NL2026267B1 - SYSTEM FOR PRODUCING SOLAR ELECTRICITY AND FOR USE ON FARM LAND AND PROCESSING - Google Patents

Abstract

Provided are a system and method for producing solar electricity and for use on farmland, the system comprising a first and a second plurality of solar panels; a first and a second rotary device to which the first and second plurality of solar panels, respectively, are in mechanical communication, each rotary device having a single rotary axis about which the first and second plurality of solar panels, respectively, are rotatable so that the first and second plurality, respectively is adjustable on solar panels at an adjustable angle to the farmland, the single rotating axes extending parallel to each other; and a controller configured to control the first and second rotation devices such that the adjustable angle of the first plurality of solar panels and the adjustable angle of the second plurality of solar panels are different.

Description

SOLAR ELECTRICITY PRODUCING AND USE SYSTEM

ON FARM LAND AND PROCESSING The present patent document relates to a system for producing solar electricity and for use on agricultural land and a method for producing solar electricity on agricultural land and for growing crops on the agricultural land.

Long, parallel rows of solar panels are often used on land that was previously used for agriculture, such as meadows for growing grasses or other crops. Because the solar panels are installed statically, a large part of the land is no longer suitable for agriculture.

It is possible to create a greater distance between stationary rows of solar panels. This creates space between the panel rows that can be used for agriculture. In practice this means that the same amount of panels is distributed over a larger area. This can offer an optical advantage, but is less profitable. Moreover, the soil quality under the panels will still decrease, eventually creating a situation with strips with good soil and strips with poor soil.

Another option is to place panels upright, making almost the entire surface available for agricultural activities. However, such an arrangement has the disadvantage that only a small number of panels can be placed per surface due to shadow effects and that a larger amount of ground will be required to obtain the same electricity production capacity.

Another possibility is to place panels high above the ground level, whereby panels are for instance placed on high (eg 3m or higher) constructions so that the ground is free for agriculture. However, this possibility has the disadvantages, among other things, that the costs of the steel structure are high, that the system is extra vulnerable when large agricultural vehicles are used because both the load-bearing posts and the roof structure could be hit and that the systems are very visible and probably will not be seen as a solution for de-greening the landscape.

Rotatable solar panels are also generally known, which can be positioned relative to the sun in such a way that the amount of solar electricity produced is increased. Such systems are set up such that the panels follow the sun.

It is the object of the present patent application, among possible other objects, to provide a solar electricity production system wherein both solar electricity and crops can be produced, in particular wherein the production of the electricity and the production of the crops is enlarged.

In a first aspect, a system for producing solar electricity and for use on farmland is provided, the system comprising: - a first and a second plurality of solar panels; a first and a second rotary device to which the first and second plurality of solar panels, respectively, are in mechanical communication, each rotary device having a single rotary axis about which the first and second plurality of solar panels, respectively, are rotatable so that the first and second plurality of solar panels, respectively the second plurality of solar panels are adjustable at an adjustable angle with respect to the farmland, the single rotating axes extending parallel to each other; and - a control device configured to control the first and second rotation devices such that the adjustable angle of the first plurality of solar panels and the adjustable angle of the second plurality of solar panels are different.

This system has the advantage that the multiples of solar panels, or rows of solar panels, which can be controlled individually, can be brought into a position where agricultural vehicles gain access while the multiples of solar panels can remain relatively close to each other.

Because more solar panels can be placed per square meter of agricultural land, an increased electricity production is obtained.

In addition, by making sufficient space available for agricultural vehicles between the rows of solar panels, more efficient agriculture is possible with an increased yield of crops such as (fat) grass.

Although the panels will not always be in the ideal position relative to the sun when the vehicle drives through them, this will be short-lived and the loss in electricity yield is therefore small.

The use of the single axis for rotating the solar panels further reduces the occupied space.

The single shaft is preferably directly rotated by the suitable rotation device.

The quality of the soil will also remain virtually uniform, because the soil can be worked and/or irrigated everywhere.

Preferably, the control device is configured such that the first plurality of solar panels is rotatable in a first rotational position and at the same time the second plurality of solar panels is rotatable in a second rotational position other than the first rotational position.

Preferably, the controller is configured such that the first rotational position and the second rotational position differ from each other by at least 90°, with respective sunlight absorbing surfaces of the first and second plurality of solar panels facing away from each other.

In such a position relative to each other, even more space is obtained between the plurality of solar panels, allowing them to be closer together or allowing larger agricultural vehicles to be used.

Since in this position the respective undersides of the solar panels preferentially face each other, the solar panels are

absorbing surfaces of the solar panels protected against the agricultural vehicles or against flying stones or other objects caused by the agricultural vehicle.

Preferably, the system further comprises a protection element adapted to protect the first and second plurality of solar panels against agricultural vehicles. Also provided is a system with such a protection element, wherein only a single row of solar panels is present, or wherein multiple rows are present solar panels the solar panels cannot necessarily be placed at different angles.

The protection element protects the system against objects, such as the agricultural vehicle, which do not drive in a correct direction between the plurality of solar panels.

In particular, through the use of the single rotating axis, the protection ensures more efficient electricity production from the solar panels, as the rotation is not affected by damage to the rotational axis.

Preferably, the system further comprises a first and a second support structure for supporting the first and second rotation device and the first and second plurality of solar panels, respectively, the rotating shaft being rotatably connected to the support structure.

Preferably, the respective support structures support the rotation devices.

Preferably, the first and second support structures comprise one or more substantially vertical posts for supporting the first and second plurality of solar panels, respectively, above the agricultural land.

Preferably, the one or more piles carry the rotating shaft.

Preferably, the protective element is a crash barrier, the crash barrier comprising a support for raising the crash barrier relative to the agricultural land.

By placing the crash barrier on its own support, the supporting structure is not loaded with possible collisions with the crash barrier by vehicles or other objects.

Preferably, the support is arranged to allow the crash barrier to hang above the agricultural land in a direction away from the support structure.

Preferably, the protection element comprises a spraying device for spraying agricultural land, the spraying device being integral with the protection element. By designing the spraying device integral with the protection element, further space is saved and there is more room for crop growth on the agricultural land.

Preferably, the spraying device is provided at a height that is lower than an underside of the respective plurality of solar panels when it is in a parallel position with respect to the agricultural land.

Preferably, the first and second rotatable shafts extend parallel to each other, a distance between at least the first and second rotatable shafts being at least two meters so that agricultural vehicles can move between the first and second rotatable shafts.

According to a second aspect, there is provided a method for producing solar electricity on farmland and for growing crops on the farmland, the method comprising: - adjusting an angle of a first and a second plurality of solar panels with respect to the farmland, and the first and second plurality of solar panels are in mechanical communication with a first and a second rotary device, respectively, each rotary device having a single rotary axis about which the first and second plurality of solar panels are rotatable, respectively, so that respective first and second plurality of solar panels are adjustable at an adjustable angle with respect to the 10 farmland, the single rotary axes extending parallel to each other; and - controlling the first and second rotation device such that the adjustable angle of the first plurality of solar panels and the adjustable angle of the second plurality of solar panels are different.

Preferably, the method further comprises: rotating the first plurality of solar panels is rotatable in a first rotational position; rotating the second plurality of solar panels is rotatable in a second rotational position other than the first rotational position, the control device being configured such that the first rotational position and the second rotational position differ from each other by at least 90°, respective sunlight absorbing surfaces facing away from each other from the first and second plurality of solar panels; and moving an agricultural vehicle between the first and second plurality of solar panels for cultivating the agricultural land or crops growing in or on the agricultural land.

More preferably, the method further comprises rotating the first and second plurality of solar panels back to respective original rotational positions when the agricultural vehicle is no longer located between the first and second plurality of solar panels.

Preferably, the method comprises at least one of: moving one of the first and second plurality of solar panels in a rotational position with sunlight absorbing surfaces in a direction from the sun to increase power generation by the plurality of solar panels; at least one of the plurality of solar panels for clearing space between rows of solar panels for agricultural activity; - moving at least one of the plurality of solar panels to regulate humidity of agricultural land; - moving at least one of the plurality of solar panels for shielding agricultural land from objects falling from the sky; - moving at least one of the plurality of solar panels to regulate sunlight on farmland.

Preferably, a system according to the first aspect is used in the method.

It will be appreciated that advantages of the system(s) according to the first aspect apply to the above method(s) and vice versa. It will also be appreciated that features of the system(s) may apply to the above method(s) and vice versa.

Further advantages, features and details of the present invention will be elucidated with reference to the following description of figures relating to a preferred embodiment thereof, in which: FIG. 1 shows a schematic cross-section of a system according to a preferred embodiment; Fig. 2 is a schematic top view of the system of Figs. 1; fig. 3 is a schematic side perspective view of a plurality of solar panels of a system according to a preferred embodiment; and FIG. 4 is a schematic side view of a system according to a preferred embodiment with solar panels in a position in which an agricultural vehicle can move between the solar panels.

In fig. 1, a system 1 for producing solar electricity and for use on agricultural land 2 is shown. The system 1 comprises a first 10 and a second 20 plurality of solar panels. The system 1 may further comprise further plurality of solar panels (not shown). The plurality of solar panels extend parallel to each other over the agricultural land 2, in Fig. 1 at right angles to the cross-section shown. Crops 4 grow on the farmland 2 between the solar panels.

The system 1 further comprises a first 14 and a second 16 rotation device with which the first 10 and the second 20 plurality of solar panels, respectively, are in mechanical connection. Each rotary device has a single rotating shaft 41 (see Fig. 3) about which the first 10 and second 20 plurality of solar panels are rotatably arranged, respectively, so that the first 10 and second 20 plurality of solar panels, respectively, are adjustable at an adjustable angle relative to relative to the agricultural land 2. The single rotating shafts 41 extend parallel to each other. The rotating shafts 41 can be rotated, for example by an electric or servo motor 42. This servo motor 42 is preferably controlled wirelessly.

The system 1 further comprises a controller (not shown) configured to control the first 14 and second rotary device 16 such that the adjustable angle 24 of the first plurality of solar panels 10 and the adjustable angle 34 of the second plurality of solar panels 20 are different. In fig. 1, the adjustable angles 24 and 34 are shown between respective normals 20 and 39 and respective axes 22 and 32, which are parallel to the support structures 18 and 20 of the system 1, and perpendicular to the longitudinal direction of the rotary shaft 41. The adjustable angle can of course be defined differently, such as with respect to the horizontal axis 26, which here extends parallel to the agricultural land 2, but which is perpendicular to the supporting structures 18 and 20. In that case the first adjustable angle is the angle 28 and the second adjustable angle is angle 38. The first 10 and second 12 plurality of solar panels are spaced 40 apart. The distance 40 is preferably at least two meters so that agricultural vehicles can move between the first 14 and second 16 rotatable axes, IO but more preferably the distance 40 is at least 6 meters, a suitable distance for most agricultural activities.

Normals 20 and 30 are normals of sunlight absorbing surfaces of the first 10 and second 20 plurality of solar panels, respectively.

As can be seen in FIG. 4, the controller is preferably configured such that the first plurality of solar panels 10 are rotatable in a first rotational position and at the same time, the second plurality of solar panels 20 are rotatable in a second rotational position other than the first rotational position.

In the positions shown, the angle 24 of the first rotational position 24 and the angle 34 of the second rotational position 34 differ from each other by at least 90°, wherein respective sunlight absorbing surfaces of the first 10 and second 12 plurality of solar panels differ from each other. The system 1 preferably further comprises a first 102 and a second 104 support structure for supporting the first 14 and second 16 rotary device and the first 10 and second plurality of solar panels 12, respectively, wherein the rotary shaft is rotatably connected with the support structure 102 and 104 respectively.

The first 102 and second 104 support structures comprise one or more upright poles for supporting the first 10 and second 12 plurality of solar panels above the farmland 2, respectively.

The system 1 preferably further comprises respective protection elements 60 adapted to protect the first 10 and second 12 plurality of solar panels from agricultural vehicles 100. Each plurality of solar panels has in the embodiment of Figs. 3, two protection elements 60 extending parallel to each other. Alternatively, the protection element can be designed as a continuous protection element extending in the direction of the plurality. to solar panels and then continues around the longitudinal ends of the plurality of solar panels.

Preferably, the protective element 60 is arranged as, or comprises the protective element 60, a crash barrier 62, the crash barrier comprising a support 64 for raising the crash barrier 62 relative to the agricultural land 2. The support 64 is placed or arranged around the crash barrier. 62 above the agricultural land 2 in a direction away from the resp. supporting structures 102 and 104.

The protection elements 60 are placed such that the solar panels can rotate freely along the protection elements 60. The distance 68 may depend on the height of the support structures 102 and 104 and may be, for example, 50 cm or 1 m.

In the embodiment shown here, the protection element 60 comprises a spraying device 66 for spraying the agricultural land 2, the spraying device 66 being integral with the protecting element 60. The spraying device 66 is arranged to evenly spray the agricultural land 2 under the solar panels. to spray. The sprinkler 66 is preferably arranged to be fed with rainwater received by the solar panels, which may be equipped with rain gutters for collecting rainwater. These rain gutters can be mounted rotatably on the lateral sides of the solar panels, so that the rain gutters can be placed in any rotational position where a rain gutter is located on the underside of the respective rain gutter. solar panel, still collect and drain water. Alternatively, the spraying device 66 is fed with (ground) water from a pipe.

The present invention is not limited to the above-described preferred embodiments thereof; the rights claimed are defined by the following claims within the scope of which many modifications are conceivable.

Claims (16)

CONCLUSIONS i. System for producing solar electricity and for use on farmland, the system comprising: a first and a second plurality of solar panels; - a first and a second rotation device to which the first and the second plurality of solar panels, respectively, are in mechanical communication, each rotation device having a single rotating axis about which the first and second plurality of solar panels, respectively, are rotatable so that the first and second plurality of solar panels, respectively the second plurality of solar panels are adjustable at an adjustable angle with respect to the farmland, the single rotating axes extending parallel to each other; and - a control device configured to control the first and second rotation devices such that the adjustable angle of the first plurality of solar panels and the adjustable angle of the second plurality of solar panels are different. The system of claim 1, wherein the control device is configured such that the first plurality of solar panels is rotatable in a first rotational position and at the same time the second plurality of solar panels is rotatable in a second rotational position other than the first rotational position. The system of claim 2, wherein the controller is configured such that the first rotational position and the second rotational position differ from each other by at least 90°, respective sunlight absorbing surfaces of the first and second plurality of solar panels facing away from each other. . A system according to any one of the preceding claims, further comprising a protection element adapted to protect the first and second plurality of solar panels against agricultural vehicles. A system according to any one of the preceding claims, further comprising a first and a second support structure for supporting the first and second rotary device and the first and second plurality of solar panels, respectively, the rotary shaft being rotatably connected to the support structure, The system of claim 5, wherein each support structure comprises one or more substantially vertical posts for supporting the first and second plurality of solar panels above the agricultural land. The system of claim 6, wherein the one or more posts support the rotating shaft. A system according to any one of claims 4 to 7, wherein the protective element is a crash barrier, the crash barrier comprising a support for raising the crash barrier relative to the agricultural land. System according to claim 8 and at least claim 4, wherein the support is adapted to allow the crash barrier to hang above the agricultural land in a direction away from the support structure. The system of any one of claims 4 to 9, further comprising a spraying device for spraying agricultural land. wherein the spraying device is integral with the protective element. The system of claim 10, wherein the spraying device is provided at a height lower than an underside of the respective plurality of solar panels when in a parallel position with respect to the agricultural land. A system according to any one of the preceding claims, wherein the first and second rotatable shafts extend parallel to each other, wherein a distance between at least the first and second rotatable shafts is at least two meters for agricultural vehicles to extend between the first and second rotatable shafts. can move forward. A method for producing solar electricity on farmland and for growing crops on the farmland, the method comprising: - adjusting an angle of a first and a second plurality of solar panels with respect to the farmland, a the first and the second plurality of solar panels are in mechanical communication with a first and a second rotation device, respectively, each rotation device having a single rotating axis about which the first and second plurality of solar panels are rotatable, respectively, so that the first and second plurality of solar panels, respectively be adjustable at an adjustable angle to the farmland, the single rotating shafts extending parallel to each other; and - controlling the first and second rotation device such that the adjustable angle of the first plurality of solar panels and the adjustable angle of the second plurality of solar panels are different. The method of claim 13, including rotating the first plurality of solar panels is rotatable in a first rotational position; rotating the second plurality of solar panels is rotatable in a second rotational position other than the first rotational position, wherein the control device is configured such that the first rotational position and the second rotational position differ from each other by at least 90°, respective sunlight absorbing surfaces of the first and second plurality of solar panels face away from each other; and moving an agricultural vehicle between the first and second plurality of solar panels for cultivating the agricultural land or crops growing in or on the agricultural land. A method according to claim 13 or 14, comprising at least one of: - moving one of the first and second plurality of solar panels in a rotational position with sunlight absorbing surfaces in a direction from the sun to increase power generation by the plurality of solar panels solar panels; moving at least one of the plurality of solar panels to free up space between rows of solar panels for agricultural activity; - moving at least one of the plurality of solar panels to regulate humidity of agricultural land; - moving at least one of the plurality of solar panels for shielding agricultural land from objects falling from the sky; - moving at least one of the plurality of solar panels to regulate sunlight on farmland. A method according to any one of claims 13 to 15, wherein a system according to any one of claims 1 to 12 is used.