DE2005442A1 - Vibrating screen, vibratory conveyor or similar - Google Patents

Description

"Vibrating screen, vibratory conveyor or the like" The invention relates to a vibrating screen, a vibrating conveyor or the like. It comes from a machine consisting of an elliptical oscillation with an axis ratio of 1: 2 to 1: 4 executing sieve or conveyor box as working mass and one essentially from a rotating unbalanced shaft including its housing existing vibration exciter exists as a counter mass, the vibration exciter in the direction of the resonance effect resulting major axis of the oscillation ellipse via elastic coupling springs and in the direction of the minor axis of the oscillation ellipse rigidly on the handlebars with the sieve or Förderkasen is connected.

An elliptical vibrating sieve with two tuned in Resonaiiz against each other oscillating masses (working mass and counter mass) is known. However, this is the counterweight, on which a rotating unbalanced shaft is arranged, is much heavier designed as the working mass (PS 975 330) Execute vibration amplitudes that are inversely proportional to their size, only the working mass carries out larger amplitudes, while the counter mass has smaller ones Makes rashes.

With these machines, coupling spring packages that are only for a relatively small form change work must be designed and therefore not build too big. The problem with these machines, however, is the heavy sieve box in its center encompassing frame, which causes high material costs and access difficult to reach the sieve box.

It has therefore already been proposed as a counterweight only provide the rotating unbalance shaft and its housing. (DAS 1 111 435) The one with it The advantages achieved are obvious, but then it must be taken into account that, as already stated, a small counter mass has relatively large oscillation amplitudes does what big, from the Koppelfe according to increasing deformation work and leads to / large coupling spring packages.

The invention is accordingly based on the object To train machines so that on the one hand there is access to the sieve or. Conveyor box aggravating frame as countermass is avoided and on the other hand still relatively small coupling spring packages are sufficient.

To solve this problem it is proposed according to the invention that the Mass of the vibrator add an additional mass, so that the weight of the total counterweight 1/3 to 2/3 of the weight of the working weight (sieve or conveyor box) is still the coupling springs to be dimensioned so that on one Point of the resonance curve is worked far before the mass resonance, at which the Component of the inertial force of the counter mass lying in the direction of the major axis of the ellipse essentially simultaneously with the component acting in the same direction the centrifugal force of the unbalance shaft passes through a maximum.

This ensures that in the direction of the major axis of the Oscillation ellipse the centrifugal force of the unbalanced shaft to the inertia force of the countermass added, so that this itself can be made relatively small and access to the sieve or conveyor box does not interfere. Since the vibrations of the working mass in The direction of the coarse axis of the oscillation ellipse is not only due to the inertia force the counter-wet, but also by the not inconsiderable centrifugal force of the unbalance shaft are compensated, there are relatively small deflections of the Ge, oenmasse and thus also short deformation times to be absorbed by the coupling springs, so that relatively small coupling spring packages are sufficient.

Further features of the invention and the advantages achieved thereby result from the following description of a purely schematic in the drawing illustrated embodiment of the subject matter s.

With 1 of the sieve or conveyor box is referred to, the elastic Members 2 rests on the foundation 3 in a vibration-isolated manner. He is through one in one Housing arranged unbalance shaft 4 in elliptical oscillations to the around an additional counter mass 5 is arranged. At the additional counter mass 5 attack the coupling springs 6 and the link 7, which in turn on the sieve or; Conveyor box 1 are attached. In the direction of the link 7 unbalance shaft 4,> lead additional Counter mass 5 and the sieve or conveyor box 1 under the action of circumferential Unbalance common vibrations, which are the minor axis of the oscillation ellipse form. The sieve or conveyor box 1 and counterweight swing in the direction of the coupling springs (Unbalance shaft 4, additional counterweight 5) against each other. The amplitude of the sieve or conveyor box 1 in this direction represents the major axis of the oscillation ellipse represent.

The weight of the unbalance shaft including its housing is For structural reasons, around 20% of the weight of the sieve or conveyor box.

Is on the housing of the unbalance shaft z. B. an additional counter mass of 30% of the sieve box weight, then the entire counterweight is reached about half the weight of the sieve or conveyor box. Should in such an arrangement the sieve box z. B. an oscillation ellipse with an axis ratio of 1: 3, then the coupling springs are dampened for this type of machine to be interpreted in such a way that the operating speed is only about 80% of the system's resonance speed achieved. At this working point of the resonance curve, the direction adds up the major axis of the ellipse component of the inertial force of the countermass to the component of the centrifugal force of the unbalance shaft pointing in the same direction, with both because of the further distance between the working point and the mass resonance im essentially run through a maximum at the same time. The countermass then does, though it is only half as large as the working mass ISt: no greater amplitude than this. In other words: in the direction of the major axis of the oscillation ellipse is then the sum of the inertia force of the counter mass and the centrifugal force of the unbalance shaft just as large as the inertia force of the working mass (sieve or conveyor box). Because of the support of the centrifugal force of the unbalance shaft, the counter mass leads so only relatively small vibrations, in the present case just as large as the Working mass, au s.

In the case of an axis x (total ratio of the oscillation ellipse of 1: 2 or 1: 4 would have to operate (Jrehzaiil even further away from or näller all of them Resonance speed of the system. The amplitudes of the countermass are elliptical in this case smaller or slightly larger than the amplitude of the sieve or conveyor box. similar Changes in the amplitudes of the counter mass occur when the entire counter mass 2/3 or only 1/3 of the working mass.

In no case do such large amplitudes occur at the counter mass on how it is based on the relationship from the size of the countermass would be expected.

In practice it has been shown that the most favorable operations for Vibrating screens or vibrating conveyors in the case of a vibration ellipse with an axis ratio of about 1: 3 and a weight of the total countermass of about 50% of the working mass can be obtained.

Claims (1)

Claim: Vibrating screen, vibratory conveyor or the like consisting of an elliptical vibration with an axis ratio of 1: 2 to 1: 4 executing sieve or conveyor boxes as a working mass and one consisting essentially of a rotating unbalance shaft including their housing existing vibration exciter as a counter mass, the vibration exciter in the direction of the major axis of the oscillation ellipse, which is produced by the effect of resonance Via elastic coupling springs and in the direction of the minor axis of the oscillation ellipse rigidly connected to the sieve or conveyor box via a link ISt: characterized by: that the mass of the vibration exciter an additional mass is added, so that the weight of the total counter mass 1/3 to 2/3 of the weight of the working mass (Sieve resp. Conveyor box), the coupling springs are still dimensioned as follows: that at one point on the resonance curve work is being carried out far before the mass resonance, on which the component of the inertia force lying in the direction of the major axis of the ellipse the countermass essentially simultaneously with that acting in the same direction n component of the centrifugal force of the unbalance shaft passes through a maximum.