SU570412A1 - Device for exciting mechanical oscillation - Google Patents

Description

The invention relates to the field of energy and can be used to obtain pulse oscillations used to prevent deposits in heat exchangers.

Ultrasonic vibrators, pulsed emitters with a movable ferromagnet, and hydrodynamic emitters are used to intensify heat transfer and prevent scale.

Electroacoustic transducers of the iophone type are known, containing a quartz insert, in which electrodes are installed that are connected to a source of pulsed voltage 1.

These devices are used for metric measurements and to create a high frequency link in control acoustic units.

The closest in essence to the technical solution is a device comprising a case in which electrodes connected to a source of pulsed voltage are installed, and an electrical insulator made in the form of a cumulative cavity 2.

This device is used in geophysical prospecting and is not adapted to intensify heat exchange and scale damage.

In the known devices it is impossible to obtain large values of the amilitude of disturbing oscillations in the ultrasonic frequency range.

The purpose of the invention is to increase the intensity of the device during heat exchange.

This is achieved by the fact that the electrodes are placed in a gas-filled vessel installed in the building, and one electrode is connected to the waveguide.

The drawing shows the proposed device. The device includes a source of pulsed iTitany, which is connected to electrodes 2 of a gas-injeted discharge capacitor 3 by means of current conductors. At the same time, the “plus high voltage” is connected to one of the electrodes through bushing 4

The protective casing 5, a “minus” is connected directly to the protective casing 5. The other electrode is attached by soldering with a soft solder directly to the rod waveguide 6, which serves to transfer imi liblix disturbing oscillations on the metal) to remove the heat exchanger annate 7. Fastening the waveguide to the metal structure (the excitation object fluctuations) is carried out by electric welding.

The device works as follows.

As soon as the voltage from the pulse generator 1 reaches the ignition potential of the arrester 3, the latter triggers and closes the electrical circuit. As a result of the formation of a gas plasma in the discharge unit 3, a considerable amount of energy is stored by the pulsed generator within a few microseconds. In this case, part of the energy is emitted in the form of light and heat, and the main energy is emitted in the form of an avalanche of electrons and negatively charged plasma ions against the surface of the electrodes.

Thus, under the action of a discharge pulse on the electrodes 2 of the discharge 3, a powerful mechanical pulse with a duration of 10x10 sec is generated, which is transmitted through the waveguide 6 to the metal constructions of the heat exchanger 7 or to another object of mechanical vibration excitation. By varying the magnitude of the ignition of the discharge, the capacitance of the pulse generator, as well as the power of the power source, it is possible to regulate the amplitude and frequency of the pulsed mechanical oscillations.

Comparative testing of an optical device for the excitation of mechanical vibrations with magnetostrictive and titanate radiators showed the possibility of a significant (more than 3 times) increase in the maximum amplitude of oscillations in the frequency range from 10 to 50 kHz.

Claims (2)

1. Authors certificate of USSR 151896, In G6B 1/02, 14.02.62. 2. USSR author's certificate №410351, cl. B 06B 1/02, 10.01.72. /// . J 2 2