DE102008049324A1 - lighting device - Google Patents

Abstract

The invention relates to a lighting device, in particular an underwater lighting device comprising a light source (3), a holding body (2) on which the light source (3) is fixed, a cover (4) which is arranged on the holding body (2) and the light source (3) covered. A fluid-tight lighting device, which has a high light intensity and a long service life, is inventively created in that the heat generated by the light source (3) is dissipated predominantly by the holding body (2) to an environment.

Description

The The invention relates to a lighting device, in particular for Underwater lighting, according to the preamble of claim 1.

DE 20 2007 002 558 U1 shows a high-performance light emitting diode whose light source has a light-emitting material disposed in a bowl-shaped recess of a plate-shaped portion. The plate-shaped portion is supported by a plurality of support legs, wherein the support legs are provided simultaneously as conductor tracks for supplying power to the light source. The plate-shaped portion is caulked with the support legs against a cover that the light source is covered. A lens may be attached to the cover or integrated in the cover. If the heat output generated by the light source exceeds a certain value, the amount of heat generated can only be sufficiently dissipated by the support feet, since the support feet have a small cross-section. Furthermore, an air gap defining distance to a substrate is generated by means of positioning sections on the support feet, whereby the heat generated by the light source is poorly dissipated, and in particular the heat transfer to the substrate is hindered. Furthermore, the light-emitting diode is not formed fluid-tight and therefore not suitable for underwater use.

DE 10 2006 054 585 A1 shows an underwater lighting device for decorative lighting in shallow water. The lighting device comprises a light source of a plurality of light-emitting diodes, a holding body, on which the light source is arranged, and a cover with internal thread, which is screwed onto the holding body and covers the light source. A sealing element, which is arranged between an outer shoulder of the holding body and a front edge of the cover hermetically seals off an interior space of the lighting device, wherein the light source is arranged in this inner space, wherein the cover can be formed as a lens. The light source is electrically supplied by means of a rechargeable battery, which is charged by solar cells, wherein the solar cells are also arranged on the holding body under the cover. The proposed LED has underwater purposes of great depths only insufficient light intensity and insufficient protection against a large external pressure.

DE 20 2008 006 610 U1 shows a lighting device, in particular a diver lighting device. The lighting device comprises a cylindrical fluid-tight housing which is closed in a fluid-tight manner on an end face with a cover which is designed as a glass pane and is closed in a fluid-tight manner on a front face opposite the cover with a screw-on cover. In the housing, an electricity storage is arranged, to which a light source designed as a halogen lamp is connected, wherein a conventional lamp has a low light intensity, in particular for underwater lighting. The light source is disposed in an interior of a hollow mirror-like reflector so that the light rays reflected by the reflector exit through the cover. The light source has a lamp socket which is fixed to a lamp holder, wherein the lamp has an internal mirroring on a tip opposite the lamp socket. The internal mirroring of the lamp prevents light rays from escaping directly through the cover, but is directed in the direction of the reflector and reflected by the reflector in the direction of the cover.

It The object of the invention is a fluid-tight lighting device to create a high luminous intensity and a long operating life having.

These The object is achieved by a lighting device solved with the features of claim 1.

In the lighting device according to the invention, the light source is arranged on the holding body so that the heat generated by the light source is mainly absorbed by the holding body and discharged from this to an environment. This results in a nearly constant operating temperature, whereby the light source has a longer life. If, in addition, the heat absorbed by the holding body is dissipated to the environment, the lighting device is particularly suitable as an underwater lighting device, since the water represents an almost inexhaustible cold reservoir. In this way, the light source can be charged with relatively high electric currents, without resulting in a significant increase in temperature and thus the light source is damaged or impaired in its service life. Thus, in particular, the temperature that arises at the light source can be further increased by increasing the current intensity to achieve a greater luminosity of the light source, the additional heat is dissipated so reliably that the life of the light source, the fast at a heat accumulation decreases, a practically undiminished operating time reached. Furthermore, a lighting device according to the invention has a low weight and a small size, since the heat dissipation instead of a housing or a heat sink of an ambient fluid is taken over.

Prefers A part of a surface of the holding body is adjacent on an ambient fluid. This is advantageous in one use the lighting device under water, as the water by convection and circulation absorbed by the holding body Heat directly from an outer wall of the holder body can dissipate. Even with a use of the lighting device with air as the surrounding fluid of the holding body through Air circulation cooled and thereby the heat of the holding body discharged to the ambient air.

In Advantageous development is a board with the light source Thermal adhesive or with thermal grease on the Fixed holding body. This will create an air gap between the board and the holding body filled with a material, which has a better thermal conductivity than Air. The advantage is that the thermal connection of the Light source is improved with the holding body thereby.

In A preferred first embodiment is the board of the light source formed integrally with the holding body. Thereby serves the holding body as a heat conductor and preferably also as an electrical conductor. This eliminates the need for both the use of a board as well as the provision of an electrical Line to a connection to the board. This is an advantage since the board usually has a certain amount of plastic, the heat conduction between the light source and the holding body negatively influenced. A bowl-shaped carrier, in the interior of which a light-emitting material of the light source is arranged centrally, is on an end face of the holding body embedded. Here is the entire bottom of the bowl-shaped Carrier connected to the holding body and the Holding body can be used as a conductor, which power the light source supplies, be trained.

The Light source is preferably on a front surface of a rod-shaped trained holding body arranged so that the light source be conveniently covered by a cover can. This makes the Beleuchtungvorrichung handy and easy and be directed in a specific direction.

Prefers is the face on which the light source is located is at least as large as the contact surface between the holding body and the board of the light source. With a larger frontal area than the Contact surface, the holding body not only radial, but also absorb the heat of the light source axially. Furthermore, a radius of the cover becomes a radius formed of the holding body.

Of the Holding body is preferably cylindrical. A cylindrical holding body is with few processing steps producible, since rotationally symmetrical body, also such with steps or radial grooves, as a turned part fast and cost-effective let produce.

In the holding body is expediently a axial inner bore arranged by an end face in the direction of the opposite end face leads. Through this inner bore is a first conductor in order Power supply to the light source arranged on the Light emitting material of the light source is connected. Of the Conductor can be used both as a cable and as a printed conductor be educated.

Appropriately Way, a second conductor is connected to the board of the light source, wherein the second conductor in an inner bore of the holding body is arranged. The second conductor is for power drainage the light source connected to the board.

The Light source is expediently as a light emitting diode, preferably designed as a high-performance light-emitting diode. LEDs are characterized by a nearly point-like light emission making it easy to focus or parallelize the light and can be effectively achieved. Furthermore, have high power LEDs one several orders of magnitude higher Luminous intensity than conventional light-emitting diodes or Halogen lamps on. Furthermore, the colors, in particular in deep water, better reproduced than this a halogen lamp could.

The Cover is made of a translucent material and is preferably borosilicate glass or another transparent material of the same class. Borosilicate glass stands out by a low coefficient of thermal expansion and chemical resistance to particular Water and many other chemicals and media.

In an advantageous embodiment, an optical element is arranged on the cover, which may preferably be a lens, a mirror and / or a reflector. In the case of a focusing lens, which is provided centrally on a vertex area of the cover, the light of the light source can focus on a point arranged at an arbitrary distance from the illumination device. In this case, the focusing lens may be attached to the cover or integrated in the cover. In the case of a reflector having a central annular recess and on the outside of the cover or on the adjacent to the cover peripheral portion of the Haltekör pers can be plugged and fixed, and axially displaceable along said parts, the divergent light beams of the light source can be converted into parallel light rays through the reflector. This has the advantage that the objects are uniformly illuminated regardless of their distance from the illumination device. When the cover is disposed on a portion located directly above the light source in addition to the reflector having a convex mirror which symmetrically reflects outward light beams of the light source, no light beams can leave the lighting apparatus without being reflected by the reflector.

The Cover at least partially surrounds the holding body. Thereby additional fasteners are unnecessary which fasten the cover to the holding body. Especially The cover does not need to be open-cut in order to to be determined.

The Cover is in an advantageous development, at least in sections hemispherical formed. The cover is preferred on a non-surrounding the holding body area, the So is spaced from the holding body, hemispherical educated. The hemispherical shape of the cover has at a predetermined volume, the smallest surface on; As a result, the cover can be hollow inside and still points a maximum resistance to external pressure. This is particularly at a non-surrounding the holding body Area of coverage important because in this area the cover not by the holding body in the manner of an abutment is reinforced. Alternatively, the cover in her Vertex parabolic be formed to an external pressure better able to withstand the environment. Further points a hemispherical area of the cover inside Hollow is formed and includes the light source at its center, a constant distance from the light source to an inner wall of the hemispherical area. this leads to to a uniform warming of the hemispherical portion of the cover.

Preferably the cover has the shape of a test tube. This can the holding body with the light source having the end face be arranged in the cover. This has the advantage that the not hemispherical area of the cover through the Holding body is amplified and the light source inside the hemispherical portion of the cover is arranged and thereby low against external pressure is protected.

Between the cover and the holding body is at least one sealing element arranged. As a result, the interior space between the cover and the holding body sealed fluid-tight. Appropriately Way is at the holding body at least one circumferential groove arranged. This has the advantage that the sealing element, preferably is designed as an O-ring, when arranging the cover over the Holding body in the circumferential groove can not slip.

Of the Holding body is preferably made of high-density aluminum, that is, a material close to the theoretical density of Alumninium, formed and hard anodized formed on its surface. aluminum is a low cost material and easy to work with. The hard-anodate on the surface protects against corrosion and oxidation. Moreover, aluminum has favorable Thermal conduction properties, is waterproof and pressure resistant. Alternatively, as the material of the holding body and magnesium, a sintered metal or stainless steel can be chosen.

At the holding body is expedient manner Carrier body connected. In a first preferred Embodiment, the holding body is integral with formed a carrier body, so that the carrier body is integrated in the holding body. The inner bore of the Holding body is with a cavity of the carrier body connected, whereby the holding body and the carrier body as a workpiece and in a clamping with few Steps can be made. Furthermore, the thermal resistance between the holding body and the carrier body minimized.

at a second preferred embodiment, the holding body and the carrier body can be plugged into one another, so that in a connector advantageous in the event of burning through the Light source only the holding body of the carrier body needs to be deducted, and a new holding body as Replacement can be plugged in again. This requires the power supply not to be exchanged and may be attached to a belt of a diver be worn without it when replacing the holding body needs to be taken off. Is the connector as a wet connector formed, the holding body can also be exchanged under water become; This increases the security for Divers with low weight.

A Surface of the carrier body is more appropriate bordered Make at least a part of an ambient fluid, so that the carrier body of the holding body recorded and derived from the carrier body Heat quickly to an ambient fluid, e.g. Water or air, can deliver.

Preferably, in a cavity of the carrier body at least one electronic Kompo arranged, whereby the current of an electrical energy source can be adapted to the light emitting diode. The electronics component may be z. A current regulator which limits a current flowing through the light source to protect the light source from damage or regulates the current flowing through the light source, to different ones To generate light intensities, act.

In Advantageous development closes a lid the Cavity of the carrier body. A lid has the Advantage that the cavity of the carrier body easily is accessible and arranged in the cavity electronic component can be easily replaced.

According to one advantageous development, the holding body has a Outside wall, which is in contact with the environment. This has the advantage that one contained in the holding body Amount of heat to be delivered quickly to an ambient fluid can. Is the holding body z. B. submerged under water, then the surrounding water takes over the discharge the heat contained in the holding body. Is the Holding body surrounded by air, the discharge is the heat taken from the air.

According to one Alternative advantageous development is the outer wall the holding body via at least one cooling member in contact with the environment. The cooling member may be an enlarged Have surface and cause the in the holding body contained heat even more quickly delivered to an environment becomes. The cooling member may also be formed as a Peltier element and attached to the surface of the holding body be. The Peltier element withdraws a holding body Heat output and gives it to an ambient fluid. The Peltier element is space-saving and can be removed from the power supply the lighting device are fed.

Further Advantages and embodiments of the invention will become apparent from the subsequent description and from the dependent claims.

The Invention will be described below with reference to the accompanying drawings based on a preferred embodiment of an inventive Lighting device explained in more detail.

1 shows a longitudinal section through a preferred embodiment of a lighting device according to the invention.

The lighting device 1 according to 1 comprises a hollow cylindrical holding body 2 made of aluminum as a turned part and hard anodized on its outward facing surface. A first annular shoulder 17 concentric with the holding body 2 is arranged, divides the holding body 2 in a first area 33 and a second area 34 on, the first area 33 has a smaller outer diameter than the second region 34 ,

The first area 33 of the holding body 2 has a first circumferential groove 9 and a second circumferential groove 23 on, wherein the first circumferential groove 9 between the circumferential groove 23 and the first annular shoulder 17 is arranged. In the first circumferential groove 9 and in the second circumferential groove 23 is in each case a first sealing element 8th and a second sealing element 22 inserted. At an end face of the first area 33 is a circuit board 5 a light source designed as a high-performance light-emitting diode "OSTAR-Lightning" from Osram 3 arranged, with the circuit board 5 is designed as a hexagonal alumium star. The light source 3 includes the board 5 and a light-emitting material 32 wherein the light-emitting material 32 on a holding body 2 opposite side of the board 5 is arranged.

The second area 34 of the holding body 2 is at a first area 33 opposite end in one piece with a cylindrical carrier body 10 educated. As the carrier body 10 has a larger outer diameter than the holding body 2 is at the junction a second annular shoulder 36 educated.

Furthermore, the holding body comprises 2 a cylindrical inner bore 6 coaxial in an interior of the holder body 2 is arranged. The inner bore 6 extends from an end face of the second area 34 of the holding body 2 toward an end face of the first area 33 of the holding body 2 and flows into a cross hole 16 perpendicular to the inner bore 6 is arranged. The transverse bore 16 includes a radial opening, wherein the opening is on a surface of the first area 33 of the holding body 2 between the second circumferential groove 23 and an end face of the first area 33 of the holding body 2 is arranged. A flat milling 38 is axially on the edge of the holder body 2 arranged and runs from the one with the light source 3 arranged end face of the holding body up to the opening of the transverse bore 16 ,

A cover 4 , which has the shape of a test tube and is formed of borosilicate glass, is so over the first area 33 of the holding body 2 postponed that the first sealing element 8th from the cover 4 is covered and the one end edge of the cover 4 to an elastic element 35 abuts, wherein the elastic element 35 at the first annular shoulder 17 is attached. In the apex area of the test tube-shaped cover 4 is an optical element 7 acting as a convex mirror on an inner surface of the cover 4 is formed, arranged. The optical element 7 is rotational axis symmetrical about a major axis of the holding body 2 arranged and fills an interior of the hemispherical area to a part. The optical element 7 is with its apex area in the direction of the light source 3 formed so that light rays of the light source 3 on the optical element 7 are reflected axially symmetrically and at right angles to the outside. An interior mirroring of the cover 4 can z. B. can be achieved by means of metal vapor or by gluing a mirrored body.

The carrier body 10 and the holding body 2 are arranged coaxially with each other, wherein the carrier body 10 also made of high-density aluminum. The carrier body 10 is also hard-anodized on its surface and has a cavity 13 on, with the inner bore 6 of the holding body 2 with the cavity 13 of the carrier body 10 connected is. In the cavity 13 is an electronics component 14 arranged by means of a fastening material, wherein the fastening material is formed as a good heat conductor. A first leader 20 is on the electronics component 14 connected and leads through the inner bore 6 in the cross hole 16 , From the opening of the transverse bore 16 the first conductor runs 20 through the flat milling 38 in the direction of the light source 3 and is with to the light-emitting material 32 the light source 3 connected. A second leader 25 is on the board 5 the light source 3 connected and leads over the Falchfräsung 38 through the opening of the transverse bore 16 into the inner bore 6 , From the inner bore 6 out is the second conductor 25 with the electronics component 14 connected.

The holding body 2 opposite end face of the carrier body 10 is open and with blind holes 26 which axially into an outer wall of the carrier body 10 are arranged provided. An annular recess 27 is concentric on an inner side of the open end face of the carrier body 10 arranged. The ring recess 27 is with a first sealing body 18 , which is formed as an O-ring arranged.

A lid 11 includes a lid handle 29 which is attached to a plate-shaped area 31 is arranged. On the lid handle 29 opposite side of the plate-shaped area 31 is a lead 30 provided, which has a diameter matching an inner diameter of the cavity 13 of the carrier body 10 has and with an annular groove 28 is arranged, wherein in the annular groove 28 a second sealing body 19 , which is designed as an O-ring is provided. At an outer edge of the plate-shaped area 31 threaded holes are arranged, wherein a diameter of the threaded bores a diameter of the blind holes 26 corresponds and a number of threaded holes corresponds to a number of blind holes.

The lid 11 is now so to the open end of the carrier body 10 arranged that the threaded holes of the plate-shaped area 31 with the blind holes 26 are arranged adjacent. screw 12 be through the threaded holes of the plate-shaped area 31 in the blind holes 26 arranged and the lid 11 thus exerts pressure on the sealing body 18 . 19 out. This is the cavity 13 of the carrier body 10 closed fluid-tight to the environment. A first power cable 21 and a second power cable 37 are with the electronics component 14 connected and lead from the cavity 13 of the carrier body 10 through the lid 11 outward. Outside the carrier body 10 can the power cables 21 . 37 be provided with a wet plug that can be connected to a power supply.

The optical element 7 , which is designed as an interior mirroring, can with an outside of the cover 4 arranged reflector cooperate, wherein the reflector is formed of plastic. The reflector has the shape of a funnel, wherein a funnel neck is arranged at the tip of the funnel. An inner diameter of the funnel neck corresponds to an outer diameter of the test tube-shaped cover 4 , A threaded nut which cooperates with a threaded screw provides for a variation of the inner diameter of the funnel neck. Thus, the funnel-shaped reflector can be steplessly along the cover 4 be mounted axially displaceable.

A handle on the reflector ensures easy mounting and dismounting of the reflector on the cover 4 and additionally serves in a mounted state as a handle for the lighting device according to the invention. On an inner wall of the funnel-shaped reflector is a mirror, z. As a parabolic mirror or a spherical mirror, which is arranged at its apex region with a through hole to match the inner diameter of the funnel neck of the reflector.

The invention now works as follows:
Will now be the first power cable 21 or the second power cable 37 when energized, an electrical current flows through the electronics component 14 , The electronics component 14 supplied via the first line 20 and the second line 25 the light source 3 with electric current, causing the light-emitting material 32 the light source le 3 is excited to a glow. A tension at the light source 3 can be created is z. B. 12 or 24 V. In this case, the light source 3 Currents up to 1 A tolerate. Will the holding body 2 cooled by ambient water, it can lead to increased power consumption and increased voltage of the light source 3 come, and thereby the light intensity z. B. increased by 50%. The light source 3 can be operated at higher currents and higher voltages, without the resulting increased temperature affecting the life of the light source, namely by the holding body 16 is reliably dissipated, so that the efficiency and thus the light output of the light source is significantly increased.

The light beams thus generated are divergent and either pass radially through the cover 4 to the reflector, from where the light beams are reflected in an illumination direction, or the light beams become axially on the optical element 7 , which is formed as Innenverspiegelung reflected in the direction of the reflector and are then blasted by the reflector in the direction of illumination. This will depending on what distance the light source 3 from the reflector, focusing or parallelizing of the light beams is achieved. By such an arrangement with the optical element 7 and the reflector produces a hitherto unknown spot of light. At a certain distance between the reflector and the light source 3 or the optical element 7 can by double reflection at the optical element 7 and the reflector, a point focusing of the light spot are erected.

With such an arrangement, sufficient light intensity and sufficient protection against an external pressure are available, so that the lighting device according to the invention 1 in particular, can be used as an underwater lighting device for great depths. The surrounding water provides an ideal coolant, which is due to the light source 3 resulting heat dissipates by convection. The lighting device 1 is particularly suitable as a signal generator for divers in deep water and, on top of that, reproduces the colors better than a halogen lamp.

Instead of an optical element 7 as an interior mirroring of the cover 4 is formed and cooperates with a reflector, the cover 4 be formed at its apex area with a lens. The lens can either be in the cover 4 be attached or integrated in the cover. The lens also causes parallelization or focusing of the light source 3 generated light beams, without claiming as much volume as a reflector.

The invention has been explained above with reference to an embodiment in which the light-emitting material 32 the light source 3 on a circuit board 5 is arranged. It is understood that the light emitting material 32 the light source 3 also directly on the holding body 2 can be arranged. This is the light-emitting material 32 both thermally and electrically with the holding body 2 better connected. This allows both the board 5 as well as the second line 25 be saved. The function of the second line 25 is then from the holding body 2 taken over, which serves as a power line.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 202007002558 U1 [0002]
• DE 102006054585 A1 [0003]
• - DE 202008006610 U1 [0004]

Claims (28)

Lighting device, in particular an underwater lighting device, comprising a light source ( 3 ), a holding body ( 2 ), where the light source ( 3 ), a cover ( 4 ), which on the holding body ( 2 ) and the light source ( 3 ), characterized in that the light source ( 3 ) generated heat predominantly by the holding body ( 2 ) is discharged to an environment. Lighting device according to claim 1, characterized in that at least a part of a surface of the holding body ( 2 ) is adjacent to an ambient fluid. Lighting device according to claim 1 or 2, characterized in that a circuit board ( 5 ) of the light source ( 3 ) with thermal adhesive or thermal paste on the holding body ( 2 ) is attached. Lighting device according to claim 3, characterized in that the board ( 5 ) of the light source ( 3 ) on the holding body ( 2 ) is screwed. Lighting device according to claim 1 or 2, characterized in that a circuit board ( 5 ) of the light source ( 3 ) with the holding body ( 2 ) is integrally formed. Lighting device according to one of claims 3 to 5, characterized in that the board ( 5 ) of the light source ( 3 ) on an end face of the rod-shaped holding body ( 2 ) is arranged. Lighting device according to claim 6, characterized in that the end face of the holding body ( 2 ) on which the board ( 5 ) is arranged, at least one surface of the board ( 5 ) corresponds. Lighting device according to one of claims 1 to 7, characterized in that the holding body ( 2 ) is cylindrical. Lighting device according to one of claims 1 to 8, characterized in that a first conductor ( 20 ) to a light-emitting material ( 32 ) of the light source ( 3 ), and that the first conductor ( 20 ) in an inner bore ( 6 ) of the holding body ( 2 ) is arranged. Lighting device according to claim 9, characterized in that a second conductor ( 25 ) on a board ( 5 ) of the light source ( 3 ) and that the second conductor ( 25 ) in the inner bore ( 6 ) of the holding body ( 2 ) is arranged. Lighting device according to claim 9, characterized in that the holding body ( 2 ) as a second conductor ( 25 ) is trained. Lighting device according to one of claims 1 to 11, characterized in that the light source ( 3 ) is designed as a high-performance light-emitting diode. Lighting device according to one of claims 1 to 12, characterized in that the cover ( 4 ) is formed of a translucent material. Lighting device according to one of claims 1 to 13, characterized in that the cover ( 4 ) is formed of borosilicate glass. Lighting device according to one of claims 1 to 14, characterized in that at least one optical element ( 7 ) on the cover ( 4 ) and that the optical element ( 7 ) is designed as a parabolic mirror. Lighting device according to one of claims 1 to 15, characterized in that the cover ( 4 ) the holding body ( 2 ) at least partially surrounds. Lighting device according to one of claims 1 to 16, characterized in that the cover ( 4 ) is formed at least partially hemispherical, and that the hemispherical portion of the cover ( 4 ) outside of the holding body ( 2 ) is arranged surrounding portion. Lighting device according to one of claims 1 to 17, characterized in that the cover ( 4 ) has the form of a test tube. Lighting device according to one of claims 1 to 18, characterized in that between the cover ( 4 ) and the holding body ( 2 ) at least one sealing element ( 8th ) is arranged. Lighting device according to one of claims 1 to 19, characterized in that on the holding body ( 2 ) at least one circumferential groove ( 9 ) is arranged. Lighting device according to one of claims 1 to 20, characterized in that the holding body ( 2 ) is formed of aluminum, and that the holding body ( 2 ) is hard-anodized on its surface. Lighting device according to one of claims 1 to 21, characterized in that the holding body ( 2 ) in one piece with a carrier body ( 10 ) is trained. Lighting device according to one of claims 1 to 21, characterized in that the holding body ( 2 ) and a carrier body ( 10 ) are formed in one another plugged. Lighting device according to claim 22 or 23, characterized in that at least a part of a surface of the carrier body ( 10 ) has a contact surface with an environmental fluid. Lighting device according to one of claims 22 to 24, characterized in that in a cavity ( 13 ) of the carrier body ( 10 ) at least one electronic component ( 14 ) is arranged. Lighting device according to claim 25, characterized in that a cover ( 11 ) the cavity ( 13 ) of the carrier body ( 10 ) closes fluid-tight. Lighting device according to one of claims 1 to 26, characterized in that the holding body ( 2 ) has an outer wall in contact with the environment. Lighting device according to one of claims 1 to 26, characterized in that an outer wall of the holding body ( 2 ) is in contact with the environment via a cooling member.