JP2009231315A - Solar power generator - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a solar power generator provided with a solar cell panel body can efficiently receive sunlight even in a place not sufficiently exposed to the sunlight or on a roof of a small building or the like. <P>SOLUTION: A solar power generator 11 includes at least: a solar cell panel body 12 formed in a spherical shape or the like; a curved irregular reflecting board 13 provided at a prescribed interval from the solar cell panel body 12; and a holding arm 14 for holding the irregular reflecting board 13 and the solar cell panel body 12. The solar cell panel body 12 is provided with many adjacent panel members 15, 15... on the surface; and the adjacent panel members 15 are turned to respectively different directions. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a solar power generation device, and more specifically, a solar cell panel that can efficiently receive solar light even in places where the solar light is not sufficiently irradiated or the roof of a small building. The present invention relates to a solar power generation device including a body.

  As a conventional solar power generation device, one having a configuration shown in FIGS. This solar power generation device has a configuration in which a planar solar cell panel 3 is installed on a part or all of a roof 2 inclined to the south side of a building 1 (see Patent Documents 1 and 2).

Since the solar power generation device having such a configuration can receive direct sunlight from the south side at an angle close to a substantially right angle, there is an advantage that light reception efficiency is high and efficient solar power generation can be performed. .
JP 2006-317128 A JP 2002-289903 A

  This conventional solar power generation apparatus can be installed only in a building having a wide roof inclined toward the south side. That is, there is a drawback that this solar power generation device cannot be installed for each individual division of a building or a condominium.

  In addition, the roof of buildings where there is insufficient sunlight, such as in densely populated areas, and the roofs and rooftops of small buildings have the drawback of poor solar light reception efficiency, and efficient solar power generation cannot be expected. .

  Therefore, in the solar power generation device in the conventional example, it can be installed for each individual section of the building or condominium, and even in places where the sunlight does not sufficiently hit or the roof of a narrow building, etc. There is a problem that must be solved in order to be able to efficiently receive sunlight.

  As specific means for solving the problems of the conventional example, the present invention provides a solar cell panel body formed in a spherical shape, an ellipsoidal shape, a cylindrical shape, or a bulging box shape, and the solar cell panel body and a predetermined A photovoltaic power generation apparatus comprising at least a curved irregular reflection plate provided at an interval and a holding arm for holding the irregular reflection plate and the solar cell panel body, wherein a large number of the solar cell panel bodies are provided on the surface. A solar power generation apparatus is provided that has the panel members in the adjacent state and has the adjacent panel members oriented in different directions.

  Further, the irregular reflection plate is configured such that the surface is formed in a concavo-convex shape and is subjected to mirror finishing, and the irregular reflection plate is configured as a parabolic antenna, The end of the holding arm has a mounting portion.

A solar power generation device according to the present invention is provided with a solar cell panel body formed in a spherical shape, an ellipsoidal shape, a cylindrical shape, or a bulging box shape, and a predetermined interval from the solar cell panel body. A photovoltaic power generation device comprising at least a curved irregular reflection plate and a holding arm for holding the irregular reflection plate and the solar cell panel body, wherein the solar cell panel body has a number of panel members adjacent to each other on the surface. In addition, the solar cell panel body can efficiently receive the sunlight from various directions by having the adjacent panel members oriented in different directions.
In other words, the sunlight hitting the diffuse reflector is irregularly reflected and received on the back side of the solar cell panel body, so that not only direct sunlight but also sunlight from all directions can be received by the solar cell panel body, Solar power generation.
Therefore, it is possible to efficiently receive sunlight even on a roof of a building that is not sufficiently exposed to sunlight, such as in a densely populated house, or on a roof or roof of a small building.

  In addition, the irregular reflection plate has an uneven surface and is mirror-finished so that sunlight is irregularly reflected, so that the sunlight can be uniformly reflected to every corner of the solar cell panel body. Play.

  And since a diffuse reflector is parabolic antenna shape, there exists an outstanding effect that sunlight can be reflected efficiently from a paraboloid of revolution.

  Furthermore, by having an attachment portion at the end of the holding arm, the solar power generation device can be attached to an arbitrary portion such as a steel tower, a pillar, or a handrail of a veranda via the attachment portion. In other words, it has an excellent effect that a solar power generation device can be attached to each individual section of a building or a condominium.

[Example 1]
Next, embodiments of the present invention will be described with reference to the drawings. First, in the first embodiment shown in FIG. 1 and FIG. 2, reference numeral 11 denotes a solar power generation device. The solar power generation device 11 includes a solar cell panel body 12 formed in a spherical shape, and the solar cell. It comprises a curved irregular reflection plate 13 provided at a predetermined interval from the panel body 12, and a holding arm 14 that holds the irregular reflection plate 13 and the solar cell panel body 12.

  The solar cell panel body 12 is formed in a spherical shape of a predetermined size, and a large number of panel members 15, 15... Are provided adjacent to the surface of the solar cell panel body 12 so as to form a so-called mirror ball as a whole. Is done.

  The panel member 15 includes a solar cell for converting sunlight into electrical energy (not shown). In this solar cell, a plurality of solar cells made of a solar cell are arranged on a substrate having translucency such as glass and fixed with a resin, and sunlight transmitted through the substrate is converted into electric energy.

  Adjacent individual panel members 15 are provided in different directions. Therefore, it is possible for the solar cell panel body 12 to efficiently receive solar light irradiated from various directions.

  The irregular reflection plate 13 is formed in a parabolic antenna shape. Moreover, as shown in FIG. 3, it has the recessed part 16 and the convex part 17 on the surface, is formed in uneven | corrugated shape, and the mirror surface process is given. By forming the projections and depressions in this manner, the irradiated sunlight is diffusely reflected, and the sunlight can be reflected evenly to every corner of the solar cell panel body 12. Furthermore, sunlight can be efficiently reflected from the parabolic antenna-like rotating paraboloid.

  The upper part 18 of the holding arm 14 is connected to the lower part of the solar cell panel body 12. Further, an arm column 19 is branched in the middle of the holding arm 14, and a tip 20 of the arm column 19 is connected to the back side of the irregular reflection plate 13.

  A mounting portion 22 is provided on the lower portion 21 of the holding arm 14. The solar power generation device 11 can be attached to a handrail or the like of a condominium veranda by being sandwiched between the attachment portions 22. Further, the presence of the attachment portion 22 allows the solar power generation device 11 to be attached not only to the handrail but also to an arbitrary part such as a steel tower or a column.

  This solar power generation device 11 is connected to a wiring (not shown), and this wiring is connected to a predetermined load (storage battery, lighting, electric heater, electric motor, etc.) via an inverter or the like.

  In the solar power generation device 11 having such a configuration, the sunlight irradiated on the irregular reflection plate 13 is diffusely reflected and uniformly received on the back side of the solar cell panel body 12, so that not only the direct sunlight on the front side but also all of them. The solar cell panel body 12 can receive sunlight from the direction of, and efficient solar power generation can be performed.

[Example 2]
Next, FIG. 4 shows a second embodiment. In the second embodiment, the same parts as those in the first embodiment are designated by the same reference numerals and their details are omitted. In the solar power generation device 23, the solar cell panel body 24 is formed in an ellipsoidal shape, that is, in a rugby ball shape. On the surface of the solar cell panel 24, a large number of panel members 15, 15...

[Example 3]
Next, FIG. 5 shows a third embodiment. In the third embodiment, the same parts as those in the first embodiment are denoted by the same reference numerals and their details are omitted. In the solar power generation device 25, the solar cell panel body 26 is formed in a cylindrical shape, that is, in a cylindrical shape. On the surface of the solar cell panel body 26, a large number of panel members 15, 15...

[Example 4]
Next, FIG. 6 shows a fourth embodiment. In the fourth embodiment, the same parts as those in the first embodiment are designated by the same reference numerals and their details are omitted. This solar power generation device 27 is formed in a so-called pillow shape in which the solar cell panel 28 bulges out. On the surface of the solar cell panel 28, a large number of panel members 15, 15.

  The irregular reflection plate 29 of the solar power generation device 27 is formed in a substantially rectangular shape, and is curved along the vertical direction. Further, the surface of the irregular reflection plate 29 has a concave portion 16 and a convex portion 17 and is formed in a concavo-convex shape and is subjected to mirror finishing.

  The solar power generation devices 11, 23, 25, and 27 configured as described above are not only for direct sunlight on the front side, but also for the solar cell panel body 12, because the sunlight irradiated on the irregular reflection plates 13 and 29 is irregularly reflected. Since light can be uniformly received on the back side of 24, 26, and 28, sunlight from all directions can be received by the solar cell panel bodies 12, 24, 26, and 28, and efficient solar power generation is performed.

  The solar power generation device 11 of the present invention is suitable for installation on a roof of a building that is not sufficiently exposed to sunlight, such as in a densely populated house, a roof or a roof of a small building, or individual sections of a building or an apartment. However, as shown in FIG. 7, if a plurality of solar power generation devices 11 are installed on the tower 30 for wind power generation, the utilization of clean energy will be further expanded.

It is a perspective view of the solar power generation device 11 which concerns on 1st Example of this invention. It is a top view of the solar power generation device 11 which concerns on 1st Example of this invention. FIG. 4 is a longitudinal sectional view of the irregular reflection plate 13. It is a perspective view of the solar power generation device 23 which concerns on 2nd Example of this invention. It is a perspective view of the solar power generation device 25 which concerns on 3rd Example of this invention. It is a perspective view of the solar power generation device 27 which concerns on 4th Example of this invention. It is explanatory drawing which shows the steel tower 30 which installed the solar power generation device 11. FIG. (A) (B) It is a perspective view of the building 1 which attached the solar power generation device which concerns on a prior art example.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Building 2 Roof 3 Solar cell panel 11 Solar power generation device 12 Solar cell panel body 13 Diffuse reflector 14 Holding arm 15 Panel member 16 Recessed part 17 Protruding part 18 Upper part 19 Arm support | pillar 20 Tip part 21 Lower part 22 Mounting part 23 Solar power generation apparatus 24 solar cell panel body 25 solar power generation device 26 solar cell panel body 27 solar power generation device 28 solar cell panel body 29 diffuse reflection plate 30 steel tower

Claims (4)

A solar cell panel body formed in a spherical shape, an ellipsoidal shape, a cylindrical shape, or a bulging box shape, a curved irregular reflection plate provided at a predetermined interval from the solar cell panel body, and the irregular reflection plate And a solar power generator comprising at least a holding arm for holding the solar cell panel body,
The solar cell panel body has a structure in which a large number of panel members are adjacent to each other on the surface and the adjacent panel members are directed in different directions. The solar power generation device according to claim 1, wherein the irregular reflection plate has a surface formed in an uneven shape and is subjected to mirror finishing. The solar power generation device according to claim 1, wherein the irregular reflection plate has a parabolic antenna shape. The photovoltaic power generation apparatus according to claim 1, wherein an attachment portion is provided at an end of the holding arm.

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