RU20028U1 - RESPIRATORY GAS DEVICE FOR A PATIENT - Google Patents

Abstract

1. A device for supplying respiratory gas to a patient, comprising a source of compressed gas, a safety valve and a connection unit to the patient, including a non-reversible exhalation valve and a mask, characterized in that it is equipped with a gas flow regulator made in the form of a bellows with end surfaces inside of which a nozzle-flapper type pneumatic valve is located between the end surfaces, mechanically connected by its nozzle and movable flap to the corresponding end surface of the bellows, one of which is the base of the gas flow regulator and has a pneumatic inlet connected to a source of compressed gas and an outlet connected to a safety valve and a unit for connecting to the patient. 2. The device according to claim 1, characterized in that the pneumatic valve body forms a power chamber with a nozzle and a power input, and the valve flap is rigidly connected to its movable stem. The device according to claim 1, characterized in that the gas flow regulator is equipped with a handle for adjusting the position of the valve relative to the nozzle, which determine the amount of gas flow.

Description

RESPIRATORY GAS DEVICE FOR A PATIENT

The proposed technical solution relates to the field of medical technology, in particular to pneumatic breathing apparatus and can be used to perform auxiliary ventilation in the response mode to the patient's respiratory attempts.

Known breathing apparatus made on pneumatic elements, for example, "Apparatus for controlled and assisted ventilation of the lungs according to autosvid. No. 921564, M.C. A61H31 / 02,

Also known as "Auxiliary artificial respiration apparatus according to autosvid. No. 1132943, M.C. А61Н 31/02, which by technical essence is the closest to the proposed technical solution and is selected as a prototype.

A common feature in the proposed technical solution and known devices is the implementation of devices using pneumatic automation elements, the possibility of supplying respiratory gas to a patient in the response mode to the patient's respiratory attempts, as well as the presence of a source of compressed gas, pneumatic elements and a connection unit to the patient.

General disadvantages of the known devices are the impossibility of changing the magnitude of the gas flow supplied to the patient depending on the depth of the patient’s respiratory attempt, i.e. the impossibility of supplying respiratory gas to the patient on demand, as well as the complexity of the design and the lack of reliability due to the use of additional units, components and pneumatic elements in the design, characterized by a complex structure, including mechanical moving parts, springs and wound membranes.

respiratory attempts of various depths, as well as ensuring maximum portability of the device, simplifying the design and increasing reliability.

To solve these problems, the proposed device for supplying respiratory gas to the patient, containing a source of compressed gas, a safety valve and a connection unit to the patient, which includes a non-reversible valve and a mask, is equipped with a gas flow regulator made in the form of a bellows with end surfaces, inside of which there are end faces A pneumatic valve of the type “nozzle-damper, mechanically connected by its nozzle and movable damper with the corresponding end surface of the bellows, one of which x is the base of the gas flow regulator and has a pneumatic supply inlet connected to a source of compressed gas and an outlet connected to a safety valve and a patient connection unit. In this case, the valve body forms a power chamber with a nozzle and a power input, and the valve of the pneumatic valve is rigidly connected with its movable rod. In addition, the gas flow regulator is equipped with a handle for adjusting the position of the valve relative to the nozzle, which determines the amount of gas flow.

The drawing shows a functional diagram of the proposed device for supplying respiratory gas to a patient, where:

1- gas flow regulator;

2 - source of compressed gas;

3- safety valve;

4-node attaching to the client;

5- non-reversible exhalation valve;

6- mask;

7- bellows;

8, 9 - end surfaces of the bellows;

12- shutter;

13 - movable stock;

14- handle for adjusting the flap position.

The device comprises a gas flow regulator 1, the input of which is connected to a source of compressed gas 2, and the output is connected to a safety valve 3 and a patient connection unit 4, including a non-reversible exhalation valve 5 and a mask 6 connected in series.

The gas flow regulator 1 contains a bellows 7, closed by the end surfaces 8 and 9, between the end surfaces 8 and 9 inside the bellows 7 there is a pneumatic valve 10 of the type "nozzle-flapper, the body of which forms a power chamber with a nozzle 11 and a power input, the flap 12 of the valve 10 is rigidly connected with a movable rod 13 having a handle 14 for adjusting the position of the shutter 12 relative to the nozzle 11.

The device operates as follows.

When the supply pressure is supplied to the device, gas from the source 2 of compressed gas enters the inlet of the gas flow regulator 1 and into the power chamber of the pneumatic valve 10. Moreover, the valve 12 of the valve 10 closes the nozzle 11, because the bellows 7 takes a straightened position, and the gas pressure in the power chamber of the valve 10 acts on the effective area of the shutter 12.

When the patient attempts to inhale in the node 4 of the patient’s connection, at the outlet of the regulator 1 and inside the bellows 7, a vacuum is created in which the bellows 7, which has a significant effective area, is compressed and moves the movable rod 13c connected to it by the shutter 12. As a result, the shutter 12 departs from the nozzle 11, and the gas from the source 2 through the resulting flow cross section enters the internal cavity of the bellows 7 and then through the output of the regulator 1 and node 4 to the patient. In this case, the gas flow received by the patient depends on the depth of the patient’s respiratory attempt, i.e. with a deeper respiratory attempt of the patient, a greater depression is created inside the bellows 7, which leads to a greater movement of the shutter 12 relative to the nozzle 11 and an increase in the gas flow postulating to the patient, which provides gas to the patient according to his needs. In case of termination or absence of respiratory attempts of the patient, the gas entering the internal cavity of the bellows 7 straightens it, moves the stem 13c with the shutter 12 in the opposite direction and closes the nozzle 11, which leads to the cessation of gas supply to the node 4,

The presence in the controller 1 of the handle 14 for adjusting the position of the shutter 12 relative to the nozzle 11 provides in the proposed device the implementation of an additional function, namely, the patient is supplied with a continuous stream of gas (inhalation) with the adjustment of its value.

The presence in the proposed device of the safety valve 2 provides protection of the device from the occurrence of increased pressure of the gas entering the patient.

From the presented functional diagram of the device and a description of its operation, it can be seen that in addition to supplying gas to the patient according to his needs and providing inhalation with adjustment of the injected gas volume, the proposed device is characterized by a minimum number of pneumatic elements and has a simplified design, which ensures its maximum portability and increased reliability.

Thus, as a result of the proposed technical solution, the respiratory gas supply device to the patient ensures the achievement of the tasks and the claimed technical effect.

The claimed technical solution, according to the author, is not obvious, and its technical effect is quite high.

The possibility of industrial use of the proposed device is not in doubt, because it compares favorably with manufactured devices of a similar purpose used in healthcare.

Claims (3)

1. A device for supplying respiratory gas to a patient, comprising a source of compressed gas, a safety valve and a connection unit to the patient, including a non-reversible exhalation valve and a mask, characterized in that it is equipped with a gas flow regulator made in the form of a bellows with end surfaces inside of which a nozzle-flapper type pneumatic valve is located between the end surfaces, mechanically connected by its nozzle and movable flap to the corresponding end surface of the bellows, one of which is the base of the gas flow regulator and has a pneumatic inlet connected to a source of compressed gas, and an outlet connected to a safety valve and a unit for connecting to the patient.  2. The device according to claim 1, characterized in that the pneumatic valve body forms a power chamber with a nozzle and a power input, and the valve flap is rigidly connected to its movable stem. 3. The device according to claim 1, characterized in that the gas flow regulator is equipped with a handle for adjusting the position of the valve relative to the nozzle, which determine the amount of gas flow.