KR102047968B1 - Photovoltaic power generation apparatusm to be installed on building - Google Patents

Abstract

The present invention relates to a photovoltaic device installed in a building, and more particularly, to install a photovoltaic panel unit for condensing sunlight inside the building to prevent damage to the photovoltaic panel unit due to external factors as well as maintenance. And easy to repair, and installed in a fixed manner rather than a solar tracking method for the economical efficiency of the solar panel panel, but solves the problem of degradation of the solar condensing efficiency caused by the photovoltaic panel unit installed in the building The present invention relates to a solar heat measuring device installed in a building to effectively increase efficiency.
The present invention is a solar cell panel unit 20 is fixed to be installed at a predetermined angle inclined toward the upper surface of the solar cell is installed in the state in which a plurality of solar cells are provided in order to collect sunlight in the interior of the building; A convex mirror member 70 installed in front of the photovoltaic panel unit 20 and reflecting sunlight incident from a position not collected by the photovoltaic cell 10 to the photovoltaic cell 10; Characterized in that made.

Description

Photovoltaic power plant installed in building {PHOTOVOLTAIC POWER GENERATION APPARATUSM TO BE INSTALLED ON BUILDING}

The present invention relates to a photovoltaic device installed in a building, and more particularly, to install a photovoltaic panel unit for condensing sunlight inside the building to prevent damage to the photovoltaic panel unit due to external factors as well as maintenance And easy to repair, and installed in a fixed manner rather than a solar tracking method for the economical efficiency of the solar panel panel, but solves the problem of degradation of the solar condensing efficiency caused by the photovoltaic panel unit installed in the building The present invention relates to a solar heat measuring device installed in a building to effectively increase efficiency.

Recently, due to the depletion of fossil fuels and environmental pollution, development of various kinds of alternative energy sources, clean energy sources, and environmentally friendly energy sources that can replace fossil fuels has emerged. One of them is the method of using solar energy.

The use of such solar energy can be classified into three types, one of which is a solar thermal method that converts light energy of the sun into thermal energy and utilizes it as heating or hot water, or obtains electrical energy by operating a generator with the converted thermal energy. The other is to collect the sunlight and guide it to the optical fiber and use it as lighting, and the other is to use solar cells, solar cells to directly convert the sun's light energy into electrical energy. It is a solar system.

In any case, in order to utilize solar energy, a device for collecting solar energy is required. A device for collecting solar energy is typically a solar light collecting plate or a solar panel, which absorbs energy in direct sunlight. Solar panel is used. The solar panel has a structure in which a plurality of solar cells or pipes for circulating working fluids are installed in a flat structure, and the efficiency varies depending on the height of the sun.

On the other hand, in the case of a power plant using solar energy, a plurality of solar light collecting plates are usually installed on a flat and large site, and due to the characteristics of the solar power generation, it is impossible to overlap two or more solar light collecting plates so that they are very large. Due to this, not only the power transmission structure for transmitting power generated by the generator or the actuator to each solar panel is complicated, but also the amount of power lost in the transmission process is increased.

However, in the case of arranging a plurality of solar light collecting plates, there is a problem that shading occurs due to interference between each other, the sun does not rise above a certain angle, or the sun does not absorb enough sunlight due to the influence of weather conditions. In order to solve the problem, a program and a device for tracking the sun (a solar tracker or a tracking device) have been developed to accurately look at the sun.

As an example, Korean Patent Publication No. 83-2206 (published date: 1983523), 93-978 (published date: 1993116), 97-16643 (published date: 1997428), 01-25541 ( Publication date: 200146), but a number of such conventional sun tracking method is a majority of the program to be controlled programmatically by a microprocessor, the configuration is not only very complicated, but lacks precision, there is a problem that is not put to practical use It is true.

In addition, as the solar light collecting plate for condensing the solar light is kept installed outside for a long time, damage to the solar light collecting plate is caused by various factors such as climate change. The solar light collecting plate is installed to collect the solar light. In this case, structural stability problems are raised due to damage of the solar light collecting plate or the supporting member supporting the solar light collecting plate due to external factors. In the process of doing so, there is a significant problem with the safety of the worker.

The present invention was devised in view of the above circumstances, and an object of the present invention is to install a photovoltaic panel unit for condensing sunlight inside a building to prevent damage to the photovoltaic panel unit due to external factors, as well as maintenance and It can be easily repaired and installed in a fixed manner rather than a solar tracking method for economical efficiency of the photovoltaic panel unit, so that the installation cost can be reduced, and the condensation area of the photovoltaic panel unit installed in the building is widened to increase the sun. It is to provide a photovoltaic device that is installed in a building to increase the light collection efficiency.

In order to achieve the above object of the present invention, a plurality of solar cells 10 are provided to condense solar light inside a building, and the solar cell is installed at an inclined angle at a predetermined angle toward the sky. Solar cell panel unit 20; A convex mirror member 70 installed in front of the photovoltaic panel unit 20 and reflecting sunlight incident from a position not collected by the photovoltaic cell 10 to the photovoltaic cell 10; The solar cell panel unit 20 is installed on an upper surface of the housing 30 having a space therein, and includes a plurality of light condensing groups formed of a plurality of aligned solar cells at an upper side of the housing 30. The main condenser 40 is sequentially formed in a state spaced apart downward in a downward direction, and the solar light is installed between the condensing group and reflected from the convex mirror member 70 to the inside of the housing 30. And a reflecting unit 50 for reflecting and an auxiliary condensing unit 60 for condensing sunlight reflected from the reflecting unit 50 in a state provided inside the housing 30, and reflecting unit 50. The installation hole 31 is formed between the condensing group It is provided in the convex mirror member 70 is made to reflect the sunlight to the auxiliary condensing unit 60, but the other side in the longitudinal direction is lifted upward by a predetermined angle in the longitudinal direction to the inside of the housing 30 The flat plate reflector 51 and the flat plate reflector 51 are integrally formed at the other side in the longitudinal direction of the plate reflector and are concave downward in the downward direction.

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According to the present invention, as the solar cell panel unit is installed inside the building, it is possible to prevent the damage of the solar cell panel unit due to external factors as well as to prevent the occurrence of a safety accident through safe work progress during maintenance / repair. Effective solar light collecting efficiency can be obtained even in a limited installation area of the photovoltaic panel unit.

1 is a state diagram showing a state in which a solar cell panel unit and a convex mirror unit are installed in a building according to the present invention;
2 is a state diagram showing an embodiment of a photovoltaic panel unit according to the present invention;
Figure 3 is a state diagram showing another embodiment of the photovoltaic panel unit according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail the photovoltaic device installed in the building according to the present invention. In the foregoing description, when it is determined that a detailed description of related known functions or configurations may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted.

In addition, the terms to be described below are terms set in consideration of functions in the present invention, which may vary according to the intention or custom of the producer or manufacturer producing the product, and the thickness of the lines or the size of the components shown in the drawings. The drawings may be exaggerated for clarity and convenience, and the exemplary embodiments described in the present specification and the drawings are merely exemplary embodiments of the present invention and do not represent all of the technical ideas of the present invention. It is to be understood that there may be various equivalents and variations in place of them at the time of the present application.

In addition, when a part of the specification is said to be 'connected' to another part, this includes not only 'directly connected', but also 'indirectly connected' with another element in between. do. In addition, the term 'comprising' a certain component means that the component may further include other components, except for the case where there is no contrary description.

In addition, directional terms used in the present invention are used in connection with the orientation of the disclosed figure (s). Since the components of the embodiments of the present invention may be positioned in various orientations, the directional terminology is used for the purpose of illustration and not limitation.

1 is a state diagram showing a state in which a solar cell panel unit and a convex mirror unit is installed in a building according to the present invention, Figure 2 is a state diagram showing an embodiment of a solar cell panel unit according to the present invention, Figure 3 according to the present invention It is a state diagram which shows another Example of the photovoltaic panel part.

1 to 3, the solar cell apparatus installed in the building according to the present invention includes a photovoltaic panel unit 20 fixedly installed in the interior of the building and the photovoltaic panel unit 20. Consisting of the convex mirror member 70 is installed in the front.

Such a photovoltaic device according to the present invention is installed inside the building to prevent damage of the photovoltaic device from external factors, and the nature of being installed inside the building to condense the solar light only at a certain altitude. It is to improve effectively the power generation efficiency of the photovoltaic device installed inside the building.

That is, in the present invention, the photovoltaic panel unit 20 is installed in a fixed structure rather than a structure for tracking the sun for economical efficiency, and the photovoltaic panel unit 20 having such a structure is installed in a building. In this case, before and after noon when the altitude of the sun is the highest, the solar panel unit 20 may smoothly absorb the sunlight, but at the time when the solar cell panel unit 20 passes back or at sunset, the outer wall of the building In addition, the condensing mirror member 70 is placed in front of the photovoltaic panel unit 20 as the light condensing efficiency of the photovoltaic panel is significantly reduced due to the inclination of the photovoltaic panel unit. It is to increase the condensing efficiency of sunlight.

The photovoltaic panel unit 20 is fixedly installed at an angle to an upper surface of the photovoltaic cell in which the solar cell is installed in a state where a plurality of photovoltaic cells are provided to condense sunlight in a building. That is, the photovoltaic panel unit 20 is installed at a predetermined angle inclined in the direction of sunrise of the sun to collect the incident sunlight.

In addition, the convex mirror member 70 is installed in front of the photovoltaic panel unit 20 to receive solar light incident from a position not collected by the photovoltaic cell 10 to the photovoltaic cell 10. Reflect.

That is, when the sun is crossed to the back of the photovoltaic panel unit 20, it is difficult to collect the light through the solar cell 10, so that the light collecting efficiency of the solar is reduced. For this purpose, in the present invention, the photovoltaic panel unit 20 By installing the convex mirror member 70 in front of the) to reflect the incident sunlight to the upper surface of the photovoltaic panel unit 20 to increase the light condensing efficiency of the sunlight.

At this time, the convex mirror member 70 is formed in a rectangular shape having a long horizontal side length so as to facilitate the condensing and diffusion of sunlight, it is preferable to form a length smaller than the horizontal side length of the photovoltaic panel unit 20, The use of the convex mirror member 70 is because it can be diffused and reflected in a large area with a small area of the mirror because it can be effectively diffusely reflected and transmitted to the photovoltaic panel unit 20 in any direction.

On the other hand, in consideration of the characteristics of the photovoltaic device of the present invention installed inside the building to improve the solar light collecting efficiency through the structural improvement of the photovoltaic panel unit 20, as an embodiment of the The photovoltaic panel unit 20 is installed on the upper side of the housing 30 having a space therein, and a plurality of condensing groups consisting of a plurality of aligned solar cells are spaced at a predetermined distance from the upper side of the housing 30. A reflecting portion (40) which is sequentially spaced apart from the main condensing portion (40), and is installed between the condensing groups to reflect sunlight reflected from the convex mirror member (70) to the inside of the housing (30); 50 and an auxiliary light collecting unit 60 for collecting the sunlight reflected from the reflecting unit 50 in a state provided inside the housing 30.

That is, the condensing group of the main condenser 40 is located in the upper direction of the housing 30 and the first condenser in which a plurality of solar cells are installed in a line from one side in the longitudinal direction of the housing 30 to the other side. (41) and a second condenser in which a plurality of solar cells are installed in a line from one side in the longitudinal direction of the housing 30 to the other side in a state spaced apart from the first condenser 41 in a downward direction ( 42 and a third condenser 43 in which a plurality of solar cells are arranged in a line from one side in the longitudinal direction of the housing 30 to the other side in a state spaced apart from the second condenser 42 in a downward direction. )

In addition, the reflection part 50 is installed in the space between the first and second light collecting parts 41 and 42 and the second and third light collecting parts 42 and 43 to reflect the light from the convex mirror member 70. Reflected sunlight is reflected to the inside of the housing (30).

In addition, the auxiliary condenser 60 is installed inside the housing 30 at a lower position of the main condenser 40 to condense the sunlight reflected from the reflector 50. In this case, the area of the auxiliary light collecting unit 60 may be installed considering the area reflected and diffused from the reflecting unit 50.

As described above, in the present invention, the solar cell panel unit 20 is configured to provide primary condensing of sunlight by the main condenser 40 in consideration of the characteristics installed in the interior of the building, and the first and second condenser 41 The second condensing unit 60 can collect secondary solar light through the auxiliary condensing unit 60 having a larger area than the separation distance between the second and third condensing units 42 and 43. It is possible to increase the solar light collecting efficiency by exposing a much larger area than the installation area of the battery panel unit 20 to sunlight.

In addition, the reflector 50 may be provided between the condenser groups, that is, the first and second condensers 41 and 42 and the second and third condensers 42 and 43. Being a mirror member rotatably provided in, and reflects the sunlight reflected from the convex mirror member 70 to the auxiliary condensing unit (60).

That is, the installation hole 31 is formed between the first and second light collecting parts 41 and 42 and the second and third light collecting parts 42 and 43, and the reflection, which is a mirror member, is formed in the installation hole 31. By installing the unit 50, the light reflected from the convex mirror member 70 is incident to the inside of the housing 30 so that the solar light can be collected by the auxiliary condenser 60.

At this time, the reflecting portion 50 as one embodiment is a flat reflector 51, the other side in the longitudinal direction is extended upward into the housing 30 in a state in which one side in the longitudinal direction is lifted upwards, the flat type It is formed integrally at the other side in the longitudinal direction of the reflector 51 and concave downward in the downward direction is composed of a curved reflector 52 to pass the sunlight reflected from the convex mirror member 70 to the auxiliary condenser 60 It may be desirable to be able to easily reflect.

Here, when the curved reflector 52 is viewed from the front of the photovoltaic panel unit 20, it may be desirable to be in a position that can be identified through the installation hole (31). This is to easily reflect the sunlight reflected from the convex mirror unit 70 to the auxiliary condensing unit 60.

In another embodiment, the reflector 50 is a prism member disposed between the condensing groups, and has a triangular prism type optical shape for diffusing and accumulating solar light incident through the convex mirror member 70. In an embodiment, the reflecting unit 50 may be provided to have a length corresponding to the length of the auxiliary light collecting unit 60 installed inside the housing 30. At this time, the reflector 50 is to be found that the rotatably installed in the housing 30.

Thus, the present invention is fixed to the installation of the photovoltaic panel panel 20 consisting of the housing 30, the main light collecting portion 40 and the reflecting portion 50, the auxiliary light collecting portion 60 inside the building economical It is possible to prevent damage and corrosion of the photovoltaic panel unit 20 due to advantages and external factors, and to increase the condensing efficiency of the photovoltaic panel unit 20 by the convex mirror member 70.

Although specific embodiments of the present invention have been described in detail above, those skilled in the art will appreciate that various modifications may be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be defined by the claims below and equivalents thereof.

10: solar cell 20: solar panel portion
30: housing 31: mounting hole
40: main condenser 41: first condenser
42: second condenser 43: third condenser
50: reflector 60: auxiliary light collecting unit
70: convex mirror member

Claims (4)

A photovoltaic panel unit 20 in which a top surface of the solar cell is installed to be inclined at a predetermined angle toward the sky in a state where a plurality of solar cells 10 are provided to condense solar light in a building; A convex mirror member 70 installed in front of the photovoltaic panel unit 20 and reflecting sunlight incident from a position not collected by the photovoltaic cell 10 to the photovoltaic cell 10; Done,
The photovoltaic panel unit 20 is installed on an upper surface of the housing 30 having a space formed therein, and a plurality of condensing groups consisting of a plurality of aligned solar cells are disposed downward from the upper side of the housing 30. Reflection between the main condensing unit 40 and the condensing group, which is sequentially formed at a predetermined interval spaced apart, and reflects the sunlight reflected from the convex mirror member 70 to the inside of the housing 30 And an auxiliary condenser 60 for condensing sunlight reflected from the reflector 50 in a state installed inside the housing 30.
The reflector 50 is provided in the installation hole 31 formed between the condensing groups so as to reflect the sunlight reflected from the convex mirror member 70 to the auxiliary condenser 60, but one side in the longitudinal direction is The other side of the plate-shaped reflector 51 extending in the housing 30 and the other side of the plate-shaped reflector 51 is formed integrally with the plate-shaped reflector 51 in a state of being lifted upward by a predetermined angle and concave downward. Downward bending site is a photovoltaic device installed in a building, characterized in that consisting of a curved reflector (52). delete delete delete

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