US1630128A

US1630128A - Incandescent lamp

Info

Publication number: US1630128A
Application number: US44365A
Authority: US
Inventors: Oscar V Maurer
Original assignee: Individual
Current assignee: Individual
Priority date: 1925-07-17
Filing date: 1925-07-17
Publication date: 1927-05-24
Anticipated expiration: 1944-05-24

Description

Patented May 24, 1927.

UNITED STATES OSCAR V. MAURER, OE ,EAS']: CLEVELAND, OHIO;

INGANDESCENT LAMP.

No Drawing.

This invention relates to incandescent lamp bulbs and has for its object the provision of a new and improved bulb which shall exhibit a high degree of efficiency in light production, coupled with long life and a desirable color of the emitted rays. More specifically stated the objects of the invention are to overcome certain of the disadvantages heretofore encountered. in the use of tantalum as a filamentary material; while further objects and advantages of the invention will become apparent as the description proceeds.

The materials heretofore chiefly employed l5-as incandescing bodies have been platinum,

carbon, tungsten, and tantalum. Platinum was always hampered by its high cost and it has also always been adversely criticized because of its comparatively low specific resistance, although readily capable of being drawn into wire, and free from all difiiculty of crystallization and entirely unafiected chemically by residual gases. 7

Carbon enjoyed the advantage of a very high degree of specific resistance but was unfortunate in possessing a negative temperature coefficient and of being impossibleto secure in a pure form. Pure carbon cannot be fashioned into the shape of a fila- 80 ment'. These devices, though nominally made of carbon alwayscontain some pro rtion of hydrocarbon compounds which ecome volatilized before the lamp reaches a highly satisfactory operating temperature. Resid- 85 ual gases, however, have no specially injurious action if only the globe was reasonably well exhausted inasmuch as a small roportion of the comparatively large ament could combine with residual oxygen without 40 seriously impairing the lamp.

1 Tantalum was tried for a considerable period but exhibited defects by reason of becoming extremely brittle especially under the influence of alternatin current, and was subsequently practically a andoned in favor of tungsten, but tungsten, despite ,a very considerable amount of use, is defective inv that its specific resistance is extremel low, lower than that of platinum, and w ile it I has a rather high temperature 'coeflicient which serves to reduce the electrical flow at the working temperature, still thecomparatively low resistance of the lamp when coldgives rise to a sudden surge'current when the same is turned on which often serves to rupture the filament; and in addition tungoccurs at this Application filed July 17, 1925. Serial No. 44,365.

sten naturally occurs in crystalline form, is converted into a ductile wire only with great difficulty, and tends always to revert to crystalline form wherein it is brittle and shortlived.

I have discovered that an important source of difiiculty with tantalum lies in its chemical afiinity for residual gases, and that all the common gases even in small quantities, are extremely injurious thereto. With oxygen it combines to form an oxide which i is soluble in the tantalum with substantial lowering of the melting point so that even a small amount of oxygen produces a sudden collapse of the filament; with nitrogen it combines at certain temperatures to form a nitride which is injurious in having ,an increased resistance and in being decidedly of nitrogen remaining in the bulb is suflicient .to injure this comparatively small portion of the filament. Owing to this small area of filament, and-to the fact that nitrogen reaction is rather slow, it generallyrequires several hours burning before the filament breaks, but its breakage almost invariably point. I I have discovered that if, after exhaust ing, the bulb be filled with substantially pure argon, "the difliculties..heretofore encountered with tantalum are almost en.- tirely overcome. I preferably employ this at about atmosphericpressure although this may be varied somewhat in either direction, although it is not well to increase the pressure unduly when the lam is cold, lest with the heating of the argon tlie increased pres sure should burst the bulb. With this fill ing the embrittlement of the filament is entirely overcome, the life of the lamp greatly increased and its working temperature can be substantially elevated without injury to the filament or bulb.

I prefer to leave the argonin' the bulli 'du're i ing the use of the lamp as it permits operating the filament at higher temperatures and also apparently shields it from the action of the nitrogen, even though the same amount of nitrogen be present which in the absence of the argon was sufficient to destroy the filament. However, it is equally within my invention to exhaust this argon either in art or as completely as possible, thus reducing the amount of nitrogen present and having a vacuum lamp. So far as concerns this washing process the gases helium and neon .and other of the chemically inactive rare gases of the atmosphere can equally well be employed since they serve to displace the nitorgen and are themselves inactive, but in case the gas is to be left in the globe the heavier argon is preferable since it exhibits a superior protective action owing to its higher atomic (molecular) weight.

I am aware that tungsten lamps have for a long time been filled with what is called argon but this filling gas as ordinarily used is not satisfactory for my purpose since it'ahnost always contains nitrogen; and generally to an amount of around 25% whereas an amount of nitrogen in the bulb equal to one ten thousandth atmosphere isprovably detrimental. Oxygen is equally injurious but more easily excluded as it comprises onl M; the atmosphere. The only ases which can safely be left inside the g obe with a tanalum filament are those atmospheric constituents which enter into no chemical combinations and compose the zero group of the periodic table of elements. Indeed it appears that tantalum constitutes a more avid absorber of oxy en and nitrogen than any other substance I ave hitherto been able to discover. 7

I do not confine in self to the use of filaments of pure tanta um but intend by the expression consisting essentially of tantalum to include such alloys or compositions which consist predominantly of elemental tantalum and which exhibit the herein described reactions of tantalum in the presence of the different ases mentioned.

Having thus descri ed my invention what I claim 1s:

1. An incandescent lamp bulb having a filament consisting essentially of tantalum and an atmosphere consisting predominantly of argon and containing oxygen and nitrogen only in quantities too small to measure.

2. A incandescent lamp bulb having a filament consisting essentially of tantalum and an atmosphere consisting only of those at mospheric gases which are devoid of chemical combining power.

3. An incandescent lamp bulb having a filament consisting essentially of tantalum and a highly tenuous atmosphere which is essentially devoid of those atmospheric gases which possess chemical combining power.

In testimony whereof I hereunto afiix my signature.

OSCAR v. MAURER.