SU986423A1 - Device for training respiration - Google Patents

Description

(54) DEVICE FOR DRILLING TRAINING

The invention relates to medical technology, namely to pulmonary devices for metered pulmonary ventilation.

It is known a device for training dglhani, which contains an air chamber with a volume control, check valves, a diaphragm sensor with pneumatic contacts and a mask tll "

However, the known device does not allow the maintenance of a predetermined concentration of carbon dioxide in the lungs and does not provide control during the independent training No. 1 cat1, which limits the use of the device.

The aim of the invention is to maintain a predetermined concentration of carbon dioxide and carbon dioxide in the lungs and to ensure control during independent breathing training. .

The goal is achieved by the fact that a device for training breathing, including an air chamber with a Volume regulator, check valves, a diaphragm sensor with pneumatic control contacts and a mask, is equipped with an angle-concentration sensor; acidic, reference mechanism

pauses between expiration and breathing and the control unit associated with each other and with the volume control.

The drawing shows a structural diagram of the device for training breathing.

The device contains an air chamber 1 dosed volume made by the type of forge fur.

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The lower plane 2 of the air chamber is fixed, and the upper plane 3 is pivotally connected to the air chamber and held in a predetermined position by means of a spring 4,

15 fixed on the axis 5 of the hinge joint of both planes. The regulator in the volume, made according to the type of reversible electric pusher, interacts with the upper plane of the SPZ,

Air canister; 1 by means of an electromagnetic valve 7, installed on its upper sub-plane, communicates with the atmosphere,

25 a through a check valve 8 and a flexible rod 9 tons with a mask 10. At the junction of the hose 9 with the chamber 1, in front of the valve 8 there is a membrane sensor 11 with control pneumatic contacts 12, 13 and 14, and

the hose 9 with its valve 15 communicates with the carbon dioxide co-centration sensor 16.

By controlling the contacts 12, 13 and 14, the membrane sensor controls the operation of the temporary mechanism 17 for counting the pause between exhalation and inhalation of the sensor 16 for carbon dioxide through the Electronic Control Unit 18 and for the control signal to the solenoid valve 7 and the regulator volume 6 ,,

The drawing in solid shows the path of inhaled air (dotted - expiratory.

The device works as follows.

In the initial position with the aid of (Hf1 of the volume regulator 6, the set volume of the air chamber 1 corresponding to the required initial inspiration is set, depending on the physiological data of the patient.

The patient puts on the mask 10 and inhales from the metered volume of the air chamber 1, and the electrical circuit of the apparatus is switched on.

When you exhale into the mask, the exhalation pressure closes the valve 8 and the exhaled air saturated with carbon dioxide through the valve 15 and the carbon dioxide concentration sensor 16 is released to the atmosphere, while the overpressure in the membrane sensor 11 closes the contact 14 and turns on the carbon dioxide concentration sensor ( at this time, pin 13 is open).

The signal from sensor 16, proportional to the concentration of carbon dioxide in exhaled air, is amplified in block 18 and supplied to the solenoid valve 7, opening it and to the input of the volume regulator 6, which acts on the moving plane 3 and changes the volume of the air chamber 1.

At the end of the expiration, the pressure in the membrane sensor 11 is balanced, and the contact 13 is 1 of 3 cycles, including the time mechanism 17, which starts counting the pause, which

makes the patient after exhalation. The signal from the temporary mechanism through block 18 is applied to a volume controller b, which is proportional to the pause time, additionally increases the volume of chamber 1 and closes the solenoid valve 7 at the end of the pause, while the carbon dioxide concentration sensor 16 is disconnected from contact 14 from block 18.

Upon subsequent inhalation of air measured in the air chamber 1, a vacuum is created in the mains, and the membrane sensor 11 opens the contact 12 g and the temporary mechanism 17 is turned off, bringing the entire system to its original position for a new respiration cycle.

Thus, the proposed device maintains the concentration of carbon dioxide in the lungs and facilitates control during self-training breathing.

The device effectively restores various sub-maxillary glands, inflamed from hypothermia, to normal size, relieves cramps, headache, and improves the overall tone of the body.

Claims (1)

1. USSR author's certificate 131458, cl. L 61 N 31/02, 1959. 18 / J YU