DE922496C - Oscillating arrangement with preferably circular oscillating movement - Google Patents

Description

Oscillating arrangement with preferably circular oscillating movement The invention relates to an oscillating arrangement according to an older proposal preferably circular oscillating movement, in the case of the resilient connection of two Oscillating bodies, which perform oscillating movements against one another, an annular spring body it is provided in such a way that this is at least two, preferably three places its circumference with the one oscillating body and at points in between is connected to the other vibrating body.

According to the invention, the ring-shaped spring body is designed in such a way that that it consists of individual bow-shaped spring pieces, one end of which are attached at one end and at the other end to the other oscillating body. The arrangement according to the invention has the particular advantage that the spring constant the oscillating arrangement and thus its natural frequency as well as the oscillation amplitude (Amplitude) can be largely changed in a very simple manner. One of both oscillating bodies can also be arranged in a fixed manner and thus with the foundation mass be identical.

On the basis of some of the embodiments shown in the drawing this is explained in more detail.

In Fig. I is a vibrating body I, for example a vibrating mill, shown, which is arranged so that it can oscillate relative to the foundation 2 that he perform oscillating movements in the drawing plane in all directions can. The foundation here forms the second of the two resiliently with one another connected oscillating body of the oscillating system.

The restoring force of this oscillating arrangement should be in all positions of the oscillating body i be the same or at least almost the same. For this are the two oscillating bodies according to the main patent by a full ring spring body in connected in a special way. In the present case, however, are according to the invention instead of a full ring spring body, three curved spring bodies 3a, 3b and 3c in Arranged as follows: At the three positions 4, 5 and 6 one end is one each arch-shaped spring body is connected to the oscillating body or the foundation 2, by being clamped between the clamping pieces 7 and 8, as shown in FIG. 2, and at the three intermediate positions 9, Io and II is the other end of each The spring body is firmly connected to the oscillating body I in the same or a similar manner. If the oscillating arrangement shown becomes arbitrary through a vibrator Kind, for example by an electromagnetically or an electrodynamically acting one Vibration generator, in oscillatory movements of circular shape or other, for example elliptical or rectilinear shape is offset by the arched spring body 3a to 3c, similar to a single full ring spring body, one in the plane of the drawing ensures the same resilience in all directions.

According to the further embodiment of the invention, the clamping pieces 7 are and 8, that is to say the means for fastening the spring body to the oscillating bodies, detachably formed: This is achieved in a simple manner that the clamping pieces 7 and 8 are held together by means of easily detachable screws (see. Fig. 2). This has the advantage that the two oscillating bodies are temporarily loosened the clamping means of the arcuate spring body rotated in a circle against each other can be changed, whereby the effective spring length of the spring body and thus the spring constant increases or decreases as required. Should for example to adapt the vibration conditions to any given operating conditions the spring constant of the oscillating arrangement are changed, so only need the Clamping pieces 7 and 8 released, the oscillating body I by a more or less large Angle twisted to the right or left and finally the clamping pieces 7 and 8 again to be screwed tight. Is the oscillation amplitude of the arrangement, for example Too small, the oscillating body I needs, provided that the natural frequency of the oscillating arrangement is below the exciting frequency, only to be twisted clockwise to the Get the spring body stiffer and thus the amplitude larger. Will the vibrating body I, on the other hand, rotated to the left, the spring bodies become softer and thus the spring constant and the oscillation amplitude is small.

Instead of the fastening means of the spring body at points 4 to 6 according to the invention to be detachable, the fastening means of the spring body can also be used at the points g to i i, i.e. at the connection points between the spring body and the Oscillating body I can be made detachable. If necessary, the fastening means also be solvable at all points at the same time. Even when using a non-subdivided Full ring spring body for the resilient connection of the oscillating bodies that vibrate against each other I and 2 can releasably form the fastening means of the spring body with Advantageously, they can be used by twisting the two oscillating bodies in opposite directions to achieve a change in the spring constant and thus the vibration conditions.

Fig. 3 shows a further advantageous embodiment of the invention. The corresponding parts in FIGS. I and 3 are given the same reference numerals Mistake. What is different in this arrangement is that to connect the arcuate Spring body at points 9 to II with the oscillating body I radial spring bars I2, for example made of steel, are provided. These spring bars that also when in use a full ring spring body can be provided are arranged so that they can bend in the plane of the drawing. Your job is to do one particularly well Balanced movement of the oscillating body in two vertically positioned one on top of the other To enable directions and thus also in all other directions by, for example the spring body 3a the spring work in the vertical direction of movement and the Spring bar 12 at the point 9 essentially the spring work in the horizontal Direction of movement takes over. In this embodiment of the invention, too, can the fastening means at points 4 to 6 and / or 9 to II can be released in this way be set up that by rotating the two oscillating bodies against each other with a temporary loosening of the fastening means, a change in the spring constant and thus the vibration conditions can be achieved.

The arrangement of the invention is not based on the illustrated embodiments bound, but can be modified in many ways. For example instead of the means shown in Fig. 2 for releasably securing the spring body any other detachable means can be provided at points 4 to 6. Furthermore can also with the arrangement according to FIG. i, the spring bars shown in FIG 1.2. The spring bars can also be designed differently as desired are, for example, such that instead of a single spring bar one of several parallel to each other arranged leaf springs composite spring bar provided will. The fastening means of the spring bars can also be detachable, so that in a simple manner Way a mutual displacement of the vibrating body in any radial direction for the purpose of centering the vibrating body is possible. Another means of Centering of the vibrating body exists with both subdivided and not subdivided design of the spring body in that at the releasable fastening points q. to 6 and or or 9 to i i spacer plates can be inserted as required. By More or less wide dimensioning of these spacer plates can determine the effective spring length the spring body and thus the spring constant also changed will.

Claims (2)

PATENT CLAIMS: I. Oscillating arrangement with a preferably circular Oscillating movement in which two oscillating bodies act as a resilient connecting member annular spring body is provided such that it is at least two, preferably three points of its circumference with one oscillating body and one in between Places connected to the other oscillating body, characterized in that the spring body consists of individual arcuate spring pieces, which with their one end to one and the other end to the other vibrating body are attached. 2. oscillating arrangement according to claim I, characterized by such detachable design of the means for attaching the arcuate spring pieces to at least one of its two ends that the arc length of each spring piece between its both fastening points can be changed by turning the oscillating bodies against each other is.