DE102005050073A1 - Fold-up technology for solar-cell array tracking system, reacts by flexibility of support plates to fold-up during strong winds - Google Patents

Abstract

An application of fold-up technology for solar-panel array tracking system by which the force of the wind and storms is not apposed by a total reaction force, and the tracking system reacts by the flexibility of the support plates to fold-up during strong winds and storms/hurricanes.

Description

The Energy shortage and the further development of photovoltaic demand next to the increase the efficiency of solar cells also new constructions of Tracking systems. Conventional tracking systems require at economic size of the cell surfaces to the wind forces to resist very stable and costly substructures, the forces provide a corresponding resistance.

The here present invention goes the opposite way. she consists from very big ones Cell faces which ensure efficient power generation. The wind forces will no corresponding force opposite. Forces on the solar cell tracking system should not arise at all. The exposed to the wind forces cell carrier plate and The basic structure following the force flow is intended to statically only low wind forces withstand.

Stronger forces are to be intercepted by the elasticity of the cell carrier plate. In strong winds, hurricanes and hurricanes, the system folds up like the wings of a butterfly and aligns with the direction of the wind. This development is a derivation from the natural model of nature (bionics). Since the system is also intended to protect the solar cells against sandstorms, hail and storms, etc., the surfaces fitted with solar cells in the folded state are closed by an outer overlapping sealing ring. This design allows tracking systems with very large photovoltaic active surfaces and lightweight substructure, which make it possible to build high tracking systems when shadowing by houses or plants are present ( 1 u. 2 ). The folding technology for solar tracking system offers an ideal problem solution in the most important but storm-prone areas for solar energy generation.

The system after 3 and 4 , the unfolding of a pyramid roof works on the same basic principle, but does not have the hermetic protective function of the solar cells in the folding phase pyramid roof as in the solution 1 and 2 , The latter is stable due to the stability of the pyramid also at highest wind strengths. This design offers the advantage that it can be implemented in large numbers as solar small power plants in modern architecture according to the trend towards pyramid towers as design elements.

description

The Solarzellennachführsystem is a bionic development. In nature it is shown that too size with the sun rays interacting surfaces such. B. the wings of a Butterfly or the leaves of plants, during storms not to be harmed. The butterfly folds its wings together and turns into the wind direction, nature continues to show us in a special way on the extremely thin wings of the dragonfly, that the elasticity of the same represents a protective function. In stronger Einknickungen sweep these again by reshaping in the original one Shaped without damage back.

It is important to exploit these effects in photovoltaics for large solar cell areas. In the solution ( 1 u. 2 ) this is achieved in the following way: The wind forces are initially absorbed elastically. During storms and hurricanes become the carrier plates 5 folded together so that the solar cell layer is moved inwards and covered by the carrier plates, while the folded system aligns in the direction of flow of the wind. Through the round seal 4 The solar cells are hermetically sealed, so that even rain and sand storm, etc. no pollution occurs.

These Above all, the advantage of this method is that of solar cells of the future such as B. concentrator cells as optical systems neither pollution still sweeping through sandstorms can be done.

In order to avoid too frequent retraction into the protective position in the rarely occurring periodic storms and repeated pressure amplitudes, the total solar cell area can be continuously reduced ( 1 , Detail W).

In the solution ( 3 u. 4 ) In the case of storms and hurricanes, the carrier plates with the solar cells are returned to the stable pyramid shape.

In the solar tracking system ( 1 - 4 ) are the support plates at the joints between 2 solar cell units elastic ( 4 , Detail X u. Y). As a result, smaller gusts of wind can be intercepted without destroying the solar cells by bending the segments. In stronger winds, the entire support plates can be around the axis 3 at 1 u. 2 and around the axis 11 at 3 u. 4 Turn and give up to about 30 °. The stop and locking system 23 . 1 and 34 at 3 is designed accordingly as a progressive damper. In the system 1 u. 2 In the case of severe storm action, the collapsing of the carrier plates equipped with the solar cells takes place by means of a torsion bar spring, which was tensioned when the carrier plates spread out. During the folding process, an adapted damping by the tubular motor and a passive electronic device, so that a gentle touchdown on the seal is achieved. At the solution 3 u. 4 the retraction of the protective position is effected by gravity. Here are as in the solution 1 u. 2 torsion bars 12 in the warehouse hubs 11 , which absorb a portion of its own weight by opposing bias springs, so also a gentle touchdown of the sealing system 13 on the sealing edge 14 is achieved. By 2 Spiral return springs 33 and 27 the system is returned to the horizontal position during retraction into the protective position or to the starting position in accordance with the shape of the sealing edge 14 turned.

The drive unit with elevation drive 8th ; and the azimuth drive 31 ; 28 consist of a compact unit and are made by means of a lightweight foldable lifting device 2 ; 10 in the stator tube 29 used from above.

The carrier plate solar cell unit with the common hub axle system 8th used by a bolt in a warehouse, which is also integrated in the drive unit. Due to the easy dividable lifting device and the tripartite division of the system, it can be installed with minimal installation effort even in the most remote places.

Claims (7)

The application of the folding technique for solar cell tracking systems is characterized in that the wind and storm forces is not set against full reaction force. The solar cell tracking system reacts by the elasticity of the support plates in severe storms and hurricanes by folding the support plates ( 1 - 4 ). The folding technique for solar cell tracking systems according to claim 1, characterized in that the carrier plates with the solar cells in the execution 1 - 4 in extended condition and moderate wind load around their axes 3 ( 2 ) and 11 ( 3 ) and can yield up to 30 °. The stop and locking system works 23 ( 1 ) and 34 ( 3 ) accordingly as a progressive damper. From a certain wind force, these systems automatically trigger the folding movement into the safety position. The folding technique for solar cell tracking systems according to claim 1, characterized in that the support plate for the solar cells is divided into sections and is elastically mounted at the connection points and buffer 12 , 13 ( 4 , Detail X and Y) allows a turn. After completion of the wind load, the support plate is by re-forming back to the original planar shape. The folding technique for solar cell tracking systems according to claim 1, characterized in that the system can enter in the storm or heavy storm full load and power failure from own energy storage in the protective position. In the execution ( 1 . 2 ) this is done by one in the warehouse hub 3 included torsion bar spring 9 (Section A, B, 1 ) stored energy and by means of a snap closure 24 Stably fixed in the folded position. The damping during the movement into the protective position is achieved by the return drive via the planetary gear and the short circuit of the tubular motor 26 achieved. In the execution ( 3 u. 4 ) the retraction into the protective position is achieved by gravity. Here, as with the solution ( 1 u. 2 ) Torsion bar springs 12 in the warehouse hubs 11 , which absorb a part of its own weight by opposing bias, allowing a gentle touchdown on the sealing edge 14 and sealing system 13 is achieved. When retracting into the protective position is by a spiral return spring 33 The system automatically moves to a stop in the horizontal position, while the brake is released at the drive motor stop. Another spiral return spring 27 rotates during the retraction of the pyramid roof in the position of the support surface 14 , For securing in wind and hurricanes, the carrier plates are hooked 12 firmly anchored after reaching the protection position. The folding technique for solar cell tracking systems according to claim 1, characterized in that the carrier plate systems with the solar cells about a common axis 3 to be moved. The hubs located at the upper and lower ends of the axle are each connected to a carrier, each one of the two carrier plates by means of a tubular motor planetary gear 26 drives. Each of the tube motor drives is at the top and bottom with the torsion bar spring 9 connected when opening the carrier plates 5 gets strained into the plane. The folding technique for solar cell tracking systems according to claim 1, characterized in that on the carrier plates 5 a multiple sealing system 28 , Detail 2 ( 2 ), which hermetically seals the solar cells mounted on the inside of the carrier plates. The folding technology for solar tracking systems according to claim 1, characterized in that the surface of the support plate is infinitely variable with the solar cells to be driven at medium long-lasting changing in strength winds with a smaller windage surface.