SU383626A1 - - Google Patents

Description

one

The invention relates to the field of heavy engineering and can be used for the manufacture of concrete structures.

A hydraulic vibrating press is known, which contains a working cylinder with a plunger located on a stadium and a device for communicating oscillations to the plunger, made in the form of an ultrasonic oscillator generator mounted on the working cylinder body and rigidly connected to it a membrane located in the cylinder cavity plunger.

However, a known hydraulic press has a small amplitude and a constant oscillation frequency. During the operation of the hydraulic vibratory press, the vibrational energy transmitted to the concrete particles destroys the structural bonds between them and reduces the forces of internal friction, as a result the mixture becomes more fluid and fills the mold well. In order to effectively compact concrete, a significant rate of oscillation is required, sufficient to destroy structural bonds. The oscillation frequency, for example, for concretes with different aggregates, is in the range of 2000-6000 oscillations per minute, and the oscillation velocity is 3-50 cm / sec. The amplitude of the oscillation of the membrane from the source of ultrasound2

The vibrations are small and unsuitable for compacting concrete.

In addition, with the increase in the rigidity of the concrete, the speed of vibration is increased, therefore it is necessary to increase the oscillation frequency, which is impossible in the existing device.

The purpose of the invention is to automatically increase the frequency of vibrations as the porous mixture compresses.

This is achieved by connecting the cavity of the working cylinder with the pipeline to the hydraulic control cylinder with a spring loaded piston and with a rod connected through an insulating layer with a moving contact of the rheostat located in the excitation winding circuit.

The drawing shows a schematic diagram of the proposed hydraulic vibratory press.

Iolost A of the working cylinder 1 is connected by a pipe 2 with the cavity B of the control cylinder 3; the piston 4 of the control cylinder is spring-loaded by the spring 5. A movable contact 8 of the rheostat 9 is connected to the rod 6 of the control cylinder through the insulating layer 7 and is located in the excitation circuit of the electric motor 10 rigidly fixed on the body of the working cylinder.

To the shaft of the electric motor is rigidly attached to the crank And, connected to the hinge by means of a connecting rod 12 with plunger 13 located in the upper cylinder cover.

When concrete is squeezed in the process of vibration, its resistance increases, the pressure of the fluid in the cavity A of the working cylinder 1 also increases. The increased fluid pressure in cavity B disrupts the piston 4 of the controlled hydraulic cylinder 3, moves piston 4 to the left and compresses the spring 5 until shock resistance of the spring 5 and the increased pressure is balanced. When piston 4 is mixed, contact 8, connected through an insulating layer 7 with a control rod 6 of its cylinder 3, mixes and increases the resistance of the excitation circuit; the current through the field winding decreases, decreases: the magnetic flux, and the number of revolutions of the electric motor 10 increases, increasing the oscillation frequency of the working cylinder plunger.

Subject invention

A hydraulic vibratory press, including a stand with a working cylinder with a plunger located on it, and a plunger vibration mechanism, distinguished by the fact that, in order to automatically increase the vibration frequency as the concrete is compacted, the press is made with a hydraulic control cylinder with a spring-loaded piston and with a rod connected through an insulating layer with a movable contact of a rheostat located in the circuit of the excitation winding of the electric motor of the vibradium mechanism, the hydraulic control cylinder being connected a pipe with a working cylinder.

Head pressure