DE1801627A1 - Step reflector for lights - Google Patents

Description

Step reflector for lighting fixtures The invention relates to a Reflector for lighting fixtures for optimal use of the light source, in particular for portable, collector-fed lights with filament lamps.

With such lights it is necessary on the one hand to control the luminous flux to make full use of the light source and, on the other hand, not to make the reflector too large, so that the portable lights do not become unwieldy and bulky.

In order to keep the mostly parabolic reflectors as small as possible, one can choose a parabolic parameter that is as small as possible. But depending on that Dimensions and power of the light source used, thermal and optical Limits are set: especially with mirrored plastic reflectors, to too little distance to the light source, the heat load is too great. But it will be general the law of mapping if the light source - as usual - is not point-shaped, the more poorly fulfilled, the more the parameters of the paraboloid are in the order of magnitude the breath- sings of the filament come, with the result that the Throwing distance gets worse instead of better.

The invention is based on the object of a reflector for lighting fixtures to be designed so that it has smaller dimensions with the same performance and throwing distance has than the previously known designs, without loss of light output or disadvantages in terms of thermal engineering arise. The object is according to the invention solved with a step reflector, with the stumps of paraboloids of revolution with various parabolic parameters as partial reflectors concentric to the reflector axis and are arranged with a common focus and distributed so that they are without themselves mutually switch off a given solid angle of the light source radiation subdivide and reflect in bundles, which seamlessly become an axially parallel one Composing radiation.

A step reflector is used as a particularly favorable embodiment Stumps of three paraboloids of revolution are proposed whose parabolic parameters are different behave like 3: 2: 1, and of which the partial reflectors with the larger parabolic parameters are connected by a non-reflective truncated cone, the imaginary apex of the cone lies in the focal point of the light source and its generator from one of these two Xeilreflectors common boundary beam is formed.

The partial reflector with the smallest parabola parameter is in that of the non-reflective zone lying on the truncated cone and in the radiation (axial) direction advanced so far that it neither direct nor reflected rays to it or shaded by the other two partial reflectors. The partial reflectors can made of plastic with a reflective layer.

The advantages achieved with the invention are in particular: that the reflector with the same optical performance compared to the previously known Reflectors could be reduced significantly, e.g. in diameter by a third, in depth by more than half, without the distances to the light source in the same Decrease degree. The composition of the partial reflectors allows for variations Width and depth of the step reflector, which is particularly good at constructive Can adapt the conditions of the lights. The normal heat load allows one Execution in plastic, with the weight saved and an efficient production is made possible.

An embodiment of the invention is shown in the drawing and is described in more detail below. They show: FIG. 1 a longitudinal section through the step reflector according to the invention and Pig. 2 a longitudinal section for comparison by means of a conventional paraboloid reflector with the same solid reflection angle, The step reflector is formed from three stumps of paraboloids of revolution, whose Parabolic curves are described by the parabolic apex equation y² = 2p.x, where 1 / 2p is the distance of the vertex from the focal point. The parameters of the three parabolic curves 1, 2 and 3 have a ratio of 3: 2: 1. The vertex distance from the focal point has the following here ; values: area 1: 1 / 2p = 18 mm 2: 1 / 2y = 12 mm 3: 1 / 2p = 6 mm The partial reflector 1 is connected to the partial reflector 2 via the truncated cone 4, and from this is with the help of the cone 7 made the connection to the lamp base 8, the attachment of the partial reflector 3 is carried out by two or more supports 5 on the non-reflective Conical surface 4 between the partial reflectors 1 and 2.

The supports are expediently shaped so that they absorb the light rays not significantly affect the partial reflector 1. The truncated cones 4 and 7 have their imaginary tips in the filament of the incandescent lamp 10 and extend in the direction of the marginal rays of the partial reflector 2, which enclose the spatial sector 61 and from which the upper at the same time the lower marginal ray of the partial reflector 1 for the spatial sector 62 is, the upper edge beam in turn the lower of the partial reflector 3 for the Space sector 63 is.

The step reflector has a maximum diameter of 100 mm and a depth of 30 mm. The reflector 1 'according to FIG. 2 is of a known design and for comparison with the step reflector with a focus-vertex distance of 1 / 2p = 18 mm (like curve 1 in Fig. 1). With the same solid angle 6 is the maximum reflector diameter 150 mm and the reflector depth 75 mm.

Such a reflector is more common in or on the housing, from collectors No longer to accommodate powered hand lamps, while this is the case with the step reflector according to Fig. 1 is very possible.

Claims (3)

Claims 1. Step reflector for lighting fixtures, especially for portable, Collector-powered lights, characterized in that stumps of paraboloids of revolution with different parabolic parameters as partial reflectors (1,2,3) concentric to the Reflector axis and with a common focal point are arranged and distributed in such a way, that they, without shading each other, a predetermined solid angle (6) of the Subdivide light source radiation and reflect it in bundles that are seamless combine to form an axially parallel radiation. 2. Step reflector for lighting fixtures according to claim 1, characterized by three parabolic stumps of rotation as partial reflectors (1,2,3), their parabolic parameters behave like 3: 2: 1 and of which the partial reflectors (1,2) with the larger ones Parabolic parameters are connected by a non-reflective truncated cone (4), whose imaginary cone tip lies in the focal point of the light source and its generator is an edge beam common to these two partial reflectors, while the partial reflector (3) with the smallest parabolic parameter in the anechoic lying in front of the truncated cone Zone (9) arranged and advanced in the radiation (axial) direction so far that he neither the reflection from the inner partial reflector (2) nor the rays from the light source shading to the outer partial reflector (1), 3. Step reflector for lighting fixtures according to claim 2, characterized in that the middle part reflector (3) with Supports (5) on the truncated cone connecting the two other Deilreflectors (1,2) (4) is mounted. Blank page