SU1183106A1 - Pneumatic system for controlling medical apparatus - Google Patents

Abstract

1. PNEUMATIC MEDICAL DEVICE CONTROL SYSTEM containing a source of compressed gas, a control panel, membrane pneumatic elements, injectors and connecting lines, characterized in that, in order to reduce the consumption of compressed gas, it is equipped with waste gas collectors, the inlets of which are connected to atmospheric chambers pneumoelements, and exits - with injectors. 2. A system characterized in that the waste gas collector is made in the form of an elastic bag equipped with a cleaning filter and pressure and vacuum relief valves. (O 00 00 O)

Description

The invention relates to medical technology, in particular to medical systems (devices), which carry out intermittent gas supply to devices for connection to a patient and are performed on pneumatic logic membrane elements, for example, heart-lung machines, external cardiac massage, and artificial ventilation. lungs.

A known pneumatic control system for medical devices, comprising a functional pneumatic device made on membrane pneumatic elements, a control panel, an injector and a device for connecting to a patient 1.

However, during operation of this system, the gas consumed for switching elements of the functional device and devices for connecting to the patient is emitted into the atmosphere and is not used in the future.

Closest to the invention in its technical essence and the achieved result is a pneumatic control system for medical devices, comprising a source of compressed gas, a control panel, membrane pneumatic elements, injectors and connecting lines 2.

However, the use of this system for medical purposes is always associated with the additional gas flow required to activate it, which greatly limits the use of pneumatic equipment, especially when used in autonomous conditions.

The purpose of the invention is to reduce the consumption of compressed gas.

This goal is achieved by the fact that the pneumatic control system of medical devices, containing a source of compressed gas, a control panel, membrane pneumatic elements, injectors and connecting lines, is equipped with waste gas collectors, the inlets of the latter are connected to atmospheric chambers of pneumatic elements, and the outlets with injectors.

In addition, the waste gas collector is made in the form of an elastic bladder equipped with a cleaning filter and pressure and vacuum valves.

The drawing shows a block diagram of the proposed system.

The system contains a pneumatic functional device 1, made on membrane pneumatic elements and includes two generators 2 and 3 pneumatic pulses with controls of the frequency of cycles, duty cycle and output gas flow, pneumatic relay 4, source 5 of compressed gas, control panel 6 with switches 7

and 8 operating modes of the system, regulators 9 concentration of narcotic gas 10, respiratory cycle frequency, 11 ratios of expiratory and inspiratory durations 5 to 12 minutes ventilation, 13 heart rates, 14 ratios of the system and diastole, 15 massage force, collection 16 of exhaust gas, pressure relief valves 17 and -runs 18, gas cleaning filter 19, injector 20, device 21 for connection to the patient’s respiratory tract, including an irreversible outlet valve 22 and mask 23, as well as being attached to the patient mass device 24, device 25 comprising

5, a pneumatically controlled dose transfusion pump and a device 26 containing a pneumatically controlled heart ventricle 27 combined with an oxygenator 28. The nodes of the system are interconnected (Fig. 1), while the atmospheric chambers of the pneumatic elements (not shown) of the functional device 1 are connected to outputs this functional device.

The system works as follows. From the source 5 of the compressed gas, the pneumatic supply of all the pneumoelements of the functional device 1 is carried out by supplying this device with pure oxygen and nitrous oxide of a certain concentration depending on the mode of operation of the system, determined by switch 7.

0 When the switch 7 is turned on to the position of conducting artificial ventilation of the lungs, the generator 2 pneumatic pulses through one of its outputs carries out an intermittent flow of gas (oxygen) to the input of the injector 20, and the second

the outlet delivers gas taken from the atmospheric chambers of all pneumatic elements of the generator 2 at the time of their switching to the collection 16 of the exhaust gas, from where the gas enters through the filter 19 to

0 to the intake chamber of the injector 20, from the injector 20, the gas supplied to its inlet, and the gas sucked in from the exhaust gas collector 16, enters the device 21 for connection to the patient with a frequency of cycles, duty cycle and gas flow determined by the regulators 10-12 , providing artificial ventilation of the lungs with the necessary breathing parameters. At the same time, the gas involved in the actuation of the generator 2 is not released into the air, and through the suction chamber of the injector 20 it is fully supplied to the patient and is used to ventilate the lungs.

When you turn on the switch 7 to the position of the external heart massage with synchronized and artificial ventilation

5 lungs, two generators 2 and 3 operate, and the pneumatic pulse generator 3, which operates similarly to generator 2, carries out one of

Claims (2)

1. PNEUMATIC SYSTEM OF MANAGEMENT OF MEDICAL DEVICES, containing a source of compressed gas, a control panel, membrane pneumatic elements, injectors and connecting lines, characterized in that, in order to reduce the flow of compressed gas, it is equipped with exhaust gas collectors, and the inlets of the latter are connected to atmospheric chambers pneumatic elements, and exits with injectors. 2. System, characterized in that the exhaust gas collector is made in the form of an elastic bag equipped with a purification filter and pressure and vacuum safety valves. SU „., 1183106