DE874329C - Lighting system of any design, especially for advertising purposes - Google Patents

Description

Lighting system of any design, especially for advertising purposes The invention relates to a lighting system of any design, in particular for Advertising and signaling purposes. One already knows such systems that are made of gas-precipitated Hollow bodies exist, which with the help of a direct current source and a Self-interrupter in connection with an induction coil to light up will. Such systems have the disadvantage that they only have a low light output and also only produce an unstable glow.

The invention eliminates the shortcomings of the known systems. The efficiency is increased. This is achieved according to the invention in that a Impulse transformer is used, the primary circuit of which is switched on and Corresponding dimensioning of surge capacitors and adaptation of the primary winding is designed so that the damping of the circles a slow decay of the oscillation process guaranteed. The plant can be operated using various circuits will. For example, the surge circuit can consist of a relay coil, the normally open contact of the relay, the surge capacitor and the primary winding of the surge transformer exist and are triggered by the self-excitation circuit of the relay triggers the charging and discharging process of the capacitor with the normally open contact.

Another solution is that the impact circle is formed from the Relay coil and the normally closed contact of the relay as well as a surge capacitor and the primary winding of the 'surge transformer, the circuit being triggered by the self-excited relay switches off the charging and discharging process Impulse capacitor and primary winding of the impulse transformer formed circle part is triggered.

A preferred solution is that the surge circuit consists of two surge capacitors and the symmetrically split (center tapped) primary winding of the surge transformer and a changeover contact is formed whose drive through a polarized audio frequency relay. is effected, the loading and unloading process is triggered alternately by the changeover contact.

Depending on the operating conditions, you can apply DC source also replaced by an equivalent lower AC voltage source be.

The invention can be implemented in various embodiments. In the drawing, i are given to 3 different switching schemes in FIGS..

The lines i and 2 are connected to a DC power source or an equivalent low AC voltage source and lead to the primary coil P of an Stoßiransformators i 3. In the line, a relay 4 is turned on, which has a Arheitskontakt. 5

The normally closed contact of the relay is bridged by a surge capacitor 6.

The winding ends of the secondary side S of the transformer are bridged by an adjustable protective spark gap 7 "which can optionally be replaced by a tunable capacitance to which any number of gas discharge vessels 8 can be connected in parallel. As the circuits clearly show, gas discharge vessels 8 are preferably used Application that are provided with external electrodes.

The system works in such a way that when the normally open contact 5 is open, the capacitor 6 is charged in a shunt with the relay 4, a charging surge flowing through the primary winding P of the surge transformer 3 . The decay process is achieved in that the normally open contact 5 is closed and a new current surge with the amount of the differential voltage takes place across the primary winding of the surge transformer 3. The induction surges are induced in the secondary side of the transformer in a known manner. With an appropriate development of the translation ratio from the primary to the secondary winding, impulse voltages of several thousand volts are achieved in this way.

In the circuit diagram according to FIG. 2, the relay 4 is between the two lines i and: 2 in series with its normally closed contact-g. The surge circuit, consisting of capacitor io and primary winding P of transformer 3, is connected in parallel to relays with normally closed contacts. The charging and discharging process take place in accordance with the opening or closing of the normally closed contact 9 via the coil of the relay 4. The secondary circuit has remained the same as with the Schaltschenla according to FIG.

In which: -. Circuit diagram of Figure 3, the primary side P of the shock transformer 3 is provided with a center ii. At the ends of the two winding parts P are the surge capacitors 12 and 13, which can also be connected in parallel to the windings assigned to them and to which the required charging voltage is supplied via lines i and: 2. The relay circuit, which is to be understood separately, consisting of the relay coil 14 and the changeover contact 15, is the drive unit for the changeover switch 16, which alternately triggers the charging and discharging of the two ZD primary circuits.

Claims (1)

PATENT CLAIMS. i. The lighting installation belielli-er embodiment, in particular for advertising and signaling purposes, consisting of gas-filled hollow bodies, which under Zuhil -, characterized be fenahme a DC power source and a self-breaker in connection with an induction coil made to light that in order to increase DES efficiency of the plant the induction coil is replaced by a surge transformer, the primary circuit of which is formed by switching on and appropriate dimensioning of surge capacitors and adapting the primary winding so that the damping of the circles ensures a slow decay of the oscillation process. 2., lighting system according to claim i, characterized in that _ that the surge circuit consists of a relay coil, the working contact of the relay, your surge capacitor and the primary winding of the surge transformer and is triggered in that the relay coil in self-excitation circuit with the working contact the charging and discharging process of the capacitor triggers. - ' 3. Lighting system according to claim i, characterized in that the surge circuit is formed from a relay coil, a break contact of the relay, ein'Stoßkondensätor and the primary winding of the surge transformer and is triggered by the fact that the relay switched in self-excitation of the charging and Discharge of the circular part formed from the surge capacitor and primary winding of the surge transformer is triggered. 4. lighting system according to claim i, characterized in that the surge circuit is formed from two surge capacitors and the symmetrically divided (center-tapped) primary winding of the surge transformer and a changeover contact whose drive is effected by a polarized audio frequency relay, the charging and discharging process are triggered alternately by the changeover contact. 5. Lighting system according to Claims 1 to 4, characterized in that the DC source is replaced by an equivalent low AC voltage source.