US2056926A

US2056926A - Electric gaseous discharge device

Info

Publication number: US2056926A
Application number: US737829A
Authority: US
Inventors: Krefft Hermann
Original assignee: General Electric Co
Current assignee: General Electric Co
Priority date: 1933-08-21
Filing date: 1934-07-31
Publication date: 1936-10-06
Anticipated expiration: 1953-10-06
Also published as: FR776601A

Description

Oct. 6, 1936. H. KREFFT ELECTRIC CASEOUS DISCHARGE DEVICE Filed July 5,1, 1934 INVENTOR Patented Oct. 6, 1936 UNITED STATES PATENT OFFICE $056,926 ELECTRIC GASEOUS DISCHARGE DEVICE Hermann Krefl't, Berlln-Friedrichshagen, Germany, assignor to General Electric Company, a corporation of New York Application July 31, 1934, Serial No. 737,829 In Germany August 21, 1933 2 Claims. (Cl. 176-122) vide a high pressure gaseous discharge lampwhich will have a long useful life. Another object of the invention is to eliminate the blackening of the lamp envelope. Still other objects and advantages of the invention will appear from the following detailed specification or from an inspection of the accompanying drawing.

The invention consists in a new and novel combination of elements, as hereinafter set forth and claimed.

In operating gaseous-discharge devices such asthe high pressure mercury vapor arc lamps with thermionic electrodes which are now coming into considerable use a blackening of the lamp en'- velope has been found to occur heretofore after a relatively short burning period. This rapid blackening of the envelope, which is caused in part by decomposition of the electrodes and in part by the influence of ultraviolet rays and electric particles, has tended to limit the useful life of these devices, and hence is undesirable.

I have now discovered that this undesired blackening of the mercury high pressure lamp is avoided if a small quantity, of the order of (LE-%, of caesium is mixed with the vaporizing mercury base body, provided that a special aluminum silicate glass is used in constructing the discharge vessel of the lamp. This special glass has 60% or less of silica, more than 20% alumina, and also contains small quantities of other glass builders such as boric oxide, magnesium oxide and calcium oxide. With a tube constructed in this manner, in addition to the mercury vapor, a small quantity of caesium vapor is also produced during operation of the lamp by vaporization of the base body. Although this caesium vapor, because of its small quantity,

does not participate in the light radiation to any appreciable extent and therefore does not noticeably change the mercury radiation, nevertheless, in combination with the definite construction of the lamp vessel, it has the effect that the heretofore unavoidable blackening of the lamp vessel is eliminated.

For the purpose of illustrating my invention I have shown an elevational view, in part section, of a preferred embodiment thereof in the accompanying drawing.

As shown in this drawing my novel lamp has a tubular envelope filled with any suitable gas .velope I.

or vapor or mixtures thereof. For example, I have obtained excellent results using argon at 'a pressure of the order of 5 mm. of mercury,

together with just'enough mercury to provide substantially atmospheric pressure when it is 5 all evaporated. Mixed with this mercury is a small quantity of caesium, of the order of 0.2 to 5% of the mercury. Surrounding said envelope I there is a tubular jacket 2. The space between the envelope I and the jacket 2 is either evacuated or filled with an indifferent gas, such as nitrogen, at any suitable pressure, such as half an atmosphere. The jacket 2 has at one end thereof a stem 3, through the pinch 4 of which two current inleads 5 and 6 are sealed. The current inlead 5 is flexibly connected to the inlead I which is fused into the adjacent end of the envelope I. Said inlead I carries at its inner end a thermionic cathode 8, while a second thermionic cathode 9 is carried by an inlead Ill which is sealed through the opposite end of the en- These

thermionic electrodes

8 and 9 can be of any desired type and composition, but

-I prefer to use a wound tungs en helix, as shown,

within which there is retained a rod 8' and 9, respectively, of electron emitting material, such as a sintered mixture of 90 parts of barium oxide and calcium oxide with 10 parts of tungsten, since such an electrode has been found to be exceptionally effective in my novel lamp. 0 Dished metal rings H and I 2 are fitted against the ends of the envelope l, and are held in this position by means of rigid longitudinal wires l3 and M which unite them with each other. These wires 13 and M, which together with the rings ll and I2 form a stifi frame surrounding the envelope l, are anchored in the pinch 4. The wire I4 is in practice made an extension of the inlead 6, and the lower end thereof is flexibly connected with the inlead In, so that this wire also serves to conduct the current to the thermionic cathode 9. Each metal ring H and 52 has a plurality of spring fingers i 5 affixed to the outside thereof which bear against the inner wall of the jacket 2, and thus 'serve to prevent lateral displacement of the envelope I. A screw base 22 is firmly attached to the jacket 2 by means of the clamping band 23, leads 5 and 6 being connected to the tip 24 and sleeve 25 thereof, respectively.

The glass of the envelope I is preferably an aluminum silicate glass of special composition which I have discovered resists blackening. This glass contains silica of the order of 60% or less,

and 20% or more of alumina, the remainder of Per cent SiOz 57.6 B203 1.2 A1203 28.4 MgO 8.2 CaO. 4.6

This glass has a softening temperature of approximately 750 C., so that a mercury vapor discharge at several atmospheres vapor pressure can be operated in a lamp constructed thereof without danger.

While I have described my invention by reference to a lamp of particular construction, wherein all of the mercury is vaporized during operation, it is to be understood that it is likewise applicable to other high pressure lamps in which the metal is not all in the vapor phase. It is furthermore to be understood. that my invention is not only useful in lamps containing mercury, but also in devices containing other vaporizable metals, such as cadmium, sodium, or the like, and particularly to devices operating at relatively high temperatures, of the'order of 300 C. Various changes, substitutions and omissions, within the scope of the appended claims may, of course, be made in the structures illustrated and described without departing from the spirit of my invention.

, What I claim as new and desire to secure by Letters Patent of the United States is:

1. A mercury vapor arc lamp of the high pressure type comprising a sealed envelopecontaining mercury together with from 0.2 to 5% of caesium, and having electrodes sealed within said envelope. said envelope consisting of an aluminum silicate glass having a composition of the order of 60% or less of silica, more than 20% alumina, the balanceconsisting of other glass forming materials such as boric oxide, magnesium oxide and calcium oxide.

2. A mercury vapor arc lamp of the high pressure type comprising a sealed envelope having thermionic electrodes sealed therein, said envelope containing mercury together with from 0.2 to 5% of caesium.

' HERMANN KREFFT.