DE2655786A1 - Electromagnetic vibrator with small light magnet system - has two weights tuned to natural frequency connected by levers - Google Patents

Abstract

Electro-magnetic vibrator consisting of two weights coupled by a spring system and tuned to their own frequency with an exciter magnet system of two sections working together. The two weights (1, 2) are connected to each other by a lever system (6). One section of the exciter system is rigidly attached to one weight (2) with the other section (5) being connected to a link point of the lever system. The lever system consists of two symmetrically positioned levers or pair of levers (6). The vibrator forms an integrated constituent of an oscillating conveyor trough or a vibrating sieve.

Description

Electromagnetic vibrator

The invention relates to an electromagnetic vibrator, consisting of two coupled by a spring system and at a natural frequency coordinated wet with an exciter magnet system made up of two interacting parts.

Vibrators with lower vibration frequencies than they normally would line frequency used after half-wave rectification, bring especially as a drive for vibration conveyor devices have some advantages over those with higher frequencies work. Some of these advantages are: lower volume, higher possible conveyor speeds, less stiffening on the vibrating devices, better conveying effect with certain Materials up to the exclusive funding option for certain substances.

When designing these magnetic vibrators, which operate at lower frequencies However, there is a difficulty. They must have larger oscillation amplitudes, to produce the desired effects. For example, a 25 Hz vibrator must produce a double amplitude to an equal vibration speed and one four times the amplitude to achieve the same acceleration as a 50 Hz vibrator.

This larger amplitude or oscillation width requires a large one Air gap between electromagnet and armature, which significantly reduces the tensile force, However, the reactive power autnahae increases significantly. Admittedly, through larger ones Free mass weight and progressively acting work springs the string amplitude (of free dimension and working yoke) and thus the air gap can be reduced somewhat. However, these measures bring only small improvements.

The object of the present invention is now to specify a vibrator, the large vibration amplitude and vibration speed of the 25th, for example Hz drive brings, however, with a small air gap, therefore a lot has a smaller and lighter magnet system and requires considerably less reactive power.

This object is achieved according to the invention in that the two Masses are connected to one another by a lever system and that part of the exciter magnet system rigid with one mass, the other part at a fractional point of the lever system is attached.

The mode of operation and exemplary embodiments are illustrated on the basis of the accompanying drawings the invention explained.

Fig. 1 explains the basic principle of the invention. Magnetic vibrators are vibratory, i.e. to a pronounced resonance in the vicinity of the excitation frequency Matched two-mass systems, consisting of oscillating masses 1 and 2 coupled by working springs 3. While the magnet system, consisting of electromagnet 4 and Armature 5, which excites the vibration system to vibrate, usually on the respective Masses is rigidly attached, is part of the magnet system according to the invention - preferably the anchor - attached approximately in the middle of a movable lever 6, which is rotatably attached to the two oscillating masses at its end points. As a result, the air gap 8 can be reduced to about half. Though is in an arrangement according to the invention, a higher when attaching a Part of the magnet system at the center has twice the pulling force needed to do the same To generate oscillation range as with the conventional arrangement. The pull of a Magnet system, however, grows disproportionately, i.e. roughly quadratically with smaller becoming air gap. The arrangement according to the invention has the advantage that at same vibration power, smaller, cheaper magnet systems with lower energy consumption can be used and, due to the smaller air gap, the reactive power consumption gets smaller.

Fig. 2 shows an embodiment of a magnetic vibrator with coil springs. The levers 6 are fastened here via joints or articulated levers 7. One execution 3 shows the lever attachment via leaf spring assemblies 17 instead of joints.

These leaf spring assemblies 17 could with a suitable dimensioning and arrangement Apply at least part of the restoring force of the oscillating system.

How an arrangement according to the invention is integrated on a conveyor trough 4 shows. On the base plate 2 is part 4 of the exciter magnet system, generally the wrapped part, fastened by inclined trailing arm springs 10, the conveyor trough acting as a vibrating mass 1 is held above the base plate. With an oscillation direction approximately perpendicular to the trailing arm springs is with the corresponding Air gap 8 with respect to the magnetic part 4, the second part 5 of the magnet system, in generally the anchor, by means of two crossing symmetrically to the direction of oscillation inclined lever 6 arranged so that the swing stroke of the channel 1 relative to the stroke of the magnet system is increased in relation to the leverage.

It is of course also possible to use the present invention principle also on other constructions of magnetic vibrators with rubber springs, disc springs, Torsion springs etc. to be used.

- patent claims - L e r s e i t e

Claims (5)

P a t e n t a n s p r ü c h e 1. Electromagnetic vibrator, consisting of from two coupled by a spring system and tuned to a natural frequency Masses with an exciter magnet system all 7 two interacting parts, thereby characterized in that the two masses (1,2) are connected to one another by a lever system (6) are connected and that a part (4) of the excitation system rigidly with one mass (2), the other part (5) attached to a fraction point of the Liebelsystem (6) is (Fig.1). 2. Vibrator according to claim 1, characterized in that the lever system consists of two laterally symmetrically arranged levers or lever pairs (6) (Fig.2). @ - S @ 6 1 @ En 3. Vibrator according to claim 1, characterized in that that it is an integral part of a vibrating conveyor trough or vibrating screen is (Fig.4). 4. Vibrator according to claim 3, characterized in that the two Parts of the excitation system are integral parts of a conveyor trough and that two levers (6) or lever system in the to the oscillation axis of the magnet system (4,5) arranged symmetrical angular inclinations are (Fig. 4). 5. Vibrator according to one of claims @ - 4, characterized in that that each one, several or all connections on the levers via short push-pull claimed leaf spring assemblies (7) take place (Fig.5).