RU122045U1 - DEVICE FOR EXCITING MECHANICAL OSCILLATIONS - Google Patents

Abstract

A device for exciting mechanical vibrations, consisting of a R-6 lamp containing a housing filled with gas, electrodes are installed inside the housing connected to a pulse voltage source and an electrical insulator in the form of a cumulative cavity, characterized in that on the outside of the housing there is a winding made of copper insulated wire with a cross section of 0.95-1.05 mm2 and containing 50 turns, connected in series with electrodes.

Description

The utility model relates to the field of energy and can be used to obtain pulsed oscillations used to prevent deposits in various heat exchangers, in particular low and medium pressure steam boilers, water heaters, as well as in industrial and agricultural processes.

A technical solution is known for an electro-acoustic transducer such as an ionophone USSR No. 151896, B06B 1/02 containing a quartz liner in which electrodes are connected associated with a pulse voltage source

As a prototype, a device was used to excite mechanical vibrations of a.s. No. 410351, B06B, containing a P-6 lamp containing a housing filled with gas, electrodes connected to a pulse voltage source and an electrical insulator made in the form of a cumulative cavity are installed inside the housing.

The disadvantage of analogue and prototype is the inability to obtain large values of the amplitude of the oscillations in the ultrasonic frequency spectrum.

The technical result is to increase the amplitude of the oscillations of the device in the ultrasonic frequency spectrum.

This object is achieved in that the device for exciting mechanical vibrations consisting of a P-6 lamp containing a housing filled with gas, electrodes connected to a source of pulse voltage and an electrical insulator made in the form of a cumulative cavity are installed inside the housing, according to a utility model, it is located on the outside of the housing winding made of insulated copper wire with a cross section of 0.95-1.05 mm ² and containing 50 turns, connected in series with the electrodes.

The novelty of the proposed technical solution lies in the more complete use of electromagnetic energy received from a source of pulse voltage, in particular through the use of a winding located on the housing, the energy released between the electrodes increases significantly due to the Lorentz forces, and therefore the frequency and amplitude of the excited oscillations increase.

The essence of the utility model is illustrated in the drawing, where figure 1 shows a device for exciting mechanical vibrations.

A device for exciting mechanical vibrations includes a pulsed power supply 1, which is connected to a winding 2 located on the outside of the housing 3 and electrodes 4 located inside the housing of the spark gap 3, while one of the electrodes is connected to a waveguide 5 serving to transmit the excited vibrations to the metal structure of the technological apparatus 6 .

The device operates as follows. When a voltage is supplied from the pulse generator 1, it reaches the ignition potential of the spark gap 3, the latter is triggered and closes the electric circuit as a result of the occurrence of gas plasma in the spark gap 3 body, significant energy stored by the pulse generator is released. In this case, part of the energy is released in the form of light and heat, and the main energy is released in the form of an impact of an avalanche of electrons and negatively charged plasma ions on the surface of the electrodes. The effect is enhanced by the forces of Lorentz - see P. P. Yastrebov, I. P. Smirnov Electrical Equipment and Electrotechnology, M., Higher School, 1987 pp. 71-74.

Thus, under the action of a discharge pulse on the electrodes 2 there is a powerful mechanical pulse with a duration of 10 μs, which is transmitted through the waveguide 5 metal structures of technological equipment

Claims (1)

A device for exciting mechanical vibrations, consisting of a P-6 lamp containing a housing filled with gas; electrodes connected to a pulse voltage source and an electric insulator in the form of a cumulative cavity are installed inside the housing, characterized in that a winding made of copper insulated wire with a cross section of 0.95-1.05 mm ² and containing 50 turns, connected in series with the electrodes.