DE202004001642U1 - Solar installation frame with two support for solar cell panel, second longer than first one, in which solar cell panel is secured on shaft between two supports, with shaft rotatable by drive - Google Patents

Abstract

The frame comprises two supports (4,5), shorter front one (4) and longer rear one (5) for solar cell panel, which is secured on shaft between both supports. The shaft is rotatable about its longitudinal axis by drive between the adjustments positions. Pref. the height of longer rear support is adjustable. Typically the supports are coupled by holding frame (3), usefully forming deposition face on flat base. The adjustable support may consist of two struts of same length, which are movably coupled at top end (7), while at lower end they are laterally movable for connection to holding frame.

Description

The present invention relates to a solar system frame with a first support and a second, the first outstanding Support, who jointly carry a solar panel formed from solar cells.

As is known, it is advisable to arrange solar cells at an angle, to optimize the angle of incidence of the sun on the solar cells. There are racks or brackets for this, the oblique position of the Enable solar cells the easiest way to do this is to use two differently long supports between which the solar cells are held.

It is also known that the yield of a solar system by tracking the solar cells the course of the sun can be increased. There are so-called uniaxial tracking systems, which only allow movement in the azimuth direction while the two-axis tracking systems an adjustment of the solar system in both the azimuth axis and enable also in the elevation axis.

The known devices, especially for the biaxial tracking, are usually designed to be poor without a sufficient foundation and especially not directly on a building or another already completed facility can be attached.

The present invention lies therefore based on the task of proposing a solar system frame, that a tracking, especially uniaxial tracking, made possible and at the same time easy on flat surfaces or on or on buildings can be set up or attached.

This object is achieved by a Solved system frame with the features of claim 1. Further advantageous embodiments can be found in the subclaims.

According to the invention is the solar panel attached to a shaft mounted between the first and second supports, the around its longitudinal axis is rotatable between two end positions by means of a drive. This is a uniaxial tracking possible, whereby the usual drive Drives such as worm gears, gear drives, lifting spindle drives etc. can be used.

So that the angle of inclination Solar panel can be varied according to the position of the sun is one of the pillars preferably the second support, in height adjustable. This adjustment can be done manually or mechanically, being especially in the manual adjustment in a certain Fluctuation range of the energy yield the adjustment only in certain Daily intervals are carried out got to.

So that the solar system frame is simple is manageable, the supports are advantageously together via a holding frame connected. This holding frame is designed so that it can be set up of the solar system frame on an essentially flat surface allowed. Furthermore, the holding frame is designed such that it gives the solar system frame sufficient mechanical stability, thus the solar system frame, for example, on an outer facade of a building and from this can be attached outstandingly. Overall, it will guaranteed that the solar system frame on flat roofs, landfills or other levels surfaces simply by standing down and, if necessary, minimally anchoring to the floor can be set up. To one if possible simple and at the same time stable construction for the solar system frame the adjustable support is made of two of the same length Struts made that are movably connected to each other at the upper end and laterally movably attached to the holding frame at the lower end are. The connection at the upper end can be done by simple measures, such as a screw or a suitable joint, so that when pulling apart or pushing together the lower Ends of the struts the end point of the upper prop moves up or down. A height adjustment can thus be carried out in a simple manner, sufficient stability is guaranteed at the same time.

The holding frame is advantageous as a triangle, preferably as an isosceles or simultaneous Triangle formed, and carries at the apex the first column and along the opposite Edge the second support. This entire structure gives the solar system frame an optimal one Stability, without being too voluminous to become. Such a solar system frame can be used Plenty of other areas for extraction from solar energy with a significant yield.

The invention is explained below of an embodiment explained in more detail. It represent:

1 the side view of a solar system frame;

2 the top view of a solar system frame according to 1 ;

3 the front view of the solar system frame according to 1 and

4 the solar panel.

In the side view in the 1 shows the solar system frame 1 without solar panel. Their arrangement is through the dashed lines 2 and 2 ' indicated. The solar system frame 1 has a holding frame 3 on the prop at one end 4 and the support at its other end 5 wearing. In the exemplary embodiment, the support is 5 opposite the holding frame 3 slightly inclined from the vertical axis and closes with the holding frame 3 an angle of 75 °. At the endpoints 6 respectively. 7 the supports 4 respectively. 5 is the in 4 represented wave 8th with the solar panel attached to it 9 stored. The rotation of the shaft 8th around your longitudinal axis shoots with correspondingly suitable drives known to the person skilled in the art. In addition, a stop is provided that limits the rotational movement in both directions at the latest when the solar panel 9 is vertical.

The solar system rack is expedient made of a light, stable material, preferably tubular material or angle material, made of aluminum or steel.

According to the top view 2 is the base of the holding frame 3 in the form of an isosceles triangle. The support 4 is arranged at one vertex of the isosceles triangle, while the support 5 with the thighs 11 . 12 above page 13 of the holding frame 3 supported. 3 shows two different positions of the support 5 , the struts 11 . 12 are spread more or less. As a result, the endpoint migrates 7 up and down so that the in the 1 shown different angles of the elevation axis result. This can be done constructively by simple sliding mechanisms on the side 13 of the frame 3 or corresponding locking devices can be realized. In an inexpensive version, this setting option is realized by hand, although it is fundamentally also possible to do this by motor.

Claims (5)

Solar system frame with a first support and a second, the first protruding support, which jointly carry a solar panel formed from solar cells, characterized in that the solar panel ( 9 ) from a between the first and second support ( 4 . 5 ) mounted shaft ( 8th ) is attached, which is rotatable about its longitudinal axis by means of a drive between two settings. Solar system frame according to claim 1, characterized in that one of the supports ( 4 . 5 ) preferably the second support ( 5 ), the height is adjustable. Solar system frame according to claim 1 or 2, characterized in that the supports ( 4 . 5 ) via a holding frame ( 3 ), which is expediently designed as a support surface on an essentially flat surface. Solar system frame according to claim 3, characterized in that the adjustable support ( 5 ) of two struts of equal length ( 11 . 12 ) at the top ( 7 ) movably connected to each other and laterally movable at the lower end on the holding frame ( 3 ) are attached. Solar system frame according to claim 3 or 4, characterized in that the holding frame ( 3 ) is designed as a triangle, preferably as an isosceles or equilateral triangle, and at the apex the first support ( 4 ) and along the opposite edge ( 13 ) the second support ( 5 ) wearing.