DE239436C - ELECTRIC STEAM LAMP - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

CLASS 21 /. GROUP

Dr. EMIL PODSZUS in RIXDORR

Electric steam lamp. Addendum to patent 221306 of October 8, 1908.

Patented in the German Empire on July 27, 1909. Longest duration: October 7, 1923.

In the case of the electric vapor lamp according to the main patent 221306 it has been shown that between There is an interaction between the steam jet and its guide tube, which makes it possible to increase the intensity of the radiation and influence them yourself. This can be done by choosing the substances that make up the Guide or light tube consists, and by suitable dimensions of the latter for special Properties of the lamp and can be used for a favorable economy.

Depending on whether the light color of the lamp is not at all or only slightly influenced by the metal vapor or the luminous metal vapor should contribute to the total radiation, the substances forming the light tube are opaque, translucent or transparent selected. It can be body for Use the glow tube, which in the glowing state has a higher or lower absorption capacity for the light emitted by the steam jet. Because the absorption capacity for the different colors is also unequal when the body is in a glowing state, so one has it by choosing a body of suitable absorbency in the hand, the passing out of the light of the To restrict steam jet through the pipe wall completely or only partially or in certain To favor colors, or to weaken certain colors in order to achieve the respective desired overall color. '

In order to achieve the cheapest possible economy, they are translucent or transparent Related to bodies of suitable selective emissivity, the light of which when spectrally dispersed has a special intensity shows in the colors that the steam radiation does not have at all or to a small extent. Through this the total radiation becomes stronger because the colors of the steam radiation are not so be strongly absorbed. It is also easier to match the overall color to the pure White to approach. Examples are rare earths such as thorium oxide, zirconium oxide, etc. Such glowing bodies influence the color of the steam radiation through their presence in the steam. By their appropriate choice the color can be changed within a few limits, since the color of the radiation of the Add pipe and steam. It also affects the temperature of the glowing Rohres determines the temperature of the metal vapor, which in turn is its radiation influenced; so finds z. B. with mercury an intensity shift towards the yellow End of the spectrum instead.

For the purpose mentioned, particularly low volatile compounds are suitable, such as Oxygen and nitrogen compounds, e.g. B. of thorium, zirconium and the like but with high stress there is usually the disadvantage that the temperature does not exceed a certain level Limit can be increased because the evaporation at the same time under dissociation and Electrolysis of the filament is going on,

ίο so that thereby the efficiency of the lamp is restricted. To prevent the influence of dissociation and electrolysis or reduce, the lamp is not completely evacuated, but with the gaseous shaped dissociation product of the light tube, e.g. in oxides with oxygen from suitable pressure, filled so that the dissociation is reduced or canceled accordingly will. This succeeds at the lower pressures, the less volatile the others Components are. Therefore, those bodies whose one decomposition component is very little volatile are preferable.

The addition of a gas changes the voltage drop in the luminous vapor column, which can thus be varied by changing the gas pressure. The voltage drop along the light tube depends essentially on the pressure of the filled in it Gas and steam, and the voltage drop increases when the pressure of the gas or the steam is increased. Therefore, by changing the pressure, you have the option of widening the voltage drop To change limits, so that one can reduce the length of the pipe without applying considerable pressure with the same applied voltage can reduce to half and less, so that with it the possibility of creation smaller luminous intensities is given.

If you want the metal vapor radiation to have a larger share of the total radiation give, this can be done by changing the width or wall thickness of the Light tube happen.

At very high temperatures, the connection between the light tube and the cathode spaces or endanger this with the outer shell if the connection is melted down is made. Then the melt-down points have to be cooled. This can by condensing or evaporating metal happening on the melting point is accumulated. Likewise, at the extraordinarily high temperature in the axis of the steam jet, the anode, if this is solid and does not consist of a material that is very difficult to melt, soon destroyed. This can be done in the same way by means of cooling by condensing or evaporating Metal can be prevented. The one facing away from the steam jet can also be used for the same purpose End of the anode "conical or tubular be expanded so that the energy of the steam jet is distributed on the widened end of the anode. The widened Part of the anode can also be formed from another metal, e.g. B. iron. An anode Made of very difficult-to-melt material, it easily gets into lively embers and then wears also contributes to radiation.

An embodiment of the steam apparatus with cooling of the anode by condensing and evaporating metal is shown in the drawing.

The electrode consists of the actual anode f, which protrudes into the widened end of the glow tube r. The anode /, which is expediently formed from tungsten, is joined at the top by a funnel-shaped widened part i, for example made of iron, which at the same time serves as a support for the anode /. This part i depends on a melt wire k made of platinum or the like; the metal condensing in the cooling space h then collects in part in the funnel-like body i and is through, the heating of which y & r steams, so that its temperature does not go beyond a certain level caused by the evaporation.

Claims (6)

Patent Claims: 1. Electric vapor lamp according to Patent 221306, characterized in that to achieve a certain light color and intensity for the light tube such substances are used which emit the light of the steam in a glowing state absorb only partially. 2. Electric vapor lamp according to claim i, characterized in that the Absorption is regulated by changing the width or wall thickness of the light tube. . 3. Electric vapor lamp according to claim ι and 2, characterized in that that the beam space of the lamp is filled with a gas under low pressure depending on the pressure of the .110 voltage drop of the steam jet can be adjusted. 4. Electric vapor lamp according to claim ι to 3, characterized in that that to fill the beam space a gas is used that is used in the dissociation Or corresponds to the electrolysis of the light tube resulting gases. 5 · Electric vapor lamp according to claim 1 to 4, characterized in that that the melting points and optionally the anode are cooled by the condensing and evaporating metal. 6. Electric vapor lamp according to claim ι to 5, characterized in that that the anode at the end facing away from the steam jet widened in a conical or tubular shape or designed with such a shape Share is connected. For this purpose ι sheet of drawings,