When the bag 9 is filled, excess oxygen is released into the environment through the valve 10.

During inhalation, the air flows in the opposite direction, that is, from the bag 9 through the tube 10 it enters the lower cavity of the cartridge 1. Then, through the ZO filter and the perforated partition 20, the substance enters the layer 18, and then through the bridge 21 and partitions 22 and 23 it enters the second layer 17 substances and a partition 19 and a filter 31 into the upper cavity of the cartridge 1, and then through the nozzle 7, the corrugated tube 11 and the mouthpiece 12 into the human respiratory organs.

During the phases of inhalation and exhalation, air enters the cavities 24 and between the outer partitions 22 and 23 and the bridge 21, where the volume fraction of carbon dioxide in the air flow is averaged before entering another layer of matter. This contributes to the efficiency of the sorption of carbon dioxide by an oxygen-containing substance that generates oxygen for human breathing. with

Claims (1)

29 Formula of the invention about The regenerative cartridge of the isolating breathing apparatus, which has a housing with covers, a trigger device and the inhalation and exhalation nozzles placed on the top cover, a granular oxygen-containing substance separated by with external and internal horizontal perforated partitions in two layers, cavities between the lids and external partitions, connected with inhalation and exhalation nozzles, heat distributors in the form of "2 perforated plates, the plane of which coincides with the direction of air movement in the layers of the substance, etc. dust-capturing filters, an air flow splitter, which differs in that it has an additional horizontal perforated bridge, on one or both sides of which internal partitions are rigidly attached in the form of "z5 wire meshes with molded pockets, which form free cavities with an additional partition, at the same time the lower cavity between the cap and the outer partition is connected to the inhalation port by means of a through-layer substance, a bridge and the outer partitions of the central tube, and contains compression springs that act on the outer partition and the bridge through the substance layer, the partition and the bridge being placed in body with the possibility of movement in the direction of the longitudinal axis of the cartridge, and the flow splitter " air is made in the form of a flat sheet with a longitudinal corrugation along the axis, attached rigidly to the cover and oriented with a slope to the outer partition and placed in the upper cavity between the cover and the outer partition. ;" -And sh» -And at 50 sh F) name) 60 b5