DE202004008911U1 - Photovoltaic system for installation on two sides of pitched roof of building has control system with clock and control sensor for energizing part of photovoltaic system - Google Patents

Abstract

The solar module or photovoltaic system (1) may be installed on two sides of a pitched roof (8). It may be held on a base layer or frame (4) and has a control system with a clock (12) and a control sensor (5) for energizing the part of the photovoltaic system facing toward the sun. The clock is connected to another control module (7). The solar module has a cable (9) connected to a current converter (10) connected in turn to a current meter circuit (11). The system may control a blind to cover part of the solar module when only a small current is needed. the system may also shift the solar module from one side of the roof to the other using ballast tanks (16) which may be filled with water.

Description

The The invention relates to a device that enables solar modules from a to the opposite Tracking the roof side to the position of the sun. The invention makes it possible with a ridge orientation from north to south, the solar modules of the solar system to optimally track the daily sun. Thereby the yield is increased by up to 40%.

Known are solar tracking systems as from 299 16.955.3 (tracking system for solar-charged Equipment). With this tracking system is about a control sensor controls an electric motor, which in turn drives a gear block. Solar modules mounted on the gear block, Solar collectors or solar cookers are always optimal to the course of the sun tracked from east to west. This solar tracking system supplies itself with solar energy and therefore does not need its own power connection.

Known are solar tracking systems where the control sensor signals via electronics and computer control, Control 220 volt geared motors, which the solar modules, solar collectors or Always optimally track the solar cooker from east to west. This solar tracking system does not supply itself with solar energy and therefore needs its own power connection.

Known are solar tracking systems where the tracking control via thermal cylinder he follows.

Known is that the mentioned solar tracking systems mostly on one mast are mounted and therefore unsuitable for mounting on house roofs and building roofs are (exception on flat roofs).

Known are permanently mounted, always aligned in the direction of the sun Solar systems on house roofs as well as on building roofs. The The position of the permanently installed solar systems inevitably results from Requirements of the roof alignment according to the building law office.

task The invention is therefore to create a tracking system for solar modules, which is simple in construction, sufficient setting accuracy has and can be installed on the roof pitch.

This The object of the invention is achieved in that solar modules in rectangular or square Form mounted on a substructure over two roof surfaces of the Tracking the sun become. The number of solar modules determines the power size of the Solar system. The solar modules used are known in all Techniques such as: silicon, amorphous, CIS, triple technology manufactured.

The Advantages achieved with the invention are in particular that the solar modules are designed as individual sectional elements or as solar film blinds. Another significant advantage of the invention is that the solar modules on the roofs are not permanently mounted, but on a mounting frame from the Roof east side to the west side to follow the course of the sun. By the invention becomes a much higher electricity yield across from fixed solar systems of up to 40%.

The The invention is particularly characterized by functional reliability Assembly and tracking technology out.

Further expedient embodiments of the invention are the subject of Dependent claims.

embodiments are shown in the drawing and are explained in more detail below.

It demonstrate:

1 an overview of the technology of a conventional solar system

2 an overview of the solar system with tracking

3 a side view of the solar system with sectional elements

4 a side view of the solar system with roller blind solar modules

5 a detailed side view of the solar system with sectional elements

Solar systems on roofs are used to generate electricity. They are environmentally friendly, make no noise, no dirt, no exhaust gases and have no wear. Incident light on the solar module surfaces generates electricity. Therefore, solar energy should be used more and more. The technology of the solar module tracking on roofs shows in detail individual solar modules ( 1 ), Sectional elements ( 2 ), Solar panel roller blind ( 3 ), Mounting frame ( 4 ), Control sensor ( 5 ), Timer ( 12 ), Drive unit ( 6 ), Additional control ( 7 ), Cable for infeed ( 9 ), Solar system converter ( 10 ), Solar systems feed meter ( 11 ) on.

Claims (17)

Photovoltaic system which is tracked from one to the opposite roof side. Solar modules ( 1 ) manufactured in all known techniques such as: silicon, amorphous, CIS, triple technology. Solar modules ( 1 ) track the sun over two roof areas. The number of solar modules determines the performance of the solar system. The solar modules ( 1 ) are elements similar to individual sectional doors ( 2 ) or as solar film blinds ( 3 ) executed. Photovoltaic system which is tracked from one to the opposite roof side according to claim 1, characterized in that the solar modules ( 1 ) not fixed, but on a base ( 4 ) from the east side of the roof to the west side of the sun. Photovoltaic system which is tracked from one to the opposite roof side according to claim 1 to 2, characterized in that a base frame ( 4 ) on the roof surface ( 8th ) is mounted. Photovoltaic system which is tracked from one to the opposite roof side according to claims 1 to 3, characterized in that a drive unit ( 6 ) or several drive units ( 6 ) in the base ( 4 ) is installed. Photovoltaic system which is tracked from one to the opposite roof side according to claims 1 to 4, characterized in that a control sensor ( 5 ) or a timer ( 12 ) determines the course of the tracking. Photovoltaic system which is tracked from one to the opposite roof side according to claims 1 to 5, characterized in that an additional control ( 7 ) with limit switch the drive unit ( 6 ) controls. Photovoltaic system which is tracked from one to the opposite roof side according to claim 1 to 6, characterized in that a cable ( 9 ) the solar energy obtained from the solar modules ( 1 ) with the solar system converter ( 10 ) and feed meter ( 11 ) is electrically connected. Photovoltaic system which is tracked from one to the opposite roof side according to claims 1 to 7, characterized in that the sectional elements ( 2 ) consist of individual slats with articulated function, via rollers in the base frame ( 4 ) and the solar modules ( 1 ) are mounted on it. Photovoltaic system which is tracked from one to the opposite roof side according to claims 1 to 8, characterized in that the solar modules ( 1 ) as solar film blinds ( 3 ) are executed. Photovoltaic system which is tracked from one to the opposite roof side according to claims 1 to 9, characterized in that the drive unit ( 6 ) is a tubular motor and, depending on the size of the solar system, consists of one or more drive units. Photovoltaic system which is tracked from one to the opposite roof side according to claims 1 to 10, characterized in that the drive unit ( 6 ) is a worm gear motor and, depending on the size of the solar system, consists of one or more drive units. Photovoltaic system which is tracked from one to the opposite roof side according to claims 1 to 11, characterized in that the axes ( 13 ) in the base ( 4 ) are mounted. Photovoltaic system which is tracked from one to the opposite roof side according to claims 1 to 12, characterized in that the axes ( 13 ) at the ends with sprockets ( 15 ) are provided and over chains ( 14 ) the axes ( 13 ) rotate. Photovoltaic system which is tracked from one to the opposite roof side according to claims 1 to 13, characterized in that the axes ( 13 ) at the ends with toothed belt pulleys ( 15 ) are provided and via toothed belts ( 14 ) the axes ( 13 ) rotate. Photovoltaic system which is tracked from one to the opposite roof side according to claim 1 to 14, characterized in that on the chains (or toothed belts) ( 14 ) the sectional elements ( 2 ) are attached. Photovoltaic system which is tracked from one to the opposite roof side according to claim 1 to 15, characterized in that on the chains (or toothed belts) ( 14 ) the solar film blinds ( 3 ) are attached. Photovoltaic system which is tracked from one to the opposite roof side according to claims 1 to 16, characterized in that by means of two ballast tanks ( 16 ) or counterweights ( 16 ) can be moved with less effort.