JP3485825B2 - Solar panels - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a so-called solar panel that generates power by sunlight, and more particularly to a solar panel that can be used as a roofing material.

[0002]

2. Description of the Related Art Generally, in this type of solar panel, it is attached to a desired supporting frame arranged on an existing roof (roofing material) that is covered with tiles in a building. Was the current situation.

[0003]

However, in the above-mentioned one, it is only mounted on the existing roof (roofing material), and many other members are required for the mounting, and the construction thereof is required. There were many problems in terms of cost and cost. Therefore, in view of the above-mentioned problems, the present invention aims to provide a solar panel that can be used as a roofing material as it is, can simplify its construction, and can be economically economical. It is what

[0004]

According to a first aspect of the present invention, there is provided a solar panel laid at a desired slope and used as a roofing material, wherein one side of the solar panel is a house in the direction of the roof girder. of a size equal dimension between framing by pillars, the other side with the dimensions obtained in the installed state of the planar projection in the actual slope angle in the flow direction of the roof of the one side of the lengths of the other sides The plane as a whole to be equal
The gist is that the projected shape is a square shape.

According to the above-mentioned structure, the inter-columnar columns are assembled.
It becomes possible to lay the solar panel configured as described above as it is on a plane projection square portion of the roof formed by (the length from the center of the pillar) to the solar panel itself. As it is, it becomes possible to lay it as a roofing material in the same manner as a flat tile in the conventional roofing.

The invention of claim 2 is a solar panel which is laid at a desired slope and used as a roofing material, wherein one side of the solar panel is a frame of a house in the direction of the girder of the roof. a dimension equal dimension between the pillars, and other side a so that as a dimension obtained by the plane projection of installed state of an actual slope angle in the flow direction of the roof equal length and the length of the other side of the one side shape as a whole planar projection to
Is formed into a right-angled isosceles triangular shape.

According to the above-mentioned structure, the inter-columnar columns are assembled.
Plane projection straight formed by (the length from the center of the pillar to the center)
You position the solar panel configured as described above to the site of the corners isosceles triangle it is possible to lay it,
It is possible to lay the solar panel itself corresponding to the plane-projection oblique portion (extruded corner portion or entrance corner portion) as a roof material as it is with a conventional roofing sensation.

[0008]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a plan view showing an outline of a general gable roof, FIG. 2 is a sectional view taken along line XX of FIG. 1 and a schematic view of a roof structure, and FIG. 3 (A) is a roof material. FIG. 3B shows a solar panel unitized into a square, and FIG. 3B shows a solar panel unitized into an isosceles right triangle used as a roofing material.

As shown in FIG. 2, in a normal roof structure, a predetermined interval, for example, one or half intervals based on the existing shakukan method, or 90 cm or 18 based on the metric system is used.
Beams 2 or girders 3 on top of pillars 1, 1 that are framed at 0 cm intervals
On the beam 2 or girder 3 and the true bundle 4 or bundle 5
Is erected with a length corresponding to the slope of the roof.

The true bundle 4 is arranged at the same position as each pillar 1, 1 and the bundle 5 is arranged at the same distance between each pillar 1, 1 and each pillar 1, 1. , The purlins 6 are assembled in the direction of the girder of the roof over the respective true bundles 4, and each bundle 5
A purlin 7 is also installed over the girder direction of the roof.

Then, each rafter 8 is assembled to the purlin 6 and the main house 7 with a predetermined roof slope from the purlin 6 to a portion to be the eaves in the roof flow direction, and the rafter 8 has the slope. A base plate 9 serving as a base material for the roof is attached along the line.

Therefore, the unitized solar panel 10 in the present embodiment is used as a roofing material for the base plate 9
As shown in FIG. 3 (A), the structure is to be laid on the top, and the structure is the same as the existing structure with the function as a solar power generation Panels 11 (referred to as a single panel 11) are combined in a plane (a panel 11 of 9 units in this case) in a plane to form a unit having a substantially rectangular shape. The solar panel 10 has one side, that is, the length of one side 10a corresponding to the girder direction of the roof, and the interval between the pillars 1 and 1 (the length from the center of the pillar to the center is preferable). 2 shows a column provided in the flow direction of the roof.) And the other side, that is, the length of the other side 10b corresponding to the flow direction of the roof, is set to a predetermined gradient. Plane projection in the state of being installed at a corner is in the direction of the girder Equal to the length of the response to one side 10a
Then, the whole is formed into a square shape. That is, the actual length of the other side 10b is a dimension longer than the length by plane projection, and if the distance between the columns 1 and 1 that are framed is L and the slope angle of the roof is α, L / cos α
Can be found at. Solar panel 10 in this case
Is to be laid on the roof at a site of a square of a plane projection formed by each pillar 1, 1 (true bundle 4 or bundle 5).

As shown in FIG. 3 (B), when used on the projecting corner or the entering corner of the roof, a predetermined number of single panels 11 are formed in a substantially isosceles triangular shape in the same plane as above. The solar panel 12 is used in combination with the solar panel 12 having the isosceles right triangle shape.
Similarly, the length of one side, that is, the side 12a corresponding to the direction of the girder of the roof, is preferably the distance between the columns 1 and 1 (the length from the center of the column to the center of the columns is preferable). Shows a pillar provided in the flow direction of the roof.) And the other side, that is, the length of the other side 12b corresponding to the flow direction of the roof, is actually at a predetermined inclination angle. The plane projection of the installed state is made equal to the length of one side 12a corresponding to the direction of the girder so that the whole becomes a square shape.
Is formed in. That is, the actual length of the other side 12b is longer than the length of the plane projection, the distance between the pillars 1 and 1 that are framed is L, and the slope angle of the roof is α.
Then, it can be obtained by L / cos α. In this case, the solar panel 10 is positioned at a portion of a plane projection triangle formed by each pillar 1, 1 (true bundle 4 or bundle 5) with respect to the roof and corresponds to the projecting corner or the entering corner. Is to be laid.

The quadrangular solar panels 10 and the isosceles right-angled solar panels 12 unitized in this embodiment having the above-mentioned configuration are as follows:
On the base plate 9 of the roof structure which is framed as it is, each quadrangular solar panel 10 is formed by each pillar 1, 1 (true bundle 4 or bundle 5) in the same sense as a flat roof tile in the conventional roofing. The solar panel 12 having an isosceles right triangle shape is also installed in each of the pillars 1 in the plane projection square portion (outer corner portion or inner corner portion).
1 (true bundle 4 or bundle 5), and is laid at the position of a plane-projection triangle.

By combining the above-mentioned quadrangular solar panel 10 and right-angled isosceles triangular solar panel 12, the whole roof or a part of the solar panel 10 and 12 is used as a roof material as it is. It becomes possible to use.

The solar panels 10 and 12 laid on the base plate 9 are constructed so as to take measures against rain.

In the present embodiment, the single panels 11 of the solar panels 10 and 12 are all for solar power generation. However, the single panel 11 part has a solar hot water function, or is simply for lighting. Various combinations of windows and the like are possible, and these are collectively referred to as a solar panel in this specification.

[0018]

As described above, according to the first aspect of the present invention, the solar panel itself is used as it is as a roofing material on the roof-formed square portion of the roof formed between the axially assembled columns, and the conventional roofing etc. It is possible to lay it as if it were a flat roof tile, etc., and it is possible to simplify the construction and reduce the cost economically.

[0019] In the second aspect, it is possible to directly to position the solar panel itself to the site of planar projection isosceles right triangle in a roof formed between the posts which are framing is laid, It is possible to lay it as a roofing material corresponding to a plane projection oblique portion (extruded corner portion or entry corner portion).

[Brief description of drawings]

FIG. 1 is a plan view showing an outline of a general gable roof.

FIG. 2 is a cross-sectional view taken along line XX of FIG. 1 and is a schematic view of a roof structure.

FIG. 3A is a perspective view showing a solar panel unitized into a square used as a roofing material. (B) A perspective view showing a solar panel unitized into an isosceles right triangle used as a roofing material.

[Explanation of symbols]

1 Pillar 4 True bundle 5 Bundle 10 Solar panel unitized into an approximately square 12 Solar panel unitized into an approximately isosceles right triangle

Claims (2)

(57) [Claims] 1. A solar panel laid at a desired slope and used as a roofing material, wherein one side of the solar panel is equal to the dimension between the framed pillars of the house in the direction of the girder of the roof. and dimensions, the other sides equal in length of the length and the other side of the dimension obtained by the plane projection of installed state of an actual slope angle in the flow direction of the roof the one side
As described above , the solar panel is characterized in that the shape of the plane projection is formed in a square shape as a whole. 2. A solar panel laid at a desired slope and used as a roofing material, wherein one side of the solar panel is equal to the dimension between the framed pillars of the house in the direction of the girder of the roof. and dimensions, the other sides equal in length of the length and the other side of the dimension obtained by the plane projection of installed state of an actual slope angle in the flow direction of the roof the one side
As described above , the solar panel is characterized in that the shape of the plane projection is formed as an isosceles right triangle as a whole.