CS200087B1 - Equipment for cardiopulmonous resuscitation especially for quick medical aid - Google Patents

Description

The subject of the invention is a device for cardiac pulmonary re-ejection, in particular for a rapid medical aid.

For cardiopulmonary resuecity devices, in particular for a rapid doctor, the eu has been given special requirements by using the device in a variety of conditions to provide medical assistance for the failure of major vital functions, such as erdoa and pZúo.

To know the object, which is given by kick, by gender, by mature, weight of the patients, it is necessary to have trained medical assisted equipment and to harmonize the programmable parameters of the outdoor meohanlok massage and the parameters of the artificial ventilator. At the same time, aa requires a minimum weight and dimensions of the equipment and does not envy the equipment for electrician.

The prior art cardiopulmonary re-eueoitization devices for the speed doctor will be automatically controlled and powered by the pressure eager contained in the high-pressure supply of oxygen. The basic disadvantage of these devices is that the programmability of the ioh automatic func- tion is limited to the possibility of controlling the parameters such as chest mass and throat volume of the ventilated valve. This limitation results from the use of a pneumatic rladiao block that can be programmed to recognize the automatic ejection

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200 007 is constrained by the burgeoning complexity of the device, the burst of pressure energy consumption and the simultaneous increase in the weight and volume parameters of the device.

The above-mentioned drawbacks are eliminated by the cardiopulmonary reac- tion device, in particular by the rapid medical aid according to the invention, which consists in that the pneumatic cylinder drive amplifier is connected to the pneumatic actuator output of the electro-pneumatic cylinder control transducer and the pneumatic nozzle actuator is connected to a pneumatic nozzle control transducer, wherein the electro-pneumatic valoa control transducer is connected to the electric control block of the cylinder control block and the electro-pneumatic nozzle control transducer is connected to the electric control block of the electric control block which is connected to the electric accumulator.

By using electronic control of the device operation it is possible to programmable parameters of automatic operation of the device, These parameters are programmable frequencies of massage and chest cycles and programmability of ratio of mechanlocy ayatol to diaatholes of external massage. from the sick, thus realizing the supporting external massage of the ardca *

An example of a device according to the invention is drawn in the drawing.

The pneumatic massage cylinder 18 is connected to the pneumatic actuator 1 of the valoa 18 drive and the nozzle 15 is connected to the pneumatic actuator 6 of the drive of the veneer 15. The pneumatic actuator 1 of the actuator 18 and the pneumatic actuator 6 of the nozzle 15 are connected to a pressure source 22 via a controllable control valve. 19 of the valve drive 18 and the controllable actuator valve 20 of the nozzle drive 12 has pushed the electro-pneumatic cylinder actuator 2 and the electro-pneumatic nozzle actuator 6 connected to the power source 22 via the actuator valve 21.

The pneumatic actuator of the valoa drive 18 is connected to the pneumatic outlet 2 of the electro-pneumatic drive of the valoa actuator 2 and the pneumatic actuator of the nozzle drive 12 is connected to the pneumatic outlet of the olectro-pneumatic nozzle 6 of the nozzle control. to the electrical outlet 8 of the steering block 2 of the Alca 18 and the electro-pneumatic converter 6 of the nozzle control 12 is connected to the electrical outlet 8 of the nozzle control of the elactro-pneumatic control block 2, which is connected to the electric accumulator 10.

From the pneumatic outlet 2 of the nozzle control, the control duct 11 leads to an elliptical chamber 12 of the exhaust valve 13, which is housed in the aperture line 14 between the nozzle 12 and the passive breathing valve 16. The electronic aynchronous vatup 17 is introduced.

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After attaching the pneumatic lubrication roller 18 to the patient's sternum and attaching the passive breathing valve 16 to the kidney mask or to the intubation cam, and on the electronic control block 2, the frequency of the massage cycles and the atria of the mechanical systole are adjusted. In the electronic control block 2, the set program is automatically converted to electrical pulses so that in the electrical output χ of the cylinder aa they generate electrical pulses whose frequency and duration are equal and the frequency program and the pulse length are determined by the specified program. These pulses are sent to the electronic cylinder control block in a sequence of five consecutive times. After the last pulse has ceased, an electrical pulse is generated in the electronic control block, the duration of which corresponds to the desired time of the paper. This pulse is provided from the electrical control de electriocene output 8 of the nozzle control 12.

The pulse train from the electrical output χ of the valoid control and from the electrical output 8 of the nozzle control is supplied to the electro-pneumatic cylinder control transducer 2 and to the olectro pneumatic nozzle control transducer 6. The electrical signals actuate the transmission mechanism of the electro-pneumatic transducers 3, 6 and in the pneumatic outlet 2 the valo control and in the pneumatic outlet 2 the nozzle control raise pressure signals whose level is given by the pressure from the pressure reducing valve 21. the cylinder drive amplifier 1 such that the input signal in the amplifier mechanism separates the pneumatic lubrication cylinder 18 from the atmosphere and switches it to the overpressure given by the adjustable cylinder drive valve 19, thereby bringing the pneumatic lubrication cylinder 18 into mechanical ayatol. The resulting massage force is proportional to the overpressure given by the manual pressure regulator of the controllable valoa drive valve ·

At the moment of the pressure signal in the pneumatic valoa control output 2, the pneumatic amplifier 1 of the valoa 18 drive has separated the pneumatic massage valeo 18 from the adjustable pressure limiting valve 19 of the valoa drive and attaches it to the atmosphere. position. This completes a single cycle. These massage loops follow pSt in time sequence.

At the end of the noon lubrication systole, the signal in the pneumatic nozzle control output 2 of the nozzle drive amplifier 6 is built to remove the nozzle 15 from the atmosphere and switch it to the overpressure given by the adjustable nozzle drive control valve 20 thereby generating a nozzle gas. The resulting gas flow is proportional to the overpressure given by the pressure control of the controllable nozzle actuator 20. At this time, the pressure signal in the pneumatic nozzle control outlet 2 has also been transmitted via control line 11 to the allopal chamber 12 of the blow-off valve 13. thereby separating the ineplication line 14 from the atmosphere at the same time and flowing the nozzle gas through the passive vaporizing valve 16 into the patient's lungs. The tidal volume is given by the effective flow rate and the time of the pneumatic signal and the pneumatic output 2 of the actuating nozzle. For the loss of the pneumatic signal in the pneumatic control output 2

200 087 of the nozzle mechanism of the pneumatic amplifier 6 of the nozzle drive closes the inspiratory nozzle 15 to the atmosphere and the current in the aspiration nozzle 15 ceases. With the loss of the pneumatic signal in the pneumatic nozzle control outlet 2, the signal in the control line 11 simultaneously disappears, thereby venting the dead chamber 12 and the blow-off valve 13 to connect the inspiratory line 14 to the ambient atmosphere. The sudden drop in the pressure in the inhalation line 14 passes the breathing valve 16 through the overpressure in the lungs to switch the patient's path to the atmosphere, and to breathe out. After the breathing of the breathing loop, five massage oases are again performed according to the function described.

The massage cycles m 3 may be synchronized by a signal applied to the electronic synchronization input 17 in the control block 2.

Claims (3)

OBJECT OF THE INVENTION A device for cardiopulmonary roeueoel, in particular for a quick doctor, an aid, characterized in that the pneumatic amplifier (1). the veloa / 18 / actuator is connected to the pneumatic outlet / 2 / valoa / 18 / actuator of the cylindrical-scale converter / 3 / cylinder actuator and the pneumatic amplifier / 4 / nozzle actuator / 15 / jo connected to the pneumatic outlet / 5 / nozzle of the oloctro-pneumatic converter (6) a nozzle control, wherein the electro-pneumatic actuator (3) of the valoa control is connected to an electrical outlet (7) of the riedonia valoa block and the oloctro-pneumatic metering transducer (6) of the nozzle control is connected to an electrical output (8) 9 / riadsnia, which is connected to an electric accumulator / 10 /. Apparatus according to claim 1, characterized in that an electron-lined synronization inlet (17) is introduced into the electron-light block (9) of the bulkhead. Device according to Claim 1 and 2, characterized in that from the pneumatic nozzle control outlet (5) a control line (11) flows into an adhesive chamber (12) of the blow-off valve (13) which is located in the exhaust line (14). between the insertion nozzle (15) and the passive breathing valve (16).