DE202010004343U1 - Arrangement for emitting light - Google Patents

Abstract

Arrangement for emitting light,
With
a cylindrical light emitting element (100)
and LED bulbs (200)
characterized in that
the light of the LED light source (200) irradiates the light emission element (100) in such a way that the light
Over a region of the lateral surface of the cylindrical light-emitting element (100) which defines a light-emitting surface (110),
• is radiated into the outside space and
• is irradiated via a to the light emitting surface (110) different surface (120) of the cylinder in the light emitting element (100).

Description

The The present invention relates to an arrangement for emitting light, with LED lamps and a cylindrical light emitting element.

The stable Further development brings with it that now LEDs with a Light emission in a variety of possible color variants and beyond available in various performance classes. For example, the Luminous flux of high-power LEDs is now comparable or better than that of a xenon mini flash lamp this even, so in digital cameras or associated flash devices increasingly the use of LEDs finds input.

Especially their energy efficiency, reliability and long life qualify LED bulbs for one wide range of application, especially - in view of the now available LED bulbs - the application for general lighting purposes.

The Design of a lamp according to different requirements requires significant benefits; a great role is played by the art and number of used bulbs. To the mentioned advantages It would therefore be desirable to be able to use a light-emitting diode efficiently existing luminaire designs almost identical with the help of To operate LED bulbs. When changing the type of light source however, it usually requires a fundamental redesign, an approximate Retention of the radiation characteristic and the shape of a lamp to reach.

The Use of LED bulbs in existing lighting systems turns out to be particularly difficult when conventional Light sources fluorescent or gas discharge lamps were provided. Of particular importance here is that the LEDs by their punctate Radiation characteristic and still in their light intensity of fluorescent tubes or gas discharge lamps differ greatly.

It is therefore an object of the invention is an arrangement for light output to disposal to provide and improve their light emission and handling comparable to fluorescent or gas discharge lamps.

These The object is achieved by an arrangement for emitting light according to claims 1 or 2 solved. Further developments of the invention are the subject of the dependent claims.

According to the invention is a Arrangement for emitting light with a cylindrical light-emitting element and LED bulbs proposed. The LED bulbs are so opposite to the Light-emitting element arranged that the light of the LED bulbs the radiating element radiates in the way that it has a Area of the lateral surface of the cylindrical Lichtabstrahlelements in the outer space of the cylinder and radiated over one to the area different surface of the cylinder in the Lichtabstrahlelement is irradiated. The area of the lateral surface, over which the incident light leaves the cylinder, a light delivery surface.

Farther can according to the invention also a Arrangement with a cylindrical light emitting element and LED bulbs be provided, wherein the cylindrical light emitting element at the lateral surface of the cylinder an opening has, through which LED bulbs in the interior of the cylinder protrude. In the interior irradiated light of the LED bulbs radiates through the light emitting element in such a way that the light over a Area of the lateral surface of the cylindrical Lichtabstrahlelements in the outer space of the cylinder is radiated. The area of the lateral surface over which The incident light leaves the cylinder, in turn, determines a light delivery surface.

With These arrangements ensure that the arrangement for Light output, for example, the dimensions of a fluorescent lamp and their spatial Abstrahlcharakteristik can largely provide. The cylindrical one Light emitting element according to the invention comes the role of the light mixture and light distribution to a broad coverage but the lateral surface to allow the cylinder. In particular, optionally, a radiation angle from the Lichtabstrahlelement reached by nearly 360 ° be, as this corresponds to common fluorescent lamps. Furthermore could for example, the length the Lichtabstrahlelements or its diameter with the dimensions a fluorescent lamp or a gas discharge lamp.

In an advantageous embodiment of the invention, the light emitting element a closed cylinder of a transparent material, preferably could the cylinder then massive, for example, be made in one piece, but this is not excludes that he has openings in the lateral surface has, through which the LED bulbs protrude through. Preferably could the light-emitting element, then from a closed, at least be formed partially transparent cylinder.

Furthermore, the cylindrical Lichtabstrahlelement could ausgebil example, as a light guide be; Preferably, the light of the LED bulbs is then irradiated via a flat cylindrical surface, a base, in the light emitting element and - as provided according to the invention - emitted over a region of the lateral surface. Advantageously, the light emission direction is not identical to the direction of the light radiation into the cylindrical light emission element, for example, the light emission direction could be oriented orthogonal to the light emission direction. The light irradiation could be carried out in the case of training as a light guide via LED bulbs, which are guided through openings in the lateral surface. In its construction as a light guide, the cylindrical light-emitting element is in each case designed such that it enables the surface radiation of the light from the light-emitting element, that is to say that the emission angle from the light-emitting element is widened relative to that of the incident light. The extension of the emission angle is then carried out by the light pipe properties of the Lichtabstrahlelements, ie by covering an optical path within the Lichtabstrahlelements.

This could Preferably also be achieved in that the cylindrical Light emitting element is designed as a waveguide.

Around continue to promote the properties as a light guide, for example, the lateral surface of the cylindrical Lichtabstrahlelements preferably a thickness between 1 and 6 mm, preferably between 2 and 4 mm; furthermore conditionally This is also a very stable Construction.

In an advantageous embodiment of the invention is provided in that the arrangement for emitting light has a luminous means carrier, which is preferably connected to the light emitting element, that the arrangement is closed. For example, it is so in simple way possible, to replicate the shape of a fluorescent or gas discharge lamp.

Especially advantageous in this case then the light source carrier as LED board made of a thermally conductive Material formed. Thus, the opportunity is created a closed Construction and at the same time an excellent heat dissipation to ensure. In the case of light coupling via the lateral surface of the light emitting element could the LED bulbs, for example, in a row, preferably on an oblong Be arranged LED board.

Preferably the LED board can be used to radiate the heat loss, So have properties of a heat sink. For example, it can also be provided that the LED board Having means for current or voltage conversion. Especially this minimizes the possible conversion effort a lamp.

Farther could the conversion effort preferred be limited by the fact that the illuminant carrier has connecting means, which the illuminant carrier on a holder for fluorescent or make gas discharge lamps attachable. For example, the Connecting means be designed so that they also the Power supply of the arrangement for light emission serve. However, offers already the attachment of the arrangement to the light output by existing Mounts a lamp a significant advantage.

In a preferred embodiment The invention has the cylindrical light emitting element means for light extraction on. For example, if a uniform light distribution over 360 ° of the circumference of the light emitting element, the means for light extraction could be uniform across the Circumference of the lateral surface be distributed to the cylinder. Furthermore, for example, could also be provided that the light extraction structures are distributed so that a preferred angle range for radiation is fixed. This could preferably be realized in that the light extraction structures are arranged only on portions of the circumference of the cylindrical surface.

In a development of the inventive concept, the arrangement for light emission on diffuser or color filter means. These can in the area of the light emission surface be arranged, so for example in, on or on the lateral surface of the cylindrical Light emitting element. In a preferred embodiment, the light-emitting element be formed into a hollow cylinder whose outer surface completely diffuser properties and may be made of glass, for example. The LED light sources could in a development then just as easily through openings the lateral surface of the cylindrical Lichtabstrahlelements protrude and on a PCB be arranged, which extends from a base of the cylindrical Lichtabstrahlelements to the opposite extends. Furthermore, it is also conceivable that the diffuser and color filter in Area of the light irradiation surface of the Lichtabstrahlelements are provided.

Furthermore, the light-emitting element may for example be formed in two parts, for example in such a way that a second cylindrical element is arranged on the lateral surface of a first cylindrical element and encloses this. Preferably, the first cylindrical element is then formed as a light guide, while the second cylindrical element has properties of light steering, light distribution or color conversion. It It should be emphasized that this constructive feature realizes the idea of providing independent paths in order to influence the light distribution efficiently. Thus, a particularly simple construction is created, which makes it possible to adapt the arrangement to a specific application.

The Adaptability can continue to be promoted by providing funds for Light control preferred on the light emitting surface, for example by a Foil, can be attached. In one embodiment it is prism-like Structures which the radiation range of the arrangement for light emission can set.

Next a preferably transparent or semitransparent embodiment of the cylindrical Lichtabstrahlelements, can be used to modify the Color emission provided in a development of the invention be that the light emitting surface at least partially having a color conversion coating which is that of the light emitted by the LED bulbs at least partially absorbed and at least partially to a spectrum of the LED bulbs outputs different wave range. The color converter coating can thus diffuser effect for selected be attributed to spectral components, so that the color converter coating to the plane Contributes radiation. Preferably, in this case LED bulbs are used, which have a substantially blue or UV light emission. A preferred embodiment could then provide a massively fabricated transparent light guide, which is placed in a tube containing a color converter coating has, so the already mentioned advantages of a two-part Embodiment has.

The However, the invention is not limited to the use of blue or UV LED bulbs. As a general rule is the use of one or more LED bulbs conceivable. These LED bulbs can besides - apart from usual Manufacturing tolerances - identical be formed or a mutually different color spectrum exhibit. Furthermore you can the LED bulbs in their strength of the respective luminous flux formed differently from each other or be adjustable, so that, for example, an advantageous interaction can be achieved with a color converter coating. However, that is also an identical design of the luminous flux - for example also by setting options Conditionally conceivable.

Essential for the Maintaining the functionality of LED bulbs is compliance with the permissible Operating temperature range; therefore, the LED bulbs are advantageously arranged so that ensures adequate heat dissipation is. this could be supported, for example, by in that the cylindrical light-emitting element has reflector means, which are adapted to the light of the LED bulbs to limit a preferred angle range and continue the LED bulbs to cool. For this purpose, for example, the illuminant carrier with the reflector thermally be connected, or the reflector designed as a light source carrier be.

Furthermore could be provided in a development that an otherwise closed Arrangement of illuminant carrier and cylindrical light emitting element having openings through which a cooling air flow at one point enter the arrangement and at another Place from the arrangement can escape.

following the invention will be explained in more detail with reference to the accompanying drawings, where like elements in all representations with the same reference numerals are provided. Show it:

1 an embodiment of an inventive arrangement for light output in longitudinal section;

2 An embodiment of an inventive arrangement for emitting light in cross section;

3 a light emitting element having a light guide of a solid transparent material;

4 Embodiments of a Lichtabstrahlelements with Lichtauskoppelstrukturen;

5 an embodiment of an arrangement for emitting light;

6 a development of the embodiment of 5 ;

7 a further embodiment of an inventive arrangement for light emission;

8th a reflector and light source carrier assembly for simultaneous cooling of the LED bulbs;

9 a luminous means carrier having means for current or voltage conversion and is attachable to a holder for fluorescent lamps; and

10 a light-emitting element with a prism sheet.

1 shows an embodiment of a light emitting device, which is a cylindrical Lichtabstrahlelement 100 and LED bulbs 200 having. In order to promote the mounting options in a known luminaire, the dimensions of the arrangement in this embodiment are selected according to a T5 fluorescent lamp - an adaptation to the dimensions of other gas discharge lamps is also conceivable.

The cylindrical light-emitting element 100 is designed so that that of the LED bulbs 200 into the cylinder irradiated light via a light emitting surface 110 , which pass through areas of the lateral surface 102 is formed, is emitted. Preferably, a light emission over almost the entire lateral surface 102 the light emitting element 100 intended; Thus, the spatial light emission characteristic of a fluorescent lamp is almost equal.

At the bases 101 the cylindrical Lichtabstrahlelements 100 are each LED bulbs 200 arranged so that they light their way over to the light emitting surface 110 different area 120 in the cylindrical light emitting element 100 radiate.

In addition to singular LEDs can be used to increase the luminous flux preferably LED groups or LED modules as LED bulbs 200 be provided. For example, this may be a high-power LED module which has a plurality of LEDs which in the exemplary embodiment have a different color emission to each other and in the intensity of their respective luminous flux are adjustable to each other, so that, for example, the color temperature can be optimally adapted to the particular application can.

The cylindrical light-emitting element 100 has in this - but also, as explained below, in other embodiments - a closed cylinder from a - for at least spectral portions of the light emission of the LED bulbs 200 - transparent material on. In the arrangement according to 1 the light then becomes, for example, over a plane base area 101 of the cylinder in the light emitting element 100 irradiated.

Furthermore, in a development of the invention, the light emitting element 100 be designed as a light guide. In the embodiment of 1 is a solid optical fiber, made of a transparent material, such as PMMA, PC or glass, arranged in a tube.

The illustrated light guide has means for light extraction 130 to, for example, by a uniform arrangement over the circumference of the Lichtabstrahlelements 100 a light output over the entire lateral surface 102 to allow - in a development of the inventive concept, an arrangement of means for light extraction also on other elements of the Lichtabstrahlelements 100 can be provided. This is for example with the help of in 4 illustrated Lichtabstrahlelemente 100 again clarified. Preferably, it can be in the means for light extraction 130 to prism-like structures or reflective or diffusive acting structures.

In a further development of the invention, the means for light extraction 130 be arranged so that a radiation of the light of the cylindrical Lichtabstrahlelements 100 is only possible over a limited angular range α. The means for light extraction 130 may then preferably over a portion of the circumference of the cylindrical Lichtabstrahlelements 100 be distributed, which corresponds to this angle range α - as for example, also in 4 is shown.

The light-emitting element 100 is formed in its formation as a tube with light guide in two parts, with a first cylindrical member which is formed in the embodiment by the light guide, and a second cylindrical member - the tube - which encloses the first cylindrical member. By the design feature of the two-part design with two elongated, cylindrical elements is then ensured, for example, that the surface light emission of a first cylindrical element in a simple manner can be changed with light-influencing means so that it meets the requirements of the application. This opens up the possibility of a considerable reduction in manufacturing and development costs.

The arrangement described allows the light distribution on at least two independent, easily modifiable ways; a light-emitting element 100 which also has this design feature is, for example, in 2 shown.

In one development of the invention, the design of the light guide can be provided as a waveguide. This is for example in the 2 and 3 shown, wherein the waveguide in the two-part light emitting element 100 from 2 represents a first cylindrical element which serves the light distribution. The lateral surface of the second cylindrical element forms the light emission surface 110 of the cylindrical light emission element 100 , The second cylindrical element has a color converter coating in this embodiment 140 on which of the LED bulbs 200 from given light absorbed and in one to the light output of the LED bulbs 200 at least partially different spectral range radiates again. For example, it can be provided that that of the LED bulbs 200 emitted light only partially through the color converter coating 140 is absorbed and other spectral components of the light of the LED bulbs 200 additionally in the outer region of the cylindrical Lichtabstrahlelements 100 be delivered. Particularly advantageous are the interaction with the color converter coating 140 LEDs are used which emit blue, white or UV light.

The example flat arranged color converter coating 140 has then by their non-directional light emission in a synergistic manner, the effect of a diffuser, which - as described - for example, can only act on certain portions of the light emission.

In a further embodiment of an arrangement for emitting light which, for example, in the 5 to 7 is shown, the LED bulbs protrude 200 through an opening in the lateral surface 102 the cylindrical Lichtabstrahlelements 100 and are arranged according to the invention such that the light of the LED illuminants radiated into the interior space 200 the light-emitting element 100 so irradiated that the light over an area of the lateral surface 102 the cylindrical Lichtabstrahlelements 100 is radiated into the outside space.

there It should be emphasized that a combination of the embodiments according to the invention in None Way is excluded.

The light output of the LED bulbs 200 to the light emitting element 100 is supported in a development of the inventive idea by Lichteinkoppelstrukturen, which may for example also have a Strahlaufweitende effect.

Particularly advantageous, for example, in the embodiment of 5 provided that the LED bulbs 200 in an axial opposite to the main axis of the cylindrical Lichtabstrahlelements 100 offset formed bore are arranged, which thus has jet-expanding lens action. This effect could be supported for example by the fact that the LED bulbs 200 also have means for beam expansion, for example in the form of molded-on lens elements, preferably of a duroplastic and preferably epoxy-based resin. Thus, a stepwise light mixture can be achieved, wherein the degree of mixing can be determined, for example, as a function of the LED light source. Further, within the bore advantageously further means of influencing the light may be arranged, which act, for example, reflective or diffusive.

In a development of the inventive concept - which, for example, in 6 illustrated, adapted to the application diffuser or color filter means may be provided to improve the light-emitting properties. For example, the light emitting surface 110 the cylindrical Lichtabstrahlelements 100 Having these means, preferably these are then arranged on the second cylindrical element. In a preferred embodiment of the invention, it makes sense to form the lateral surface of the cylindrical light-emitting element in its entirety as a diffuser, preferably made of glass. For example, on a PCB (printed circuit board) extending from a base of the cylindrical light emitting element 100 extends to its opposite, LED bulbs 200 be arranged in series.

The diffuser causes a non-directional light emission over the circumference of the Lichtabstrahlelements 100 which hides the underlying arrangement of the point light sources and thus follows the spatial light radiation characteristic of a fluorescent lamp.

In a structurally very advantageous embodiment, this could be achieved by the use of LED bulbs 100 be realized with blue or UV radiation in conjunction with a color converter coating as a diffuser.

In particular, the use of white, greenish white, preferably in conjunction with blue and red LEDs, or cold-white LEDs, which usually also have a color conversion coating, may be used to support the effect of a diffuser, which may be made of glass, for example according to the manner described above also diffuser effect can be awarded. In a simple and advantageous manner, a construction is thus realized, which diffuser means in a region of the cylindrical Lichtabstrahlelements 100 arranges, which is intended for light irradiation. Preferably, the diffuser or color filter means of the LED bulbs 200 spatially separated, even on a specific area for light irradiation 120 respectively. 125 be realized. For example, this could be designed in the form of a film arrangement with diffuser effect, or by direct structuring of the area intended for light irradiation 120 respectively. 125 ,

Furthermore, it must be emphasized that, for example, by arranging the diffuser means 170 both on the surface intended for light irradiation 120 respectively. 125 as well as on the light delivery surface 110 - possibly in combination with color filter agents - in a synergetic way the light mixture can be required; this also follows the concept of stepwise beam expansion and light mixing. This is particularly useful when the property of the light pipe of the cylindrical Lichtabstrahlelements 100 only conditionally in the foreground.

An arrangement according to 6 clarifies this. The cylindrical light-emitting element 100 is a further education of 5 known embodiment and has one with respect to the main axis of the Lichtabstrahlelements 100 axially offset hole in which the LED bulbs 200 through openings of the lateral surface 102 the light emitting element 100 protrude. Light influencing means are now in the form of conical diffuser elements 170 realized, which on the surface intended for light irradiation 125 , the LED bulbs 200 are arranged opposite one another.

On the one hand are the diffuser elements 170 designed so that they are preferably in the direction of the lateral surface 102 the cylindrical Lichtabstrahlelements 100 emitted light of the LED bulbs 200 to the direction of the major axis of the cylindrical light emitting element 100 bend, thus the light path within the Lichtabstrahlelements 100 extend and promote the light mixture.

In a further development of the invention may be provided to promote this aspect, the ratio of the diameter of the bore and the Lichtabstrahlelements 100 in a range smaller than 1: 2, preferably in a range of 1: 2 to 1: 6; or generally it can be provided to arrange jet-expanding or light-directing or also diffusively acting means in this distance ratio to each other.

On the other hand, a backscatter in the hole is assumed. Taking into account the use of the backscattering for the light mixture, the arrangement could be developed further in such a way that the bore also has optical waveguide properties in the form of a waveguide. The diffuser elements 170 can then simultaneously the function of the means for light extraction 130 from the waveguide meet. The hollow conductor properties could be determined, for example, by a corresponding coating of the bore and preferably may be provided to promote the hollow line properties in general, the refractive index of a waveguide material for the design of a cylindrical Lichtabstrahlelements to a transparent chip cover of the LED bulbs 100 adapt.

In one embodiment of the invention, for example, be provided to perform the coating of the bore as a film or stand-alone pipe, and particularly advantageous this independent pipe or the film could also be arranged independently of the diameter of the bore. Thus, for example, an arrangement could be realized which includes an outer diffuser tube as a light emitting surface 120 has and instead of the bore another, inner tube, with waveguide or diffuser properties. With the help of the arrangement and the number of diffuser elements 170 then the light mixture and light distribution can be specially adapted to the application; in particular by the selection of a preference for the interaction between diffuser elements of the inner and outer tube or a preference of the light mixture by hollow conductor properties. Of course, a corresponding arrangement, which has the described options for adaptation - as suggested, for example, by the design as a hollow tube - neither on the case of light irradiation through openings in the lateral surface 102 the cylindrical Lichtabstrahlelements 100 limited to the case of a waveguide as a light guide.

And further, the invention is by no means limited to the case of one or more axially offset holes or pipes. Thus, in a further development of the invention in the embodiment of 7 be provided, for example, the wall thickness of the cylindrical Lichtabstrahlelements 100 between 1 and 6 mm, preferably between 2 and 4 mm. The light-emitting element 100 thus indicates even in the event that the LED bulbs 200 through openings in the lateral surface 102 the cylindrical Lichtabstrahlelements 100 protrude, sufficient stability to at least partially a circular cross section of the Lichtabstrahlelements 100 form and promote hollow pipe properties. However, the light-emitting element preferably has a circular cross section over its entire length. Thus, a very cost-effective arrangement for light emission is realized by a surface formed as a diffuser of the cylindrical Lichtabstrahlelements 100 - Which may be made for example of glass, preferably with a diffusively acting structuring - in conjunction with LED bulbs 200 which arranged in an elongated row through the lateral surface 102 the cylindrical Lichtabstrahlelements 100 protrude. With the help of a corresponding configuration of the thickness of the lateral surface 102 can be between a light mixture through the diffuser element 170 or a light mixture can be gradually varied by hollow conductor properties. Preferably find in this Embodiment, as described above, greenish white or cold white LEDs use. In conjunction with a color converter coating can again turn to blue or UV LED bulbs 200 be resorted to.

In order to further minimize the adaptation effort of a lamp to the arrangement for emitting light, it can be provided in a further development of the invention that the arrangement according to the invention for emitting light connection means 310 for securing the assembly to a holder for fluorescent or gas discharge lamps. The connecting means are preferred 310 also for supplying the operating current of the LED bulbs 200 educated. In this case, the interaction could be provided with securing means which allow operation of the arrangement for light emission only if a corresponding lamp operating device is present. For example, when retrofitting an operating device, a fuse board could be mounted in a fluorescent lamp holder which is connected to the connecting means 310 cooperates and activates the operation of the arrangement for emitting light, for example mechanically or electrically.

In the embodiment of 9 are the lanyards 310 on a light source carrier 300 arranged, which one or more LED bulbs 200 wearing. The arrangement of LED bulbs 200 on a thermally conductive LED board 320 promotes the cooling of the LED bulbs 200 , Preferably, the LED board 320 formed as a heat sink, for example, the LED board could be means for converting the voltage or current form 330 and preferably also synergistically cooling them.

The integration of means for voltage or current transformation 330 in an inventive arrangement for light output also promotes a slight conversion of existing lighting designs for use of the arrangement. For example, the means for voltage or Stromformwandlung 330 a pulse width control (PWM), which include the LED bulbs 200 for example, designed dimmable. Furthermore, the means for voltage or Stromformwandlung could 330 be designed so that the arrangement for emitting light can be operated without retrofitting an operating device of a lamp. For example, the operation could be provided with mains power or the adaptation of the means for voltage or current transformation 330 typical voltage and current characteristics of ECGs for the operation of gas discharge or fluorescent lamps. Preferably, this could also be achieved with the help of the already mentioned pulse width control.

Also promoting the integration of an arrangement according to the invention for emitting light into existing lighting systems, it may be provided, for example, that the lighting means carrier 300 and the cylindrical light emitting element 100 are arranged to each other so that the arrangement is closed. In particular, a robust construction is thus made possible which, for example, can also be made dust-tight if required.

In typical lighting constructions, the light output over the entire peripheral surface of a cylindrical lamp is rarely sought; In many cases, a corresponding light on a reflector construction, which makes, for example, the otherwise lost light of a cylindrical lamp usable. Following this knowledge, it can be provided in a development of the invention that the arrangement for light emission reflector means 150 which are adapted to the light of the LED bulbs 200 to limit to a preferred angle range; it could then preferably be provided that the reflector means 150 are designed to the LED bulbs 200 to cool. For example, the reflector means 150 in thermal contact with the illuminant carrier 300 stand. This is for example in 8th clarified. 8th shows in cross section the arrangement of a cup-shaped reflector means 150 on the outside of the cylindrical Lichtabstrahlements 100 , The reflector means 150 is there - as in the longitudinal section of 8th recognizable - with the illuminant carrier 300 connected in the way that it is the heat loss of the LED bulbs 200 can dissipate. For example, could be a one-piece design of light source 300 and reflector means 150 be provided or the bond with the help of thermally conductive materials.

To further promote the cooling of LED bulbs 200 could be provided in a development of the invention that an otherwise closed arrangement for light emission has openings through which a cooling air flow entering the assembly and can emerge at another point from the arrangement. For example, this could be achieved by two corresponding openings, which are opposite to the main axis of the cylindrical light-emitting element 100 offset to each other, via a common airspace with the LED bulbs 200 are arranged connected. In particular, the convection effect for the intake of cooling air and the discharge of hot air from the arrangement can thus be used.

Furthermore, brings a low surface temperature of the cylindrical Lichtabstrahlelements 100 other benefits. For example, could be provided that the light emitting surface 110 Means for directing light 160 has - as for example in 10 is shown. Preferably, the means for directing the light 160 with the help of a foil 165 attachable and preferably designed in the form of prisms or microprisms.

According to the invention is thus an arrangement provided for light emission, which has a variety of features having a use in a lamp for gas discharge or fluorescent lamps promote. In particular, this also includes design features that are extremely flexible customization options to provide existing luminaire designs and in the context its over the applications conventional fluorescent or gas discharge lamps.

Claims (14)

Arrangement for emitting light, with a cylindrical light-emitting element ( 100 ) and LED bulbs ( 200 ), characterized in that the light of the LED bulbs ( 200 ) the light emitting element ( 100 ) so that the light is transmitted over an area of the lateral surface of the cylindrical light-emitting element ( 100 ) having a light emitting surface ( 110 ), • is radiated to the outside and • via a to the light emitting surface ( 110 ) different surface ( 120 ) of the cylinder into the light emitting element ( 100 ) is irradiated. Arrangement for emitting light with a cylindrical light-emitting element ( 100 ) and LED bulbs ( 200 ), characterized in that • the cylindrical light-emitting element ( 100 ) has on the lateral surface of the cylinder an opening through which the LED bulbs ( 200 ) protrude into the interior of the cylinder, wherein in the interior irradiated light of the LED bulbs ( 200 ) the light emitting element ( 100 ) so that the light - over a region of the lateral surface of the cylindrical Lichtabstrahlelements ( 100 ) having a light emitting surface ( 110 ), - is radiated to the outside. Arrangement for emitting light according to one of the preceding claims, characterized in that the light-emitting element ( 100 ) is a closed cylinder made of a transparent material. Arrangement for emitting light according to one of the preceding claims, characterized in that the cylindrical light-emitting element ( 100 ) is designed as a light guide, wherein in particular the light of the LED light source ( 200 ) over a plane cylindrical surface in the Lichtabstrahlelement ( 100 ) is radiated and is emitted over at least a portion of the lateral surface in the outer space. Arrangement for emitting light according to claim 4, characterized in that the light emitting element ( 100 ) is designed as a waveguide. Arrangement for emitting light according to one of the preceding claims, characterized in that the arrangement comprises a light source carrier ( 300 ), wherein the cylindrical light emitting element ( 100 ) with the illuminant carriers ( 300 ) is connected so that the arrangement is closed. Arrangement for emitting light according to claim 6, characterized in that the illuminant carrier ( 300 ) is an LED board made of a thermally conductive material, wherein in particular the illuminant carrier ( 300 ) Means for voltage and / or current transformation ( 330 ) having. Arrangement for emitting light according to claim 6 or 7, characterized in that the illuminant carrier ( 300 ) Connecting means ( 310 ), which the illuminant carrier ( 300 ) attachable to a holder for fluorescent or gas discharge lamps attachable. Arrangement for emitting light according to one of the preceding claims, characterized in that the cylindrical light-emitting element ( 100 ) Means for light extraction ( 130 ), wherein the means for light extraction ( 130 ) are in particular uniformly distributed over the circumference of the lateral surface of the cylinder or in particular set a preferred angle range (α) for radiation. Arrangement for emitting light according to one of the preceding claims, characterized in that the light-emitting element ( 100 ) is formed in two parts, comprising a first cylindrical element on the lateral surface of which a second cylindrical element is arranged, wherein the second cylindrical element encloses the first cylindrical element; In particular, both elements have elongated shape. Arrangement for emitting light according to one of the preceding claims, characterized in that the light emitting surface ( 110 ) Diffuser and / or color filter means and / or that the surface intended for light irradiation ( 120 . 125 ) of the Lichtabstrahlelements diffuser and / or color filter means. Arrangement for emitting light according to one of the preceding claims, characterized in that the light emission surface ( 110 ) at least partially a color conversion coating ( 140 ), which the of the LED bulbs ( 200 ) emitted light at least partially absorbed and in one to a spectrum of the LED bulbs ( 200 ) emits different wavelength range, in particular it is in this case LED bulbs ( 200 ), which have a substantially blue or UV light emission. Arrangement for emitting light according to one of the preceding claims, characterized in that the light emission surface ( 110 ) Means for directing light ( 160 ), in particular with a film ( 165 ) attachable, in particular in the form of prisms. Arrangement for emitting light according to one of the preceding claims, characterized in that the lateral surface ( 102 ) of the light emitting element ( 100 ) has a thickness between 2 and 4 mm.