SU1013282A1 - Vibropercussive platform for compacting concrete in mould - Google Patents

Abstract

VIBRATION PLATFORM FOR SEALING CONCRETE MIXTURES IN THE FORM, containing a working body in contact with each other by means of buffer elements and balanced; frame, crank-shatunny excitator, each crank which roo is made in the form of a two-arm lever connected with rods and mounted eccentrically on the drive shaft, which is placed along the longitudinal axis of the balancing frame, supported by elastic elements on the base, characterized by the fact that in order to reduce capital expenditures on production premises, the balancing frame is placed above the working member and is provided with a window for the passage of the latter, with two shoulders levers hingedly connected with connecting rods, and rking -b body with equilibration conductive frame by means of rigid struts with elastic elements. (L Si oo IND

Description

The invention relates to the field of molding of precast concrete products and rail concrete. The closest technical solution to the invention is a vibratory impact plate-type molding of concrete products from C7 1s, containing - one above the other and in contact with each other with the help of buffer elements, a moving and balancing frame and a crankshaft-and-connecting rod exciter of oscillations. that its operation requires high-altitude production facilities. The purpose of the invention is to reduce the capital costs of production no-i spaces. This goal is achieved by the fact that in a vibro-impact platform for compacting concrete mixes in a form that contains a working body in contact with each other by means of buffer elements and a balancing frame, it has a crooked pattern, the damping pathogen is hesitant. Each crank of the crank is made in the double-arm lever connected to the tent and mounted eccentrically on the drive shaft, which is placed along the longitudinal axis of the counterbalance frame supported by elastic elements on the base, balancing the cancer 4 above the working tool and made with the opening window The two arms of the two arms are hingedly connected with the connecting rods, and the working body with the equalization of the arms through rigid struts with elastic elements. FIG. 1 shows a vibro-impact pad, plan; in fig. 2, section A-A of FIG. one; in fig. 3 shows a section B-B in FIG. one; fvg 4 - view B in fig., 1 1 Vibro-impact platform for compacting concrete mixtures in the form contains a balancing frame supported by elastic elements 1 on the basis 2 and 3, which is attached to the window 4 for the passage of working sagana 5 connected with the balancing frame by rigid pillars 6 with elastic elements 7. Balancing frame 3 is in contact with the working body with 5 buffer elements 8. The vibrating platform contains 9 vibrations, each crank 10 of which is made in the form of two shoulders ± 1, connected with by connecting rods 12 by means of hinges 13 and - mounted eccentrically on the drive shaft 14, which is placed along the longitudinal, axis of the balancing frame. Electromagnets 15 are used to attach the mold. The vibro-impact platform for compacting concrete mixtures in the mold works as follows. . A form with a concrete mixture is installed on the operating element 5 and fixed with the help of electromagnets 15. Then, the crank-connecting rod exciter 9 is switched on and oscillates the working mixture. Crank Yusshatunami 12 communicates a directional reciprocating motion to the form, and when counter-moving the working body 5 and the balancing frame 3, Wf collides with them, perceived by the buffer elements 8, as a result of which a non-linear H. oscillator is created and the resonant region widens, which ensures efficient sealing hard mixes and contributes to the quality of the molded products. The use of the off-site pad of the proposed design will allow to reduce the capital costs of production facilities.

Claims (1)

VIBRO-SHOCK PLACE FOR SEALING CONCRETE MIXES IN FORM, containing working body in contact with each other by means of buffer elements and balancing; a lower frame, a crank oscillator, each crank of which is made in the form of a two-shouldered lever connected to the connecting rods and mounted eccentrically on the drive shaft, which is placed along the longitudinal axis of the balancing frame, supported by elastic elements on the base, characterized in that, in order to reduce capital costs for production facilities, the balancing frame is placed above the working body and is made with a window for the passage of the latter, with two shoulders levers pivotally connected to the connecting rods, and the working gan with balancing frame by means of rigid struts with elastic elements. g