SU879366A1 - Centrifuge - Google Patents

Description

(54) CENTRIFUGE

one

The invention relates to test equipment, namely centrifuges, and can be used to simulate motion parameters and test objects for linear accelerations.

Closest to the invention to the technical essence is a centrifuge, comprising a base / gas support fixed on the base, a platform mounted on the gas support, a platform ELECTRONIC-braking device, made in the form of an electromechanical drive, and a platform speed control system fl J.

The disadvantage of this centrifuge is that it uses an electromechanical syringe as a booster. a drive with high inertia, as a result of which the accuracy of movement parameters is reduced, and thereby the test accuracy is reduced.

The purpose of the invention is to improve the accuracy of the tests. .

This goal is achieved by the fact that the platform is equipped with blades mounted on its periphery, and the accelerating-braking device contains two; 1 laser source of powerful radiation.

aimed at a pair of diametrically located blades, and the platform speed control system contains units for controlling the luminous flux of laser sources.

In Fig.1 schematically shows a General view of the described centrifuge; in fig. 2 - the same, top view.

The centrifuge contains base 1,

10, a base 3 fixed on the base, a platform 3 mounted on the gas support 2, a accelerating braking device and a platform 3 speed control system. Platform 3 is equipped with blades 4 installed on its periphery. The acceleration brake device contains an electromechanical drive 1 not shown) and two laser sources 5,6 of powerful radiation directed to a pair of diametrically arranged blades 4, and the platform 3 speed control system contains blocks 7 of controlling the luminous flux of laser sources 5,6. On

25, the platform 3 is reinforced with the test products 8. Through the current collector 9, the test products 8 are connected to the control panel 10, which is connected to the digital control and the computer 11. The platform 3 to the subjects

products 8 are placed in a heat chamber 12. The light flux control units 7 are connected with the control panel 10 and the computer 11.

The centrifuge works as follows.

Before starting, compressed air is supplied to support 2 (pressure 5-7 MPa ;, ensuring minimal friction in support 2, Platform 3, under the action of compressed air, separates from base 1 (floats and holds on the gas cushion. Compressed air does not come out of the thermocamera 12, because it circulates in a closed system.

After setting the air mode in the support 2 and fixing the tested products 8 on the platform 3, a laser source 5 is activated by a command from a digital control and computer 11, the beam of which is directed to the front side of the torque vanes 4 creates light pressure causing a moment around the axis of the platform 3 and provides vrgidenie. Blades 4, distributed around the circumference of the platform 3, ensure smooth acceleration. Touching the platform 3 and its initial acceleration can also be carried out in a known manner using an electromechanical drive with shutdown and disconnection of its after-reach start mode. After the start and the initial spin of the platform 3, the laser source 6 is turned on, the beam of which, directed to the rear side of the blades 4, creates a light pressure that causes a counteracting moment.

Two power beams, the light pressure of which is set with great precision by the control system, rotational speeds, are included in the balanced acceleration and braking system, which provides an additional increase in the accuracy of setting the acceleration and deceleration parameters.

According to the program coming from the computer 11 to the rotational speed control system, a cyclogram of the acceleration and braking mode is set, which is necessary for checking the tested items 8.

In the process of testing, the computer 11 performs both the task and the control of the test modes, measurement and recording of the motion parameters of the products 8 and their output characteristics in real time.

The centrifuge is operational when using both two and more laser sources.

After the test, the platform 3 can be stopped either naturally (laser sources 5, 6 are switched off) and by braking with the laser source 6.

The use of laser sources of high-power radiation allows one to get rid of the large inertia that occurs when electromechanical drives are used, and thereby increase the accuracy of the tests.

Claims (1)

Invention Formula A centrifuge containing a base fixed on the base of a gas support / platform mounted on a gas support, a platform accelerating-braking device and a platform speed control system, characterized in that, in order to increase the test accuracy, the platform is equipped with blades installed. mi on its periphery, and the accelerating and braking device contains two laser sources of powerful radiation directed at a pair of diametrically located blades, and the platform speed control system contains units controlling the luminous flux of laser sources. Sources of information taken into account in the examination 1. USSR author's certificate No. 476515, cl. G01 P 21/00, 1973 (prototype J. fO ./ eight .