DE1539473C - High pressure mercury vapor lamp - Google Patents

Description

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The invention relates to a high-pressure mercury, which is under a pressure of 10 to 50 mm silver vapor lamp with metal halide addition, the mercury column. The discharge tube 1 is enclosed in a discharge tube in the form of a cylindrical lamp bulb 4 and has main electrodes wound in this filament, each of which is supported by a frame 5, 6 made of wire by a cylindrical filament with 5, which simultaneously serves as an electrical line and without spacing adjacent turns. Connection of the electrodes is surrounded by a connection wound auxiliary electrode. contact 7 is used, which is at the end of the lamp bulb 4

A high pressure mercury vapor is already provided: is. Each auxiliary electrode 3 is with the

lamp known (British Patent 431 810), with main electrode 2 at the other end of the lamp over

the one in the form of a cylindrical helix connected to a resistor 14 of 50 kΩ. the

wound main electrode and one also as a zy space between the discharge tube 1 and the

cylindrical helix wound auxiliary electrode lamp bulb 4 is evacuated or with a noble

find application. The gas representing the auxiliary electrode is filled. The discharge tube may occasionally

cylindrical filament is used with no spacing, even without the outer lamp bulb

adjacent turns wound. Become a 15.

Metal halide addition is in this known FIG. 2 shows that the main electrode 2 essentially

High pressure mercury vapor lamp not used. borrowed from a double-wound tungsten

The addition of metal halides can result in a coil 9 which is covered with an electron-emitting high-pressure mercury vapor lamp of high conductive material 10 and which is efficient with good color distribution. The 20 heat-resistant metal rod 11 is carried. However, the addition of metal halide leads to the fact that the metal rod 11 penetrates the coaxially forming coil that forms the main electrode when the mercury vapor lamp is switched off. It is connected to the frame 5 with a longer burning time, a part of the metal halide via a molybdenum flake 12,
Vapor as a thin layer on the main electrode The auxiliary electrode 3 is also a cylinder that cools down faster than the 35-shaped helix made of tungsten or molybdenum wire, the rest of the tube. If the mercury vapor lamp is now put back into operation during the manufacture of the filament, the winding opposes itself so that the neighboring windings are in contact with each other without any distance to the occurrence of a glow discharge. The one created in this way between the main and auxiliary electrodes. A cylindrical helix is required to cover the greater part of the high starting voltage and the effective 30 of the main electrode, the distance d of the interior of the auxiliary electrode being reduced. surface of the auxiliary electrode from the outer surface of the

The object of the invention is to be at most 2 mm through a loading main electrode. Any auxiliary special Electrode design a rapid discharge electrode 3 is with the main electrode 2 on the other cooling of the main electrode and thus one end of the lamp bulb 4 via a molybdenum precipitate of the metal halide additive on this 35 flakes 13 and the resistor 14 verzu impede. ...... bound.

This object is achieved according to the invention in that the auxiliary electrode is arranged coaxially to the main guide form of the invention, a large part of the main high-pressure mercury vapor lamp is produced electrode covers and with its inner surface of the 40 discharge tube 3.7 mg thallium iodide, 21 mg Na outer surface add a maximum of 2 mm trium iodide and 1.3 mg indium iodide to the main electrode away. 40 mg of mercury and argon gas under one pressure

Due to the inventive training - contained 25 mm of mercury. The external auxiliary electrode it is achieved that between it and the diameter of the lamp was 120 mm. Your length no convection currents from the main electrode was 285 mm. The inner diameter of the emergence that led to rapid cooling of the cargo tube was 18 mm and its cubic volume Main electrode would contribute. Since a 12 ecm. The main electrode was a two-layer one rapid cooling of the main electrode effectively ent- Tungsten coil, whereby the diameter of the tungsten counteracted it can also not be 0.9 mm to the wire. The length and the external precipitation the metal halide additive on the 50 diameter of the coil were 8 mm and 4 mm, respectively. Main electrode come. The auxiliary electrode according to the invention was made from tungsten wire Von Rather, high-pressure mercury vapor lamps can be wound with a diameter of 0.5 mm, had an interior too after repeated interruptions in operation diameter of 5.5 mm and a length of 7 mm. can easily be restarted and the distance between the main electrodes with the original starting voltage. 55 was the two ends of the discharge tube

In the drawing, the invention is, for example, 50mm. . ;

explained, namely shows' The lamp constructed in this way was each with one

Fig. 1 partially torn open and on average half an hour break for five hours

high-pressure mercury vapor lamp according to the invention, burning time put into operation and the

2, in section, one end of the discharge tube 60 controls the ignition voltage. ·

the mercury vapor lamp according to Fig. 1 and Fig. 3 shows the result of this experiment: For

Fig. 3 ignition voltage life time characteristics for the mercury vapor lamp according to the invention

the invention and for known lamps. get the curve shown in solid line,

F i g. 1 shows a discharge tube 1 with main while a conventionally manufactured lamp the

electrodes 2 and auxiliary electrodes 3 at each end, 65 dashed curve has resulted. Man

that knows at least one metal halide such as thalium, that the lamp according to the invention has a

iodide, sodium iodide or indium iodide as an additive to lower ignition voltage that exceeds the

a small amount of mercury and a filling gas remains constant for the entire life of the lamp.

Claims (2)

Patent claims: 1. High pressure mercury vapor lamp with added metal halide, which is in a discharge tube in the form of cylindrical coils wound main electrodes, each of one wound as a cylindrical helix with non-spaced turns Auxiliary electrode is surrounded, characterized in that the auxiliary electrode (3) is arranged coaxially to the main electrode, covers a large part of the main electrode (2) and with its inner surface is at most 2 mm from the outer surface of the main electrode. 2. High pressure mercury vapor lamp according to claim 1, characterized in that the Discharge tube (1) enclosed in an outer lamp envelope (4) and therein by a Frame (5,6) is held and that the auxiliary electrode (3) with the one at the other end of the discharge tube lying main electrode (2) is connected via a resistor (14). In addition 1 Elatt drawings