SE1251074A1 - ILLUMINATOR - Google Patents

Abstract

Lighting device (2) comprising one or more light generating units (4) and a transparent portion (6) which light (5) generated by said units is intended to pass, the lighting device (2) further comprises a heating system (8) intended to conduct heat generated of the light generating unit (s) (4) with heat transfer medium (12) to the transparent portion (6) for heating the same. The heating system (8) comprises a conduit arrangement (10) arranged in direct connection to said transparent portion (6) and containing said heat transfer medium (12), the heating system (8) being a closed system where narrowing and condensation of the heat transfer medium (12) takes place, and that the heat generated in connection with the condensation is used for direct heating of said transparent portion (6). (Figure 1)

Description

10 15 20 25 2 be used to efficiently conduct heat, for example from electronics in computers, through to move heat from one end of the pipe to the other where it may be larger ability to cool efficiently in the normal way. A heat-pipe system is also used for to transport heat from vacuum tube solar collectors to waterborne heat conduction system. In a heat-pipe system, the heat can only be transported in one direction from below where the liquid is gasified upwards where the gas condenses to flow along the inside of the tube down and gasified again.

A typical heat-pipe system consists of a closed pipe made of a material with high thermal conductivity, such as copper or aluminum. The pipe evacuated and a suitable heat transfer medium is partially filled. The means have selected with regard to the application of the system. Examples of media are water, ethanol, acetone, or mercury. According to this type of heat-pipe system has the pipes on the inside are provided with a material which has a capillary pressure for it the selected media. It may, for example, be a sintered metal powder or also grooves in the length of the pipe. Independent design is the purpose to exploit the capillary force to return the condensed medium back to the heated one the end. In some cases, gravity can instead be used to return it condensed medium and it can also be returned via a separate tube, instead of the tube which transmits the vaporized medium. A heat-pipe system contains none moving parts and typically requires no maintenance.

The materials selected as heat transfer medium depend, as mentioned above the operating temperatures that are relevant for a specific application. For example methanol has an operating temperature range of 283-403 K, and ethanol one temperature range of 273-403 K. Also different so-called freons may be appropriate to use.

The object of the present invention is to provide an improved and simplified lighting device with respect to reducing fogging and icing on the transparent, light-transmitting portion. 10 15 20 25 30 Summary of the Invention The above object is achieved by the invention defined by the independent the patent claim.

Preferred embodiments are defined by the dependent claims.

According to the invention, the heat is conducted from the light emitting unit, e.g. LED the socket of the lamp, using the so-called heat-pipe principle, to it transparent portion (lens) of the lighting device. This is accomplished by allowing a suitable heat transfer medium (liquid / gas) to evaporate around the hot base and passed in a first line to the upper edge of the transparent the party. There, the steam is conducted in mainly vertical channels during condensation, and thus heat dissipation, downwards. The liquid is then led back to the hot one the base, preferably by means of a capillary material in a second conduit where it evaporated again. This conducts heat from the hot base to the lens which then heats up and prevents fogging and snow and ice from forming on the lens.

The circulation is maintained, according to one embodiment, by means of gravity and capillary force. Thus, no active regulation in the form of, for example, one is required pump or fan to circulate the heat transfer medium.

Short drawing description Figure 1 is a schematic side view of a lighting device according to the present invention invention.

Figure 2 is a schematic side view of a lighting device according to the present invention invention showing different embodiments.

Figure 3 is a front view of a lighting device according to an embodiment of present invention.

Figure 4 shows a cross section of the transparent portion according to an embodiment of present invention.

Figure 5 shows a cross section of the transparent portion according to another embodiment of the present invention. 10 15 20 25 30 4 Figure 6 is a schematic side view of yet another embodiment of the present invention invention.

Figure 7 is a schematic side view of a lighting device according to another embodiment of the present invention.

Detailed Description of Preferred Embodiments of the Invention The invention will now be described in detail with reference to the accompanying the figures. In the figures, the same reference numerals have been used to denote details with the same or similar function.

Figure 1 is a schematic side view of a lighting device 2 comprising one or several light generating units 4, preferably arranged in a housing (not shown) and a transparent portion 6 through which light generated by said units is intended to pass.

The light-generating units are, for example, LED lighting and the lighting device is preferably a vehicle lighting.

The lighting device 2 further comprises a heating system 8 intended to conducting heat generated by the light generating unit or units 4 by one heat transfer medium 12 to the transparent portion 6 for heating this.

The heating system 8 comprises a conduit arrangement 10 arranged in direct connection to the transparent portion 6 and containing said heat transfer medium 12, the heating system 8 being a closed one systems where evaporation and condensation of the heat transfer medium 12 happens. In the figures, the medium in the vapor phase has been denoted by dashed arrows and in liquid phase with solid arrows. The heat generated in connection with the condensation is used for direct heating of said transparent portion 6.

In other words, the heating system 8 operates according to the so-called heat pipe the principle. As mentioned, the figures are schematic and have been simplified to illustrate the invention as clearly as possible, for example there are of course often some form of housing (lamp housing) that supports the components. 10 15 20 25 30 5 The conduit arrangement is thus adapted so that the heat transfer medium directly heats the transparent portion.

Pipe arrangement 10 comprises, for example, conduit channels 11 as to examples may be one or more separate tubes.

According to one embodiment, the conduit arrangement 10 is arranged on the inside thereof transparent portion 6. This is schematically illustrated in Figure 1.

According to another embodiment, the conduit arrangement 10 is arranged on the outside of the transparent portion 6. This is schematically illustrated in Figure 5.

According to a further embodiment, the conduit arrangement 10 is arranged so that it is integrated in the transparent portion 6. This is schematically illustrated in Figure 4.

In this case, when the conduits are formed in the transparent portion, none are required separate pipes without the ducts may have been formed in connection with the manufacture of the transparent portion, for example by the transparent portion manufactured by joining two layers that are laminated together there the channels are formed by depressions in the respective layers which are fitted so that these form channels at the junction. It is also possible to sound the conduits consist of tubes cast into the transparent portion.

Another alternative is to let the transparent party consist of one double wall structure, ie. two transparent walls with a gap between the walls where the heat transfer medium passes.

For the other two variants, ie. where the management arrangement is located on the outside or the inside of the transparent portion, the conduits are formed by one or more separate pipes. 10 15 20 25 30 6 For all locations of the line arrangement, the line channels apply can be likened to a network that is arranged so that it is evenly distributed across it transparent portion to thereby evenly distribute the heat.

The conduit can, for example, have a circular cross-section. However, others have cross sections have been found to be advantageous where the surface faces the part of the transparent the party that is to be heated the most, ie. outside, is larger. This can be achieved for example by designing the channel with a cross section that is an isosceles or equilateral triangle where the tip of the triangle is directed towards the outside. Another option is to let the cross section be a semicircle, where the arc of the circle is directed towards the outside.

The conduits in the transparent portion must be designed so that the light image affected as little as possible. This means, for example, that the line channels have a maximum outer diameter that is relatively small, on the order of some millimeter.

The heating system 8 comprises a heat absorption part 14 arranged in connection to said light generating units 4 and containing said heat transfer medium 12. The purpose of the heat absorption part is to enclose parts of the light generating unit 4, for example a socket for this, so that it the heat transfer medium can absorb as much heat as possible from it light generating unit 4. The heat absorption part 14 is a closed container only connected to at least a first conduit 16 adapted to conduct the said heat transfer medium 12 from the heat absorption part 14 to The conduit arrangement 10, and to at least one second conduit 18 adapted to directing said heat transfer medium 12 from the conduction arrangement 10 back to the heat absorption part 14.

The first conduit 16 is preferably made of a low material thermal conductivity because as much of the heat as possible must be given off to the transparent party and not lost along the way. By being completely or partially insulate all or part of the outside of the first conduit 16 with an insulator 10 15 20 25 30 7 layer 20, see the embodiment shown in figure 2, the heat dissipation from it is reduced first management further.

In connection with the heat transfer medium condensing, additional heat is given off the transparent party. The management arrangement is so arranged that it the condensed medium is moved downwards along the transparent portion thanks to gravity. Figure 3 shows the lighting device from the front there The vertical extent of the ducts has been marked.

To then return the medium, to the heat transfer part 14 comprises the other the conduit 18 a capillary conductive material 22, as is apparent from that embodiment as shown in Figure 2. The capillary conductive material may, for example, be any kind of metal wool or felt-like metal material. The reason why one Capillary conductive material needed here is that the lower part of the transparent the portion 6 is located below the heat transfer part 14.

A capillary conductive material can also be integrated into the conduit arrangement therein transparent part which has the advantage that the conduits then do not need be vertically oriented but can be given a suitable orientation to achieve optimal effect. They can, for example, be arranged in suitable loops to thereby cover so as much of the surface as possible.

Figure 6 shows a schematic side view of an embodiment where no capillary conductance material is required because the heat transfer member 14 is located below it the lower part of the transparent portion and thereby the medium flows down to the heat transfer part thanks to gravity. Such a design of the lighting requires, for example, a mirror arrangement (not shown) to get the light out.

The background part of the description indicated a number of media that can function as heat transfer medium depending on which application, in this case which temperatures present at the light generating unit. For LED lamps applies that the working temperature is in the range of 60-90 degrees Celsius. 10 15 20 8 For example, the heat transfer medium 12 may be butane or propane.

If the heat generation from the light generating unit is not sufficient to to remove mist on the lens, additional heat can be added to the base of the unit for example with the help of electricity, hot coolant, hot charge air or exhaust gases.

Finally, Figure 7 shows a schematic side view of a lighting device according to a further embodiment of the present invention.

According to this embodiment, a combined line 24 is used, i.e. only one conduit, to transfer the heat transfer medium to and from the transparent the portion 6. The combined conduit 24 is preferably provided with one capillary conductive material 22 and also with an insulating layer 20. I In the embodiment shown in Figure 7, the conduit arrangement has been arranged on inside the transparent portion 6, it is of course possible to leave it integrated in, or be located on the outside of the lot 6.

What has been described above in connection with other embodiments is of course applicable, if technically possible, also to the embodiment shown in Figure 7.

The present invention is not limited to the above-described preferred embodiments. Various alternatives, modifications and equivalents can be used.

The above embodiments should therefore not be construed as limiting the scope of the invention as defined by the appended claims.

Claims (16)

10 15 20 25 30 Patent claims Lighting device (2) comprising one or more light generating units (4) and a transparent portion (6) to which light (5) generated by said units is intended to pass, the lighting device (2) further comprising a heating system (8) intended to conduct heat generated by the light generating unit (s) (4) with a heat transfer medium (12) to the transparent portion (6) for heating the same, characterized in that the heating system (8) comprises a conduit arrangement (10) arranged in direct connection to said transparent portion (6) and containing said heat transfer medium (12), the heating system (8) being a closed system where narrowing and condensation of the heat transfer medium (12) takes place, and that the heat generated in connection with the condensation is used for direct heating of said transparent portion (6). The lighting device according to claim 1, wherein said conduit arrangement (10) comprises conduits (11). The lighting device according to claim 1 or 2, wherein said conduit arrangement (10) is arranged on the inside of the transparent portion (6). The lighting device according to any one of claims 1-3, wherein said conduit arrangement (10) is arranged on the outside of the transparent portion (6). The lighting device according to any one of claims 1-4, wherein said conduit arrangement (10) is arranged integrated in the transparent portion (6). The lighting device according to any one of claims 1-5, wherein the heating system (8) comprises a heat absorption part (14) arranged in connection with said light generating units (4) and containing said heat transfer medium (12), at least a first conduit (16) adapted to directing said heat transfer medium (12) from said heat receiving member (14) to said conduit arrangement (10), and at least one second conduit (18) adapted to guide said heat transfer medium (12) from said conduit arrangement (10) back to said heat absorption part (14). The lighting device according to claim 6, wherein said first conduit (16) is made of a material with low thermal conductivity. The lighting device according to claim 6 or 7, wherein said first conduit (16) is completely or partially insulated with an insulating layer (20). The lighting device according to any one of claims 6-8, wherein said second conduit (18) comprises a capillary conductive material (22). The lighting device according to any one of claims 1-5, wherein the heating system (8) comprises a heat absorption part (14) arranged in connection with said light generating units (4) and containing said heat transfer medium (12), and a combined conduit (24) adapted to conducting said heat transfer medium (12) between said heat receiving member (14) and said conduit arrangement (10). The lighting device according to claim 10, wherein said combined conduit (24) is completely or partially insulated with an insulating layer (20). The lighting device of claim 10 or 11, wherein said combined conduit (24) comprises a capillary conductive material (22). The lighting device according to any one of claims 1-12, wherein the heating system (8) operates according to the heat-pipe principle. The lighting device according to any one of claims 1-13, wherein the heat transfer medium (12) is butane or propane. ll The lighting device according to any one of claims 1-14, wherein said one or more light generating units (4) is an LED lighting. The lighting device according to any one of claims 1-15, wherein said lighting device is a vehicle lighting.