DE1801627B2 - STEP REFLECTOR FOR HEADLAMP - Google Patents

Description

reflectors (1, 2) with the larger parabolic parabolas to a step reflector results in connection with

meters and in the radiation (axial) direction the graduation of the parameters such as 3: 2: 1 is an optimal one

tion has advanced so far that it is immediately before ao Solution:

the beam from the light source to the advantages achieved with the invention exist

outer partial reflector (1) and the three are in particular that the reflector at the same

reflected beam bundles seamlessly together - optical performance compared to the previously known

set. Reflectors could be reduced significantly,

15 z. B. in diameter by a third, in depth by

more than half without the distances to the light source

to \ reduce by the same amount. The combination of the partial reflectors allows for variations in width and depth

The invention relates to reflectors for the step reflector, which is particularly

Headlight lights, especially for portable and 3 ° well adapted to the structural conditions of the lights.

Collector-powered headlights illuminate < with annealing fits. The previous heat load allowed

filament lamps. a version in plastic, with the weight

With such lights it is necessary, on the one hand, to save and to enable efficient production,

to fully utilize the luminous flux of the light source and an embodiment of the invention is in the

on the other hand, not to make the reflector too large, 35 drawing shown and will be explained in more detail below

so that the lamp does not become unwieldy. described. It shows

To the mostly parabolic reflectors F i g. 1 a longitudinal section through the step

To keep as small as possible, you can use a possible flexor according to the invention and

choose a small parabola parameter. But these are F i g. 2 a longitudinal section through for comparison

Depending on the size and performance of the 40 used, a conventional paraboloid reflector with the same

Light source, thermal and optical limits come with solid reflection angles.

set: especially with mirrored plastic The step reflector is made up of three stumps of Ro-reflectors is formed if the distance to the lightation paraboloids is too small, the parabolic curve of which source the heat load too great. In general, the parabolic ^{vertex equation >> a} = 2 p ■ χ becomes the mapping law when the light source 45 is written, where Ißp the distance between the vertex - as usual - is not point-shaped, the worse it is from the focal point. The parameters of the three parabolas are fulfilled, the more the parameters of the paraboloid in curves 1, 2 and 3 are in the ratio 3: 2: 1. The magnitude of the dimensions of the filament at a distance from the focal point has come about as follows, with the result that the throwing range has poor values:

instead of getting better. 50 Area 1: Ijlp - 18 mm

The invention is based on the object, the Re area 2: Ißp - = 12 mm

to design the flexor so that it has the same power and area 3: Ißp - = 6 mm
Throwing distance has smaller dimensions than before

known designs without loss of light. The partial reflector 1 is on the truncated cone 4 with

yield or disadvantages in terms of thermal engineering 55 connected to the partial reflector 2, and from this is

develop. with the help of the truncated cone 7 the connection to the

To solve this problem, the invention is based on lamp base 8. The attachment of the part '

a known step reflector, which is made up of several reflectofs 3 by two or more supports 5

Paroboloid stumps of rotation as partial reflectors towards the non-reflecting conical surface 4 between

is composed, which is concentric to and with 60 the partial reflectors 1 and 2. The supports are purpose '

The common focal point on the reflector axis is shaped in such a way that it absorbs the light rays

are ordered and distributed in such a way that they do not significantly affect the partial reflector 1 without each other.

shadow on the side, a given solid angle. The truncated cones 4 and 7 have their imaginary points

the light source radiation and subdivide in axially parallel in the filament of the incandescent lamps 10 and extend

Reflect lelen bundles. 63 in the direction of the marginal rays of the partial reflector 2, the

The disadvantage of this known step reflector is that the spatial sector 6j fell asleep and of which the

that the upper edge beam reflected by the partial reflectors is at the same time the lower marginal ray of the partial reflector

Do not put the bundle together without gaps and as a result of gate 1 for the space sector 6, the upper edge of which

beam in turn is the lower of the partial reflector 3 for the space sector 6 ₃ .

The step reflector has a maximum diameter of 100 mm and a depth of 30 mm. The reflector 1 'according to FIG. 2 is shown in a known design and for comparison with the step reflector with a focal point-vertex distance of Ißp = 18 mm (like curve 1 in FIG. 1) With the same solid angle 6, the maximum reflector diameter is 150 mm and the reflector depth is 75 mm. Such a reflector is more common in or on the housing, hand lamps fed by collectors can no longer be accommodated, whereas this is the case with the step reflector according to FIG. 1 is very possible.

1 sheet of drawings

Claims (1)

1 2 an unfavorable distribution of the partial reflectors only Claim: a small solid angle between 45 and 60 ° that of the radiation emanating from the light source is exploited Step reflector for headlights, in particular, so that overall luminous efficiency and special radiation for portable and collector-fed bill diagrams are unsatisfactory,
These disadvantages are avoided if invented truncated reflectors are distributed as partial reflectors together according to three partial reflectors, whose parabolic parasets, which behave concentrically to and with common meters as 3: 2: 1, are distributed over the same focal point the reflector axis - that the partial reflector with the smallest parabola is arranged and distributed in such a way that, without shading each other between the partial reflectors with the larger sides, a given spatial parabola parameter is arranged and subdivided into radiation angles of the light source radiation and ) Direction is advanced so far that it is reflected in axially parallel bundles, geke η n- draws directly in front of the beam from the light source through three partial reflectors (1, 2, 3), to the outer partial reflector and the three parabolic parameters of which are like 3: 2: 1 restrained 15 reflected bundles of rays together and from them without gaps the partial reflector (3) with the set. smallest parallel parameter between the partial The arrangement according to the invention of the partial reflective