SU978866A1 - Stand for testing artificial heart ventricles - Google Patents

Description

(54) STAND OF MILK TEST OF VENTRICLE. ARTIFICIAL HEART The invention relates to the field of medical technology and can be used in sdendovyh tests of heart pumps. A stand for testing the ventricles of an artificial heart, consisting of arterial and venous reservoirs and a ventricle with a pneumatic actuator 1, is known. The disadvantage of the known stand is the impossibility of changing the ventricular position. A known stead for testing the ventricles of an artificial heart, which is fixed on racks to interconnected tubing imitators of venous and arterial stiffness and the ventricle of an artificial heart. drive 2 The disadvantage of the known stand is that the ventricle has one fixed position, therefore it is impossible to study the effect of gravity on the work of the ventricle on this stand. The purpose of the invention is to enhance the functionality of the test bench by making it possible to study the effect of gravity on ventricular work. This goal is achieved by the fact that the stand containing the imitators of venous and arterial stiffness and the ventricle of an Artificial heart, fixed on racks and interconnected by pipelines, driven, equipped with a turning device, made in the form of a panel, which is attached to the swivel nodes rotatably about the axis of the swivel nodes. The ventricle is fixed on the panel, and each swivel UAE is made in the form of two concentrically mounted cylindrical parts, between which an elastic sealing ring is installed. FIG. 1 is a schematic diagram of the stand; in fig. 2 is a diagram of a stand with a rotary device in FIG. 3 - panel turning unit. The test bench for the ventricle of the artificial heart contains fixed on racks 1 and interconnected by pipelines. 2 venous 3 and arterial 4 reservoirs, the ventricle 5 of an artificial heart / connected to the control of the actuator 6. The ventricle is connected to the venous reservoir via the damper 7 and the simulator of the vein 8, and to the arterial reservoir

the aram through the damper 7 and the simulator of the arteries 9. The stand is equipped with a swivel device made in the form of a panel 10 rigidly attached to the swivel nodes 11 rotatably about an axis 12 coinciding with the geometric axis of the swivel nodes and a flow meter 13. One of the cylindrical parts of each the pivot points are rigidly fixed on the rack, and the ventricle, damper, simulator of the vein and simulator of the arteries are fixed on the panel. The swivel device is made with the possibility of discrete fixed rotation from O to 360 °, and each swivel unit is made in the form of two installed concentric cylindrical parts 14 and 15, between which there is a sealing rubber ring 16.

Art, end works as follows.

On the racks 1, the venous

3 and 4 arterial vessels, which are interconnected by pipelines 2 through the flow meter 13. Then, fixed elements 14 of the swivel assemblies, which include movable elements 15 rigidly connected to the rotating panel 10, are fixed to the racks 1,

on which the artificial ventricle of the heart 5 is installed. Its entrance through the damper 7 and the simulator of the vein 8 is connected to the venous reservoir 3, and the output through the simulator of the artery 9 to the arterial reservoir 4.

4 tanks with working fluid and fix the swivel panel 10 in the desired position. The artificial ventricle of the heart 5 connects to the control drive 6. When the drive is switched on.6 the artificial ventricle begins to work. The venous reservoir 3 allows for adjusting the venous inflow by changing the height of the hydrostatic liquid column. Using the simulator artery 9 and blood reserve

4, it is possible to set the required pressure values of the arterial reservoir. The damper .7 and the simulator of the vein 8 imitate the elasticity of the venous bed. The fluid flow rate is measured using a float type flow meter 13. Sealing the turning points and fixing the panel 10 is carried out using sealing rings 16. By changing the position of the artificial ventricle of the heart 5 in space, by rotating the panel 10 about the axis 12, the venous inflow is restored by the level of the hydrostatic liquid column in the venous reservoir 3. In this case, in the artificial ventricle, the hydrodynamics of the internal flows change, which leads to a change in the internal hydraulic resistance of the artificial ventricle and, as a result, to a change in the flow rate Liquids that is fixed by means of a flow meter 13.

The test bench allows studying the effect of gravity on the work of the ventricle in the whole possible range of ventricular positions relative to gravity.

Claims (2)

1. A test bench for testing the ventricles of an artificial heart, containing imitators of venous and arterial stiffness fixed on racks and interconnected by pipelines, and the driven heart of artificial hearts, characterized in that, in order to expand the functionality of the stand by making it possible to study the effect of gravity on the work of the ventricle, the stand is equipped with a turning device made in the form of a panel, which is attached to the turning nodes with the possibility of rotation about the axis of the turn tnyh nodes, the ventricle is mounted on the panel. 2. The stand according to claim 1, which is also distinguished by the fact that each swivel unit is made in the form of two installed concentrically cylindrical parts, between which there is an elastic sealing ring. Sources of information taken into account in the examination 1. The author's certificate of the USSR 339286, cl. A 61 M 1/03, 1972. 2. USSR author's certificate No. 700136, cl. A 61 M 1/03 1979 (prototype).