DE102009014526A1 - LED-lamp for private household application, has LED unit arranged between reflector and heat sink in clamped manner, where fastening units are provided at reflector for fastening reflector to heat sink in mechanically detachable manner - Google Patents

Abstract

The LED-lamp (10) has a LED unit arranged between the reflector and a heat sink (12) in a clamped manner, where the heat sink cools the LED-unit. A reflector bundles light emitted by the LED-unit and passed out through an outlet opening in the reflector. Fastening units in the form of resilient clamping legs are provided at the reflector for fastening the reflector to the heat sink in a mechanically detachable manner. A holder (16) with power connection is arranged at the heat sink. The LED unit includes a LED-light source, which is arranged on a LED-circuit board.

Description

The The present invention relates to an LED lamp with an LED unit, a heat sink for cooling the LED unit and a reflector, which is that of the LED unit radiated, emerging through an outlet opening in the reflector Light bundles.

LED bulbs (LED = light-emitting diode) are increasingly used in private Households in the form of LED spotlights. These LED spotlights own in contrast to conventional ones light bulbs or halogen lamps have the advantage of being much less power consume and a significantly longer Lifespan than conventional Have lamps. With LED lamps according to the state of the art also the problem of a comparable brightness in the meantime for the most part eliminated. Furthermore, these LED spotlights radiate much less Heat than conventional light bulbs or halogen lamps.

According to the state In the art, such LED bulbs consist of one or more a surface arranged light emitting diodes, which for the purpose of electrical connection on a corresponding thermally conductive LED board are mounted. The electrical connection to the power source via printed circuit board tracks and electrical connection cables, which are soldered to the LED board. The LED board is for cooling inserted into a heat sink, on which also a socket with the electrical connection attached is. To bundling the light usually becomes the heat sink additionally still provided with a reflector on which partly still one Lens is attached.

Of the Assembly of such spread in the art LED bulbs usually turns out to be complex and time-consuming. The LED board with the LED chip and the reflector are glued into the heat sink usually consuming. This relatively elaborate Assembly increases the production costs, which is also in the relatively high price for reflects the end user. Subsequent disassembly or replacement individual components is not possible because this the individual components must be destroyed.

Frequently the reflector but only loosely arranged in the heat sink and is only by the subsequent Inserting a lens or additional Components fixed in it. This structure has, however, as little robust, which is why it is common also to a slippage of the reflector or to a faulty, does not come accurate fit of the reflector inside the heat sink.

Of the The invention is therefore based on the object described above LED bulbs to improve to ensure a robust design and that the assembly of the light bulb production technology is simplified, thereby production costs can be saved and also an afterthought Exchanging individual components is basically possible.

These Task is based on the aforementioned LED bulbs solved by that on the reflector fastening means for mechanically releasable attachment of the reflector provided on the heat sink are and that the LED unit clamped between the reflector and the heat sink is arranged.

The LED unit is thus no longer in contrast to the prior art glued to the heat sink, but is exactly fixed between this and the reflector and trapped. The reflector itself is not just loose in the process Heat sink arranged or glued to this, but by means of special fasteners mechanically detachable connected to the heat sink. The reflector thus does not serve exclusively as a light reflection body, but at the same time as attachment for the LED unit. Thereby, that this attachment is mechanically solvable and none of the components can be glued together, the entire LED bulbs can be very quickly assembled and, in case of mistakes or necessary Changing individual components, also very easy to return to its individual parts be disassembled. This not only provides constructive, but also significant production advantages.

The LED unit is through an opening inserted in the reflector from below through this, so that the radiated light can escape. The opening also provides for the fixation of LED unit and prevents a wrong fit this. faulty Built-in components are also avoided.

All in all proves, however, the simple and very quickly assembled structure Of the light source as the main advantage, thereby reducing production costs considerably can be minimized.

In a preferred embodiment it is provided that the fastening means comprise a plurality of resilient clamping elements, in particular clamping legs, which engage in projections or bores of the heat sink. The realization of the fastening means by resilient clamping elements or clamping legs has the advantage that the reflector can be attached to the heat sink like a clip. The clamping legs, which are mounted radially on the underside of the reflector, are in projections or provided for this purpose Drilled holes in the heat sink and hooked with these as a clip connection. This provides a mechanically strong hold, but also allows for rapid disassembly of the reflector by the legs are pressed together from below and pushed through the holes. Furthermore, this type of fastener can be very easily on the reflector, which is usually made of plastic produce. By the appropriate size adjustment of the clamping legs, the reflector is automatically correctly positioned and fixed when inserted into the heat sink. It is understood that the reflector can also be attached by other fastening means on the heat sink. It is conceivable that the reflector is screwed into a designated thread in the heat sink or that the reflector is screwed by means of one or more screws to the heat sink.

In A further embodiment provides that on the heat sink a Thread for attaching a lens or an incandescent glass bulb, in particular is provided by means of a clamping ring. With the help of the thread can be above the reflector optionally different lenses or incandescent glass flask Screw. The basic structure of the LED bulb remains always the same, but you can by unscrewing different lenses or attachments different optics of the LED bulb can be generated. Depending on the end user's request This can thus, for example, crystal clear, white-diffuse or color-diffuse Put on lenses and so on make an optic comparable to a halogen bulb or by screwing on an incandescent glass bulb the impression of a conventional one light bulb awaken. The modular construction and the simple realized attachment by means of a thread, as needed, also a quick exchange.

Further is preferably provided in one embodiment that on the heat sink a Socket with power connection, in particular a halogen lamp base according to MR11, MR16 or GU10 standard or an incandescent socket according to E14 or E27 standard is. The said base is usually made of a particularly heat-resistant and dimensionally stable ceramic material produced. Depending on the application except the mentioned power connections also other connections Can be integrated in the socket, so that this with all for bulbs usual power connectors is compatible. It goes without saying that the circuit on the LED board adjusted according to the voltage of the power supply must become. The base is preferably removable, in particular unscrewable, attached to the heat sink. This offers the advantage that the LED unit and the reflector of under accessible are. This is especially important because the ones already described Fasteners of the reflector are detachable from the bottom.

In a further embodiment is preferably provided that the LED unit an LED light source arranged on an LED board includes. The LED light source is preferably with the LED board glued or soldered. To protect the end user, the LED light source is also in a lenticular Plastic or glass housing installed, so this for not accessible to the end user is. This has, above all, the purpose of reducing the risk of injury, because at the LED light source basically a voltage is applied. The accessibility is also due to the overlying Reflector prevents.

It it is understood that the above and the following yet to be explained features not only in the specified combination, but also in other combinations or alone, without to leave the scope of the present invention.

embodiments The invention are illustrated in the drawings and in the following description explained. Show it:

1 a schematic front view of the LED bulb with screwed incandescent glass bulb and a light bulb socket,

2 a schematic front view of the LED bulb with a lens and a halogen lamp socket,

3 a perspective schematic view of the partially cut-open LED lighting device according to the invention,

4 a schematic plan view of the LED unit,

5 a sectional view of the reflector according to the invention,

6 a perspective schematic view of the reflector according to the invention from above,

7 a perspective schematic view of the reflector according to the invention from below, and

8th a perspective schematic view of the reflector according to the invention from below with inserted cover plate.

1 shows an LED bulb 10 with egg a heat sink 12 , inside which a LED unit 14 is arranged. The heat sink 12 is doing from a pedestal 16 worn, at its lower end in this embodiment, an incandescent socket 18 is arranged, which corresponds to the E27 standard. The LED bulb 10 is thus compatible with conventional 230 V incandescent bulb connections and can also be used like such a light bulb. For optical purposes is on the heat sink 12 in this embodiment, an incandescent glass bulb 20 arranged, which is modeled on the appearance of a light bulb.

In order to operate the LED unit 14 To be able to dissipate the resulting heat as well as possible are in the heat sink 12 , which is usually chrome, several slit-shaped cooling fins 22 arranged. The base 16 is preferably also made of a very dimensionally stable and heat-resistant material, such as ceramic.

Depending on the application and customer request, the LED lighting device according to the invention 10 but also be designed in halogen lamp optics. This second possible embodiment is in 2 shown in a schematic front view. This is on the heat sink 12 a lens 24 screwed. It is understood that the lens 24 also, depending on the customer, may be designed differently, either as a crystal clear lens, as a white-diffuse lens or as a color-diffused lens. Because the lens 24 in the heat sink 12 screwed, this can easily be changed and replaced by a possibly differently designed lens.

The base 16 of the LED bulb 10 is in this second embodiment with a conventional halogen lamp socket 26 designed according to 12 V MR16 standard. Equally conceivable, however, is a connection to 12 V MR11 or 230 V GU10 standard. Depending on the requirement, these different sockets 16 on the heat sink 12 be attached. The base 16 is preferably on the heat sink 12 screwed attached. The circuit for the LED unit 14 is adjusted accordingly.

In 3 is the heat sink 12 with inserted lens 24 , the LED unit used 14 and one in the heat sink 12 used reflector 28 partially cut open. The reflector 28 is according to the invention with the help of several fasteners 30 , which are designed as resilient clamping elements or clamping legs, on the heat sink 12 clamped. These clamping legs 30 grab in provided projections 32 on the heat sink 12 one. Because of the clamping legs 30 are designed resilient, the reflector 28 from the top into the heat sink 12 be inserted and inserted through this until the terminal legs 30 like a kind of clip on the projections provided 32 snag. In the same way, namely by holding the clamping legs 30 pushes radially inward, the reflector 28 upwards again from the heat sink 12 be solved. It is understood that the the reflector 28 also by other fasteners 30 on the heat sink 12 can be appropriate. It is conceivable that the reflector 28 in a designated thread in the heat sink 12 screwed in or that the reflector 28 by means of one or more screws with the heat sink 12 is screwed.

In contrast to the prior art, the reflector 28 so not loose in the heat sink 12 used and will not between this and the lens 24 clamped, but is fixed in the heat sink and at the same time mechanically detachable in the heat sink 12 arranged. On the one hand, this offers the advantage that the position of the reflector 28 inside the heat sink 12 is stably fixed and on the other hand, that this relatively easy again from the heat sink 12 is solvable. It also requires the LED unit 14 not on one at the bottom of the heatsink 12 attached cover plate 36 glued on or otherwise fixedly mounted, as the LED unit 14 in this case between the cover plate 36 of the heat sink 12 and the clamped reflector 28 is fixed or clamped. The reflector 28 thus acts simultaneously as a light reflection body as well as a clamping or fastening means for the LED unit 14 ,

Similar to the reflector 28 is also the lens 24 not with the heat sink 12 glued, but between a clamping ring 38 and the reflector 28 trapped. The clamping ring 38 This is done in a on the inner edge of the heat sink 12 provided thread 40 screwed. groove 42 , which at the top of the clamping ring 38 are introduced, serve as a tool engagement when tightening the clamping ring 38 , The Lens 24 can therefore also easily assemble or subsequently replace again.

The invention modular design of the LED bulb 10 Therefore offers the possibility to assemble the individual components during assembly very quickly and without neces-ended gluing processes, all components are securely positioned and fixed in position. Disassembly of the LED bulb 10 is also feasible in a simple manner. This saves installation effort, which can be realized in contrast to bulbs from the prior art comparatively low production costs.

In 4 is the LED unit 14 shown enlarged again in a plan view. These includes an LED light source 43 which is on an LED board 34 is arranged. The LED light source 43 is also in a lenticular plastic or glass housing 45 installed so that it is not accessible to the end user from above. The power supply and the control of the LED light source 43 takes place via tracks, which are on the top or bottom of the LED board 34 are arranged.

The reflector 28 , which forms the core idea of the invention is in the 5 to 8th again closer from different sides.

In 5 is a section of the reflector 28 shown, from which the structure is very clear. The reflector is on the underside 28 , as already mentioned several fasteners 30 , which are realized in the form of resilient clamping legs. In the embodiment shown, four clamping legs fixed radially on the underside are arranged. It is understood that the number of clamping legs 30 is variable. To an axial rotation of the reflector 28 inside the heat sink 12 To prevent, are at the terminal legs 30 additional projections 44 arranged, as well as several grooves 46 at the bottom of the reflector 28 intended. These projections 44 and grooves 46 engage in corresponding counterparts in the heat sink 12 and thus prevent rotation of the reflector 28 around its longitudinal axis. In order to avoid slippage of the reflector downwards, the reflector has 28 Furthermore, at its upper end a protruding edge 48 which is on the inner edge of the heat sink 12 rests.

At the top has the reflector 28 a conical reflection surface 50 that's from the LED light source 43 through an exit opening 52 emerging light bundles. Through this outlet 52 becomes the entire LED unit 14 fixed in the appropriate position. The plastic or glass lens closes flush with the outlet opening 52 from. An insertion of multiple LED light sources 43 inside the LED unit 14 and accordingly attaching a plurality of outlet opening 52 in the reflector 28 is conceivable without further ado.

In 8th is again the lower cover plate 36 visible, which from below flush in the reflector 28 is used. This is either between the base underneath 16 and the reflector 28 clamped or on the reflector 28 screwed. For optimum heat dissipation, this is preferably made of a thermally conductive material. Furthermore, at the grooves 46 facing sides corresponding recesses 54 attached, through which electrical connection cable can be guided.

It is understood that the described embodiments geometrically or in their external design may also be slightly different. Important for the core idea The invention is the mechanical in the heat sink solvable attached reflector, which at the same time as a fastener for the LED light source and also as a light reflection body serves, as well as the overall simple modular design of the bulb.

Basically the invention in any kind of bulbs, which is such Reflector include used. The type and design the light source is not dependent on it. Instead of resilient clamping elements as a fastener, of course, it is also possible, To provide the reflector with a thread and this in a corresponding Screw mating thread on the heat sink. But other fasteners are within the meaning of the invention conceivable as long as they fix the reflector stable in the heat sink and a subsequent Solve the Just allow reflectors.

Claims (5)

LED illuminant with an LED unit ( 14 ), a heat sink ( 12 ) for cooling the LED unit ( 14 ) and a reflector ( 28 ), which corresponds to that of the LED unit ( 14 ) radiated through an outlet opening ( 52 ) in the reflector ( 28 ) emerging light, characterized in that at the reflector ( 28 ) Fastening means ( 30 ) for mechanically releasable attachment of the reflector ( 28 ) on the heat sink ( 12 ) and that the LED unit ( 14 ) between the reflector ( 28 ) and the heat sink ( 12 ) is clamped. LED lighting device according to claim 1, characterized in that the fastening means ( 30 ) have a plurality of resilient clamping elements, in particular clamping legs, which in projections ( 32 ) or holes of the heat sink ( 12 ) intervene. LED illuminant according to one of the preceding claims, characterized in that on the heat sink ( 12 ) a thread ( 40 ) for attaching a lens ( 24 ) or an incandescent glass flask ( 20 ), in particular by means of a clamping ring ( 38 ), is provided. LED illuminant according to one of the preceding claims, characterized in that on the heat sink ( 12 ) a socket ( 16 ) with power connection, in particular a halogen lamp socket ( 26 ) to MR11, MR16 or GU10 standard or incandescent socket ( 18 ) according to E14 or E27 standard. LED lamp according to one of the preceding claims, characterized in that the LED unit ( 14 ) one on an LED board ( 34 ) arranged LED light source ( 43 ).