NL1033741C2 - Cover system for converting solar energy into electrical energy in e.g. game vehicle, has frame with solar panel, concentration lens and target lens tilt mechanism receiving sun rays, and target mechanism transferring resources to panel - Google Patents

Abstract

The system (1) has a frame (4) with a solar panel (2), concentration lens (7) and a target lens tilt mechanism (3) to receive sun rays. A target mechanism transfers resources to the solar panel, and the concentration lens moves relative to the panel. The solar panel and the concentration lens are built into a vehicle. The tilt mechanism tilts the solar panel so that solar radiation is appropriately distributed over the surface of the solar panel.

Description

System for converting solar energy into electrical energy

DESCRIPTION

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FIELD OF THE INVENTION

The invention relates to a system for converting solar energy into electrical energy which comprises a frame with a solar panel, concentration lenses and a directional mechanism with tilting means for following the sun.

State of the art.

15 Such systems are known from the World Solar Challenge, which is held in Australia. Various teams from all over the world take part in a race with vehicles powered by solar energy. A problem with the known system is the fact that the directional mechanism can only follow the sun to a limited extent, so that the amount of energy that can be extracted from the available solar radiation is also limited.

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Summary of the invention.

An object of the invention is to provide a system for converting solar energy into electrical energy that can utilize a higher percentage of the available solar radiation than the known systems. To that end, the system is characterized in that the directing mechanism comprises displacement means in order to be able to shift the solar panel and the lens relative to each other. If the sun is very low, the solar panel can be moved with these displacement means such that more solar radiation falls on the solar panel.

1033741 2

Energy is becoming increasingly scarce in modern society. Mineral energy sources are becoming more and more exhausted. To secure the energy supply for the future, sustainable energy sources are increasingly being sought. Solar energy is such a sustainable source. The energy that is present in the solar radiation can be converted into electrical energy that can be used for all kinds of purposes. This conversion can be done with so-called solar panels that comprise one or more solar cells, which we have now spread. In different countries there are solar power plants with many solar panels placed next to each other. These power stations replace coal-fired power stations, for example, and supply energy to the mains. Such plants are usually designed as a field with large solar panels, which can move by means of a directional mechanism in the form of a rotation mechanism to follow the sun, as if it were a field of sunflowers. In this way, as much solar radiation as possible can be collected for conversion into electrical energy. It is also possible for private individuals to place solar panels on the roof of their house or garage in order to generate their own energy and possibly return it to the mains for a fee. It has also become possible to install such panels in vehicles.

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A preferred embodiment of the system is characterized according to the invention in that the concentration lenses are cylindrical lenses and the displacement means comprise translation means. In this way the intended goal is achieved with a mechanical system that is as simple as possible. If only translation means are present for displacement and therefore only need to be displaced in a single direction, the system can be easily realized. The use of only translation means is made possible by the use of cylindrical lenses. They throw the sun's rays onto an elongated area that, when the angle of change changes, is perpendicular to the longitudinal axis of the area. The solar panel can be held in the elongated area by means of a translation.

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The invention also relates to a vehicle with a system according to claim 1 or 2. The system according to the invention is very useful in particular for a vehicle, because of the limitations in tilt that apply to the solar panels. As stated, it is now quite possible to place solar panels in a vehicle that is then powered by solar energy. This type of vehicle is often designed in such a way that as much top surface as possible is available to install solar panels. This way, as much solar radiation as possible can be collected for conversion into electrical energy. These vehicles, in particular with regard to competition vehicles, are provided with a directional mechanism for following the sun, such as the panels in power stations. The system for converting solar energy into electrical energy, which usually covers the majority of the upper surface of the vehicle, can be tilted in the longitudinal direction to direct the solar panels to the sun as well as possible. If the sun is low, the system will tilt towards the sun. If the vehicle is moving and making a turn, the system is again tilted in the new direction of the sun. Because a vehicle must take into account a minimum height above the road and the aerodynamic demands on the body, the system cannot be tilted as desired. It might then hit the road or become such an obstacle to the wind that the speed is severely limited. Increasing the sun-sensitive surface is in principle possible. But with 20 speed races, a maximum area can be set so that teams have to compete on technology instead of size. It is then important to direct as much solar radiation as possible to the solar panels. The system according to the invention increases the amount of solar radiation that ends up on the solar panels.

The invention also relates to a cover for use on a building, which cover is provided with a system according to the invention. There may also be a limitation in terms of tilting or rotating solar panels in buildings such as residential houses. The system according to the invention can be used to advantage to have the solar panels on a fixed structure follow the sun.

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Brief description of the drawings.

The invention will be explained in more detail below with reference to exemplary embodiments of the system according to the invention shown in the drawings. Hereby shows:

Figure 1 shows a spatial view of an embodiment of the system with solar panel and translation mechanism in different positions.

Figure 2 shows a schematic representation of the solar panel in various appropriate states of translation at various solar settings.

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Figure 3 shows a schematic representation of the solar panel, the concentration lens and the orbit of the solar radiation. Detailed descriptions of the drawings.

Figure 1 shows a spatial view of an embodiment of the system (1) with a solar panel (2) with a translation mechanism (3) in different positions. Figures 1a, 1b and 1c show successive positions of the solar panel (2), this being translated further to the right. The solar panels are attached to a frame (4). The translation mechanism (3) in this case contains a threaded shaft and a worm gear. This is just one of many ways to create a translation mechanism.

Figure 2 shows a schematic representation of the solar panel (2) in different matching states of rotation and translation at different solar positions. Shown is the solar panel (2), the concentration lens (7), the sun (8) and a representation of the solar radiation (9) incident on the solar panel. The solar panel (2) and the concentration lens (7) are built into a vehicle (not shown). The vehicle can tilt up to 15 degrees to follow the sun (8). With the system according to the invention, the sun (8) can be further followed by shifting the solar panel (2) relative to the concentration lens (7), so that very low incident sun (8) still falls on the solar panel. Figure 2c shows how the sun's rays (9) fall perpendicular to the solar panel (2) around noon via the concentration lens (7). Due to the perpendicular incidence, the solar panel (2) does not have to be tilted in order to receive a maximum amount of solar radiation (9). In figures 2b and 2d it can be seen how at 11.00 and 13.00, when the sun (8) is lower, the maximum solar radiation (9) can still be absorbed by tilting the system with solar panel (2). In this case the maximum tilt of 15 degrees has already been reached and the system with solar panel (2) cannot be tilted any further. In the system according to the invention, the sun (8) can be followed even further at a lower position by translating the solar panel (2) relative to the concentration lens (7). This can be seen in figures 2a and 2e.

In this case, the solar panel (2) is maximally translated. Of course, the sun positions, maximum tilt and maximum translation can change from case to case and figure 2 is only an example. The lenses can also be translated instead of the solar cells.

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Figure 3 shows a schematic representation of the solar panel (2), the concentration lens (7) and the orbit of the solar radiation (9). It can be seen how the solar radiation (9) falls through the concentration lens (7) on the solar panel (2). The solar panel (2) is in this case located in the focal plane of the concentration lens (7), whereby the solar radiation (9) is appropriately distributed over the surface of the solar panel (2).

Although in the foregoing the invention has been elucidated with reference to the drawings, it should be noted that the invention is by no means limited to the embodiments shown in these drawings. The invention also extends to all embodiments deviating from the embodiments shown in the drawings within the scope defined by the claims.

1033741

Claims (4)

A system for converting solar energy into electrical energy comprising a frame with a solar panel, concentration lenses and a directing mechanism with tilting means for following the sun, characterized in that the directing mechanism comprises displacing means in order to align the solar panel and the lens with respect to to be able to shift from each other. 2. System as claimed in claim 1, characterized in that the concentration lenses are cylindrical lenses and that the displacement means are translation means. 3. Vehicle with a system according to claim 1 or 2. 4. Cover for application to a building, which cover is provided with a system according to the invention. 1033741