NL7904881A - LAMP REFLECTOR UNIT. - Google Patents

Description

a

tj S; * K *. N.V. Philips' Incandescent lamp factories in Eindhoven.

PHN 9 ^ 97 1 <"Lamp reflector unit".

The invention relates to a lamp-reflector unit comprising a halogen incandescent lamp with a single-pin, quartz glass lamp vessel, sealed with a pump-stem meltdown, and a concave reflector with an opening 5 near its top in which the pinch of the light bulb is inserted, the incandescent lamp having a helically wound filament surrounding the optical axis of the reflector and filled with an inert gas containing bromine and hydrogen.

Such a lamp-reflector unit is known from Dutch patent 156.827 (PHN 2239) and can be used for slide or narrow film projection. The lamp vessel of the lamp used therewith is made of glass tube, so that the diameter of the lamp vessel has a size corresponding to the width of the nip.

The aperture near the top of the reflector should be so much larger in size than the cross-section of the pinch of the lamp vessel that the lamp during assembly of the unit by sliding in lateral directions with its filament relative to the optical axis of the re-20 flector can be aligned.

The opening in the reflector, however, reduces the reflecting surface of the reflector and therefore gives off light loss. If, in order to limit this light loss, one chooses a smaller opening in the reflector and consequently also the cross section of the pinch of the lamp vessel, 7904881 4 · ; nphn 9 ^ 97 2 _______ dimensions reached, with the lamp envelope blacking out during operation. The opposite of an increased light output is then achieved.

The object of the invention is now to provide a lamp-reflector unit 5 with an increased light output.

This object is achieved in a lamp-reflector unit of the type mentioned in the opening paragraph, because the lamp vessel of the halogen incandescent lamp is convex and has a larger transverse dimension than the width of the nip.

The lamp envelope of the halogen incandescent lamp may, for example, have a spherical or ovoid shape. The convex lamp vessel makes it possible to use a reflector intended for lamps with a relatively low power, for example 100W for a lamp of, for example, 2f> 0 or 300M. On the other hand, the convex lamp vessel makes it possible to start from the manufacture of the lamp from a glass tube with a smaller diameter than usual and to insert the pinch, which is consequently narrower, into a smaller opening of a reflector than usual and nevertheless the lamp with its filament aligned with respect to the optical axis of the reflector.

The extent to which the opening in the reflector must be larger than the cross section of the pinch of the halogen incandescent lamp is determined by the accuracy with which the filament is positioned in the lamp vessel during the manufacture of the incandescent lamp. If this accuracy is great, the opening in the reflector will only need to be slightly larger than the cross-section of the pinch of the lamp vessel to nevertheless allow an aligned arrangement of the lamp.

"Quartz glass" means a type of glass with a silicon dioxide content of at least 95% by weight.

Bee. the manufacture of the halogen incandescent lamp may contain, in addition to inert gas, HBr or H 2 and Br 2 or a brominated hydrocarbon such as C 2 Br 2 or a mixture of these materials.

The convex lamp vessel can be obtained from glass. “Pipe, after squeezing it in, blow it out or not in a mold, 7904881» •> PHN ^ h ^ η '3 _________ the pipe after heating it.

The reflector can consist of a glass, plastic or metal body. The reflector can reflect both visible and invisible radiation, such as in the case of a metal reflector or a metal covered reflector, or substantially visible radiation, such as in the case of a glass or plastic body coated with a dichroic coating.

It is noted that German Offenlegungsschrift 2337192 discloses single-pin halogen lamps with a filament arranged transversely. The Offenlegungs script describes a method for the manufacture of those lamps, in which a glass tube is closed at one end by a spherical head, and is constricted near that closure. Into the tube an assembly of filament, power supply and current conduction conductor is introduced, the filament of which and the other parts cannot pass through the constriction. The tube is pumped and filled with filling gas, after which a pinch seal is made in the tube on the side of the constriction remote from the filament. A lamp is thereby obtained with a convex lamp vessel.

The object of the method is to make a pump stem on the lamp vessel superfluous. The convex shape of the lamp vessel is therefore obtained for a completely different purpose than in the unit according to the invention.

Moreover, the known lamp is not suitable for use in a unit according to the invention, since the filament is perpendicular to the axis of the lamp vessel. and therefore throws a very large part of the emitted light to the pinch of the lamp vessel, where it is not reflected, at least not directed.

In an axial arrangement of the filament in the lamp envelope in a unit according to the invention, on the other hand, one end of the filament is directed towards the nip and significantly less light is cast onto the nip parallel to the optical axis of the reflector. Same- 7904881

Claims (3)

t · «f '-, -----: ------------------------------------ --------: ------------ I PHN 9497 4 * tj ------ the applies to heat radiation. The pinch of the lamp therefore remains cooler in the unit according to the invention. Embodiments of lamp-reflector units according to the invention are shown in the drawing. In it is 5. fig. 1 a section through the axis of a unit fig. 2 is a variant of figure 1. In figure 1, reflector 1. has a glass reflector body 2, the concave surface of which is covered with a reflecting layer. The reflector 1 has an opening 104 near its top, into which the pinch 5 of a halogen incandescent lamp 6 is inserted. The lamp vessel 7 of the incandescent lamp 6 is substantially spherical and has a diameter greater than the width of the nip 5. The filament 8 of the lamp 6 surrounds the optical axis 9 of the reflector 1. In the nip 5 current lead conductors 10 and 11, each of which is connected to a leg of the filament 8 and to an external current conductor 12 and 13, respectively. The filament lamp 6 is fixed in the reflector 1 with kit 14 '. The lamp picks up at 250 ¥ at 24V. In figure 3 parts corresponding to those in figure 1 are indicated with the same numbers. The reflector 1 is a metal body to which a ceramic sleeve 15 is connected. The lamp vessel 25 of light bulb 6 is indicated by 16. The lamp absorbs 300W at 120V. The lamps of figure 1 and figure 2 were filled with 3 bar krypton, to which 0.45 vol.% CH2 Br. Lamp-reflector unit with a halogen incandescent lamp 30 with a single-pin, quartz-glass lamp vessel, sealed under vacuum with a pump stem meltdown, and a concave reflector with an aperture near its top, in which the light bulb has a pinch, which has a helically wound filament, which surrounds the optical axis of the reflector, and which is filled with an inert gas containing bromine and hydrogen, characterized in that the halogen bulb lamp vessel is convex and of a larger transverse size. . then has the width of the pinch. 7904881