DE2342568A1 - MERCURY FILLED DISCHARGE LAMP - Google Patents

Description

PHN.6503 "JW / EVH.

File: PHN- 6503

Registration from »22nd AUg. 1973

"Discharge lamp with mercury filling"

The invention relates to a discharge lamp with a glass bulb containing mercury and with a inner electrode is provided, which is connected to an electrical feed-through conductor made of copper sheathed wire, wherein at least that part of the electrical wire consisting of copper clad wire lying between the electrode and the glass bulb Bushing conductor is provided with a coating consisting of an oxide layer, which is in direct contact with the discharge space of the lamp »

They are glow discharge lamps of the type mentioned above known, in which the covering oxide layer consists of chromium oxide. This layer served to attack the copper clad wire by what is present in the discharge lamp

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Avoid mercury. A disadvantage of these G-lime discharge lamps was complicated manufacturing owing to an additional arrangement of chromium oxide.

In another known discharge lamp, namely a low-pressure mercury vapor arc discharge lamp an electrical feedthrough consisting of two different wire parts is used, the connection, for example a weld, these two wire parts in the wall of the discharge vessel and that of the discharge space remote wire part consists of copper clad wire and the other part, for example made of nickel or some other mercury-resistant material, a disadvantage is that The making of the electrical feedthrough conductor is involved because two wire pieces are different material must be used and a welded connection between these wire parts must be made.

The aim of the invention is to produce a discharge lamp of the type mentioned at the outset in a simple manner in this way to be able to ensure that in the finished lamp there is practically no attack on the leadthrough conductor by the mercury.

For this purpose, the discharge lamp according to the invention is characterized in that said part of the through- conductor consists of a copper sheathed wire, which is from is surrounded by a CugO layer, which is formed by electrical oxidation of the outside of the copper of the copper clad wire is generated.

An advantage of a discharge lamp according to the invention is that no oxide layer of any metal other than copper,

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such as a chromium oxide layer on the copper clad wire needs to be attached. This is because the electrical oxidation of copper wire, which is known per se Surprisingly, the result is an oxide skin that is so good that it also protects against mercury, which is in the discharge lamp is permanent. The electrical oxidation of copper clad wire is described, for example, in Dutch patent application 6712186.

Another advantage of a lamp according to the invention is that there is now also no welded connection in the lead-through conductor gives in place of the wall of the discharge vessel s it.

The discharge lamp can, for example, be a low-pressure mercury vapor be discharge lamp, the discharge being an arc discharge.

In a preferred embodiment of a discharge lamp according to the invention, the lamp is a glow discharge lamp. χ

One advantage of this preferred solution is that even in these mostly very small lamps, additional materials, like chromium oxide, or additional welded joints in the Can stay away from the wall.

In a further preferred embodiment one lamp according to the invention, the connection of the electrode to the leadthrough conductor is a welded connection which is on has been produced electrically.

One advantage of this preferred embodiment is that the welded joint against mercury is also good

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can be constant. To a much lesser extent, this would be the Case, if you had made a welded joint, which would have been realized by gas flames, because the oxide skin of the copper clad wire was attacked to a greater extent were.

Two exemplary embodiments of the invention are shown in the drawing and are described in more detail below. Show it:

Pig. 1 a glow discharge lamp according to the invention,

2 shows an end part of a low-pressure mercury vapor discharge lamp according to the invention, which is in operation has an arc discharge.

In Fig. 1, 1 is a glass bulb with a discharge space 2 in which there is a noble gas, for example neon or a combination of neon and argon, to which mercury has been added. Furthermore, the discharge space 2 contains two electrodes 3 and 4, which are made of a mercury-resistant electrode material, for example molybdenum, and are cylindrical. With 5 and 6, two lead wires made of copper sheathed wire, with a core made of an iron alloy, are referred to. The outside of these lead wires have been electrically oxidized. These wires lead through the glass bulb 1. The lead wire 5 is connected to the electrode 3 and the lead wire 6 is connected to the electrode k . The connections between the lead wires and the electrodes are made by means of an electrical welding process. A luminous layer, for example made of willemite, is located on the inner wall of the glass bulb.

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Experiments have shown! that these Even after one year of storage, the lamps did not show any attack on the copper clad wire by the mercury. at a gas-oxidized copper clad wire was already after an attack on the copper sheathed wire was found for two weeks,

Ση Fig »2, 2Q denotes an end part of a low-pressure coke silver vapor arc discharge lamp which is provided with a glass bulb. A layer of fluorescent material is located on the inside of the bulb 2t. 22 is a pinch seal and 23 is a shredded exhaust tube. 2k denotes a metal ring which has connection pins and 26 arranged in an isolated manner. One end of an electrode 27 is connected to the connection pin 25 ″ via an electrically oxidized copper sheath wire 28. The other end of the electrode 27 is connected to the connection pin 26 via an electrically oxidized copper sheath wire 29. These copper sheathed wires 28 and 29 go through at the point of pinch through the glass wall of the discharge lamp, 28 and 29 are therefore the electrical feed-through conductors,

As in the lamp according to FIG. 1, the copper jacket wires are also in the case of the lamp part according to FIG. 2 Resistant to the mercury in the discharge lamp.

Also in the case of the lamp part shown in FIG are the connections of the copper jacket! wires 28 and by an electric welding process.

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Claims (2)

- 6 - ' PHN. 6503 PATENT CLAIMS t rl / discharge lamp with a glass bulb containing mercury and is provided with an inner electrode which is connected to an electrical lead-through conductor made of copper sheathed wire is connected, at least the part lying between the electrode and the glass bulb of the copper sheathed wire existing electrical bushing conductor with a an oxide layer is provided, which is provided with the discharge si * aum of the discharge lamp directly in Contact is, characterized in that the designated Part of the lead-through conductor consists of a copper clad wire, which is surrounded by a CuoO layer, which is through electrical oxidation of the outside of the copper of the copper clad wire is generated. 2. Discharge lamp according to claim 1, characterized in that that the lamp is a glow discharge lamp · 3 · Discharge lamp according to claim 1 or 2, characterized in that indicates that the connection between the electrode and the lead-through conductor is a welded connection which is based on has been produced electrically 409813/0342