CS241610B1 - Two-stage vibration exciter - Google Patents

Abstract

The solution concerns a two-stage vibration exciter with two unbalances of different sizes, housed in a housing and supported by at least two prestressed springs, which hold them in the basic position so that the resulting moment of the unbalances is equal to zero. The resulting centrifugal force is determined by the position of the unbalances. The vibration exciter according to the solution can be used in machines that use oscillatory motion for the work process, especially in vibrating road rollers.

Description

The invention relates to a two-stage vibration exciter, in particular for road rollers. It can also be used on other machines ₍ with a vibration effect), where the centrifugal force of the exciter unbalance should be changed in stages.

The known vibratory rollers are equipped with predominantly exciting vibrations with rotating unbalances. In order to vary the vibration amplitude of the vibration tread and to adapt the vibration to the compacted material, the unbalance torque of most exciters needs to be changed. Known exciters are provided for both stepwise and continuous centrifugal force changes. Different eccentric torque values are set either by changing the sense of rotation of the exciter or by changing the frequency of rotation. Known exciters with stepped variable centrifugal force are designed to have two unbalance. One is fixed and the other is pivotable about the exciter axis. When the exciter is rotated, the centrifugal forces of the two unbalances are added geometrically or subtracted according to the direction of rotation. The resulting centrifugal force is determined by the position in which the pivoting unbalance is rotated. A disadvantage of the current two-stage exciters is that it is not possible to set zero values of the unbalance moments during the start-up. This means high power consumption during start-up. The vibration tread enters resonance, thereby subjecting it to increased stress and wear.

The two-stage vibration exciter largely eliminates these drawbacks, consisting of two unbalance weights, larger and smaller, which are mounted opposite each other in a cylindrical housing mounted on the tread shaft. The unbalances are supported by differently preloaded springs, which hold them in the basic position so that the resulting unbalance moment is equal to zero. When the exciter is rotated, the centrifugal forces of the two unbalances are geometrically subtracted. The resulting centrifugal force is determined by the unbalance position

241 610

An advantage of the two-stage vibration exciter according to the invention is the possibility of starting the exciter at zero unbalance moments and thus eliminating the tread resonance when starting the machine. Another advantage is the simplicity of the exciter design, which increases its reliability in operation. The advantage is also the relatively low power required to start.

An exemplary embodiment of the invention is shown schematically in the drawing, wherein Fig. 1 is a front elevation view of a two-stage vibration exciter and Fig. 2 is a cross-section of an exciter along a vertical axis.

The vibration exciter according to the invention consists of a housing 1, which is supported by a tongue 6 on a shaft 7. The shaft 7 is mounted on rolling bearings 43, a larger new balance 2 is slidably mounted in the cylindrical cavity of the housing. on the opposite side of the housing the smaller unbalance 3 on which the thicker spring 5 is supported. The springs 4 and 5 may be at least two or more for each unbalance. In the basic position, in which the resulting torque of unbalances 2 and 3 is zero - the exciter is balanced to the shaft axis 7. Throughout the start-up, due to the engine driving torque, the unbalances 2, 3 remain in the home position. When the lower desired frequency is reached, the larger unbalance 2 compresses the weaker spring 4 and moves away from the center of rotation - the exciter has a greater eccentric moment. If a higher frequency is to be achieved, the exciter speed is increased, thereby compressing the smaller unbalance 3, the stronger spring 5 and moving further away from the center of rotation. The eccentric moments of both unbalance 2 and 3 are subtracted and the desired lower eccentric moment is achieved. When the exciter speed decreases, the springs 4, 5 compress the unbalance 2 and 3 into the home position.

The springs must be biased so that the weaker spring 4 completely releases the larger unbalance 2 when the first frequency is reached and the thicker spring to release the smaller unbalance 3 when the higher frequency is reached.

The vibration exciter according to the invention has been used in machines employing oscillating motion for the working process, especially in vibrating road rollers.

Claims (1)

SUBJECT OF THE INVENTION 241 610 A two-stage vibration exciter with two unbalance weights of different weights, in particular for vibratory rollers, mounted in the tread of a vibratory roll, characterized in that it consists of two unbalance weights (2,39) housed in a cylindrical cavity of the housing (1) fixed to the shaft (7) _; wherein the heavier unbalance (2) abuts at least two weaker pre-tensioned springs (4) and the less-weight unbalance (3) abuts at least two heavier pre-tensioned springs (5).