DE2430695B2 - Halogen lamp with different power output - Google Patents

Description

The present invention relates to a halogen incandescent lamp with different power output with the im Features mentioned in the preamble of claim 1, as described in DE-PS 19 48 481. To In this PS, however, the ratio of hydrogen to chlorine must always be greater than 1.25 and it can have a value have up to 2.50.

The invention is based on the object of the halogen lamp of the type mentioned so train that avoids a piston wall blackening even with work cycles with short on and off times will.

This object is achieved according to the present invention in that χ chlorine in an amount of 3.6 10 ^"7 to 5.1 χ 10 ~ ⁷ g-atoms / ml flask volume and hydrogen in an amount of 1.8 χ 10 'to 4.0 χ 10- ⁷ g-atoms / ml flask volume are present, and the ratio of hydrogen / chlorine varies in the range from 0.352 to 1.11.

The stated amounts of chlorine and hydrogen are effective for lamps with duty cycles that Off times between 0 and 28 seconds, in particular i and 3.5 seconds, and their on times z. B. 2 seconds, in particular 1.5 or 2.5 seconds.

An exemplary embodiment of the invention is described in greater detail below with reference to the drawing explained. Show in detail:

F i g. 1 shows a side view of a lamp according to the invention and

F i g. 2 is an enlarged partial view in section of the lamp according to FIG. 1.

In Fig. 1, 10 denotes a halogen incandescent lamp with different power output, the one Bulb U made of translucent glass or quartz, a filament 12 for different power output, Films 13 and outer lines 14 includes. The foils 13 are hermetically sealed at each end of the lamp

a pinch seal 15 sealed.

The lamp IO is pumped out and filled with a filling gas that contains small amounts of hydrogen and chlorine and inert gas such as argon or nitrogen. '■ After the lamp has been filled, the pump-out stut *: cn melted off. The remainder of the exhaust pipe that has been melted off is shown at 16.

This lamp with different power output can many types of filament configurations have that

ι »more light or radiation energy at the ends than in Release the middle area of the lamp. In the lamp shown in Fig. 1, the thread 12 has filament parts 17 and extending parts 18 lying in between. Supporting devices 19 prevent the helical parts from sagging

17 and thus support the extended parts 18. As shown in more detail in FIG. 2, the extended parts are 18 only one or more drawn turns of what was previously a helical part. The undressed Parts 18 glow only slightly when carrying current

. * i) generate a heat that is low compared to the Helical parts 17.

An effective Maiogen regeneration cycle to obtain chlorine, which reacts with tungsten at lower temperatures than bromine and iodine,

- · ■ "· and hydrogen introduced into the lamp. Apparently because of the possible corrosive effect of chlorine on linen parts, it was assumed that that an excess of hydrogen was required to combine with chlorine to form HCl. That

H) Ratio of hydrogen to chlorine in the known Lamps was therefore greater than 1.25. However, it is believed that for the type of lamp in which the Filament in the interspaces has unbroken parts, the regenerative cycle with these proportions

'"· Sen will not work and therefore the piston wall will would blacken.

After various tests it was found that the hydrogen / chlorine ratio was 1.11 or less, but at least one of

·· »should have .352 or more. Since the undressed Parts 18 generate some heat, it was found that more hydrogen should be used, more Hydrogen compared to a lamp that has short-circuited segments. Furthermore

• i> was the corrosive effects of free chlorine on Lamp parts are very delayed with these amounts of hydrogen.

To determine the correct amount of chlorine and hydrogen in the lamp according to the present

">" Invention to use, turned out to be the off-time of the On-off duty cycle as a major factor. This is the case because the bulb wall of a lamp, e.g. B. 25 Seconds off will be a lower temperature than a lamp that is only off for 5 seconds.

^{r> r} "It has been found here that the amount of chlorine that is required for a lamp with an off time of 0 and 28 seconds, χ between 3.6 and 5.1 10 ⁷ χ 10- ⁷ g-atoms / The amount of hydrogen can be in the range from 1.8 χ K) - ⁷ to

Wi 4.0 χ 10 g atoms / ml flask volume lie.

The lamp according to the invention is better than the known lamps, because it forms:; I on the Piston wall opposite the luminous coil part 17, the F i g. 2 shown at 20, no precipitation.

<> ■ This is probably due to the fact that the piston wall temperature is higher at 20 than at around 140 ⁰ C.
Although chlorine to the lamp as an element or

ι 4

Connection can be added is the one before a duty cycle of 2 seconds on and 28

/ ugte form carbon tetrachloride CCU. Operated in a second off. In addition to these l'arame-

Special commercial version of the lamp tern was the lamp with a pressure of J, 2

It was found that 5.1 χ 10 g-atoms of chlorine / cm ¹ filled the spheres and contained argon as an inert gas.

Flask volume and J ₁ J 10 'g-aiome water-. This lamp was generally made with HXK) wall

fabric / cm ^J piston volume the blackening of the piston operated and can be at a voltage of 180 or 2J0

wall and the attack of chlorine on lamp parts are placed volts,
prevent effectively. This particular lamp was made in

1 sheet of drawings

Claims (3)

Patent claims: 1. Incandescent lamp with different power output from an elongated tubular bulb and a filament with extended sections, which extends axially in the bulb and at the ends of which are connected to current-supplying conductors, which are hermetically sealed in the bulb, which is a filling of an inert filling gas, contains an amount of hydrogen and an amount of chlorine, characterized in that chlorine in an amount of 3.6 χ 10 ~ 'g-atoms to 5.1 <10' g-atoms / ml flask volume and hydrogen in an amount of 1.8 χ 10-? up to 4.0 10 ⁷ g-atoms / ml flask volume are present and the hydrogen / chlorine ratio varies in the range from about 0.352 to 1.11. 2. Incandescent lamp according to claim 1, characterized in that the amount of chlorine is 5.1 χ 10 'g-atoms / ml Flask volume, the amount of hydrogen is 3.3 χ 10 g atoms / ml flask volume. 3. Incandescent lamp according to claim I, characterized in that the chlorine of the lamp in the form of Carbon tetrachloride is added