RU19685U1 - PORTABLE UNIT FOR INHALATION ANNESTICIAN - Google Patents

Abstract

1. A portable device for inhalation anesthesia, made on pneumatic elements and containing sources of compressed oxygen and nitrous oxide, a pneumatic tumbler, a pneumatic button, valves, rotameters and a device for connecting to a patient, characterized in that it is made on pneumatic elements with freely lying membranes and contains an integrated pneumatic module and two output pneumatic relays, while the power inputs of the module and the output relay for oxygen are connected to a source of compressed oxygen through a pneumotummer, the second input of the module is connected to mon with a button, the power inputs of the module and the output relay for nitrous oxide are directly connected to the nitrous oxide source, each of the two outputs of the module is connected to the device connecting to the patient through a series-connected output pneumatic relay, valve, rotameter and check valve, and the third output of the module is connected to this device through the check valve. 2. The apparatus according to claim 1, characterized in that the integrated pneumatic module contains four pneumatic relays, connected according to a NOT circuit and having a power input, a control input and an output, the output of the first relay being connected to the control input of the second relay and the first output of the module, the output of the second relay being connected with the control inputs of the third and fourth relays, the outputs of the third and fourth relays are connected, respectively, with the second and third outputs of the module, and the control input of the first relay is connected to the power input of the module through pneumatic resistance.

Description

The main objectives of the proposed technical solution are to eliminate the above disadvantages of the known devices.

To solve the problems, the proposed portable device of inhalation anesthesia, made on pneumatic elements and containing sources of compressed oxygen and nitrous oxide, a pneumatic tumbler, a pneumatic button, valves, rotameters and a device for connecting to a patient, is made on pneumatic elements with freely lying membranes and contains an integrated pneumatic module and two output pneumatic relays, while the power inputs of the module and the output relay for oxygen are connected to a source of compressed oxygen through a pneumatic tumbler, the second input the module is connected to the pneumatic button, the input power of the module and the upstream relay for nitrous oxide are directly connected to the nitrous oxide source, each of the two outputs of the module is connected to the patient connection device through the output pneumatic relay, valve, rotameter and check valve connected in series, and the third output of the module is connected with this device through a check valve. In addition, the integrated pneumatic module contains four pneumatic relays, connected according to the “NOT and having a power input, control input and output, with the output of the first relay connected to the control input of the second relay and the first output of the module, the output of the second relay connected to the control inputs of the third and fourth relays, the outputs of the third and fourth relays are connected respectively to the second and third outputs of the module, and the control input of the first relay is connected to the power input of the module through pneumatic resistance.

The presented functional diagram of the proposed portable device for inhalation anesthesia includes:

1 - integrated pneumatic module;

2.4 - output pneumorelay;

3 - pneumatic tumbler;

7.10 - valves;

8.11 - rotameters;

9,12,13 - check valves;

14,15,16,17 - non-moremore;

18 - pneumatic resistance.

The apparatus contains a pneumatic integral module 1, the first input of module 1 and the power input of the output relay 2 are connected to an oxygen source through a pneumatic toggle switch 3 (not shown), the second input of module 1 and the power input of the output relay 4 are connected to a nitrous oxide source, the third input of the module 1 is connected to the pneumatic button 5. The first output of module 1 is connected to the device 6 connecting to the patient through a series-connected output pneumatic relay 2, valve 7, rotameter 8 and check valve 9, The second output of module 1 is connected to the device 6 through atelno output connected pneumatic relay 4, the valve 10, rotameter 11 and a check valve 12. The third output of the module 1 is connected to device 6 via the check valve 13,

The integrated module 1 contains four pneumatic relays 14,15,16,17 and pneumatic resistance 18, and the pneumatic relays are connected according to the “NOT and have a power input, control input and output. The output of the relay 14 is connected to the control relay 15 and the first output of the module 1, the output of the relay 15 is connected to the control inputs of the relay 16 and 17, the outputs of the relay 16 and 17 are connected respectively to the second and third outputs of the module 1, and the control input of the relay 14 is connected to the oxygen input module 1 power supply through pneumatic resistance 18.

The device operates as follows.

When the supply pressure is supplied to the circuit from oxygen and nitrous oxide sources (not shown in the drawing) and the toggle switch 3 is turned on, zero signals appear on the outputs of module 1, which, when fed to the control inputs of the output relays 2 and 4, provide an oxygen stream at the output of relay 2, and at the output of relay 4, nitrous oxide flow. The oxygen flow from the output of relay 2 enters the device 6 through the valve 7, the rotameter 8 and the check valve 9. The nitrous oxide stream from the output of the relay 4 enters the device 6 through the valve 10, the rotameter 11 and the check valve 12. In the device 6 connecting to the patient both gas mix and enter the patient with his own breathing.

The flows of oxygen and nitrous oxide are respectively regulated by valves 7 and 10 for rotameters 8 and 11, which makes it possible to set any concentration of gases in the mixture and the total flow of the narcotic mixture supplied to the patient.

When the button 5 is turned on, oxygen from the control input of the relay 14 is etched into the atmosphere, as a result of which the relays 14,15,16 and 17 switch, and single pneumatic signals appear at the outputs of module 1, the oxygen and nitrous oxide flows at the outputs of relays 2 and 4 are stopped, which leads to the cessation of the supply of the narcotic mixture to the device 6 connecting to the patient. At the same time, on the third vodka of module 1, a constant stream of pure oxygen appears, directed through the non-return valve 13 directly to the patient attachment device 6. This ensures that if necessary, an emergency supply of pure oxygen or assisted breathing to the patient when the patient leaves anesthesia is necessary.

Check valves 9,12 and 13 are included in the circuit of the apparatus to prevent the flow of gases from one channel to another.

From the description of the work of the proposed apparatus, it can be seen that it allows for inhalation anesthesia with spontaneous breathing of the patient, with adjustments to the patient’s flow of the narcotic mixture and the concentration of oxygen and nitrous oxide in the mixture by rotameters. In addition, the device allows for emergency delivery of oxygen to the patient or auxiliary ventilation of the lungs with pure oxygen in case of weak breathing attempts by the patient.

Along with the foregoing, the proposed technical solution of the apparatus, based on the use of the same type of miniature pneumatic relay with freely lying membranes, including those included in the integral module, provides additional advantages of the apparatus, such as maximum portability of the apparatus and simplicity of design, increased reliability, due to the absence of movable mechanical parts in the pneumorelay design.

Thus, as a result of the proposed solution, a portable device of inhalation anesthesia ensures the achievement of 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, since it compares favorably with manufactured devices of this purpose used in healthcare.

Claims (2)

1. A portable device for inhalation anesthesia, made on pneumatic elements and containing sources of compressed oxygen and nitrous oxide, a pneumatic tumbler, a pneumatic button, valves, rotameters and a device for connecting to a patient, characterized in that it is made on pneumatic elements with freely lying membranes and contains an integrated pneumatic module and two output pneumatic relays, while the power inputs of the module and the output relay for oxygen are connected to a source of compressed oxygen through a pneumotummer, the second input of the module is connected to mon with a button, the power inputs of the module and the output relay for nitrous oxide are directly connected to the nitrous oxide source, each of the two outputs of the module is connected to the device connecting to the patient through a series-connected output pneumatic relay, valve, rotameter and check valve, and the third output of the module is connected to this device through the check valve. 2. The apparatus according to claim 1, characterized in that the integrated pneumatic module contains four pneumatic relays, connected according to the NOT circuit and having a power input, a control input and an output, the output of the first relay being connected to the control input of the second relay and the first output of the module, the output of the second the relay is connected to the control inputs of the third and fourth relays, the outputs of the third and fourth relays are connected, respectively, to the second and third outputs of the module, and the control input of the first relay is connected to the power input of the module through pneumatic resistance.