RU1810928C - Lighting unit - Google Patents

Abstract

Usage: in lighting installations for industrial applications, Summary of the invention: the burner is equipped with an additional electrode located at one end of the burner. The burner is filled with mercury, an inert gas or emitting additives and is placed in an external flask. The device is equipped with two ballasts, the electrical parameters of which are selected from the condition that the relation 0.1 PZ P i 0.8 Pa is fulfilled, where Pi and P2 are the power of the discharge gaps. 1 ill.

Description

The invention relates to the electrical industry and can be used in the manufacture of discharge high pressure lamps and the organization of industrial lighting.

The purpose of the invention is to increase the useful life and expansion of functionality.

The drawing shows a lamp with a circuit for connecting working electrodes.

The lighting device contains working electrodes 1, 2, 3, burner 4, outer bulb 5, ballasts Di, D2. cap 6, Si and $ 2 - switches.

The goal is achieved as follows.

High starting currents of high pressure lamps are due to the fact that when a discharge is ignited in a cold lamp at a low initial mercury pressure, the potential gradient in the discharge column and, accordingly, the voltage on the LSMP are small. When the lamp burns in the first minutes after

By igniting the mercury, the potential gradient increases, and the discharge current decreases.

When all the mercury in the burner goes into a vapor state, the voltage on the lamp Un and the current n stabilize, and the duration of this process is 5-10 minutes. All other things being equal, the magnitude of the starting and operating currents depends on the parameters of the ballast. The advantages of the claimed solution are that in this case, the Si switch closes and the burner parameters stabilize when a low power arc Pi burns between electrodes 2 and 3. When the switch closes, an arc of power Pa between electrodes 1 and 3 lights up at an already high potential gradient and, accordingly, a small starting current.

The proposed ratio of the powers of arcs Pi and P2 is determined both by the physical operation of the lamps, and by the need to increase

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their functional capabilities. It has been experimentally established that at Pi S 0.1 P2, all the mercury present in the torch during operation of the arc Pi evaporates, which creates conditions for stable operation of the lamp both in the power mode PI and P2I Pi + PZ. If the ballast does not comply with the left boundary of the ratio, then there is a risk of incomplete evaporation of mercury, which makes the lamp operation unstable. The right limit of the ratio is related to the case when the task is to ensure maximum coverage of the range of variation in the level of illumination. Since the luminous flux is practically proportional to the power, 44.4% is provided at Pi 0.8 P2; 55.6% and 100% of the total illumination at Pi + PZ.

The operation of the lamps of this design is similar to the lamps of the prototype and consists in supplying voltage to the electrodes of the lamp and providing a discharge current by means of a ballast resistor connected in series with the lamp.

The proposed lighting device increases the useful life by about 15%.

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The expansion of functionality is associated with the presence of two working electrodes at one end of the burner and the ability to turn on the lamp if necessary at the power of PI and P2 or PT + P2.

Claims (1)

SUMMARY OF THE INVENTION A lighting device comprising a burner installed in an external bulb filled with an inert gas and emitting additives, at the opposite ends of which there are electrodes, one of which is connected in series with ballast, characterized in that in order to increase the useful life and extend the functionality , it is equipped with an additional electrode mounted on the same end of the combustion as the electrode connected to the specified ballast, and an additional ballast connected with an additional electrode, and the electrical parameters of the ballasts are selected from the condition that the following relation holds: 0.1P2 Pi 0.8P2, where Pi and Pa are the powers of the discharge gaps formed by the opposite electrodes.