ES2332676B1 - SOLAR FOLLOWER ON BUILDING COVER. - Google Patents

Abstract

Solar tracker on building deck, comprised of a horizontal frame (1), shaped circumference that constitutes the fixed part, means of drive with a cross-shaped interior structure (2), where intermediate structures are anchored (3), on which fix the modules or solar panels (4), of the thermal type and / or photovoltaic forming the mobile part that faces the modules at sun throughout the sun's daily journey.

Description

Solar tracker on building deck.

Solar tracker on building deck, comprised of a horizontal frame, shaped like a circle which constitutes the fixed part, on which a structure rotates cross-shaped interior, in which structures are anchored intermediates on which the modules or solar panels are fixed, all this forms the mobile part allowing to face the modules throughout the daily sun tour.

Background of the invention

It is known in the state of the art the Utility Model No. 200103096, of the year 2001, by Jesús García Dávila et al ., Which refers to a solar tracker for photovoltaic power plant, characterized in that it is constituted by a defined fixed platform by a circular track or raceway, arranged horizontally and supported on leveling pillars, on which it supports with the possibility of controlled rotation, a mobile platform defined by a carrier frame of a series of wheels that circulate along the lane that materializes the track circular; the mobile platform including a ramp structure or inclined plane of the order of approximately 13 °, which has a plurality of solar panels mounted in rows and columns and are oscillating around a horizontal axis to which those found in the same row; rotating the mobile platform and the mounting axes of the solar panels by means of a pair of electric motor-reducers commanded by a photoelectric card and time programmer.

The Spanish Utility Model is also known nº 200502495, of the year 2005 in the name of D. Justino Magan de la Rocha, which refers to a solar tracker with lift via surface-mounted rolling platform horizontal, characterized by a continuous pavement that has a central axis around which the reticular platform rotates which It has support wheels on its knots and on which they support the pillars that support the frame that carries the straps or axes necessary for fixing photovoltaic panels and counting on diagonal creeps to avoid deformation of the set

Brief description of the invention patent

The present invention is a great advance in the sector of obtaining energy through panels or modules solar.

Thus, the present invention is directed to vastly improve the performance of solar installations in buildings, since currently many modules are installed in the so-called architectural integration, with losses of considerable performance on what is produced by facilities fixed in standard conditions - south facing with a slope 35º above the horizontal.

The object of the present invention increases its 30% yield above standard performance, due to the fact that its modules or solar panels are facing the sun throughout the sun's daily journey.

Thus, with respect to the first of the antecedents  of the invention, the saving is that the present follower It has a much lower weight to transport, because the modules They are not mounted in height, but horizontally.

As regards the second antecedent, the advantage is that the modules or solar panels are not made shadow to each other, thus achieving maximum performance from the same.

That is, both backgrounds have been designed without  weight limitations per m2, for being designed to install on firm ground. Hence the modules are grouped more than that was possible on a building deck. Also the height of the set is not a big problem for installations in earth, something that does happen if you move to a deck, of so that the follower object of the invention complies with the technical requirements of building deck monitoring.

It also improves wind resistance, since that being always the same height, only the first inner structure is the one that receives the force of the air, while protecting those behind.

It has been especially possible to solve the problem of weight and point load on the deck that could Assume the photovoltaic installation in buildings.

The anchor and volume systems we are at accustomed to fans made for the floor have deterred to technicians use them on decks. This follower Solves by using aluminum and load distribution in a wide arc of circumference. It should be noted that followers on land have a structure weight of 200 Kg / Kw installed, plus the concrete anchor, while the The present invention does not exceed 70 Kg / Kw (in both cases without modules), taking into account that the wind screen is also minimum (as explained above) and the forecast of large Winds is not a major problem.

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It is therefore clear the development of the technique in the invention whereby protection is requested by the reasons for: passive wind safety, homogenization of facilities, efficiency in the use of materials, simplification of the height assembly, improvement of the expectations of  power generation on the roofs of buildings that finally They are the recipients of the renewable resource.

It is an object of the present invention a solar tracker on building deck, of the type that includes a frame, horizontal, shaped like a circumference or fixed part, with a cross-shaped interior structure, where some are anchored intermediate structures, on which the modules are fixed or solar panels, thermal and / or photovoltaic type forming part mobile that faces the modules during the daily tour of the Sun.

Brief description of the drawing

In order to facilitate the explanation, accompanying herein a sheet of drawings in which they have represented a practical case of realization, which is quoted as Sample title, not limiting the scope of this invention:

- Figure 1 is a perspective view of the Solar Tracker.

Concrete embodiment of the present invention patent

Figure 1 illustrates a frame 1, a interior structure 2, intermediate structures 3, on the intermediate structures the modules 4 are fixed, thus giving the angle of inclination

As the Earth moves and change its position with respect to the Sun the follower varies also its positioning with respect to the Earth with a horizontal displacement, with a friction wheel during a 100 degree angle in six stations -variable as appropriate-. When it finishes, the recoil does it in the opposite direction, all this managed by a programmable PLC.

When the sun reaches modules 4, these cast a shadow that does not reach the modules of the structure intermediate immediately following, that is, the modules or solar panels 4, whether thermal or photovoltaic, of the first intermediate structure 3 cast a shadow that does not reach modules or solar panels 4 of the preceding row.

In this way, all modules or panels solar 4 of the follower are always operational, even when they are arranged successively on the horizontal.

It is noteworthy that in its use in solar thermal fluid heating, the follower has a surplus reduction system orienting the panels towards the This when it reaches an excessive temperature.

To optimize the follower you can understand a module for wind power generation, 1.5 Kw for example. This wind unit can produce energy at any time, since which does not depend on the hours of sunlight but on the speed of the wind.

That is, the two renewable resources are complementary, can be installed on the structure of the follower rows of photovoltaic modules and in the subsequent a mini 1.5 kw wind power, taking advantage of the wind turbine generation - taking into account that this produces or can produce in hours without insolation, - being able to reduce the capacity of batteries (in self-consumption facilities) same as the number of modules for The same need. This is an example of application of the Code Building Technician for future buildings, more beyond what is contemplated by the legislator, since the production electricity of the two renewable resources is more stable than It would be any of them separately.

Also even when it is a follower designed for roofs, it could also be applied on the ground since by not grouping the modules excessively avoids a disproportionate wind screen, therefore saves on measures of  security and structure reinforcement. In the same way as the land use does not vary.

This invention is applicable to flat roofs, Catalan roof type, service station type, two-deck waters, type industrial buildings, which places the different Slope orientations with the same possibilities of colonization by solar energy, photovoltaic installations, thermal, base unit to comply with the new Technical Code of Building, and facilities isolated or connected to the network.

The present invention patent describes a solar tracker on building deck. The examples here mentioned are not limiting of the present invention, therefore may have different applications and / or adaptations, all of them within the scope of the following claims.

Claims (3)

1. Solar tracker on building deck, of the type comprising a frame (1), horizontal, shaped circumference or fixed part, drive means with a interior structure (2) in the form of a cross where some are anchored intermediate structures (3) on which the modules are fixed or solar panels (4), thermal and / or photovoltaic, forming the mobile part that faces the modules in the sun throughout the daily tour of the sun. 2. Follower according to claim 1 characterized in that it is made of aluminum. 3. Follower according to any of the preceding claims characterized in that it comprises a module for wind generation.