SU1713595A1 - Artificial heart valve - Google Patents

Abstract

This invention relates to medical technology, more specifically to an artificial heart. The purpose of the invention is to reduce thrombosis. This is achieved by performing a ventricle and blood contacting valve surfaces as a whole, the valves being made controllable. The inlet valve has the form of a bag covering the inlet 2, and the outlet valve is a flattened torus, the walls of which squeeze the outlet 3. The valve cavities are connected to the pneumatic chamber 11 of the ventricle and the pneumatic actuator. 3 il p. 1 "e. ^ • h! • * .CA > & SL OSL ^

Description

This invention relates to medicine, more specifically to circulatory devices.

The aim of the invention is to reduce thrombosis.

FIG. 1 shows a diagram of the artificial ventricle of the heart; in fig. 2 inlet valve with pneumatic cavity on the inlet tube, incision; in fig. 3 - outlet valve with pneumatic chamber at the outlet nozzle.

The artificial ventricle of the heart consists of an elastic body 1 with an inlet 2 and an outlet 3 nozzles and is divided by a flexible partition 4, which is shaped according to the shape of the inner surface of the body 1, into the cavity 5 and the cavity 6 of the pneumatic chamber. In cavity 5, a blood chamber 7 is arranged, made in the form of a seamless, one-piece smooth bag with inlet 8 and outlet 9. tubes of the same material. In the inlet nozzle 2 there is a cavity 10 in which a cavity 11 is located (Fig. 2), covering a segment 12 of the inlet tube 8 and having a channel 13 with a working pneumatic chamber 14. It is possible to perform an inlet nozzle 2 without a cavity 10 when the pneumatic cavity 11 covers the nozzle. On the tube 9 there is a second pneumatic cavity 15 (Fig. 3), made in the form of a hollow torus squeezed along the diameter with elastic walls that retain their shape at. internal pressure on them to 30 or 70 mm Hg, Art. (depending on the right or left ventricle. Pneumatic cavity 15 pinches the outlet tube 9 and has a channel 16c with a working pneumatic chamber 14. The working pneumocamera 14 has a nipple 17 for connection to the pneumatic actuator, so that the air from the pneumatic actuator first enters / 7

em in the pneumatic cavity 11, and then in the working pneumocamera 14 through the channel 13.

Artificial ventricle works as follows.

The inlet 2 is connected to the cavity of the right atrium or one of the hollow veins, the outlet 3 rd aorta. With this, blood is filled. Pneumatic chamber 14 is connected to the pneumatic actuator, a vacuum is created in the Pnevmolopoltsy 11 and in the working pneumocamera 14, this opens the inlet tube 8 and the blood is sucked in by the pneumatic cavity 15, the outlet tube 9, then air is supplied to the pneumatic cavity 11, which pinches the inlet pipe 8, preventing the back blowout of blood increases the pressure in the working chamber 14 and, accordingly, in the chamber for blood 7, which, after Excess pressure, is 70 mm Hg. overcomes the elasticity of the walls of the pneumatic cavity 15 and takes the form of a circular torus, opening a passage for blood through the outlet 4. Blood is released. Then the cycle repeats.

Claims (1)

Invention Formula An artificial ventricle of the heart, comprising a housing with inlet and outlet nozzles with valves, in which a blood chamber and a pneumatic chamber are located, separated from the blood chamber by a septum, the inlet valve having a pneumatic cavity connected to a pneumocamera, characterized in that in order to reduce thrombus formation , the outlet valve is provided with a pneumatic belt connected to a pneumocamera, made in the form of a hollow ellipsoid torus covering the outlet, and the blood chamber is made in the form of a seamless bag. from / yy / b VLLZ.