JP2000009019A - Sun light wind power generator for building accessory - Google Patents

Abstract

PROBLEM TO BE SOLVED: To facilitate an installation of a solar photo power generator to a building by providing the solar photo power generator to an upper portion of a wind power generation to utilize a wind power and a sun light as an energy by one device and integrally forming to save a space. SOLUTION: A sun light wind power generator 1 for a building accessory has a solar photo power generator 3 provided on an upper portion of a wind power generator 2 and both wind power and sun light are used as a generation energy. A rotary vane being a wind power energy converting mechanism of the wind power generator 2 is made to a turbine type or an anemometer type as a countermeasure of a height limitation for saving space and an upper device of a building for accommodating in a lower portion of the solar photo power generator 3. According to a basic structure, a wind from all directions can be utilized. Thereby, the wind power and the sun light can be utilized as a generation energy by one device and further, an installation to a building can be facilitated by an integral formation to save space.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention can use both sunlight and wind power as power generation energy. A solar power generation device is attached to the upper part of the wind power generation device, and is combined as one device. The present invention relates to a photovoltaic wind turbine generator for buildings attached to a house or a building having a building, which is easily installed.

[0002]

2. Description of the Related Art Conventional wind power generators and solar power generators are each a single unit. There is no united type in which wind power and solar power are integrated into one device, and it is used for buildings where installation space is limited. The use of a single device is more useful in terms of energy and effective use of installation space, and in terms of manufacturing and installation costs. Most of the conventional wind power generators are for industrial use, so there are many large-scale devices such as propeller type that convert wind power into wind energy. There is a problem in terms.

[0003]

When considering a wind power generator and a solar power generator for a building, the conventional wind power generator and the solar power generator are each a single unit.
When there is no united type that uses wind and sunlight as one device, and it is for buildings where the installation space is limited, it is better to use one device instead of a single unit in terms of energy and effective use of installation space. It is also useful in terms of the cost required for manufacturing and installation. Most of the conventional wind power generators are for industrial use, and there are many large-scale mechanisms such as propeller type that convert wind power into wind energy. When installing in a building in a commercial area or the like, height restrictions and safety measures are emphasized, and there is a problem in terms of structure and safety if existing. The present invention has been made to solve these disadvantages.

[0004]

Means for Solving the Problems In a wind power generator (2), a photovoltaic power generator (3) is attached to the upper part of the wind power generator (2) so that both wind power and sunlight can be used as power generation energy. Photovoltaic wind power generator (1)
The above configuration is established.

[0005]

DESCRIPTION OF THE PREFERRED EMBODIMENTS By using the solar wind power generator for building attachment according to the present invention, wind power and sunlight can be used as power generation energy by one device, and further integrated. The installation in buildings has also become easier due to the space savings.

[0006]

Embodiments of the present invention will be described below. In a wind power generator (2), a solar wind power generator (1) for buildings is provided with a photovoltaic power generator (3) attached to an upper portion thereof, so that both wind power and sunlight can be used as power generation energy. The rotor, which is a wind energy conversion mechanism of the wind power generator (2), is a turbine type or an anemometer as a space saving measure to be included in the lower part of the solar power generator and a height restriction measure for installing the upper part of the building. Type. And the basic structure makes it possible to effectively utilize wind from all directions. When the photovoltaic wind power generator for building attachment (1) according to the present invention is installed in a building such as a building and a general house, the effects and structures differ as follows depending on the installation place and method. (A) When installed on a flat surface such as the roof of a building As shown in FIG. 3, when the solar wind power generator (1) attached to the building is installed on a flat surface, the daytime sunshine hours are Light power generation, wind power generation day and night when wind is available. (B) As an improved installation mode of the installation example of (a), for more efficient use of sunlight, the inclination angle is set so that the solar cell panel (4) of the solar power generation device (3) faces the sunlight. As shown in Fig. 4, when the solar wind power generation device for building attachment (1) is installed so as to have a flat surface and an inclination angle so as to face the sunlight, as shown in FIG. By attaching a wind direction change flap (6) on the side opposite to sunlight to effectively use the wind from the opposite direction of light, the wind from the opposite direction of sunlight converges on the wind inlet (5) and remains on a flat surface. The amount of power generated by wind power can be increased more than when installed. (C) When installing on a slope such as a roof of a house As shown in Fig. 5, when installing the solar wind power generator (1) attached to the building on a slope such as a house, The same effect as (b) can be expected, but with regard to wind power generation, it will be more effective if the installation location and structure are as follows. That is, the installation location is on the roof, and the structure is such that the wind direction changing flap (6) is attached to the uppermost part of the solar wind power generator for building attachment (1). Thereby, against the wind from the installation side of the solar wind power generator for building attachment (1), the rising wind that crawls up the roof slope and is converged and amplified is attached to the solar wind power generator for building attachment (1).
The wind convergence rate increases in proportion to the length of the slope below the installation of the solar wind power generator (1) attached to the building, when entering the wind intake (5) on the side and installing it on a flat surface. Power generation increases. Contrary to the above, against wind from the direction opposite to the installation side of the solar wind power generation equipment for building attachment (1), it crawls up the roof slope that would otherwise diffuse at the top of the roof and converges and amplifies it. The rising wind is collected in the wind inlet (5) by the wind direction changing flap (6) attached to the upper part of the solar wind power generator for building attachment (1),
The wind power convergence rate increases and the amount of power generation increases in proportion to the length of the slope of the roof opposite to the roof where the photovoltaic wind power generator for building attachment (1) is installed, as compared to when it is installed on a flat surface. (D) When the installation surface is wide (multiple use) As shown in FIG. 6, when the installation surface is large in a large building such as a building or a factory, the solar wind power generator for the building is attached (1) Can be used in combination. When two or more airplanes are connected and used, the rotation directions of the rotor blades are different from each other. This makes it possible to disperse the deflecting force applied to the main body of the photovoltaic wind power generator (1) attached to the building, which is generated when the rotating blades are in the same direction. In addition, when the installation location is a slope such as a building, use multiple solar wind power generators (1) attached to the building at the top of the roof in conjunction, and use the solar power generator only below the lower part. It can also be used in combination. (E) In case of installation on a bank or hill area As shown in Fig. 7, the solar wind / power generator for ancillary buildings (1) can be used not only for buildings but also for banks and hill areas (artificial hills are also possible). It can be installed on slopes. Conventionally, wind power generators and photovoltaic power generators are mostly installed as stand-alone units for industrial use, from the viewpoint of effective use of wind and solar energy and effective use of installation space, and from the viewpoint of manufacturing and installation costs. Is also useful.

[0007]

According to the present invention, by using the solar wind power generator for incidental buildings, wind power and sunlight can be used as power generation energy by one device, and furthermore, energy saving by integration can be achieved. Installation in buildings has become easier due to space.

[Brief description of the drawings]

FIG. 1 is a perspective view of the present invention.

FIG. 2 is an exploded perspective view of the present invention.

FIG. 3 is a side view of an embodiment of the present invention.

FIG. 4 is a side view of another embodiment of the present invention.

FIG. 5 is a side view of another embodiment of the present invention.

FIG. 6 is a perspective view of another embodiment of the present invention.

FIG. 7 is a perspective view of another embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Solar wind power generator for building attachment 2 Wind power generator 3 Solar power generator 4 Solar panel 5 Wind inlet 6 Wind direction change flap

Claims (1)

[Claims] 1. A solar power generation system for a building, wherein a solar power generation device (3) is attached to an upper portion of the wind power generation device (2) so that both wind power and sunlight can be used as power generation energy. Apparatus (1).