RU48782U1 - PORTABLE UNIT FOR ARTIFICIAL LUNG VENTILATION - Google Patents

Abstract

The invention relates to medical equipment and can be used in ambulance vehicles, disaster medicine, in the field and in a hospital. The technical result of the invention is to simplify the operation of the apparatus and increase the stability of its parameters. The apparatus for artificial ventilation of the lungs consists of three units: the unit’s power supply unit with compressed gas 1, the control unit 2 for control and monitoring of adjustable parameters and the patient’s respiratory circuit unit 3. The unit 1 has two input channels 4 and 5, a pressure regulator 6, and a pneumatic valve 7. unit The control and control system includes an actuator 8, a gas flow measuring device 9, and a controller 10. The respiratory 3 unit includes a valve box 11, a patient pressure measuring device 12, and a patient mask 13.

Description

The invention relates to medical equipment and can be used in ambulance vehicles, disaster medicine, in the field and in a hospital.

A known apparatus for artificial ventilation of the lungs, which allows for mechanical ventilation (US Pat. No. 2080884, Cl. A 61 M 16/01, 1954). However, this ventilator can only be carried out manually, which does not allow achieving the necessary constant characteristics of the ventilator process.

The closest in technical essence is an apparatus for artificial lung ventilation, containing a gearbox connected to the compressed gas supply line, a pulse generator that controls the valve and a unit for changing the gas flow rate, and also having a flowmeter and a unit for connecting to the patient (US Pat. No. 957962, Cl A 61 M 16/00, 1981).

However, this device during operation requires medical personnel to adjust and verify operating parameters.

The technical result of the invention is to simplify the operation of the apparatus and increase the stability of its parameters.

The purpose of the invention is the elimination of these disadvantages. This is achieved by the fact that in the proposed apparatus, the control and monitoring unit is equipped with a gas flow measuring device connected to the output with the first control input of the controller, the patient’s respiratory circuit unit

equipped with a pressure measuring device, the output of which is connected to the second control input of the controller.

The invention is illustrated in the drawing, where Fig.1 shows a block diagram of a describing apparatus, and Fig.2 is a schematic diagram.

The apparatus for artificial ventilation of the lungs consists of three units: the unit’s power supply unit with compressed gas 1, the control unit and control of adjustable parameters 2 and the patient’s respiratory circuit unit 3.

The power supply unit 1 has two input channels 4 and 5, a pressure regulator 6 and a pneumatic valve 7. The control and monitoring unit contains an actuator 8, a gas flow meter 9, and a controller 10.

The breathing circuit unit 3 includes a valve box 11, a patient pressure measuring device 12 and a patient mask 13. A pressure regulator 6 is connected to the input of the device 4 and to the input of the pneumatic valve 7. The second input of the pneumatic valve 7 is connected to the second input of the device 5 and its control channel. The output of the pneumatic valve 7 is connected to the input of the actuator 8. The output of the actuator 8 is connected to a gas flow meter 9, which, in turn, is connected to the valve box and patient mask 13. A pressure measurement device 12 is connected between the valve box and the mask. measurements of gas flow 9 and pressure in the mask 12 are connected to two inputs of the controller, the output of which is connected to the control channel of the actuator 8.

The device operates as follows. The device has two pneumatic inlets 4 and 5. The first works from an internal gas source (cylinder of compressed gas, which is part of the device), the second from an external source (network of compressed oxygen or air).

Gas flows from the cylinder to the inlet of the apparatus 4 and through the gearbox 6 enters the normally open inlet of the valve 7. The reducer 6 lowers the pressure of the incoming gas to the working pressure of the apparatus. In the case of supplying the apparatus from an oxygen or air network with a pressure equal to the operating pressure of the apparatus, compressed gas is supplied to the inlet 5 of the apparatus and then enters the normally closed inlet of valve 7 and into its control channel. The valve is activated and goes into a state opposite to the original. A normally open channel closes, while a normally closed channel opens. Gas enters the inlet of valve 7. Compressed gas from the output of the power supply enters the inlet of the actuator 8.

The regulation of the gas flow rate and patient pressure is carried out by the actuator 8 controlled by the controller 10.

Changes in gas flow and patient pressure are recorded by the device for measuring gas flow and pressure 9 and 12 and are sent to the controller 10.

From the control panel to the input of the controller 10, data is entered on the gas flow rate or the patient pressure value. A comparison is made of the signals arriving at the controller 10 from the control panel and from the gas flow meter 9 and pressure measuring devices 12. At the output of the controller 10, an actuator control signal is generated equal to the signal difference

set and existing at a given time at the output of the device. There is a process of controlling the actuator 8 by the difference of the signals, so that the amount of mismatch is reduced. Actuator 8 increases or decreases in magnitude of flow depending on the sign of this mismatch.

There is a dual circuit system. One circuit controls the gas flow rate at the outlet of the device, the other controls the pressure of the patient.

Claims (1)

A portable device for artificial ventilation of the lungs, comprising a power supply unit for the device with compressed gas, a control unit for controlling adjustable parameters and a patient breathing circuit unit, characterized in that the control and monitoring unit is equipped with a gas flow measuring device connected to the output with the first control input of the controller, a respiratory unit the patient circuit is equipped with a pressure measuring device, the output of which is connected to the second control input of the controller.