SU1163388A1 - Magnetohydrodynamic switching device - Google Patents

Abstract

MAGVDTOGADRODYNAMIC SWITCHING DEVICE containing a partly filled mercury balloon, a conduction type ECB pump and contact electrodes, differing from that, in order to expand the field of application, the inner cavity of the balloon is made in the form of a flat capillary channel, and A resistive layer connected to contact electrodes is applied to the channel. have ..

Description

The invention relates to electrical equipment, in particular to elements ₍ electrical equipment, and can be used in various devices of electroautomatics and optics.

The purpose of the invention is the expansion of the scope.

The drawing shows the proposed device, three projections.

The device contains a vacuum cylinder 1, for example, of glass, the internal cavity of which is made in the form of a flat capillary channel 2, partially filled with mercury 3. In the middle part of the channel 2, a capillary narrowing 4 is made in thickness in the field of permanent magnets 5 MHz - a conductive type pump . Permanent magnets 5 are mounted on two wide sides of the capillary channel 2. In the area of capillary narrowing 4, in the area of action of magnets 5, control electrodes 6 are soldered from its narrow sides to supply current. At one end of the cylinder 1 there is an executive element made in the form of contact electrodes 7 connected to resistive layers 8 deposited on parts of the inner wide walls of the capillary channel and closed by a mercury column 3. .....

The magnitude of the narrowing of the capillary channel 2 is selected depending on the required speed and operating conditions of the device, but should be such as to ensure the preservation of the position of the columns of mercury under mechanical stress ’on the device.

The device operates as follows.

When a constant voltage is applied to the control electrodes 6, a current flows in the direction perpendicular to the direction of the magnetic field through the mercury Sv of the capillary constriction region 4. The interaction between a mutually perpendicular magnetic field and the current gives rise to a force acting on the mercury in the direction perpendicular to the current and the magnetic field, i.e. along the capillary channel 2'in accordance with sec. rule of the left hand.

Under the influence of this force, mercury flows from one part of channel 2 to another through capillary narrowing 4, the mercury column smoothly shifts 10 to the right, closing part of the resistive layer 8 at the meniscus edge.

In this case, the resistance at the contact electrodes 7 gradually decreases with respect to the initial value15. After removing the voltage from the electrodes 6, the established position of the column of mercury 3 in the capillary channel 2 is saved, and the set value 20 for the resistance of the actuator is also saved. To increase the resistance of the actuator, it is enough to change the polarity of the voltage supplied to electrodes 6. If you pass through the last pulse current, then the column of mercury 3 moves in steps, and the resistance value changes discretely, and the magnitude of the discrete 30 is easy to adjust over large limits, changing the amplitude and duration -. pulses.

By passing alternating current or two -35 polar pulses through the control electrodes 6, it is possible to obtain a modulation of the parameter of the actuating element. By varying the magnitude of the narrowing of the capillary channel, it is possible to obtain a different speed 40 and use the device as a timer, counter and ampere hours, etc. In addition, the device can be used in lighting technology as an optical modulator.

Thus, the use of the invention will make it possible to create a number of different fundamentally new performing devices with non-volatile preservation of the set parameter.

Claims (1)

MAGCYTOHYDRODYNAMIC COMMUTATION DEVICE containing a partially filled mercury cylinder, a conductive type MHD pump and contact electrodes a layer connected to contact electrodes 1 1163388 * 2