CS259748B1 - Device for vibration exciters' eccentric moment's stabilization and magnitude scanning - Google Patents

Abstract

The solution relates to stabilization and size sensing eccentric torque vibrator drivers. From the vibration exciter housing there is a sliding rod on which it is attached sleeve. Fixed on sleeve on the one hand, the hydraulic cylinder rod, controlling moving the vibrator driver slider, so is the toothed bar that passes between the hydraulic brake jaws. Size the eccentric moment can be subtracted from the offset on the bar gearing. The solution can be used with machines using oscillating motion k working process, especially in vibration cylinders.

Description

The invention relates to a device for stabilizing and sensing the magnitude of the eccentric moment of a vibratory exciter, in particular for a vibratory roller.

The known, continuously adjustable vibration exciters are without the possibility to mechanically maintain the set amount of eccentric torque, which changes due to leakage in the hydraulic system. It is necessary to monitor the status on the indicator and always return to the original value after some time. This instability of the eccentric moment size results in a reduction in compaction quality. Electrohydraulic coupling is the best way to monitor the magnitude of the eccentric moment. The position is electrically sensed and the change is signaled to the hydraulic part, which is moved by the vibration exciter setting mechanism. Keeping the magnitude of the eccentric moment happens in jumps. The jumps are the smaller the sensitivity of the electrohydraulic system. However, the more sensitive the system, the more expensive it is. Another solution for adjusting the eccentric torque is that the rod actuating the vibration exciter is guided through a locking device, for example a brake, which is connected to the respective hydraulic cylinder. The disadvantage of this solution is that it takes up a lot of space. The brake is mounted in a row with the linkage.

The disadvantages of these solutions are the complexity of the construction and consequently their higher cost.

These deficiencies are overcome by a controllable vibration exciter according to the invention

748 the essence is that the brake retains any set eccentric moment and at any moment we know its magnitude value via a subtraction mechanism which engages the toothing 10 of the rod 6.

1 is a longitudinal section through an eccentric torque sensing device, and FIG. 2 is a view of a brake rod. FIG.

The controllable exciter consists of a housing 2, from which a sliding rod 1 protrudes, on which a sleeve 5 is mounted over the bearing 4. Both the cylinder 7 of the hydraulic cylinder 8 and the rod 6 of the hydraulic brake 9 are attached to the sleeve 5. and extends between the brake shoe 11, 11 '.

Moving the slider 1 via the hydraulic cylinder 8 will change the magnitude of the eccentric torque of the exciter. The hydraulic brake 9 compresses the jaws 11, 11 ' which grip the rod 6 therebetween, thereby ensuring not only the position of the slider 1 but also the amount of eccentric moment. The pressure in the hydraulic cylinder 8 can then be reset. If eccentric torque is to be read, the toothing 10 on the rod 6 is used to adjust the stop.

The advantage of this method is that the adjusted position of the linkage 1 is mechanically secured and there is no need for the electrohydraulic system to be in continuous operation when there is no need to change the eccentric torque.

Claims (1)

An apparatus for stabilizing and sensing the magnitude of the eccentric torque of vibratory exciters, characterized in that a sliding rod (1J) protrudes from the vibratory exciter housing (2) on which a sleeve (5J) is attached over the bearing (4). 7) of the hydraulic cylinder (8) and of the rod (6), which is provided with a toothing (10) and extends between the hydraulic brake shoes (11, 11 ').