SU959781A1 - Artificial palmonary ventilation apparatus - Google Patents

Description

The invention relates to medical technology and can be used in lung ventilators used for emergency assistance in objects with a limited area, for example, on board helicopters, airplanes and cars, on search of rescue services, and on board .P.

The lunesten ventilator, which contains an electric drive, a multi-bellows gas flow generator with a movable oblique pressure unit, a fixed manifold, and valve valves, while the sidephones are installed on both sides of the pressure unit fixed obliquely on the drive shaft. .

However, in a known apparatus, the installation of cylindrical α-bellows around a centrally located drive mechanism is significant. the overall dimensions and weight of the apparatus, making it difficult to use it in objects with limited 1SHOO111DL19. i The aim of the invention is to reduce the size and weight of the apparatus, reducing the pulsation of the gas flow, a.

also an increase in the degree of utilization; or its volume.

This goal is achieved by the fact that in a device for artificial ventilation of the lungs, on / in the electric drive, a multi-bellows gas flow generator with a movable oblique pressure in the presence of an evil, fixed collector; rum and valve, with bellows:

10 are installed on both sides of the pressure unit fixed obliquely on the drive shaft, the pressure unit is made in the form of a spring-loaded washer through the balls with the plate ,,;

15: obliquely mounted on the drive shaft. ;

In addition, bellows located on opposite sides of the pressure; knotted, shifted

20 half the angular step between sylph-. us. . . .

The cross-section of the bellows has the shape of a truncated cone

25

In FIG. 1, an isobrgica is schematically a lung ventilator, section} in FIG. 2-section A-A in FIG. I.

The device contains an electric drive with. 30 motor 1 connected.

for example, a belt drive with a drive shaft 2, on which a tilted plate 3 is fixed. The shaft is mounted in bearings in fixed bases 4 and 5, each of which has two annular collectors: input collector b and output collector. 7. Corresponding collectors of the right and left bodies are interconnected by channels 8 and 9. Between bases 4 and 5 there is a washer 10, pressed by a spring 11 to the inclined plate 3, and between the plate 3 and the washer 10 in the special circular grooves are installed balls 12, C On both sides 10, between it and the base plates 4 and 5, corrugated rubber bellows 13 are installed, attached both to the case and. to the puck. The bellows (for example, five pieces on each side) are arranged in a ring and in the cross section have the shape of a truncated cone (sector from the ring), and the symmetry axes of the cross section of the bellows located to the left of the washer 10 are shifted by an angle relative to the axes of symmetry of the transverse the sections of the bellows located to the right of the washer, half the angular step between the bellows (in figure 2, the bellows located to the left of the washer are shown as a solid line, and the bellows located to the right of the washer with a dotted line). The capacity of each of the bellows is connected to the collectors 6 and 7 by means of check valves 14 and 15.

In this case, the spring-loaded washer 10 connected via balls 12 to the plate 3, which is inclined fixed on the drive shaft 2, forms a movable inclined pressure unit. Pressure unit, Bellows installed on both sides of the pressure unit, fixed manifold and valves form a multi-force Background gas flow generator.

The device works as follows.

When the motor turns on, the shaft 2 connected to it starts to rotate and, therefore, the plate 3 is tilted. When plate 3 moves in, the balls 12 begin to roll over the surface of the washer 10. However, since the washer 10 is fixed by bellows 13, it does not and the movement of the inclined plate 3 through the balls 12 causes the washer 10 to perform a circular undulating oscillatory movement, moving away and approaching the bases 4 and 5. At the same time, the BELLOWS 13 attached to the washer 10 will alternately grow vats and compressed, respectively, of the sucking inlet manifold

6and pushing into the intake manifold

7 by means of check valves 14 and 15 gas flow.

During one revolution of the shaft, all the BELLOWS are alternately squeezed and released, resulting in a continuous gas flow due to the fact that the bellows. to the left and right of the washer 10 are shifted by half a step, the degree of pulsation of this flow will be significantly reduced (due to the uniformity of operation of all ten bellows).

Since BELLOWS in cross section have the shape of a sweep of a truncated cone, the degree of filling of the working ring with Mechs is relatively high, which, in turn, reduces the size of the apparatus.

Claims (3)

1. A device for artificial ventilation of the lungs, including an electric aperture, a multi-bellows gas flow generator with a movable oblique pressure unit, a fixed collector valves, while the bellows is installed on both sides of the pressure assembly fixed obliquely on the drive shaft, characterized in that, in order to reduce overall dimensions and weight, the pressure assembly is made in the form of a spring-loaded washer connected through balls to the plate shaft 2. The apparatus according to claim 1, characterized in that, in order to reduce the pulsation of the gas flow, the bellows located on opposite sides of the pressure unit are shifted between themselves by half the angular pitch between the silbophones. . 3. The apparatus according to claim 1, which is also distinguished by the fact that, in order to increase the degree of utilization of its volume, the cross section of the bellows has the shape of a truncated cone. Sources of information taken into account in the examination 1. French Patent No. 2199353, 04B45/00, 1972.