AT16374U1 - Mobile PV system - Google Patents

Abstract

Mobile PV system (1) comprising: - a platform (2) - a plurality of PV panels (3) arranged in a transport position on the platform (2) - a plurality of hinges (4) holding the PV Connect panels (3) accordion-like with each other, the PV panels (3) are unfolded for adjusting from the transport position to an operating position wherein between each adjacent PV panels (3) at least one limiting device (5) is arranged, which the complete unfolding prevents the PV panels (3) in an aligned arrangement.

Description

Description: The present invention relates to a mobile PV system (photovoltaic system) having the features of the preamble of claim 1.

Generic mobile PV systems can be spent in areas where no stationary PV systems are present. Preferably, they are designed so that they can be made operational by unskilled auxiliary personnel.

Such a PV system is apparent from DE 10 2010 041 128 A1. There, the PV panels are arranged in alignment with each other in the operating position. This has the disadvantage that the PV system does not efficiently use the solar irradiation power in the sun's course. In addition, the power of the PV system may deposit depleting deposits on the horizontally oriented PV panels.

The object of the invention is to provide a generic PV system in which the problems discussed above do not occur or only reduced.

This object is achieved by a mobile PV system with the features of claim 1. Advantageous embodiments of the invention are defined in the dependent claims.

Because in each case at least one limiting device is arranged between adjacent PV panels, which prevents the complete unfolding of the PV panels in a flush arrangement, an arrangement of the PV system according to the invention in a so-called "east-west orientation" is possible which uses the solar irradiation power in the course of the sun more efficiently throughout the day. Because the individual PV panels in the operating position have an angle with a horizontally extending background, there is a certain degree of self-cleaning and the power of the PV system-reducing deposits can not build up at least to such an extent as in the prior art.

Embodiments of the invention will be discussed with reference to the figures. In order not to affect the clarity, not all components are always provided with reference numerals.

Fig. 1 shows a mobile PV system 1 according to the invention in the transport position with a transport cover 12, which is formed here in the form of a container structure. Alternatively, the transport cover 12 could be provided in the form of a tarpaulin. The transport cover 12 may be formed according to standards depending on the desired means of transport, z. B. for ship transport, for air transport, for land transport by truck or rail vehicle.

Fig. 2 shows the mobile PV system 1 shown in Fig. 1, wherein the transport cover 12 has already been removed so far that the individual components of the PV system 1 are accessible. The side walls of the container structure are mounted in the embodiment shown articulated on the platform 2 and were pivoted to a horizontal position shown here. In practice, the pivoting can take place until contact with the substrate or a support means is present. At the front pages existing covers were removed there. On one of the two end faces, a control device 13 designed here as a control cabinet can be seen, which enables the autonomous operation of the mobile PV system 1. It may include batteries, inverters and other electrical and electronic components and be provided with a connection device for delivering the generated electrical energy. At the other end there is a storage space for support feet 10. Below the PV panels 3 located in the folded transport position are a storage space for segments 9, which can be assembled into rails, as well as a further storage space for further accessories. The platform 2 has been aligned here so that the side walls of the transport cover 12 facing west or east and the control cabinet having end face located in the north. This requires an arrangement in the northern hemisphere. In the southern hemisphere, the control cabinet would have to be located in the south.

Fig. 3 shows the mobile PV system 1 shown in Fig. 2, wherein the segments 9 have been assembled into rails. The rails are based on the support legs 10 on the ground. The support feet 10 are designed to compensate for unevenness of the ground height adjustable (here via threaded rods) and have on their surface facing the area a cup 11 for receiving weight material (eg., Sand, stones, earth, etc.) on. It can also be seen that a drawbar 14 has already been fastened to a part of the supporting structure 7 (see Fig. 7), which allows the folding apart of the concertina-like PV panels 3, which are arranged on this part of the supporting structure 7. The unfolding can be done manually or by means of a motor vehicle. Other than shown (two parts of the support structure 7 per side), all the PV panels 3 one side could be arranged on a common part of the support structure 7 and be unfolded together or it could be several parts or sections provided.

Fig. 4 shows the mobile PV system 1 shown in Fig. 3, wherein all the PV panels 3 are shown in a position which is located between the transport position and the operating position. In reality, in the present embodiment, it would be preferable to first unfold the PV panels 3 of a section or part of the support structure 7 only on one side and then turn to the remaining PV panels 3. For this purpose, one would use each of the drawbar 14 or use separate drawbars 14.

Fig. 5 shows the illustrated in Fig. 4 mobile PV system 1, with all the PV panels 3 are in the operating position. This is characterized by the fact that the PV panels 3 are not aligned with each other (not horizontal), but adjacent PV panels 3 form an angle α with each other and with the ground. The angle between a PV panel 3 and the horizontal may be in a range of about 10 ° to about 20 °. Adjacent PV panels 3 then enclose an angle α of about 160 ° to about 140 ° with each other.

Fig. 6 shows a detail view of FIG. 5, wherein the angle α between adjacent PV panels 3 are seen from here about 160 °.

Fig. 7 shows a further detail view of Fig. 5, wherein four PV panels 3 have been hidden to allow the view of two segments 6 of a portion or portion of the PV panels 3 supporting support structure 7. Each segment 6 is designed here for receiving five PV panels 3 and consists of six struts which are articulated via joints 4 on transversely extending bars 19 and are connected via further joints 4 with the struts of the adjacent segment 6. The support structure 7 could of course be designed differently.

Fig. 8 shows a further detail view of FIG. 5 in an upper region of adjacent segments 6, wherein it can be seen that one of the limiting devices 5, which prevent the complete unfolding of the PV panels 3 in an aligned arrangement, as a stop between the segments 6 (more precisely between the struts) is formed. The segments 6 are connected to each other by means of joints 4.

Fig. 9 shows a further detail view of FIG. 5 in a lower region of adjacent segments 6, wherein it can be seen that one of the limiting devices 5, which prevent the complete unfolding of the PV panels 3 in an aligned arrangement, as a stop between the segments 6 and a lower joint 4 is formed. Visible are further an opening 18 for connecting adjacent segments 9 of the rail and rollers 16, over which the segments 6 of the supporting structure 7 travel along the rails.

Fig. 10 shows a further detail view, but in a position of the PV panels 3 just before that of Fig. 5. The segments 6 are still to be moved until the openings 8 are aligned with each other and z. B. a bolt can be inserted through it, resulting in a further limiting device 5 results.

11 shows a detailed view of the PV system shown in the preceding figures.

Appendix 1 in the transport position, but with the transport cover 12 removed.

It can be seen that the carriages which carry the rollers 16, and thus the entire concertina-like arrangement of the PV panels 3, are secured together by means of pins 20 arranged on the carriages for transport. It can also be seen that the PV panels 3 rest on rails 9 of rails arranged on the platform 2, to which, after removal of the transport cover 12, the further segments 9 can be fastened until the desired rail length has been reached.

Claims (9)

claims A mobile PV system (1) comprising: - a platform (2) - a plurality of PV panels (3) arranged in a transport position on the platform (2) - a plurality of hinges (4) the PV panels (3) accordion-like connect together, wherein the PV panels (3) are unfolded for adjusting from the transport position to an operating position, characterized in that in each case between adjacent PV panels (3) at least one limiting device (5) is arranged, which prevents the complete unfolding of the PV panels (3) in an aligned arrangement. 2. Mobile PV system according to claim 1, wherein the at least one limiting device (5) is designed as a stop. 3. Mobile PV system according to at least one of the preceding claims, wherein at least one limiting device (5) as a between adjacent PV panels (3) arranged traction means, preferably rope, chain or strut, is formed. 4. Mobile PV system according to at least one of the preceding claims, wherein the PV panels (3) in an accordion-like interconnected segments (6) existing support structure (7) are arranged and the at least one limiting device (5) between adjacent segments ( 6) works. 5. Mobile PV system according to at least one of the preceding claims, wherein at least one limiting device (5) as a PV-a panel (3) relative to a support structure (7) detecting holding means, preferably bolts, is formed. 6. Mobile PV system according to at least one of the preceding claims, wherein from segments (9) composite rails are provided along which the PV panels (3) for the adjustment of the transport position in the operating position and vice versa are movable. 7. Mobile PV system according to at least one of the preceding claims, wherein a plurality of rails supporting the support legs (10) are provided, which are preferably designed to be height adjustable and preferably on its surface facing the ground a cup (11) for receiving weight material , 8. Mobile PV system according to at least one of the preceding claims, wherein the platform (2) is provided in the transport position with a transport cover (12), preferably a container structure or a tarpaulin, and the platform (2) has a storage space for components of the PV -Anlage (1), for example, rail segments (9), support legs (10) and the like., Has. 9. Mobile PV system according to at least one of the preceding claims, wherein on the platform (2) a autonomous operation of the mobile PV system (1) enabling control device (13) is arranged. For this 11 sheets of drawings