SU1748883A2 - Vibration exciter - Google Patents

Abstract

The invention relates to mechanical engineering, in particular, to vibration technology, and can be used in vibration mechanisms and devices of industrial and civil engineering, as well as to intensify various technological processes based on the use of vibration methods. The purpose of the invention is to increase the efficiency of the vibration exciter by expanding the forces and moment vector. The vibration exciter consists of two or more parallel unbalance shafts 1 and 2 installed in bearing supports 3. Synchronizing gears 4 are fixed on shafts 1 and 2. The balance 5, 6 of each shaft is made as parts of a circular ring and placed in the ring grooves of synchronizing gears 4 on both sides. Balances 5 and 6 are set by ring elements 7, on which guide rails 8 are made. Let us take unbalances 5 fixed on synchronizing gears 4 fixedly, by means of device 9, opposite to each other Debalans 6 can move along guide rails of 8 ring elements 7. Mutual orientation of unbalances 5 and 6 of one shaft and mutual orientation of hebalances 5 and b of two adjacent unbalanced shafts 1 and 2 can be changed by fixing parts of unbalances 6 on synchronizing bars (L C x o i - and stern x 4 using clamps 10. 2 ill. AA V4 4 00 00 00 GJ th

Description

The invention relates to mechanical engineering, in particular to vibration technology, and can be used in vibration mechanisms and devices of industrial and civil construction, as well as for intensifying various technological processes based on the use of vibration methods,

The aim of the invention is to increase the efficiency of the vibration exciter by expanding the control ranges of the forces and the moment vector.

FIG. T shows a device for loosening frozen and compacted materials, general view; in fig. 2 shows section A-A in FIG. one,

The vibration exciter consists of two or several parallel unbalance shafts 1 and 2 installed in bearing supports 3. Synchronizing gears 4 are fixed on shafts 1 and 2. Balances 5 and b of each shaft are made as parts of a circular ring and placed in ring grooves of synchronizing gears 4 s both sides. The balances 5 and b are installed by means of ring elements 7, on which the guides 8 are made. Moreover, the unbalances 5 are fixed on the synchronizing gears x 4 by means of the device 9, opposite one another. Balances b have the ability to move along the guides of 8 ring elements 7. The mutual orientation of unbalances 5 and b of one shaft and the mutual orientation of unbalances 5 and 6 of two adjacent unbalance shafts 1 and 2 can be changed by fixing parts of unbalances b on synchronizing shells n 4 with clamps 10.

Vibro works as follows.

A drive motor (not shown) rotates one of the unbalance shafts 1 or 2. At the same time, the second shaft rotates by engaging synchronizing gears 4. Equipped on gears 4, unbalances 5 and 6 generate a driving force, the magnitude and direction of which depend on their mutual orientation.

A change in the phase shift of the parts of the unbalance of adjacent shafts and one shaft is achieved without complete disassembly of the vibration exciter by simply moving them in the ring grooves of the synchronizing gears with subsequent fixation by means of, for example, a ball retainer.

Claims (1)

Invention Formula Vibroactivator by aut. St. N 1671361, characterized in that, in order to increase efficiency, at the second end of each synchronization gear, the main additional annular groove is made, and the exciter is equipped with identical basic additional unbalances, one in each main ring groove, and the other two in each an additional annular groove, and in each annular groove, one of the unbalances is fixed opposite to the unbalance of the other groove