SU641177A1 - Hydraulic drive of impact unit, mainly for compacting concrete - Google Patents

Description

vertical displacements relative to the fixed platform 7. The piston rods of the Y-axle cylinders 5 are connected to the hydraulic accumulator 8 and through the shut-off valve 9 and the check valve 10 to the discharge line 4. The pump is equipped with a safety valve I, which can be unloaded by means of the spool 12, controlled magnetite 13, and unloading. valve 14 with a cavity control 15. Inlet 16 of valve 14 is connected to the discharge line 4 of the pump.

The controllable valve contains a locking element 17 and a control hydraulic cylinder 8, the piston 19 of which is provided with a first rod 20 interacting with the locking element 17 and a second shaft 2 mounted opposite to the first and loaded adjustable spring 22. Adjustment of the spring 22 is performed using viit 23 The cavity 24 of the hydraulic cylinder control I 8 from the side of the second rod 2 is connected by the line 25 with the control cavity 15 of the unloading valve 4, and the cavity 26 of the control hydraulic cylinder 18 from the side of the first rod 20 by the line 27 with hydroaccum 28, the piston 29 of which is loaded with a spring 30, the adjustment of which is produced by the screw 31.

The area of the rod 21 is greater than the active area of the locking element 17. The hydroaccumulator 28 is connected to the inlet 6 of the unloading valve through two parallel-mounted throttles 32 and 33, with each drosis in series. 32 and 33 are installed on one-way check valves 34 and 35, which are connected in opposite.

Hydro-drive works in the image of and.

Before the start of the working cycle, the movable platform 6 is in its lowest position and rests on the stationary platform 7, the electromagnet 13 is turned on, the spool 12 is open and the pump I, driven by the electric motor 2, is unloaded via the fuse valve P. P. The hydroaccumulator 28 is unloaded and the hydraulic cylinder is up. The spring 18 under the influence of the spring 22 closes the locking element 17. The hydroaccumulator 8 is charged to the volume that provides additional charging from the hydraulic cylinders 5, the backup valve is closed.

The signal for the start of the first operating cycle is the disconnection of the electromagnet 3 and the closing of the spool 12, as a result of which the safety valve 11 is closed and the pump 1 through the discharge line. 4 begins feeding the working fluid into the piston cavities of the hydraulic cylinders 5. Under the action of the forces of the hydraulic cylinders 5, the movable area b begins to rise. At the same time, the hydroaccum is charged, and the pump 28 passes through the check valve 35 and the throttle 33. As the hydroaccumulator 28 is charged, the pressure in it increases, and

the charging time and, accordingly, the pressure is regulated by the throttle 33. The discharge valve 4 is closed at the same time, since the control cavity 15 is disconnected from the drain by the locking element 17.

When a pressure is reached in the hydroaccumulator 28, it is sufficient to actuate the control hydrocyliidra 18. The shut-off element 7 opens the discharge of the working fluid from the control cavity, 15 the discharge valve 4. The discharge valve 14 opens, bypassing the working fluid from the discharge line 4 and the piston cavities to the drain. This moment corresponds to the maximum lift of the mobile platform 6.

Under the action of its own weight and force from the pressure in the choke cavities of the hydraulic cylinders 5, the movable platform 6 rapidly moves downwards to collision with a fixed roller 7. When the collisions of platforms 6 and 7, there is an abrupt deceleration of the mobile platform 6, which leads to compaction of concrete in the form, installed on a fixed platform 7. During the progress of the mobile platform

j. down the working fluid from the hydroaccumulator 28 through the throttle 32 and the check valve 34 and further through the discharge valve 14 enters the drain, which leads to a decrease in pressure in the hydroaccumulator 28, the operation of the control hydraulic cylinder 18 and the closure of the locking element 17. This, in turn, results in closing the discharge valve 14 and disconnecting the pressure line from cJiHsa.

The working fluid begins to flow into the piston cavities of the hydrocylimidre, and the working cycle repeats.

The device can operate with the shut-off valve 9 open. In this case, the acceleration of the moving platform during downward movement is carried out only under the action of force.

3 tons of tin, however, in this case is possible. provide an increased frequency of vibration of the movable platform 7, without increasing the drive power setting.

By adjusting the throttle 33, the oscillation amplitude of the moving platform b is adjusted by increasing the duration of its rise, and the throttle, 1em 32, is the oscillation frequency.

Claims (1)

1. Ivanov, ME, et al. New hydraulic mechanisms of percussion technological machines, Kiev, Kiev Polytechnic Institute. Vinnitsa Branch, 1971, p. 15, fig. four.