BR102017005937A2 - building solar generator - Google Patents

Abstract

solar building generator. This patent application is a solar generator with innovative technical characteristics, whose segment is focused on electric power generation. The invention contemplates a metal duct (1) mounted vertically to the outer wall (P), said black metal duct (1) is coupled superiorly to a turbine (2) on the top of a building (e) operated by hot air. rising. Thus, upon receiving sunlight, the metal duct (1) heats the air (a1) inside, causing its rise. rising air is then captured by said turbine (2) coupled to the upper part of said duct (1). the turbine (2), in turn, may be coupled to a generator (3) that will convert the mechanical energy into electrical or any other energy.

Description

(54) Title: GERADOR SOLAR PREDIAL (51) Int. CL: F03G 6/04; F24S 20/60; F24S 10/40 (73) Holder (s): SILVIO FERREIRA GAGLIOTI (72) Inventor (s): SILVIO FERREIRA GAGLIOTI (85) Start date of the National Phase:

23/03/2017 (57) Summary: PREDIAL SOLAR GENERATOR. This patent application addresses the invention of a building solar generator, with innovative technical characteristics, whose segment is focused on the generation of electric energy. The invention contemplates a metallic duct (1) mounted vertically on the external wall (P), said metallic duct (1) in black color and is coupled superiorly in a turbine (2) at the top of a building (E), operated by hot air rising. Thus, upon receiving sunlight, the metallic duct (1) heats the air (Al) inside, causing it to rise. The rising air is then captured by the aforementioned turbine (2) coupled to the upper part of the said duct (1). The turbine (2), in turn, can be coupled to a generator (3) that will convert mechanical energy into electrical or any other energy.

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PREDIAL SOLAR GENERATOR

FIELD OF INVENTION [001] The present patent application for a building solar generator, with innovative technical characteristics, deals with the segment of electricity generation.

[002] In particular, the invention aims at a building solar generator of electric energy to be fixed on the side of buildings that receive direct sunlight. The generator captures this light and converts it into electrical energy, reducing the dependence on electricity from the concessionaires.

BACKGROUND OF THE INVENTION [003] Devices for capturing solar energy and converting electrical energy are already known, such as solar cells, or solar panels. Such devices are obtained through refined and expensive technologies, which require energy converters with the same characteristics. Its high cost and the usual installation parallel to the terrestrial plane restrict its use to small areas on roofs, generating a small amount of energy.

[004] Such devices occupy little area, have low yield and high cost, contributing little to the growing demand for electricity.

[005] On the other hand, it is inevitable to build buildings that receive sunlight on their walls for much of the year, or all year round, especially the unpleasant "afternoon sun". The thermal energy accumulated by the walls during the day causes thermal discomfort that is compensated with the intensive use of air conditioners. In this case, there is a double waste of energy: thermal energy received through the sun and electrical energy from the air conditioner.

STATE OF TECHNIQUE [006] The document BR 20 2015 025357 0, deposited on 10/02/2015 and published on 9/13/2016, entitled SOLAR GENERATOR WITH COLLECTOR OF PARABOLIC GUTTERS AND TURBINE WITH POWER OF 1, is known from the state of the art. At 100 KW, which associates a Solar Concentrator Collector of Satellite Ducts with the Tesla-Pelton Hybrid Turbine or with the Tesla Turbine. In the focus of the Parabolic Gutters that accompany the movement of the earth around the sun during the day,

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2/7 activated by the “Rastreador Solar” there are heat collector tubes with water that heated by the sunlight that produce steam, activating the turbine. The Tesla Roda Pelton Hybrid Turbine and Tesla Turbine, which are compact, simple and inexpensive to build and maintain, can operate with saturated steam and are economically viable to generate electricity on a small scale. The generator also produces hot water for industries, showers, kitchens, swimming pools and taps for hotels, hospitals and homes, can purify water by condensing the steam coming out of the turbine and producing compressed air for use in compressed air automotive vehicles and also it can be used as a steam engine that can also touch a pump or any other machine that rotates with a speed of 500 to 15,000 rpm, replacing electric and gasoline engines, in processes of water desalination and dehumidification of ores and grains.

[007] Document PI0904080-3, deposited on 10/20/2009 and published on 10/19/2010, under the title of IMPROVEMENTS INTRODUCED IN A PORTABLE HOT AIR GENERATOR FOR INJECTION OF HEAT IN INDUSTRIAL AND / OR CORRELATED UNITS, describes a portable generator developed to act as heat transfer equipment under forced convection, high turbulence and pressure in industrial units; said portable generator is configured by a structural fairing formed by a tubular cylinder that develops in two sectors of different diameters, one frontal and one posterior joined by an angular wall; the end of one sector is closed by an extremely flat base, where a pair of openings are used for the introduction of the respective gas supply pipes, while the end of the other sector is closed by a disk with a peripheral flange provided with holes for fixing the generator. portable to a guiding tube; from the lower portion of the tubular cylinder a tubular branch develops, this is displaced angularly backwards in relation to the longitudinal axis of said cylinder, said branch to which the flexible hose connecting to a turbo fan generating air is connected; the disc is provided with a large central hole where a set of gas chambers that is positioned outside the tubular cylinder is fixed, by welding or other means, being an enclosed combustion chamber and a diffuser chamber.

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3/7 [008] Document ΡΙ0904236-9, deposited on 10/13/2009 and published on 14/06/2011, entitled ESTARFA SOLAR EÓLICA, describes a set of mechanisms to overheat the air and take advantage of the upward movement of the masses of hot air resulting from this process to generate electricity. A greenhouse is used to heat the air, which basically consists of a transparent glass box with a reflective floor, and to create a controlled flow of the heated air inside, a hollow tower is installed in the middle. The hot air rises naturally following the logic of thermal convection, so all the heated air inside the greenhouse will rise up inside the tower. This vertical and uninterrupted air displacement is used to generate electricity by installing a rotating wind generator at the top of the tower. Another proposed way to take advantage of this upward movement of air inside the tower is to make it activate a pneumatic pump through the movement of going up and down from a cover installed on the top of the tower, accumulating air in a compressor to later be injected into a balloon. . When ascending, the balloon will carry a cable with the other end attached to the generator system, therefore, this upward movement of the balloon will rotate the axis of the generator system, initiating the energy production process. When the balloon stretches the entire cable, an electronic command will cause some of the compressed air inside it to be exhaled and interrupt its upward movement. Simultaneously, in the other tower, the other balloon will receive its injection of compressed air and will rise, bringing the other balloon back and keeping the generator system active.

[009] Among all the state of the art documents pointed out, ο PI0904236-9 uses a method within a similar concept; however, its application for the production of energy in a building volume, as proposed by the generator of the present patent application, is not applied, first because the need to use mirrors limits the amount of hot air; the same with the balloon technique. [010] Thus, in a cost-benefit ratio, the design of the prior art proves unfeasible to meet an energy demand.

THE INVENTION

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4/7 [011] In view of these problems and in order to overcome them, the Solar Building Generator was developed, object of the present patent, which consists of a convection solar generator installed on the walls of buildings.

[012] When installed, the device captures sunlight by converting it into electrical energy using a metallic duct and a turbine, in order to minimize the waste that is proposed, as it reduces the direct incidence of sunlight on the walls of buildings, reducing the temperature in the homes. Conceptually, it consists of hollow metal ducts heated by solar radiation. The heat from the ducts is transmitted to the air inside them, which, when heated, tends to rise. At the top of the installation, rising air drives a turbine, connected to a generator, in order to produce electrical energy, acting as an energy cogeneration system. [013] This energy can also be stored for night lighting or other purposes depending on the project.

[014] Therefore, with this patent application, the entire external area of a building can be used, for example, in order to generate a large amount of energy, even considering losses of naturally existing loads. With the patent application in question, the ducts when capturing the incident heat stroke end up still reducing the internal heat stroke in the environment, indicating the reduction of equipment such as air conditioning, for example.

[015] Furthermore, it is possible to take advantage of the distribution of sunlight on all sides of a building, which not only makes the equipment very efficient, but also starts to generate energy continuously, particularly by retaining the temperature in the hollow ducts, in which the hot air is constantly rising.

[016] Additionally, the equipment has the advantage of taking advantage of the building structure for the system, that is, it does not require additional structure or foundation or other auxiliary means.

[017] On the other hand, the low installation cost allows the application of the equipment in large areas, maximizing energy capture and bringing significant benefits in the cost / benefit ratio of the equipment to the user.

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OBJECTIVES OF THE INVENTION [018] The objectives of the present patent application are:

- present a low cost and efficient system for use as a building solar generator;

- to present a system for use as a building solar generator that makes the most of the heat that occurs on all sides of a building;

- present a system where the elevation of the hot air is practically constant;

- present a system that, in an unprecedented way, collaborates to reduce the internal calorie of the building environment;

- present a system where there is no limit to the arrangement of the heat capture ducts and the elevation of the hot air.

DESCRIPTION OF THE DRAWINGS [019] The invention will be described below in its embodiment, and for better understanding, references will be made to the attached drawings, in which they are represented:

FIGURE 1: Shows a perspective view of a building construction with an installed device, for better illustration and understanding;

FIGURE 2: Shows side view with the device installed;

FIGURE 3: Shows, in perspective, a metallic duct, in this construction, with a rectangular section;

FIGURE 4: Shows, in perspective, the duct with the turbine attached;

FIGURE 5: Shows, in sequence, the device with the incidence of heat from the sun (A), the device with the incidence of heat from the sun and the elevation of hot air (B) and, finally, the incidence of heat from the sun, the elevation of hot air and the movement of the turbine (C);

FIGURE 6: Shows the side view of any building;

FIGURE 7: Shows the side view of the same building, showing the installation of ducts in black;

FIGURE 8: Shows the association of sections of the duct according to the height of the building;

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FIGURE 9: Illustrates the device attached to a power generator;

FIGURE 10: It shows a building with the solar generator of the invention applied to it, also demonstrating the incidence of sunlight in that building and, consequently, in the solar generator, both in the morning and in the afternoon, demonstrating the efficiency of the system in capturing the heat in all directions. DETAILED DESCRIPTION OF THE INVENTION [020] The PREDIAL SOLAR GENERATOR, object of this Patent Application, in accordance with what is illustrated in the figures above, consists of metal ducts (1), for example, rectangular sections, preferably dark and assembled vertically on the external wall (P), said metal ducts (1) are coupled superiorly in respective turbines (2) at the top of a building (E).

[021] The metallic ducts (1) present, in the realization shown here, each one with a rectangular section; however, within the same design, it can be tubular or have other shapes; in this case, the rectangular design offers a good area for capturing the heat from the sun (S).

[022] Technically, it is an additional advantage of the present invention that the metal ducts (1) can be arranged on all sides of the building (E), taking advantage of the different phases of the sun (S) during the day; in addition, there is no limitation on the number of metal ducts (1), nor even a regular distance between them, which can even occupy the entire area of one side of the building (E).

[023] Thus, upon receiving sunlight, each metallic duct (1) heats the air (A1) inside, causing it to rise. The rising air is then captured by the aforementioned turbine (2) coupled to the upper part of the said duct (1). The turbine (2), in turn, can be coupled to a generator (3) that will convert mechanical energy into electrical energy. Several metallic ducts (1) can be associated in order to cover the largest possible area, both at the height of the building, and laterally.

[024] Another aspect to be highlighted is that the device appears as an inexpensive and efficient source combined with the co-generation of energy, composing a modern solution and that, in

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7/7 can go a long way towards reducing the consumption of energy obtained through traditional ways.

[025] Another aspect to be highlighted is that the invention does not limit the shape of the section, texture of the ducts, color - the client can give up the dark colors to maintain the aesthetics of the building, in addition to inferring small design changes such as fins, additional orifices, reflectors, deflectors to improve performance or airflow, without changing the inventive scope.

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Claims (3)

1) PREDIAL SOLAR GENERATOR, characterized by metal ducts (1) mounted vertically on the external wall (P), said metal ducts (1) are coupled superiorly in a turbine (2) at the top of a building (E), operated by air hot on the rise. 2) PREDIAL SOLAR GENERATOR, according to claim 1, characterized in that several metallic ducts (1) are optionally associated in order to cover the largest possible area, both at the height of the building (E) and laterally. 3) PREDIAL SOLAR GENERATOR, according to claims 1 and 2, characterized by the turbine (2) being coupled to a generator (3) for converting mechanical energy into electrical energy or any other. Petition 870170019256, of 03/23/2017, p. 11/22 1/6