NL1031344C2 - Sensors for controlling lighting. - Google Patents

Description

Sensors for controlling lighting

The present invention relates to a growing area for crops provided with a sensor for determining a growth parameter of that crop and influencing that parameter.

The use of such sensors in, for example, greenhouses is known from, for example, US 3,991,939. A spraying system is described therein. By providing a moisture sensor close to the crops in question, the amount of moisture that is introduced into a growing space can be measured and the spraying time can be controlled on the basis thereof.

In addition to water, there are many other factors that influence the growth of a crop in a growing room. The aim is to achieve an ever-increasing yield per square meter, which means that the conditions of the crop must be further optimized. Lighting is an important factor that determines crop growth. It is known that if artificial lighting is used in particular during the winter, this has a positive effect on the development of the crop. The use of additional lighting is controlled with the help of time switches which, depending on the weather conditions, may or may not switch on the lighting.

The object of the present invention is to further optimize the growing conditions of crop 20 in a growing space.

This object is achieved with a growing space described above in that said sensor comprises a light sensor.

According to the present invention, a photosensitive sensor is now being proposed. The conditions of the crop with respect to the incident amount of light can hereby be determined and further steps can be taken on the basis thereof. These further steps may include influencing artificial lighting in a grow room. However, it is also possible to study the development of a crop in this way, in particular with regard to the fruit that arises later. Light is here understood to mean radiation in the range of approximately 30 300 nm - approximately 2800 nm,

According to an advantageous embodiment of the invention, the light sensor is arranged below the top of the crop. That is, not so much the amount of light at the top of the space is determined, but the amount of light in the crop between adjacent plants at a lower level than the top. Very little is known about the development of a crop depending on the lighting at a lower level. With the aid of the proposal according to the invention it is possible to carry out measurements and to make predictions in the future on the basis of the results of the crop and to adjust certain parameters in the growing space on the basis thereof. Consideration can be given here to the mutual distance between crops and / or the removal or otherwise of leaves and the like. Cultivation space means any space where a crop can be grown, i.e. both in cells, greenhouses and outside.

According to a further advantageous embodiment of the invention, the sensor is included in a sensor assembly that comprises a number of sensors. These can be arranged spaced apart in the vertical direction and / or in the horizontal direction. This creates an image in both two-dimensional and three-dimensional sense regarding the distribution of light in the crop.

In particular if a three-dimensional embodiment of the sensor assembly is chosen, it can be accurately determined what the distribution of the incident light is over the height and in the width of the crop, and adjustments to the lighting can be made on the basis of the results thereof. be carried out in a growing room.

According to a further advantageous embodiment, the above-mentioned sensor assembly is designed in a manner that is very similar to the crop between which it is arranged. That is, the conditions under which the crop receives lighting are simulated and on the basis thereof a better insight can be obtained in the development of the crop depending on the amount of light incident on it. The shape of the crop, or of the sensor assembly, can comprise the shape of one or more leaves, whether or not in combination with stems.

It will be understood that the sensor assembly described above can moreover be provided with temperature sensors and humidity sensors which can also be arranged three-dimensionally distributed. This creates a complete picture of the conditions under which the crop develops in a growing room.

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The invention also relates to a sensor assembly for measuring light, comprising a carrier with a number of light sensors arranged thereon which are arranged horizontally and / or vertically spaced apart, said carrier being designed in the form of a crop.

The sensor assembly described here can be used in combination with the cultivation of any crop. The sensor assembly is particularly important for higher crops. Examples are tomato plants, cucumber plants, peppers and aubergines. These plants are often hung on a high-lying wire in a growing room such as a greenhouse. It is also possible to attach a sensor assembly in the same manner.

The invention also relates to a lighting assembly comprising a number of lighting fixtures, a control for controlling said lighting and a sensor assembly as described above, wherein said sensor assembly influences said control. This lighting is preferably a lighting with growing light. Lighting control can be carried out by switching luminaires on or off. It is also possible to provide lighting control with the aid of dimming and another option is to provide movable lighting and to make this displacement dependent on the light incident recorded by the sensor assembly. It is of course also possible to move the crops (roll-20 containers). In the above manner, it is possible to further optimize the conditions of crops in a relatively simple manner. Moreover, this will lead to less lighting (energy consumption) because the lighting used is applied more efficiently. This leads to energy savings and, moreover, to less horizon pollution that is currently prevented by installing screens.

The invention also relates to a method for growing a crop, comprising a number of plants arranged next to each other, comprising illuminating it, wherein said illuminating comprises varying the illuminance, wherein said illuminance is carried out depending on a measurement, that measurement is carried out between a plant at a level below the highest level of those plants.

The invention will be explained in more detail below with reference to an exemplary embodiment shown in the drawing. Show:

FIG. 1 schematically a growing space provided with a crop; 4

FIG. 2 the measuring device according to the invention in side view;

FIG. 3 shows the measuring device according to the invention in top view and

FIG. 4a and b a concrete example of the measuring device according to the invention.

In fig. 1 a growing space such as a greenhouse is indicated in its entirety by 1. Plant 5 is provided therein, for example bell pepper or tomato plants. These are suspended from wires extending high in the greenhouse 4. Attachment takes place via so-called crop wires 8, which connect the top of the crop to the wires arranged high 4. The length of these wires 8 will vary depending on the growth.

Artificial lighting in the greenhouse 1 is possible with the aid of luminaires 5. The switching on and off of these luminaires 5 designed as growth lighting is controlled with the aid of a control 6. This is inter alia provided with a receiver 7 for receiving signals originating from a device 3 according to the present invention.

Details of the device 3 appear from figures 2 and 3. It appears from this that it consists of a carrier 10 provided with arms 11 on which sensors 12, 17 and 18 are arranged. From this top view of Figure 3 it appears that these arms extend around the carrier 10. Figure 2 shows that these are arranged regularly distributed over the height thereof.

Denoted by 15 is a confirmation and by 16 a wire with which connection 20 with the high-mounted wire 4 is possible. It would also be possible to design the carrier 10 in such a way that it can be stably positioned on the bottom. However, under certain circumstances it may be preferable to make the design of the carrier 10 as similar as possible to that of the crop in question between which the carrier 10 is placed. With tomatoes this would mean that it was arranged slightly hanging.

The sensors 12 are light or radiation sensors. These can be simple light-measuring sensors. However, it is also possible that they analyze the entire light spectrum or only parts thereof that are important for the growth of the crop. The information from the different sensors gives a three-dimensional image of the incident light radiation on the crops over the height thereof. With the aid of the processing electronics 13, a signal can be generated which displays this three-dimensional image of the lighting and with the aid of transmitter 14 this signal can be supplied to receiver 7.

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Sensors 17 and 18 are also present in Figures 2 and 3. Sensors 18 are temperature sensors while sensors 17 are moisture sensors.

With the determination of the lighting, whether or not in combination with information regarding the temperature and the humidity in the greenhouse, a better control of the different parameters can be obtained. Thus it is possible to accurately control the lighting for the crops depending on the stage of growth and the desired yield thereof. Ultimately, less energy will suffice to achieve the desired effect. Moreover, with the device according to the present invention, the effects of adjacent crops can be taken into account.

After the above, variants of those skilled in the art will come to mind. For example, it is possible to use cabling instead of transmitters to transfer the relevant information. It is also possible to provide a memory storage in device 3 which can be read later in any way.

Device 3 is of particularly robust design so that it will not be easily damaged in the event of any treatment to the crop.

Figs. 4a and b show an example of a measuring device 33 according to the invention. This consists of two spaced-apart transparent perspex plates 35. Between them is a printed circuit board 36 provided at its ends with light sensors 42. The appearance of the crop and more particularly a leaf is provided by a plate located between the perspex plates 35. Figure 38 simulated.

Further variants of the invention are obvious after reading the above description and are in the scope of the appended claims.

1031344

Claims (14)

Crop area (1) for crop (2) provided with a sensor (12, 42) for determining a growth parameter of that crop and influencing said parameter, characterized in that said sensor is a light sensor (12.42) ) includes. Cultivation space according to claim 1, comprising crop (2), wherein the light sensor (12.42) is arranged under the top of said crop (2). Cultivation space according to one of the preceding claims, wherein said sensor is included in a sensor assembly (3, 33), which sensor assembly comprises a number of sensors that are situated at a vertical distance from each other. Cultivation space according to one of the preceding claims, wherein said sensor 15 is included in a sensor assembly (3, 33), which sensor assembly comprises a number of sensors that are situated at a horizontal distance from each other. 5. Cultivation space according to one of the preceding claims, wherein said sensors (12, 42) are arranged on a carrier (10, 36), the shape of said carrier 20 (10) corresponding to the shape of a crop (2). 6. Sensor assembly (3, 33) for measuring a growth parameter for a crop, comprising a carrier (10, 36) with a number of sensors (12) arranged thereon which are arranged horizontally and / or vertically spaced apart, characterized in that said carrier is in the form of a crop. Sensor assembly according to claim 6, wherein said sensor comprises a light sensor. Sensor assembly according to claim 6, 7, wherein said carrier is provided with transmitter means 30 (14) for transmitting a sensor signal wirelessly. Sensor assembly according to any of claims 6-8, wherein said carrier is in the form of a tomato, cucumber, pepper or eggplant plant. 1031344 A lighting assembly comprising a number of lighting fixtures (5), a control (6) for controlling said lighting and a sensor assembly according to claim 6 or 7, wherein said sensor assembly influences said control. 5 The lighting assembly according to claim 10, wherein said luminaires (5) are provided with growth lighting. 12. Method for growing a crop, comprising a number of plants arranged next to each other, comprising illuminating it, said illuminating comprising varying the illuminance, wherein said illuminance is carried out depending on a measurement, characterized in that it measurement between a plant at a level below the highest level of those plants. 15 The method of claim 12, wherein said measurement is performed at a number of vertically spaced positions. 14. Method according to claim 12 or 13, wherein said measurement is carried out at a number of horizontally spaced positions. 1 0 3 1 34 4