RU2328793C1 - Gas-discharge lamp - Google Patents

Abstract

FIELD: electrotechnical industry.

SUBSTANCE: gas-discharge lamp consists of burner from optically transparent material, which is filled with inertial gas and mercury, in every end of which main and auxiliary electrode is installed hermetically, which is electrically connected to the opposite main electrode through limiting resistor. Main electrodes are made as baked, at that temperature of maximum heated section of electrode baked portion in nominal mode of operation, pressure of inert gas in burner, internal diameter of burner and distance between electrodes are connected in the following ratio:

, where: P_b - pressure of inert gas in burner, Pa; L b.e. - distance between baked electrodes in burner, mm; T_max - temperature of maximum heated section of electrode baked part. K; D_int. - internal diameter of burner, mm; K - coefficient of proportionality equal to 1.0 and which has dimension - K/Pa.

EFFECT: reduction of lamp production prime cost.

1 dwg, 1 tbl

Description

The invention relates to the electrical industry, in particular, improves high-pressure discharge lamps of general and special lighting.

A gas discharge lamp is known that contains a burner of an optically transparent material filled with inert gas and mercury, at each end of which a main and auxiliary electrode are sealed, electrically connected through a limiting resistor to the opposite main electrode. (Pat. RF. No. 2201009 of 08/31/2000).

The described discharge lamp contains two limiting resistances, which causes the occurrence of glow discharges between the main and auxiliary electrodes simultaneously from two ends of the burner, as a result of which the lamp stably ignites to a temperature of minus 40 ° С.

The disadvantage of the prototype lamp is the relatively high cost of manufacturing the lamp due to the use of two limiting resistors and relatively large dimensions of the burner.

A gas discharge lamp is known that contains a burner of an optically transparent material filled with inert gas and mercury, at each end of which a main and auxiliary electrode are sealed, electrically connected through one limiting resistor to the opposite main electrode. (Pol. Decision on the application No. 2003133077/09 (035420) dated 11.11.03).

The disadvantage of this lamp is unstable ignition at temperatures below minus 40 ° C, intense spraying of the emitter from the main electrodes to the burner wall and an increased decrease in light output.

The aim of the invention is to increase the reliability of ignition of lamps to minus 60 ° C, reducing the consumption of material of the burner while maintaining the light parameters of the lamps.

This goal is achieved by the fact that in a gas discharge lamp containing a burner of optically transparent material filled with inert gas and mercury, at each end of which a main and auxiliary electrode are sealed, electrically connected through one limiting resistor to the opposite main electrode, the main electrodes are sintered moreover, the temperature of the maximum heated portion of the sintered portion of the electrode in the nominal lamp operating mode, the inert gas pressure in the burner, internal the diameter and interelectrode distance of the burner are related by the relation

where R _g is the inert gas pressure in the burner, Pa;

L.M.E. - interelectrode distance between the sintered electrodes in the burner, mm;

T _max is the temperature of the maximum heated portion of the sintered portion of the electrode in the nominal lamp operating mode, K;

D _ext. - inner diameter of the burner, mm;

K is the coefficient of proportionality equal to 1.0 and having a dimension of K / Pa.

In the gas discharge lamp according to the invention, the experimentally selected design allows reliable ignition even using a single current limiter.

The essence of the invention is as follows. The lamp is included in the electrical circuit in series with an inductive choke. A supply voltage is applied to the main and auxiliary electrodes of the burner and a glow discharge arises between them. A glow discharge, being a source of current carriers, initiates the appearance of an arc discharge between the main electrodes in mercury vapor, which generates radiation of mercury lines.

The design of the lamp is shown in the drawing. The lamp contains a burner (1) of optically transparent material, at each end of which the main (2) and auxiliary (3) electrodes are hermetically mounted. One of the auxiliary electrodes (3), namely the one with the smallest gap, is electrically connected to the opposite main electrode (2) through a resistor (4), which allows voltage to be applied to the said gap between the main (2) and auxiliary (3) electrodes nutrition. The gas discharge lamp contains an external glass bottle (5) and a base (6).

Important in the present invention is the value of the ratio

It is determined experimentally and should be in the range from 4.8 to 6.2.

With values of this ratio greater than 6.2, there is no transition of a glow discharge between the main and ignition electrode into an arc discharge between the main electrodes with one resistor at temperatures below -40 ° C. In addition, in some cases, a glow discharge between the main and auxiliary electrodes may not ignite at all (for example, with an inert gas overpressure)

When the ratio values are less than 4.8, a decrease in the ignition voltage of the lamps is not observed, and the temperature of the maximum heated portion of the sintered portion of the electrode increases significantly. Intensive spraying of the emitter from the main electrode occurs, which sits on the inner wall of the burner and reduces the luminous flux of the lamp.

Typically, barium oxide is used as an emitter in sintered electrodes, for which 1480-1720 K is the optimum operating temperature.

The use of sintered electrodes in gas discharge lamps due to the lower temperature of the electrodes by 200-300 K, compared with traditional spiral electrodes, in the nominal mode of operation of the lamps, allows to tighten the thermal mode of operation of the lamps without reducing the service life. That is, it becomes possible to reduce the size of the burner. Reducing the interelectrode distance of the burner will reduce the lamp ignition voltage while maintaining light parameters even without using one of the two limiting resistors.

It has been experimentally proven that up to 3 mm is the optimal distance for a glow discharge between the main and ignition electrodes. When installing the burner on the leg, the limiting resistance is electrically connected to that auxiliary electrode, at which this distance is the smallest.

Argon and krypton can be used as an inert gas.

Examples of specific performance are given in the table.

No. Lamp power Lm.e., mm R _g. , Pa T _max , K D _ext. mm

one 125 26 2926 1480 10.1 5.08 2 250 44 2660 1590 14.1 5.22 3 400 65 2660 1690 16.7 6.12 four 700 80 2660 1720 24.7 5,0

The application of the invention will allow without reducing the reliability of ignition of lamps to reduce manufacturing costs by eliminating one of the two expensive resistors and reducing the consumption of quartz by reducing the interelectrode distance and the inner diameter of the quartz.

In DRL 400 lamps, the exclusion of one of two resistors and a decrease in the consumption of quartz due to a decrease in the interelectrode distance from 70 mm to 65 mm and an inner diameter of quartz from 18 to 16.7 mm with an annual production plan of 1.5 million pcs. and at the price of one resistor 0.5 rubles. gives an annual economic effect of 2.7 million rubles.

Claims (1)

A gas discharge lamp containing a burner of optically transparent material filled with inert gas and mercury, at each end of which a main electrode and an auxiliary electrode are sealed, electrically connected through one limiting resistor to the opposite main electrode, the main electrodes are sintered, and the temperature of the most heated section sintered part of the electrode in the nominal operating mode of the lamp, inert gas pressure in the burner, inner diameter and interelectrode distance yanie burner related by

where R _g is the inert gas pressure in the burner, Pa; L _M.E. - interelectrode distance between the sintered electrodes in the burner, mm; T _max - the temperature of the maximum heated portion of the sintered portion of the electrode in the nominal lamp operating mode, K; D _int - inner diameter of the burner, mm; K is the coefficient of proportionality equal to 1.0 and having the dimension K / Pa.