DE202006013107U1 - Photovoltaic system for assembling on roof, has photovoltaic modules that are bolted to one another and with intermediate sheet metal, which is connected with support tube, and rotating column screwed with clamps between gusset plates - Google Patents

Abstract

The system has photovoltaic modules that are bolted to one another and with an intermediate sheet metal (2). The sheet metal is fixedly connected with a support tube (3), and the tube is clamped by clamps that are screwed between gusset plates (5). A rotating column (7) is screwed with the clamps between the plates, and stuck in a tubular column (9). The rotating column is guided/held by a bearing (8) in the radial and axial direction.

Description

The The present invention relates to a device for tracking a Photovoltaic system according to the respective position of the sun, preferably for installation on flat and slightly sloping roofs. In general, however, many are other installation locations conceivable.

at known devices and methods for tracking a photovoltaic system a high mechanical and financial effort is required. Furthermore, these systems can not be due to their heavy design readily mount on roofs.

• • Die einzelnen Solarmodule (Pos. 1) sind untereinander mit einem dazwischenliegenden Blech (Pos. 2) verschraubt.
• • Die einzelnen Bleche (Pos. 2) sind auf einem groß dimensionierten horizontal liegenden Trägerrohr (Pos. 3) aufgesteckt und mit diesem verschweißt, bzw. auf eine andere Art befestigt. Dadurch wird für die Anordnung der Solarmodule eine hohe Steifigkeit erreicht.
• • Das Trägerrohr (Pos. 3) wird durch Schellen (Pos. 4) geklemmt, die zwischen zwei Knotenblechen (Pos. 5) verschraubt sind.
• • Zwischen den zwei Knotenblechen (Pos. 5) ist weiterhin ein vertikales Rohr (Drehsäule, Pos. 7) wiederum mit Schellen (Pos. 6) verschraubt.
• • Die Drehsäule ist durch ein Standrohr (Pos. 9) gesteckt. An bzw. in dem Standrohr sind Lager (Pos. 8) verbaut, die eine Reibungsarme Drehbewegung der Drehsäule mit der darauf befestigten Modulanordnung gewährleisten.
• • Das Standrohr (Pos. 9) wird oben und unten mit Schellen zwischen jeweils zwei speziellen Befestigungsblechen (Pos. 10 und 11) verschraubt.
• • An den oberen Befestigungsblechen (Pos. 10) werden 4 Streben (Hauptstreben, Pos. 12) befestigt, die schräg zur Befestigungsfläche verlaufen. An den Enden der Hauptstreben befindet sich ein Abgewinkeltes Endstück mit einem Loch zur Verschraubung mit dem Untergrund.
• • An den unteren Befestigungsblechen (Pos. 11) werden 4 Verbindungsstreben (Pos. 13) befestigt, die wiederum mit den Hauptstreben (Pos. 12) verschraubt sind. Dadurch wird eine hohe Steifigkeit des Ständers erzielt.
• • Unter dem Standrohr wird ein Rad (Pos. 14) an der Drehsäule verschraubt, welches für den Antrieb der Vorrichtung sorgt. Um dieses Rad wird ein Seil um 360° geschlungen. Hierdurch ist es möglich, mehrere dieser Module mit einem Antriebsmotor zu drehen.

The present invention describes a very lightweight construction consisting of simple individual parts, which makes it possible to track photovoltaic modules according to the position of the sun.

• • The individual solar modules (pos. 1 ) are interconnected with an intermediate sheet (pos. 2 ) screwed.
• • The individual sheets (pos. 2 ) are on a large horizontal carrier tube (pos. 3 ) and welded with this, or attached in a different way. As a result, a high rigidity is achieved for the arrangement of the solar modules.
• • The carrier tube (pos. 3 ) is replaced by clamps (pos. 4 ), which are screwed between two gusset plates (item 5).
• • Between the two junction plates (pos. 5 ) is still a vertical tube (rotary column, pos. 7 ) again with clamps (pos. 6 ) screwed.
• • The rotary column is pushed through a standpipe (Pos. 9 ). On or in the standpipe bearing (pos. 8th ), which ensure a low-friction rotational movement of the rotary column with the module assembly mounted thereon.
• • The standpipe (pos. 9 ) is above and below with clamps between each two special mounting plates (pos. 10 and 11 ) screwed.
• • At the upper mounting plates (Pos. 10 ) 4 struts (main struts, pos. 12 ), which run obliquely to the mounting surface. At the ends of the main struts is an angled end piece with a hole for screwing to the ground.
• • At the lower mounting plates (Pos. 11 ) 4 connecting struts (pos. 13 ), which in turn with the main struts (pos. 12 ) are bolted. As a result, a high rigidity of the stator is achieved.
• • A wheel (Pos. 14 ) screwed to the rotary column, which ensures the drive of the device. Around this wheel, a rope is looped through 360 °. This makes it possible to rotate several of these modules with a drive motor.

in the Following are the components described here in sketches:

1 : Device from the side

2 : Device from behind

Claims (5)

Uniaxially rotatable photovoltaic system for roof mounting, characterized in that the individual photovoltaic modules are bolted together and with intervening sheets, and the sheets are firmly connected to a support tube. Single axis rotatable photovoltaic system for roof mounting, characterized in that the connection of the support tube with the turning column over Gusset plate are connected with clamps screwed in between. Single axis rotatable photovoltaic system for roof mounting, characterized in that the rotary column in a stator tube stuck and over a bearing guided in both the radial and in the axial direction / held becomes. Single axis rotatable photovoltaic system for roof mounting, characterized in that the stator tube with from above to down main struts connected to the ground and through Connecting struts at the lower end of the standpipe against the main struts supported become. Single axis rotatable photovoltaic system for roof mounting, characterized in that a wheel attached to the lower end of the rotary column is, which is driven by a looped rope. Thereby can several devices are rotated by a drive.