The energy converter of the TAH Ovalis is shown in cross- sectional views: motor (1); drive gear (2); internal geared wheel (3); ball bearing (4); guide track (5); pusher plate (6); sleeves (7)
The main characteristic is an internal geared wheel that transfers the unidirectional rotational motion of the motor to the forward-reverse longitudinal motion of pusher plates then driving the ventricles. The motor is equipped with a cogwheel that drives the internal geared wheel. Guide bushes and an oval shaped guide track ensure the correct motion of the internal geared wheel. According to Figures 1 a-d, the drive system has a motor (1), which rotates in one rotational direction and is mounted on a housing or frame. Seated on the motor shaft is a drive gear (2), which engages with an internal geared wheel (3). The internal geared wheel has an internally geared oval, the long sides lying parallel to one another and being respectively interconnected by arcs.
In order to ensure a permanent positive connection between the drive gear and the internal gearing of the internal geared wheel, a guide device is provided, which includes a ball bearing (4) connected to the housing and a guide track (5) in which the ball bearing runs. The guide track, which is oval in shape, is adapted in its dimensions to those of the drive gear and of the internally geared wheel. The internal geared wheel and its guide track are formed from a block, which consists in the prototype of two rigidly interconnected portions.
The pusher plates (6) are interconnected via four longitudinal rods, of which the parallel longitudinal rods are movable guided in sleeves (7) rigidly connected to the housing. The longitudinal rods are respectively rigidly connected to two cross bars, upon which the block with the internal geared wheel and the guide track are movable mounted via sleeves (Fig. 1 a-d).
In vitro testing has been performed on a mock circulation loop. The overall system efficiency of the TAH Ovalis was 27-39% (mean: 36%) for the pump output range of 2-7 L/min. The maximum output of 7 L/min can be obtained with pump rate of 130 min-1 and an afterload pressure of 140 mmHg. For an average sized human with a mean cardiac output of 6 L/min at a mean aortic pressure of 120 mm Hg, 5 watts of input power would be required.
The in vitro studies demonstrated the excellent efficiency and pump performance of this new electromechanical energy converter. The results prove the feasability of this new concept for an energy converter for a total artificial heart.
The energy converter of the TAH Ovalis is shown in cross- sectional views: motor (1); drive gear (2); internal geared wheel (3); ball bearing (4); guide track (5); pusher plate (6); sleeves (7)
Three-dimensional design studies: motor (1); internal geared wheel (2); drive gear (3); oval (4); longitudinal rods (5); sleeve (6); pusher plate (7); housing (8); pump chamber (9); tilting-disk valve (10); guide track (11)
The TAH-Ovalis prototype (size: 560 cm3, weight: 950 g)
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