SU683811A2 - Biharmonic drive of vibration machine - Google Patents

Claims (1)

The invention relates to the category of inertial exciters of vibrations of vibration stands used to study technological processes and mineral processing regimes on a vibrating surface. There are known biharmonic drives of vibration machines according to auto engine No. 3775104 that include two pairs of unbalance vibrators, the unbalance shafts are located in the same plane passing through the axis of the machine's working element, symmetrically about this axis and parallel to it. A disadvantage of the known biharmonic drive is the laboriousness of adjusting it to obtain various forms of torsional vibrations. The aim of the invention is to reduce the complexity of setting up the drive in obtaining various forms of torsional vibrations. This goal is achieved by the fact that the drive is equipped with two installation-rotary faceplates, each of which is installed coaxially with the low-speed unbalance shaft and carries the high-speed unbalance shaft, and a drive wheel mounted along the axis of the working body to rotate the face plates. When turning the faceplates, the distance from the axes of the high-speed vibrators to the axis of the working body changes, but the axes of the high-speed vibrators in any position of the faceplates must remain in the same plane with the axis of the working body and be parallel to this axis and symmetrical to it. In order for the dynamic forces not to be transmitted to the gear teeth, conical stoppers are installed on the swivel faceplates. The drawing schematically shows the device. The drive includes two low-speed unbalances 1, the axes of which are parallel and are located symmetrically relative to the axis of the working body, and two faceplates 2, on which high-speed unbalances 3 are installed. High-speed and low-speed unbalances are pairwise interconnected by gear 4 in such a way that it) . 2u). The plates 2 are also equipped with gears 5, the teeth of which are engaged with the drive wheel 6 located coaxially with the working body 7 of the stand. To fix the angular position of the faceplate 2, there is a conical stopper 8 on it, and on the case 9 there are arcuate conical sockets. The drive works in the following way. From the electric motors (not shown), mounted by the working tool 7, the shafts 0 of low-speed debalances 1 are rotated, which in turn transmit gear to the high-speed unbalances 3 by means of a gear mechanism. The gears 5 and b remain unloaded during operation of the stand , as unbalanced diCamic forces are perceived by the practical stoppers 8 connecting the faceplates with the working device 7. When reconfiguring the stand to the new mode, the stoppers 8 are removed from the sockets, the drive wheel 6 is manually rotated t at the required angle and the stoppers are fixed in other slots. With 1 this plan, the 2 turns with the high-speed unbalances 3 fixed on them, but the axes of the high-speed unbalances remain in the same plane with the axis of the working body 7, and by changing the relative position of the unbalances relative to the axis of the working body, the harmonics of the phases change. Claims of invention The biharmonic drive of a vibrating machine according to the author. St. 1375104, characterized in that, in order to reduce the complexity of setting it up to obtain various forms of torsional vibrations, the drive is equipped with two mounting-swiveling faceplates, each of which is mounted coaxially to the low-speed unbalance shaft and carries the high-speed unbalance shaft, and wheel to rotate faceplates.