EP0549056A1

EP0549056A1 - Electric discharge lamp

Info

Publication number: EP0549056A1
Application number: EP92203956A
Authority: EP
Inventors: Henrikus Johannes Hubertus Pragt
Original assignee: Philips Gloeilampenfabrieken NV; Koninklijke Philips Electronics NV
Current assignee: Koninklijke Philips NV
Priority date: 1991-12-23
Filing date: 1992-12-16
Publication date: 1993-06-30
Anticipated expiration: 2012-12-16
Also published as: DE69210973D1; EP0549056B1; JPH05314952A; DE69210973T2

Abstract

The electric discharge lamp has a discharge vessel (2), which is mounted in an outer bulb (1). A glass sleeve (10) is surrounding the discharge vessel. A coiled wire (11) is used as an envelope (11) to a glass sleeve. The wire is in an electrically floating manner fixed around the sleeve (10), e.g. by clamping fit. The construction of the lamp is simple an effective to protect the outer bulb (1) from being damaged by an explosion of the lamp vessel (2) and to prevent sodium, if present, to disappear from the discharge vessel as a result of photoemission.

Description

The invention relates to an electric discharge lamp comprising:
an outer bulb closed in a gastight manner;
a discharge vessel closed in a gastight manner and having an axis and seals on its axis, a pair of electrodes being arranged in said discharge vessel;
a glass tube axially surrounding the discharge vessel;
a light-transmitting metal part surrounding the tube; and
current conductors which extend from outside the outer bulb to the pair of electrodes and are connected thereto.
Such an electric lamp is known from US 4 721 876.
In the known lamp, the glass tube is surrounded by a meshwork of metal wire which is fixed around the tube with metal clamping strips. The clamping strips are electrically conducting and connected to a live mount which supports the discharge vessel and the tube. The meshwork as a result is under electrical tension, which can lead to the disappearance of sodium from the discharge vessel if the latter contains sodium. Changes in lamp characteristics are the result of this.
It is an object of the construction of the known lamp to keep the outer bulb intact if the discharge vessel should explode. Explosion may occur when the lamp reaches the end of its life.
The construction of the known lamp is complicated. The manufacture of the meshwork, or of a braided assembly, and its manipulation are difficult. Another disadvantage is the risk of sodium disappearance.
It is an object of the invention to provide an electric lamp of the kind mentioned in the opening paragraph which is of a simple and reliable construction.
According to the invention, this object is achieved in that a helically coiled metal wire surrounds the glass tube and is fixed around this tube so as to be electrically floating.
The wire may be fastened to one of the current conductors by means of an electrically insulating bridge.
An alternative possibility, however, is that the wire is fastened to the tube, for example, in that ends of the wire are fastened to the tube with cement or are fused into the tube.
A very attractive, convenient and reliable fastening is one in which the wire is fixed around the tube by its own clamping force. The wire has in that case been coiled on a mandrel with a smaller diameter than the tube, and has been twisted, for example against its coiling direction, during assembly so as to give its turns a larger diameter. After the wire has been applied around the tube, the twisting force is released and the wire will surround the tube with clamping fit.
In spite of the comparatively great pitch which the wire may have, for example several mm, for example 4 or 9 mm, the wire provides a good electrical screening of the current conductor which runs alongside the discharge vessel and also on that account counteracts the disappearance of sodium, if this should be present in the discharge vessel. The construction provides a reliable protection against damage to the outer bulb in the case of an exploding discharge vessel. The influence on the luminous flux of the lamp is very slight.
An embodiment of the electric lamp according to the invention is shown in side elevation in the drawing.
In the Figure, the electric discharge lamp has an outer bulb 1 which is closed in a gastight manner and which accommodates a discharge vessel 2 which is closed in a gastight manner and which has an axis 3 and seals 4 on its axis. A glass tube 10, for example, made of quartz glass or of hardglass, axially surrounds the discharge vessel. The tube has a surrounding part 11. A pair of electrodes 6 is present in the discharge vessel in an ionizable medium. Current conductors 7 extend from outside the outer bulb to the pair of electrodes and are connected thereto. The glass tube 10 is fastened to a current conductor 7 by means of clamping strips 5. The tube may have a wall thickness of, for example, 1 mm or less.
A helically coiled metal wire 11 surrounds the glass tube 10 and is fixed around said tube so as to be electrically floating.
To achieve this, for example, resistance wire may be used, for example, kanthal wire or tantalum wire. In the lamp shown, wire of 0.25 mm diameter is used, coiled with a pitch of 5 mm. Alternatively, however, a thinner wire, for example of 0.2 mm, or a greater pitch may be used, for example 7 mm. The coiled wire is thin and has an open structure. Influence on the luminous flux of the lamp, therefore, is scarcely perceivable.
The wire 11 is fixed around the tube 10 by its own clamping force.
The lamp shown in a high-pressure metal halide discharge lamp which contains metal halides, mercury, and rare gas. The lamp consumes a power of 70 W during operation.
During stable lamp operation, the discharge vessel was made to explode by means of a current surge. The outer bulb remained entirely undamaged during this, which proves that the construction of the lamp effectively protects the surroundings against the consequences of an explosion of the discharge vessel.
The wire surrounding the tube is electrically floating. Disappearance of sodium, if present, from the discharge vessel is effectively counteracted by this. If an electron should be detached from the wire by UV radiation, the wire is given a positive potential which slows down further electron losses. Moreover, the wire effectively screens the current conductor extending alongside the discharge vessel from the discharge.
It was found that the construction is sufficiently effective and reliable when the wire surrounds the pair of electrodes, i.e. the cavity of the discharge vessel, laterally.

Claims

An electric discharge lamp comprising:
an outer bulb (1) closed in a gastight manner;
a discharge vessel (2) closed in a gastight manner and having an axis (3) and seals (4) on its axis, a pair of electrodes being arranged in said discharge vessel;
a glass tube (10) axially surrounding the discharge vessel;
a light-transmitting metal part (11) surrounding the tube; and
current conductors (7) which extend from outside the outer bulb to the pair of electrodes and are connected thereto,
characterized in that a helically coiled metal wire (11) surrounds the glass tube (10) and is fixed around this tube so as to be electrically floating.
An electric lamp as claimed in Claim 1, characterized in that the metal wire (11) is fastened to the tube (10).
An electric lamp as claimed in Claim 1, characterized in that the metal wire (11) is fixed around the tube (10) by its own clamping force.