DE2550220B1 - Electromagnetic vibrator for conveyor - with frequency lower than mains frequency, applying symmetrical load to mains - Google Patents

Abstract

Electromagnetic vibrator for conveyor is operated by suppressing the positive half-waves of mains voltage, the time integral of the suppressed half-waves being a measure of the vibrational amplitude. The three mains phases (R, S, T) are passed via thyristors (2, 3, 4) operated by a control device (1) to an adding point (5) and from there to an input of the vibrator (6) of which the other input is connected via an overload detector (7) connected to the control device and via three diodes (8, 9, 10) to the three mains phases.

Description

is Thereby dei vibration exciters are operated with voltage pulses whose frequency is only half the line frequency is At the same flow rate is due to the lower Schwingbenach claim 1, characterized in that the 20 acceleration a machine gentler operation mögdrei mains phases (R, S, T) of a borrowed, or with the same vibration acceleration enabled control device (I) switchable thyristors (2,3,4) light the invention a higher delivery rate z. B. the one addition point (5) and from there a vibrating trough. In addition, the noise nuisance input of the vibration exciter (6), which can be fed through such a vibrating channel, is considerably lower, the other input of which is via an overflow sensor (7), which is simplified with the control device (1). Appropriately, the tax input

~ 'direction as an actuator of a control loop for the

Vibration amplitude of the vibration exciter.

The figure shows schematically an apparatus for

draws that the control device (1) as actuator 30 carrying out the method according to the invention, a control loop for the oscillation amplitude. The three network phases R, S. Γ are via the thyristors

2, 3, 4 connected together in the addition point 5, which is connected to the input of the vibration exciter 6 The thyristors 2, 3, 4 are controlled by the control device I so that at the addition point 5 a voltage pulse every two periods pending, the time integral of which is proportional to the desired oscillation amplitude of the oscillation exciter is. So it becomes the maximum oscillation amplitude

exciter controls and that at Obersciireiten an adjustable current strength of the vibration exciter voltage is no longer applied to these. 2. Device for carrying out the method

is connected, and via three diodes (8,9,10) with the three mains phases (R, S, ^ can be connected 3. Device according to claim 2, characterized in that

the vibration exciter is used.

The invention relates to a method for operating electromagnetic vibration exciters, in particular for vibratory conveyor systems where the

If a positive half-wave of a mains alternating voltage is desired, all three thyristors "are each the is cut and controls the vibration exciter, the second of the positive half-waves of the three-phase current allowing the time integral of the cut half-wave to pass through almost completely. With a decrease in The thyristor is a measure of the oscillation amplitude, as well as a desired oscillation amplitude Device for carrying out the method. 2 only part of the positive /? - half-wave

Electromagnetic vibration exciters that let the 45 through while the thyristors 3 and 4 are still operating vibrating channels, vibrating sieves, and vibrating troughs. With a further reduction in ichen etc. are used, the general oscillation amplitude is finally operated the thyristor 2 with mains frequency, whereby the Schwingfre- block completely and only the positive half-wave frequency z. B. the vibrating trough to 50 Hz or 100 Hz of the S- and Γ-phase to control the vibration exciter, because of this high vibration frequency so Thyristor would be operated; Therefore, with a high 4, a fraction of the positive half-wave of the oscillation acceleration must be worked through to pass a 7-phase. To achieve the output of the vibration-exciting delivery rate, whereby a gers 6 is via the overcurrent switch 7 and the diodes significant machine load occurs. Furthermore, 55 leads 8,9,10 again connected to the phases T. S, R. die hh Shif i hbli so that the network is loaded completely evenly. Instead of

this, it is of course also possible, the output of the vibration generator 6 via the over current detector 7 with the neutral point of the three- phase _Z to connect it, when an unbalanced load on the network can be taken into account. The control device 1 can either be set manually or operated by a program control; it is also possible to use the control device 1

the high vibration frequency leads to considerable environmental pollution due to noise pollution. Because only a network phase is required, the load on the network is also highly asymmetrical.

In contrast, it is the object of the invention to provide an economical, to develop simple and safe control of the vibration exciter, the frequency of which is considerable is lower than the line frequency.

Di Afb i

q, e possible, the control unit

This object is solved erfindungsge- in the process ^b 5 tung as an actuator of a control loop for the Schwingmäß characterized in that to use the respective second positive amplitude of the vibration exciter.

1 sheet of drawings

Claims (1)

Patent claims: 1. Method for operating electromagnetic vibration exciters, in particular for Vibratory conveyor systems in which the positive half-wave of an alternating mains voltage is cut and controls the vibration exciter, whereby the time integral of the cut half Half-waves of the three network phases are cut and added, the cutting takes place in such a way that a coherent voltage pulse arises which controls the vibration exciter and that at If an adjustable current intensity of the vibration exciter is exceeded, no more voltage is applied to it is placed. A device which is particularly suitable for carrying out the method is characterized in that waves is a measure of the oscillation amplitude, io the three network phases over from a control device characterized in that each switchable thyristor has an addition point and of second positive half-waves of the three network phases can be fed to an input of the vibration exciter there are cut and added, which are the other input via an overcurrent cutting takes place in such a way that a coherent gripper, which is connected to the control device, and the voltage pulse arises which can connect the Schwin 15 to the three mains phases via three diodes