SU1028505A1 - Vibration plantform - Google Patents

Abstract

A PANEL, containing the chamber of the air sub-cell with the co-amp amp with its pneumatic bellows, which is supported by an intermediate plate, in contact with the movable frame by means of anvils, placed in ger. a casing, connected through one of the distributors and an intermediate vacuum tank with a vacuum source, and a power cylinder placed between the sub-frame and the intermediate plate, connected through another distributor to a vacuum source, characterized in that, in order to increase reliability and reduce the noise level , an air cushion is placed inside the intermediate vacuum tank. (L

Description

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

Closest to the proposed one is a vibroplatform containing a wath base on the base of a chamber in a stuffy cushion with air bellows communicating with it, on which an intermediate plate is supported, in contact with a mobile eye by means of anvils placed in a hermetic casing connected to a vacuum source, distributors, intermediate vacuum -capacity and power cylinder j.

A disadvantage of the known device is that the intermediate vacuum tank is separate from the vibration platform, which requires additional space for its installation, lengthens the vacuum wire, which affects the level of the vacuum drop in the working cavity of the vibration plate with respect to the parameters vacuum in the intermediate vacuum tank. All this complicates the process of vibroplatform control. In addition, with significant shock loads from the vibration of the air cushion body (due to air oscillation), additional noise appears

The invention is enhanced reliability and reduced noise.

This goal is achieved by the fact that in a vibroplatform containing a chamber with air bellows communicating with it, on which an intermediate plate is supported, in contact with the moving frame by means of anvils, placed in a hermetic casing connected through one of the distributors and the intermediate vacuum tank to a vacuum source, and placed between the movable frame and the intermediate plate of the power ciai1 schr, connected through another distributor to the vacuum source, the chamber of the air cushion is placed inside the intermediate vacuum a-capacity.

The drawing schematically shows the vibroplatform, the total airfield.

The vibrating plate consists of a movable frame 1, an intermediate plate 2 mounted on air bellows 3 of an air cushion chamber 4, which is -mixed inside an intermediate vacuum of capacity 5, a hermetic elastic casing 6, elastic elements 7, a return cylinder of the movable frame 1 to its initial position, the valves 9 and 10 and the source 11 of compressed air connected through the valve 9 with

the power cylinder 8 and through the valve 12 with the cavity 13 of the chamber 4 of the air cushion communicating through the holes 14 with the air bellows 3. In the cavity 15 of the hermetic elastic casing 6, the anvils 16 are fastened on the movable frame 1 and the intermediate plate 2. On the movable frame 1 is fixed Along the perimeter of the mold 17 there is a gasket 18, on which the latter

0 is supported to form a closed cavity 19 connected by pipe 20 through regulator 21 to pipe 22 connected to vacuum source 23. The latter is also connected by pipelines 22 and 24 through an intermediate vacuum tank 5, a distributor 10 with a cavity 15 of the hermetic elastic casing 6.

The working cycle begins with the fact that

0 compressed air of a given characteristic is supplied to the air cushion chamber, which fills it and air bellows 3. The working plates with the form 17 through their

5, the elastic connections rise to a predetermined height, i.e. All working mass is resting on the pneumatic support (air cushion). At the next moment, the working channel of the distributor 9 is set to position b and the working cavity of the power cylinder 8 is connected to the atmosphere. At the same time, the working channel of the pacnpsi separator 10 is set to position A and the cavity 15 is connected via a conduit 24 with an intermediate vacuum 5 with a capacity of 5, which through the conduit 22 is all the time connected to a vacuum source 23. In this case, a vacuum is created in the cavity 15. Set on frame 1 by force of force and

The atmospheric pressure forces acting on it rush down. The intermediate plate 2 under the action of the elastic forces of the air cushion and the forces of atmospheric pressure rushes upwards. There is a collision of these plates. The impact energy is transferred to the concrete mix and is compacted. At the closest moment, the valves 10 and 11 are set to their original position. The cavity 15 is connected to the atmosphere, compressed air enters the power cylinder 8. Frame 1 and intermediate 2 under the action of the forces of the elastic elements 7 and the power cylinder 8, othod5gg

5 apart.

The cycles are repeated periodically. By adjusting the air pressure in the air support (cushion) and the value of ca3 1028 kum created in cavity 15, it is possible to achieve different impact forces of frame 1 and intermediate plate 2, which provides a wide range of technological capabilities of the equipment: s allows you to mold concrete mixes of various characteristics, for example / on rigidity. In addition, the constructive combination of the airbag and the body10 of the intermediate vacuum1 capacity reduces noise from the vibration of the body in the airbag. The effect is achieved due to the pressure between the cavity of the air cushion, the cavity of the intermediate vacuum tank and the atmospheric pressure. The casing of these enclosures is under tension, i.e. in the process of work, it possesses additional rigidity, which undoubtedly reduces noise. Part of shchuma is absorbed in an intermediate vacuum tank.

Claims (1)

VIBRATION AREA, containing an air bribing chamber with pneumocylinders in communication with it, on which an intermediate plate is in contact, which is in contact with the movable frame by means of anvils placed in the her-. a trench casing connected through one of the distributors and an intermediate vacuum container with a vacuum source, and a power cylinder placed between the sub-frame and the intermediate plate, connected through another distributor to a vacuum source, characterized in that, in order to increase reliability and reduce noise , the airbag chamber is located inside the intermediate vacuum tank. 1028505 2