DE3005876C2 - Photovoltaic solar system - Google Patents

Description

The invention relates to a photovoltaic solar system with several arranged on a support structure Solar cell modules, the modules side by side in at least one plane of the support structure are combined, and wherein the support structure by a base arranged in its center arranged rotatable about a vertical and a horizontal axis and via a control system to the respective The position of the sun can be tracked.

A solar-voltaic system is known from DE-OS 29 51 700, in which several solar cell modules arranged one below the other are held with ropes and attached to a bracket on a television tower are. The modules can be tracked with the ropes via a remote control or a drive of the sun.

From US-PS 41 72 739 a system according to the type indicated has become known, which relieves the dependency of a television tower by using its own base. With this system all solar cells are also arranged on a support structure in a single plane, so that one better utilization of the sun's rays is possible. With a drive and tracking mechanism is the Support structure can be automatically tracked to the sun.

In these known systems, a continuous, regular movement is achieved with the tracking mechanism initiated the supporting structure. For unusual movements, such as a seasonal orientation correction, however, an operator is responsible for securing the supporting structure in adverse weather conditions necessary.

Tracking systems are also known from US Pat. No. 3,996,917 for reflectors for solar systems. In the known arrangement, the reflectors are rotatable next to each other on a horizontal tube and pivotably attached about a second axis the reflective surface can be prevented, but the reflectors can only be arranged next to one another and not one above the other, which requires a large floor space in large systems
The invention is based on the object of improving the efficiency of a solar system of the type mentioned at the outset by also utilizing the diffuse light radiation and preventing deposits on the surface and damage to the same.

The object is achieved according to the invention by the features characterized in claim 1

For optimum utilization of the incident solar energy is achieved, with all the necessary pivoting movements of the support structure are feasible and carried out automatically by the sun and weather conditions. With the appropriate programming of the control system, the necessary control commands can be issued as a function of the sensor signals, so that no operator is necessary

Due to the fully automatic control according to the position of the sun and weather, the system can always work optimally and also immediately in the event of a sudden emerging weather changes, as well as gusts of wind, are brought into a safe position.

With these measures, surprisingly, an energy gain can be achieved compared to conventional systems of over 20% can be achieved. Due to the tracking, the entire solar cell surface remains during the the entire daily routine as an effective area. Reflection loss and absorption loss with irradiation at small angles are avoided. It is known that the performance of solar cells with drops sharply with increasing temperature. The further measure according to the invention, the solar cells on one Attaching a pedestal will keep the cells from the warmer layer; on the surface of the ground in a cooler zone brought, in which the cells are additionally cooled by wind

The surprising increase in performance was achieved through the combination of these two measures that fully compensates for the additional manufacturing effort of the system.

In the so-called concentrating solar collector systems, the tracking is at least of the reflector system Such a system is common, but this is a completely different system which the reception of the sun's rays can only take place at a very specific angle of incidence, so that Such systems can only be used with continuous and exact readjustment of the reflectors.

A further increase in the energy yield in a system according to the invention can be achieved by that the solar cell modules can assume a horizontal position in which the cells face upwards are directed in order to absorb the diffuse radiation to a favorable extent on cloudy days can, as well as a horizontal rest position in which the solar cells are directed downwards. The rest position is used to reduce deposits such as dust and dew by keeping the system in during the night this position is brought. It also serves to prevent damage caused by the effects of the weather,

as well as snow or storm loads. With the system according to the invention, the cleaning and Maintenance frequency reduced The maintenance that only needs to be carried out occasionally can then be carried out in be carried out in a simple manner by bringing the system to rest.

For systems according to the invention, conventional, standardized structural elements with relatively low rigidity are used for the support system be, so that the systems are inexpensive and produktionsstechnisdi are easy to manufacture.

According to a further embodiment of the invention is an electronic control system with light-sensitive other sensors are provided that automatically control the solar cell modules according to the position of the sun and weather, aligned so that the system can always work optimally and also automatically and immediately when suddenly emerging weather changes, as well as gusts of wind, can be brought into a safe position.

The system can also be operated fully autonomously, if part of the energy converted by the system is interposed for the electrical tracking system a backup battery is used.

The control system can be based on continuous tracking or also on step tracking be programmed in such a way that in the course of a day the support structure is rearranged three or more times is, for example, in a morning, a noon, an evening and a night division.

But it is also possible to equip the system with a mechanical, especially to equip manually operated tracking system.

In the drawing, an embodiment according to the invention is shown schematically

F i g. 1 shows a front view F i g. 2 is a side view and

F i g. 3 is a plan view of the embodiment.

The in F i g. 1 shown photovoltaic solar system consists of several modules 10, each with a Large number of solar cells ii are filled and by means of a support structure 12 are held together in a common plane. The solar cell modules 10 can be designed like the previous modules for the ground systems. As a support structure 12 can be any Use a structure made up of standardized, mass-produced components. The modules can also be in several parallel planes can be arranged in order to better cool the solar cells by convection guarantee.

The support structure 12 is attached to a base 14 designed as a tower and to an electromechanical one Tracking system 15 coupled. Any design can be provided for the base 14, such as B. an iron frame, a column or a tower by the tracking device 15 and other Functional and maintenance devices can be enclosed in a weatherproof manner. It is also unproblematic the selection of the tracking system 15. Both purely mechanical or mechanically hydraulic ones are suitable for this as well as electromechanical systems. t> o

The tracking system 15 is designed so that the cell modules 10 on the support frame 12 by a vertical Axis 17 rotatable through 360 ° and around a horizontal axis 18 through at least 180 ° from the one horizontal axis Position of the modules 10 to the inverted horizontal μ Can be pivoted into position. In order to allow the pivoting movement to be arranged with the use of only a support base 14 to be able to, the modules 10 are divided into two groups and arranged on the support structure 12 so that that between them a gap the width of the tower 14 is formed. In this way, the Modules 10, which are drawn in the drawing in a vertical position, brought into both horizontal positions are, namely in a rest position in which the solar cells 11 are directed to the ground, and in the reverse Position in which the solar cells are horizontal to absorb diffuse radiation on cloudy days are arranged pointing upwards. The upper half of the gap, which is not affected by the tower 14, has cell modules filled out

With automatic tracking by means of an electronic program system, which is also located in the tower 14 is set up, the system can be operated completely autonomously by the control system 20 signals from light-sensitive sensors 21 as well as sensors 22 which react to changes in the weather and controls the tracking system accordingly.

1 sheet of drawings

Claims (3)

Patent claims: 1. Photovoltaic solar system with several solar cell modules arranged on a support structure, the modules (10) being combined next to one another in at least one plane of the support structure (12) and the support structure being surrounded by a vertical base (14) attached to its center (17) and a horizontal (18) axis are rotatably arranged and can be tracked to the respective position of the sun via a control system, characterized in that a recess the width of the base (14) in the support structure (12) and in the plane of the modules ( 10) an adjustment of the solar cells (11) directed towards the ground is possible and that light sensors (21) and weather sensors (22) are provided which, via the control system (20) in addition to the tracking movement towards the sun, allow a horizontally upward or downward adjustment of the Trigger solar cells (11). 2. System according to claim I _1, characterized in that the control system (20) acts on a mechanical tracking system 3. System according to claim 1, characterized in that the control system (20) to an electromechanical Tracking system acts by the photovoltaic system with the interposition of a Buffer battery is fed.