DK150012B - - Google Patents

Description

150012

BACKGROUND OF THE INVENTION 1. Field of the Invention This invention relates to an electrical coupling to an electrostatic dust filter having a coupling for generating a DC voltage supplied to the capacitor formed by the dust filter electrodes, and to a pulse generator provided with the storage capacitor and between the storage capacitor and the electrode formed by the dust filter. coupled inductive means which supply pulses to the dust filter electrodes superimposed on the DC voltage, whereby the storage capacitor, the inductive means and the capacitor formed by the dust filter electrodes form an LC oscillation circuit.

10 When superimposing pulses on the DC voltage, it is possible to periodically increase the electrode voltage well above the breakdown voltage for such a short period of time that a spark estimate cannot be developed. This increases the efficiency of dust separation.

A coupling of the type indicated is known from German Publication No. 2,253,601. In this specification, it is proposed to utilize the feedback pulse from the filter to build the DC voltage resting on the filter electrodes over a capacitor to which a damping circuit is connected. In this way, the entire portion of the impulse energy consumed in the filter is not lost and the storage capacitor must be recharged for each pulse from the external power supply. Since the part of the impulse energy consumed in the filter is only a small percentage, e.g.

10%, of the total energy, the loss in the attenuation circuit at the high pulse voltage and high pulse frequency needed to achieve a truly significant improvement in the efficiency of the filter will be so large that the energy supply required to recharge the storage capacitor for each pulse will be prohibitively large, possibly of the same magnitude as, or even greater than, the amount of energy supplied by the power source to be made dust-free.

The invention is intended to overcome this disadvantage, and with regard to this, it is peculiar to the invention that the oscillating circuit includes coupling means which return a substantial part of the impulse transmitted by the storage capacitor in each pulse to the capacitor formed by the dust filter electrodes. and in this capacitively stored amount of energy to the storage capacitor for recharging thereof.

This achieves that the external power supply for charging the storage capacitor is limited to the amount of energy actually consumed by the filter during the pulse periods.

150012 2

A simple and effective design of the electrical coupling according to the invention can be achieved by the coupling means located in the oscillating circuit being a pulse-initiating means with one conduction direction and an electric valve with the opposite conduction direction. At the same time, if the self-induction in the LC circuit is constituted by the secondary winding of an impulse transformer, the special advantage is obtained that the impulse generator can be operated at a lower voltage than the filter itself, whereby well-controlled discharge elements, such as for example, can be used in the impulse generator. thyristors.

In another embodiment of an electrical circuit according to the invention, the self-induction in the LC oscillation circuit consists of the series connection of two self-induction coils, one of which is in the lead to the filter and of which the other is a self-induction coil shunted by the series connection of a spark gap. and a 15 voltage source. In this way, even shorter impulses can be obtained, because you obtain complete freedom to choose the self-induction in the oscillation circuit, since no transformer winding will be included in this.

With particular advantage, according to the invention, the LC oscillation circuit 20 can be tuned for resonance at a frequency approximately having the pulse as a half-wave.

In the drawing, in FIG. 1 and 2 are diagrams for two embodiments of electrical couplings according to the invention.

In the embodiment shown in FIG. 1, there is provided an AC voltage source 1 through a rectifier coupled charging circuit A for a storage capacitor 3, a discharge circuit B serving for pulse generator 3 thereof and a vibration circuit C, in which the electrostatic filter 10 is included as capacity and which is connected to the discharge circuit through a transformer 7, 8. In the discharge circuit, a thyristor 6, 30 11 'and a rectifier 5 are coupled in antiparallel coupling. The capacitor 3 is held by the charge circuit A charged to a given voltage. When the thyristor 6, 11 is turned on, the capacitor 3 is discharged and produces a vibration in the vibration circuit C. During the positive half-wave of this vibration, the voltage of the filter is brought up to a very high positive value, the positive half-wave being superimposed on the DC voltage.

During the negative half-wave, the filter voltage is greatly reduced and the impulse energy returns through rectifier 5 to the discharge circuit and recharges the capacitor 3. The loss of energy that occurs along the way is replaced by the charge circuit A.

150012 3

In the embodiment shown in FIG. 2, a high voltage DC source 2 is used to charge the storage capacitor 3, and in the discharge circuit, instead of the thyristor 6, 11, a spark gap 12, which is connected in parallel with a rectifier 15, is used. in this case, the discharge takes place directly in the oscillation circuit in which the electrostatic filter 20 acts as a capacitor, thus avoiding a transformer, which is made possible by the spark gap tolerating a very high voltage.