CS244465B1 - Vibrations exciter with continuous variation of eccentric moment - Google Patents

Description

(54) Vibration exciter with continuous eccentric moment change

The vibration exciter with a continuous change of the eccentric torque of the urn is a regulation in the range from zero to maximum. It can be used in the field of Sutting Technique or Testing. The purpose of the solution is to continuously change the eccentric moment according to the requirements of the requirements, zeroing to eliminate the resonant frequencies of the device during acceleration and deceleration, allowing the vibration drive to be placed and vibration control on one side of the compaction roller.

In the drawing, the vibration exciter comprises a front helical gear 4 with helical teeth, a rear helical gear 7 with helical teeth! teeth of the same diameter but opposite tooth pitch and axially displaceable shaft 5 which connects the two wheels. By means of an anal displacement of the original by means of a Tydradic cylinder 6, the gears 4 and 7 are rotated against each other under the influence of helical teeth. The rear gear 7 is connected to an outer eccentric in which the outer eccentric 3 is rotatably mounted connected to the front gear 4. The instantaneous value of the vibration amplitude is given by the geometric sum of the centrifugal forces of the eccentric unbalance.

244465 2

BACKGROUND OF THE INVENTION The present invention relates to a vibration damper with a continuous change of eccentric moment by rotating two eccentrics.

Adaptation of the dynamic parameters, ie the frequency of vibrations and the centrifugal force of the vibratory rollers to the properties of the compacted eatteial, is only possible with the control of these parameters, which some designs newaoo. The change in vibration frequency causes a significant change in the kinetic value, but this is not always advantageous from the point of view of the compaction process.

The vibratory rollers used up to now have either no size control. AeeThis oscillation or have a limited range, for example a two-stage control, such as the pat. USA 3 896 67 * 7, wherein the two-position tilting eccentric is locked by a pin inside the hollow shaft.

Continuous regulation and m mp ^ t ^ are always possible within a limited range of regulation, eg by a MS. No. 0 0 08 081, where by the axial displacement of the central adjusting rod, it alters the inclination of the rods located in the lateral guide, thereby changing the position of the non-undercarriage from the axis of rotation.

The disadvantage of this solution is the large number of joints directly stressed by the centrifuge. force and considerable structural complexity. Similarly, US PAT is solved. No. 3,867,073, wherein the unbalance is displaceable in the radial direction and the distance of the unbalance from the axis of rotation increases or decreases by means of a hydraulic cylinder that is part of the unbalance.

The disadvantage is the necessity to supply the ram fluid in the rotating shaft and the difficult sealing of the hydraulic cylinders. Change иоШ ^ у vibrations ranging from zero to mexirirani. values are allowed eg NSR PAT. No. DE 2 842 937 C2, where two eccentrically aligned eccentrics are rotated relative to each other by means of a latch and a ratchet.

The ratchet is placed on one eccentric, the ratchet on the other. The pawl moves hydraulically, the pressurized fluid being supplied by the hollow shaft. The disadvantage of this solution is the necessity to supply the gravity fluid to the inwardly rotating shaft, a considerable complexity and a rapid adjustment, which is disadvantageous especially when compacting areas with a high flatness requirement, where unevenness can occur when the compaction roller is reversed. can be eliminated by suddenly reducing or switching off - vibration.

Resetting the vibration also removes the effect of the resonant frequencies of the tread and the driver's cap during acceleration and deceleration. This is solved, for example, by CS A. 0. 187 542, where two coaxial eccentrics, independently driven by hydro - motors, rotate against each other due to the throttling of the self - rotating branches of the hydromooor distribution.

The disadvantage of speaking is the necessity to kill two hydraulic motors and difficult to ensure synchronous revolutions of hydraulic motors without kinematic coupling. A long-term solution to the problem of continuous eccentric moment change is described in the Irish PAT. No. 1,146,454, where two eccentrics are aligned coaxially. They rotate each other by means of a screw groove in one eccentric, in which the screw projection of the shaft fits axially displaceable and carries the other eccentric by means of the grooving.

In this solution, it is very difficult to use the drive mechanism, because on one side of the cylinder is the drive - vibration and the other side is occupied by a sliding mechanism.

The above-mentioned drawbacks are eliminated by the vibration exciter according to the invention, the essence of which is the arrangement of two eccentrics, by rotating against each other by means of an axially displaceable cross-toothed gearing.

The use of this method of controlling the size of the aoppitude from mHy to the maximum value according to the requirements of the compacted subcutaneous tissue and eliminates the undesirable resonant frequencies during the excitation start-up and deceleration by resetting the vibration.

The axial trajectory of the pattern required to rotate the inner eccentric by 180 ° is relatively short because the rotations caused by helical gearing add up on both wheels.

The vibration drive and vibration control can only be on one side, allowing the other side of the cylinder to be used to drive it, or it can be left free and compacted, for example, close to the wall.

In the accompanying drawing, the vibration exciter according to the invention is formed by an outer eccentric 4, which is mounted in bearings 4 mounted in the frame 8. An inner eccentric 4 is rotatably mounted within the outer eccentric 4.

Both eccentrics have the same unbalance. On the inner eccentric 4 a front gear 8 ^{with a} helical toothing ^is mounted, which engages in a pattern formed by two fixedly connected gears with a helical toothing of opposite tooth inclinations.

The slide 6 is axially displaceable by means of a hydraulic cylinder 6 and transmits the torque to a rear sprocket 6 which is rigidly connected to the outer eccentric 4. The rear sprocket 6 has the same diameter as the front sprocket 6 but the opposite inclination of the teeth.

The gears 4 and 4 rotate against each other by the axial movement of the workpiece under the influence of helical gearing. The inclination of the teeth must be chosen with regard to self-locking.

Claims (2)

SUBJECT OF THE INVENTION Vibration exciter with a continuous eccentric torque change from zero to maximum, consisting of an outer eccentric, an inner eccentric, a bearing frame, characterized in that the helical gear (4) is connected to the inner eccentric (3) and the rear gear (7) , the helical gears of opposite inclination of the teeth and the same diameter is associated with vněj- _(SIM eccentric (1). Vibration exciter according to claim 1, characterized in that the front gear (4) and the rear gear (7) are connected by an axially displaceable slide (5), consisting of two rigidly connected gears with helical teeth of equal diameters and opposite tooth pitches.