RU115665U1 - ELECTROMECHANICAL DRIVE OF A MEMBRANE PUMP OF AUXILIARY BLOOD CIRCULATION - Google Patents

Abstract

Electromechanical drive of the diaphragm pump for auxiliary blood circulation, containing an electric motor with a hollow rotor, which contains a nut, satellite rollers, a central screw, a plate pusher, to which the guide mechanism rods are rigidly attached, and the drive is equipped with a fixed body, characterized in that the pusher is made in in the form of a glass, and the bushing, fixed in the housing, have spline grooves that allow them to reciprocate relative to each other.

Description

The utility model relates to medical equipment, namely, devices for pumping blood.

Known implantable artificial ventricle of the heart, containing a diaphragm pump for blood, a plate pusher, to which the rods of the guide mechanism are rigidly fixed, preventing the possible rotation of the plate pusher, having the ability to make a reciprocating motion in the sleeves of grapelon, an electric motor with a hollow rotor, inside which there is a screw planetary gear consisting of a central screw, nut, satellite rollers. The hollow rotor of the electric motor has the form of a coil, on the lateral surface of which an annular permanent magnet is fixed, while the rotor bearings are placed inside the annular permanent magnet (see patent RU 2219956, class A61M 1/12, publ. 12/27/2003).

A disadvantage of the known implantable artificial ventricle of the heart is the low reliability of the drive due to the minimum contact area in the elements of the guiding mechanism.

The objective of the utility model is to eliminate this drawback.

The technical result is to increase the reliability of the drive.

The problem is solved, and the technical result is achieved by the fact that in the electromechanical drive of the auxiliary circulation pump diaphragm containing an electric motor with a hollow rotor in which a nut, satellite rollers, a central screw, a plate pusher are mounted, to which the guiding mechanism rods are rigidly mounted, and the drive equipped with a fixed casing; an additional pusher made in the form of a glass, and the sleeve fixedly mounted in the casing, have slotted grooves providing zvratno translational movement in relation to each other and prevent rotatably pusher.

Figure 1 shows the electromechanical actuator of the diaphragm pump for auxiliary circulation, a General view, combined with a section.

Figure 2 shows a section along section aa.

The proposed electromechanical drive includes a drive housing 1, in which a stator winding of a DC DC valve motor 2 and bearings 3 are mounted, in which the rotor 4 can rotate. The rotor 4 is hollow and has the form of a coil, on the side surface of which an annular permanent magnet 5 is rigidly fixed and a nut of a planetary helical gear 6 is rigidly inserted inside, connected via satellites 7 to the central screw 8. The central screw 8 is rigidly connected to the pusher 9, which has the ability to return but-translational movement in the sleeve 10.

The electromechanical drive operates as follows: When voltage is applied to the stator winding 2, the rotor 4 begins to rotate. Its rotation is transmitted to the satellites 7, which are connected with the central screw 8, which moves progressively in one or the other direction, depending on the direction of rotation of the rotor 4. The movement of the central screw 8 is transmitted to the pusher 9, while the pusher 9 can be rotated from the rotation of the helical planetary gear spline grooves made on the lateral surface of the pusher 9 and the sleeve 10 prevent it. The pusher 9, acting on the membrane of the heart pump (not shown), pushes blood from the body of the heart pump. The filling of the heart pump occurs by gravity from the pressure of the circulatory system of the body.

This utility model can be used in the manufacture of auxiliary blood circulation devices and is designed to operate as an electric drive of membrane blood pumps.

Replacing the rod guide mechanism with a spline connection increases the reliability of the drive by increasing the contact area between the elements of the guide mechanism.

Claims (1)

An electromechanical actuator for an auxiliary circulating diaphragm pump, comprising a hollow-rotor motor in which a nut, satellite rollers, a central screw, a plate pusher are mounted to which the guiding mechanism rods are rigidly mounted, and the actuator is equipped with a fixed housing, characterized in that the pusher is made in in the form of a glass, and the sleeve, motionlessly fixed in the housing, have spline grooves, providing the possibility of reciprocating movement relative to each other.