ES2396782A1 - Device for solar following in polar axis - cenital in building covers. (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

Device for the solar tracking on roofs of buildings, comprising a first motor stand (1), a second motor stand (2), and a third simple stand (3), also comprising at least one simple stand (3) by drive stand (1, 2) being placed in opposite position to said motor trestles (1, 2) whose fundamental purpose is to orient a set of solar panels with respect to the position of the sun, so that their performance is optimized, thus obtaining a greater use of solar energy. (Machine-translation by Google Translate, not legally binding)

Description

Device for solar tracking on polar axis - zenithal on building roofs

The object of the present invention is a device for zenithal solar tracking on roofs of buildings, whose main objective is to orient a set of solar panels with respect to the position of the sun, so that its performance is optimized, thus obtaining a greater use of Solar energy. The solar tracker is designed to be installed on roofs of buildings, allowing to vary the angle of inclination of the plates with respect to the sun, by means of an automatic overhead movement.

The present device, therefore, is aimed at the sector of new technologies and use of alternative energy.

STATE OF THE PREVIOUS TECHNIQUE

All fixed-roof solar photovoltaic installations have an optimum inclination value (understood as inclination equivalent to the zenith angle) with respect to the horizontal plane of the plane where the photovoltaic modules are located. This inclination is what allows the installation to generate the maximum energy without moving. Each month of the year they have a corresponding optimum inclination and that depends on the height of the sun (angle of the sun observer axis with respect to the horizontal plane) at 12:00 solar hours. The optimal annual inclination usually corresponds to that of the months of March and September. Between these two months the optimal inclination of the panel is less than the annual optimum.

In addition, in the period between these two months, a fixed installation produces about 75% of total annual production (during the middle of the year).

An example of the optimization of the zenith angle is that shown in Spanish patent ES 2 345 083, "Solar tracker for flat or inclined surfaces", which describes a single-axis solar tracker, for placement in horizontal or inclined planes. Said follower offers a minimum profile structure for its architectural integration in roofs or roofs that allows the optimization of the seasonal inclination of the plates placed in said structure. This structure presents problems of configuration in the turn, being not optimal their capacities of support of the plates and stability in the turn.

EXPLANATION OF THE INVENTION

The purpose of the device for zenithal solar tracking on building roofs is to present a guiding machine with a mechanism that allows the variation of the zenith angle in a simple way, for which, essentially, said machine is composed of a plurality of easels comprising , at least a first and a second motor stand and a simple stand.

These easels have two feet that allow anchoring to the roof of the building. The drive stand is attached to the single stand by a profile. Said profile travels longitudinally in both directions driven by an electric motor in a first drive stand. This displacement causes the change of inclination of both easels by causing the movement of their rear profile.

The movement of the easels that form the solar tracker is controlled by an automaton. This automaton has the optimal inclinations (zenith angle) programmed for each day of the year. When the difference between the optimum inclination and the actual inclination of the follower is greater than a programmable value, the automaton orders the correction of this inclination.

The equipment has emergency stop devices, although the maximum turning speed is very small and does not cause risks. This machine is designed to have a simple start-up and stop.

Throughout the description and the claims the word "comprises" and its variants are not intended to exclude other technical characteristics, additives, components or steps. For those skilled in the art, other objects, advantages and features of the invention will be derived partly from the description and partly from the practice of the invention. The following examples and drawings are provided by way of illustration, and are not intended to be limiting of the present invention. In addition, the present invention covers all possible combinations of particular and preferred embodiments indicated herein.

BRIEF DESCRIPTION OF THE DRAWINGS

A series of drawings that help to better understand the invention and that expressly relate to an embodiment of said invention which is presented as a non-limiting example thereof is described very briefly below.

FIG. 1 shows a view of a first driving stand, which is part of the device for roof solar tracking on roofs, object of the present invention.

FIG. 2 shows a view of a second motor stand, without an engine, which is part of the device for roof solar tracking on roofs, object of the present invention

FIG. 3 shows a view of a simple easel.

FIG. 4 shows a general perspective view of the device object of the invention, applied in a cover.

PREFERRED EMBODIMENT OF THE INVENTION

The device object of the invention is anchored on the roof of a building. To perform the union, the appropriate elements must be used according to each type of roof, and where, in addition, the calculation of the union elements is made in accordance with the current legal regulations, in the Spanish case, the technical code of the building or CTE

The device for zenithal solar tracking on roofs of buildings comprises at least a first motor stand (1), a second drive stand (2), and a third simple stand (3), at least one for a drive stand (1,2 ) and placed in a position facing them.

The first drive stand (1) is essentially constituted by a plurality of hot galvanized steel profiles. Among these profiles, the transmission profile (17) is manufactured with a tubular profile of square section, while the lower stand profile (16) is made of galvanized folded sheet and the upper stand profile (13) is also manufactured with a tubular profile of square section.

Both upper (13) and lower (16) easel profiles are joined at one end, so that they have a relative movement between them, and the angle at which they form between them can be varied. On the opposite end, both stands (16,13) are connected to the transmission profile (17) in such a way that it is possible to vary the angle � formed between both profiles (16,13) and the transmission profile (17).

The first drive stand (1), in turn comprises a motor (126) that acts on the transmission profile (17) causing a displacement of said profile along its longitudinal axis.

This movement causes the junction knots of the lower stand profile (16) and the upper stand profile to move, causing the variation of the angles between profiles (a, �).

Likewise, the first drive stand (1) comprises a lower support element (11) and a lower support element for the motor (15), where both allow the joining of the profiles of the first stand (1) with the cover of the building and also serves to slide the transmission profile (17). These pieces are made of galvanized folded sheet.

The rotation of the motor is electronically controlled by an automaton that positions the solar tracker according to the optimum zenith angle, which corresponds to the angle � of inclination between upper profile and transmission (13.17).

Figure 2 shows in detail the second drive stand (2), which is constituted analogously to that of the first drive stand (1), with the proviso that it does not have a motor-reducer (126). In this case, the power of the motor-reducer (126) is transmitted by a transmission bar that connects the output of the axis of rotation of the first driving stand (1) with the axis of rotation of the second driving stand (2).

Finally, in figure 3 the simple easel (3) is shown in detail, which is also constituted analogously to that of the easels (1,2) with the proviso that the transmission of power is carried out by means of the union screwed on the transmission profiles (17.27) of the first or second drive stand (1.2) with the transmission profile (36) of the single stand (3) causing a sliding in solidarity with those.

As can be seen in Figure 4, which shows an application of the device on a building roof, once the stands (1,2,3) are installed on the building roof, the fastening straps of the modules are placed photovoltaic (4), manufactured in galvanized profile and attached to the stands by means of rods (5).

The photovoltaic modules (4) are attached to the belts by means of a set of connecting elements. Regardless, in its particular embodiment, the panels can be supported on rubber profiles placed on the belt or they can be attached to it by means of an adhesive that offers extra protection against theft.

The form of support of the solar panels allows great flexibility when installing different panel models. The length of the belts varies depending on the panel model used, always respecting the maximum dimensions set in the design of the tracker and the dimensions of the building in which it is installed.

Faced with excessive wind speed (programmable parameter in the motion control automaton), it is possible to order the follower to be placed in a flag position, thus protecting the structure from high wind stress.

Claims (9)

1.- Device for the solar zenithal tracking in polar-zenithal axis in building roofs, which comprises a first driving stand (1), a second driving stand (2), and a third simple stand (3), also comprising the minus a simple easel (3) by a motor stand (1,2), being located in a position facing said motor stands (1,2) and characterized in that said stands (1,2,3) essentially comprise an upper stand profile (13) and a lower stand profile (16) joined by one of its ends, forming a variable angle (a), and where at the opposite end, both upper and lower easel profiles (16,13) are connected to a transmission profile (17,27,36) forming a variable angle; and where, on the first drive stand (1), a motor (126) drives a transmission profile (17) of the first drive stand (1) causing a displacement of said transmission profile (17) along its longitudinal axis; and where this movement causes the junction knots of the lower stand profile (16) and the upper stand profile (13) move, causing the variation of the angles between profiles (a, �); and where the power of the motor-reducer (126) is transmitted by a transmission bar that connects the output of the axis of rotation of the first driving stand (1) with the axis of rotation of the second driving stand (2); while the transmission of power with the third single stand is carried out by means of the screw connection of the transmission profiles (17,27) of the drive stand (1,2), with the transmission profile (36) of the single stand (3) faced with said easel (1,2) causing a sliding in solidarity with those. 2. Device for solar tracking on building roofs according to claim 1, characterized in that the first drive stand (1) comprises a lower support element (11) and a lower motor support element (15) of union with the roof of the building. 3. Device for solar tracking on roofs of buildings according to claim 1 and 2 characterized in that the rotation of the motor (126) is electronically controlled by an automaton that positions the solar tracker according to the optimum zenith angle, which is corresponds to the angle of inclination between upper profile (13) and transmission (17,27,36). 4. Device for monitoring solar zenith in roofs of buildings, according to previous claims, characterized in that, once the easels are installed on the roof of the building, the fastening straps of the photovoltaic modules (4) are placed. 5. Device for solar zenithal tracking on building roofs, according to previous claims, characterized in that the photovoltaic modules are attached to the belts by means of a set of joining elements. 6. Device for zenithal solar tracking on building roofs, according to previous claims, characterized in that the photovoltaic panels can be supported on rubber profiles placed on the belt Or they can be attached to it by means of an adhesive that offers extra protection against theft. 7. Device for zenithal solar tracking on roofs of buildings, according to previous claims, characterized in that it can be ordered that the follower be placed in a flag position, thus protecting the structure from high wind stress. 8. Device for zenithal solar tracking on roofs of buildings, according to previous claims, characterized in that a configuration can be adopted that allows zenithal tracking with a polar axis, modifying the inclination of the panels and placing the easels in East-West arrangement. SPANISH OFFICE OF THE PATENTS AND BRAND Application no .: 201130167 SPAIN Date of submission of the application: 08.02.2011 Priority Date: REPORT ON THE STATE OF THE TECHNIQUE 51 Int. Cl.: F24J2 / 54 (2006.01) H01L31 / 042 (2006.01) RELEVANT DOCUMENTS

Category

56 Documents cited Claims Affected

X

WO 2009112602 A1 (IN ERCAM S A et al.) 09.17.2009, 1-8

page 3, lines 7-8; page 7, lines 5-25; Figure 1.

X

DE 102004005350 A1 (FIMPEL GMBH CO KG LANDTECHNI) 18.08.2005, 1-8

paragraph [71]; Figures 7a-7d.

X

CN 101626040 A (DONGMENG ELECTRIC POWER INTEGR-DONGMENG ELECTRIC POWER 1-8

INTEGRATION EQUIPMENT CO LTD) 13.01.2010, figures & summary recovered from the base of

WPI data Recovered from Epoque, AN 2010-B04442.

X

US 2011000515 A1 (PATWARDHAN RAVINDRA et al.) 06.01.2011, 1-8

paragraph [81]; figure 11.

Category of the documents cited X: of particular relevance Y: of particular relevance combined with other / s of the same category A: reflects the state of the art O: refers to unwritten disclosure P: published between the priority date and the date of priority submission of the application E: previous document, but published after the date of submission of the application

This report has been prepared • for all claims • for claims no:

Date of completion of the report 01.31.2013

Examiner J. Merello Arvilla Page 1/4

REPORT OF THE STATE OF THE TECHNIQUE Application number: 201130167 Minimum documentation sought (classification system followed by classification symbols) F24J, H01L Electronic databases consulted during the search (database name and, if possible, terms of search used) INVENES, EPODOC, WPI State of the Art Report Page 2/4  WRITTEN OPINION Application number: 201130167 Date of Completion of Written Opinion: 01.31.2013 Statement

Novelty (Art. 6.1 LP 11/1986)

Claims Claims 1-8 IF NOT

Inventive activity (Art. 8.1 LP11 / 1986)

Claims Claims 1-8 IF NOT

The application is considered to comply with the industrial application requirement. This requirement was evaluated during the formal and technical examination phase of the application (Article 31.2 Law 11/1986).  Opinion Base.- This opinion has been made on the basis of the patent application as published. State of the Art Report Page 3/4  WRITTEN OPINION Application number: 201130167  1. Documents considered.- The documents belonging to the state of the art taken into consideration for the realization of this opinion are listed below.

Document

Publication or Identification Number publication date

D01

WO 2009112602 A1 (IN ERCAM S A et al.) 09.17.2009

 2. Statement motivated according to articles 29.6 and 29.7 of the Regulations for the execution of Law 11/1986, of March 20, on Patents on novelty and inventive activity; quotes and explanations in support of this statement Document D01 is considered the closest in the state of the art to the invention according to the claims of the patent application object of this Written Opinion. The numerical references used are relative to document D01. Hereinafter, the same terminology as the claims of the patent application under study will be used. Document D01 presents a device for zenithal solar tracking (D01, page 3, lines 7-8) that has a series of easels comprising an upper stand profile (1.2) and a lower stand profile (1.5) attached to this one by one of its ends, forming a variable angle, and where at the opposite end it is attached to a transmission profile (2.2) forming a variable angle. The device for solar tracking is activated thanks to the displacement of the transmission profile (2.2) by a single actuator (D01, page 7, lines 11-14); where this movement causes the junction knots of the lower stand profile (1.5) and the upper stand profile (1.2) to move causing the variation of the angles between the profiles. Therefore, document D01 anticipates the essence of the invention as it discloses a solar tracker in which the basic mechanical system by which the variation of the angle of incidence of solar radiation on the solar receiver is allowed is of the type proposed by the First claim of the patent application under study. The difference between the invention according to document D01 and the first claim under study is that the latter exposes, although very briefly, the way to achieve the operation of a set of easels with a single motor while document D01 indicates this as a goal to achieve (D01, page 7, lines 11-14) but without entering to specify a particular embodiment. In the state of the art relating to solar trackers, mechanical systems that meet the stated objective in very different ways are very common and it is considered obvious for a person skilled in the art to reach the objective indicated in document D01 and do so in the sense proposed by the first claim under study. Therefore, in light of the state of the art indicated, the first claim of the patent application, as it is not included in the state of the art, is new (Law 11/1986, Art.6.1.) But, as a result obvious to an expert in the field, it lacks inventive activity (Law 11/1986, Art.8.1.). Since the first claim is a novelty, the dependent claims thereof, that is, claims 2 to 8, in turn have novelty (Law 11/1986, Art.6.1.). On the other hand, it is considered that claims 2 to 8 do not possess any technical characteristic that, in combination with the technical characteristics of the claims on which they depend, suggests the existence of inventive activity (Law 11/1986, Art.8.1.). State of the Art Report Page 4/4