SU498476A1 - Gyro engine - Google Patents

Description

one

The invention relates to the measurement of motion parameters and can be applied in the means of autonomous measurement of the angular position of various types of vehicles with respect to the selected frame of reference. Such measurements are necessary, for example, with automatic or automated control of these means. At present, gyroscopes containing gyro motion are widely used to autonomously determine the angular position of vehicles.

It is known for a gyro engine, a electrically electrically electrically shaped body in the form of a hollow torus, an inertial mass in the form of a liquid dielectric filling the body with suspended magnetic particles in it and an electromagnet that generates a rotating magnetic field. The electromagnet is powered by alternating current.

The known device operates as follows. When an alternating voltage is applied, the electromagnet creates a rotating magnetic field, under the action of which the colloidal ferromagnetic fluid rotates. The rotating colloidal ferromagnetic fluid creates a kinetic moment.

The main disadvantage of the known device is its complex structure.

The purpose of the invention is to simplify the design of the gyro engine.

This is achieved by the fact that on the inner surface of the torus along its radius M and equal to the distance from each other, alternating heteropolar electrodes connected to a direct current source are reinforced, and the particulates are made of electrically nonmagnetized material, for example graphite. These

particles have a diameter of not more than 0.01 mm.

The drawing schematically shows the proposed gyro engine.

Hollow torus 1, is made of solid dielectric, for example, of quartz glass.

The cavity of the torus 1 is filled with a liquid non-polar dielectric 2 (for example, carbon tetrachloride, kerosene, etc.), in which conductive particulates (for example, acetylene soot,

graphite, etc.). Around the circumference of the torus 1 placed electrodes 3, 4, made, for example, in the form of rings. The electrodes 3 are connected to the output of the power source 5, and the electrodes 4 to the KOipnycy power source 5.

The proposed hydraulic engine works as follows.

When the power source 5 is turned on, electrostatic zero is induced between the electrodes 3-4. Under the action of electrostatic forces, conductive particulates

together with the liquid non-polar dielectric 2 that they are dragging, they make a unidirectional motion with a constant speed (coherent) along the axis of the torus. This happens as follows. Conductive particulates located, for example, at electrodes 3 are charged with the polarity of electrodes 3. They have the same polarity, particulates are repelled from electrodes 3 and are attracted to electrodes 4. At electrodes 4, there is a recharge of particulates, and they continue to move towards the electrodes 3 without changing the direction of movement. It has been established experimentally that the rotation of a liquid non-polar dielectric 2, for example kerosene, tetrachloride carbon with conductive particulates suspended in it, for example, carbon (soot) occurs only if the conductive particulates have a diameter less than 0.01 mm. If the particulates are larger than 0.01 mm, then they make an oscillatory (incoherent) movement between electrodes 3 and 4. The rotation of the liquid non-polar dielectric is not observed.

The rotating liquid non-polar dielectric 2 creates a kinetic moment. When the torus 1 rotates about an axis perpendicular to the axis of torus 1, a gyroscopic moment appears that holds the axis of rotation of the disk in the initial polarization relative to the inertial system. In the layout as a liquid non-polar

kerosene is applied to the dielectric, and acetylene black is the conductive particulate. The size of the particles of acetylene black, dissolved in kerosene, does not exceed 5 microns. Supply voltage 4000 V. Diameter

torus 40 mm. When testing the layout, a rotational speed of a liquid non-polar dielectric of more than 800 rpm was obtained.

Subject invention

A gyro engine containing an electrically non-conducting body in the form of a hollow torus and an inertial mass in the form of a fill, its body of a liquid dielectric with particulate suspended in it, characterized in that, in order to simplify the design, in it on the inner surface of the torus along its radii at equal distance from each other fortified

alternating heteropolar electrodes connected to a source of direct current, and the particulates are made of electrically conductive non-magnetic material, for example, graphite.