SU1364346A1 - Apparatus for inhalation anesthesthesia - Google Patents

Abstract

The invention relates to medical technology. The purpose of the invention is to provide simultaneously with anesthesia an automatic artificial ventilation of the lungs with the maintenance of the minute volume of respiration when the concentration of the anesthetic is changed. The apparatus contains a cylinder 1 with oxygen and a cylinder 2 with an anesthetic, pressure regulators 3, 4, pressure gauges 5, 6, oxygen pressure stabilizers 7–9, a throttle regulator 14 for the flow of respiratory gas, injectors 19, a controlled non-reversible valve 21, a throttle regulator 22 flow of anesthetic. High accuracy of maintaining a given Concentration of a narcotic substance and a discrete range of its regulation ensure the safety of the patient during inhalation anesthesia along a half-open contour. 1 il.

Description

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The invention relates to medical technology and can be used in the provision of first aid with anesthesia.

The purpose of the invention is to provide simultaneously with anesthesia an automatic artificial ventilation of the lungs with the maintenance of the minute volume of respiration when the concentration of the anesthetic is changed.

The drawing shows a schematic diagram of an inhalation anesthesia apparatus.

a variable signal corresponding to a given respiration rate and the ratio of expiratory and inspiratory durations, which is supplied to the control of relay 16-18 and controlled non-reversible valve 21, Two of three relays 16-18 are blocked by signals from the switch 13 of narcotic substance concentrations, and only one passes the flow of oxygen from the current regulator 14 nor to the corresponding injector 19 and then through the controlled non-reversible valve 21 of the device 20

The device for inhalation anesthesia of the respiratory tract patient holds a cylinder 1 with oxygen and a cylinder 2 with an anesthetic - nitrous oxide, pressure regulators 3 and 4 pressure, manometers 5 and 6, stabilizers 7–9 oxygen pressure, stabilizer 10 pressure over acid. nitrogen, input relays 11 and 12, switch 13 for the concentration of narcotic substances, throttle regulator 14 for the flow of respiratory gas, switch 15 for the gas flow, output breathing bag 23, where nitrous. 16-18, injectors 19, nitrogen device 20 comes from cylinder 2, supplied to the patient. Injectors 19, in the above version of the scheme - there are three,. have different flow sections, which corresponds to three different coefficients of suction, and, consequently, three different levels of narcotic substance concentration. In this variant of the scheme, this corresponds to three levels of nitrous oxide nitrous from

connecting to the patient's respiratory tract, controlled irreversible valve 21, throttle regulator 22 Anesthetic flow, breathing bag 23.

An oxygen cylinder 1, a gearbox 3 and a pressure gauge 5 are connected to the inputs of stabilizers 7-9, which through relay 11 and 12 connected via the OR scheme, are connected to a flow controller, 14, the output of which is connected to the inputs of relay 16-18, Control The chambers of the relay 11, 12 and 16-18 are connected to the concentration switch 13. Other control chambers of the relay 16-18 are connected to a gas flow breaker 15 and to a controlled non-reversible valve 21 of the device 20 for attaching to the patient's respiratory tract.

The outputs of the relay 16-18 are connected to the inputs of the injector 19, and their common output is connected to the input of the controlled irreversive valve, and the suction chambers are combined and connected to the source of the narcotic substance - a balloon 2 with nitrous oxide through the stabilizer 10, the regulator 22 and breathing bag 23. Cylinder 2 is equipped with a gear 4 and a pressure gauge 6,

The device works as follows.

The interrupter 15 of the gas flow at its output produces discrete

breathing bag 23, where soured. nitrogen comes from cylinder 2, supplied to the patient. Injectors 19, in the given variant of the scheme - there are three of them,. have different flow sections, which corresponds to three different coefficients of suction, and consequently, three different levels of concentration of a narcotic substance. In this variant of the scheme, this corresponds to three levels of nitrous oxide nitrate from.

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reducing gear 4 and a pressure gauge 6, and through the second stabilizer 10 and the regulator 22, Oxygen to the gas flow controller 14 comes either from the stabilizer 9 through the relay 12, if there is no blocking signal to the relay 17, or from the stabilizer 7 through the relay 11 and 12, if there is no blocking signal on the relay 18, or from the stabilizer 8 through the relay 11 and 12, if there is no blocking signal on the relay 16, Oxygen is supplied to the stabilizers 7-9 from the oxygen cylinder 1 through the gearbox 3 equipped with a pressure gauge 5, Values pressure for stability by isolators 7-9 are adjusted so that with the same position of the gas flow controller 14, injectors 19 provide (taking into account the suction coefficient of each) the same flow rate of the breathing gas supplied to the controlled non-reversing valve 21. To eliminate respiratory gas losses during expiration through the injectors, as well as during the period of entry through the blocked relays, the atmospheric holes in the relay 16-18 (when using commercially available relays) are plugged.

Thus, the use of only three injectors in the proposed scheme provides inhalation anesthesia in a ratio of 0, for example 1: 1, 2: 1, and 3: 1, with a high degree of accuracy of the concentration of the narcotic substance in the breathing mixture due to the fact that injector suction does not depend on the flow at its inlet. The accuracy of maintaining a given concentration by maintaining the minute volume of respiration when the concentration of anesthetic is high is high, it is equipped with inlet and outlet pneumoregles associated with the reshaping of a narcotic substance and the ventilator of the lungs, within the simple range of its absence beating rotameters, ensure patient safety during the inhalation of the nart ig key, concentration and interrupterosis of the key along the half-open circuit under conditions of specialization nnogo medical transport. Introduction to the scheme on the line supplying oxygen to the controller

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The gas flow rate of the reducers in terms of the number of injectors used ensures that the minute ventilation of the lungs is adjusted when the concentration of the narcotic substance in the respiratory gas is changed.

Claims (1)

Invention Formula An inhalation anesthesia device containing fittings connecting to anesthetic and respiratory sources the number of switchable concentrations communicated with the outlet pneumorele and connected with the flow controller of the anesthetic through the breathing bag, pressure stabilizers of the breathing gas in terms of the number of switched concentrations and pressure stabilizer of the anesthetic installed before the flow regulators, the control unit of the non-reversible valve of the connecting device communicated A gas flow breaker consisting of a pneumatic pulse generator with adjustable frequency and duty cycle. gas, throttling anesthetic and respiratory gas flow controllers, a flow interrupter, a concentration switch, a connecting device with a non-reversing valve, and a breathing bag, different in order to simultaneously perform anesthesia and automatically maintain the minute respiratory volume when concentration of the anesthetic, it is supplied with inlet and outlet pneumorelles, connected with the ventilation of the lung key; artificial ventilation of the light of the key with concentration and interruption the number of switchable concentrations communicated with the outlet pneumorelles and connected with the anesthetic flow regulator through the breathing bag, breathing gas pressure stabilizers by the number of switched concentrations and the anesthetic pressure stabilizer installed in front of the flow regulators of the connecting device of the non-reversing valve of the connecting device communicated with gas flow consisting of a pneumatic pulse generator with adjustable frequency and duty ratio.