SU708625A1 - Vibratory impact platform for moulding products from concrete mix - Google Patents

Description

The invention relates to the molding of products from concrete mixtures.

A device for molding products from concrete mixtures containing vibroblocks mounted on elastic supports, on which elastic spacers are mounted that interact with the mold tray, and the spacers and unbalanced shafts of vibroblocks are located symmetrically relative to the longitudinal axis [1].

The disadvantage of this device is that the mold due to the inaccuracy of its manufacture does not at the same time contact with all the elastic gaskets of the vibration unit, which creates instability of the concrete compaction mode, increases the voltage in the elements of the vibration units and reduces the quality of the molded products.

Closest to the invention is an off-impact platform for molding articles made of concrete mixtures, containing vibration blocks mounted on elastic supports, on which elastic gaskets are mounted that interact with the mold tray, and the elastic gaskets and unbalanced shafts of the vibration blocks are located symmetrically to the longitudinal axis of the platform [2].

The disadvantage of this vibration platform is the inability to ensure a stable mode of operation.

The aim of the invention is to ensure a stable mode of operation and increase the reliability of the site.

This is achieved by the fact that each vibration unit is equipped with adjusting weights located symmetrically to the longitudinal axis, the ratio of the distance from the centers of gravity of which to the axles of the elastic gaskets to the distance between the axes of the latter is 0.08-0.12, the ratio of the mass of the vibration unit to the mass of the adjustment weights, and the distance between the axes elastic gaskets are 4-10 times greater than the distance from the center of gravity of the central cross section of the vibratory unit to the plane passing through the axis of the unbalanced shafts.

In FIG. 1 schematically shows a vibro-impact pad, general view; in FIG. 2 is the same side view.

An in-shock platform consists of separate vibro-blocks, each of which is made of a supporting transverse beam 1, mounted on the base by means of elastic supports 2 and interacting with the help of two elastic gaskets 3 symmetrically located relative to the longitudinal axis of the platform with a bottom shape, and to the bottom of the beam 1 attached unconnected horizontal unbalanced shafts 4 and placed at its ends so that their vertical axes coincide with the axes of the elastic gaskets 3.

At the ends of each beam 1, adjusting weights 5 are fixed, the ratio of the distance from the center of gravity of which to the axles of the elastic gaskets to the distance between the axes of the latter is 0.08-0.12, the ratio of the mass of the vibrating unit to the mass of the adjusting weights 5, and the distance between the axes of the elastic gaskets is 4 —10 times the distance from the center of gravity of the central cross section of the vibration unit to the plane passing through the axis of the unbalanced shafts.

Works vibro-shock pad as follows. Before starting work, a mold with a concrete mixture is installed on the site and unbalanced shafts 4 are turned on, which excite vertically directed vibrations of the vibration units, while the latter act on the mold, striking through the elastic gaskets, under which the concrete mix is compacted.

The ratios of the absolute values of the distances between the elastic gaskets and the adjusting weights 5 make it possible, provided that they are observed, to increase the reliability of the site by unloading dangerous sections of the beam from shock loads.

Claims (1)

Claim A vibro-impact platform for molding products from concrete mixtures, containing 5 vibration blocks mounted on elastic supports, on which elastic gaskets interacting with the mold tray are fixed, and the elastic gaskets and unbalanced shafts of the vibration blocks are located symmetrically to the longitudinal axis of the plane. pads, characterized in that, in order to ensure a stable operating mode and increase reliability, each vibro block is equipped with adjusting weights located symmetrically to the longitudinal axis, the ratio of the distance from the centers of gravity of which to the axes of the elastic gaskets to the distance between the axes of the latter is 0.08-0, 12 ratios of the mass of the vibrating unit to the mass of adjusting weights, and the distance between the axes of the elastic gaskets is 4-10 times greater than the distance from the center of gravity of the central cross section of the vibrating unit to the 25th plane, passing th through dobalansnyh axle shafts.