DE909782C - Arrangement for resilient connection of two bodies - Google Patents

Description

Arrangement for the resilient connection of two bodies is the subject of the invention is a particularly simple and advantageous arrangement for resilient connection two bodies, in particular for oscillating arrangements with preferably circular Oscillating motion can be used. The arrangement according to the invention exists in an annular spring body, which on at least two, preferably three Place its circumference on one body and in the spaces between these places attached to the other body.

The advantages of the invention as well as further details thereof will be given explained on the basis of some exemplary embodiments shown in the drawing.

In Fig. I an annular spring body i is made of steel, for example shown, which for the resilient connection of a body to be oscillated 2 is used with the foundation. According to the invention, the spring body i is in three places its scope by means of the fastening devices 3, 4 and 5 on the foundation and in the interstices by means of the fastening devices 6, 7 and 8 on the swingable to be stored body 2 attached. By such an arrangement, the body 2 is in the plane of the drawing held evenly resilient on all sides. Also enables the suspension even a swinging out of the oscillating body 2 in the plane of the drawing perpendicular direction, especially if the spring body has a circular cross-section.

While in the arrangement shown in Fig. I, one of the two together The body to be connected resiliently, namely the foundation, is fixed is, the arrangement according to the invention can also be used in such oscillating arrangements in which both bodies are mounted so that they can swing. An embodiment this is shown in Fig. 2, in which an electromagnetically driven vibrating mill is shown in longitudinal section. The electromagnetic vibratory drive consists of in a manner known per se from a magnet system with three arranged in a star shape Magnetic poles which concentrically surround a common armature mass I0. The on The excitation windings located on the legs of the magnetic poles are to be connected to determines the three phases of a three-phase network. This vibratory drive is in the in the manner shown in Fig. I by means of an annular spring I in an annular foundation frame II so resiliently attached that it is in the ring plane of the foundation frame on all sides can swing evenly. Of those with the reference numerals 3 to 8 in FIG The fastening devices provided for the spring washer are the fastening devices in FIG. 2 3 and 7 can be seen.

There is a cup-shaped holding device on both sides of the anchor mass I0 I2 or I2 'arranged and rigidly connected to the anchor mass I0. These holding devices each hold a grinding container 13 or I3 ', which with the holding devices by means of not shown in the drawing clamping devices are firmly connected.

For the resilient connection of the parts attached to the anchor mass I0 I2 and I3 on the one hand or I2 'and I3' on the other hand are now again one according to Fig. I designed spring arrangement provided according to the invention. The spring body of these arrangements. are labeled I00 and I00 '. From the fastening devices these two annular spring bodies are the fastening devices in the section in FIG. 2 30 and 30 'to see; which the spring body with the arms 14 and 14 'and thus firmly connect with the magnetic iron 9, and the fastening devices 70 resp. 70 ', which the spring body with the holding devices I2 or I2' and thus with firmly connect the anchor mass I0. The grinding containers I3 and I3 'are thus together with their Holding devices and the anchor mass by means of the spring washers I00 and I00 'in its axis of the vertical plane is evenly resilient on all sides with your magnetic frame connected, and the magnet frame is by means of the spring ring I in the same way resiliently attached to the foundation. By the arrangement according to the invention So a perfectly uniform suspension of both the grinding container compared to the Magnet system as well as the entire arrangement in relation to the foundation in all directions of vibration achieved, as well as a very good and simple centering option.

The invention is not limited to the exemplary embodiments described bound, but can be modified in many ways. So can take place two or three attachment points each between the spring body and each of the resilient body to be connected to one another also provided more than three attachment points will. The attachment points are usually, as shown in Fig. I, distributed at equal distances from one another on the circumference of the spring body. Man but can also arrange the attachment points at unequal distances and thereby obtained an elliptical movement instead of a circular oscillating movement, whereby through appropriate distribution of the unequal distances the position of the longitudinal axis of the Ellipse can be set as required.

The resilient arrangement according to the invention also allows a simple Way a change in the spring constant. For example, means can be used for this purpose which allow a stiffening of the spring body in places, or also Means for changing the curvature of the spring body in places. Working examples for this purpose are shown in FIGS. 3 to 5.

In Fig. 3, a socket piece I5 is attached to the spring body, which has a certain length on all sides or at least on its interior and enclosing the outside. This frame piece stiffens the part it encompasses of the spring body so that it cannot flex resiliently. The frame piece can be set up interchangeably, so that it is different from other socket pieces Length can be exchanged. This allows the spring constant as required can be set to different values. The socket piece can either be at the same time be provided as one of the fastening devices 3 to 8 shown in FIG. but it can also be attached with advantage between two of the fastening devices will. In the latter case, the spring constant can be further changed by that the socket is moved after loosening the locking screw on the spring body and at a greater or lesser distance from one of the fastening devices of the spring body is clamped.

4 also shows a device for changing the spring constant by stiffening the spring body in places. To this end, both sides are of the spring body I jaws I5 and 16 arranged, but in this case below Interposition of rubber pads I7 and 18. The clamping jaws can by means of Screws are tightened to a greater or lesser extent, so that also the rubber liners be pressed more or less hard. the more the rubber liners are pressed the more rigid they become and the more they prevent the Spring body. In the borderline case, i.e. with very strong compression of the rubber intermediate layers, the arrangement acts similarly to the arrangement shown in FIG. 3 as perfect rigid socket.

A means of changing the spring rate by changing it in places the curvature of the spring body is shown in FIGS. 5a and 5b in side view and section shown. The spring body is here between two clamping jaws I9 and 20 clamped. However, in contrast to the ones shown in Fig. 3 and 4 do not indicate the shape of the spring body, but have a straight one Shape or at least a larger one deviating from the curvature of the spring body or minor curvature. This ensures that when tightening the clamping jaws the curvature of the spring body is changed at the clamping point, which also a change in the spring constant is possible. This device can either identical to the fastening devices denoted by 3 to 8 in FIG or be arranged between each two of the fastening devices.

It should also be mentioned that the annular spring body in the arrangement according to the invention can have any cross-section as required. He can have a round or angular cross-section. Also the fabric of the spring body can be anything. Instead of steel, rubber can also be used, for example. If necessary, two or more spring washers can be used instead of a single spring washer be arranged parallel to each other. Finally, the spring ring can be used in the arrangement be used according to the invention under a bias, for example its fastening devices 3 to 5 shown in FIG to 8 on the other hand are arranged on two concentric circles.

Claims (1)

PATENT CLAIMS: i. Arrangement for resilient connection of two bodies, in particular for oscillating arrangements with preferably circular oscillating movement, characterized by an annular spring body which is attached to at least two, preferably three points of its circumference on one body and in the spaces between these points on the other body. a. Arrangement according to claim i, characterized in that the mutual spacing of the fastening points of the spring ring can be set differently from one another. 3. Arrangement according to claim i, characterized in that means for changing the spring constant are provided, for example means for stiffening the spring body in places or means for changing its curvature in places. q .. Arrangement according to claim i, characterized in that the spring body is under a bias in its rest position.