SU1101237A1 - Implanted electrohydraulic actuator of artificial heart - Google Patents

Abstract

1. IMPLANTABLE ELECTRO-HYDRAULIC DRIVE OF THE ARTIFICIAL HEART, comprising a housing, a reversible axial thrust, arranged in rows of fixed vanes of which are located on the inner surface of the housing, and a brushless electric motor of direct current, which is different in order to prevent the body organ of the organism from being crushed to prevent the body organ of the organism from being crushed, an organism that organizes an organism heart by reducing the size of the drive, the rotor of the electric motor is made in the form of a cylindrical sleeve, the stator with the windings is placed inside, and the row under Vise blades reverse axial pump placed on the outer surface of the rotor. 2, the drive according to claim 1, wherein, in order to increase its efficiency, an additional row of fixed blades is installed on the inner surface of the housing, and a row of movable blades on the outer surface of the rotor, so that each row of movable blades passes between rows of fixed blades.

Description

The invention relates to a medical technique, namely, devices for replacing heart function. A known artificial heart drive comprising a steam engine with an energy source and a valve system l. The disadvantages of this drive are its large size and weight, which prevents the drive from being implanted in the chest cavity. An implantable electrohydraulically driven artificial heart drive is also known, comprising a housing, a reversible axial pump, the fixed blades of which are placed on the inner surface of the housing and a brushless DC motor 2J. The disadvantage of the implanted electro-hydraulic drive of an artificial heart is too large, which leads to squeezing of the central vessels of the body and reducing the pumping efficiency of the artificial heart. In addition, the QDC of this drive is not high enough. The purpose of the invention is to prevent the central vessels of the body from squeezing during the implantation of an artificial heart by reducing the dimensions of the drive, as well as improving its efficiency. This goal is achieved by the fact that in an implantable electro-hydraulic drive of an artificial heart, comprising a housing, a reversible axial pump, stationary vanes arranged in rows, which are located on the inner surface of the housing and a brushless DC motor, the rotor is designed as a cylindrical sleeve, the stator with The windings are placed inside the rotor, and a number of movable blades of the reversing axial pump are spread on the outer surface of the rotor. In addition, on the inner surface of the casing there is an additional row of stationary hubs, and on the outer surface of the rotor there is a row of movable vanes so that each row of movable vanes passes between the rows of immobile blades. FIG. 1 shows an implantable electro-hydraulic drive of an artificial heart, a longitudinal section; in fig. 2 - sweep lobes. The implantable electrohydraulic drive of an artificial heart contains a rigid body 1 made of a material inert to the body tissues, a stator 2 with windings rigidly fixed in the flanges of the body 1 with annular holes 3 and 4 for the flow of working fluid. The winding leads are brought out through a series of holes in the stator sleeve 5 fixedly mounted. The stator 2 is located inside a rotor 6 shaped as a cylindrical sleeve, in the wall of which a permanent magnet is fixed. The rotor 6 is fixed on the supports 7 and 8. On the outer surface of the rotor 6 there is a series of movable vanes 9, and on the inner surface of the case of a row of 10 stationary vanes. To increase the efficiency of the drive on the inside (The top of the case can be installed, a further 11 fixed blades, and on the outer surface of the rotor - a number of movable blades. The preferred angles of inclination of the blades are 16 °, / i 60 °, Y The actuator operates as follows: Pulses from an electronic switch (not shown) enter the windings of stator 2. The resulting rotating magnetic field drives the rotor 6 with the vanes 9. The fluid is pumped, for example, from the right ventricle. and to the left through apertures 3 and 4. The speed of rotation of the blades 9 is controlled by a control system by a signal from a pressure sensor in the right ventricle. When pumping all the liquid from the right ventricle to the left engine it stops and then through the action of the reverse sequence of current pulses supplied to the stator windings 2, begins to spin in the opposite direction. In doing so, the fluid is pumped from the left ventricle to the right. The proposed electro-hydraulic drive of an artificial heart is characterized by small he-bari s that prevents squeezable central body vessels. The presence of additional rows of blades on the body and rotor of the motor allows us to significantly increase the efficiency of the drive.

Q9

 11 a 10

Criminal Code

Claims (2)

1. IMPLANTED ELECTROHYDRAULIC DRIVE OF AN ARTIFICIAL HEART, comprising a housing, a reversible axial natsos, rows of fixed blades of which are located on the inner surface of the housing, and a brushless DC motor, characterized in that, in order to prevent compression of the central vessels of the body by implantation of an artificial heart reducing the dimensions of the drive, the rotor of the electric motor is made in the form of a cylindrical sleeve, the stator with windings is placed inside, and a number of movable The blades * of the reversible axial pump are located on the outer surface of the rotor. 2. Drive on π. 1, characterized in that, in order to increase its efficiency, an additional row of fixed vanes is installed on the inner surface of the casing, and a series of movable vanes on the outer <outer surface of the rotor so that each row of movable vanes passes between rows of fixed blades.