SU772851A1 - Vibration-impact device - Google Patents

Description

one

Invention; It can be used in the industrial construction materials and applies, in particular, to devices for vibrocompaction of concrete mixtures with a pneumatic exciter 5.

A device is known that contains upper and lower buffer elements 1.

The closest technical solution to the proposed one is a vibro-impact device containing at least one vibroblock suspended from a working body in the form of a glass with a central dividing 15 partition, upper and lower diaphragms rigidly fixed around the perimeter of the glass and limiting hermetic cavities connected in antiphase via a spool valve with a pressure source 2j,

A disadvantage of the known devices is insufficient reliability in operation.

The purpose of the invention is to reduce the level of noise and the complexity of fixing.

This goal is achieved by the fact that in a vibro-hammer device containing at least one vibroblock suspended from the working member in the form of 30

a cup with a central dividing wall, upper and lower diaphragmgiles, rigidly fixed around the perimeter of the dtakan and limiting hermetic cavities connected in antiphase through the spool valve to the pressure source; fixed on the working body of the power cylinder, and the grip, the piston of the power cylinder and the disk support are rigidly connected by means of a rod with each other, and the buffer elements are placed respectively on the ram and the disc plate.

FIG. 1 shows a vibro-impact device, a general view; in fig. 2 shows section A-A in FIG. one; on fig.Z - section bb in fig. 2; in FIG. 4 is a view along arrow B in FIG. 3

The device contains one or more vibroblocks 1, suspended from the working bodies 2, which are mounted on the foundation by means of spring shock absorbers 3. Each working body 2 is rigidly attached

a power cylinder 4 with a rod 5, .on which a piston 6 and an ea-grip 7 are installed. In the case of the gripper 7 there is a helical groove 8, into which a pin 9 is inserted, fixedly mounted on the working element 2. A disk support 10 is fixed at the lower end of the rod 5 between it and the working body 2 is installed by means of elastic elements 11 a cup 12. At the ends of the cup 12 along its perimeter, at the ends of the power cylinder 4 and the disk support 10, 3jTacTH4 diaphragms 13 are attached, forming two hermetic cavities 14 connected in antiphase through pipelines 15 and 16 s lotnikovym distributor 17 which is provided with a driving motor 18 and connected to a source of compressed-vozduha. The spool valve 17 worked transverse, mutually perpendicular openings 19 and 20.

Inside the cavities 13, buffer elements 21 are mounted on the ends of the ram 4 and the disc support 9.

On the working body 2 is installed a form 22 with a concrete mix. In the bottom of the mold 22, a hexagonal recess 23 is made, on the edges of which there are hooks 24 attached to one face.

The operation of the device is as follows.

Compressed air is supplied to the power cylinder 4, as a result of the force generated by the piston 6, the rod 5 together with the wheel support 10 and the gripper 7 moves upwards. The elastic elements are then compressed, and the grip 7 is rotated at a certain angle and, when a mold is set, 22 is immersed in a six-sided recess 23 of the bottom of the mold 22. After installing the mold 22, the power cylinder 4 is turned off. Under the action of compressive forces of the elastic elements 1, the rod 5 moves downward, the grip 7 rotates in the opposite direction, lays on the hooks 24 and presses the form 22 to the surface of the working body 2. After that, the electric motor 18 and the compressed air in any half-period of oscillations through the hole 19 spool valve 17 and the pipelines 15 enters one of the hermetic polos

Now 14. The second cavity is connected through the pipes 16 and the hole 20 to the atmosphere, and in the next half-period of oscillations, through rotation of the spool distributor 17 by a quarter of a turn, the working cavity is connected to the atmosphere and pressure is released in it; At the same time, the compressed air enters the cavity which is opposed to it and oscillates the glass 12 and the working body 2 with the mold 22. During operation, the buffer elements collide with the partition wall of the glass 12 and thus the shock-vibrating mode is carried out. The stiffness of the elastic elements 11 is designed for near-resonant mode of operation.

Claims (2)

1. USSR author's certificate ff 306000, cl. B 28 B 1/08, 1971. 2. USSR author's certificate in accordance with K 2651410 / 29-33, cl. B 28 B 1/08, 1979. F / J . I i. w sixteen / r fj / 1-L 0ffft /