SU979118A1 - Vibration-impact platform for compacting concrete in mould - Google Patents

Description

This invention relates to the manufacture of precast concrete and reinforced concrete products.

The closest known to the invention is a vibroplatform for molding concrete products into a mold, comprising a housing with a resonator cavity, divided into U-shaped compartments closed with diaphragms, turned relative to each other in a vertical plane by 180 °, a movable frame fixed using the racks on the diaphragms and resting on the body by means of elastic connections, and the causative agent of infrasonic oscillations in the form of a two-way antiphase generator tl.

The disadvantages of the known vibroplatform are the high level of noise in the molding of products.

The purpose of the invention is to improve the service conditions by reducing the noise level.

This goal is achieved by the fact that in a vibro-impact platform for compacting concrete mixes in a form comprising a housing with a resonator cavity divided into compartments closed by diaphragms, p rotated relative to each other in a vertical plane by 180 ° and connected in antiphase by means of waveguides with a piston oscillator mounted on the diaphragms of the movable pc1mu and elastic buffer elements, the drive of the piston exciter of oscillations is made in the form of a hook mounted eccentrically on its shaft and covering the rim of the last roller cage mounted on the free end of the piston rod of the oscillator, and the diaphragm in contact with the buffer elements,

15 placed in the cavity of the housing.

Figure 1 shows schematically a vibro-shock platform, a general view; Fig. 2 shows a drive of a piston excitation of a vibration oscillation view in the plan.

The vibro-shock platform for compacting the concrete mixes in the mold comprises a housing 1 with a resonator cavity divided into closed diaphragms 2 and 3, compartments 4 and 5, which are rotated 180 degrees relative to each other in a vertical plane. The compartments 4 and 5 are connected by means of waveguides b and 7 in protofase with a piston oscillator.

On the diaphragms 2 and 3 by means of racks 8 fixed movable frame 9 with a shape of 1 °.

A flexible collar 11 around the perimeter connects diaphragms 2 and 3 with the body 1.

Elastic buffer elements 12 are located in compartments 4 and 5 and are in contact with diaphragms 2 to 3.

The drive of the vibration exciter is made in the form of an eccentricity fixed on the shaft 13 of the engine 14 of the flywheel 15 with a rim 16 The latter covers the holder 17 with rollers 18 and 19, with rollers 18 covering the rim on the inside and rollers 19 from the outside.

In the housing 20 of the oscillating exciter, the emitter 21 is rigidly fixed, which is connected with the rod 22. The sliding movement 23 provides the direction of movement of the latter.

The device works as follows.

When the engine 14 is turned on and the flywheel 15 is turned, the rod 22 will move along the slide guide bearings 23 by the amount of eccentricity of the flywheel due to its contact with the rollers 18 and 19. Together with the rod, the radiator 21 will move, which will create in the resonator compartments 4 and 5 respectively. air pressure. Upon further rotation of the flywheel, the position of the eccentricity will change, and the position of the stem and the radiator membrane will also change with it, which will entail a redistribution of vibrational pressure in the resonator compartments.J The compression and vacuum of the air in the resonator (one) compartment form one oscillatory cycle that repeats with the speed of the flywheel. Antiphase oscillatory pressure, affect

the oscillation receiver, diaphragms 2 and 3, will bring them into synchronous oscillatory motion, which will be caused by the movable frame 9 due to their rigid connection with each other, provided by the uprights 8. The frame 9, in contact through the uprights 8 and the aperture 2 and 3, with elastic buffer elements 12 will vibro-impact oscillations with the frequency of rotation of the engine 14.

The proposed vibro-shock platform will improve service conditions by reducing the noise level during its operation.

Claims (1)

1. USSR author's certificate 562428, cl. B 28 B 1/08, 1976.