RU2006218C1 - Device for ventilation lungs - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: device has a pressure sensor, high-frequency oscillation generator, compressed air source including pneumatic valve, vibrators of thoral cuff, vibrators of abdominal cuff. At inhalation step a signal from the pressure source is applied to the high-frequency oscillation generator to which signal the compressed air source pneumatic valve is responsive, air from the compressed air source is applied to the thoral cuff vibrators. At the outlet step the pressure sensor is activated and compressed air through pneumatic valve is applied to the abdominal cuff vibrators. At both steps muscles taking part in respiration are subjected to vibration action. EFFECT: enhanced efficiency of respiration exercises of sportsmen and cosmonauts, reduced time in recovery of cosmonauts after long flights. 1 dwg

Description

 The invention relates to medicine and can be used for breathing exercises of athletes and astronauts.

 A known device with an external pneumatic belt acting on the chest in an external way.

 The disadvantage of this device is that it does not provide endurance training through biomechanical stimulation.

 A known artificial respiration apparatus containing a pneumatic chest cuff with vibrators fixed to it, a source of compressed air and a control system.

 The disadvantage of this device is that it also does not provide endurance training through biomechanical stimulation.

 The basis of the invention is the creation of a device for ventilation, providing endurance training by biomechanical stimulation.

 The problem is solved in that in a device for ventilation of the lungs containing a source of compressed air and a chest elastic cuff with vibrators installed on it, the new thing is that an inspiration sensor, an exit sensor, an abdominal elastic cuff with vibrators installed on it are introduced into it and a second pneumatic valve, a generator of high-frequency oscillations and a generator of low-frequency oscillations, while the input sensor through the generator of high-frequency oscillations is connected to the control input of the first pneumatic valve, setting The leg of the pneumatic line connecting the compressed air source and the chest cuff vibrators, and sensor output through a low frequency oscillator connected to the control input of the second pneumatic valve mounted in the air line between the compressed air source and the vibrator abdominal cuff.

 The drawing shows a device, General view. The device contains pressure sensors 1, 2 of inspiration and output of an electric type, generators 3, 4 of high-frequency and low-frequency oscillations, control pneumatic valves 5, 6, a source of compressed air 7, chest elastic cuff 8 with vibrators 9 (pneumatic vibrators), abdominal elastic cuff 10 with vibrators 11 The inlet pressure sensor 1 is connected through a generator of high-frequency vibrations 3, a pneumatic valve 5 with vibrators 9 of the chest cuff 8, and an exhalation pressure sensor 2 through a generator 4 of low-frequency oscillations, a pneumatic valve 6 with vibrators 11 of the abdominal cuff 10 .

 The device operates as follows.

 At the input stage, the signal from the pressure sensor 1 is fed to the generator of high-frequency oscillations 3, the signal from which is supplied to the pneumatic valve 5, and compressed air from the source 7 is supplied to the vibrators 9 of the chest cuff 8. At the output stage, the pressure sensor 2 is turned on, the signal from which is fed to generator 4 low-frequency oscillations. The pneumatic valve 6 is turned on and compressed air enters the vibrators 11 of the abdominal cuff 10. At both stages, a vibration effect is applied to the muscles involved in breathing. The effect of a high and low frequency of oscillations on the muscles is due to the fact that the reproduction of biomechanical resonance is ensured, as a result of which the circulatory functions of the muscles involved in respiration sharply increase. This greatly facilitates the complete breathing cycle. The range of biomechanical resonance for the muscles of the abdominal cavity lies in the range from 5 to 15 Hz. The range of biomechanical resonance for intercostal muscles lies in the range of 50 - 150 Hz. (56) Copyright certificate of the USSR N 1247009, cl. A 61 H 31/02, 1986.

Claims (1)

 LUNG VENTILATION DEVICE, comprising a source of compressed air and a chest elastic cuff with vibrators installed on it, characterized in that an inspiratory sensor, an exhalation sensor, an abdominal elastic cuff with vibrators installed on it, the first and second pneumatic valves, a high-frequency oscillation generator and a low-frequency oscillation generator, while the inspiration sensor is connected to the control input of the first pneumatic valve installed in the pneumatic line through the high-frequency oscillation generator, connecting a source of compressed air and chest cuff vibrators, and an exhalation sensor through a low-frequency oscillation generator is connected to a control input of a second pneumatic valve installed in a pneumatic line between the compressed air source and the abdominal cuff vibrators.

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