WO2009012806A1

WO2009012806A1 - Lamp

Info

Publication number: WO2009012806A1
Application number: PCT/EP2007/057521
Authority: WO
Inventors: Harald Dellian; Stefan Otzen
Original assignee: Osram Gesellschaft mit beschränkter Haftung
Priority date: 2007-07-20
Filing date: 2007-07-20
Publication date: 2009-01-29
Also published as: EP2171352B1; EP2171352A1; CN202040773U

Abstract

The invention relates to a lamp, comprising (i) at least one lighting unit; (ii) a cooling body, wherein the cooling body is arranged such that heat can be dissipated from the at least one lighting unit; and (iii) a supply board, configured separate from the lighting unit.

Description

Confession

Lamp

The invention relates to a light source.

Light-emitting diodes (LEDs) develop a high level of heat in high-current applications, which significantly reduces their service life and, in addition, limits the possible uses of light-emitting diodes.

To dissipate the heat suitable large heat sink can be used. However, this leads in connection with the small and light LEDs to relatively large and bulky bulbs.

In WO 2005/060309 it is proposed to derive a portion of the heat generated by light emitting diodes via a socket of a light source.

In this case, however, it is disadvantageous that the heat acts on the supply board, which ensures the operation of the light-emitting diodes, and thus thermally loads them as well as the components arranged thereon.

The object of the invention is to avoid the abovementioned disadvantages and, in particular, to provide a luminous means which enables the use of light-emitting diodes in handy and heat-resistant luminous means.

This object is achieved according to the features of the independent claims. Further developments of the invention will become apparent from the dependent claims.

To solve the problem, a light source is specified comprising: - at least one lighting unit;

- A heat sink, wherein the heat sink is arranged such that heat from the at least one lighting unit can be derived; - A supply board that is separate from the light unit.

This solution enables efficient heat dissipation from the at least one lighting unit via the heat sink, wherein the power supply board for operating the at least one light unit is advantageously designed separately and thus thermally relieved of the strong heat of at least one light emitting diode.

A development consists in that the heat sink has at least one holding means for the supply board.

In this respect, the heat sink can have a mechanical support for the supply board and thus ensure that the supply board is arranged at a distance from the at least one lighting unit. Such a mechanical support can be realized for example in the form of notches on or in the heat sink. Advantageously, the mechanical support is designed as a clamping construction such that only a small surface of the heat sink is in direct contact with the supply board and therefore only little to almost no heat can be dissipated from the heat sink to the supply board.

Another development is that the at least one lighting unit is arranged on a circuit board.

In particular, a plurality of lighting units of different types and shapes (e.g., technology,

Size or color) can be arranged on the board so that the luminosity of the lamp accordingly mixes and / or amplified.

As an additional development, the board of the light source is a double-sided board whose bottom is thermally coupled to the heat sink. In particular, the underside of the board may have at least one copper surface which is in direct contact with the heat sink.

Advantageously, this is an electrical insulation between the top and bottom through the board (plastic) itself.

One embodiment is that the lighting means has a socket which is thermally coupled to the heat sink.

Due to the thermal coupling with the socket, an efficient dissipation of the heat from the at least one lighting unit via the heat sink to the socket and beyond is possible.

It is also an embodiment that on the basis of the heat sink, a position of the at least one lighting unit in the lighting means is adjustable.

This is advantageous in order to optimize in particular optical emission characteristics of the luminous means. Thus, a transparent plastic piston with predetermined optical properties can be arranged above the at least one lighting unit, so that the light emitted by the at least one lighting unit with a specific emission characteristic leaves the lighting means. The design of the heat sink allows, for example, a positioning of the at least one light source within the plastic piston. Another embodiment is that the heat sink is made in one piece or in several parts. In particular, the heat sink may be designed as a cooling lug and / or comprise one or more cooling vanes. In addition, the heat sink may comprise at least one holding means.

Accordingly, a flexible embodiment of the heat sink enables the versatile implementation of the advantages described herein. Due to the effective thermal relief of the at least one lighting unit, it is possible to extend the life of the lamp or to increase its maximum light output.

Another embodiment is that the at least one lighting unit comprises at least one of the following components:

a light emitting diode; - a lamp.

In this case, combinations of different types, e.g. Sizes, colors, technologies of lighting units be provided.

An additional embodiment is that the heat sink has a holding device for at least one optical system. In particular, the optical system may include a lens for diffusing the light to a bulb. Preferably, the lens can be used for targeted dispersion of light. In this case, the optical system is preferably arranged above the at least one lighting unit.

Embodiments of the invention are illustrated and explained below with reference to the drawings. Show it :

Fig.l is a schematic decomposition of a luminous means comprising a light-emitting diode and means for heat dissipation;

2 shows the heat sink of Fig.l in the magnification.

3 shows a sectional view through the assembled lamp.

Fig.l shows the representation of a schematic decomposition of a lighting means.

A lighting unit, in Fig.l formed as light emitting diode 101 is disposed on a double-sided circuit board 102. The underside of the board 102 has a large copper surface and is thermally conductively connected to a heat sink 103.

The light-emitting diode 101 emits light through a preferably at least partially transparent or frosted piston 108, which preferably comprises plastic or glass.

The heat generated by the light emitting diode 101 is at least partially dissipated to the heat sink 103. The heat sink 103 includes a plurality of cooling vanes 104, which are preferably fixedly connected to the heat sink 103 and made of a thermally conductive material. In particular, the cooling vanes 104 may be made of the same material as the heat sink 103.

A supply board 106 includes, for example, the power supply for the light emitting diode 101 and is spaced therefrom. The cooling lugs 104 have mechanical holding means 107 for fixing the supply board 106.

For example, the mechanical retention means 107 may be implemented by engaging the cooling vanes 104 into notches on the supply board 106. After engagement with these notches, the cooling lugs 104 may include bends (e.g., tapers) that allow for clamping support of the supply board 106.

In the further course, the cooling lugs 104 have thermal contacts 109, which produce a thermal connection with a socket 105 and thus enable heat dissipation from the light-emitting diode 101 to the socket 105.

Thus, it is advantageously achieved that the heat from the light-emitting diode 101 to the outside, in particular in the direction and / or the socket 105 is passed. Furthermore, the heat sink 103 includes cooling vanes 104 for mechanical support and / or locking of the supply circuit board 106. The cooling vanes 104 or additional cooling vanes or supports 110 can be used to mechanically fix the circuit board 102.

It is also advantageous that an exchange or a change of the lighting unit (s) 101 is simplified on the basis of the solution proposed herein: Without changing the power supply board 106, the circuit board 102 can be exchanged. In addition, any number of light emitting diodes may be disposed on a circuit board 102 to be replaced since the power board 106 preferably includes a power source.

Due to the efficient heat dissipation, a higher light output can be achieved in addition to the increased life of the light source. 2 shows enlarged the heat sink 103 with the cooling vanes 104 according to Fig.l.

The heat sink 103 has three cooling vanes 104 and three fastening means 110. In this case, the heat sink 103 is made of several parts of the same thermally conductive material.

The fastening means 110 are provided for fixing the circuit board 102. The cooling vanes 104 have holding means 107 for fixing the supply circuit board 106. Furthermore, the cooling vanes 104 show thermal contacts 109 for engagement in the socket 105.

3 shows a section through the lighting means in an assembled state. The explanations regarding the reference numbers correspond to those for Fig.l and Fig.2.

Claims

claims

1. Lamp comprising

- at least one lighting unit (101); - A heat sink (103), wherein the heat sink (103) is arranged such that heat from the at least one lighting unit (101) can be derived;

- A supply board (106), which is carried out separately from the lighting unit (101).

2. Lamp according to claim 1, wherein the heat sink

(103) has at least one support means (107) for the supply board.

3. Lamp according to one of the preceding claims, wherein the at least one lighting unit (101) on a circuit board (102) is arranged.

4. Lamp according to claim 3, wherein the board (102) is a double-sided board whose bottom is thermally coupled to the heat sink (103).

5. Lamp according to claim 4, wherein the underside of the board is thermally coupled based on at least one copper surface.

6. Lamp according to one of the preceding claims comprising a socket (105) which is thermally coupled to the heat sink (103).

7. Lamp according to one of the preceding claims, wherein on the basis of the heat sink (103), a position of the at least one lighting unit (101) in the lighting means is adjustable.

8. Lamp according to one of the preceding claims, wherein the heat sink is made in one piece or in several parts.

9. Lamp according to one of the preceding claims, wherein the at least one lighting unit comprises at least one of the following components:

a light emitting diode;

- a lamp.

10. Lamp according to one of the preceding claims, wherein the heat sink has a holding device for at least one optical system.

11. Lamp according to claim 10, wherein the optical

System has a lens for dispersing the light on a piston.