Electric lamp having a partly mirrored lamp envelope

Description

[0001] The invention relates to an electric lamp having a sealed vacuum-tight glass lamp envelope through the wall of which current supply conductors to an electric element accommo- . dated in the lamp envelope pass to the exterior where they are attached to the lamp cap connected to the lamp envelope, the wall of said lamp envelope being provided with a metal reflecting layer over a part of its inner surface.

[0002] Such lamps are generally known, inter alia from United States Patent Specification 2,070,700 and are commercially available. Usually the lamps are incandescent lamps in which either the part of the lamp envelope opposite to the lamp cap or a part of the lamp envelope situated near the lamp cap is mirrored. In the former case we have bowl-mirrored lamps in which a spherical or substantially spherical part of the lamp envelope is mirrored and which are used in a reflector to obtain a narrow light beam; in the latter case we have mirrored lamps which produce a comparatively narrow light beam without further optical auxiliary means. Among these latter lamps are ring mirror lamps having a blown lamp envelope the mirrored part of which is usually curved para- boloidally, and lamps from pressed glass the lamp envelope of which consists of a para- boloidal cup which is closed with a cover glass.

[0003] For mirroring a part of a lamp envelope, aluminium or silver is frequently used due to the high coefficient of reflection of said metals, or chromium is used. Since much wood and leather is used in the present-day interiors, lamps having silver coloured, aluminium, silver, or chromium, mirrors are out of keeping in such interiors. Bowl mirrored lamps are nearly always mounted so as to be visible, while ring mirror lamps and pressed glass lamps are frequently used in luminaires only surrounding the lamp cap of the lamps.

[0004] In order to remove the optically cold impression of mirrored lamps, such lamps are therefore provided with a gold coloured mirror. However, the disadvantage of the use of gold is a high cost price and a poor adhesion of said metal to glass, so that after a small number of hours in operation a crackled effect is already obtained which adversely influences the concentrating effect of the mirror.

[0005] Other commercially available lamps having a gold coloured mirror have been manufactured by vapour-depositing alternately copper and silver or aluminium. For the benefit of a good adhesion said materials must be vapour-deposited in very thin layers which are each not completely dense, that is they do not have a uniform optical density throughout their surface so that several layer pairs must be provided so as to obtain the desired effect. This makes the manufacture of the lamps time-consuming and expensive.

[0006] It is the object of the invention to provide mirror lamps in which on the one hand the disadvantage of silver-coloured mirrors is avoided and on the other hand the disadvantages of the use of gold or imitation gold mirrors are avoided.

[0007] In electric lamps of the kind described in the opening paragraph this object is achieved in that the metal layer is silver coloured and that at least that part of the envelope which is provided with the metal layer has a transparent smoke-colour.

[0008] In an embodiment of the lamp in accordance with the invention this has been realised by manufacturing the lamp envelope entirely or partly from smoke-coloured glass.

[0009] In another embodiment, however, the inner surface, the outer surface or the inner and outer surface of the lamp envelope has a transparent, smoke-coloured layer. When only the inner surface has such a layer, the mirror layer, of course, is present on the colour layer. A smoke-coloured layer on the outer surface of the lamp envelope has the advantage that only one type of lamp need be manufactured of which a number may be provided with a coloured layer, as reqiured, at the end of the production process, whereas the remaining lamps can be sold as silvered lamps.

[0010] The colour layer may consist of a smoke-coloured enamel or of a smoke-coloured lacquer. As a lacquer are to be considered in particular silicone lacquers due to their stability at higher temperatures. They can easily be provided by spraying or dipping while diluted with solvents or be provided in an electrostatic coating process.

[0011] In bowl mirrored lamps in which the part of the lamp envelope situated opposite to the lamp cap is mirrored, it will nearly always suffice to colour the mirrored wall portion, for example, by providing a colour layer on the outside of the lamp envelope. When placed in a luminaire, bowl mirrored lamps hardly ever give the occasion of observing the inside of the mirror. Such a lamp gives the impression of having a gold mirror. Lamps having a gold mirror give light of a warmer tinge than lamps having a silver-coloured mirror. If it is desired for lamps according to the invention also to emit light of a warmer tinge, the window of the lamp envelope through which the light emanates is also provided with a smoke-coloured layer.

[0012] In lamps in which a part of the lamp envelope which is situated closer to the lamp cap is mirrored, it will also suffice to colour the mirrored wall part. However, these lamps may also be used so that the inside of the metal mirror can also be observed. Therefore, in this type of lamps the window of the lamp envelope is preferably also coloured so as to give them a universal application as imitation gold mirror lamps.

[0013] In order to make a silver-coloured, silver, aluminium or chromium, mirror gold coloured, a slightly coloured coating layer or a slightly coloured glass is sufficient. A small series of tests will enable the expert to determine the desired colour and colour intensity.

[0014] The measure used in lamps according to the invention is particularly suitable for incandescent lamps in which the electric element is a filament but is also suitable for discharge lamps in which the electric element is a pair of electrodes in an ionisable gas, usually enveloped by a discharge vessel.

[0015] Embodiments of lamps according to the invention are shown in the drawing. In the drawing

Fig. 1 is an elevation, partly broken away, of a bowl mirrored incandescent lamps;

Fig. 2 is an elevation partly broken away of a pressed glass discharge lamp;

Fig. 3 is an elevation partly broken away of a ring mirror incandescent lamp.

[0016] In Fig. 1, the lamp envelope 1 is provided with a silver layer 4 over its part 2 situated opposite to the lamp cap 3. Part 2 is coated on its outside with a transparent smoke-coloured iron oxide-containing enamel layer 5. A filament 6 is accommodated between current supply conductors 7 and 8 which are connected to the lamp cap 3. Between its ends the filament 6 is supported by wires 9.

[0017] The lamp in Fig. 2 has a bipartite lamp envelope 20, 21 of pressed glass. The para- boloidal part 20 is covered with an aluminium layer 22 and is made of smoke-coloured glass. The cover glass 21 is of colourless pressed glass. Connected to the lamp envelope is a lamp cap 23 from which current supply conductors 24 and 25 extend to a high pressure sodium vapour discharge vessel 26.

[0018] The lamp envelope 30 in Fig. 3 has a para- boloidally curved lamp envelope part 31 which is covered with an aluminium layer 32. Lamp envelope part 31, like window 33 and the neck- shaped part 34 of the lamp envelope, to which a lamp cap 35 is secured, is covered with a smoke-coloured lacquer layer 36. A filament which is hidden from view by the mirror 32 is supported by wires 37 and provided with current by current supply conductors 38 which are connected to the lamp cap 35.

Example

[0019] Lamps as shown in Fig. 3 having a lamp envelope with a largest diameter of 63 mm had an aluminium mirror vapour-deposited in a vacuum. The lamp envelope was dipped in a bath of

68 g of silicone resin

2.1 g of orange dye solution

8 g of black dye solution

16.2 ml of xylene

3.2 ml of diacetone alcohol

2.1 ml of ethyl glycol acetate.

[0020] The lacquer was then dried at approximately 40°C for 5 minutes and baked at 300°C for 3 minutes. In a particular case the orange dye solution used was:

500 g of Zapon echt orange G

4.4 of ethanol

6.4 of ethyl glycol acetate

and as a black dye solution:

500 g of Neozapon black R.E.

4.4 of ethanol

6.4 of ethyl glycol acetate.

[0021] The lacquer provided the lamp with a brown- grey to yellow-grey colour.

[0022] The lamps were tested for life. A very good colour stability was found. The lamps con= sumed a power of 40 W at 220 V. "Zapon echt" and "Neozapon" are registered trade marks of BASF: They denote azodyes-with complex bound chromium, copper and cobalt.

Claims

1. An electric lamp having a sealed vacuum-tight glass lamp envelope through the wall of which current supply conductors to an electric element accommodated in the lamp envelope pass to the exterior where they are connected to a lamp cap secured to the lamp envelope, the wall of said lamp envelope being provided with a metal reflecting layer over a part of its inner surface, characterized in that the metal layer is silver coloured and that at least that part of the lamp envelope which is provided with the metal layer has a transparent smoke-colour.

2. An electric lamp as claimed in Claim 1, characterized in that the smoke-colour is provided by a transparent smoke-coloured layer on the envelope.

3. An electric lamp as claimed in Claim 2, characterized in that the smoke-coloured layer is a lacquer layer.

4. An electric lamp as claimed in Claim 2 or 3, characterized in that the layer is provided on the outer surface of the lamp envelope.

5. An electric lamp as claimed in any of the preceding Claims, characterized in that the whole lamp envelope has a transparent smoke-colour.

Revendications

1. Lampe électrique présentant une enveloppe en verre scellée hermétiquement à travers de la paroi de laquelle des entrées de courant d'un élément électrique disposé dans l'enveloppe sortent vers l'extérieur ou elles sont fixées à un culot relié à l'enveloppe, la paroi de ladite enveloppe étant revêtue d'une couche métallique sur une partie de sa surface intérieure, caractérisée en ce que la couche métallique est en couleur d'argent et qu'au moins la partie de l'enveloppe recouverte de la couche métallique est d'une couleur transparente fumée.

2. Lampe électrique selon la revendication 1, caractérisée en ce que la couleur de fumée est obtenue à l'aide d'une couche fumée transparente sur l'enveloppe.

3. Lampe électrique selon la revendication 2, caractérisée en ce que la couche fumée est une couche de vernis.

4. Lampe électrique selon la revendication 2 ou 3, caractérisée en ce que la couche est appliquée sur la surface extérieure de l'enveloppe de la lampe.

5. Lampe électrique selon l'une des revendications précédentes, caractérisée en ce que toute l'enveloppe de lampé présente une couleur de fumée transparente.

Ansprüche

1. Elektrische Lampe mit einem geschlossenen vakuumdichten Glaskolben, durch dessen Wand Stromzuführungsleiter zu einem im Lampenkolben angeordneten elektrischen Element herausgeführt sind, die an einem am Lampenkolben befestigten Sockel angeschlossen sind, wobei de Lampenkolben auf einem Teil seiner Innenfläche mit einer reflektierenden Metallschicht bedeckt ist, dadurch gekennzeichnet, dass die Metallschicht silberfarben ist und zumindest jener Teil des Lampenkolbens, der mit der Metallschicht bedeckt ist, eine durchsichtige Rauchfarbe besitzt.

2. Elektrische Lampe nach Anspruch 1, dadurch gekennzeichnet, dass die Rauchfarbe mit Hilfe einer durchsichtigen rauchfarbenen Schicht auf dem Kolben erreicht ist.

3. Elektrische Lampe nach Anspruch 2, dadurch gekennzeichnet, dass die rauchfarbene Schicht eine Lackschicht ist.

4. Electrische Lampe nach Anspruch 2 oder 3, dadurch gekennzeichnet, dass die rauchfarbene Schicht auf der Aussenfläche des Lampenkolbens angebracht ist.

5. Electrische Lampe nach einem oder mehreren der vorangehenden Ansprüche, dadurch gekennzeichnet, dass der ganze Lampenkolben eine durchsichtige Rauchfarbe besitzt.

Drawing