JP3724400B2 - roof - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a photovoltaic power generation panel configured by connecting a plurality of solar cell modules and a roof provided with a daylighting window, and more specifically, solar light configured by connecting a plurality of solar cell modules while forming a daylighting window. The present invention relates to a technique for increasing the degree of freedom of installation of the power generation panel and enhancing the appearance of the roof.
[0002]
[Prior art]
Conventionally, as shown in FIG. 9, a plurality of solar cell modules 1 are connected to each other in a roof provided with a solar power generation panel 2 and a daylighting window 8 formed by connecting a plurality of solar cell modules 1. When installing the photovoltaic power generation panel 2 on the roof, the degree of freedom of installing the photovoltaic power generation panel 2 is restricted by the daylighting window 8 provided on the roof, and the photovoltaic power generation panel covers a wide area of the roof surface. It was difficult to set up 2. In addition, it is difficult to enhance the appearance of the roof.
[0003]
[Problems to be solved by the invention]
The present invention has been made in view of such problems, can increase the degree of freedom of installation of a photovoltaic power generation panel configured by connecting a plurality of solar cell modules while forming a daylighting window, and It is an object of the present invention to provide a roof that can enhance the appearance of the roof.
[0004]
[Means for Solving the Problems]
The invention according to claim 1 is a roof provided with a solar power generation panel 2 and a daylighting window 8 formed by connecting a plurality of solar cell modules 1... 1 is provided with a daylighting panel 3 having a daylighting function, a daylighting window 8 is positioned below the daylighting panel 3, and the window glass 4 of the daylighting window 8 is held below the translucent glass 12 of the daylighting panel 3. A metal plate 7 for flame shielding is attached between the holding frame 5 and the solar cell module 1 in the peripheral portion . According to such a configuration, the daylighting window 8 is located below the daylighting panel 3 provided in place of the one solar cell module 1 of the photovoltaic power generation panel 2, and the daylighting window 8 is provided while the daylighting window 8 is provided on the roof. The solar power generation panel 2 can be installed without being restricted by 8, the solar power generation panel 2 can be easily installed over a wide area of the roof surface, and the solar power generation panel 2 and the daylighting window 8 Can be integrated to enhance the appearance of the roof.
Further, in the invention according to claim 1, a flame-shielding metal plate 7 exists on the periphery of the holding frame 5 that holds the window glass 4 below the translucent glass 12. The flame-shielding (fire resistance) of the peripheral part can be improved. Moreover, the metal plate 7 is covered with the light-transmitting glass 12 of the daylighting panel 3.
[0005]
The invention according to claim 2 is the drainage groove 6 for draining the condensed water condensed on the lower surface of the window glass 4 to the holding frame 5 holding the window glass 4 of the daylighting window 8 and flowing down to the roof side outside the holding frame 5. It is characterized by forming. According to such a configuration, the dew condensation water that condenses and flows down on the lower surface of the window glass 4 can be smoothly drained from the drain groove 6 formed in the holding frame 5 to the roof side. There is no need to enter the attic.
[0007]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below. 1A is a schematic perspective view, and FIG. 1B is a schematic cross-sectional view.
[0008]
The roof is provided with a solar power generation panel 2 and a daylighting window 8 formed by connecting a plurality of solar cell modules 1. The solar cell module 1 is configured by connecting a large number of solar cells, which are minimum units having a function of converting solar light energy into electric energy. A plurality of solar cell modules 1 are connected to form a photovoltaic power generation panel (array) 2. Reference numeral 24 is a roof tile.
[0009]
The roof of the present invention increases the degree of freedom of installation of the photovoltaic power generation panel 2 formed by connecting a plurality of solar cell modules 1 while forming the daylighting window 8, and also enhances the appearance of the roof. Details will be described below.
[0010]
As shown in FIGS. 1 to 3, for example, a water-side frame 9 made of an extruded product of aluminum is attached to the water-side (ridge side) of the solar cell module 1 with a packing 10 interposed therebetween. For example, an underwater frame 11 made of an aluminum extruded product is attached to the underwater side 1 (eave side). In addition, the water-side frame 9 is mounted on the water-side of the light-transmitting glass 12 of the daylighting panel 3 having the same dimensions as the solar cell module 1 with the packing 10 interposed therebetween. The underwater frame 11 is attached. Thus, the solar cell module 1 places the water-side frame 9 on the roof road plate 13 and fixes it with a fixture 14 such as a nail, and the water-side frame 11 of the water-side solar cell module 1 is Similarly, the underwater frame 11 of the daylighting panel 3 is placed and connected to the underwater side frame 9 of the underwater solar cell module 1. The water-side frame 11 of the water-side solar cell module 1 is placed on and connected to the water-side frame 9 of the panel 3. By the way, the thing of a various structure can be considered for the mutual connection form in the direction orthogonal to the building direction of the solar cell modules 1 ... and the lighting panel 3. FIG. In this way, the solar power generation panel 2 is configured by incorporating the daylighting panel 3 having the daylighting function in place of the one solar cell module 1 into the solar power generation panel 2. Such a daylighting panel 3 of the photovoltaic power generation panel 2 is incorporated in a position corresponding to the daylighting window 8 formed in advance on the roof.
[0011]
FIGS. 5 to 7 are explanatory views showing the construction of the daylighting window 8 and the procedure for constructing the daylighting panel 3 above the daylighting window 8. First, as shown in FIG. 5, an opening 15 is formed in a base plate 13 constructed as a base material, a reinforcing bar 16 is lined, and, for example, a lead plate 17 is attached to the peripheral portion of the opening 15 to perform roofing construction. Next, as shown in FIG. 6, the fixing bracket 18 and the support bar 19 are attached, a metal plate (steel plate) 7 for flame shielding is laid around the opening 15, and then the window block 20 is fixed by the screw tool 21. It is fixed. Then, the solar cell modules 1 are installed on the field board 13, and the daylighting panel 3 is constructed above the daylighting window 8 as shown in FIG.
[0012]
The solar power generation panel 2 is provided with a daylighting panel 3 having a daylighting function instead of the one solar cell module 1, and the daylighting window 8 is positioned below the daylighting panel 3. Is located below the daylighting panel 3 provided in place of one solar cell module 1 of the solar power generation panel 2, and is provided with the daylighting window 8 on the roof without being restricted by the daylighting window 8. 2 can be performed, the photovoltaic panel 2 can be easily constructed over a wide area of the roof, and the photovoltaic panel 2 and the lighting window 8 can be integrated to enhance the appearance of the roof. Can do it. In this case, a part of the window glass 4 is located below the base plate 13 so that the window glass 4 and the like do not hit the daylighting panel 3.
[0013]
The window block 20 of the daylighting window 8 has the holding frame 5 holding the window glass 4 attached to the upper part of the peripheral frame 25, and the mounting frame 26 integrated with the holding frame 5 is attached to the peripheral portion of the opening 15 of the field plate 13. It is placed on the base plate 13 so as to be above the reinforcing bar 16 and fixed with a screw 21.
[0014]
In the window block 20 of the daylighting window 8, the window glass 4 is formed as a so-called paired glass having a heat insulating multilayer structure by forming a space between the glass plates 22, 22. A drainage groove 6 is formed in the frame 5 for draining the condensed water that has condensed on the lower surface of the glass plate 22 below the window glass 4 to the outside roof side of the holding frame 5. Therefore, the dew condensation water that condenses and flows down on the lower surface of the window glass 4 can be smoothly drained from the drain groove 6 formed in the holding frame 5 to the roof side, and the dew condensation water of the window glass 4 enters the attic. The drained condensed water is guided to the flame shielding metal plate 7 side.
[0015]
By the way, a form in which the drainage groove 6 is formed in the holding frame 5 is set with a space between the holding frame 5 on the underwater side and the window glass 4 as shown in FIG. 1B and FIG. A form in which the block 23 is arranged and the drainage groove 6 is formed in the holding frame 5 of the extruded product of aluminum, or the drainage holes 6 are formed in the bottom plate 5a of the holding frame 5 having an L-shaped cross section as shown in FIG. There are various forms such as forming.
[0016]
Further, since a metal plate 7 for flame shielding is attached between the holding frame 5 holding the window glass 4 and the solar cell modules 1... The metal plate 7 for flame shielding exists in the peripheral part of the holding frame 5 holding the glass 4, and the flame shielding (fire resistance) property of the peripheral part of the lighting window 8 can be improved. In this case, one end of the metal plate 7 is laid between the window block 20 and the base plate 13, and the water-side frame 9, the water-side frame 11, and the side frame (not shown) of the outer-end solar cell module 1. I) It is extended and placed on top.
[0017]
【The invention's effect】
The invention according to claim 1 is a roof provided with a solar power generation panel configured by connecting a plurality of solar cell modules and a daylighting window, and has a daylighting function instead of the one solar cell module in the solar power generation panel. A lighting panel is provided , and a flame-shielding metal plate is provided between the holding frame holding the window glass of the daylighting window and the solar cell module in the periphery under the light-transmitting glass of the daylighting panel. Therefore, the daylighting window is positioned below the daylighting panel provided in place of one solar cell module of the solar power generation panel, and the daylighting panel is not restricted by the daylighting window while providing the daylighting window on the roof. The solar panel can be easily constructed over a wide area of the roof surface, and the solar panel and the lighting window can be integrated to enhance the appearance of the roof. There is an advantage in that.
Furthermore, in the invention according to claim 1, there is a metal plate for flame shielding in the peripheral part of the holding frame that holds the window glass below the translucent glass, and the peripheral part of the lighting window is shielded. There is an advantage that the flame (fire resistance) can be improved. Moreover, there is an advantage that the metal plate can be covered with the light-transmitting glass of the daylighting panel.
[0018]
In addition to the effect of the first aspect, the invention according to claim 2 drains the condensed water condensed on the lower surface of the window glass on the holding frame holding the window glass of the daylighting window and flows down to the roof side outside the holding frame. Since the drainage groove is formed, the dew condensation that condenses and flows down on the lower surface of the window glass can be smoothly drained to the roof side from the drainage groove formed on the holding frame, and the dew condensation water on the window glass is placed on the attic. There is an advantage that it is not necessary to intrude.
[Brief description of the drawings]
1A and 1B show an embodiment of the present invention, in which FIG. 1A is a schematic perspective view, and FIG.
FIG. 2 is a schematic perspective view of the above.
FIGS. 3A and 3B show another embodiment, in which FIG. 3A is a cross-sectional view in a direction along the building direction, FIG. 3B is a schematic perspective view of a holding frame, and FIG.
FIG. 4 is a cross-sectional view in a direction orthogonal to the building direction.
FIG. 5 is an explanatory view showing a construction procedure of the daylighting window.
FIG. 6 is an explanatory view showing a construction procedure of the daylighting window.
FIG. 7 is a perspective view showing the construction procedure of the daylighting window.
FIG. 8 is a perspective view of the holding frame on the underwater side of the above.
FIG. 9 is a schematic perspective view of a conventional example.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Solar cell module 2 Solar power generation panel 3 Daylighting panel 4 Window glass 5 Holding frame 6 Drain groove 7 Metal plate 8 Daylighting window

Claims (2)

A solar power generation panel constructed by connecting a plurality of solar cell modules and a roof provided with a daylighting window, the solar power generation panel is provided with a daylighting panel having a daylighting function instead of the one solar cell module, A lighting window is positioned below the daylighting panel, and a metal plate for flame shielding is provided between the holding frame holding the windowpane of the daylighting window and the peripheral solar cell module below the translucent glass of the daylighting panel. A roof characterized by being attached . 2. A drainage groove is formed in the holding frame for holding the window glass of the daylighting window for draining the condensed water condensed on the lower surface of the window glass to the roof side outside the holding frame. Roof.

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