DE102006019753A1 - Solar panel for floatingly accommodating on e.g. pond, has immersion body including hollow space that is in flow connection with water through opening, where body changes buoyancy of body over compressed-air source with pressure gas - Google Patents

Abstract

The panel has a base body (4) that is arranged in an area of a surface (6) of water (8). A frame part pivotably taken up in the base body supports a solar cell (18) for the transformation of sunlight. An immersion body immersed in the water is arranged in the pivotable frame part, where the immersion body includes a hollow space that is in flow connection with the water through an opening (26). The immersion body is subjected to change its buoyancy over a compressed-air source (32) with pressure gas.

Description

The The invention relates to a solar collector for floating intake on a body of water, especially on a pond and a solar power plant with a Variety of such solar collectors according to the preamble of claim 1 and 9.

to Utilization of solar energy is known, solar collectors with solar cells that use sunlight either photovoltaic or thermally convert into electricity or heat energy, floating on a body of water, for example, on a pond or a lake.

For example, describes the JP 59089471 A a rectangular floating frame carrying a plurality of individual solar collectors and anchored by ropes at the bottom of the water body.

A the main difficulty of the described plants is that the solar collectors in a simple and cost-effective manner without complex mechanical Medium in their tendency to adjust, regardless of the position of the sun if possible vertical incidence of sunlight on the photosensitive surfaces to get the solar cells.

One Another problem of the described solar collectors is that this one over track the course of a daytime wandering sun to also in the azimuthal direction one always vertical if possible Incidence of sunlight, thereby reducing the efficiency of Solar collectors decisive is increased.

In this context are from the DE 195 22 215 C2 a floating solar power plant and a method for its operation, in which the solar cells with a fixed angle of inclination, but with a prismatic concentrator are arranged on a platform which is pivotable about the vertical axis of the platform by means of a pivoting device, not described in more detail, to an azimuthal tracking to get the solar cells. The scripture gives no indication that the angle of inclination of the photocells is changeable.

Accordingly, it is an object of the present invention, a solar collector as well a floating solar power plant with a large number of solar collectors to create, which in a simple way a change in the angle of inclination enable the solar cells.

These The object is achieved by the Characteristics of claim 1 and 9 solved. Further features of the invention are in the subclaims described.

According to the invention includes a solar collector that floats on a body of water, such as a pond or a lake or even at sea, one in the area of the surface of the water this floating body, at which a solar cell supporting, preferably rectangular Frame part is pivotally received about a pivot axis to the angle of inclination of the photosensitive surfaces of the solar cells to the body and thus the angle of incidence of solar radiation relative to the photosensitive surface change the solar cells to be able to.

At the pivotable frame part is arranged in the body of submersible immersion body, having a cavity, which is a preferred for the reason of water body pointing out opening through which water into the inner cavity of the immersion body one and can flow out of this again.

Of the Solar collector according to the invention further comprises an external compressed gas source, for example a Compressed air source in the form of an electrically operated compressor, which over a compressed gas supply line is connected to the cavity and this preferably in the region of its upper, facing away from the bottom of the water Supplies end compressed air, about the size of the im Cavity air volume change. The change the volume of air leads turn to that the submersible a more or less large one Buoyancy generated due to the spaced arrangement of the submersible from the pivot axis of the pivotable frame part to a more or less strong inclination of the pivotable frame part relative to the Water surface leads.

at the preferred embodiment The invention has the basic body and preferably also the pivotable frame part has a lower density as water, so that when retracted both the main body, as Also, the pivotable frame part floating on the water, causing a uniform lift distribution and a relief of the pivot axes and bearings is obtained.

According to a preferred embodiment of the invention, the main body consists of substantially closed hollow profiles, in particular of aluminum profiles, which float in the form of a closed rectangular frame on the surface of the water body and which are provided on their outer surfaces with connecting means, can be coupled in a modular manner with each other over the plurality of basic body to build a solar power plant with a basically any number of solar collectors in any desired arrangement, as will be described in more detail below.

The Connecting elements or coupling elements can hereby also simultaneously contain the compressed air lines, where it may be advantageous if the entire interior of the substantially closed hollow sections is used as a compressed air line or reservoir and a flow connection between the basic bodies in serial way only via suitable known plug-in couplings and flexible cables between two basic bodies provided. This will eliminate the need for a variety of pressure lines for supplying the compressed gas in an advantageous manner avoided.

at this embodiment The invention also provides the possibility of supplying the compressed air from the closed hollow profiles of the body to the pivotable frame part - the same made of closed aluminum hollow sections - to produce that For example, the journals of the pivot bearing with appropriate crossings for the Compressed air are provided so that the compressed air directly from the main body in introduced the pivotable frame part, and from here directly introduced into the upper region of the example welded to the pivotable frame part submersible body can be.

To Another idea underlying the invention is the pivotable frame part is not designed as a hollow profile frame, but as a plane Float, on which one or preferably several solar cells of known dimensions are applied directly.

Of the float can in this case for example of a foamed plastic material, in particular made of PU rigid foam, polystyrene foam or foamed polyethylene, which is a considerable lower density than water and thus has a high buoyancy generated when the solar collector, for example, in strong winds, pivoted into the horizontal position, which is by deflation the compressed gas from the hollow body via a corresponding Control device and valves takes place.

The Solar cells on the float or on the swiveling Frame part are applied from hollow sections are preferably photovoltaic Solar cells, which stiffen to a corresponding level Applied support body could be. In the same way, however, it may also be provided, known to use thermal solar cells.

To Another idea underlying the invention, the Floating out an inflatable thin-walled Plastic material, similar an air mattress to which the solar cells are preferred as known thin-film solar cells immediately can be applied.

According to the preferred Embodiment of Invention includes the immersion body at least one, but preferably two laterally on the float or but on the lateral hollow profiles of the pivotable frame part arranged hollow tubes, in particular made of aluminum, which with his one end is connected to the pivotable frame part and at its other end a transversely extending hollow tube is received, which, for example, a barrel-shaped or may have any other desired shape.

in this connection communicate the hollow profiles of the pivotable frame part, the attached to these hollow tubes of the immersion body as well as to the second ends of the hollow tubes received barrel-like, in Transversely extending hollow tubes with each other, so that through Introducing the compressed gas over in particular the bearing journals of the pivot bearing the pivotable Frame part can be adjusted in its inclination.

To Another idea underlying the invention is a Variety of solar collectors previously described to a floating Solar power plant put together, wherein each solar collector, for example, three solar cell modules with a size of z. B. 1.5 m × 0.8 m can carry, which in terms of a common immersion body their inclination are adjustable. Here the adjustment takes place the angle of inclination of the respective solar cells in dependence from the respective position of the sun preferably in groups by a common Compressed gas source, which are the immersion bodies of several solar collectors as long as simultaneously applied with compressed air until the desired slope is set. In the same way, the collectors are here again in groups by a corresponding opening of a or lowered several valves in the compressed gas supply lines and, for example Move to its horizontal position in a refreshing wind.

In the preferred embodiment of the solar power plant according to the invention this comprises a stationary central base, for example, on its underside via corresponding tension cables and Anchor is anchored stationary above the bottom of the water, so that the power plant, if desired, can be transported to another location after loosening the anchorages. In the same way, however, it can also be provided to firmly anchor the stationary central base via a column in the watercourse, the column being designed, for example, round and depending on the intended use of the solar power plant according to the invention simultaneously as an energy storage, as fresh water storage and / or compressed gas storage.

Around the stationary central base is a motorized rotatable one rotating body arranged, for example, a rectangular or polygonal Shape may have and at the radial outer edges of the respective solar panels in rows are preferably hinged together coupled.

The Rotation of the rotatable rotary body relative to the fixed central base is preferably via a sprocket and a in this engaging pinion, which for example via an electric motor and a suitable transmission is driven. The rotary body is in this case preferably via a suitable storage is added to the central base, which is preferred also carries the drive motor and optionally a corresponding gear, whereas the ring gear is mechanically connected to the rotary body. hereby There is the advantage that the power supply to the electric motor stationary can be done from the center, creating an electrical slip ring for power transmission can be omitted.

On the central fixed base can still be a building, for example a residential building or the like, be arranged, wherein also the possibility exists on at least one of the peripheral edges of the rectangular or polygonal rotary body install floating pontoons instead of solar cells thus the possibility open is a fully usable house with garden, pier and the like not just designed and modularly expanded, but can also be supplied independently with electrical energy.

The The invention will be described below with reference to the drawings of preferred embodiments described.

In show the drawings:

1 a schematic cross-sectional view of two via joints with integrated compressed gas supply lines coupled solar collectors according to the invention in the retracted state,

2 the two solar collectors of 1 in the pivoted state, and

3 an exemplary embodiment of a solar power plant according to the invention with a square stationary central base and a plurality of around this over an angle of 270 ° in rows arranged solar collectors and two mutually coupled pontoons to provide a floor space.

As in 1 and 2 is shown comprises a solar collector according to the invention 1 one of schematically indicated hollow profiles 2 existing body 4 that on the surface 6 a body of water 8th swims. Within the body preferably designed as a rectangular frame 4 is a frame part 10 arranged, which has a bearing journal 12 provided pivot bearing 14 pivotable on the body 4 is stored, and which at its the sun 14 facing top at least one solar cell 18 wearing.

Like the presentation of 1 and 2 can still be seen, is on the pivotable frame part 10 at a distance to the pivot bearing 14 for example, three quarters of the length of the pivotable frame part 10 corresponds to a submersible 20 attached, the at least one hollow tube 22 comprising, which with its first end on the pivotable frame part 10 is received, and which at its second end a transversely extending cross tube 24 has, at its bottom side facing the water bottom an opening 26 is provided, through which water 28 out of the water 8th in the diving body 20 can flow in and out as well.

Like the presentation of 1 and 2 can still be seen, which is through the communicating pipes 22 and 24 defined cavity 30 in the diving body 20 via an external compressed gas source 32 and a valve indicated only schematically 34 as well as a schematically indicated compressed gas line 36 acted upon by compressed air, which the immersion body 20 preferably over the journals 12 of the pivot bearing 14 and the hollow profiles of the pivotable frame part 10 is supplied, the latter with the hollow tubes 22 communicate.

To the angle of inclination of the solar collectors according to the invention 1 to change, the cavity becomes 30 of the submersible 20 pressurized gas, whereby the immersion body 20 contained water 28 over the openings 26 from the diving body 20 is forced out and the originally displaced volume of water is replaced by air. This leads to the fact that the up drove the submersible 20 increased and the pivotable frame part 10 together with the solar cells arranged thereon 18 from the in 1 shown rest position in the in 2 shown working position is pivoted, so that the inclination of the solar cells 18 can be adapted to the respective position of the sun. In this case, the inclination angle via a more or less large supply of compressed air is preferably infinitely variable and is preferably by a control device not shown in detail, for example via a measurement of the light intensity of a not further drawn light sensor, which on one of the pivotable frame parts 10 can be arranged, changed to obtain a maximum of incident light intensity.

Like the presentation of 1 and 2 It can also be seen that the individual solar collectors 1 each via connecting elements 38 articulated coupled to each other, which according to an embodiment of the invention not shown in the figures for illustrative reasons, the supply of compressed air from a solar collector to the next solar collector can take over, in which the connecting element 38 is provided for example with a through hole.

According to a further embodiment of the idea underlying the invention comprises a in 3 shown solar power plant 100 a variety of solar collectors 1 , via non-illustrated fasteners 38 to a rectangular rotating body 102 are coupled, which is around a central base 102 around by means of a sprocket 106 and a drive motor 108 in the direction of the arrow 110 is rotatable.

The base 104 is hereby preferably via anchoring elements only schematically indicated 112 stationary on the bottom of the water not shown 8th taken, thereby opening the possibility that the rotary body 102 together with the solar collectors arranged in rows 1 for example, completely rotated 360 ° within 24 hours. This results in the advantage that a substantially constant rotational speed can be set, and an optimal adjustment of the inclination angle of all inclined in one direction solar panels 1 can be made to the azimuth angle of the sun's position without a complex control device. In other words, the rotational speed of the motor 108 preferably set to a fixed value so that this the entire floating arrangement of solar collectors according to the invention 1 once around the central fixed base within 24 hours 104 turns around, with the tilt angle of all solar panels 1 - Which are all inclined in the same direction - via a central supply of compressed air from the external compressed air source 32 adapted to the respective position of the sun.

This results in a comparatively simple tracking of the solar collectors 1 without a complex electronic control device, since all solar collectors 1 simultaneously with compressed air from one and the same source of compressed air 32 be charged.

Furthermore, it is advantageous in that also a very simple calibration of the entire device is made possible in the example, only a single discharge valve in the compressed gas supply line 36 is opened and the pivotable frame parts 10 all solar collectors 1 in the in 2 shown horizontal rest position vert be.

If, after closing the valve, all the immersion bodies are connected 20 the variety of solar collectors 1 with compressed air from one and the same source of compressed air 32 be acted upon, all pivotable frame parts 10 due to the identical design of the immersion body 20 pivoted substantially in the same position.

In order to enable economic utilization of the solar power plant according to the invention, it may further be provided that on the rotary body 102 a building is arranged, which in 3 only schematically through the lines 112 is indicated, and which together with the other solar panels 1 in the direction of the arrow 110 rotates. To increase the usable area, instead of solar collectors 1 floating pontoons 114 with the rotary body 102 coupled, which in various ways, for example, as a garden area or as a jetty for a boat 116 are usable.

1

solar collector

2

hollow profile of the basic body

4

body

6

Surface of the water body

8th

waters

10

pivotable frame part

12

pivot

14

pivot bearing

16

Sun

18

solar cell

20

immersion

22

hollow tube

24

cross tube

26

opening

28

water

30

cavity

32

Compressed gas source

34

Valve

36

Pressure gas line

38

connecting element

100

Solar power plant

102

rotating body

104

stationary central base

106

sprocket

108

drive motor

110

arrow

112

anchoring element

114

pontoon

116

boat

Claims (12)

Solar collector ( 1 ) for swimming on a body of water ( 8th ), comprising one in the area of the surface of the water ( 6 ) arranged body ( 4 ) and one at the base body ( 4 ) received pivotable frame part ( 10 ), which at least one solar cell ( 18 ) transmits sunlight, characterized in that the pivotable frame part ( 10 ) into the water ( 8th ) submerged body ( 20 ) is arranged, which has a cavity ( 30 ), which via an opening ( 26 ) with the water ( 8th ) is in flow communication, and for changing the buoyancy of the immersion body ( 20 ) via an external compressed gas source ( 32 ) can be acted upon with compressed gas to the inclination of the pivotable frame part ( 10 ) relative to the main body ( 4 ) to adapt to the position of the sun. Solar collector according to claim 1, characterized in that the basic body ( 4 ) and / or the pivotable frame part ( 10 ) one opposite water ( 28 ) have reduced density. Solar collector according to claim 2, characterized in that the basic body ( 4 ) of substantially closed hollow profiles ( 2 ), in particular aluminum profiles, which are on the surface ( 6 ) of the water body ( 8th ) swim. Solar collector according to claim 2, characterized in that that the pivotable frame part ( 10 ) comprises a planar floating body on which the solar cell ( 18 ) is applied. Solar collector according to claim 4, characterized in that that the float from a foamed Plastic material, in particular PU rigid foam or Styrofoam exists. Solar collector according to claim 4, characterized that the float from an inflatable thin-walled Plastic material exists. Solar collector according to one of claims 5 or 6, characterized in that the solar cell ( 18 ) is applied directly to the float in the form of a thin-film solar cell. Solar collector according to one of the preceding claims, characterized in that the immersion body ( 20 ) a hollow tube ( 22 ), which with its first end with the pivotable frame part ( 10 ) is received, and at the second end of a transversely extending communicating cross tube is received, the opening ( 26 ) for the entry and exit of water ( 28 ) having. Solar power plant ( 1001 comprising a plurality of solar collectors ( 1 ) according to one of the preceding claims, characterized in that these for adjusting the inclination angle of the respective solar cells ( 18 ) to the position of the sun in groups by a common external compressed gas source ( 32 ) can be acted upon. Solar power plant ( 100 ) according to claim 9, characterized by a stationary central base ( 104 ) and one around the stationary central base ( 104 ) about a drive device ( 106 . 108 ) Motor rotatable. Rotary body ( 102 ), on which the solar collectors ( 1 ) are hingedly coupled together in rows. Solar power plant ( 100 ) according to claim 10, characterized in that the drive means a sprocket ( 106 ) and an engaging in this driven pinion, which the central base ( 104 ) and the rotary body ( 102 ) assigned. Solar power plant ( 100 ) according to claim 10, characterized in that the drive device ( 106 . 108 ) the rotary body ( 102 ) with the solar collectors ( 1 ) is rotated through an angle of 360 ° within 24 hours.