RU2036673C1 - Respiratory apparatus - Google Patents

Abstract

FIELD: medical engineering. SUBSTANCE: this respiratory apparatus incorporates piston-type pressure regulator 3 with valve 13, automatic breathing apparatus 5, and minimum air pressure audio warning device 9 disposed in subdiaphragm space C of automatic breathing apparatus 5. Pressure regulator 3 is provided with spring-loaded sleeve 17 which encompasses end fitting 16 of piston 12. Cross-sectional area of piston end fitting is equal to through-flow area of seat in valve 13 and high-pressure space E of pressure regulator 3 communicates with space D of sleeve 17 via passage 20. EFFECT: more sophisticated design. 1 dwg

Description

 The invention relates to livelihoods, and in particular to devices for protecting the respiratory system of a person in an environment unsuitable for breathing.

Known breathing apparatus containing a source of compressed air, a gearbox, a breathing machine, a breathing mask and a stock pointer minimum air pressure [1]
The disadvantages of the apparatus include the fact that the stock pointer is mounted directly on the gear housing or is carried out on the hose, and pressure is controlled by probing the position of the stem by hand. With the cylinder valve open, the indicator hose is always under high pressure, and damage to it can lead to depressurization of the entire line. In addition, before opening the cylinder valve and after the pressure drops to the set minimum level, the pointer must be manually engaged.

 Also known is a breathing apparatus with a physiological indicator of the minimum air pressure [2] When the pressure in this device drops to the minimum, the main air passage closes and there is only a workaround through the nozzle with a reduced flow rate of 5-10 l / min. The shortage of air that comes sharply for breathing serves as a physiological signal of a minimum supply and is a psychologically unpleasant moment. Normal feed must be restored manually.

The closest is a breathing apparatus containing a source of compressed air, a piston gearbox with a pressure reducing valve, a lung machine, a breathing mask and an audible warning device for minimum air supply [3]
The disadvantage of this device is the location of the audible warning device on the hose, which is under high pressure and in a place remote from the hearing organs, which makes it difficult to receive a signal during operation in an area with a high noise level. In addition, such an arrangement and constructive design of the minimum air supply warning device does not allow the use of a breathing apparatus under water. These disadvantages reduce the operational characteristics of the apparatus.

 An object of the invention is to improve the operational characteristics of the apparatus by eliminating these disadvantages.

 The task is achieved by the fact that in a known breathing apparatus containing a source of compressed air, a piston gear with a pressure reducing valve, a lung machine, a breathing mask and an audible warning device of minimum air supply, the latter is installed in the submembrane cavity of the lung machine and has a non-return valve through which it communicates with the entrance cavity of the pulmonary machine. The gearbox is equipped with a sleeve spring-loaded relative to the housing, which covers a shank made on the gearbox piston, the shell cavity being in communication with the gearbox high pressure cavity, and the cross-sectional area of the piston shaft is equal to the passage area of the pressure reducing seat.

 The drawing shows a diagram of the apparatus.

 The breathing apparatus contains a source of compressed air 1 with a shut-off valve 2 and a gear 3, the low pressure cavity A of which is connected via a hose 4 to the inlet cavity B of the pulmonary automaton 5 mounted on the breathing mask 6. In the submembrane cavity B of the pulmonary automaton formed by a spring-loaded membrane 7 and valve 8, an audible warning device 9 of minimum air supply with a check valve 10 is installed, through which the audible warning device communicates with the input cavity B of the pulmonary machine. The gearbox has a housing in which the valve seat 11 and the piston 12 with the valve 13 are installed. To set the working pressure, the gearbox is equipped with a spring 14 and an adjusting nut 15. In addition, the piston has a shank 16, which covers the sleeve 17. The cross-sectional area of the piston shaft is equal to the area bore of the valve seat. A spring 18 is installed between the housing and the sleeve with an adjustable force by means of the nut 19. The inner cavity Г of the sleeve and the high-pressure cavity D of the gearbox are connected by a channel 20. The respiratory mask of the apparatus has an exhalation valve 21.

 The breathing apparatus operates as follows.

 When the shut-off valve 2 of the compressed air source 1 is opened, air under pressure enters the high-pressure cavity D of the gearbox 3. Through valve 13, air enters the low-pressure cavity A until the pressure on the piston 12 exceeds the force of the spring 14 and the valve closes. In this case, working pressure will be established in cavity A. As air flows, the pressure on the piston 12 in the cavity A drops and it moves, opening the valve 13 until the working pressure in the cavity A is again established. Through the hose 4, air under the working pressure enters the pulmonary machine 5. In the inspiration phase, a submembrane cavity In a pulmonary machine, a vacuum is created. The membrane 7, moving, opens the valve 8 and the air enters the cavity In, associated with the cavity of the breathing mask. At the inlet phase, air through the exhalation valve 21 enters the atmosphere, while in the cavity B creates excessive pressure, which, acting on the membrane 7, closes the valve 8.

 When the air pressure in the source 1 decreases to a predetermined minimum value, the pressure in the sleeve cavity G decreases, the force of the spring 18 moves it until it contacts the piston 12, and the force of the spring 18 is added to the force of the spring 14. Therefore, more force is required to close valve 13, which the turn leads to an increase in operating pressure in the cavity A of the gearbox and in the cavity B of the pulmonary automaton. With this increased working pressure, the check valve 10 opens and the audible alarm 9 of the minimum air supply is triggered, which indicates the need to stop working with the device.

 The invention allows to fully automate the operation of the signal device and bring it as close as possible to the hearing organs.

Claims (1)

 A BREATHING APPLIANCE containing a source of compressed air, a piston gear with a pressure reducing valve, a lung machine, a breathing mask and an audible warning device for minimum air supply, characterized in that the sound signaling device for air supply is installed in the submembrane cavity of the pulmonary machine and communicates with its inlet via a check valve, and the gearbox is equipped with a sleeve spring-loaded relative to the housing, which covers the shank made on the gearbox piston, and the cross-sectional area is tail the wick is equal to the area of the passage section of the seat of the pressure reducing valve, and the high pressure cavity of the gearbox is in communication with the sleeve cavity.