RU2323754C1 - Respiratory apparatus to perform cleaning of gas medium in hermetic object - Google Patents

Abstract

FIELD: mechanics.

SUBSTANCE: respiratory apparatus to perform cleaning of gas medium in hermetic object consists of face part and absorbing cartridge with carbon dioxide as absorber; face part and absorbing cartridge are connected to each other with a hose pipe. Absorbing cartridge is equipped with an absorber on lithium hydroxide base, the said absorber cartridge is made as perforated blocks. Inhale valve is located directly in the face part or in the hose pipe. Exhale valve is installed into the hose pipe between the inhale valve and the absorbing cartridge creating a free volume of 100-300 cubic cm between the face part and the inhale valve. Exhale branch is installed in the lower part of the absorbing cartridge at the outlet to the hermetic object.

EFFECT: to increase efficiency of gas medium cleaning in a hermetic object due to reduction of exhale resistance and utilization of physiological characteristics of a human organism of members of the crew of a hermetic object.

2 cl, 1 dwg

Description

The invention relates to the field of respiratory protection and can be used to increase the efficiency of cleaning the gas environment in an inhabited pressure object.

From the prior art, a breathing apparatus for cleaning a gaseous medium in a pressurized object, comprising a front part and an absorption cartridge with a carbon dioxide absorber, which are connected directly to each other or by a hose, an inspiration valve and an exhalation valve (EP 0171551 A3, A62B 18 / 10.1986). In this device, the inspiratory and expiratory valves are located directly on the front part - the breathing mask of the breathing apparatus, which virtually eliminates the ingress of exhaled carbon dioxide into the stream of the inhaled gas medium, but does not provide the possibility of using the physiological characteristics of the body to increase the efficiency of cleaning the gas medium in the inhabited hermetic object.

The invention is aimed at improving the efficiency of cleaning the gaseous medium in an inhabited hermetic object by reducing the exhalation resistance and using the physiological characteristics of the organism of the hermetic object crew members who breathe through the inventive breathing apparatus.

The solution to this problem is ensured by the fact that in the inhalation apparatus for cleaning the gas medium in a pressure chamber containing a front part and an absorption cartridge with a carbon dioxide absorber, which are connected directly to each other or by a hose, the inspiration valve and the exhalation valve, according to the invention, the absorption cartridge is made with an absorber on based on lithium hydroxide in the form of hole blocks, the inspiration valve is located directly in the front part or in the hose, the exhalation valve is installed in the hose between the inspiration valve and the an integral cartridge with the formation of a free volume between the front part and the exhalation valve, comprising 100 ÷ 300 cm ³ , and an exhalation pipe is installed at the outlet of the pressure chamber in the lower part of the absorption cartridge.

In this case, the exhalation pipe is equipped with a removable plug.

The implementation of the absorption cartridge with an absorber based on lithium hydroxide (LiOH) in the form of hole blocks reduces the exhalation resistance, and the presence of free volume in the hose in front of the front part, in which when the gas is inhaled after the previous exhalation with a high content of carbon dioxide, causes a hypercapnic effect on an organism using a member of the crew breathing apparatus, which leads to an involuntary increase in pulmonary ventilation by two or more times and, accordingly, to an increase in the rate of absorption carbon dioxide absorber during exhalation and increase the efficiency of purification of the gaseous medium in the inhabited hermetic object. In this case, the placement of the exhalation pipe in the lower part of the absorption cartridge at the outlet to the pressurized object further increases the rate of absorption of carbon dioxide by the absorber in the absorption cartridge.

The drawing shows a General view of the breathing apparatus.

The breathing apparatus for cleaning the gas medium in the pressure chamber 1 contains a front part 2 and an absorption cartridge 3 for cleaning the gas medium in the gas pressure chamber, which is made with a carbon dioxide (carbon dioxide) absorber 4 based on lithium hydroxide (LiOH) in the form of hole blocks and connected with a hose 5 to the front part 2, the inspiration valve 6, which is located in the hose 5 or directly in the front part 2 (not shown in the drawing), the exhalation valve 7, which is installed in the hose 5 between the inspiration valve 6 and the absorption cartridge 3 with the formation of of the volume between the front part 2 and the exhaust valve 7 is 100 ÷ 300 cm ³ and the expiratory conduit 8, which is mounted at the bottom of the absorption of the cartridge 3 in the outlet germoobekt 1. expiratory branch pipe 8 is provided with a removable plug 9, which is installed in the storage and eliminates the possibility of moisture and carbon dioxide (carbon dioxide) entering the absorber 4.

The free volume of the hose 5 is determined experimentally and is 0.2 ÷ 0.6 of the average inspiratory volume for physiological reasons, which is assumed to be 500 cm ³ . It was found that if the free volume is less than 100 cm ³ , then there is no significant increase in the concentration of carbon dioxide on inspiration, and a weak hypercapnic effect on the body of a crew member using a breathing apparatus does not lead to a significant (noticeable) increase in the volume rate of spontaneous pulmonary ventilation, while increasing the free volume over 300 cm ³ of carbon dioxide concentration exceeds 3.5%, which can cause undesirable effects such as headache, increased heart Dye and increase in blood pressure (without reducing efficiency).

The invention is implemented as follows.

When in an inhabited gas-tight object 1, crew members breathe in a gas mixture, mainly air, using a breathing apparatus in which the exhaled gas stream is purified from carbon dioxide, and the oxygen in the gas-tight object 1 is replenished from any known source, for example, from an oxygen cylinder (not shown in the drawing). In this case, the inhaled gas mixture enters from the pressurized object 1 through the inspiration valve 6 into the free volume of the hose 5, in which the gas mixture (air) is located after the previous exhalation with an increased concentration (more than 3.5%) of carbon dioxide, and the gas mixture enriched in carbon dioxide is sent to the front part 2 (mask or mouthpiece) and further to the respiratory system. The exhaled gas stream passes through the free volume through the hose 5 and through the exhalation valve 7 enters into the hole blocks of the absorber layer 4 of the absorption cartridge 3, where carbon dioxide is absorbed, and the purified gas mixture exits through the exhalation pipe 8 into the pressure chamber 1. As a result, the hypercapnic effect is increased the concentration of carbon dioxide on the body of a crew member using a breathing apparatus causes an involuntary increase in the volumetric rate of pulmonary ventilation, which leads to an increase in increase in the absorption of carbon dioxide absorber 4, and accordingly improves the purification efficiency of the gaseous medium in germoobekte 1.

Claims (2)

1. A breathing apparatus for cleaning a gaseous medium in a pressurized object, comprising a front part and an absorption cartridge with a carbon dioxide absorber, which are connected by a hose, an inspiration valve and an exhalation valve, characterized in that the absorption cartridge is made with a hole-based lithium hydroxide absorber in the form of holes blocks, the inspiratory valve is located directly in the front part or in the hose, the exhalation valve is installed in the hose between the inspiratory valve and the absorption cartridge with the formation of free volume between the front part and exhalation valve to constituting 100 ÷ 300 cm ^3, and the bottom of the absorption cartridge outlet germoobekt installed in the expiratory limb. 2. The breathing apparatus according to claim 1, characterized in that the expiration pipe is equipped with a removable plug.