SU946939A1 - Vibro-percussive platform - Google Patents

Description

This invention relates to the molding of products from concrete mixtures. A resonant vibro-platform is known, containing a counterbalancing frame supported by shock absorbers on the base, on which a crank exciter with an elastic element in a connecting rod and an operating element with elastic supports are mounted, and a vibro-platform is located between the equilibrating frame and the operating element. for forming articles from concrete mixtures, containing a counterbalancing frame supported by means of shock absorbers on the base with a crank The vibrations, the buffer elements and the working body associated with the balancing frame are elastic supports, the latter being coaxial with the shock absorbers 2. The disadvantages of these vibrating plates, adok are high intensity of metal due to the need to install electromagnets, pneumo-clamps or other gripping devices on the working body and low productivity - increase in productivity and decrease in metal intensity. This goal is achieved by the fact that in a vibro-impact platform containing a working body mounted on the base and connected to each other by means of coaxial elastic elements and a balancing frame, which are in contact with each other by means of elastic buffer elements and a crank exciter oscillator mounted on the balancing frame element in the connecting rod, the working body is equipped with an elastic gasket placed on its upper plane, the rigidity of which is 1.2-1.8 times greater than the reduced rigidity of the elastic elements, between the working body and the balancing frame. FIG. 1 schematically shows a vibro-shock platform; in fig. 2 — node I in FIG. 1. The vibrating plate consists of those installed on the base 1 and connected to each other with the help of coaxial elastic elements 2 and 3 of the working body 4 and the balancing frame 5, which are in contact with each other by means of elastic buffer elements 6.

On the balancing frame 5 is fixed cryoschief causative agent of 7 oscillations with an elastic element 8 in the connecting rod.

On the upper plane of the working body 4, a vulcanized elastic gasket 9 is placed, the rigidity of which is 1.2-1.8 times greater than the reduced stiffness of the elastic elements located between the working body 4 and the balancing frame 5. Form 10 is installed on the elastic gasket 9 without fastening.

The table shows the data obtained as a result of experimental verification of the vibrating plate.

Holding the form when the worker’s movement is moving up

30,000

50,000

6OOOO

50,000

90OOO

1OO 000

20OOOO

Vibro shock platform works as follows.

After filling the mold 10 with concrete, vibration exciter 7 is activated, which informs the working body 4 and the frame 5 vertical reciprocating oscillations.

When the working body 4 moves downwards, the collision of the buffer elements 6 takes place, as a result of which significant accelerations (3-9g) are reported to form 10, which ensure the effective compaction of the mixture.

When moving the working body 4 up the amount of acceleration of the working body does not exceed 1 ,. The installation of an elastic gasket 9 of the specified stiffness, which plays the role of a damper, reduces the magnitude of these accelerations on the form to 0.9-Ig, i.e. virtually unbreakable

mode-vibration form.

Thus, the nonlinear nature of the oscillations inherent in the known asymmetric vibroplashes and providing vibro-shock compaction of mixtures is preserved and successfully combined with a low-intensity, continuous half-cycle of upward movement of the form. After the vibratory treatment of the concrete mixture is completed, the mold is supplied to the steaming station.

Break and fast creep

Detachment and slow creep

Without a break The same

Detachment and slow creep

Breakaway and quick snuffing

The use of the proposed vibro-impact platform allows to increase productivity and reduce metal consumption.

Claims (2)

1. USSR Author's Certificate No. 278499, cl. B 28 B 1/08, 1968. 2. USSR author's certificate number 531739, cl. B 28 B 1/08, 1974. U2.2