SU1026191A1 - Method of mercury vibration switching device - Google Patents

Abstract

- MOTOR CONTROL METHOD OF THE MUTUAL VIBRATION COMMUTATION - i SCREW DEVICE WITH A DRIVE, based on the piezoelectric elements, and sealed with a bappon, by applying an alternating voltage to the piezoelectric elements, which is no longer and for me, and by means of a circuit and a circuit. voltage with a frequency that is a multiple of the natural frequency of transverse oscillations of the sealed cylinder. IND cn

Description

The invention relates to electrical engineering and can be used for switching electrical circuits in, operating and functional devices, in automation and industrial electronics devices. There is a known method of controlling mercury. vibrating switching device with a drive made on pieoe 1 elements in a sealed buppon by supplying an alternating voltage of non-sinusoidal form factor l2 to piezoelements. These methods do not provide sufficient accuracy and speed of the switching device. The closest in technical essence to the proposed is the SPO. Controlling a mercury vibratory switching device with a drive made on a piezoelement sealed balloon by applying alternating voltage to the piezoelectric element 2 The known way to control the transducer is characterized by low accuracy and speed of the switching device. The purpose of the invention is to increase accuracy and speed. Delivered by children. This is achieved by the method of controlling a mercury vibrating switching device with a drive made on a piezoelectric cell and a sealed balloon by supplying alternating voltage to the piezoelectric cells with a frequency that is a multiple of the natural frequency of the transverse oscillations of the sealed balloon. FIG. 1 shows a mercury vibratory switching device with an actuator — made on piezoelectric elements, and sealed with a balloon; FIG. 2 a, b, c, - the nature of the oscillations of the sealed ballyuna. The switching device contains a sealed balloon 1, the B11 of which is placed in the vacuum moving cap mercury 2, and the installed contact electrodes (contacts) 3, the number of which depends on the ratio b / n where is the length of the balloon, and is the oscillation mode (L 2, 3 , 4 ... k). The ends of the cylinder are fixed to the base 4 through the piezoelectric element 5 and the pliable element 6. The malleable element 6 enables the cylinder to make bending and transverse oscillations. The control method of the switching device is implemented in the following manner. When a piezoelectric element 5 attached to the end of the sealed cylinder 1 is connected to an electrical oscillation generator (not shown) operating at the resonant frequencies of the lateral vibrations of the sealed balloon 1, transverse standing waves are excited in it. With such an excitation of the sealed balloon 1, the mercury drop 2 will move to the nodal point of the standing wave, where the amplitude of the oscillations is zero. Contacts 3 are mounted at the nodal points; therefore, mercury drops 2 precisely on this place will close the electrical circuit. By selecting the appropriate frequencies, you can close or open any pair of contacts. The number of contacts in a sealed container depends on the ratio P / n, where 2 is the length of the sealed cylinder, C is the mode of oscillation, (P 2, 3.4 ... c). The transition of a moving mercury drop 2 from one nodal point to another when changing the oscillation frequency will occur at a transient moment of time due to the fact that at that time the cylinder oscillates at two frequencies — at one of the decreasing amplitudes and at another switching frequency — with increasing frequencies This control method allows the use of a mercury vibratory switching device with a drive made on two piezo elements (the second piezo element instead of the compliant element 6). The proposed method for controlling a switching device allows to increase the accuracy and speed of the device.

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Claims (1)

-WAY OF CONTROL OF THE RUTCH THEM BY VIBRATION COMMUNICATING; A SHCHI DEVICE with a drive made on piezoelectric elements and a sealed cylinder by applying alternating voltage to the piezoelectric elements, characterized in that, in order to increase accuracy and speed, alternating voltage is applied to the piezoelectric elements with a frequency that is a multiple of the natural frequency of transverse vibrations of the sealed cylinder. t 1026191 2