RU2759158C1 - Antihypothermic self-contained device - Google Patents

Abstract

FIELD: medical equipment.

SUBSTANCE: invention relates to medical equipment, namely to an antihypothermal autonomous device containing a central pipe, a drainage channel, a heat supply nozzle. The device consists of a half mask, an obturator, head harness, inhalation valves located on the sides of the half mask, and an exhalation valve located in the lower part of the half mask, to which a central branch pipe is hermetically connected, connected to a drainage channel formed of a hollow tube, in the upper part of which a cover is mounted for loading adsorption cartridges made with the possibility of alternate feeding through the metering valve and disposal after use through the dump valves. A bifurcated corrugated branch pipe is hermetically connected to the drainage channel, equipped at the ends with flat heat supply nozzles with triple branch channels. The device is made with the possibility of placing it under outerwear and fixing the drainage channel with fixation belts. The metering valve is made with the ability to automatically change the adsorption cartridges under the weight of unused adsorption cartridges.

EFFECT: development of a reliable device for autonomous heating of the human body, capable of minimizing the risks of hypothermia in conditions of negative temperatures with the possibility of long and comfortable use.

1 cl, 1 dwg

Description

The invention relates to personal protective equipment, in particular to means of protection against low temperatures, and can be used in conditions associated with the risk of damage to body tissues under the influence of negative temperatures.

Known mask for respiratory protection from cold (RF patent No. 2045301) containing a housing made of a material with low thermal conductivity, in which an opening for inhalation and exhalation is mounted, a heat exchanger made of a material with high thermal conductivity located inside the housing, while the side walls of the heat exchanger attached to the body. The walls of the body form a chamber between the heat exchanger and the hole for inhalation and exhalation, to which a hollow nozzle is connected through the hole for inhalation and exhalation, made of an elastic material, the thermal conductivity of which is higher than the thermal conductivity of the body material, and one or more holes are located at the bottom of the hollow nozzle.

The disadvantage of the known device is the limited scope, due only to the protection of the respiratory system.

An individual body heater is known (patent for utility model No. 40577), which includes a working medium pump connected by pipelines with suction and discharge valves and a heat exchanger interacting with the human body. In the line with a gaseous medium, in the section between the pump of the working medium and the outlet of the heat exchanger, there is an element of hydraulic resistance, in the form of a valve or a throttle.

The disadvantages of the known device are the complex design and limited time of use of the device associated with the need for continuous work of the user's muscles to maintain the device.

Known device for heating the human body (patent for utility model No. 96773), containing an air duct, the inlet part of which is configured to accommodate its end in the human mouth, and the outlet part is made with one or more outlet openings with the possibility of placing near the heated areas of the human body ... The end of the inlet part of the air duct is equipped with a mouthpiece, while the air duct can be equipped with an element that creates an increased aerodynamic resistance in it. The device can be equipped with a dehumidifier and a condensate collection tank.

The disadvantages of the known device are the complexity of use associated with the need to constantly hold the mouthpiece in the mouth, as well as increased breathing resistance caused by the presence of a resistance element in the structure.

Of the known technical solutions, the closest in purpose and technical essence to the claimed object is an individual protection device against low temperatures (patent for utility model No. 17257) containing a means for utilizing the heat of exhaled air, which is made in the form of an air duct, the inlet part of which is located near the mouth a person, and the output near the areas of the body that are most exposed to negative temperatures. The airway can be equipped with a moisture-absorbing air dryer and a mask with inhalation and exhalation valves.

The disadvantages of the known device are the limited time of use, which directly depends on the moisture saturation of the desiccant and the difficulty in breathing of the user associated with the presence of a section with increased aerodynamic resistance in the structure.

The purpose of the invention is to develop a reliable device for autonomous heating of the human body, capable of minimizing the risks of hypothermia, in conditions of negative temperatures with the possibility of long and comfortable use.

This goal is achieved by the fact that an antihypothermal autonomous device is proposed, where the heat released by a person during respiration is used to minimize the negative effect of negative temperatures.

The autonomous device for heating the human body (Fig. 1) consists of a half mask [1], an obturator [2], head harness [3], inhalation valves [4] located on the sides of the half mask [1], an exhalation valve is mounted in the lower part of the half mask [ 5]. The exhalation valve [5] has a hermetically sealed central branch pipe [6] connected to the drainage channel [7]. The drainage channel [7] is formed from a hollow tube, in the upper part of which a loading cover [8] is mounted, through which adsorption cartridges [16] are loaded.

The drainage channel is equipped with fixation straps [9], while in the lower part there is a dump valve for the lower part of the drainage channel [10]. A bifurcated corrugated branch pipe [11], equipped at the ends with heat supply nozzles [12], made flat with triple branch channels [13], is hermetically connected to the drainage channel [7]. In this case, the drainage channel [7] in the central part is equipped with a metering valve [14] and a discharge valve for the central part of the drainage channel [15].

The device works as follows: when using, open the loading lid [8] and load the drying channel [7] with adsorption cartridges [16] and close the loading lid [8], then press the half mask [1] to the face and fix the headband straps [3], the device placed under outerwear and secured with fixation straps [9]. During use, the user inhales air through the inhalation valves [4]. Exhalation occurs through the exhalation valve [5], to which the central nozzle [6] is hermetically connected, through which the exhaled air of hypothermia, in conditions of negative temperatures with the possibility of long and comfortable use.

This goal is achieved by the fact that an antihypothermal autonomous device is proposed, where the heat released by a person during respiration is used to minimize the negative effect of negative temperatures.

An autonomous heating device for the human body (Fig. 1) consists of a half mask [1], an obturator [2], head harness [3], inhalation valves [4] located on the sides of the half mask [1], an exhalation valve is mounted in the lower part of the half mask [5 ]. The exhalation valve [5] has a hermetically sealed central branch pipe [6] connected to the drainage channel [7]. The drainage channel [7] is formed from a hollow tube, in the upper part of which a loading cover [8] is mounted, through which adsorption cartridges [16] are loaded.

The drainage channel is equipped with fixation straps [9], while in the lower part there is a dump valve for the lower part of the drainage channel [10]. A bifurcated corrugated branch pipe [11], equipped at the ends with heat supply nozzles [12], made flat with triple branch channels [13], is hermetically connected to the drainage channel [7]. In this case, the drainage channel [7] in the central part is equipped with a metering valve [14] and a discharge valve for the central part of the drainage channel [15].

The device works as follows: when using, open the loading lid [8] and load the drying channel [7] with adsorption cartridges [16] and close the loading lid [8], then press the half mask [1] to the face and fix the headband straps [3], the device placed under outerwear and secured with fixation straps [9]. During use, the user inhales air through the inhalation valves [4]. The exhalation takes place through the exhalation valve [5], to which the central branch pipe [6] is hermetically connected, through which the exhaled air is utilized.

When using the device during the user's breathing, air enters through the central nozzle [6], through which it passes into the drying channel [7], where it passes through the adsorption cartridge [16]. Passing through the adsorption cartridge [16], the air is cleared of harmful impurities, after which it flows through the bifurcated corrugated pipe [11] through the inhalation valves [4] to the respiratory organs. The exhaled air is discharged through the exhalation valve [5].

The proposed device makes it possible to use the heat of the air exhaled by the user to heat the body, minimizing the risks of hypothermia in conditions of negative temperatures. The presence of an air dehumidifier in the design creates comfortable conditions for long-term use, the ejected cartridges indicate the user's trajectory in an open area and, if a search operation is necessary, simplify the task of finding a user.

If necessary, the device can be used to protect the respiratory system from the inhalation of hazardous and harmful substances.

Claims (1)

An antihypothermal autonomous device containing a central branch pipe, a drying channel, a heat supply nozzle, characterized in that the device consists of a half mask, an obturator, headband belts, inhalation valves located on the sides of the half mask, and an exhalation valve located in the lower part of the half mask, to which it is sealed a central branch pipe connected to a drainage channel formed from a hollow tube, in the upper part of which a cover is mounted for loading adsorption cartridges made with the possibility of alternately feeding through a metering valve and disposal after use through discharge valves, while a bifurcated corrugated branch pipe is hermetically connected to the drainage channel equipped at the ends with heat supply nozzles made flat with triple branch channels, while the device is made with the possibility of placing under outerwear and fixing the drainage channel with fixation straps, also the metering valve is made with the ability to automatic change of adsorption cartridges under the weight of unused adsorption cartridges.

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