SU980860A1 - Vibration exciter - Google Patents

Description

(54) VIBRATOR

one

The invention relates to a vibration technique and can be used in vibrating conveyors, vibrating compactors and other devices.

Exciters are known that contain a hydraulic drive with a source of pulsed energy, which allows to obtain the desired pulse shape 1.

The disadvantages of such a vibration exciter are design complexity and low reliability.

Closest to the invention in its technical essence and the effect achieved is a vibration exciter comprising a housing, a hydraulic drive placed in it, having a source of pulsed energy installed in the working fluid, a pulley and a shock wave energy absorber, which is an elastic pad fixed on the pressure plate 2.

The disadvantage of this vibration exciter is low reliability due to the effect of the reflection of the shock wave and, as a consequence, the reduction in mass velocities.

The purpose of the invention is to increase the reliability of work.

This goal is achieved by the fact that, in the intake driver, which includes the housing, there is a hydraulic drive located in it, having a source of pulsed energy installed in the working fluid,

5 and a shock-wave energy absorber, the hydraulic drive contains pressure belts installed on both sides, bellows filled with working fluid, and the energy absorber is attached as Q plugs to the body on opposite sides of the elastic shells and labyrinth channels, each of which communicates the cavity of the elastic shell with the cavity of the corresponding bellows.

The drawing shows a vibration excitation, longitudinal section.

The vibration exciter comprises a housing 1, a hydraulic actuator arranged therein, made in the form of two bodies 2 installed on both sides, filled with working fluid 3, bellows 4, and an energy absorber made in the form of elastic shells 5 and labyrinths attached to the body 1 on different sides channels 6, each of which communicates the cavity of the elastic shell 5 with the cavity

corresponding bellows 4. There is also a source of 7 pulsed energy.

Vibro works as follows.

At the initial moment, the liquid is precompressed to a small calculated value, as a result of which the elastic shells 5 are pre-stretched. When an electrical impulse is applied to the impulse energy source 7, a shock wave arises in one of the bellows 4 causing the fluid to compress. The cross section of the labyrinth channel 6 is large enough not to create a throttling effect when the working fluid 3 flows smoothly from the cavity of the bellows 4 into the cavity of the shell 5. But due to the presence of labyrinths in relation to the shock wave, the entrance of the labyrinth channel 6 behaves almost like a deaf wall. As a result, high pressure is maintained inside the bellows 4 for the first time after discharge. The stiffness of the bellows 4 is minimal in the longitudinal direction, therefore the maximum movements of the bellows 4 can take place along its longitudinal axis, i.e. they coincide with the possible direction of movement of the piston 2 associated with the payload. When moving the surface 2, the other sylphs 4 are compressed, squeezing the working fluid 3 through the labyrinth channel 6 into the cavity of the shell 5. The presence of the labyrinth channel 6 provides for the rapid damping of the shock wave. An electrical impulse is then applied to the is5.

to the impulse energy point of the opposite surface 2. Duty cycle 1; it repeats to the opposite direction.

The vibration exciter makes it possible to increase the reliability of operation due to the improvement of the energy absorber of shock volvi. and clear shock wave excitation

Claims (2)

1. Bykhovsky I. I. Basics of the Theory of Vibration Technology. M., “Mashinostroenie, 1972, p. 214, fig. 74. 2. USSR author's certificate No. 244568, cl. F 15 V 21/22, 1967 (prototype). d