RU2004079C1 - Lighting unit - Google Patents

Description

genus, and negative potential - to the opposite main electrode.

The results will result. from the table.

As can be seen from the table, regardless of the 5 g filling and the design of the starting electrode for discharge tubes made of polycrystalline alumina, the 1st option for connecting a pulse generator is the best from the point of view of ignition, and for discharge tubes made of quartz glass - 2nd option.

The effect of the best ignition of a discharge tube of polycrystalline alumina, when during the action of 5 pulses a negative potential is applied to the main electrode and an auxiliary electrode electrically connected to it, and a positive potential to the opposite main electrode is unexpected and difficult to remove. because in the literature we have developed, it is unequivocally stated that with such a polarity the development of the discharge is difficult.

The effect we discovered was supposedly related to the difference in the structure and microrelief of the inner surface of the discharge tubes of glass and ceramic (polycrystalline alumina). While the surface irregularities of the glass tubes of the lamp (height of the order of 0.02-0.3 microns) are rounded, the surface irregularities of ceramic tubes have a significantly greater height (up to A microns) and 35 are pointed.

During welding, as well as during Persian ignition of discharge tubes of light-transmitting ceramics, protruding sections of the inner surface are inevitable 40 Metal and emission material are sprayed from the electrodes to form electrically conductive islands of pointed shape. When voltage is applied to the discharge tube the electric field at 45 sharp protrusions of the inner surface of the discharge tube in the area of the auxiliary electrode can significantly exceed the field strength at the main electrode. In ceramic 50 discharge tubes (as opposed to glass tubes), ionization perpendicularity will occur not at the surface of the main electrode, but at the pointed protrusions of the rack and, therefore, electrical breakdown of the gas from the 55th gap of the main electrode-wall

and, accordingly, the transition of the discharge to the main electrodes will occur with a lower numerical strength in the case when the auxiliary electrode and the main electrode connected to it have a negative potential and a free main electrode is a positive potential.

The drawing shows a lighting device consisting of a ballast 1, a high-pressure discharge lamp 2 containing a ceramic discharge tube 3 with two main electrodes 4 and 5 and an auxiliary electrode b, electrically connected to the main electrode 4, and an ignition device 7 (type 13U 220).

The ignition device 7, located outside the lamp and having three terminals: terminal 8 connected to the inductor, and terminals 9 and 10 going to the lamp. High voltage terminal 9, during the action of pulses, a negative potential relative to terminal 10 is connected to the main electrode 4 connected to the auxiliary electrode b, and terminal 10 to the main electrode 5.

Lighting device operates as follows. After applying the mains voltage, the ignition device begins to generate high voltage pulses, igniting the discharge tube.

The above order of connecting the ignition device allows ignition to be carried out at a significantly lower pulse amplitude.

This is followed by a fire period (5-15 minutes), after which the lamp enters the operating mode. The inductor serves to limit the current of the lamps.

A lighting device of the ZhSP01-400 type with a DNaT 400-5 lamp was adopted as the base object.

The proposed technical solution does not complicate the design of the lighting device and can be easily implemented.

The invention can most effectively be used in lighting devices with gas discharge lamps, which have a high current voltage and an increased voltage of rsHiiij. e.g. mercury-free high-pressure sodium lamps.

(5C) 1, Reference book on lighting engineering. M ,, Energoztomizdet, 1983, p. 148.

2, US Patent No. 4,520294, cl. And 01 J 7/44, 1985.

Claims (1)

The claims LIGHTING DEVICE consisting of a high-pressure discharge lamp containing a ceramic discharge tube with two main electrodes and an auxiliary electrode located along the outer surface of the discharge tube and connected to one of the main electrodes of the ignition device, the output terminals of which are connected to the main electrodes discharge tube, and ballast resistance included in the supply circuit of a gas discharge lamp, characterized in that, in order to reduce cost, increase reliability STI lighting device and increase the life of lamps used in the device, the output of the ignition device having the greatest effect during negative potential pulses relative the second terminal is connected to the main electrode of the discharge tube electrically connected to the auxiliary electrode, and the second terminal to the opposite main electrode.