NL1016244C2 - Light element, especially for plant lamps used in greenhouses, comprises white light emitting diodes - Google Patents

Abstract

The adjoining light sources in the light element (2) comprise light-emitting diodes (LEDs) (21-23), at least the majority of which emit essentially white light. An Independent claim is also included for a plant lamp with this light element.

Description

The present invention relates to a lighting element comprising a number of light sources placed side by side which can be connected to an electrical supply.

Lighting element and plant lamp.

Lighting elements of the type mentioned in the preamble are used on a large scale for various applications. One of those applications is the use in greenhouse horticulture, where crops are sometimes grown day and night in artificial light.

Because of this intensive use and sometimes low profit margins on the cultivated product, it is of the utmost importance that the lighting elements used offer a high efficiency with a long lifespan. However, the lighting elements currently used in greenhouse horticulture lack both. Luminaires with one or more incandescent lamps or gas discharge lamps are usually used which have a relatively large consumption and whose spectrum is not or hardly adapted to the radiation requirement of the crop. In a way, special plant lamps that offer a spectrum geared to plant growth are better, but also these are ordinary incandescent lamps with a relatively high energy consumption compared to the light output and a relatively short lifespan. Moreover, these special plant lamps are particularly expensive to purchase.

The present invention has for its object, inter alia, to overcome the above-described problem by providing a lighting element with a high efficiency and a high light output which can be used not only for glass cultivation but also for numerous other applications.

In order to achieve the intended object, a lighting element of the type mentioned in the preamble has the feature according to the invention that the light sources comprise light-emitting diodes, at least the majority of which, at least during operation, emit at least substantially white light. By starting from light-emitting diodes, so-called LEDs, the energy consumption of the lighting element can be kept relatively low and the heat dissipation remains limited. The white LEDs used according to the invention thereby offer such a high luminous intensity, rising to the order of magnitude of a few to several tens of Candela (Cd), that, provided that they are in sufficient numbers. is also suitable for the above-mentioned demanding applications in which lighting is carried out from a greater distance. It is to be noted here that where the present patent application refers to white LEDs, it is not so much a LED in the true sense, but rather a general reference to discrete or non-discrete LED components that are optically white light as a whole or adjacent to white. emit light. Currently, this concerns either units in which red, green and blue LEDs are jointly used to offer a white spectrum as a whole, or blue light-emitting diodes coated with a phosphor-containing layer. This usually involves blue IndiumGallium Nitride (InGaN) and

Silicon Carbide / Gallium Nitride (SiC / GaN) diodes. With these diodes, the high-energy blue light excites the white phosphorus in the phosphorus-containing layer that emits exceptionally clear, cool white light. These LEDs therefore owe their white color to the phosphorus-containing layer. The brightness and color are thereby largely determined by the thickness and composition of this layer. This last group of LEDs in particular lends itself perfectly within the scope of the present invention because of their high efficiency and high light output.

The present invention is partly based on the insight that the emission spectrum of these white LEDs depends, at least within certain limits, on the supplied supply voltage. A preferred embodiment of the lighting element according to the invention therefore has the feature that the power supply emits a controllable output voltage and that the emission spectrum of at least the light-emitting diodes which emit light white depends on the supply voltage offered. By adjusting the output voltage of the power supply, the total spectrum of the lighting element can thus be adjusted to the need in a specific area of application. By thus fine-tuning the spectrum of the lighting element, the useful efficiency thereof can be further increased.

30-3

A further tuning of the lighting spectrum is achievable in a special embodiment of the lighting element according to the invention, which is characterized in that the light sources also comprise a number of light-emitting diodes which emit colored light at least during operation. The white LEDs are adjustable by means of the supply voltage applied thereto, as a result of which the spectrum of the lighting element can already be varied within certain limits. For a spectrum outside these limits, the lighting element in this embodiment has colored LEDs. By thus mixing white LEDs in the lighting element with colored LEDs, an optimum spectral balance can always be pursued, given a specific application.

For use in greenhouse horticulture and otherwise for promoting the growth of plants and crops, a further embodiment of the lighting element according to the invention has the feature that the light-emitting diodes are tuned in terms of emission spectrum and in number per species to use for the purpose of plant growth. More in particular, a further particular embodiment of the lighting element according to the invention has the feature that the light-emitting diodes which emit colored light at least during operation have at least substantially a red or a blue emission spectrum. The addition of red and blue LEDs to the white ones in the lighting element offers the possibility to offer an optimum lighting spectrum for a large range of crops. In addition to the white light emitted by the white LEDs, a crop may need a larger fraction of red or blue light, or a combination of both. In this special embodiment, the lighting element has the option of supplying both.

The invention furthermore relates to a plant lamp provided with a lighting element according to the invention. Not only does the use of white LEDs offer low energy consumption and a long lifespan in comparison with the lighting used so far for plant growth based on incandescent lamps or gas discharge lamps, it is also possible to reduce the spectrum of the lighting element by 101 6? -4-¾ - 4 - tuning to the specific needs of the crop, the growth thereof is additionally stimulated and the production of certain plant components such as vitamins and flavorings can be controlled to a certain extent.

The invention will now be further elucidated with reference to an exemplary embodiment and an accompanying drawing. In the drawing: figure 1 shows an embodiment of a plant lamp according to the invention; figure 2 shows a top view of the lighting element as used in the plant lamp of figure 1; and figure 3 shows an electronic control of the lighting element of figure 2, as applied in or near the plant lamp of figure 1.

The figures are purely schematic and not drawn to scale. In particular, for the sake of clarity, some dimensions are strongly exaggerated. Corresponding parts are designated as far as possible in the figures with the same reference numeral.

The plant lamp of figure 1 comprises a frame 1 in which a lighting element 2 is accommodated. The frame 1 furthermore accommodates an electronic power supply 3 and provides a feed-through for the possibly necessary power supply wires between the power supply 3 and the lighting element 2.

According to the invention, the lighting element 2, see Figure 2, is composed of a large number of light-emitting diodes, at least the majority of which emits white light. In the present example, in addition to these white LEDs 21, the lighting element also comprises colored LEDs in the form of series of blue LEDs 22 and a series of red LEDs 23. The white LEDs 21 used here have a light intensity of approximately 12 Candela each, while the red and blue LEDs 22.23 each offer approximately 20 Candela, always with a forward current of approximately 20 mA. If desired, heavier white LEDs can be used with a light intensity of 18 Candela, which will certainly benefit the total total light output. The white LEDs 21 and blue LEDs 22 have a diameter of approximately 5 mm, while the red LEDs 23 are based on units with a diameter of 10 mm. All LEDs are placed with a mutual pitch of 30 mm. This pitch takes into account the radiation angle of the individual LEDs, which is approximately 20 °, so that there is little or no overlap of the individual light beams at the height of the crop. Optionally, for the 5 LEDs or part thereof, a smaller or larger size can be assumed and the mutual pitch can be varied, depending on the beam angle. However, LEDs with a diameter of 5 mm and 10 mm have the advantage that this is a common, commercially easily available size, as well as a diameter of 3 mm. In total, the lighting element 2 thus accommodates 15 by 35 LEDs, which in total amounts to 525 light sources placed next to each other. With a current of 20 mA per LED and a voltage drop of approximately 3.5 V, the total power of the lighting element is thus in the order of magnitude of between 35 and 40 watts, which is considerably lower than conventional plant lamps that quickly reach tenfold. ask for the same light output.

15

An example of an electronic control is shown in Figure 3. The control 30 assumes an alternating current source 31 at low voltage of, for example, 12 or 24 volts. By starting from low voltage, the lighting element can also be used safely in humid spaces and need not or hardly be taken into account when irrigating the crop placed underneath. A connection voltage of 12 or 24 Volts in combination with a splash-proof housing offers sufficient safety in this respect, while the wiring to the lighting element can remain sufficiently thin and practical for supplying the consumed power of approximately 35-40 Watt. A transformer for the conversion of the voltage of a public high-voltage network to 12 Volts, which is assumed in this example, takes place by means of an external transformer, which is not further shown.

The control first of all comprises a rectifier bridge 32 with which the alternating voltage offered is converted into a direct voltage which is applied to the output 33.34. A capacitor 35 thereby damps the ripple that is still at this direct voltage to a sufficient level. The control further comprises a bipolar transistor 36 -6 whose base 37 is driven via a fixed resistor 38 and an adjustable resistor 39. Thus the voltage is regulated back to between 3 and 4 Volts, which is directly connected to the white LEDs 21. laid out. The controllable resistor 39 comprises a potentiometer with which this voltage can be fine-tuned manually and thus the spectrum of the white LEDs. The spectrum of these LEDs can thus be optimally matched to the specific radiation requirement of the crop that is grown under the lamp.

The output voltage of the rectifier 32 is additionally tapped for the benefit of the blue LEDs 22 and the red LEDs 23. These are driven per series via switching means in the form of micro-switches 40.41 and tuned resistors 42.43 with a supply voltage of around 3.5 volts. Thus, the colored LEDs 22, 23 can be selectively switched on and off according to the spectral requirement of the crop.

15

The lamp can be used both movable and stationary. When it comes to the total lighting of a greenhouse or department store, many luminaires will be used next to each other, whereby the food can possibly be shared. All in all, the invention thus provides an extremely effective lighting for cultivation purposes.

20

Although the invention has been further elucidated above with reference to only a single exemplary embodiment, it will be apparent that the invention is by no means limited to the given exemplary embodiment. On the contrary, many variations and forms are possible for a person skilled in the art within the scope of the invention. For example, in the lighting element, in addition to the white LEDs, one or more normal incandescent or gas discharge lamps can be used as support lighting. It is also possible to adjust the LED color distribution to specific applications. In addition, the number of LEDs in the lighting element can also be expanded or limited as required.

Claims (6)

A lighting element comprising a number of light sources placed side by side which can be connected to an electrical supply, characterized in that the light sources comprise light-emitting diodes, the majority of which, at least during operation, emit at least substantially white light. 2. Lighting element as claimed in claim 1, characterized in that the power supply emits a controllable output voltage and that the emission spectrum of at least the light-emitting diodes which emit light white depends on the applied supply voltage. 3. Lighting element, characterized in that the light sources also comprise a number of light-emitting diodes which emit colored light at least during operation. 15 4. Lighting element as claimed in claim 3, characterized in that the light-emitting diodes are tuned in terms of emission spectrum and in number per species for use for plant growth. 5. Lighting element as claimed in claim 3 or 4, characterized in that the light-emitting diodes which emit colored light at least during operation have at least substantially a red or a blue emission spectrum. 6. Plant lamp comprising a lighting element according to one or more of the preceding claims. j, \}! i *. r