WO2021229677A1

WO2021229677A1 - Water droplet reception member

Info

Publication number: WO2021229677A1
Application number: PCT/JP2020/018949
Authority: WO
Inventors: 正浩有木; 正樹竹山; 祥一丸山
Original assignee: ネクストエナジー・アンド・リソース株式会社
Priority date: 2020-05-12
Filing date: 2020-05-12
Publication date: 2021-11-18

Abstract

A water droplet reception member 1 according to the present invention is to be attached to a frame F of a solar panel P and comprises: an attachment part 10 that attaches by engagement to the frame F of the solar panel P; a water reception part 20 that is disposed so as to face the solar panel P side when attached to the solar panel P by the attachment part 10, and that receives water that drips from the solar panel P; and a drainage part 30 that causes the water received in the water reception part 20 to drip to the outside in a dispersed manner. The water droplet reception member 1 can be easily attached to the solar panel P simply by attachment by engagement of the attachment part 10 to the frame F of the solar panel P, and is capable of first catching, with the water reception part 20, water (rainwater) that drips in a concentrated manner from the solar panel P, and then causing the water to drip to the outside from the drainage part 30 in a dispersed manner. This makes it possible to prevent rust on metal roofing material caused by installation of solar panels thereon.

Description

Water drop receiving member

The present invention relates to a water droplet receiving member used by being attached to a frame of a photovoltaic power generation panel that photoelectrically converts sunlight.

Solar power generation panels are placed on vacant lots such as mountains and abandoned cultivated land and idle land, and are often installed on the rooftops of buildings and roofs of houses. For example, as a method of installing a photovoltaic power generation panel on a flat roof such as the roof of a building, a method of fixing a support stand to the surface of the flat roof with an anchor or the like and attaching the photovoltaic power generation panel to the support mount using a mounting bracket is generally used. It is a target. Further, when the photovoltaic power generation panel is installed on a roof other than the flat roof, the photovoltaic power generation panel is attached to the roof via a support pedestal or a support member attached to the roof material.

If the photovoltaic power generation panel is attached to the roof, when it rains, the rain that has fallen on the photovoltaic power generation panel flows on the surface of the panel and falls over the frame to the surface of the roofing material. Rainwater tends to drip intensively from the corners of the frame to a specific part of the roofing material surface, and if the roofing material is a metal folded plate, rust may occur at that specific part. Not a few. In order to prevent the metal roof from being rusted in this way, for example, in Patent Document 1, a rust preventive protective layer is provided on the installation surface of the photovoltaic power generation panel of the metal roofing material fixed on the roof. Is disclosed. Further, Patent Document 2 discloses a technique of partially covering a position under water of a metal roof surface with a metal having a higher ionization tendency than that of a metal roof.

Japanese Unexamined Patent Publication No. 2017-048676 JP-A-2017-186748

By the way, in the method of applying the rust preventive treatment to the roof material side as described in Patent Documents 1 and 2, it is often necessary to perform the work before attaching the support frame to the flat roof, and the photovoltaic power generation panel has already been installed. There was a problem that it was difficult to adopt it in the building that has been built. In addition, when installing a photovoltaic power generation panel on a flat roof, a so-called roof rental mechanism is often used, in which the owner of the building or the like rents the place to install the photovoltaic power generation panel to the installer of the photovoltaic power generation panel. There are also circumstances in which we do not want to process or process the side.

The present invention has been made based on the above circumstances, and an object of the present invention is to provide a water droplet receiving member that can prevent rust of a metal roofing material caused by installation of a photovoltaic power generation panel and can be easily attached to the photovoltaic power generation panel. And.

In order to solve the above problems, the present invention is a water droplet receiving member attached to the frame of the photovoltaic power generation panel, the attachment portion engaged with the frame of the photovoltaic power generation panel, and the sun by the attachment portion. In the state of being attached to the photovoltaic power generation panel, it is arranged facing the photovoltaic power generation panel side, and the water receiving portion that receives the water dripping from the photovoltaic power generation panel and the water received by the water receiving portion are dispersed. Provided is a water drop receiving member including a drainage portion for dropping to the outside (Invention 1).

According to the present invention (Invention 1), the mounting portion can be easily attached to the photovoltaic power generation panel simply by engaging the mounting portion with the frame of the photovoltaic power generation panel, and water (drip intensively) from the photovoltaic power generation panel ( (Rainwater) can be once received by the water receiving section, and water can be dispersed and dropped to the outside from the discharging section, so that rusting of the metal roofing material caused by the installation of the photovoltaic power generation panel can be prevented. Such a water droplet receiving member can be easily attached to an existing solar power generation panel, and there is no need to perform any processing or treatment on the roof material side.

In the above invention (invention 1), it is preferable that the water receiving portion is formed in a dish shape (invention 2).

According to the present invention (Invention 2), water (rainwater) intensively dropped from the photovoltaic power generation panel can be temporarily stored in the dish-shaped water receiving portion, so that water is dropped from the drainage portion to the outside. This can be distributed more easily and efficiently.

In the above inventions (Inventions 1 and 2), it is preferable that the mounting portion is formed in a clip shape capable of sandwiching the frame of the photovoltaic power generation panel (Invention 3).

According to the present invention (Invention 3), since the frame of the photovoltaic power generation panel can be sandwiched between the clip-shaped mounting portions, it is easier to mount the water droplet receiving member on the photovoltaic power generation panel. Become.

In the above invention (Invention 1-3), the drainage portion may have a plurality of drainage grooves provided so as to communicate with the outside from the water receiving portion (Invention 4), and the drainage portion may be provided. The portion may have a plurality of discharge holes provided so as to penetrate from the water receiving portion to the outside (Invention 5).

The water droplet receiving member of the present invention can be easily attached to the photovoltaic power generation panel, and rusting of the metal roofing material caused by the installation of the photovoltaic power generation panel can be prevented.

It is a schematic diagram which shows the water drop receiving member which concerns on one Embodiment of this invention. It is explanatory drawing which shows the state which attached the water drop receiving member which concerns on the same embodiment to a photovoltaic power generation panel. It is a schematic diagram which shows the 1st modification of the water drop receiving member which concerns on the same embodiment. It is a schematic diagram which shows the 2nd modification of the water drop receiving member which concerns on the same embodiment.

Hereinafter, embodiments of the water droplet receiving member of the present invention will be described with reference to the drawings as appropriate. The embodiments described below are for facilitating the understanding of the present invention and do not limit the present invention in any way.

The water droplet receiving member 1 according to the present embodiment is used by being attached to the frame of the photovoltaic power generation panel. FIG. 1 is a schematic view of the water droplet receiving member 1, and FIG. 2 is an explanatory diagram showing a state in which the water droplet receiving member 1 is attached to the photovoltaic power generation panel P. As shown in FIGS. 1 and 2, the water droplet receiving member 1 has a mounting portion 10 attached to the frame F of the photovoltaic power generation panel P and the sun in a state of being mounted on the photovoltaic power generation panel P by the mounting portion 10. A water receiving unit 20 that is arranged facing the photovoltaic power generation panel P side and receives water dripping from the photovoltaic power generation panel P, and a drainage unit 30 that disperses the water received by the water receiving unit 20 and drips it to the outside. To prepare for. Considering that the water droplet receiving member 1 will be used outdoors for a long period of time, for example, stainless steel (SUS) can be used as a material, and the water droplet receiving member 1 can be manufactured by press molding, welding, or the like.

In the description of the present embodiment, as shown in FIG. 2, the water droplet receiving member 1 is attached to the photovoltaic power generation panel P as a reference, and is upward and lower, upper and lower, upward and downward, and upper. And the words that indicate the direction such as the bottom are used.

The water receiving portion 20 is formed in a dish shape having a water storage space S capable of storing water (rainwater) dripping from the photovoltaic power generation panel P, and the water storage space S has a bottom portion 21 and three side wall portions 22a. It is formed so as to be surrounded by 22b, 22c and the drainage portion 30. The upper side of the water storage space S is an open surface for receiving water dripping from the photovoltaic power generation panel P.

A flange portion 23 is provided on the upper edge portion of the

side wall portions

22a, 22b, 22c of the water receiving portion 20, and two mounting portions 10 are provided on the portion of the flange portion 23 located on the upper edge portion of the side wall portion 22a. Is formed. Further, the drainage portion 30 is formed so as to face the side wall portion 22a on which the mounting portion 10 is formed.

The drainage portion 30 has a V-shaped portion 31 that functions as a drainage groove in which the water stored in the water storage space S is dropped from the water droplet receiving member 1 to the outside, and is inclined so that the upper portion is inclined toward the outside. It has a structure in which multiple pieces are juxtaposed and connected in the horizontal direction. By arranging the V-shaped portion 31 with such a gradient, water rises up in the valley portion (the portion corresponding to the valley of the groove) of each V-shaped portion 31 in the process of collecting water in the water storage space S. Finally, water is dropped to the outside from the outer end portion 311 facing the outside of each valley portion of the V-shaped portion 31.

The outer end portion 311 facing the outside of each valley portion (the portion corresponding to the valley of the groove) of each V-shaped portion 31 is formed in a shape that slightly hangs downward. By forming the outer end portion 311 in this way, the water discharged from the drainage portion 30 to the outside is directed so as to be dispersed and dropped directly underneath, so that the water is transmitted along the back surface of the V-shaped portion 31. It is possible to prevent the water from being collected again and falling from one place to the roofing material in a concentrated manner.

The mounting portion 10 is formed in a clip shape so that the frame F of the photovoltaic power generation panel P can be sandwiched between the mounting portion 10 and the flange portion 23 located at the upper edge portion of the side wall portion 22a. Specifically, the mounting portion 10 is substantially horizontal from the end portion of the support portion 11 that is erected upward from the end side of the flange portion 23 and the end portion of the support portion 11 that is opposite to the connection end portion of the flange portion 23. A holding portion 12 extending in the direction is provided. As a result, a gap corresponding to the thickness of the frame F is formed between the holding portion 12 and the flange portion 23, and as shown in FIG. 2, the frame F can be inserted into the gap. There is.

The end portion of the sandwiching portion 12 opposite to the connection end portion of the support portion 11 is warped upward (direction toward the frame F of the photovoltaic power generation panel P when attached), and water droplets are formed with respect to the frame F. It is easy to attach the receiving member 1. Further, the sandwiching portion 12 is extended from the support portion 11 side so that the gap between the holding portion 12 and the flange portion 23 gradually becomes smaller. That is, the sandwiching portion 12 is not parallel to the flange portion 23, but is provided at a slight inclination. As a result, the frame F inserted in the gap between the sandwiching portion 12 and the flange portion 23 is sandwiched and fixed so as to be pressed against the flange portion 23 by the sandwiching portion 12.

Since the mounting portion 10 configured in this way is formed in a clip shape, it can be sandwiched by simply inserting the frame F of the photovoltaic power generation panel P between the sandwiching portion 12 and the flange portion 23. Therefore, it becomes easier to attach the water droplet receiving member 1 to the photovoltaic power generation panel P.

As shown in FIG. 2, the water droplet receiving member 1 is attached to the frame F of the photovoltaic power generation panel P, and has a size such that the drainage portion 31 side slightly protrudes from the frame F in the horizontal direction, for example, about 10 mm. It is preferable to have a size that protrudes from the frame F. If there is no protrusion from the frame F at the time of mounting, the water receiving portion 20 cannot receive the water dripping from the frame F, but if the protrusion becomes too large, the water droplet receiving member 1 may be affected by snow accretion during snowfall. A large load is applied to the water droplet receiving member 1, and the water droplet receiving member 1 may be peeled off from the frame F. Therefore, it is preferable that the size of the water droplet receiving member 1 is appropriately determined by the structure of the frame F to be attached.

According to the water drop receiving member 1 described above, the mounting portion 10 can be easily mounted on the photovoltaic power generation panel P simply by engaging the mounting portion 10 with the frame F of the photovoltaic power generation panel P, and is concentrated from the photovoltaic power generation panel P. The water (rainwater) dripping into the water can be once received by the water receiving unit 20, and the water can be dispersed from the discharging unit 30 and dripping to the outside, thus preventing rusting of the metal roofing material caused by the installation of the photovoltaic power generation panel. be able to. Further, such a water droplet receiving member 1 can be easily attached to an existing solar power generation panel, and there is no need to perform any processing or treatment on the roof material side. Further, since the water receiving portion 20 is formed in a dish shape, the water intensively dropped from the photovoltaic power generation panel P can be temporarily stored in the water storage space S of the water receiving portion 20, so that the drainage portion Water can be more easily and efficiently dispersed from No. 30 and dropped to the outside.

<First modification>
FIG. 3 shows a first modification of the present embodiment. As the water droplet receiving member 1A of the first modification, a water receiving portion 20A and a draining portion 30A having a structure different from that of the water droplet receiving member 1 described above are adopted. The description of the same configuration as that of the water droplet receiving member 1 will be omitted.

Water receiving portion 20A is formed water dripping from the solar panels P a (rain) a dish shape with a reservoir capable reservoir space S _A, water space S _A, the bottom 21A and four side wall portions It is formed so as to be surrounded by 22Aa, 22Ab, 22Ac, and 22Ad. Upper water storage space S _A is an open surface so as to receive water dripping from the solar panels P.

A flange portion 23A is provided on the upper edge portion of the side wall portion 22Aa, 22Ab, 22Ac, 22Ad of the water receiving portion 20A, and two attachments are provided on the portion of the flange portion 23A located on the upper edge portion of the side wall portion 22Aa. The portion 10 is formed.

The drainage portion 30A is composed of a side wall portion 22Ad of the water receiving portion 20A and a flange portion 23A located at the upper edge portion of the side wall portion 22Ad. That is, the flange portion 23A located at the upper edge portion of the side wall portion 22Ad and the side wall portion 22Ad is a component of the water receiving portion 20A, but also functions as a component of the drainage portion 30A.

A plurality of V-shaped grooves 32 are formed on the upper surface of the flange portion 23A located at the upper edge portion of the side wall portion 22Ad by V-cut processing at predetermined intervals, and the plurality of V-shaped grooves 32 store water. functions as a discharge groove for water which is reserved in the space S _a is dropped to the outside from the water droplet receiving member 1A. By thus arranging side by side a plurality of V-shaped grooves 32, in the course of water accumulated in the water storage space S _A, water from the V-shaped groove 32 is dropped and dispersed to the outside.

<Second modification>
FIG. 4 shows a second modification of the present embodiment. The water drop receiving member 1B of the second modification has a structure of the water receiving portion 20B and the drainage portion 30B having a structure different from that of the water drop receiving member 1 described above. The description of the same configuration as that of the water droplet receiving member 1 will be omitted.

Water receiving portion 20B is formed water dripping from the solar panels P a (rain) a dish shape with a reservoir capable reservoir space S _B, water space S _B, the bottom 21B and four side wall portions It is formed so as to be surrounded by 22Ba, 22Bb, 22Bc, and 22Bd. Upper water storage space S _B is an open surface so as to receive water dripping from the solar panels P.

A flange portion 23B is provided on the upper edge portion of the side wall portions 22Ba, 22Bb, 22Bc of the water receiving portion 20B, and two mounting portions 10 are provided on the portion of the flange portion 23B located on the upper edge portion of the side wall portion 22Ba. Is formed.

The drainage portion 30B is composed of a side wall portion 22Bd of the water receiving portion 20B. That is, the side wall portion 22Bd is a component of the water receiving portion 20A, but also functions as a drainage portion 30B.

A plurality of discharge holes 33 provided so as to penetrate from the water receiving portion 20B to the outside are formed in the side wall portion 22Bd at predetermined intervals. By thus arranged a plurality of discharge holes 33, in the course of the water storage space S _B will accumulate water, water from the discharge hole 33 is dropped and dispersed to the outside.

Although the present invention has been described above with reference to the drawings, the present invention is not limited to the above embodiment, and various modifications can be made. For example, in the above embodiment, the water receiving portion of the water droplet receiving member of the present invention is formed in a dish shape, but the present invention is not limited to this, and even a flat water receiving portion is a photovoltaic power generation panel. If the structure is such that the water (rainwater) that has been intensively dropped from the water can be received once, a corresponding effect can be achieved. In that case, the end of the water receiving portion of the water droplet receiving member functions as a draining portion, and the water received by the water receiving portion is dispersed and dropped to the outside.

Further, in the above embodiment, the water droplet receiving member is configured to be attached to the frame of the solar panel by a clip-shaped mounting portion, but the present invention is not limited to this, and the water drop receiving member is mounted by a method such as adhesion or crimping. The portion may be attached to the frame, or the mounting portion may be attached to the frame by using a clamp, a bolt, or the like.

Since the water drop receiving member of the present invention can be easily attached to the photovoltaic power generation panel and can prevent the rust of the metal roofing material caused by the installation of the photovoltaic power generation panel, it is installed on a metal roof such as the roof of a building. It can be widely used for solar power generation panels.

1,1A, 1B Water drop receiving member 10 Mounting part 20

Water receiving part

30, 30A, 30B Drainage part P Solar power generation panel F frame

Claims

It is a water drop receiving member attached to the frame of the photovoltaic power generation panel.
The mounting part attached to the frame of the photovoltaic power generation panel and
A water receiving portion that is arranged toward the photovoltaic power generation panel side in a state of being mounted on the photovoltaic power generation panel by the mounting portion and receives water dripping from the photovoltaic power generation panel.
A drainage part that disperses the water received by the water receiving part and drops it to the outside,
A water drop receiving member.
The water droplet receiving member according to claim 1, wherein the water receiving portion is formed in a dish shape.
The water droplet receiving member according to claim 1 or 2, wherein the mounting portion is formed in a clip shape capable of sandwiching the frame of the photovoltaic power generation panel.
The water drop receiving member according to any one of claims 1-3, wherein the drainage portion has a plurality of drainage grooves provided so as to communicate with the outside from the water receiving portion.
The water droplet receiving member according to any one of claims 1-3, wherein the drainage portion has a plurality of drainage holes provided so as to penetrate from the water receiving portion to the outside.