DE633781C - Device for shaking machine parts, e.g. B. wire sections of paper machines - Google Patents

Description

Device for shaking machine parts, e.g. B: wire sections of Paper machines The invention relates to a device for shaking Machine parts, e.g. B. wire sections of paper machines, especially for fast Shaking with the flywheel suspended or supported by leaf springs and the vibration impulse by rotating at different, controllable speed, eccentric masses attached to it is generated and aims at a reduction in size the shaking device and good controllability of the vibration processes.

If one excites an oscillation system shown in Fig. I, for example, which consists of a mass a and a spring constant c, by an external periodic Impulse, e.g. B. by rapidly rotating eccentric masses b, to vibrations, so the amplitude of these oscillations becomes larger, the larger the impulse is and the closer the natural frequency of the system to the frequency of excitation lies. If the spring constant = o, .also z. B. with infinitely long pendulum suspension the mass, the deflection of the mass corresponds exactly to that exerted on it Impulse independent of the number of shakes.

Is z. B. the freely vibrating mass by one mounted on it rapidly rotating eccentric mass b is set in motion, then behave if c = o, the paths of the masses are reversed to those of the masses themselves (see teaching, vibration engineering, P. 6o ff.). However, if the suspension or support has a certain inherent rigidity, If c is greater than o, the deflection is strongly dependent on one and the same momentum on the number of shakes, the closer the forced number of shakes, the greater it is lies at the natural frequency, and in the case of resonance, these finally decrease Rashes are then extraordinarily high for practical operation because of their inadequate Adjustability in any case no longer admissible values. In Fig. Z are the The deflections of the mass at a certain momentum are shown as a function of the number of shakes, namely, the straight line i shows the stroke dependency on the speed at c = o, the curve a with resonance in the high speeds and curve 3 with in the low ones Rotational speeds horizontal resonance.

Up to now, the aim was to reduce the natural frequency of the system higher than the highest number of shakes occurring in operation. to lay, whereby although the dangerous resonance range has been completely avoided, on the other hand, however even with one and the same excitement with higher shaking numbers because of the greater ones Close to resonance a greater stroke was achieved than with smaller ones. This is the opposite of what is generally desired, namely with increasing number of shakes Reduction of the stroke and vice versa.

There are already vibration generators for above the critical ones Frequency working devices become known in which the flywheel within a Drive pulley loose on the inside of the pulley and circulates in this on rollers or the like. The generation of vibrations begins at this device only at higher circulation speeds. It thus serves We do this in order to get over the range of critical vibrations as quickly as possible.

There are also vibration arrangements, especially those with high Shake numbers, which have become known, which, due to the peculiarity of their arrangement, Allow elliptical or the like oscillating movement that can be adjusted as required. Such vibrating arrangements generally serve as vibrating screens for minerals and other substances.

Such an oscillation course is for the shaking of wire sections -not applicable to paper machines, because those suspended from leaf springs or supported centrifugal masses, which revolve their oscillation impulse through, at her Eccentric masses that are supported cannot be anything other than moving back and forth Execute movement, as the leaf springs only allow this.

According to the invention, the spring support or suspension is coordinated so that that the natural frequency of the system is lower than the lowest in continuous operation occurring number of shakes, then still suitable means, such as solid or adjustable stops are provided which, for. ß. at the inevitable passage Due to the resonance in the start-up period, the briefly occurring large swings Restrict it to a still permissible level. These attacks therefore do not seem like continuously damping in known Schiittelvorrichtungen ,. where z. B. Buffer or baffles, the shaking movements caused by centrifugal masses for the entire duration of operation as a device for determining the stroke size influence, but through the attacks according to the invention it is achieved that especially with the small numbers of shakes, for which a large 'stroke is desirable is, this, large stroke as a result of the favorable approach of the spring work with a relatively small impulse: is achieved, while with "large shaking numbers anyway only small> in @ re strokes and thus also smaller impulses are required. So you can get by with much smaller excitation machines and reduce in addition, the high stresses that could possibly occur if once through careless operation with high shaking numbers also full excitement would be put in.

By making the buffers or changes more or less rigid of the free space between the buffers, it is then also possible to determine the waveform of the whole system to a large extent to adapt to the individual needs.

Claims (1)

PATENT CLAIM: Device for shaking machine parts, e.g. B. wire sections of paper machines, especially for fast shaking, in the the flywheel is suspended or supported by leaf springs and the oscillation pulse through eccentric ones that rotate at different, controllable speeds and are mounted on them Masses is generated, characterized in that the spring support (suspension) is matched so that the natural frequency of the freely oscillating system so far below the lowest intended number of operating shakes that harmful Resonance phenomena do not occur, but on the other hand so close that at the small number of shakes the spring work effective in the vicinity of the resonance zone supports the shaking movements, and that fixed or adjustable stops are provided that keep the stroke in the resonance zone and in its vicinity within permissible limits.