DE102012015652A1 - Tubular LED lamp used in e.g. clean room used for manufacturing semiconductor, has cooling element that is arranged within LED light carrier made of glass - Google Patents

Abstract

The tubular LED lamp (1) has a cooling element (4) that is arranged within a LED light carrier (3) made of glass. A activatable getter material (5) is installed in the LED light carrier for adsorption of gases such as oxygen in the gas space and substances such as activated carbon and/or silica gel. The LED light carrier is filled with an inert gas with pressure greater than atmospheric pressure. The carrier is coating with fine-grained titanium dioxide and/or fine-grained calcium carbonate.

Description

The invention relates to a tubular lamp, comprising at least one LED lighting means and at least one cooling element.

Known gas discharge lamps in tube form, as they are known in T5, T8 or T12 construction, are replaced at the time of this application increasingly by tubular LED lamps. This replacement is intended to reduce energy consumption for lighting purposes. Although the total light output of gas discharge lamps can not yet be completely replaced by known LED lamps in tube form, this replacement is attractive because of the very long life of LED lamps.

In order to be able to use the novel LED lamps in existing versions for gas discharge lamps in tubular form, a large number of so-called retrofits are known which make it possible to operate the LED lamps at the power supply intended for the gas discharge. As LED bulbs are usually light sources with LEDs in a so-called chip-on-board (COB) or surface-mounted device (SMD) construction used, in which a larger number of LED bulbs are arranged on an elongated light source carrier , This lamp carrier is usually connected to a designated heat sink to dissipate the heat of each LED. To mimic the tubular shape of the gas discharge lamps, these COB or SMD designs are on the front side containing the LED elements with a half-shells made of plastic as a cover over. If the heat sink also has a semicircular profile relative to the side facing away from the LED elements, a tube-shaped LED lamp thus produced actually forms an elongate cylinder. The design with half shells offers the advantage of very simple machine processing. Furthermore, to build the LED lamps in tubular form, no glass is necessary, so that can be used on extruded half-shell profiles. The half-shell profiles mated with the LED illuminant carriers form a cylinder or a flattened cylinder that can be used in conventional versions of tubular gas discharge lamps.

In the US 2011 023 532 0 A1 a tubular LED lamp is disclosed in which two half shells are pushed onto a central illuminant carrier.

This design far, however, various disadvantages. First, the connection between the lamp carrier and the cover in half-shell shape is not easy to seal. The edges where the two components abut each other must be glued if an airtight cover is even achieved.

When using these known LED lamps in tubular form in industrial plants, in laboratories, in car parking garages or in non-weather protected operation can accumulate moisture in the microclimate within the cover, resulting in premature aging of the LED lamp. Furthermore, the usually made of plastic covers tend to evaporate plasticizers or monomers of the polymeric plastic, which is optionally decomposed by UV components of the LED light to chemically active substances. These act after decomposition corrosive to the existing on the illuminant carrier lines.

In addition to moisture and mostly organic vapors also form car exhaust gases when used in parking garages, vapors in industrial halls or laboratories problems with the long-term use of these novel known LED lamps.

In the US 2010 006623 0 A1 discloses a lamp carrier, which is arranged in a closed tube. To improve the cooling is proposed to fix the individual LED with a special thermally conductive glue on the carrier. Another heat sink except the carrier itself is not disclosed in this document.

In the US 2020 303 277 3 A1 different designs for a tubular LED lamp are disclosed, the designated heat sink is located on the outside.

The object of the invention is therefore to provide a tubular LED lamp which overcomes the disadvantages of the prior art.

The object according to the invention is achieved in that both the at least one LED illuminant and the at least one cooling element are arranged within a closed tube.

The inventive arrangement of the heat sink within the closed tube offers the advantage of complete seclusion of the electronic components from environmental influences. This protects the durable, yet delicate electronic components from corrosion or other harmful environmental factors, allowing them to last up to 50,000 hours. The arranged inside the closed tube heatsink must of course be dimensioned be that the heat absorbed by him as a heat reservoir in long-term operation by convection within the tube or by radiation can be discharged.

In a preferred embodiment, the closed tube is made of glass. The use of glass has the advantage that no aging of the cover takes place. In the previously known use of plastic profiles in known LED lamps in tubular form, the plastics tend to evaporate when their own exposure to the weather, possibly UV light levels in the LED light. In the very small free volume of the tubular LED lamp can thus accumulate during long-term operation, a significant concentration of organic substances in the inner gas space of the LED lamp.

In order to prevent unwanted substances from accumulating in the gas space within the closed tube during long-term operation, it is provided in a preferred embodiment of the tubular LED lamp that there is a material for adsorbing gases and substances located in the gas space. These substances are preferably activated carbon and / or silica gel. Activated carbon is capable of adsorbing and holding organic substances. Silica gel is capable of adsorbing water vapor so as to absorb any moisture escaping from the components or moisture produced by the chemical reaction of adhesives, plastics or inorganic materials.

So that these adsorbers are not already saturated with moisture and / or organic substances in the manufacture of the LED lamps, it can be provided in a further advantageous embodiment that within the closed tube a so-called getter material is present, which is particularly active when activated by microwaves or radiant heat has a high uptake potential of moisture, residual gases and / or organic substances. Known getter materials for receiving residual oxygen can also be used when the closed tube is filled with an inert gas, such as nitrogen.

In order to improve the heat dissipation of the existing within the closed tube heat sink, the internal pressure of any inert gas or even air may be increased from the atmospheric pressure.

If the LED lamp is to produce as glare-free light as possible, the surface of the closed tube may be frosted. This matting can be done by etching. The etching has the advantage that the surface during installation is more stable against scratches that may occur during insertion of the illuminant carrier in the closed tube.

Alternatively or cumulatively, it is also possible to coat the inside of the closed tube with a paste or liquid with CaCO ₃ (lime) and / or with TiO ₂ (rutile) and burn out during production. The lime has the effect that the light emerging from the LED in the closed tube is strongly scattered, producing a glare-free light. In order that the lime does not block the light, fine-grained TiO _{2 is} provided, which introduces the light into the very thin layer of lime due to its high refractive index and its transparency.

The inventive arrangement of the heat sink within the closed tube requires a correspondingly dimensioned design of the heat sink. This must be dimensioned so that the heat absorbed by the heat sink as a reservoir by convection and / or radiation is delivered to the wall of the closed tube. It is important to ensure that the distance of the heat sink to the inner surface of the closed tube space for a free convection of the gas contained in the closed tube. The arrangement must be able to provide sufficient convection cooling both in vertical and in horizontal operation.

In a specific embodiment, the closed tube and / or the coating has a blue filter. This blue filter for filtering blue and ultraviolet radiation enables the use of these LED lamps in clean rooms where semiconductors are fabricated that are sensitive to blue and ultraviolet light.

In order to use the LED lamp according to the invention in conventional versions for tubular gas discharge lamps with corresponding retrofit circuit, a design in T5, T8 or T12 design is advantageous.

The invention will be explained in more detail with reference to the following figures.

It shows

1 a tubular LED lamp according to the invention in an open view,

2 the LED lamp according to 1 with attached end caps and electrical connections.

In 1 is an LED lamp according to the invention 1 shown in an open view. It is clear to realize that a light source carrier 3 approximately in the middle of the closed tube 2 is arranged. Below the illuminant carrier 3 is located on the LED bulbs 3a opposite side a heat sink 4 the same as the illuminant carrier 3 inside the closed tube 2 is arranged and does not form part of the outer housing. The closed tube 2 can be filled with an inert gas. adsorber 5 in the form of activated carbon, silica gel and / or as a getter can on the illuminant carrier 3 be arranged or with a cap 6 into the closed tube 2 be introduced to remove moisture, residual oxygen, organic substances and / or harmful gases from the microclimate of the interior of the tubular LED lamp.

In 2 is that out 1 illustrated tubular LED lamp 1 attached cap 6 shown, which complete the tube completely and hermetically. This cap has electrical contacts 7 and 8th to power the illuminant carrier 3 The design of the entire tubular LED lamp is optionally kept in T5, T8 or T12 design, so that the tubular LED lamp can be used in conventional sockets for tubular gas discharge lamps.

LIST OF REFERENCE NUMBERS

1

Led lamp

2

tube

3

Lamp support

4

heatsink

5

Adsorber / getter

6

cap

7

Contact

8th

Contact

QUOTES INCLUDE IN THE DESCRIPTION

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

Cited patent literature

• US 20110235320 A1 [0004]
• US 20100066230 A1 [0008]
• US 20203032773 A1 [0009]

Claims (10)

Tubular LED lamp ( 1 ), comprising - at least one LED illuminant carrier ( 3 ) and - at least one cooling element ( 4 ), characterized in that both the at least one LED illuminant carrier ( 3 ) as well as the at least one cooling element ( 4 ) within a closed tube ( 3 ) are arranged. Tubular LED lamp according to claim 1, characterized in that the closed tube ( 2 ) consists of glass. Tubular LED lamp according to claim 1 or 2, characterized in that in the closed tube ( 2 ) a material ( 5 ) is present for the adsorption of gases and substances located in the gas space, preferably activated carbon and / or silica gel. Tubular LED lamp according to claim 1 or 2, characterized in that in the closed tube ( 2 ) a radiation activatable getter ( 5 ) is present for the adsorption of oxygen and / or organic substances. Tubular LED lamp according to one of claims 1 to 4, characterized in that the closed tube ( 2 ) is filled with an inert gas, which preferably has an overpressure relative to the atmospheric pressure. Tubular LED lamp according to one of claims 1 to 5, characterized in that the closed tube ( 2 ) has been etched or coated by matting. Tubular LED lamp according to claim 6, characterized in that the coating contains fine-grained TiO ₂ and / or fine-grained CaCO ₃ . Tubular LED lamp according to one of claims 1 to 7, characterized in that the coating comprises a blue filter. Tubular LED lamp according to one of claims 1 to 8, characterized in that the heat sink ( 4 ) is dimensioned so that the heat absorbed by it as a reservoir by convection and / or radiation to the wall of the closed tube ( 2 ) is delivered. Tubular LED lamp according to one of claims 1 to 9, characterized in that it is designed in T5, T8 or T12 construction.

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