SU858825A1 - Gas flow generator for artificial pulmonary ventilation - Google Patents

Description

The invention relates to medical technology, namely to devices for artificial ventilation of the lungs. A known generator of gas flow of a mechanical ventilation apparatus, a motor, a mechanical bellows, pressure and suction valves, stationary manifolds, a drive shaft D is known. However, a known gas flow generator has considerable dimensions, weight, and an increased level of power consumption, which limits its use. The purpose of the invention is to reduce the dimensions while reducing the consumption of power supply. The goal is achieved by the fact that the generator of the gas flow of the apparate of artificial ventilation of the lungs containing an electric motor, mechanical syphons, pressure and suction valves, fixed headers, drive shaft, the generator is equipped with eccentrics with ball bearings mounted on its shaft, connecting rods and hangers, and fur The bellows are interconnected in pairs and mounted on rectangular collectors fixed on a common base and located perpendicularly on each side of it, with each pair of bellows Ilfonov connected by means of suspensions with a common base and through a hinge - with rods mounted on eccentric ball bearings, located relative to each other with a shift of an angle equal to -р; -, where n is the number of pairs of bellows. The cross section of bellows is made in the form of pr parallel walls, the junction junction is in semicircles, and the generator length is determined by the collector width and is a + 2g, where r is the radius of the semicircles of the walls; and is the distance between the centers of the semicircles. FIG. 1 shows a gas flow generator of a ventilator of an artificial lung; a general view; FIG. 2 section A-A in FIG. 1. The gas flow generator contains an electric motor 1, bellows bellows 2 and 3, pressure valves 4 and 5, suction valves 6 and 7, stationary collectors 8 and 9, drive shaft 10, eccentrics 11 with ball bearings 12 mounted on shaft 10, connecting rods 13 and suspensions 14, with the mechanic bellows 2 and 3 interconnected in pairs and mounted on right angle collectors 8 and 9 fixed 1 on a common base 15 and located perpendicular to shaft 10 on either side, each pair of bellows bellows 2 and 3 connected by means of suspensions 14 with a common base 15 and p by means of a hinge 16 with rods 13 mounted on ball bearings 12 eccentrics 11, located relative to each other with a shift by an angle equal to -, where n is the number of pairs of bellows bellows, while the cross section of bellows bellows 2 and 3 is made in the form of straight parallel walls, crossing into semicircles, and the generator length is determined by the collector width and is a + 2 g, where r is the radius of the segiglome of the stegles, and a is the distance between the centers of the semicircles.

The gas flow generator operates as follows.

When the motor 1 is turned on, the eccentric shaft 10 begins to rotate. By means of ball bearings 12, the rotation is transmitted to the connecting rods 13, together with the reciprocating movement of the bellows 2 and 3 with the help of the hinge 16, while the suspensions 14 prevent the bellows from moving from the perpendicular axis of the bellows. Each pair of bellows bellows 2 and 3 is moved in mutually opposite directions, and when pressure is created in mech bellows 2, a discharge is created in mech bellows 3. Under pressure in the bellows 2 valve b is closed, and the valve 4 is opened, and the gas from the bellows fur 2 is pushed out, while under the action of discharge in the bellows 3 the valve 5 is closed and the valve 7 sucks gas into the bellows 3. Upon further rotation of the eccentric 11, the opposite cycle of operation of the mechanic bellows 2 and 3 occurs. During one revolution of the eccentric 11, each pair of bellows-bellows performs a full cycle of compression and compaction. This process occurs in all pairs of bellows bellows 2 and a phase shift equal to the angle

in 60 °

turning the eccentrics relative to each other, where n is the number of bellows pairs 2 and 3. Thus, a constant gas flow is created, which is then metered to create an inhale.

The proposed gas flow generator has small dimensions and weight due to the design features of the generator and the use of low-power and small-sized electric motors by 12 or 27 V, which in turn reduces the power consumption of the generator and expands the range of application of the generator

invention formula

Claims (2)

1. Generator gas flow apparatus / artificial ventilation of the lungs, containing an electric motor, mechanical bellows, pressure and suction valves, stationary manifolds, drive shaft, in order to reduce 5 dimensions with a one-time reduction in power consumption, the generator is equipped with eccentrics with ball bearings mounted on its shaft, connecting rods and suspensions, and the bellows furls are interconnected in pairs and mounted on rectangular collectors fixed on a common base disposed perpendicularly to the shaft on either side of the shaft, wherein each pair of bellows, the bellows is connected by hangers with a common base by a hinge and - with rods mounted on eccentrics ball bearing disposed relative to each other with a shift by an angle equal to Zo ° where n is the number of bellows pairs. 2. Generator pop. 1, characterized in that the cross-section of the bellows with lfonons is made in the form of straight parallel walls, turning into semicircles, and the generator length is determined by the width of the collector and is a + 2g, where m is the radius of the wall walls. and is the distance between the centers of the semicircles.   Sources of information taken into account in examination I 1. USSR Copyright Certificate 5 375073, cl. A 61 H 31/02, 1971.