DE884121C - Mechanical vibration system for generating undershoots - Google Patents

Description

A large number of vibration control equipment such. B. conveyor troughs, Vibrating sieves, etc., are aün; cheapest with low excitation frequencies, for example operated in the order of magnitude of up to 10 Hz. These are relative to the elderly, amen You can get vibrations: without further ado by generating unbalance exciters, which, however, unite subject to heavy wear: are.

The wear-free referee motors, namely the electromagnetic exciter, deliver. In the generally available networks, oscillations of 100 Hz, which can be reduced to .5o Hz by connecting an upstream rectifier. Other frequency converters are technically possible, but practically uninteresting because they are too expensive for the purposes presented @g ,. as they would in, who would. A frequency division low current technology is known, a mechanical equivalent has not yet been found.

The invention has the purpose of going out of the ordinary in an economic way Mains frequency generate a much lower frequency = that for the drive is more certain Vibration equipment is desirable, worthwhile, and solves this task by exploiting it non-linear effects as they occur in the so-called wobbling vibrations. A mechanical system performs such vibrations ajus if it is constant : or has an almost constant restoring force and is outside its center of gravity is triggered by an alternating force.

In Fig. I. The restoring force R as a function of the deflection for a. linear system shown (spring dividing line), in Fig. 2, however, for a system which carries out wobbling vibrations. A prismatic body in FIG. 3, which oscillates around its edges, O, O, serve as an example of this. If an external alternating moment M of frequency f acts on this body, it is able, depending on the magnitude of the oscillation, to oscillate continuously with the frequencies f, f / 3 ... f / iz. The division factor is prescribed by the amplitude x of the oscillation, which is almost sinusoidal. 4 shows the time course of such a wobbling oscillation.

The alternating torque Ä1 can be shifted by one or more phase shifts mechanical or electro-mechanical exciters: their alternating force outside the Attacks the center of gravity S of the system. The restoring force 1Z comes then only the severity G of the body in question.

One advantage of such systems is that, within wide limits, work independently of the external damping, because changing the damping only the phase angle between the high-frequency excitation force and the high-frequency. Fast component of the vibration changes. More energy is required than the excitation force at the present frequency f / n present power and speed with in-phase can, the amplitude x changes, while the excitation frequency at the same time in another 'ratio n' is shared. One advantage is that with lowering Frequency the amplitudes of the deflection angle increase. To reduce the shock losses when touching the wobbly edges with the shelves, it is advisable to use a part the kinetic energy released in the event of an impact in elastic intermediate links record that lie under the wobbly edges.

In Firg. 5 is: a practical embodiment is shown schematically. A vibrating table 2 stands on the two. Supports 3 between two stops 4. On : one of the supports is attached to the, for example, electromagnetic excitation system 5. The center of gravity of the entire system is assumed at S. If the pathogen is 5 in Set operation, the vibrating table 2 performs around the two support edges of the Support 3 wobbling vibrations according to the explanations - to Fig: 3 and 4.

Another embodiment is shown in FIG. 6. The vibrating table 2 is in this case intended for vertical oscillations. It is mounted on springs 6 and carries the: exciting system 5. If the entire system is excited to vibrate, be like that. these upwards run almost undamped, while they run downwards are strongly attenuated by the D, mpfungseinricht11, rug 7. The damping device 7 can, as shown, consist for example of a plunger. The special execution farm this device is not the subject of the invention.

Claims (3)

PATENT CLAIMS: i. Mechanical oscillating system with at least one Degree of freedom for generating vibrations, the frequency of which is an integer fraction the frequency of the exciting system, characterized in that the exciting Alternating force outside the Sch @ yerpunkt attacks and at least one of the three Determinants of the system, mass, damping and spring constant, from the deflection and / or the vibration velocity depends. 2. Oscillating system according to claim i, characterized characterized in that the alternating force acts on a body that wobbles can perform. 3. Oscillating system according to claim i. Or 2, characterized in that that the alternating force acts on a body, its respective acting mass and / or Attenuation depends on the deflection. Attached publications: J. P. Den @H a r t, og, Mechanical Vibrations, Third Edition, 1947, pp.448 to 451; L. C r e m e r, Unitersuchtungen on energy balance and phase hage in non-linear systems ..., research vol. 12, Pages 226 to 236, 1941.