JP4222596B2 - Visual information transmission method using photovoltaic panels - Google Patents

Description

[0001]
[Technical field to which the invention belongs]
The present invention relates to a visual information transmission method using a photovoltaic power generation panel in which a photovoltaic power generation panel is projected and irradiated with image light for information transmission.
[0002]
[Prior art]
As examples of visual information transmission methods at night, advertisements using neon signs, advertisements using large-screen TV images, communication, and the like have been frequently used.
[0003]
[Problems to be solved by the invention]
However, the above-described expression method using neon signs has a problem that it is insufficient to attract attention because it has a narrow preset range and little change.
[0004]
On the other hand, according to the video of the large-sized television described above, the above problem is solved, but there is a problem that the configuration is extremely complicated and expensive.
[0005]
In view of the above problems, a method of projecting an image by irradiating an image light onto the outer wall surface of a building or the surface of a flexible screen provided like a banner is conceivable.
[0006]
However, since the outer wall surface of the above-mentioned building is generally made of concrete or tiles and there is a window having transparent glass that simply transmits light, the image tends to become unclear when projected on the outer wall surface. . On the other hand, since the above-described flexible screen is wrinkled by its own weight and wind, even when projected on this screen, the image tends to be unclear. Therefore, in each of the above methods, it is difficult to get a sufficient eye.
[0007]
On the other hand, a solar power generation device that performs solar power generation includes a solar power generation panel that receives solar light during the day to generate solar power, and this device has been frequently used recently. However, since the solar power generation panel cannot sufficiently receive sunlight at night, the solar power generation panel is left unused effectively.
[0008]
The present invention has been made paying attention to the above-mentioned circumstances. When visual information is transmitted by video, the content of the transmission can be sufficiently caught and the transmission is made. It is an object of the present invention to be achieved with a simple configuration and at a low cost.
[0009]
[Means for Solving the Problems]
The visual information transmission method using the photovoltaic power generation panel of the present invention for solving the above-described problems is as follows. In addition, the code | symbol attached | subjected to each term in this term does not limit and interpret the technical scope of this invention to the content of the term of the following "embodiment of invention".
[0010]
The invention of claim 1 includes a metal electrode film, and generates a photovoltaic power by a flat and rigid photovoltaic power generation panel 3 supported by the structure 2 so as to receive sunlight 17. The image 26 is projected onto the electrode film of the photovoltaic power generation panel 3 by irradiating the light 26.
[0011]
In addition to the invention of claim 1, the invention of claim 2 uses power generated by solar power generation of the solar power generation panel 3 for irradiation of the video light 26.
[0012]
According to a third aspect of the present invention, in addition to the first or second aspect of the invention, the solar power generation panel is arranged such that the structure 2 constitutes a skeleton-side member of the structure 1 and is arranged along the outer surface of the structure 2. 3 is provided, and the solar panel 3 constitutes the outer shell of the building 1, and the image light 26 is irradiated from the outside (OUT) of the building 1 toward the solar panel 3 group. It is what you do.
[0013]
In addition to the invention of claim 1 or 2, the invention of claim 4 constitutes the skeleton-side member of the building 1 in addition to the structure 2 while the solar power generation panel 3 is arranged along the outer surface of the structure 2. This solar power generation panel 3 constitutes the outer shell of the building 1, and the solar power generation panel is made translucent to the solar power generation panel 3 from the inside (IN) of the building 1 The light 26 is irradiated.
[0014]
According to a fifth aspect of the present invention, in addition to the fourth aspect of the present invention, the solar power generation panel is configured such that at least one of slits and minute holes is formed innumerably in the electrode film 24 of the solar power generation panel 3. The panel 3 is made translucent .
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0016]
In the figure, reference numeral 1 is a building 1, and this building 1 is provided with a structure 2 constituting the skeleton side member, and a plurality of buildings 1 arranged along the outer surface of the structure 2, and the outer shell of the building 1. Bei the solar panels 3 forming the, each of these solar panels 3 and support 4 to be supported by the construct 2 Eteiru.
[0017]
The structure 2 is formed by partitioning a plurality of columns 7 erected on the ground, a plurality of beams 8 supported by these columns 7, and an indoor chamber 9 on each floor supported by these beams 8. The floor board 10 to be provided.
[0018]
Each of the solar power generation panels 3 is a flat and rigid rectangular plate having the same shape and the same size and extending in the vertical direction and the horizontal direction. And these each photovoltaic power generation panel 3 is arrange | positioned so that it may be located in a grid pattern along said each direction.
[0019]
The support 4 is configured by a sash 12 that extends along the outer edge of each photovoltaic power generation panel 3 and supports the outer edge on the beam 8 of the structure 2. The sash 12 is supported by the structure 2 and seen from the cross-section of each part in the longitudinal direction (FIG. 2 ). The indoor side member 13 joined to the inner surface of the outer edge part of the panel 3, and the outdoor side member 14 joined to the outer surface of the photovoltaic power generation panel 3 and connected to the indoor side member 13, the indoor side member 13 The cross-sectional shape of each part is an equilateral triangle projecting inward (IN) of the building 1.
[0020]
Each solar power generation panel 3 is supported by the structure 2 so as to receive sunlight 17 from outside (OUT) of the building 1, and the light energy of the sunlight 17 is converted into electric energy. By changing to, solar power generation is performed. A battery 18 that stores electric power generated by this power generation is provided inward (IN) of the building 1, and the solar power generation panel 3 and the battery 18 constitute a solar power generation device 19.
[0021]
In FIG. 3, each of the solar power generation panels 3 includes a pair of colorless or translucent glass substrates 21 and 21 facing each other, and a silicon film 22 interposed between the glass substrates 21 and 21 to generate the power. The transparent electrode film 23 made of metal such as zinc oxide interposed between the silicon film 22 and the glass substrate 21 on the outer side (OUT) of the two glass substrates 21 and 21, and the silicon film 22 And an electrode film 24 similar to the above, interposed between the glass substrate 21 on the inner side (IN) side, and these are firmly fixed and integrated with each other while being in surface contact with each other. Yes. Moreover, the said photovoltaic power generation panel 3 is made into the semi-transparent body as a whole.
[0022]
As shown by the solid line in FIGS. 1 and 3, the image light 26 for information transmission is irradiated from the outside (OUT) of the building 1 toward the group 3 of the photovoltaic power generation panels, and the image 27 is displayed on each sun. A projector 28 for projecting on the photovoltaic panel 3 is provided. The power stored in the battery 18 by the solar power generation of each of the solar power generation panels 3 is used for a part or all of the power for irradiation of the image light 26 by the projector 28. That is, the electric power generated by the solar power generation of the solar power generation panel 3 is directly used for the irradiation of the image light 26.
[0023]
According to the above configuration, the flat and rigid photovoltaic power generation panel supported by the structure 2 so as to receive the sunlight 17 is used for photovoltaic power generation, while the image light 26 for information transmission is irradiated and the image 27 is displayed. The solar power generation panel 3 is projected.
[0024]
Here, various kinds of images 27 can be prepared in advance. Further, the solar power generation panel 3 is flat and rigid, and the solar power generation panel 3 has a metal film inside to output the generated power. When the image light 26 is projected onto the screen 3 and the image 27 is projected, at least the image light 26 is irradiated between the irradiation side of the image light 26 with respect to the photovoltaic power generation panel 3 and the opposite side. When viewed from the side, as shown by a solid line in FIGS. 1 and 2, a clear image 27 is obtained by the reflected light of the image light 26 with respect to the solar power generation panel 3.
[0025]
Moreover, since the said photovoltaic power generation panel 3 is translucent, when it sees from the opposite side to the irradiation side of the said image light 26, as shown with the dashed-dotted line in each figure, the said image | video with respect to the said photovoltaic power generation panel 3 With the transmitted light of the light 26, a clear image 27 is obtained.
[0026]
Therefore, according to the above configuration, when visual information is transmitted, the content of the transmission can be changed in various ways, and the video 27 can be made clear, so that the eye can be sufficiently attracted.
[0027]
Moreover, since the above-mentioned transmission of information can use the photovoltaic power generation panel 3 that is not used at night when performing photovoltaic power generation, according to this utilization, the transmission of the above information is performed by the photovoltaic power generation panel 3. It is achieved with a simple configuration and at a low cost without affecting the photovoltaic power generation.
[0028]
Further, as described above, the electric power generated by the solar power generation of the solar power generation panel 3 is used for the irradiation of the image light 26 by the projector 28.
[0029]
For this reason, since the electric power generated by the solar power generation panel 3 during the day is used for projection by the solar power generation panel 3 at night, this information is not required for the transmission of information. Is achieved at low cost.
[0030]
Moreover, as shown by the solid line in FIGS. 1 and 3, while the structure 2 constitutes the skeleton side member of the building 1, a plurality of the photovoltaic panels 3 are provided so as to be aligned along the outer surface of the structure 2, The solar power generation panel 3 constitutes the outer shell of the building 1, and the image light 26 is irradiated from the outside (OUT) of the building 1 toward the solar power generation panel 3 group.
[0031]
For this reason, the image 27 projected by the solar power generation panel 3 group can be enlarged according to the total area of the outer surface of the solar power generation panel 3 group. Furthermore, it can be pulled sufficiently.
[0032]
As shown by the one-dot chain line in each figure, a projector 28 is installed in the indoor room 9 of the building 1, and the image light 26 is irradiated from the inside (IN) of the building 1 toward the photovoltaic power generation panel 3. It has come to be.
[0033]
For this reason, the projector 28 that irradiates the image light 26 has an advantage that the projector 28 is protected by the building 1 and can be easily managed in terms of maintenance, inspection, waterproofing, crime prevention, and the like.
[0034]
In addition, when the image 27 on the photovoltaic power generation panel 3 is viewed from the outside (OUT) of the building 1, the light source of the image light 26 is difficult to see directly from the outside (OUT) of the building 1. Accordingly, the line of sight is easily concentrated on the image 27 on the photovoltaic power generation panel 3. Therefore, according to this information transmission, it is possible to attract more attention. In this case, the image 27 on the solar power generation panel 3 can also be viewed from the inside (IN) of the building 1.
[0035]
Further, as described above, the sash 12 extending along the outer edge portion of the photovoltaic power generation panel 3 and supporting the outer edge portion on the structure 2 is provided, and the section of each portion in the longitudinal direction of the sash 12 is viewed (FIG. 2). The cross-sectional shape of the indoor side member 13 of the sash 12 protruding inward of the building 1 from the solar power generation panel 3 side is a tapered shape toward the inward side.
[0036]
Here, as described above, when the image light 26 is irradiated from the inside (IN) of the building 1 toward the photovoltaic power generation panel 3, the outside of the building 1 is transmitted through the photovoltaic power generation panel 3. Part of the image light 26 directed to (OUT) is blocked by the sash 12 and becomes a shadow 31, and this shadow 31 appears in the image 27 projected on the solar power generation panel 3.
[0037]
However, as described above, since the indoor side member 13 of the sash 12 is tapered toward the inside (IN), the shadow 31 generated in this case temporarily assumes the indoor side member 13 in FIG. As shown by a two-dot chain line, the area can be reduced compared to the shadow 32 generated when the rectangle is simply rectangular.
[0038]
Therefore, the image 27 can be made clear by the amount that the area of the shadow 31 can be reduced, and the eye can be drawn sufficiently.
[0039]
Further, the cross-sectional shape of each part of the indoor side member 13 is an equilateral triangular shape that protrudes inward (IN) of the building 1.
[0040]
For this reason, the indoor side member 13 has an advantage that there is no right and left directivity in the direction along the solar power generation panel 3 in terms of reducing the area of the shadow 31 and the strength.
[0041]
In addition, although the above is based on the example of illustration, the structure 2 may be a support frame only for supporting the said photovoltaic power generation panel 3, and the completed building 1 itself may be sufficient as it. Further, the respective photovoltaic power generation panels 3 may not be the same shape and size, and may be a triangular plate, a trapezoidal plate, a circular plate or the like, or a combination thereof. Moreover, the said photovoltaic power generation panel 3 may be extended in a horizontal or inclination direction. Further, the electrode film 24 of the solar power generation panel 3 may be a film made of metal such as opaque aluminum, but an infinite number of slits and minute holes are formed in the film so as to be translucent as a whole. Also good.
[0042]
Furthermore, the irradiation of the image light 26 toward the solar power generation panel 3 may be during the daytime, and the irradiation from the outside (OUT) and the inside (IN) of the building 1 May be performed alternately over time or simultaneously. Further, the cross-sectional shape of each part of the indoor side member 13 may be a right triangle shape or a regular trapezoid shape.
[0043]
Further, the power generated by the solar power generation of the solar power generation panel 3 is grid-connected to the power company via the inverter, that is, the power generated by the power generation is once sold to the power company, while the video light 26 It is also possible to purchase electric power for the irradiation of the image light from the electric power company and indirectly use the electric power generated by the solar power generation of the solar power generation panel 3 for the irradiation of the video light 26.
[0044]
【The invention's effect】
The effects of the present invention are as follows.
[0045]
The invention of claim 1 is provided with a metal electrode film, and solar power is generated by a flat and rigid solar power generation panel supported by the structure so as to receive sunlight, while image light for information transmission is irradiated. Then, the image is projected on the electrode film of the photovoltaic power generation panel.
[0046]
Here, various kinds of images can be prepared in advance. In addition, the photovoltaic power generation panel is flat and rigid, and the photovoltaic power generation panel has a metal electrode film inside to generate the generated power. When image light is projected onto the electrode film of the panel and the image is projected, at least from the image light irradiation side of the image light irradiation side with respect to the photovoltaic power generation panel and the opposite side When viewed, a clear image is obtained by the reflected light of the image light with respect to the electrode film of the photovoltaic power generation panel.
[0047]
Further, if the photovoltaic power generation panel is translucent, a clear image can be obtained by the transmitted light of the imaging light with respect to the photovoltaic power generation panel even when viewed from the side opposite to the irradiation side of the imaging light. It becomes.
[0048]
Therefore, according to the above configuration, when visual information is transmitted, the content of the transmission can be changed variously and the video can be made clear, so that the eye can be sufficiently attracted.
[0049]
Moreover, since the transmission of the information described above can use a solar power generation panel that is not used at night when performing solar power generation, according to this use, the transmission of the information is performed by the solar power generation panel. It is achieved with a simple configuration and at a low cost without affecting the photovoltaic power generation.
[0050]
According to a second aspect of the present invention, the electric power generated by the photovoltaic power generation of the photovoltaic power generation panel is used for the irradiation of the image light.
[0051]
For this reason, since the electric power generated by the solar power generation panel during the day is used for projection by the solar power generation panel at night, the transmission of this information is not required for the transmission of information. Is achieved inexpensively.
[0052]
In the invention of claim 3, the structure constitutes a skeleton side member of the building, while a plurality of the photovoltaic power generation panels are provided so as to be arranged along the outer surface of the structure, An outer shell is formed, and image light is irradiated from the outside of the building toward the photovoltaic power generation panel group.
[0053]
For this reason, the image projected by the photovoltaic power generation panel group can be enlarged according to the entire area of the outer surface of the photovoltaic power generation panel group. Can be drawn.
[0054]
In the invention of claim 4, the structure constitutes a skeleton side member of the building, while the solar power generation panel is provided along the outer surface of the structure, and the outer shell of the building is constituted by the solar power generation panel. The solar power generation panel is made translucent, and image light is irradiated from the inside of the building toward the solar power generation panel.
[0055]
For this reason, the projector that emits the image light has an advantage that the projector is protected by the building and can be easily managed in terms of maintenance, inspection, waterproofing, crime prevention, and the like.
[0056]
In addition, when viewing the image on the photovoltaic power generation panel from the outside of the building, the image light source is difficult to see directly from the outside of the building. The line of sight is easily concentrated. Therefore, according to this information transmission, it is possible to attract more attention. In this case, the video on the solar power generation panel can also be viewed from the inside of the building .
[Brief description of the drawings]
FIG. 1 is a partially cutaway perspective view of a building.
FIG. 2 is a partial plan sectional view of what is shown in FIG.
3 is a partially enlarged cross-sectional view of FIG.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Building 2 Structure 3 Solar power generation panel 4 Support 12 Sash 13 Indoor side member 14 Outdoor side member 17 Sunlight 18 Battery 19 Solar power generation device 26 Image light 27 Image 28 Projector 31 Shadow IN Inner OUT OUT

Claims (5)

Solar power is generated by a flat and rigid solar power generation panel that is provided with a metal electrode film and is supported by a structure so as to receive sunlight, while irradiating video light for information transmission and A visual information transmission method using a photovoltaic power generation panel projected on the electrode film of a photovoltaic power generation panel.   The visual information transmission method using the solar power generation panel according to claim 1, wherein electric power generated by the solar power generation of the solar power generation panel is used for irradiation of the image light.   While the structure constitutes a skeleton side member of the building, a plurality of the photovoltaic power generation panels are provided so as to be arranged along the outer surface of the structure, and the outer shell of the building is constituted by these photovoltaic power generation panels. The visual information transmission method using the solar power generation panel according to claim 1 or 2, wherein image light is irradiated from the outside of the building toward the solar power generation panel group.   While the said structure comprises the frame | skeleton side member of a building, the said photovoltaic power generation panel is provided so that the outer surface of the said structure may be followed, and the outer shell of the said building is comprised with this photovoltaic power generation panel, The said photovoltaic power generation panel A method for visually transmitting information using a solar power generation panel according to claim 1 or 2, wherein image light is irradiated from the inside of the building toward the solar power generation panel as being translucent. 5. The photovoltaic power generation according to claim 4, wherein the photovoltaic power generation panel is made translucent by forming innumerable at least one of slits and micropores in the electrode film of the photovoltaic power generation panel. Visual information transmission method using panels.

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