DE2528269A1 - Out of balance weight vibration generator - uses timing belt coupling between parallel shafts with provision for synchronisation of motion - Google Patents

Abstract

An out of balance weight vibration generator for use in sieving application, uses two parallel shafts carrying out-of-balance weights driven from one input. The unit permits synchronisation between shafts and ready adjustment of output amplitude. The coupling between each main shaft carrying weights is with a notched timing belt. Auxiliary notched wheels (23) result in opposite direction of rotation of the main shafts. The shafts (25) are eccentrically mounted. The degree of eccentricity is variable, thus permitting the amplitude of the vibration generated to be varied and providing synchronisation of the main shafts.

Description

Device for synchronizing two unbalance drives running in opposite directions The invention relates to a device for synchronizing two opposing directions running unbalance drives, especially for synchronizing a double balancing unit with two parallel, each provided with at least one imbalance weight Shafts, one of which is driven directly by a motor.

For the generation of linear oscillating movements, as e.g.

for screening machines or vibratory conveyors are required as Richter exciter double balancing mechanisms are used, which essentially consist of two unbalances exist, which are driven in opposite directions at the same speed. With these drives, two are used for synchronization and reversal of the direction of rotation Gears attached to the unbalance shafts that mesh with one another. At higher Circumferential speeds of the unbalance shafts and larger accelerations like them are required for screening machines, the tooth flanks of the gears can show signs of wear occur that lead to the premature failure of the Guide drive unit. In addition, a high-quality gear oil is required to lubricate the gears. The oil level in the balancing mechanism depends on the so-called throwing angle. If the throwing angle is changed by changing the position of the balancing unit, it must also the oil level within the balancing unit can be corrected.

Another disadvantage is that of the meshing gears a lot of noise emanates, especially at higher speeds.

The invention is therefore based on the object of addressing these disadvantages avoid and create a synchronizing device SAr a double balancing unit, which is easy to manufacture, easy to adjust and reliable in operation.

This object is achieved according to the invention in that both imbalance shafts each have an external toothing, both by an endless, on both sides with Toothed belts are connected to one another in such a way that the imbalance shafts run in opposite directions.

Both unbalance shafts rotate by means of the slip-free double zabn flat belt synchronous. Since the toothed belt does not need to be lubricated, SAr can do the lubrication Simple grease lubrication can be provided for the bearings of the unbalance shafts. Through this is made possible To install the balancing mechanism in every angular position, without having to consider an oil level. By building the timing belt the noise development is significantly reduced. Since the timing belt has a Has a certain elasticity, the load peaks when starting and braking be mitigated. The toothed belt is also easy to change and opposite a cheap replacement part for a pair of gears.

The invention and its further advantages are illustrated in FIGS Figures schematically illustrated embodiments explained in more detail. It shows: 1 shows an embodiment of the invention in a perspective view Double balancing unit, FIG. 2 shows a view of another embodiment of the double balancing unit it, wig 3 excerpts from the section through a tensioning pulley and its mounting.

The double balancing unit of Figure 1 has two parallel unbalanced shafts 10 and 11, on which the unbalances 12, 13, 14 and 15 are attached. The unbalance shaft 10 is under Interposition of a cardan shaft 16 directly driven by a motor 17 which is fixedly mounted on a stand 18. Both unbalanced shafts 10, 11 each have an external toothing 19 and 20, both of which by an endless toothed belt 21 provided with teeth on both sides in this way are connected that the unbalance shafts 10 and 11 run in opposite directions. The external gears 19 and 20 are attached directly to the circumference of the unbalance shafts 10 and 11. The external gears can also be formed by their own gear wheels attached to shafts 10 and 11 be. But there is also the possibility of making the imbalance weights circular and to attach the external toothing to the circumference of the imbalance weights, so that the toothed belt runs around the imbalance weights themselves, as can be seen in FIG.

In the circumferential area of an external toothing, preferably that of the engine 17 directly driven external toothing 19 are two tensioning rollers 22 and 23 arranged. To reverse the direction of rotation, the double toothed belt 21 runs around the outside of the tensioning roller 23, then on the inside around the adjacent external toothing 19, then on the outside around the other tensioning roller 22 and from there outside around the external toothing 20 of the other unbalanced shaft 11. At least one of the two tensioning rollers, both tensioning rollers 22 and 23 according to FIG. 1, are open a rotatable eccentric shaft 24 and 25, respectively. By the Rotation of at least one of the eccentric shafts, the toothed belt 21 can be tensioned. In addition, by adjusting at least one of the tensioning rollers 22 and 23, the force vector the mechanics are set to cynchronous position during assembly and then varied will. This means that it is easy to change the throwing angle on a screening machine, for example possible within certain limits.

In Figure 3, the eccentric shaft 25 is shown with the tensioning roller 23, which has an external toothing 26 suitable for the double toothed belt 21. That The toothed belt runs off the roller 23 and also from the external toothing 19 and 20 is avoided by small rims 27 and 28 on the toothed edge. Both unbalance shafts 10 and 11, as well as both eccentric shafts 24 and 25 are in a common housing 29 stored, which according to Figure 1 on a support, e.g. the cross member 30 of a vibrating screen or a vibratory conveyor is attached. The two of the housing 29 are shown in FIG Side walls 31 and 32 can be seen in which the eccentric shaft 25 is rotatably mounted is. For this purpose, the shaft 25 has a disk-shaped extension 33 with an arcuate one Longitudinal slot 34 through which a screw 35 is screwed into the side wall 32 is. In this way, the eccentric shaft 25 with the tensioning roller 23 is within one infinitely adjustable to a certain angle range.

A double balancing unit that is not quite so compact compared to FIG. 1 is shown Figure 2. In this solution, only one tension roller 36 is required. The double timing belt 21 a runs on the outside around the one external toothing 19 a then on the inside around the external toothing 20 a of the other unbalance shaft, then outside around the adjacent tension roller 36 and he is returned from there to the first-mentioned external toothing. Even with this solution the two imbalances run synchronously in opposite directions.

Patent claims

Claims (6)

Patent claim device for synchronizing two opposing directions running unbalance drives, especially for synchronizing a double balancing unit with two parallel, each provided with at least one imbalance weight Shafts, one of which is driven directly by a motor, d a d u r c h g e k e n n n z e i c h -n e t that both unbalance shafts (10, 11) each have an external toothing (19, 20 or 19 a, 20 a), both of which have an endless, with Toothed belts provided with teeth (21 or 21 a) are connected to one another in such a way that the imbalance shafts (10, 11) run in opposite directions. 2. Apparatus according to claim 1, characterized in that the external toothings (19,20) directly on the imbalance shafts (10,11) or on the circumference of the imbalance weights are or are formed by gears attached to the shafts. 3. Device according to claims 1 and 2, characterized in that that in the circumferential area of an external toothing, preferably the directly driven External toothing (19), two tensioning rollers (22,23) are arranged, and that the toothed belt (21) on the outside around one tensioning roller (23), then on the inside around the adjacent one External toothing (19), then around the outside of the other tensioning roller (22) and then around the outside the external toothing (20) of the other unbalanced shaft (11) runs. 4. Apparatus according to claim 3, characterized in that at least one of the two tension rollers (22,23) on a rotatable eccentric shaft (24,25) is stored. 5. Device according to claims 1 and 2, characterized in that that a tensioning roller (36) is arranged in the circumferential region of an external toothing (20 a) is and that the toothed belt (21 a) outside around the one external toothing (19 a) then inside around the external toothing (20 a) of the other unbalance shaft, then around the outside of the adjacent one The tension roller (36) runs and from there it is returned to the first-mentioned external toothing is. 6. Device according to claims 1 to 5, characterized in that that both unbalance shafts (10,11) and the tensioning roller shaft or the tensioning roller shafts (24,25) are stored in a common housing (29). Blank page