JP2014181476A - Photovoltaic power generation device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a practical photovoltaic power generation device that has a superior rustproof function and hardly corrodes even when exposed to rainwater over a long period of time.SOLUTION: A frame 7 of a photovoltaic power generation device 1 is constituted in one body by assembling iron-made front columns 2 and 2, rear columns 3 and 3, a front-row purlin material 4, a rear-row purlin material 5, rafter materials 6, 6, ... functioning as frame members, installation auxiliary members 27, 27, ..., and the like. On the installation auxiliary members 27, 27, ... of the rafter materials 6, 6, ... of the frame 7, aluminum-made frame members 52 of solar battery modules M, M, ... are screwed with a synthetic resin-made insulation sheet 8 interposed.

Description

  The present invention relates to a photovoltaic power generation apparatus in which a plurality of flat rectangular solar cell modules are fixed to a gantry.

  In recent years, solar power generation using solar cells has attracted attention. As a device for performing such solar power generation, as shown in Patent Document 1, a plurality of support columns are provided on each of a plurality of support stands installed on the ground surface. The metal frame is fixed by these columns so as to be inclined at a predetermined angle with respect to the ground surface, and a rectangular solar cell module (solar cell panel) is attached to the frame. What is installed is known.

JP 2011-82273 A

  However, the solar power generation device of Patent Document 1 is not considered for rust prevention, and since effective rust prevention measures are not taken, it occurs when exposed to wind and rain for a long time. Due to the rust, the frame member of the gantry and the solar cell module may be damaged, or transmission of electricity generated in the solar cell module may be difficult. In particular, since most of the frame members of the solar cell module are made of aluminum and most of the frame is made of iron, the tendency of electrolytic corrosion (electrochemical corrosion) caused by the difference in electronegativity between iron and aluminum is remarkable. It is.

  The object of the present invention is to solve the problems of the conventional solar power generation apparatus described above, have excellent rust prevention function, and practical solar light that is resistant to rust even when exposed to rainwater for a long period of time. It is to provide a power generation device.

  Among the present inventions, the invention described in claim 1 is a frame in which a plurality of frame members are arranged at equal intervals so as to be inclined at a predetermined angle above a predetermined height from the ground, and a rectangular shape. A solar power generation device comprising a solar cell module in which the outer periphery of the solar panel is covered with an aluminum frame member and the frame member is fixedly attached to the frame member of the mount Then, an insulating sheet made of synthetic resin is interposed between the frame member of the gantry and the frame member of the solar cell module.

 The invention described in claim 2 is the invention described in claim 1, wherein the frame member and the solar cell module are screwed together by bolts and nuts, and between the frame member and the bolts and nuts. An insulating member made of synthetic resin is interposed between the frame member and the bolt and nut, which are not in direct contact with each other.

  The invention described in claim 3 is the invention described in claim 1 or 2, wherein the synthetic resin is nylon.

  In the solar power generation device according to claim 1, since the synthetic resin sheet is interposed between the frame member of the iron mount and the aluminum frame member of the solar cell module, the electric power between aluminum and iron The generation of rust based on the difference in negativeness can be effectively prevented. Furthermore, even when exposed to rainwater over a long period of time and rust is generated on the gantry, the insulating sheet can effectively prevent the rust from propagating to the frame member of the solar cell module.

  The solar power generation device according to claim 2, wherein an insulating member made of synthetic resin is interposed between a bolt and a nut for screwing the frame member of the gantry and the solar cell module, and the bolt insertion of the frame member Since the periphery of the hole (bolt insertion hole for screwing the solar cell module) is covered with resin, it is effective to prevent rust from occurring between the bolt insertion hole of the frame member and the bolt and nut. Can be prevented.

  In the solar power generation device according to claim 3, since the insulating sheet and / or the insulating member is made of nylon and is excellent in weather resistance and strength, a situation in which rust is generated on the gantry for a very long period of time. Can be effectively prevented.

It is a perspective view (partial perspective view) of a solar power generation device. It is a left view of a solar power generation device. It is a perspective view of an installation auxiliary member. It is explanatory drawing which shows the adhering state of an installation auxiliary member and a solar cell module (it is an enlarged view of A part in FIG. 2). It is explanatory drawing which shows the adhering state of an installation auxiliary member and a solar cell module (it is a CC sectional view taken on the line in FIG. 4). It is explanatory drawing which shows an insulating sheet (a is a top view of an insulating sheet, b is a side view of an insulating sheet). It is explanatory drawing which shows an insulating member (a is a perspective view of a rust-proof washer with a protrusion, and b is a perspective view of a rust-proof washer).

<Structure of photovoltaic power generation device>
Hereinafter, an embodiment of a solar power generation device according to the present invention will be described in detail based on the drawings. 1 and 2 show a solar power generation device (one unit). The solar power generation device 1 includes flat rectangular solar cell modules M, M, and the solar cell modules M, M. It is comprised by the base 7 for installing in the state which inclined, and the insulation sheet 8, 8, ... etc. which interpose when installing the solar cell module M, M ... on the base 7. In addition, the solar power generation device 1 is left and right x front and rear = about 4,800 mm x about 5,000 mm, the height from the ground surface of the ceiling portion at the front end is about 500 mm, and is from the ground surface of the ceiling portion at the rear end. The height is about 1,400 mm.

  The gantry 7 is integrally formed by assembling front struts 2 and 2, rear struts 3 and 3, front row purlin material 4, rear row purlin material 5, and hanging lumber 6, 6... Functioning as a frame member. Yes. Both the front struts 2 and 2 and the rear struts 3 and 3 have a rust-proof coating on the surface except for the lower portion (portion embedded in the ground). On the other hand, the front row main material 4 and the rear row main material 5 are so-called high corrosion resistant hot dip galvanized steel plates, and the vertical lumbers 6, 6... Are made of high corrosion resistant hot galvanized steel plates. Light groove steel (a type of C-section steel).

  Both the front struts 2 and 2 and the rear struts 3 and 3 are steel pipes provided with a spiral blade at the tip, and the rear struts 3 and 3 are formed longer than the front struts 2 and 2. The front struts 2 and 2 and the rear struts 3 and 3 are stood in the ground so that the distance between the left and right front and rear is a predetermined distance. At the upper ends of the front struts 2, 2, the front row purlin 4 is engaged between the front struts 2, 2 with both ends protruding outside the front struts 2, 2 using the engaging members 9, 10. It is fixed so as to straddle between. On the other hand, at the upper ends of the rear columns 3, 3, the rear row purlin 5 is engaged with the engaging members 9, 10, with both ends protruding outside the front columns 3, 3. It is fixed so as to straddle between each other.

  Then, using the engaging members 11, 11... In the front row purlin material 4 and the rear row purlin material, six hanging timbers 6, 6... Are each at a predetermined angle (about 10 °). It is fixed so as to be inclined forward and downward. Each of the six hanging lumbers 6, 6... Is in a set with the protruding sides of the upper and lower sides 6c, 6b (see FIG. 5) facing each other, and the front row base material 4 and It is fixed so as to be orthogonal to the rear row purlin 5. And the hanging wood 6 and 6 which became one set is in the state which separated the distance of the predetermined distance from the other set.

  Auxiliary member screwing holes 26 and 26 (see FIG. 5) are bored at equal intervals along the longitudinal direction in each of the hanging lumbers 6, 6. , 26 are used to screw installation auxiliary members 27, 27,... For fixing the solar cell modules M, M,. It functions as a frame member together with the members 27, 27,. FIG. 3 shows the installation auxiliary member 27. Each of the installation auxiliary members 27, 27,... Is formed by bending a highly corrosion-resistant hot-dip galvanized steel sheet into a U-shaped cross section, and is arranged vertically. A rectangular upper plate 27b protrudes from the upper end of the rectangular flat plate portion 27a so as to be orthogonal to the flat plate portion 27a, and a lower plate 27c narrower than the upper plate 27b protrudes in the same direction from the lower end of the flat plate portion 27a. It is in a state. Further, a drooping wood screwing hole 28 for screwing with the drooping wood 6 is formed in the approximate center of the flat plate portion 27a, and two pieces for screwing the solar cell module around the upper plate 27b are provided. Module screwing holes 29, 29 are formed.

  The installation assisting members 27, 27,... Are provided with the drilled portion of the hanging lumber screwing hole 28 in a state where the inner surfaces of the flat plate portion 27a, the upper plate 27b, and the lower plate 27c are in contact with the outer surface of the hanging lumber 6. By screwing the auxiliary member screwing hole 26 of the hanging wood 6 with the bolt B and the nut N, the hanging wood 6 is fixed to the hanging wood 6, 6. The bolts B, B... And the nuts N, N... Used for assembling the solar power generation device 1 are made of steel, and a surface of a metal flake such as zinc is formed with a silicon-based inorganic binder. Rust prevention treatment is applied by fixing.

  As shown in FIG. 1, a plurality of (12) solar cell modules M, M,... Span the adjacent two hanging timbers 6, 6. The four installation auxiliary members 27, 27,... Screwed to the hanging lumbers 6, 6 are fixed in a state where they are inclined by 10 ° forwardly downward by screwing the corners. 4 and 5 are enlarged views of the fixing portion between the solar cell modules M, M,... And the installation auxiliary member 27. The solar cell modules M, M,. A frame member 52 made of aluminum is attached to the outer periphery of the battery (cell) 51, and a square-shaped frame screwing surface 53 is formed on the lower surface. The mount screwing surface 53 is provided with screwing holes 54 and 54 having a diameter of 9.0 mm.

  These solar cell modules M, M... Are installed in a state in which the frame screwing surface 53 of the frame member 52 is joined to the insulating sheet 8 placed on the upper surface of each installation auxiliary member 27, 27,. The installation holes 27, 54 of the screwing surface 53 are formed by using bolts B, a rust-proof washer 12 with projections, a washer 13, a rust-proof washer 14, a spring washer 15, and a nut N to provide an installation auxiliary member 27. , 27...

  FIG. 6 shows the insulating sheet 8. The insulating sheet 8 is made of a synthetic resin (nylon) and is a rectangle with a longitudinal length × horizontal width = 125 mm × 100 mm that is slightly larger than the upper surface of the installation auxiliary member 27. It is formed in a sheet shape of about 1.5 mm. Further, the insulating sheet 8 is provided with two long holes 16 for screwing with the frame member 52 of the solar cell modules M, M.. Has been. In addition, the long holes 16 and 16 are front-rear length x left-right width = 32 x 13 mm, and both front and rear ends have a semicircular shape with a diameter of 13 mm. The insulating sheets 8, 8,... Match the long holes 16, 16 with the hanging lumber screwing holes 26, 26 (see FIGS. 4 and 5) of the upper plate 27b of the installation auxiliary members 27, 27,. In this state, it is placed on the upper plate 27b.

  FIG. 7A shows a rust-proof washer 12 with a projection, and the rust-proof washer 12 with a projection is made of synthetic resin (nylon) and has an outer diameter of 12 mm × an inner diameter of 9.0 mm. The flat cylindrical base portion 12a has a shape in which a disc-shaped (doughnut disc-shaped) flange portion 12b having an outer diameter of 20 mm × an inner diameter of 9.0 mm is continuously provided at the lower end of the flat cylindrical base portion 12a. The overall height is 4.7 mm. Further, FIG. 7B shows a rust-proof washer 14, and the rust-proof washer 14 is made of a synthetic resin (nylon) having a disk shape with a thickness of 1.5 mm and an outer diameter of 20 mm × inner diameter of 9.0 mm. (Doughnut disc shape).

  On the other hand, the washer 13 is formed in a disc shape (doughnut disc shape) having a thickness of 2.0 mm, an outer diameter of 20 mm, and an inner diameter of 9.0 mm using steel. In addition, the spring washer 15 is formed of steel in a donut shape having an outer diameter of 15.4 mm and an inner diameter of 8.2 mm and a thickness of 2.0 mm. And one place is cut | disconnected perpendicularly | vertically in the radial direction, and the said cutting part (two end edges) is the state extended alternately up and down. The surfaces of the washers 13 and the spring washers 15 are galvanized. Further, the bolt B used for screwing the solar cell modules M, M, .. and the installation auxiliary members 27, 27,... Has a screw shaft having a diameter of 8.0 mm. The nut N used for screwing the installation auxiliary members 27, 27,... Has a thickness of 6.5 mm.

  As shown in FIGS. 4 and 5, the solar cell modules M, M,... Have the screw holes 54 on the frame screw surface 53 of the frame member 52, the long holes 16 on one side of the insulating sheet 8, and the installation auxiliary member 27. The upper plate 27a is placed on the insulating sheet 8 stacked on the upper plate 27a of the installation assisting member 27 in a state matched with the module screwing hole 29 of the upper plate 27a. In this state, the solar cell modules M, M,... Are installed around the screwing holes 54 of the frame screwing surface 53 of the frame member 52 with the washer 13 and the antirust washer 14 interposed in order from the upper side. Around the module screwing hole 29 on the lower surface of the upper plate 27b of the member 27, a protrusion-formed rust-proof washer 12, a washer 13, and a spring washer 15 are interposed in order from the upper side, and bolt insertion holes (i.e. A bolt insertion hole of the washer 15; a bolt insertion hole of the rust-proof washer 14; a screwing hole 54 of the frame screwing surface 53 of the frame member 52; a long hole 16 of the insulating sheet 8; a bolt insertion hole of the rust-proof washer 12 with projection; A bolt insertion hole of the washer 13, a bolt insertion hole of the spring washer 15, and a bolt B and a nut penetrating the module screwing hole 29) of the upper plate 27a of the installation auxiliary member 27, the upper plate 27b of the installation auxiliary member 27. Screwed on It has been.

  As described above, in the state where the base screw surface 53 of the solar cell modules M, M... And the upper plate 27b of the installation auxiliary member 27 are screwed, the base portion 12a of the rust preventive washer 12 with projections is The installation auxiliary member 27 enters the inside of the module screwing hole 29 of the upper plate 27 b, and the upper end surface of the base portion 12 a of the rust-proof washer 12 with the projection is in contact with the back surface of the insulating sheet 8. .

  In the solar power generation device 1 configured as described above, the cells 51 of the solar cell modules M, M,... Fixed at a predetermined inclination angle by the gantry 7 efficiently convert sunlight into electricity, The electricity is transmitted to a current collector (not shown) by wiring (not shown), and is transmitted to the outside through the current collector.

<Effect of solar power generation device>
The photovoltaic power generation apparatus 1 includes iron suspended wood 6, 6... (Installation auxiliary members 27, 27. Insulating sheet 8 that is a sheet made of synthetic resin is interposed between the frame member 52 and the installation auxiliary members 27, 27,... Are not in direct contact with each other. It is possible to effectively prevent electrolytic corrosion based on the degree difference. Further, even when the gantry 7 is rusted by being exposed to rainwater for a long time, the insulating sheet 8 effectively prevents the rust from being propagated to the frame members 52 of the solar cell modules M, M,. Can be prevented.

  In addition, the solar power generation device 1 includes the hanging lumber 6, 6... (Installation auxiliary members 27, 27...) And the solar cell modules M, M. In addition, a synthetic resin rust-proof washer 12 with a projection is interposed between the installation auxiliary members 27, 27,... And the bolts B and nuts N, so that the module screws of the installation auxiliary members 27, 27,. Since the periphery of the mounting hole 29 is covered with resin, it is possible to effectively prevent a situation in which rust is generated from the gap between the module screw mounting hole 29 of the installation auxiliary members 27, 27,. Can be prevented.

  Further, in the solar power generation device 1, since the insulating sheets 8, 8, .. and the rust-proof washer 12 with projections which are insulating members are made of nylon and have excellent weather resistance and strength, the gantry 7 is rusted. The situation that occurs can be effectively prevented over a very long period of time.

<Example of solar power generation device change>
The configuration of the photovoltaic power generation apparatus according to the present invention is not limited to the aspects of the above-described embodiments, but includes a gantry (a rear column, a front row purlin material, a rear row purlin material, a hanging wood, etc.), an insulating sheet member, The configurations of the insulating member, the solar cell module, and the like can be appropriately changed as necessary without departing from the spirit of the present invention.

  For example, the gantry is not limited to the one that supports each hanging lumber only by the front and back purlins as in the above embodiment, and the number of purlins arranged in parallel can be increased. Further, the gantry is not limited to the one in which each suspended timber is provided so as to incline forward by 10 ° as in the above embodiment, and the inclination angle of the suspended timber can be appropriately changed. Further, the gantry is not limited to one in which all the constituent members are made of steel as in the above embodiment, but a part of the constituent members is changed to one made of another material such as cast iron, synthetic resin, ceramics or the like. It is also possible.

  Further, the solar power generation device is not limited to the one in which an insulating sheet and an insulating member made of synthetic resin are interposed in all screwed portions of the frame member of the gantry and the solar cell module, as in the above embodiment, An insulating sheet or an insulating member may be interposed in a part of a screwed portion between the frame member of the gantry and the solar cell module.

  In addition, the insulating sheet and the insulating member are not limited to those formed of nylon as in the above embodiment, but are changed to those formed of synthetic resin other than nylon such as polyolefin resin, silicone resin, synthetic rubber, etc. It is also possible to do.

  Since the solar power generation device according to the present invention has excellent effects as described above, it can be suitably used as a device for converting sunlight into electrical energy.

1 ・ ・ Photovoltaic power generation device 6 ・ ・ Suspended wood (frame member)
7 .... Stand base 8 .... Insulation sheet 12 .... Rust washer with protrusion (insulation member)
14. ・ Rust washer 27 ・ ・ Installation auxiliary member (frame member)
52 ... Frame member M ... Solar cell module

Claims (3)

A steel frame in which a plurality of frame members are arranged at equal intervals so as to be inclined at a predetermined angle above a predetermined height from the ground, and an outer periphery of a rectangular solar panel is formed by an aluminum frame member A solar power generation device comprising a solar cell module that is covered and fixed in a state in which the frame member is attached to the frame member of the mount;
An insulating sheet made of synthetic resin is interposed between the frame member of the gantry and the frame member of the solar cell module. The frame member and the solar cell module are screwed together by bolts and nuts,
2. The sun according to claim 1, wherein an insulating member made of synthetic resin is interposed between the frame member and the bolt and nut, and the frame member and the bolt and nut are not in direct contact with each other. Photovoltaic generator.   The photovoltaic device according to claim 1 or 2, wherein the synthetic resin is nylon.

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