SU1109161A1 - Respiratory apparatus - Google Patents

Abstract

A RESPIRATORY DEVICE, containing a control panel, connected to a functional unit with pneumatic elements and an atmospheric entrance chamber. measure, the patient attachment unit, from the patient so that, in order to reduce the gas flow, it is equipped with an accumulation unit and to supply the patient with exhaust gas containing an injector, the feed chamber of which is connected to the first output function-. directly, and the suction chamber is connected to the atmospheric entrance chamber of the functional unit through the pneumatic valve in the pneumorel, whose control chamber is connected to the second output of the functional unit, with the injector output connected to the patient accessory unit. (L with Od

Description

The invention relates to medical equipment, in particular to breathing apparatus.

A breathing apparatus is known that contains a control panel • connected to a functional unit with pneumatic elements and an atmospheric inlet chamber, and a unit for connecting to a patient [1].

However, the known apparatus consumes a large amount of gas for the operation of the apparatus itself, which is discharged into the atmosphere and is not useful to use.

Del of the invention is the reduction of gas consumption for the operation of the apparatus.

This goal is achieved in that the breathing apparatus comprising a control panel connected to a functional unit with pneumatic elements and an atmospheric inlet chamber, a patient attachment unit, is provided with an exhaust gas storage and supply unit containing an injector, the feed chamber of which is connected to the first the output of the functional unit directly, and the suction chamber with the atmospheric input chamber of the functional unit through the pneumatic capacity and pnev ι morele, the control chamber of which is connected to the output of the functional block, the output of the injector connected to the input of the block. connecting to the patient.

The drawing shows a structural diagram of the proposed breathing apparatus.

The breathing apparatus contains a control panel 1, a functional unit 2 with pneumatic elements and an atmospheric inlet chamber (not shown), a patient attachment unit 3, an exhaust gas accumulation and supply unit 4 containing an injector 5, the feed chamber (not shown) of which is connected to the first the output of the functional unit 2 directly, and the suction chamber (not shown) with the atmospheric inlet chamber of the functional unit 2 through the air reservoir 6 and the air relay 7, the control chamber (not shown) of which is connected to the second outlet house of functional block 2, and you 10

VNIIPI Order 5970/5, the injector 5 stroke is connected to the input of the patient connection unit 3, and the pneumatic capacity 6 is formed by the internal surfaces of the apparatus body.

The device operates as follows.

Functional unit 2, in accordance with the control signals of the control panel 1, generates at its output a pulsating stream of respiratory gas with the set parameters, which through the supply chamber of the injector 5 enters the unit 3 connecting to the patient. At the same time, the output of the functional unit 2 acts on the control chamber of the pneumatic relay 7 and, during the period of inspiration, connects the pneumatic capacity 6 of the unit 4 for accumulating and supplying the patient with exhaust gas to the suction chamber of the injector 5. At the same time, during inspiration, the gas in the pneumatic capacity 6 and the gas coming from the input atmospheric chamber of the functional unit 2 at the time of its switching from the period of exhalation to inhalation, is sucked by the injector 5 and fed to the patient. At the time of switching from the period of inspiration to exhalation, the pneumatic relay 7 disconnects the pneumatic capacity 6 from the injector 5. As a result, the gas coming from the input atmosphere chamber of the functional unit 2 and at the time of its switching from the period of inspiration to exhalation accumulates in the pneumatic capacity 6.

Thus, with each inhalation, oxygen is additionally supplied to the patient’s airways, which was used to switch the apparatus from the expiratory to the expiratory period, as well as from the period of inspiration to expiration. This allows for the same amount of artificial ventilation of the lungs to reduce the amount of oxygen supplied to the patient from the functional unit 2 by a constant value equal to the amount of oxygen expended on cyclic switching of the functional unit 2, which ultimately leads to gas savings in putting the device into operation and at the same time increases the operating time of the apparatus from an autonomous source of compressed gas.

Circulation 688 Subscription

Branch of PPP Patent, Uzhhorod, Project 4,

Claims (1)

A BREATHING APPARATUS comprising a control panel connected to a functional unit with pneumatic elements and an atmospheric inlet chamber, a patient connection unit, so that in order to reduce gas consumption, it is equipped with an accumulation and supply unit an exhaust gas patient containing an injector, the feed chamber of which is connected to the first output of the func. the national unit directly, and the suction chamber is connected to the atmospheric inlet chamber of the functional block through a pneumatic reservoir in the pneumatic relay, the control chamber of which is connected to the second output of the functional block, and the injector output is connected to the input of the patient connection unit.