SU1391892A1 - Vibration-impact platform for compacting concrete in mould - Google Patents

Abstract

The invention relates to the production of precast concrete and reinforced concrete products and improves the performance of vibro-impact platforms for compacting concrete mixtures in forms by adjusting for optimal operation in the manufacture of products of various sizes. This is achieved by the fact that the vibroblocks are supplied with elastic elements 5. The attractive electromagnets 7 are supported on the latter and are made with pressure accessories. The clamping device of each vibroblock consists of a Yush connection, their support plate 6 of the attractive electromagnet 7, spring loaded t g 8, interacting, their springs 9 with the fixed frame 2. The stiffness of the elastic element 5 of each vibroblock exceeds the rigidity of its elastic supports and springs 9 t g 8, respectively, 40-100 and 150-500 times. 1 3. p. F-crystals, 3 ill. I and C

Description

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The invention relates to the manufacture of precast concrete and reinforced concrete products. The aim of the invention is to increase productivity by adjusting for optimal operation in the manufacture of products of various sizes.

 FIG. 1 shows schematically a vibrating shock platform for compacting concrete mixtures in a form, a plan view; in fig. 2 - the same, side view; in fig. 3 - vibroblock on an enlarged scale, a general view. A vibro-shock platform for compacting concrete mixes in a mold consists of vibroblocks mounted with elastic supports 1 on the base in the form of a fixed frame 2, each vibroblock made from plate 3 with unbalance-exciter 4 vertically directed vibrations, and on plate 3 fixed elastic element 5, on which the support plate 6 of the attractive electromagnet 7 is connected, which is connected with the stationary par 2 by means of spring-loaded t r 8, interacting with the latter springs 9. The unbalanced pathogens 4 are vertically directed these vibrations are kinematically connected with the help of cardan shafts 10 with each other and synchronizers 11 of driving motors 12, and the stiffness of the elastic element 5 of each vibro I block npeBbiuiaeT stiffness of its elastic I supports 1 and spring loaded t 8 (spring 1 9), respectively, 40–100 and 150– I, 500 times, and the axial distance between I adjacent vibroblocks is 1.5–5 times the center distance between the sub- I spring tension bars 8 in each internal block.

: Vibro-shock platform for compacting I concrete mixes in the form works as follows.

Before the start of operation, the vibratory impact pad is adjusted to compact the concrete mixtures to the optimum mode of operation. For this, the form, through the attractive electromagnet 7, with the aid of spring-loaded m 8 gs, with a predetermined force, lifts to the fixed frame 2.

Subsequently, the fixed, stable, percussion mode of motion of the form, when its mass is changed, is automatically maintained due to the difference between the above stiffness ratios of the elastic element 5 of the elastic supports 1 and the springs 9.

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ABOUT

With an increase in the mass of the mold, the elastic supports 1 are compressed with the product and the springs 9 are expanded with a practically permanent deformation of the elastic element 5, which is required to maintain a stable vibro-impact mode of operation. When the mass of the form increases, the opposite is true.

Thus, during operation, a change in the form pressing force is made when the magnitude of the forced force of the unbalanced pathogens 4 changes. After that, the form with the concrete mixture is applied to the attractive electromagnets 7 and the voltage is applied to the attractive electromagnets 7, and then the driving motors 12 are turned on. The expansion of the unbalance shafts causes oscillations of the plate 3, and it collides through the elastic elements 5, the base plates 6 of the connecting electromagnets 7 with the form.

At the same time, the indicated stiffness ratios and the distances between the axes of the vibroblocks and the spring-loaded grids 8 provide stable oscillations of the shape with impact.

Claims (2)

1. A shock-proof platform for compacting concrete mixtures in a mold containing zibroblocks mounted on the base by means of elastic supports with attractive electromagnets and unbalanced drivers of vertical-directional vibrations, kinematically connected to each other and driving motors, characterized in that the purpose of increasing productivity due to tuning to the optimum mode of operation in the manufacture of products of various sizes, vibroblocks are equipped with elastic elements, attractive electromagnets op The grips on the latter and are made with clamping devices and in the form of connecting them to the base with spring-loaded tg, and the stiffness of the elastic element of each vibroblock exceeds the stiffness of its elastic supports and the springs tg, respectively 40 ... 100 and 150 .. .500 times 2. Site according to claim 1, characterized in that the axial distance between adjacent vibroblocks is 1.5 ... 5 times the axial distance between the spring loaded bars in each vibroblock. ////////////////////////////////////////////////// /////////////////////// FIG. 2 FIG. /