RU20239U1 - AUXILIARY BREATHING APPARATUS - Google Patents

Abstract

1. The auxiliary breathing apparatus, made on pneumatic elements and containing a source of compressed gas, a functional unit for generating the duration of inspiration and waiting time for an attempt to inhale, a gas flow regulator, an attempt to inspire inhalation device and a device for connecting to a patient, characterized in that it is equipped with an inhalation attempt sensor made in the form of a closed bellows with an inlet fitting, mechanically connected with a pneumatic valve, while one of the inputs of the inhalation attempt sensor is connected with the first output of the formation unit for a long time The amount of inhalation and the waiting time for an attempt to inhale, the input of which is connected to a source of compressed gas, and the second output is connected via a gas flow regulator to a device for connecting to a patient, is also connected to the second input of the inhalation attempt sensor. 2. The apparatus according to claim 1, characterized in that the inputs of the pneumatic valve and the input fitting of the bellows are connected to the corresponding inputs of the probe attempting inspiration.

Description

AUXILIARY RESPIRATORY APPARATUS

The proposed technical solution relates to the field of medical technology, in particular to breathing apparatus and can be used in various conditions of medical practice for ventilation, in the presence and absence of spontaneous breathing of the patient.

Known apparatuses for conducting auxiliary breathing, for example, “An apparatus for conducting controlled and auxiliary ventilation of the lungs according to autosvid. No. 921564, M.C. A61 H 31/02.

Also known as "Auxiliary artificial respiration apparatus according to autosvid. No. 1132943, M. cl. A 61H 31/02, which by technical essence is the closest to the proposed technical solution and is selected as a prototype.

A common feature of the proposed technical solution and known devices is the implementation of devices on pneumatic automation elements and the presence of a compressed gas source, a functional unit, a gas flow regulator, an inhalation attempt sensor and a device for connecting to a patient, however, their principal solution is different.

General disadvantages of the known devices are the insufficient sensitivity of the inspiratory attempt sensor, the increased constant gas flow rate for the operation of the sensor and the apparatus as a whole, and the insufficient reliability of the apparatus due to the use of a repeater with a shift having a low sensitivity and increased intrinsic sensitivity gas consumption and not intended for cyclic operation due to the presence of moving mechanical parts.

The main objectives of the proposed solution are to address these shortcomings, including improving the reliability of the device.

To solve the problems, the proposed apparatus for assisted breathing, made on pneumatic elements and containing a source of compressed gas, a functional unit for generating the duration of inspiration, a gas flow regulator, a probe for attempting inspiration and a device for connecting to a patient, is equipped with an probe for attempting inspiration made in the form of a closed bellows with an inlet fitting, mechanically connected with a pneumatic valve, while one of the inputs of the inspiration attempt sensor is connected with the first output of the inspiration duration formation unit and time When waiting for an attempt to inhale, the input of which is connected to a source of compressed gas, and the second output is connected via a gas flow regulator to a device for connecting to a patient, which is also connected to the second input of the inhalation attempt sensor. In addition, the inputs of the pneumatic valve and the inlet fitting of the bellows are connected to the corresponding inputs of the probe attempting inspiration.

The drawing shows a functional diagram of the proposed apparatus, where:

1- source of compressed gas;

2- functional unit for the formation of the duration of the inspiration and the waiting time of the attempt in D

3- gas flow regulator;

4- device connecting to the patient;

5- probe attempting inspiration;

6 - bellows;

7 - pneumatic valve.

The apparatus contains a source of compressed gas 1 connected to the input of the function block 2 for forming the duration of the inspiration and the waiting time for the attempt to inhale, one of the outputs of which through the gas flow regulator 3 is connected to the device 4 for connecting to the patient and the input of the inhalation probe 5, the second input of the sensor 5 is connected with the output of block 2.

The inhalation attempt sensor 5 includes a bellows 6, and a pneumatic valve 7 mechanically connected to it, the inputs of the bellows 6 and the valve 7 are connected to the corresponding inputs of the inhalation attempt sensor 5.

The device operates as follows.

When the supply pressure is supplied to the circuit, the functional unit 2 generates a cyclical gas stream at its output, the duration (inspiratory time) of which, as well as the waiting time for the inhalation attempt (expiratory time), is provided by the operation of unit 2. The gas flow at the outlet of unit 2 is regulated by regulator 3 and is directed into the device 4 for connecting to the patient and the inlet fitting of the bellows 6. In this case, when a gas stream appears at the outlet of the unit 2 during inspiration, a continuous increasing pressure is formed at the second output of the unit 2, connected with the probe 5 of the inspiration attempt tion of gas which is supplied to the input of pneumatic valve 7.

At the inlet of the valve 7, the accumulated gas pressure is maintained due to the fact that the incoming gas flow to the inlet plug of the bellows 6 acts on it and ensures the closure of the valve 7. When the gas flow stops, the outlet phase of the wait for an attempt to inhale begins, the time of which is regulated by the unit 2. If the patient attempts to inhale during the waiting phase, a weak vacuum is created at the inlet fitting of the bellows 6, which leads to compression of the bellows 6, opening of the pneumatic valve 7 and communication with the atmosphere exit and block 2, connected with the sensor 5. As a result of this, block 2 switches to the phase by inhalation. At the outlet of the device, a gas stream flows to the patient. Thus, if a patient experiences an attempt to inhale at any time during the exhalation phase of the device, the device operates in the response mode to the patient's respiratory attempts and performs 11 auxiliary ventilation of the lungs with the set parameters for the inspiration time and gas flow rate. If there are no attempts to inhale the patient during the waiting phase of the attempt to inhale, the device automatically switches to the controlled ventilation mode

lungs with established time parameters for inspiration, expiration and the amount of gas flow supplied to the patient.

From the description of the operation of the proposed device, it is seen that the constructive solution of the inhalation attempt sensor 5 used in the device, in contrast to the known devices, provides a higher sensitivity of the sensor 5 in the device, due to the significantly higher effective area of the bellows 6 in comparison with the area of the membranes in the pneumatic elements, and also eliminates the constant additional gas flow required for the operation of the probe attempt inhalation in known devices.

Thus, as a result of the proposed technical solution, the auxiliary breathing apparatus 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 application of the proposed device is not in doubt, because it compares favorably with manufactured devices of a similar purpose used in healthcare.

Claims (2)

1. The auxiliary breathing apparatus, made on pneumatic elements and containing a source of compressed gas, a functional unit for generating the duration of inspiration and waiting time for an attempt to inhale, a gas flow regulator, an attempt to inspire inhalation device and a device for connecting to a patient, characterized in that it is equipped with an inhalation attempt sensor made in the form of a closed bellows with an inlet fitting, mechanically connected with a pneumatic valve, while one of the inputs of the inhalation attempt sensor is connected with the first output of the formation unit for a long time This inhalation time and the waiting time for an attempt to inhale, the input of which is connected to a source of compressed gas, and the second output is connected via a gas flow regulator to a device for connecting to a patient, is also connected to the second input of the inhalation attempt sensor. 2. The apparatus according to claim 1, characterized in that the inputs of the pneumatic valve and the inlet fitting of the bellows are connected to the corresponding inputs of the probe attempting inspiration.