SU1029361A1 - Dielectric motor - Google Patents

Abstract

yes ELECTRIC MOTOR, content of the stator with an elec-7 located on its inner surface. rodens inside the stator, a dielectric rotor, differing mt & l, that, in order to expand functional possibilities by providing a predetermined vrasena, it is equipped with LEDs, and the rotor surface is covered with a photoresistive material, with this light. The surfaces of the stator are installed on the inner side of the gap between each side, at least one of the electrodes, near its side edges, and facing the rotor with the radiating surface. (L with:

Description

The invention relates to electric machines, in particular electrostatic (dielectric) motors, and can be used in control systems,, automation as a drive of small 5 power.

Known dielectric motor containing a dielectric rotor and a stator, equipped with knife-shaped electrodes mounted at an acute angle to 10 of the surface of the rotor m ·

Oshako in this engine, the rotor rotates in one direction, given the angle of inclination of the electrode®, which does not allow the possibility of reverse. fifteen

The closest in technical essence to the proposed one is a dielectric motor containing a stator, with electrodes located on its inner surface, filled with a working medium, and a dielectric rotor £ 2j placed inside the stator.

The disadvantage of this engine is the inability to obtain a given direction of rotation of the rotor. When 25 power is supplied to the stator electrodes, the rotation occurs in an arbitrary direction, and a change in the direction of rotation (reverb) can be carried out only by external mechanical action, for example, by a jerk, which reduces the functionality of the motor.

The purpose of the invention is the expansion of the functionality of the engine by providing a given direction of rotation.

The delivered circuit is achieved in that the dielectric motor contains. ₄ θ large stator with electrodes located on its inner surface, filled with a working medium; Placing a dielectric rotor inside the stator is provided with LEDs, and the coated surface of the rotor ₄ $ is the photoresist material, wherein the LEDs are mounted on the inner surface of the stator in the interelectrode gaps on both sides, at sea, one of the electrodes near its side edges, and facing the radiating surface to the rotor.

The drawing shows a dielectric motor, section, top view.

The engine contains a stator 1, on the inner surface of which are placed the electrodes 2, and in the interelectrode spaces; LEDs 3 and 4 are installed near the lateral edges of the electrode 2.

A rotor 6 is placed inside the stator in the working medium 5, the surface of which is covered with photoresistive material 7. Photoresistive material is a material whose electrical resistance decreases under the influence of light. The dark resistance of such a material is about 1O ⁶ -10 ⁷ Ohms, time constant

The engine operates as follows.

When applying voltage to the electrodes 2, the particles of the dispersed phase located in. working medium 5, when touching the electrodes, ^ acquire a charge of the same name with the charge of the electrode with which they were in contact. Under the action of electrostatic forces, the charge particles, pushing away from the corresponding electrodes, move to the rotor 6 and give it their charge. Thus, parts of the rotor surface acquire charges of the same sign as the electrodes located opposite them. Sites located against the interelectrode gaps have no charges. In this case, the interaction forces between the charged surface sections of the rotor 6 and the electrodes 2 are mutually balanced and do not create torque.

When voltage is applied to one of the LEDs, for example, to LED 3, the resistance of the surface portion of the rotor coated with photoresistive material and illuminated by the LED decreases, as a result of which the charges flow to this portion. In this case, the tangential component of electrostatic forces arises. Its direction determines the direction of rotation of the rotor. To change the direction of rotation of the rotor to the opposite, the voltage from the LED 3 is removed and fed to the LED 4.

Thus, coating the rotor surface with photoresistive material and supplying the engine with photodiodes makes it possible to obtain a given direction of rotation, as well as its reversal, which expands the scope of the proposed engine, which can be used, for example, in automation.

VNIIIPI Order 4998/56 Circulation 687 Subscription

Branch of PPP Patent, Uzhhorod, st. Project, 4

Claims (1)

DIELECTRIC MOTOR TEL, containing a stator with electrodes located on its inner surface, filled with a working medium, and a dielectric rotor located inside the stator, characterized in that, in order to expand the functionality by providing a given direction of rotation, it is equipped with LEDs and the rotor surface covered with photoresistive material, when this light is installed on the inner surface of the stator in the interelectrode spaces on both sides of at least one of the electrode in, near its lateral edges, and facing the radiating surface to the rotor. ι 1029361 ϊ