DE914793C - Oscillating arrangement with preferably circular oscillating movement - Google Patents

Description

The subject of patent 909782 is a Oscillating arrangement with preferably circular oscillating motion, in which as a resilient connecting member two oscillating bodies that oscillate against each other, one ring-shaped Spring body provided in this way! is that he is in at least two, preferably three places its circumference with a vibrating body and at points in between with the other vibrating body is connected.

According to the invention, this oscillating arrangement can be improved in that the connection of the spring body with at least one of the two oscillating bodies arranged radially in this way Spring bars are provided that one end of each spring bar on the spring body and the other end is attached to the vibrating body.

The advantages of the invention will be on hand some of the exemplary embodiments shown in the drawing are explained,

In Fig. Ι two vibrating bodies are through the Armature mass 1 and the magnetic mass 2 of an electromagnetic vibration generator are shown. As shown in section in FIG. 2, the two oscillating bodies are arranged concentrically to one another and perform circular oscillating movements that are offset from one another by 180 ° are. So that they are resiliently opposed to each other in the drawing plane in all directions.

can move each other in such a way that the restoring force is the same in all positions or at least approximately the same, they are according to the main patent in the following manner resiliently connected to one another by an annular spring body 3: at the three points 4, 5 and 6, the spring body is firmly connected to the oscillating body 2 by, like FIG. 2 shows, between the arms 7 and the clamping pieces 8 is clamped, while he is at the three intermediate positions, 10 and 11 with the Vibrating body 1 is firmly connected. According to the invention, however, the spring body is at the points 9 up to 11 with the oscillating body 1 not directly, but with the interposition of a spring bar 12, for example made of steel, connected, The Spring bars are arranged radially and so> formed, that they can bend in the plane of the drawing.

The operation of the spring bars is as follows: If z. B. the vibrating body 1 upwards, so is the spring bar 12 located at point 9 to be regarded as stiff, while the annular spring body between the clamping points 4 and 5 can bend upwards. If, on the other hand, the vibrating body 1 moves horizontally to the right, then> is now the spring ring piece between the points 4 and 5 almost stiff, on the other hand, the Place 9 located spring bar 12, its lower. Turn right to the clamping point. So it's a Particularly well-balanced possibility of movement of the oscillating body in two vertically placed one on top of the other Directions, and thus also in all other directions, possible, with the spring ring piece between the posts. 4 and 5 the spring work in the vertical direction of movement and the Spring bar 12 at point 9 essentially the spring work in the horizontal direction of movement takes over.

The same process takes place at all clamping points 4 to 6 and 9 to 11, so that the oscillating body 1 and also the oscillating body 2 can move in all directions of the plane of the drawing in the opposite direction. By appropriate choice of the dimensions of the annular spring body and the spring bars, it can be achieved that the restoring force is the same or at least approximately the same in both perpendicular directions. A change in the restoring force of the spring system, consisting of the spring ring and the spring bars, can be achieved in a simple manner by replacing the spring bars with correspondingly stronger or weaker ones. With the one shown in the drawing. In the exemplary embodiment, such a replacement of the spring bars is simple, since they are only clamped in by screwing. If the restoring force of the spring system is to be increased, for example, then correspondingly thicker spring bars are to be used or, as shown in FIG. 3, several bar leaves are to be laid parallel to one another. So that at the same time the spring ring becomes stiffer in the radial direction, the clamping means provided for clamping the spring ring at the clamping points 4 to 6 and 9 to 11 are expediently made interchangeable so that they can be exchanged for correspondingly wider clamping means, whereby the free resilient lengths of the spring ring between the clamping point III are shortened.

The spring body 3 is not only used to hold the two in a resilient manner. Oscillating body 1 and 2, but at the same time also for mutual centering of the two. Vibrating body. In the arrangement shown in the drawing, centering is particularly easy in that (see FIG. 2) spacer plates are inserted between the spring ring and the parts 7 and 8 holding it at the clamping points. By making these spacer plates more or less wide, the free resilient lengths of the spring ring can also be shortened or lengthened and, as explained above, the rigidity of the ring can be changed in the radial direction as required. Another possibility for a counter-displacement of the oscillating bodies in any direction, when using the spring bars according to the invention, is that the spring bars are displaced in their clamping parts in the radial direction.

In FIG. 4 All other parts is shown that the spring bars can be also used according to the invention with advantage when the annular spring body of individual bogenförmigeniFederstücken 3 ", 3 ⁶ and tf is. The arrangement in Fig. 4 are the same 1 and correspondingly with the same reference numerals. As can be seen from the drawing, one end of each arcuate spring piece is connected to one and the other end to the other vibrating body. The arrangement according to FIG. 4 is special suitable to change the effective spring length of the spring body by temporarily loosening the clamping means of the arc-shaped spring body by rotating the two oscillating bodies 1 and 2 in a circular manner and thereby making the spring constants larger or smaller as required. 1 is such a change in the spring constant by twisting the two against each other vibrating body possible, but this means is particularly effective in the arrangement according to FIG.

The arrangement according to the invention is not bound to the exemplary embodiments shown, but can be modified in many ways will. For example, the spring bars can not only be between the ring spring and the Oscillating body 1 are arranged, but instead or in addition also between the annular spring and the oscillating body 2. The arrangement according to the invention is also independent of the Type of vibration generator used; instead of electromagnetically acting vibration generators For example, electrodynamically acting vibration generators can also be used. the

Arrangement according to the invention is also not tied to the circular shape of the oscillating movement, but can also be used, for example, in the case of an elliptical form of oscillation, possibly even with rectilinear form of oscillation. The arrangement is also independent of the nature of their intended use; Vibrating mills and vibrating screens are mentioned as examples. Finally, in the case of the oscillating arrangement according to the invention, one of the two oscillating bodies can also fixed and therefore identical to the foundation mass.

Claims (2)

PATENT CLAIMS: i. Oscillating arrangement with preferably circular oscillating movement, in which as resilient connecting member of two Schwingkorper an annular spring body such according to patent 909,782 it is provided that it is in at least two, preferably three, locations its scope with the one oscillating body and connected to the other oscillating body at a point in between is, characterized in that to connect the spring body with at least one the two Schwingkorper radially arranged spring bars are provided such that one End of each spring bar on the annular spring body and the other end on is attached to the vibrating body. 2. Swing arrangement according to. Claim 1, characterized in that the spring bars are operational are interchangeable. 1 sheet of drawings 9526 6.