DE10015465A1 - Pivoting device for roof-mounted photovoltaic module or solar collector has lever mechanism to move module over crest of roof - Google Patents

Abstract

The pivot movement is performed by means of a lever mechanism with a pivot arm in such a manner that the solar collector and photovoltaic module connected to the lever mechanism are swung over the crest of the roof and in two end positions against the roof, parallel to the roof surfaces, their edges being below the crest of the roof.

Description

The invention relates to a device for pivoting solar collectors and Photovoltaic modules above the ridge of roofs, the roof surfaces of which are not optimal Align with the sun's path.

Usually, solar collectors and photovoltaic modules are permanently installed on roofs and are therefore fixed in the alignment. If the roof area is not facing south the performance of the system cannot be exhausted. With a north-south orientation of the roof ridge, the module is in the afternoon in the Shadow of the roof, which leads to a very strong reduction in yield. The This significantly reduces the annual energy yield.

There are systems for swiveling solar collectors and photovoltaic modules Known roofs, but these are limited to the solar collectors and To leave photovoltaic modules on a roof surface and the sun in style track that only the module is rotated around an axis close to the module.

However, the angle of rotation is usually very limited, since the modules are otherwise in one should be installed too far from the roof surface. These modules are also located in the afternoon on the dark side of the roof.

The aim of the invention is to provide a mechanical swivel device Solar collectors and photovoltaic modules on a rack above the roof ridge swivel and thus this according to the time of day to that of the sun to tilt the inclined roof area and thus increase the performance of the system can.

According to the invention the object is achieved by a lever mechanism which on the Roof is attached and the collectors and photovoltaic modules over the ridge pivots. The swiveling process can be interrupted at any point and thus the collectors and photovoltaic modules always optimally the course of the sun be tracked.

The advantage of the device according to the invention is that at low mechanical Reliable swiveling effort even from large systems over the ridge is possible and in the end positions the look of the roof is not through the ridge  protruding modules is impaired and the risk of damage with strong ones Winches is minimized.

Preferred embodiments are the subject of the dependent claims. The invention will explained by the following description of an embodiment with reference to FIG Drawings which schematically show the side view of the device according to the invention and shows an exemplary pivoting process in the individual steps.

The device consists of at least two, in the case of larger systems, a number of the same type of joint mechanisms ( 3-8 ) corresponding to the length of the entire base frame ( 1 ) to be pivoted and a base frame. The base frame is supported and swiveled by the joint mechanisms. All solar collectors and photovoltaic modules ( 2 ) are mounted on this base frame. All of the joint mechanisms perform the same movement sequences in parallel during pivoting and are preferably connected to one another by means of cross-connecting struts.

The single articulation mechanism consists of two similar articulated arms (3 + 4, 5 + 6), each of which is attached to the opposite roof sides (9a + 9b) by means of a pedestal (7 + 8) in such a way that they move around an axis that is parallel runs to the ridge ( 10 ), are rotatably mounted. The other end of the articulated arm (3 + 4, 5 + 6) is attached to the base frame ( 1 ) on which the solar collectors and photovoltaic modules ( 2 ) are attached by means of a swivel joint, the axis of rotation of which also runs parallel to the ridge of the roof. Each articulated arm can be angled again by a further articulation ( 11 ), the axis of rotation of which runs parallel to the roof ridge. Each articulated arm thus consists of two individual arms (3 + 4; 5 + 6) connected to one another by articulation, these having different lengths in the embodiment exemplified by the drawings. The single arm (4 + 6) attached to the pedestal is long and the single arm (3 + 5) attached to the base frame is short. There is a connection between the short single arm (3 + 5) and the bearing block (7 + 8) by means of a control rod (12 + 13) connected by means of articulations in such a way that this swivels the short arm (3 + 5) around the long one Control the arm (4 + 6) so that the short arm ( 3 ) is angled when the long arm ( 4 ) is swiveled in the direction of the opposite roof side above the ridge and thus brings the fastening point on the base frame ( 13 ) as far as under the roof ridge, that the upper boundary edge of the module mounted on the base frame is in the end position of the pivoting under the edge of the roof ridge. The short single arm (5) mounted on the opposite roof side hinge arm (5 + 6) is brought at the same time through its push rod (12) in a stretched to the long single arm (6) position, which positions the attachment point of the articulated arm on the base frame, that the Base frame in the end position of the pivot parallel to the roof ( 9 ) rests on this. All movements of the individual levers are positively controlled and will only take place together.

The drive takes place via a geared motor, which preferably runs over a rotating rod, which runs through the axis of the swivel joint ( 14 ) of a bearing block ( 8 ) of all lever mechanisms belonging to a pivoting device and is connected to it in such a way that the rotary movement of the rotating rod in the articulated arm ( 4 ) is introduced and this is set in a pivoting movement about the axis of the joint on the bearing block. Since all articulated arms are connected to one another via joints, the pivoting movement of the articulated arm ( 4 ) causes the entire lever mechanism to be pivoted about its articulated axes by the control rods and thus initiates the pivoting of the base frame to the opposite side of the roof.

The limit switch switches the drive off after the swivel movement has ended Lying stopped on the roof. By a measuring device for the strength of the Sunshine can be controlled so that the swivel and at any position between two end positions are stopped and locked that the solar panels and Photovoltaic modules always have the optimal angle to the sun.  

drawing

Drawing 1 shows a lever mechanism of the swivel device schematically in the Side view. Numbering see description.

Drawing 2 shows the swivel device during the swiveling process. Fig. 1 and 7 each show the end positions, Fig. 2-6 show the intermediate steps of the swivel movement.

Claims (9)

1. Device for swiveling installed on roofs or on similar frames photovoltaic modules and solar collectors above the roof ridge, characterized in that the pivoting movement is carried out by a lever mechanism with positively controlled articulated arms in such a way that the solar collectors and photovoltaic modules connected to the lever mechanism are above the roof ridge be pivoted and in the two end positions are aligned parallel to the roof surfaces and rest on this roof surface and are located with their boundary edges below the roof ridge. 2. Device according to claim 1, characterized in that the drive of the Lever mechanisms are carried out by an electrically operated gear motor. 3. Apparatus according to claim 1 and 2, characterized in that the Panning process can be stopped and locked in any position. 4. Apparatus according to claim 1 to 3, characterized in that the on the Device mounted solar collectors and photovoltaic modules through a Control measuring and evaluating solar radiation at any time in the optimal angle to the sun run and locked. 5. Apparatus according to claim 1 to 4, characterized in that the solar collectors and photovoltaic modules on a base frame moved by the device to be assembled. 6. The device according to claim 1 to 5, characterized in that the in series lever mechanisms mounted side by side by connecting struts to each other are connected.   7. The device according to claim 1 to 6, characterized in that the drive of the Articulated arms by means of a lever mechanism mounted in series for and with them connected rotary rod takes place. 8. The device according to claim 1 to 7, characterized in that the positive control the articulated arms are replaced by several motor drives. 9. The device according to claim 1 to 8, characterized in that the number of to lever mechanisms belonging to a pivoting device of the size of the pivoting base frame is dependent.