DE1830621U - FLOOR FLOOR WITH MAGNETIC EXCITATION. - Google Patents

Description

Vibrating floor with magnetic excitation.

The invention relates to magnetically excited useful oscillating devices and aims to match the shape and direction of the vibrations to the respective purpose to adapt such devices and to set them to optimum values during operation. It is based on the idea that two under different spelled on one ground point Acting sinusoidal oscillations depending on the amplitude, frequency and phase position straight, cause circular, elliptical or intertwined oscillations of the mass point. Different oscillation figures can be generated, if only the amplitudes the individual oscillations and / or their phase relationship to one another can be changed.

Figures 1-3 of the drawing show some oscillation figures as they result from two mutually perpendicular individual oscillations acting on the same mass point. With the same amplitude, frequency and phase position, the resultant is a straight-line oscillation, the direction of which forms an angle of 450 with the directions of the individual oscillations, as shown in Fig. 1. By simply changing the amplitudes, straight vibrations can be generated that can have any direction within an angle of 900. Individual oscillations standing vertically on top of one another result in a circle with the same frequency, the same amplitude and a phase shift of 900, as shown in Fig. 2. Due to amplitude changes Various elliptical oscillation figures can be created Create shape. Frequency changes lead to intertwined oscillation characters. Figure 3 shows such an oscillation figure that results when the frequencies and amplitudes of the individual oscillations are in a ratio of 1: 2.

The invention is therefore characterized in that at least 2 magnets which are variable in terms of their amplitude and / or phase position or pairs of magnets at different angles on the oscillating floor works. Further advantages result if one of the two is added Oscillation sequences can be changed. The setting options are so many that, in contrast to the previously known constructions for processing granular and floury goods, the vibrating floor can be used almost universally, for example for conveying, sieving, thickening, mixing, granulating, compacting and the like.

The object of the invention is shown in the drawing in 3 embodiments shown. Fig. 4 shows a vibrating floor for conveying goods in a longitudinal section, whose conveyor trough 1 is excited by two magnets 2 and 3 offset by 90 will. The vibrating floor 1 is by means of springs 4, preferably rubber springs, with the Base frame 5 is connected and is fed from the silo 6. The magnets come with operated with the same frequency and phase position in order to obtain the straight line suitable for conveying Vibration according to Fig. 1 to achieve the channel. while the delivery rate by the Change in amplitudes can be regulated.

In Fig. 5, a vibrating floor is shown as a round sieve in plan view. The sieve bottom 7 is excited in the horizontal plane by two magnets 8 and 9 arranged perpendicular to one another. The springs are denoted by 10 and the base frame by 11. The sieve bottom should perform a circular movement as shown in Fig. 2, which is achieved with individual oscillations of the same frequency, the same amplitude and a phase shift of 90. Fig. 6 shows a vibrating floor as a vibrating table for compacting Goods for a continuous filling station, consisting of the vibrating plate 12, the magnets 13 and 14, the springs 15 and the base frame 16. For compression, the vertical vibration component should dominate, while the horizontal one causes the filling container 17 to slowly migrate onto the subsequent roller conveyor.

Compaction time and conveying speed can, as described, be coordinated as far as possible. The invention is not based on the three Embodiments limited.

So z. B. a trained as a container vibrating floor when he is excited according to Fig. 3, can be used for mixing substances. Further In the case of the cylinder mold according to Fig. 5, another magnet can be placed above or below the Be attached to the sieve bottom, which carries out vibrations perpendicular to the sieve cloth. With such a combination of exciters, three-dimensional oscillation structures can then be created be generated.

Claims (4)

Protection claims 1. Vibrating floor with magnetic excitation for use as a sieve or mixer, characterized by at least two in terms of their amplitude variable and with respect to their phase shifted at least approximately by 900 and magnets acting on the sprung floor under different angles. 2. oscillating floor according to claim 1, characterized in that the Oscillation frequency of at least one magnet is variable. 3. oscillating floor according to claim 1 or 2, characterized in that another magnet is provided for three-dimensional vibration generation. 4. oscillating floor according to claim 1 to 3, characterized in that Magnet pairs can be used instead of individual magnets.