SU1553349A1 - Vibrating machine - Google Patents

Abstract

The invention relates to mechanical engineering and can be used in the finishing and grinding treatment of parts. The aim of the invention is the expansion of technological capabilities by ensuring the processing of fragile and weak parts. The machine consists of a container 1 with an exciter 3, installed elastically on the base. The means for damping resonant oscillations is made in the form of a flywheel 6, kinematically connected to the container by means of a steel cable 4. When the amplitudes of the container oscillations are higher than the workers, the inertial mass of the flywheel is attached to the container’s oscillating mass to allow vibration of the container in unstressed mode. 1 il.

Description

(54) VIBRATION MACHINE (57) The invention relates to mechanical engineering and can be used in the finishing and cleaning of parts. The aim of the invention is the expansion of technological capabilities by providing processing of fragile and non-rigid parts. The machine consists of a container 1 with a vibration exciter 3, mounted elastically on the base. The means for damping resonance vibrations is made in the form of a flywheel 6 kinematically connected to the container by means of a steel cable 4. If the vibration amplitudes of the container are higher than the workers due to the tension of the cable, the inertial mass of the flywheel is attached to the vibrating container, which allows the vibration of the container to be damped in shock-free mode. 1 ill.

SP SP SO with s ©

The invention relates to mechanical engineering and can be used for finishing and cleaning parts.

The purpose of the invention is the expansion of technological capabilities by providing processing of brittle and non-rigid parts.

The drawing shows a vibrating machine, General view.

The machine consists of a container 1 mounted on an elastic suspension 2, vibration exciter 3, kinematic connection 4, made in the form of a steel cable, the middle attached to the shaft 5 of the flywheel 6 and covering the shaft block 5. Each half of the cable 4 is equipped with a turnbuckle 7, which serves to adjust the sag rope (free run). The ends of the cable 4 pass through the blocks 8 at an angle of 45 ° to the vertical and are attached to the container 1 in its lower part.

The machine operates as follows.

Before starting the machine with the help of lanyards 7 regulate the sagging of the cable 4, providing freedom of working vibrations of the container 1.

In the process of starting or stopping the machine, the container 1, when passing through the resonance zone, seeks to increase the amplitude of the oscillations above the operating values. In this case, one of the branches of the cable 4 comes into operation, which, in turn, begins to unwind the flywheel 6. When the container moves in the other direction with an amplitude higher than the working one, the other branch of the cable 4 is turned on, stopping and unwinding the flywheel 6 in the other direction. As a result of 5, the flywheel 6, absorbing the vibration energy of the container 1 and giving it out of phase to the container, sharply limits the resonant amplitude of the container’s vibrations, which depends on the moment of inertia of the flywheel.

The proposed design of the vibrating machine allows for the processing of brittle and non-rigid parts due to the damping of resonant vibrations in shock-free mode.

Claims (1)

¹⁵ claims A vibration machine comprising a container with a vibration exciter mounted on the base and a means for damping 20 resonant vibrations, characterized in that, in order to expand technological capabilities by providing processing of brittle and low-rigidity parts, the means for damping resonant vibrations is made in the form of a flywheel mounted on the base with a block and fixed on the container with its free ends of the steel cable, while the flywheel and the cable are interconnected through formed in the middle part a loop cable placed on the flywheel block.