RU2119367C1 - Respiratory system - Google Patents

Abstract

FIELD: rescue service. SUBSTANCE: system body is made of two layers of insulating fabric with space between them. Submask and sealing cape are arranged inside hook. Regenerative canister is provided with layer of regenerative product, layer of absorber, changeable chemical oxygen generator, two internal and external nets positioned with clearance relative to each other. External nets pass air to respiratory organs. Layer of regenerative product and layer of absorber are arranged between nets. Changeable chemical oxygen generator is located between internal nets. System construction makes it possible to improve respiration process physiology at exhaled air regeneration. EFFECT: multiple starting of regenerative canister, regenerative product saving. 1 dwg, 1 tbl

Description

 The invention relates to a rescue service, in particular to the field of insulating means.

 Known insulating breathing apparatus containing a cap, an oxygen source and a carbon dioxide absorber are described in the patent materials of the abstract journal "Inventions of the World", in particular, in such as international application 85/04334, cl. A 62 B 7/02, 1985, Japanese application 60-28510, cl. A 62 B - 7/08, 17/04, 1985, U.S. Patent 4,583,535 C. A 62 B 7/00, 1986, French application 2559392, cl. A 62 B 7/00, 18/00, 1985, UK application 2209123, CL A 62 B 7/00, 1989.

The devices operate on the principle of supplying oxygen to the breath using various types of oxygen sources (compressed oxygen, chemically bound oxygen) and absorption (removal) of exhaled carbon dioxide in the CO ₂ absorber or into the surrounding atmosphere.

 According to descriptions of applications for apparatuses, design complexity (availability of oxygen (air) supply regulators) of pressure reduction tanks, single use (when using apparatuses with chemically bound oxygen), and an increased content of carbon dioxide on inspiration are noted.

 The most acceptable and closest analogue of the breathing apparatus in terms of design with respect to the apparatus described in this application is the sample described in British application 2209123, as it contains a large number of common essential features with the claimed invention and includes the following elements: cap with a sealing pelerine, a suction cup and regenerative cartridge with a layer of regenerative product.

 From the description of the analogue, we can assume that this device has low operational properties due to the accumulation in the volume of the cap, which acts as a breathing bag, an increased content of carbon dioxide and an increase in the temperature of the regenerated air under the cap.

 The present invention is to improve the operational characteristics of the breathing apparatus when changing the design of the regenerative cartridge using a two-layer cap.

 This object is achieved in that a chemically bound oxygen breathing apparatus containing a regenerative cartridge with an interchangeable oxygen generator and a cap with a suction pad further combine two layers of insulating fabric to form a sublayer space of the cap connected to the body of the regenerative cartridge having inside the regenerative product layer B- 2I and a layer of absorbent carbon dioxide CPI, equipped in the form of a developed surface.

 The difference of the proposed technical solution from the closest analogue is that the cap is made of two layers of insulating fabric with the formation of a space between them; the regenerative cartridge is additionally equipped with an absorber layer, a replaceable chemical oxygen generator, two internal and external grids installed with gaps relative to each other and with the possibility of air movement through external grids to the respiratory organs, the regenerative product layer and the absorber layer being placed between the grids, and a replaceable chemical an oxygen generator is placed between the internal grids.

 Such a constructive implementation of the apparatus makes it possible to reduce the influence of the general mechanical effect of the cap on the soft tissues of the head, improve the physiology of the breathing process during the regeneration of exhaled air, make it possible to repeatedly launch the regenerative cartridge and economical use of the relatively expensive regenerative product B-2I.

 Due to the lack of experimental estimates of the closest analogue in the description of UK application N 2209123, an IP-4 insulating breathing apparatus (technical description and operating instructions N 4901) consisting of a helmet-mask of a regenerative cartridge and a breathing bag was taken as a prototype for comparison .

 The drawing shows a variant of the proposed apparatus with improved performance characteristics, including: a cap with an external (1) and internal (2) layer of insulating fabric, a regenerative cartridge (3), an oxygen generator (10) with a solid oxygen source (11).

Inside the cap there is a suction cup (14) with inspiratory and expiratory valves, as well as a sealing elastic rubber drape (13) and a viewing window (15). The regenerative cartridge, in turn, contains a layer of absorbent CO ₂ KPI (4), enclosed between the internal (6) and external (5) grids, a layer of regenerative product B-2I (8), also enclosed between the internal (9) and external ( 7) nets. An oxygen generator (10) is placed in the free space between the internal grids (6.9), inside of which there is a solid oxygen source (11) and an absorber (hopcalite) layer (12) for cleaning impurities formed during combustion of a solid oxygen source.

 The regenerative cartridge on the upper part has three holes: middle - for connecting a suction cup (14) with an exhalation valve; right - to connect the suction cup (14) with the inspiration valve; left - to connect the cap.

 Such a constructive implementation of the apparatus allows to improve a number of performance indicators. Firstly, the presence of a two-layer cap eliminates the direct contact of the heated regenerated oxygen with the skin of the face and head, which allows maintaining the thermal state of a person at the required level.

 Secondly, the cap, in comparison with the helmet-mask, has practically no mechanical effect on the soft tissues of the head, which creates more comfortable conditions for the operation of the device.

Considering the design of the generative cartridge (3), the following positive aspects are noted: the regenerative cartridge is simple in the structural arrangement of nodes and parts; fairly unified, i.e. can be made on the basis of existing technology for the production of RP-5M regenerative cartridges; allows you to expand the surface of the layers of the regenerative product B-2I and the absorber of CO ₂ KPI, which helps to reduce breathing resistance and temperature of the inhaled air.

The connection to the cap of the regenerative cartridge provides an optimal breathing pattern: where the layer of the regenerative product B-2I works according to the pendulum breathing pattern (exhale is the movement of air from the internal grid (9) to the external (7), inhale, vice versa), which leads to the rational working out of regenerative product and reducing the growth of carbon dioxide content by inhalation, while the absorption layer of CO ₂ CPI works according to a curve scheme and only by inspiration, i.e. the movement of the inhaled air passes through the CPI layer from the internal grid (6) to the external (5), while additional absorption of CO ₂ from the inhaled air and a decrease in the temperature in the CPI layer of this air occur.

 The multiple launch of the regenerative cartridge in the conditions of private processing of the regenerative product is achieved by setting and replacing with a new chemical oxygen generator (10) inside the cartridge into the space formed between the layers of the B-2I product and the KhPI absorber. The ability to generate oxygen when burning a solid source of oxygen for 12-15 l / min from the first seconds of starting the generator allows you to abandon the setting of the starting briquette to start the cartridge.

In addition, by placing the generator inside the cartridge, the issue of the safe operation of the apparatus is solved, because there is no need to isolate a very warm surface of the generator housing (more than 150 ^o C) leading to burns, but, on the contrary, strong heating has positive effects on the process of oxygen regeneration by B-2I product (the initial period of product development is reduced, the necessary thermal state of the product is created for chemical reactions with the release of oxygen necessary for breathing) and the heating of the CPI absorber (absorption capacity improves when the cartridge is started at low temperatures).

The choice of the amount of regenerative product and CO ₂ absorber was carried out experimentally, subject to the following requirements for the operation of the apparatus:
the time of protective action at moderate load with pulmonary ventilation V = 45 l / min should be at least 45 minutes, the content of CO ₂ on inspiration no more than 2% vol;
temperature of inhaled air no more than 40 ^o C;
Resistance to breathing no more than 80 mm of water. Art.

 Experimental studies of the apparatus showed that the mass of the B-2I generative product should be at least 700 g, the absorber at least 750 g. Comparing the weight content of the regenerative product as the most expensive in monetary terms, in the proposed apparatus and IPA IP-4 (1150 ± 50 g) the most economical use of the product and the cheaper apparatus as a whole are noted.

 In addition, an experimental evaluation of the proposed device showed that in almost all respects this device is superior to IP-4.

 The test results of serial and experimental samples of breathing apparatus are shown in the table.

The device operates as follows. When the apparatus is started, the starting device of the oxygen generator is activated (10), while the oxygen emitted during combustion by a solid source enters the insulating system (regenerative cartridge (3), suction cup (14), the space formed by the external (1) and internal (2) layers of the insulating fabric of the cap), when the consumer is turned on to the apparatus (putting the cap on the head with hermetic around the man’s neck, pulling the suction cup to the face), it expends oxygen at one or another volume velocity that flows into the insulating system, which corresponds to the physiological oxygen demand for a given physical activity. Inhaled by the consumer, CO ₂ and water vapor are absorbed in the layer of the regenerative product B-2I (8) and provide the development of a regenerative product with oxygen evolution due to chemical reactions between CO ₂ and water vapor with superoxide compounds of alkali metals that form the basis of the regenerative product. Progressive CO ₂ concentrations that appear behind the product layer (8) on inspiration are absorbed by the absorber layer (4). This principle of regeneration and absorption is possible in the presence of a suction cup (14) with inspiratory and expiratory valves. At the same time, at the exhalation phase, the air after opening the exhalation valve and closing the inhalation valve of the suction pad (14) moves along the internal grid (9), bounding the product layer B-2I, through the product layer (8) towards the external grid (7) into the space between outer (1) and inner (2) surface of the insulating fabric of the hood. During the inspiratory phase, the exhalation valve of the suction cup (14) closes, and the inspiratory valve opens, and the inhaled air from the cap moves in the opposite direction through the product layer B-2I (8) towards the inner grid (6) bounding the CO ₂ absorber layer, through a CO ₂ absorber layer (4) and an external mesh (5) to the respiratory organs of the consumer. During the multiple start-up of the cartridge, the spent generator (10) is replaced with a new one.

Thus, the presence in the design of the apparatus of a two-layer cap, a regenerative cartridge with the expanded surface of the layers of the regenerative product and CO ₂ absorber, an oxygen generator with a solid oxygen source located inside the cartridge when it is subsequently replaced with a new one, allows the cartridge to be repeatedly launched with a simultaneous decrease in the temperature of the inhaled air from 50 to 38 ^o C while maintaining resistance to breathing throughout the life of the regenerative cartridge at the level of 50-70 mm of water. Art. reduce the weight of the equipped regenerative product from 1150 to 700 g and the general mechanical effect on the soft tissues of the head, which ultimately affects the improvement of the experimental characteristics of the apparatus as a whole, its reliability and safety during operation.

Claims (1)

 A breathing apparatus, including a cap with a sealing drape, a suction cup and a regenerative cartridge with a layer of regenerative product, characterized in that the cap is made of two layers of insulating fabric with the formation of a space between them, the regenerative cartridge is additionally equipped with an absorber layer, a replaceable chemical oxygen generator, two internal and external grids installed with gaps relative to each other and with the possibility of air movement through external grids to the respiratory organs, and the layer regenerates vnogo product and the absorber layer arranged between the grids, and a removable chemical oxygen generator is placed between the inner grids.

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