JP6028430B2 - Solar power generation unit - Google Patents

Description

  The present invention relates to a photovoltaic power generation unit.

From the viewpoint of energy saving, photovoltaic power generation (hereinafter, sometimes referred to as PV) is being introduced in buildings such as houses and buildings. In addition, in recent years, awareness of carbon dioxide emission reduction, CSR, and energy creation and energy storage has been increasing. , PV needs are expected to increase.
Patent Document 1 discloses that sunlight irradiated on a reflection panel is irradiated on a solar cell module through the reflection panel and the reflection plate.

JP 2011-80289 A

  Thus, in a place where sunlight is incident, electric power can be obtained by using the solar cell module. However, in a room where sunlight enters, heat accumulates in the upper part of the room in the summer, while condensation occurs due to the temperature difference in the winter. For these reasons, it is desirable to easily improve the indoor environment.

  This invention is made | formed in view of such a situation, and it aims at improving an indoor environment simply.

In order to achieve such an object, a solar power generation unit according to the present invention includes a solar cell module, a solar power generation member that forms a part of an exterior part, and a part of the exterior part together with the solar power generation member a glass member having a power is supplied from the solar module, comprising: a fluidic device unit for flowing the air at the surface of the glass member by the power, and a vent for performing intake and exhaust of the air, the The solar power generation member includes a first solar cell module, and includes a first solar power generation member having solar reflectivity, and a second solar power generation member including a second solar cell module, The reflected light that enters and reflects the light receiving surface of the photovoltaic power generation member is incident on the light receiving surface of the second photovoltaic power generation member .
As described above, the photovoltaic power generation unit having a glass member that forms a part of the exterior portion has a fluid device portion that allows air to flow and a vent hole that sucks and exhausts air. While the high temperature air around the member can be exhausted through the vent, the air around the glass member is circulated in winter, so that condensation can be prevented and the indoor environment can be improved. Furthermore, since the solar power generation unit has a solar cell module independently for operating the fluid device section, the indoor environment can be improved simply by attaching this solar power generation unit.
Moreover, while generating electric power with the solar cell module of a 1st photovoltaic power generation member, the incident light is reflected with respect to a 2nd photovoltaic power generation member. Further, when generating power with the solar cell module of the second solar power generation member, power generation can be performed not only with direct light but also with reflected light reflected by the first solar power generation member. For this reason, the power generation efficiency of the photovoltaic power generation unit can be increased.

Moreover, in the photovoltaic power generation unit according to the present invention, the vent includes an on-off valve,
The power from the solar cell module is supplied to the on-off valve.
By doing in this way, since opening and closing of a vent can be performed using the electric power from a solar cell module, indoor environment can be simply improved only by attaching this solar power generation unit.

Moreover, the solar power generation unit according to the present invention is characterized in that the flow device section is provided below the glass member.
As described above, since the flow device portion is provided on the lower side of the glass member, it can be operated in summer to send air upward and exhaust air through the vent. In winter, the flow device unit can be operated to flow the air in the vertical direction of the glass, thereby preventing condensation of the glass. Of course, a vent can also be provided in the vicinity of the flow device section.

In the solar power generation unit according to the present invention, the solar cell module is not electrically connected to a power supply facility outside the solar power generation unit.
Thus, since the solar cell module is not electrically connected to the power supply equipment outside the solar cell power generation unit, the solar power generation unit can construct an electrically self-contained and self-supporting system. That is, it is possible to provide a solar cell power generation unit that supplies power independently to the fluid device section.

  As described above, since the photovoltaic power generation unit having a glass member that forms a part of the exterior part has a fluid device part that flows air and a vent hole that sucks and exhausts air, While the high temperature air around the glass member can be exhausted through the vent, the air around the glass member is circulated in winter so that condensation can be prevented and the indoor environment can be improved. Furthermore, since the solar power generation unit has a solar cell module independently for operating the fluid device section, the indoor environment can be improved simply by attaching this solar power generation unit.

It is a front view of the photovoltaic power generation unit 10 in this embodiment. It is a cross-sectional view of the photovoltaic power generation unit 10 in the first embodiment.

  FIG. 1 is a front view of a photovoltaic power generation unit 10 in the first embodiment. FIG. 2 is a cross-sectional view of the photovoltaic power generation unit 10 in the first embodiment. In these drawings, a state in which a plurality of photovoltaic power generation units 10 are attached to the building 1 is shown. Here, it is assumed that a plurality of photovoltaic power generation units 10 are attached to a building 1 having a floor finish 42, a floor slab 44, a ceiling interior 46, and a ceiling 48. The photovoltaic power generation unit 10 in the present embodiment is desirably used in an exterior having a large glass area, such as a glass curtain wall (GCW).

  The photovoltaic power generation unit 10 includes an upper frame 20, a horizontal frame 21, a lower frame 22, a seamless (transom) 24, a span (dull) 26, a spandrel glass 12, a backboard 28, and a photovoltaic power generator 14 (hereinafter referred to as a solar power generator 14). A vision glass 16 and side fins 18. Further, the solar power generation unit 10 includes an on-off valve 34, a vent 36 and a fan 38.

  The upper frame 20, the horizontal frame 21, and the lower frame 22 are fixed to each other and constitute an outer frame of the photovoltaic power generation unit 10. And the spandrel glass 12, the solar power generator 14, the vision glass 16, and the side fin 18 are fixedly provided inside the outer frame. Note that the inclination of the solar power generator 14 can be adjusted.

  In the upper part of the photovoltaic power generation unit 10, the spandrel glass 12 and the backboard 28 are fixed so as to be sandwiched between the upper frame 20 and the mesh 24 in the vertical direction and sandwiched in the horizontal frame 21 in the horizontal direction. The position where the spandrel glass 12 is assembled is such that when the solar power generation unit 10 is installed in the building 1, the spandrel glass 12 overlaps the floor finish 42 part, the floor slab 44 part and the ceiling 46 in the building 1 in the horizontal direction. It is desirable to become. At this time, in the horizontal direction, the upper frame 20 also overlaps with the floor finishing 42 portion, and the invisible 24 is positioned so as to overlap a part of the ceiling with the ceiling.

  The spandrel glass 12 is provided with a photovoltaic power generation module 12a. A backboard 28 is provided on the back side of the spandrel glass 12.

  A photovoltaic power generator 14 is provided below the mesh 24 so as to project outward from the building 1. The solar power generator 14 includes a solar power generation module 14a and a tempered glass 14c having solar reflectivity. Thereby, since the optical path L of sunlight is as shown in FIG. 2, while generating electricity by sunlight, a part of sunlight is reflected on the photovoltaic module 12 a of the spandrel glass 12 and the spandrel glass 12 is reflected. In the solar power generation module 12a, power generation is performed efficiently. In addition, it is desirable to apply a hydrophilic glass coating agent to the tempered glass 14c on the light receiving surface of the solar power generator 14 in order to prevent contamination. Moreover, it is good also as having antifouling performance with the photocatalyst using a titanium oxide.

  The inclination angle of the solar power generator 14 is set to an angle at which the annual amount of sunlight is the largest. Further, the projected size of the solar power generator 14 is designed according to the strength calculation of the member and the required power generation amount. In addition, the sunlight receiving surface of the solar power generator 14 and the sunlight receiving surface of the spandrel glass 12 form an angle in the range of the minor angle (0 <θ <2π).

  The solar power generator 14 can be provided with a battery 14b, which can store electric power generated by the solar power generator module 12a in the spandrel glass 12 and the solar power generator module 14a in the solar power generator 14. it can.

  In addition, in this embodiment, the electrical system of the photovoltaic power generation module 12a in the spandrel glass 12 and the photovoltaic power generation module 14a in the photovoltaic power generator 14 may not be connected to the electrical facilities in the building 1. That is, the electric power obtained from the solar power generation modules 12a and 14a in the solar power generation unit 10 may not be linked to the external power system. Specifically, the solar power generation modules 12a and 14a may not be connected to cubicles or distribution boards. And the solar power generation unit 10 can also construct | assemble the self-contained and self-supporting type | system | group electrically within the range of an exterior part in itself or the inside of the solar power generation unit 10. FIG.

  In the present embodiment, the electric power generated by the photovoltaic power generation module is used as an open / close control for the open / close valve 34 for opening / closing the vent 36 and a power source for the fan 38. The vent 36 is provided between the spandrel glass 12 and the solar power generator 14. The vent 36 is a vent that penetrates the outside and inside of the building 1, and is opened and closed by an on-off valve 34. A vent hole can also be provided in the vicinity of the fan 38.

  A fan 38 is provided on the upper surface of the lower frame 22. That is, the fan 38 is provided below the vision glass 16. The fan 38 is arranged in a direction to send air upward in the building 1. Moreover, since it arrange | positions in the vicinity of the vision glass 16, the air of the surface vicinity of the vision glass 16 can be flowed by rotating the fan 38. FIG.

  In the summer, the above-described on-off valve 34 is opened, and the fan 38 is rotated so that the high-temperature air accumulated in the upper part of the building 1 can be discharged. Further, in winter, the on-off valve 34 is closed and the fan 38 is rotated so that air near the surface of the vision glass 16 can flow to prevent condensation.

  The vision glass 16 is assembled to the lower part of the photovoltaic power generation unit 10 so as to be sandwiched between the invisible 24 and the lower frame 22 in the vertical direction and sandwiched between the horizontal frame 21 in the horizontal direction. Further, side fins are attached to the horizontal frame 21 so as to substantially overlap the vision glass 16 in the horizontal direction.

  The vertical mullion span may be 1800 mm, 1600 mm, 1400 mm, 1200 mm, and 1000 mm. Thereby, the solar power generation unit 10 can be conformed to the standard, and the construction as a unit can be facilitated and the cost can be reduced. Further, as described above, since the solar cell module is independently provided from the outside in order to operate the fan 38, the indoor environment can be easily improved by simply attaching the solar power generation unit 10 to the building 1. be able to.

  Moreover, it is possible to provide a plurality of stages by increasing the inclination angle by making the solar power generator 14 into a louver shape so as not to impair the viewability and openness peculiar to the glass curtain wall.

  As described above, the photovoltaic power generation unit 10 having the vision glass 16 that forms a part of the exterior portion includes the fan 38 that allows air to flow and the air vent 36 that intakes and exhausts air. On the other hand, high-temperature air around the glass member can be exhausted through the vent 36. On the other hand, since air around the glass member is circulated in winter, condensation can be prevented and the indoor environment can be improved. Furthermore, since the solar power generation unit 10 has a solar cell module independently for operating the fan 38, the indoor environment can be improved simply by attaching the solar power generation unit 10. .

  In addition, the first solar power generation member generates power with the solar cell module and reflects incident light to the second solar power generation member. Further, when generating power with the solar cell module of the second solar power generation member, power generation can be performed not only with direct light but also with reflected light reflected by the first solar power generation member. For this reason, even if it is a case where a solar power generation unit is exterior-installed, power generation efficiency can be improved.

  In particular, an inexpensive solar cell module may easily reflect light. In this case, if a solar cell module that easily reflects light is provided in the solar power generation rod 14, the light is reflected to the solar cell module in the spandrel glass, and the solar cell module is installed at low cost, and the efficiency is improved. High power generation.

  Further, conventionally, when power is generated by a solar power generation module, there is a problem that the obtained electric power depends on the weather and the season and thus has to be unstable. For this reason, the power obtained from the photovoltaic power generation module is not used as an independent power supply, but is generally connected to a cubicle or distribution board and connected to the power system of the power company (system connection). It was the target. However, in such a method, since electricity generated at the exterior part of each floor of the building is connected to the grid, complicated wiring work is required, and labor and cost are high. In addition, since the length of the wiring is increased, there is a problem that the ratio of power loss is large.

  On the other hand, according to the present embodiment, since the system is electrically completed in the solar power generation unit 10, it is possible to reduce the labor of complicated electric wiring work and reduce the cost. In addition, when the photovoltaic power generation unit 10 according to the present embodiment is installed on the south side of the building, the solar power generation module can also serve as a part of the sunshade member that is essential for the glass curtain wall. There are advantages in terms of reduction and power generation efficiency.

  In addition, since the solar power generation module 14a is provided on the eaves, the inclination angle with the highest annual solar radiation in the area can be set as the installation angle of the solar power generation eaves 14, and the power generation efficiency is generally maintained high. At the same time, the direct sunlight incident from the vision glass 16 can be blocked, so that the energy saving effect can be enhanced.

  In addition, if the inclination angle of the solar power generator 14 is set to be the optimal amount of solar radiation in summer, the inclination angle may be too small to adversely affect rainwater / snow accumulation. Then, since the inclination angle of the photovoltaic power generator 14 can be set so that the optimum annual solar radiation amount is obtained, it is possible to prevent such an influence from occurring.

1 building, 10 solar power unit,
12 spandrel glass, 12a photovoltaic module (solar cell module),
14 Solar power plant,
14a solar power generation module (solar cell module), 14b battery,
14c tempered glass,
16 vision glass (glass member), 18 side fins,
20 upper frame, 21 horizontal frame, 22 lower frame,
24 transom, 26 mural,
28 Backboard,
34 On-off valve, 36 Vent, 38 Fan (flow device part),
42 floor finish, 44 floor slab, 46 in ceiling, 48 ceiling,
L Light path

Claims (4)

A solar power generation member comprising a solar cell module and forming a part of the exterior part;
A glass member that forms part of the exterior part together with the solar power generation member;
A power supply unit that is supplied with electric power from the solar module and causes the air on the surface of the glass member to flow with the electric power; and
A vent for performing intake and exhaust of the air;
Equipped with a,
The solar power generation member is:
A first solar power generation member comprising a first solar cell module and having solar reflectivity;
A second solar power generation member provided with a second solar cell module;
With
The reflected light that is incident on and reflected by the light receiving surface of the first solar power generation member is incident on the light receiving surface of the second solar power generation member . The photovoltaic power generation unit according to claim 1,
The vent includes an on-off valve;
The photovoltaic power generation unit, wherein power from the solar cell module is supplied to the on-off valve. The photovoltaic power generation unit according to claim 1 or 2,
The said flow apparatus part is provided in the downward side of the said glass member, The solar power generation unit characterized by the above-mentioned. A photovoltaic power generation unit according to any one of claims 1 to 3 ,
The solar cell module is not electrically connected to power supply equipment outside the solar power generation unit.

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