SU463452A1 - Automatic machine - Google Patents

Description

one

The invention of medical technology for the treatment of various diseases in surgery, therapy, anesthesiology and resuscitation.

Known pulmonary machine containing a membrane, valves and pneumatic amplifier with input resistance in the form of a nozzle.

However, such an apparatus at low volumetric inspiratory velocities does not ensure stability.

In order to ensure stability at low volumetric inspiratory velocities, the proposed automaton is equipped with a flow divider installed at the gas outlet and made in the form of two parallel channels, one of which has a throttle, and the other an injector, the suction side of which is connected to the supramembrane cavity pulmonary machine.

The drawing shows a schematic diagram of the proposed pulmonary machine.

The machine includes a housing 1, valves 2 and 3, a pneumatic booster, a nozzle 4, a diaphragm 5 with a stem 6, a membrane 7 with a valve 8 forming cavities A and B. In addition, the automat contains a flow divider mounted at the gas outlet and made in the form two parallel channels a and b. In channel a, a throttle 9 is installed, and in channel b an injector 10 is installed, the suction line 11 of which is connected to the supramembrane cavity B of the pulmonary automaton.

Automatic operation; with food; Respiratory gas at the inlet line 12

enters valve 2 and at the same time via conduit 13 through choke 9 into the cavity L of the pneumatic amplifier, then through nozzle 4 and the membrane B above the suction line 11 into the breathing bag (not shown).

When the patient inhales, under the action of a vacuum created in the breathing bag and above the membrane B of the pneumatic booster, the membrane 7 moves upwards and the valve 8 closes the nozzle 4. In this case, the cavity A

A pressure amplifier arises, creating pressure, under the action of which the membrane 5 with the stem 6 moves upwards, opens valve 2. and the breathing gas simultaneously through channels b and a, through the injector 10 and the flow divider enters the breathing bag and lungs of the patient.

The amount of vacuum created by the injector in cavity B is sufficient to hold the membrane 7 with valve 8 in the upper line, in which clan 2 is constantly open when inhaling even with small amounts of pulmonary ventilation, and breathing gas is supplied at the moment of inhalation continuously with low breathing resistance.

The pressure from the respiratory tract passes into the cavity of the B 11nevm () silite; 1. the membrane 7 moves downward and the valve 8 moves away from the nozzle 4. At the same time, the pressure in the cavity / 1 {gSaooap 2 closesC. The gas supply to the cell phone is stopped until the next act of inhalation. ,

With an increase in the intensity of breathing, the required volume of inhaled gas is provided due to additional suction from the atmosphere through clanan 3, which is triggered when a vacuum is created in cavity B, which is higher in magnitude than the pressure response of the pneumatic booster.

F o rm; i

A lung machine containing a co-start, a membrane, valves and a nioemplifier, characterized in that. It is impossible to ensure the stability of operation at low volumetric rates, with the provision of a flow gap that is installed on a gas outlet and a good air conditioner in two torches. to one of which a choke is installed, and in the other - an injector, the suction line of which is connected with the iadmembray cavity, with an automatic machine.

 eight