JPH11280224A - Solar battery panel fitting construction - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve workability by loading and fixing the panel on the flange of a lateral rail arranged on the peripheral edge position of a solar battery panel. SOLUTION: A lateral rail 1 made of aluminum extrusion molding projectingly providing a partition piece 3 on the center of a lip groove shaped material 2 is fittedly fixed to cutout parts provided on the rising pieces of both side parts of a longitudinal rail at the end parts. Next, after loading the upper/lower frames 7 in the channel frames 7 provided on the four peripheries of a solar battery panels 6 on the flange 8 as the lip of the rail 1, the frame 7 is sandwiched with the rising pieces of the longitudinal rail and the upper cover for fixing. Next watertight material 10 is interposed between the frames 7 and the partition piece 3 to temporarily make watertight, and rain water invaded between the panels 6 by wind, rain, and the like is received with the rail 1, it is led into drain grooves on both side parts of the longitudinal rail from the end parts to be drained, water is prevented from leaking into a building, and durability of the panels 6 and wiring are insured. Hereby, it can be easily constructed and the fitting position accuracy of the panel can be improved.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a structure for installing a photovoltaic panel on a building roof or the like.

[0002]

2. Description of the Related Art In a conventional solar cell panel mounting structure, a solar cell panel is fixed to a vertical rail installed on a roof surface as disclosed in, for example, JP-A-6-294184.

[0003]

In the above-mentioned conventional solar cell panel mounting structure, the solar cell panel is installed at an angle to the south surface in order to improve the light receiving efficiency. In this case, when the solar cell panel cannot be temporarily supported and is mounted on an inclined vertical rail, the work efficiency is poor because the scaffold is poor and the work posture is unreasonable.

The present invention has been made to solve the above-mentioned conventional problems, and allows a worker to perform a mounting operation in a safe and reasonable posture on a solar cell panel temporarily supported in a predetermined posture, thereby improving work efficiency. It is an object of the present invention to provide a solar cell panel mounting structure that improves the mounting position accuracy of the solar cell panel. It is another object of the present invention to provide a solar cell panel mounting structure in which the bending strength of the lateral rail is high and stable mounting strength can be ensured, and water does not enter the building from the roof surface or the like. is there. Furthermore,
It is an object of the present invention to provide a solar cell panel mounting structure that can secure rainy weather on a roof surface and the like and can also ensure the reliability and durability of a solar cell panel and its wiring.

[0005]

SUMMARY OF THE INVENTION The solar cell panel mounting structure of the present invention, which solves the above-mentioned problems, is a solar cell panel mounting structure in which a plurality of rectangular solar cell panels are arranged side by side. A horizontal rail having a flange parallel to the solar cell panel is disposed at a position, and the solar cell panel is mounted and fixed on the flange of the horizontal rail.

[0006] Each component requirement will be described in detail. A solar cell panel has a predetermined number of solar cells, which are solar cells, built in a frame of aluminum, plastic, stainless steel, or the like assembled in a predetermined module size, and has a weather-resistant light-transmitting surface. It is coated with a conductive material, for example, glass, silicone resin, polyester resin, acrylic silicon resin or the like, and the back surface is formed by laminating a reinforcing plate of metal, resin or the like. As described above, a plurality of solar cell panels formed in a rectangular shape with a predetermined module size are usually arranged in a matrix so that necessary electromotive force is secured.

[0007] The solar cell panel is usually installed on the roof of a building for use. In addition, there are also cases where a gantry is assembled on the roof or the ground of a building and installed on the gantry. The solar cell panel mounting structure of the present invention is effective when installed on the roof surface of a building, but is not necessarily limited to this.

The horizontal rail is formed of iron, stainless steel, aluminum, FRP, or the like, and is mounted on a roof surface or the like with hardware, or mounted on a pair of left and right vertical rails. The solar cell panel can be stably mounted and supported on a flange parallel to the solar cell panel. Furthermore, since the lateral rail is horizontal and has a flange of a certain width, it can be used as a stable work platform on which to work, so it is safe for workers to temporarily support the solar panel in a predetermined posture. Therefore, the mounting operation can be performed in a comfortable posture, the work efficiency is good, and the mounting position accuracy of the solar cell panel is also improved.

When a lip channel is used for the lateral rail, a flange parallel to the solar cell panel can be formed by the lip. The lip channel has high bending strength and can secure a stable mounting strength, and can receive water leaked from between the vertically continuous solar cell panels by the lip channel-shaped horizontal rail, and can be used for roof surfaces, etc. There is no flooding from inside the building. In addition, the lip channel member is formed by a pair of lips to form a pair of flanges parallel to the solar cell panel, which is suitable for mounting and fixing both adjacent solar cell panels. As a lateral rail having a flange parallel to the solar cell panel, an L-shaped member, a Z-shaped member, or a rectangular tube member can be used in addition to the lip grooved member.

[0010] A waterproof seal is provided between adjacent solar cell panels, but in case of rain accompanied by wind, a part of rainwater may leak from between the solar cell panels. However, water leakage between the solar cell panels can be received by the lip groove-shaped lateral rail located immediately below the solar cell panel, and does not leak into the building from the roof surface or the like.

Further, when a structure is adopted in which water leaked from the solar cell panel into the horizontal rail is led from the end of the horizontal rail to the vertical rail and drained from below the vertical rail, the rainwater The drainage can be performed smoothly, the rainy weather on the roof surface and the like can be ensured, and the reliability and durability of the solar cell panel and its wiring can be ensured. The vertical rail has a cross-sectional shape such as a square groove, a round groove, a V-shaped groove, and a rectangular tube, and is formed of iron, stainless steel, aluminum, FRP, or the like, and has a gradient of water from the horizontal rail. It has a structure to drain from below. The vertical rail may be fixed to a roof base or the like, and a structure for supporting both ends of the horizontal rail may be employed.

[0012]

Embodiments of the present invention will be described below with reference to the drawings. 1 to 3 show a solar panel mounting structure on a roof surface of a building. Lateral rail 1
The partition piece 3 is integrally formed in the middle of the lip channel 2 and is manufactured by an aluminum extrusion molding method. The horizontal rail 1 is mounted by fitting its end to the notch of the rising piece 5 on both sides of the vertical rail 4. The solar cell panel 6 is provided with an aluminum grooved frame 7 on four sides, and the upper and lower grooved frames 7 are placed and fixed on a flange 8 formed by the lip of the horizontal rail 1.
The solar cell panel 6 has a slope according to the roof slope, but the horizontal rail 1 is also installed at the same slope. Therefore, the flange 8 of the horizontal rail 1 is parallel to the solar cell panel 6 and the sun The battery panel 6 can be supported.

At the time of mounting the solar cell panel 6, first, the solar cell panel 6 is brought into contact with the partition piece 3 of the lateral rail 1 below the slope to temporarily support the solar cell panel 6, and the layout adjustment and wiring work of the entire solar cell panel 6 are performed. After performing the above operations, the grooved frame 7 of the solar cell panel 6 is fixed to the rising piece 5 of the vertical rail 4 and the upper cover 9 of the vertical rail 4.
And fix it fully. At the time of these operations, the user can ride on the upper surface using the flange 8 having a constant width of the horizontal rail 1 as a work platform.

The grooved frame 7 and the lateral rail 1 of the solar cell panel 6
A watertight material 10 made of urethane rubber is interposed between the partition pieces 3. Primary waterproofing between the solar cell panels 6 is ensured by the watertight material 10. However, in the case of rain accompanied by wind, for example, some rainwater may leak from between the solar cell panels 6. However, water leakage between the solar cell panels 6, 6 can be received by the lateral rail 1 of the lip channel member 2 located immediately below the solar cell panels 6, and does not leak from the roof surface or the like into the building.

The water leaking into the horizontal rail 1 is guided from the end of the horizontal rail 1 to the drain grooves 11 formed on both sides of the vertical rail 4, and from the lower side of the vertical rail 4 inclines. Since the water is drained, the rainwater can be smoothly drained, the rainy weather on the roof surface and the like can be ensured, and the reliability and durability of the solar cell panel and its wiring can be ensured.

Reference numeral 12 in FIG. 3 denotes a conductor for accumulating electricity generated by the solar cell, and is connected to the central groove 13 of the vertical rail 4. 2 and 3, reference numeral 14 denotes a roof base, and reference numeral 15 denotes a roof waterproof sheet.

[0017]

The solar cell panel mounting structure according to the first aspect of the present invention is a solar cell panel mounting structure in which a plurality of rectangular solar cell panels are arranged side by side. A horizontal rail having a parallel flange is arranged, and a solar cell panel is mounted and fixed on the flange of the horizontal rail. Therefore, the horizontal rail having a flange parallel to the solar cell panel is provided. On the other hand, the solar cell panel can be easily temporarily supported, and the mounting operation can be performed in a state where the solar cell panel is temporarily supported in a predetermined posture. Further, since the lateral rail is horizontal and has a flange of a constant width, the work can be performed on a stable working scaffolding. Therefore, the worker can perform the mounting work in a safe and reasonable posture with respect to the solar cell panel temporarily supported in the predetermined posture, the work efficiency is good, and the mounting position accuracy of the solar cell panel is also improved.

According to the second aspect of the present invention, in addition to the effect of the first aspect of the present invention, since the lateral rail is formed of a lip groove, the bending strength of the lateral rail is high and stable. As well as securing the mounting strength, it is possible to receive the water leaked from between the vertically continuous solar panels on the horizontal rails of the lip groove shape, so that it does not flood into the building from the roof surface etc. .

According to a third aspect of the present invention, in addition to the effects of the first and second aspects of the present invention, water leaked from the solar cell panel into the horizontal rail is removed from the end of the horizontal rail by the vertical rail. It is characterized by draining from the lower part of the vertical rail slope,
The drainage of the rainwater can be smoothly performed, the rain on the roof surface can be ensured, and the reliability and durability of the solar cell panel and its wiring can be ensured.

[Brief description of the drawings]

FIG. 1 is a partially exploded perspective view showing an embodiment of a solar cell panel mounting structure of the present invention.

FIG. 2 is a sectional view of a main part of the above.

FIG. 3 is a sectional view of a main part of the above.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 horizontal rail 2 lip channel 4 vertical rail 6 solar panel 8 flange

Claims (3)

[Claims] In a solar cell panel mounting structure in which a plurality of rectangular solar cell panels are arranged side by side, a lateral rail having a flange parallel to the solar cell panel is arranged at a peripheral position of the solar cell panel. A solar panel mounting structure wherein a solar panel is mounted and fixed on a flange of a lateral rail. 2. The solar cell panel mounting structure according to claim 1, wherein the lateral rail is formed by a lip groove member. 3. The solar cell panel mounting structure according to claim 2, wherein water leaked from the solar cell panel into the horizontal rail is guided from the horizontal rail end to the vertical rail, and the vertical rail is provided. A solar panel mounting structure characterized by draining water from below the slope.