SU992856A1 - Vibration hammer - Google Patents

Description

(54) VIBROMOLOT

The invention relates to pile driving equipment, in particular to vibratory hammers, used for driving piles during the erection of pile foundations and for submerging grooves during the construction of dams, moorings.

The vibrohammer is known, which contains a pressure source, a tank, a ram with a working tool and a piston, the rod of which is connected to the impact part, and a spool with a through axial channel, in the case of which the spool limiters are installed, and in the axial channel of the spool piles associated with the piston. of the power cylinder 13. The disadvantage of the known device is the inability to control the stroke of the piston; consequently, the impact energy when operating in different soil conditions, which reduces the efficiency of the device when driving piles and dowels into high-density soils.

The purpose of the invention is to increase work efficiency.

This goal is achieved by having a cavity in the piston rod that is connected to the tank through the throttle and the power cylinder is provided with an additional cavity with the piston, the rod of which is connected with the working tool, the additional cylinder cavity communicating with the rod cavity and the tank respectively additionally installed a retaining valve and non-return valve, at hem with a shoulder, are spring-loaded and installed in the cavity of the rod.

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The drawing shows vibrating hammer. The vibratory hammer contains a pressure source 1, a tank 2, a power cylinder 3 with a working tool 4 and a piston 5, the rod of which is connected to the shock

15 by part 7 and spool 8 with a through axial channel 9. In case 10 of the spool 8, limiters 11 are installed. In the axial channel 9, installed ha ha 12 with Burtamy13. The cavity 14 is connected to the tank 2 via the throttle 15. The additional cavity 16 contains the piston 17 with the rod 18 and is connected to the cavity 14 through the retaining valve 19 and to the tank 2 through a check valve

25 20. T he 12 is equipped with a spring 21. The piston 5 forms in the cylinder 3 cavities 22 and 23 connected to a source of pressure 1 through pipelines 24 and .25 and annular recesses 26-30, made in housing 10. The cavity 31 communicates with the cavity 22. The cavity 16 is connected with the cavity 14 by means of the pipeline 32. The piston 5 contains an abutment 33. The cavity 14 is connected by a pipeline 34 to the tank 2. The valve 19 is equipped with a spring 35 ..

Vibrating hammer works as follows.

Shock part 7, lowering the st, moves the stop 33 spool 8 to the lower position. The annular recess 28 is connected with the recess 27, and the recess 29 is connected with the recess 30. The working fluid from the pressure source 1 flows through the pipe 25 into the cavity 23 of the cylinder 3, the spool 8 moves to the lower limiter 11. At the same time, the piston 5 starts to move up and the fluid from the cavity 22 through the pipeline 24, the recesses 29 and 30 and the pipeline 34 is discharged into the tank 2. The lower flange 13 t gi 12 moves the spool 8 to the neutral, and, due to the inertia of the striking part 7, displaces it slightly above the neutral. At the same time, the undercut 28 is connected with the undercut 29, and the undercut 26 is with the undercut 27. The working fluid from the pressure source 1 enters the cavity 31, displaces the spool 8 to the upper limiter 13 and through the pipeline 24 enters the cavity 22 of the power cylinder 3, after which the piston 5 begins to move downward and the stop 33 reaches the spool 8, begins to displace it towards the neutral 4, due to the inertia of the striking part 7, and below the neutral. At this time, the spool 8 is thrown into the lower position and the shock part 7 hits the upper part of the power cylinder 3 connected through the cavity 16 and the rod 18 of the piston 17 with the working tool 4, and the cycle repeats ..

As the pile sinks, the dive resistance increases, and therefore / the pressure in cavity 16 increases at the moment of impact. When a pressure of 16 is reached, sufficient for opening valve 19, the zhidd-bone from cavity 16 through conduit 32 enters cavity 14 and shifts thrust 12 downwards, increasing the clearance between the collar 13 tons 12 and spool 8, therefore, increases span and impact energy.

 The intensity of the impact energy is chosen by the rigidity of the spring 35, and the intensity of the drop is choked by 15. When the resistance of the vibro-hammer decreases or the valve is turned off, the valve 19 closes and cuts the cavity 16 from the cavity 14 under the action of the spring 35. The pressure on the spring 12 increases and you press the fluid from the cavity 14 through the throttle 15 into the tank 2. When the vibro-hammer is removed from the pile or tongue, the piston 17 together with the working tool 4

It moves downward, and fluid through the check valve 20 enters the cavity 16, compensating for the volume of fluid used in regulating the stroke of the piston 5.

5 The use of piston stroke adjustment 5 will automatically change the impact energy of the vibratory hammer in Dependence on the soil conditions at the work site, which will significantly increase the efficiency of using the proposed vibratory hammer, expand its range of application for immersing piles and grooves in various soils, and reduce the number and size of vibratory hammers .

will provide operation and repair.

Claims (1)

1. USSR author's certificate No. 694599, cl. F 15 B 21/12, 1979.