JP3813436B2 - Window structure - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a window structure having a daylighting function.
[0002]
[Prior art]
A solar cell module having a daylighting function is used for a window material or a skylight material.
[0003]
FIG. 6 is a longitudinal sectional view showing a configuration of a conventional solar cell module having a daylighting function.
[0004]
In the figure, reference numeral 20 denotes a solar cell element, and the interval between the solar cell elements 20, 20,... They are spaced apart. The area of the translucent portions 23, 23,... Is determined in consideration of the required light quantity.
[0005]
The solar cell elements 20, 20,... Are connected in series or in parallel using wiring 7 so that they can be connected to a terminal box that takes out the electric power generated by the solar cell elements 20, 20,. It is connected.
[0006]
The connected solar cell elements 20, 20,... Are sandwiched between translucent synthetic resins 3 (for example, EVA resin sheets), and the outer side of the translucent plate 1 using translucent tempered glass material. It is sandwiched between the translucent plate 1 and the translucent film 4 using a transparent plastic film on the power generation possible side, subjected to thermocompression bonding, and the synthetic resin 3 is cross-linked and cured to be integrated. The periphery of the film 4 is fitted into a frame 5 using aluminum to form a solar cell module.
[0007]
When the solar cell module as described above is used as a window material, the translucent plate 1 side is used in a vertical orientation with the sunlight 8 facing it. At this time, the solar cell elements 20, 20,... Use the solar light 8 for power generation and block it, but the translucent plate 1 and the translucent film 4 transmit the solar light 8 almost without being attenuated. It is possible to perform daylighting from the translucent portions 23, 23,.
[0008]
[Problems to be solved by the invention]
However, since the conventional solar cell module having the daylighting function is provided with the light transmitting parts 23, 23,..., The ratio of the area of the solar cell elements 20, 20,. The power generation efficiency is low.
[0009]
The present invention has been made to solve such a problem, and by installing two solar cell element groups in a sliding door shape, the positional relationship between the solar cell element group and the solar cell element group is adjusted. An object is to provide a window structure in which the amount of light collected can be adjusted.
[0010]
[Means for Solving the Problems]
The window structure according to the present invention includes a solar cell element group in which a plurality of double-sided power generation type solar cell elements are arranged in a plane with a translucent part therebetween, and at least one surface of the solar cell element is used for power generation. The solar cell element group that is a contributing solar cell element is used, the power generation possible side of the two solar cell element groups is directed to the same surface side, and the solar cell element of one of the solar cell element groups is directed to the other solar cell The two solar cell element groups are arranged in a sliding door shape in a position corresponding to the light-transmitting portion of the battery element group.
[0011]
In the present invention, it can be used as a window that can be opened and closed by relative movement, and the positional relationship between the solar cell element and the translucent part can be adjusted, so that the amount of light can be adjusted.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described in detail with reference to the drawings illustrating embodiments thereof.
Reference Embodiment Figure 1 is a plan view showing a configuration of a solar cell module according to a reference embodiment of the present invention, FIG. 2 is a sectional view taken along line IV-IV of FIG.
[0013]
In the figure, reference numeral 2 denotes a rectangular double-sided power generation type solar cell element (for example, a HIT solar cell element). Several to several tens of solar cell elements 2, 2,. Are arranged in a row to form solar cell element rows 2a, 2a,..., And a plurality of solar cell element rows 2a, 2a,. The intervals are arranged in a plane in the vertical direction to form a rectangular solar cell element group 20a as a whole.
[0014]
The solar cell element group 20a is laminated using a translucent synthetic resin 3 between a rectangular translucent plate 1 and a translucent film 4 having the same shape and the same area as the translucent plate 1. The translucent portions 21, 21,... Are formed of the synthetic resin 3 between the solar cell element row 2a and the solar cell element row 2a.
[0015]
Similarly, the solar cell elements 2, 2,... Are approached and arranged in a row in a horizontal direction to form solar cell element rows 2b, 2b,..., And a plurality of solar cell element rows 2b, 2b. ,... Are arranged side by side in a plane with the intervals between the translucent portions 22, 22,... In the vertical direction to form a rectangular solar cell element group 20 b as a whole. A synthetic resin 3 is laminated between the film 4 and the film 4. The translucent portions 22, 22,... Are formed of the synthetic resin 3 between the solar cell element row 2b and the solar cell element row 2b.
[0016]
The longitudinal lengths of the light transmitting parts 21, 21, ... and the light transmitting parts 22, 22, ... are respectively the solar cell element rows 2b, 2b, ... and the solar cell element rows 2a, 2a, ...・ It is provided to be longer than the length in the vertical direction.
[0017]
The frame 5 using aluminum has a peripheral portion of the light transmitting plate 1 and the light transmitting film 4 of the solar cell element group 20a or the solar cell element group 20b between the solar cell element group 20a and the solar cell element group 20b. It is provided with a part to be fitted at an appropriate distance.
[0018]
In the solar cell module, the solar cell element groups 20a and 20b are arranged so that the respective transparent films 4 of the solar cell element groups 20a and 20b face each other, and the solar cell element rows 2a, 2a,. Are overlapped with the solar cell element rows 2b, 2b,... And the light transmitting portions 21, 21,. At this time, air is sealed between the translucent films 4 of the solar cell element groups 20a and 20b to form the heat insulating layer 51.
[0019]
The solar cell element rows 2a, 2a,... And the solar cell element rows 2b, 2b,... Are connected in series or in parallel using wiring 7 (for example, a copper plate conductor for soldering plated on a copper plate), respectively. Are connected to terminal boxes 9 for taking out the electric power generated by the solar cell elements 2, 2,...
[0020]
When the solar cell module as described above is used as a window material, the solar cell element group 20a side is used toward the solar rays 8.
[0021]
In this case, the solar cell module to improve the power generation efficiency, can be effectively utilized lighting function.
[0022]
In addition, the translucent portions 21, 21,... And the translucent portions 22, 22,... Overlap with the solar cell element rows 2 b, 2 b,. However, since the translucent part 21 and the translucent part 22 are larger in the vertical direction than the solar cell element array 2b and the solar cell element array 2a, respectively, the translucent parts 21, 21,. , 22,..., And the amount of direct light is increased, and the outside can be seen through from the indoor side.
[0023]
In addition, the solar cell module is excellent in heat insulation due to the heat insulation effect of the heat insulation layer 51, and also excellent in sound insulation.
[0024]
In addition, when the distance between the solar cell element group 20a and the solar cell element group 20b is increased, the solar cell module becomes thick, but the light transmissive portions 22, 21,. The amount of sunlight 8 that passes through 22,... Increases, the amount of direct light collected increases, and is reflected by the surface of the solar cell element rows 2 b, 2 b,. ,...,... Increase in the amount of sunlight 8 incident on the back surface, thereby increasing the amount of power generation and reflecting on the back surface of the solar cell element arrays 2a, 2a,. The amount of sunlight 8 that passes through increases, and the amount of indirect light collected increases. Furthermore, since the amount of air sealed in the heat insulating layer 51 is increased, the heat insulating effect and the sound insulating effect are also enhanced.
[0025]
The solar cell module may be used as a fitting window, or as a window that can be opened and closed by swinging as in the first embodiment.
The Embodiment FIG. 3, a plan view showing a structure of a window structure according to the embodiment of the present invention, FIG. 4 is a sectional view taken along line VI-VI of FIG 3, FIG 5 is a VII -VII line in FIG. 3 FIG.
[0026]
In the reference form described above, the solar cell element groups 20a and 20b sandwiched between the translucent plate 1 and the translucent film 4 are fixedly integrated with the frame body 5, but in the window structure of the third embodiment, The solar cell element group 20a and the solar cell element group 20b are fitted into the frame body 50 and attached to the window frame 6 in the shape of sliding doors.
[0027]
Wheel portions 5b, 5b,... For assisting reciprocal movement on the rail portions 6b, 6b are provided at both ends in the vertical direction of each frame 50, and overlap the solar cell element group 20a or the solar cell element group 20b. In consideration of friction and the like, a plurality of them are attached.
[0028]
The window frame 6 includes two sets of rail portions 6b and 6b for movably attaching the frame body 50 to both inner surface portions in the vertical direction with an appropriate distance in the depth direction. The rail portions 6b, 6b,... Are each provided with the same length as the horizontal inner method of the window frame 6.
[0029]
In the solar cell module, the solar cell element group 20a is placed on the rail portions 6b, 6b,... So that the translucent film 4 of the solar cell element group 20a and the translucent plate 1 of the solar cell element group 20b face each other. , And the wheel portions 5b, 5b,... Of the solar cell element group 20b.
[0030]
In addition, the same parts as those in the reference embodiment are denoted by the same reference numerals, and the description thereof is omitted.
[0031]
In the window structure as described above, the light-transmitting plate 1 of the solar cell element group 20a is directed toward the sunlight rays 8, and the solar cell element group 20a or the solar cell element group 20b is appropriately moved in the same manner as the sliding door window. Used.
[0032]
The window structure can be opened and closed like a sliding door. When the window is closed, the sunlight 8 is incident on the surfaces of the solar cell element rows 2a, 2a,... And the solar cell element rows 2b, 2b,. At this time, since the solar cell element group 20a and the solar cell element group 20b do not overlap, the sunlight 8 that has passed through the light transmitting portions 21, 21,... Is shielded by the solar cell element rows 2b, 2b,. , And the solar cell element arrays 2a, 2a,... Do not shield the light transmitting portions 22, 22,. Can be increased.
[0033]
In addition, when the window is opened, the solar cell element group 20a and the solar cell element group 20b overlap, but the solar cell element row 2a overlaps with the translucent portion 22 and the solar cell element row 2b overlaps with the translucent portion 21. Therefore, like the reference embodiment , the solar cell module can improve power generation efficiency and have a daylighting function.
[0034]
【The invention's effect】
According to the window structure of the present invention, the solar cell module can be used as a window that can be opened and closed by swinging by installing the solar cell module so as to swing, and the first solar cell element group and the second solar cell element. The power generation efficiency can be improved and the amount of light collected can be adjusted by adjusting the angular relationship between the group and the sunlight.
[0035]
Furthermore, according to the window structure of the present invention, by installing the two solar cell element groups in a sliding door shape, it can be used as a window that can be opened and closed by relative movement, and the solar cell element and the translucent part can be used. The present invention has an excellent effect that the positional relationship can be adjusted and the amount of light collected can be adjusted.
[Brief description of the drawings]
FIG. 1 is a plan view showing a configuration of a solar cell module according to a reference embodiment of the present invention.
2 is a sectional view taken along line IV-IV of FIG.
FIG. 3 is a plan view showing a configuration of a window structure according to the embodiment of the present invention.
4 is a sectional view taken along line VI-VI of FIG.
5 is a cross-sectional view of a VII -VII line in FIG.
FIG. 6 is a longitudinal sectional view showing a configuration of a conventional solar cell module having a daylighting function.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 2 Solar cell element 2a Solar cell element row | line | column 21 Translucent part 2b Solar cell element row | line | column 22 Translucent part 20a Solar cell element group 20b Solar cell element group 5a Rotating shaft 5b Wheel part 51 Heat insulation layer 6b Rail part

Claims (1)

  A solar cell element group in which a plurality of double-sided power generation type solar cell elements are arranged in a plane across a light-transmitting portion, and the solar cell element is a solar cell element in which at least one surface contributes to power generation Using the battery element group, the power generation possible side of the two solar cell element groups is directed to the same surface side, and the solar cell element of one of the solar cell element groups is used as the light transmitting portion of the other solar cell element group. A window structure characterized in that the two groups of solar cell elements are arranged in a sliding door shape in a corresponding position.

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