DE102011090136A1 - LED lighting fixture has reflector that is designed so that light guide changes if relative operating position is changed - Google Patents

Abstract

The LED lighting fixture (1) comprises a bulb housing (2), LED module (3,4) and reflector (6,7). The reflector with respect to the position of the LED module and/or LED module with respect to the position of the reflector is adjustable so that the relative working position between the reflector and the LED module is varied. The reflector is designed so that light guide changes if the relative operating position is changed.

Description

The invention relates to an LED luminaire, comprising a luminaire housing, at least one LED module and a reflector.

The reflector gives the LED lamp (lamp with light-emitting diode) a certain property of light emission or a specific light guidance and distribution in order to illuminate a room or in a certain way to illuminate a surface. As an alternative to using a reflector, it is known to use a condenser lens to achieve the desired light output or distribution.

An LED lamp of the type mentioned can be used for example for street lighting. When a reflector is used for light distribution, the LED module is typically mounted in the center of the reflector. However, this design is thermally unfavorable, since heat from the center of the reflector can be derived poorly.

From the DE 20 2010 016 955 U1 is a generic LED light known, but a work surface illuminated punctiform. The reflector provided for this purpose has a form of an ellipsoid optimized for punctiform illumination.

The known LED lights are used due to the optimized shape of the reflector only for a particular purpose.

The invention has the object of developing an LED lamp so that there are more diverse applications.

According to the invention the object is achieved in that the reflector with respect to the position of the LED module and / or the LED module with respect to the position of the reflector is adjustable, so that the relative operating position between the reflector and LED module is variable, and that the reflector is designed so that its light guidance changes when the relative operating position is changed.

By this measure, the light guide of the reflector can be changed. Simply, the reflector has a mirror surface that is larger than the light spot that is radiated by the LED module into the reflector. By changing the relative operating position between reflector and LED module, portions of the mirror surface are illuminated at different angles, resulting in different radiation characteristics.

The user can freely select the operating position of the reflector and thus set the desired light distribution.

The LED module is expediently arranged stationarily on the luminaire housing, wherein the position of the LED module lies outside that light cone which is mirrored in operation out of the reflector.

It is also favorable if two symmetrically arranged reflectors are provided.

The two reflectors may simply be combined to form an integrated reflector element. For this purpose, the reflectors may be connected to each other or they are designed as a one-piece reflector element. The integrated reflectors can be moved together and synchronously from the first operating position to the second operating position.

Of course, it is also possible to achieve an asymmetrical emission characteristic by means of two differently shaped reflectors.

Another benefit arises from the fact that the reflector element is arranged between the LED modules provided on the lamp housing. This allows the LED modules to dissipate heat as quickly and efficiently as possible via the luminaire housing, thus keeping the heat away from the LED modules and the reflector. In particular, this has a favorable effect on the life of the LED modules.

The reflector is expediently mounted with respect to the direction of the emitted light of the LED module in an approximately transversely displaceable in the lamp housing.

An embodiment of an LED light is described in detail with reference to several drawing figures. Show it:

1 A partial view of an LED light,

2 a partial view of the LED light according to 1 with changed position of the LED modules,

3 a partial view of the LED light according to 1 and 2 with further changed position of the LED modules,

4 a partial perspective view of the LED light,

5 a cross section through the LED lamp in the longitudinal direction,

6 a cross section through the LED light in the transverse direction.

1 shows an LED light 1 with a luminaire housing 2 , two LED modules 3 and 4 and a reflector element 5 with two symmetrically arranged reflectors 6 and 7 each with a mirror surface 6a respectively 7a ,

Each reflector is arranged to connect to one of the two LED modules 3 or 4 interacts. The LED modules are in turn stationary on the luminaire housing 2 appropriate. They are located outside of the light cone of the associated reflector 6 respectively 7 is mirrored.

Each reflector is larger than the light spot, the LED module on the respective mirror surface 6a / 7a emitted. In addition, the reflector has varying light distribution properties over its length. The varying light distribution is based in the present example on the geometrically varying shape of the mirror surface.

To different zones of the mirror surfaces 6a and 7a from the respective LED module 3 respectively 4 to be able to shine, is the reflector element 5 stationarily arranged in the luminaire housing. The LED module 3 is designed so that it is parallel to the longitudinal extent of the reflector 6 is mounted in an approximately transversely displaceable in the lamp housing. The same goes for LED module 4 and reflector 7 ,

The 2 and 3 show the LED light according to 1 each in a different relative operating position between the respective LED module and the associated reflector.

The reflector element 5 is located between the on the lamp housing 2 provided LED modules 3 and 4 , By attaching the LED modules to the luminaire housing, heat can be dissipated well over the luminaire housing and from the reflectors 6 and 7 kept away.

The 4 to 6 show the same LED light as the 1 to 3 , The same features are provided with identical reference numerals.

4 is a partial perspective view of the LED lamp according to the 1 - 3 , In particular, it allows a view of the displaceable LED module 3 ,

5 shows a longitudinal section through the LED lamp according to the in 3 Registered cutting course VV. The LED module 3 is in a position approximately in the middle of the reflector 6 ,

According to the in 6 illustrated cross section of the LED light 1 are the LED modules 3 and 4 each on a module carrier 8th respectively 9 arranged and slidably mounted on this. The storage of the LED module 3 has screws 10 on through the LED module 3 plugged in and in the module carrier 9 are screwed in.

LIST OF REFERENCE NUMBERS

1

LED light

2

luminaire housing

3

LED module

4

LED module

5

reflector element

6

reflector

6a

mirror surface

7

reflector

7a

mirror surface

8th

module carrier

9

module carrier

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 202010016955 U1 [0004]

Claims (6)

LED light ( 1 ) comprising a luminaire housing ( 2 ), at least one LED module ( 3 . 4 ) and a reflector ( 6 . 7 ), characterized in that the reflector ( 6 . 7 ) with respect to the position of the LED module ( 3 . 4 ) and / or the LED module is adjustable with respect to the position of the reflector, so that the relative operating position between the reflector ( 6 . 7 ) and LED module ( 3 . 4 ) is variable, and that the reflector ( 6 . 7 ) is designed so that its light guide changes when the relative operating position is changed. LED light ( 1 ) according to claim 1, characterized in that the LED module ( 3 . 4 ,) stationary on the luminaire housing ( 2 ), and that the position of the LED module ( 3 . 4 ) is outside of the light cone, which in operation from the reflector ( 6 . 7 ) is mirrored. LED light ( 1 ) according to claim 1 or 2, characterized in that two symmetrically arranged reflectors ( 6 . 7 ) are provided. LED light ( 1 ) according to claim 3, characterized in that the two reflectors ( 6 . 7 ) to an integrated reflector element ( 5 ) are summarized. LED light ( 1 ) according to claim 3 or 4, characterized in that the reflector element ( 5 ) between the on the luminaire housing ( 2 ) LED modules ( 3 . 4 ) is arranged. LED light ( 1 ) according to one of claims 1 to 5, characterized in that the reflector ( 6 . 7 ) with respect to the direction of the emitted light of the LED module ( 3 . 4 ) in approximately transversally displaceable in the luminaire housing ( 2 ) is stored.

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