JP5731203B2 - Solar power unit mounting device - Google Patents

Description

  The present invention relates to an apparatus for mounting a photovoltaic power generation unit capable of mounting the photovoltaic power generation unit on a metal roof in an inclined state and capable of selecting the inclination direction of the photovoltaic power generation unit during construction. .

  Conventionally, various devices for attaching a photovoltaic power generation unit (also referred to as a photovoltaic power generation panel) on a metal roof have been developed. Many solar power generation units are required in factories and large buildings. In particular, when the roof is made of a metal folded plate roof plate material, a large number of parts are required. There exists patent document 1 as this kind of thing.

JP-A-2005-155040

  In what was disclosed by patent document 1, a clamp etc. were mounted | worn with the mountain-shaped top part of the metal roof, the elongate support member was provided in this clamp, and the solar power generation device was mounted | worn with this support member. Because of such a configuration, the number of parts is large and assembly is troublesome. Therefore, the present invention aims to eliminate these drawbacks and defects and to make them versatile. That is, the problem (technical problem or purpose) to be solved by the present invention is to realize that the photovoltaic power generation unit can be easily and quickly attached, the work efficiency can be improved, and it can be provided at low cost. is there.

  Therefore, as a result of intensive researches to solve the above problems, the inventor has found that the invention of claim 1 is based on the length of the clamping portion of the metal roof in which the folded roof sheet members are connected to each other via the clamping portion. A plurality of base tools that are fixed to the direction and adjacent clamping parts, a low pedestal base and a high pedestal base that are placed and fixed on the base tool, and a photovoltaic power generation unit, and Side parts are bent from both ends in the width direction, and a locking piece is formed from the lower end of one of the side parts inward and upward in the width direction of the base tool, and on the other side part. Is provided with a fastening bolt, and the neck of the clamped portion is pressed by the tip of the locking piece and the fastening bolt, and the base tool, the low receiving base, the base tool and the high receiving base. It is fixed with bolts and nuts, and the two low pedestals and the two high pedestals Both low receiving base which slopes are formed with both high receiving base, by which the mounting device of the solar power generation unit, wherein the photovoltaic unit is disposed fixed, and solve the problem.

  The invention according to claim 2 is the invention according to claim 1, wherein a plurality of the photovoltaic power generation units are installed, and a base axis forming an inclined surface of each photovoltaic power generation unit coincides with a longitudinal direction of the folded roof sheet material. The above-mentioned problem has been solved by using a solar power generation unit mounting apparatus characterized by the above.

A plurality of base tools for fixing the invention according to claim 3 to the longitudinal direction of the metal-clad portion of the metal roof to which the folded-plate roof plate material is connected via the metal-clamping portion and the adjacent metal-clamping portion, and the folded plate At least two purlin-like members placed and fixed on the plurality of base tools arranged on a line orthogonal to the longitudinal direction of the roof plate material, and a low pedestal for placing and fixing on the purlin-like member And the base pedestal and the photovoltaic power generation unit, and the base tool has a side surface bent from both ends in the width direction of the upper surface portion, and the width of the base tool from the lower end of one of the side surface portions. A locking piece is formed inward and upward in the direction, and a clamping bolt is provided on the other side surface, and the neck of the clamped portion is pressed by the tip of the locking piece and the clamping bolt. The low pedestal and the purlin-shaped member and the high pedestal and the purlin-shaped part Are fixed with bolts and nuts, and the photovoltaic power generation unit is disposed and fixed to both the low pedestal and the two high pedestals in which inclined surfaces are formed by the two low pedestals and the two high pedestals. The problem was solved by using a solar power generation unit mounting device.

  The invention according to claim 4 is the invention according to claim 3, wherein a plurality of the photovoltaic power generation units are installed, and a base axis forming an inclined surface of each photovoltaic power generation unit is on a line orthogonal to the longitudinal direction of the folded roof sheet material The above-mentioned problem has been solved by using a solar power generation unit mounting device that is arranged in

  A fifth aspect of the present invention is the invention according to any one of the first, second, and third aspects, wherein a mounting material is fixed to a lower surface of the photovoltaic power generation unit, and the mounting material is a top portion of the low receiving base and the high receiving base. The above-described problem is solved by using a solar power generation unit mounting device that is fixed to the solar power generation unit.

  According to the first aspect of the present invention, the main member for attaching the photovoltaic power generation unit to the metal roof is to attach the base tool, the low receiving pedestal and the high receiving pedestal, and the solar power generating unit mounting device can be formed. Specifically, it is necessary to process the frame material and mounting material of the photovoltaic power generation panel constituting the photovoltaic power generation unit at a factory or the like. However, installation at the site is strictly limited to the base tool, the low pedestal and the high receiving power. Mounting the base and mounting the low and high receiving bases to the solar power generation unit.

  Furthermore, the light-receiving surface of the solar power generation unit can be easily placed on the sun. That is, the inclination direction of the photovoltaic power generation unit can be installed in any one of the four most preferable directions with respect to the metal roof, and can easily correspond to various conditions such as topography and environment. . In the invention of claim 2, in particular, the base shaft forming the inclined surface coincides with the longitudinal direction of the folded plate roof plate material, so that it is generally possible to attach the vertical type solar power generation unit.

  Moreover, in invention of Claim 3, since it is attachment of a photovoltaic power generation unit via a purlin member, there exists the maximum effect which can perform strong attachment construction, although a structure is simple. Further, in the invention of claim 4, the base shaft forming the inclined surface is provided in a direction orthogonal to the longitudinal direction of the folded roof sheet material, so that generally a horizontal type solar power generation unit can be attached. Furthermore, in the invention of claim 5, since the attachment material is fixed to the lower surface of the photovoltaic power generation unit, the attachment material, the low pedestal and the high pedestal can be easily attached.

(A) is the front view of 1st Embodiment of this invention, (B) is a X1-X1 arrow top view of (A), (C) is the principal part enlarged view of (A). (A) is a principal part perspective view of 1st Embodiment of this invention, (B) is a principal part perspective view which remove | excluded the photovoltaic power generation unit from (A), (C) looked at the photovoltaic power generation unit from the lower surface side. (D) is a Y1-Y1 arrow sectional view of (C). (A) is the front view of the state which isolate | separated the structural member in 1st Embodiment of this invention, (B) and (C) is a perspective view of a high receiving base and a low receiving base, (D) is a perspective view of a base tool. , (E) is a front view of the main part of the metal roof in which the tightening part is a round hook type, (F) is a front view of the main part of the metal roof in which the tightening part is a square hook type, and (G) is in the metal roof. It is a principal part front view which used the vertical tightening part as a vertical hook type. (A) is a principal part front view in 2nd Embodiment of this invention, (B) is the X2-X2 arrow top view of (A), (C) is Y2-Y2 arrow expanded sectional view of (B). is there. (A) is the perspective view of 2nd Embodiment of this invention, (B) is the perspective view which remove | excluding the photovoltaic power generation unit from (A).

  Hereinafter, a plurality of embodiments of the present invention will be described with reference to the drawings. The main configuration of the first embodiment of the present invention is composed of a base tool 1, a low receiving pedestal 3A and a high receiving pedestal 3B, a solar power generation unit A, and the like, as shown in FIGS. The In particular, the solar power generation unit A is obtained by combining the solar power generation panel 4 and the frame material 5.

  As shown in FIGS. 2 and 3, the base tool 1 includes an upper surface portion 11, a side surface portion 12, a locking piece 13, and a fastening bolt 14. The upper surface portion 11 is formed in such a length that it can be placed on the upper piece portions 71 of the metal roof B as the folded plate roof plate material 7. Side surfaces 12 and 12 are bent at both ends in the width direction of the upper surface portion 11 in a substantially hanging shape.

  A locking piece 13 is formed from the lower end of any one of the side surface portions 12 inward and upward in the width direction of the base tool 1. The distal end of the locking piece 13 is formed to extend to a substantially central portion in the width direction of the base tool 1. The upper surface portion 11, the side surface portions 12, 12 and the locking piece 13 are integrally formed of a thin metal plate material.

  Further, a screw hole 12a is formed in the other side surface portion 12, and a tightening bolt 14 is attached to the screw hole 12a (see FIG. 6B). The fastening bolts 14 and the screw holes 12a are generally provided at two locations in the longitudinal direction (depth direction) of the base tool 1. There may be only one place.

  The cross section formed by the upper surface portion 11 and the side surface portions 12 and 12 is formed in a substantially gate shape (see FIG. 6A). The base tool 1 is disposed at a mountain-shaped top portion of the metal roof B so as to be covered with the tightening portion J, and the tightening portion J is surrounded by the upper surface portion 11 and both side surface portions 12 and 12. [Refer to FIG. 6 (A), (E)]. Further, the front end of the locking piece 13 presses a portion formed by the lower and upper neck portions 54a and 55a of the tightening portion J, and the opposite surface is pressed by the end of the tightening bolt 14. It has become.

  Further, the low receiving pedestal 3A and the high receiving pedestal 3B are formed by bending the band plate material into a square shape when viewed from the side, and the low receiving pedestal 3A is formed with a high height. The high pedestal 3B is provided. In particular, the low pedestal 3A and the high pedestal 3B have the same shape in plan view. Specifically, the low pedestal 3A includes a bottom portion 31A, both side portions 32B and 32A, and a top portion 33A, and the high reception pedestal 3B includes a bottom portion 31B, both side portions 32B and 32B, and a top portion 33B. Yes.

  As shown in FIGS. 1 and 8 and the like, the photovoltaic power generation unit A is a unit in which a planar photovoltaic power generation panel 4 and a frame 5 are combined. The photovoltaic power generation panel 4 includes a large number of photovoltaic power generation cells 41a, 41a,... To constitute a photovoltaic power generation array 41, and a plurality of the photovoltaic power generation arrays 41 are aggregated. Specifically, for example, the photovoltaic power generation cell 41a is several cm square, and the photovoltaic power generation array 41 is about 30 cm square. The photovoltaic power generation panel 4 is a square or rectangle (about 1 m × about 1.5 m) inside and outside about 1 m. It is not limited to this size.

  As shown in FIG. 7A, the frame body 5 is formed by integrally forming an upper frame frame 51 and a lower frame frame 52 as a rectangular frame. The upper frame frame 51 surrounds the photovoltaic power generation panel 4 in a frame shape and has a U-shaped cross section. A lower frame frame 52 having a U-shaped cross section is provided on the lower side. The lowermost piece is formed as a wide piece 521. The cross sections of the upper frame frame 51 and the lower frame frame 52 of the frame 5 are E-shaped. The photovoltaic power generation unit A composed of the photovoltaic power generation panel 4 and the frame body 5 is previously installed and configured at a factory.

  Reference numeral 6 denotes an attachment material, which is a member attached to the lower surface of the frame body 5 and has a cross-sectional gate shape. That is, the top portion 61 and the both side portions 62, 62 form a gate shape, and the top 33A portion of the low receiving pedestal 3A and the top portion 33B portion of the high receiving pedestal 3B are respectively inserted into the gate shape. ing. The attachment member 6 is attached to the lower surface with bolts and nuts so as to straddle between the opposing sides of the frame body 5.

  As shown in FIG. 4 etc., the metal roof B is comprised by the folded-plate roof board | plate material 7, the receiving metal fitting 8A, and the structural material 8B. In the present invention, the metal roof B is a roof having a size suitable for large buildings such as large factories, large buildings, and large facilities. The folded plate roof plate material 7 is a folded plate type formed from a thin metal plate, and rising side portions 72 and 72 are formed from both sides in the width direction of the main plate 71. A substantially flat upper piece 73 is formed at the upper end of the rising side portion 72. A lower collar portion 74 is formed from the outer end of the upper piece portion 73, and an upper collar portion 75 is formed on the other upper piece portion 73.

  A plurality of the folded plate roof plate members 7, 7,... Are arranged side by side, and the lower and upper ridge portions 74 and 75 of the adjacent folded plate roof plate members 7, 7 are coupled to each other by clamping. 5 (A)] and a metal roof B is constructed. The main plate 71 and the rising side portions 72 and 72 form a valley shape having a substantially bottomed V-shaped cross section. Specifically, the tightening portion J composed of the lower collar portion 74 and the upper collar portion 75 has a substantially “?” Cross section as shown in FIG. In addition, it may be formed in a substantially quadrangular cross section (see FIG. 5B) or an inverted L cross section (see FIG. 5C).

  Vertical portions are formed in the lower part of the lower collar part 74 and the upper collar part 75, and are referred to as a lower collar part and an upper collar part. In the tightening portion J, the lower neck portion and the upper neck portion are substantially in contact with each other to form a neck portion that is formed in a substantially vertical shape. A plurality of folded roof plate members 7, 7,... Are juxtaposed on the structural member 8B via a metal fitting 8A, and the lower flange portion 74 and the upper flange portion 75 of the adjacent folded plate roof plate members 7, 7 are tightened. To be formed as a clamping portion J.

  Next, the construction procedure of the first embodiment of the present invention will be described. In the metal roof B in which a plurality of tightening portions J, J,... Are juxtaposed by the tightening connection between the adjacent folded plate roof plate materials 7, 7, the folded plate roof plate material 7 constituting the metal roof B is provided. A gradient is provided along the longitudinal direction, and an inclination direction of the gradient is defined as a flow direction, an upper side of the flow direction is set as a water-side, and a lower side is set as a water-side. The upper side of the metal roof B in FIG. 1B is the water upper side, and the lower side is the water lower side.

  In other drawings, the metal roof B always has a water upper side and a water lower side, but in the present invention, the inclined surface (inclination angle θ) of the photovoltaic power generation unit A is directed to either side. Installed. Thus, it can attach on either the water upper side or the water lower side of the metal roof B, and is not limited to the embodiment.

  The base tool 1 is disposed along the longitudinal direction of a plurality of adjacent tightening portions J of the metal roof B, and the tightening portions J are sandwiched between the side surface portions 12 and 12 of the base tool 1. Further, the front end of the locking piece 13 is in contact with or close to the base of the tightening portion J. When the tightening bolt 14 is tightened, the tip of the tightening bolt 14 comes into contact with and presses the neck base of the tightening portion J, whereby the base tool 1 is fixed to the tightening portion J. In particular, the base tool 1 is fixed at an appropriate interval in the longitudinal direction of the tightening portion J. At least two are fixed.

  Further, the base tool 1 is fixed to a plurality of adjacent tightening portions J, J,. And it mounts on the two base tools 1 and 1 fixed by the appropriate space | interval in the longitudinal direction of the clamping part J, and the said low receiving bases 3A and 3A are fixed with the volt | bolt nut. . Also, in the longitudinal direction of the adjacent clamping portion J, the high pedestals 3B and 3B are fixed by bolts and nuts corresponding to the two low pedestals 3A and 3A, and are appropriately inclined at four locations. A surface is formed.

  Then, the mounting members 6 and 6 of the photovoltaic power generation unit A are placed on the low pedestals 3A and 3A and the high pedestals 3B and 3B, respectively, and are fixed by bolts and nuts to complete the construction. At that time, the base axis P [see FIG. 1 (B)] as the inclined basic line which becomes the inclined surface of the photovoltaic power generation panel 4 of the photovoltaic power generation unit A of the photovoltaic power generation unit A is the folding of the metal roof B. It is constructed so as to be the same as the longitudinal direction of the plate roof plate material 7. This is referred to as “vertical rolling” of the photovoltaic power generation unit A.

  Next, a second embodiment of the present invention will be described with reference to FIGS. In particular, the purlin-like member 2 is newly provided. That is, as shown in FIGS. 4 and 5, the main configuration is that the base tool 1, the purlin-like member 2, the low receiving pedestal 3 </ b> A and the high receiving pedestal 3 </ b> B, the photovoltaic power generation unit A, and the metal roof B It is composed of The base tool 1, the low receiving pedestal 3A and the high receiving pedestal 3B, the solar power generation unit A, and the metal roof B are the same as the constituent members of the first embodiment, and the description thereof is omitted.

  The purlin-like member 2 has a hat shape in cross section, and has a gate-shaped portion 21 and horizontal edges 22 and 22 integrally formed outside the lower ends on both sides and has an appropriate length. The purlin-like member 2 is mounted on a base tool 1 fixed on a plurality of adjacent tightening portions J, J,. That is, at least two of the purlin-like members 2 are attached on the base tool 1 so as to be orthogonal to the longitudinal direction of the folded plate roof plate material 7 of the metal roof B.

  The two low pedestals 3A and 3A are mounted on the first one of the purlin-like member 2 and fixed with bolts and nuts at a predetermined interval. Then, it is placed on the second purlin-like member 2, and the two high receiving pedestals 3B, 3B are fixed with bolts and nuts at a predetermined interval. Appropriate inclined surfaces are formed at four locations.

  Similarly, the mounting materials 6 and 6 of the photovoltaic power generation unit A are placed on the low pedestals 3A and 3A and the high pedestals 3B and 3B, respectively, and are fixed by bolts and nuts to complete the construction. . This time, the base axis P as the inclined basic line that becomes the inclined surface of the photovoltaic power generation panel 4 of the photovoltaic power generation unit A of the photovoltaic power generation unit A is the longitudinal direction of the folded roof sheet material 7 of the metal roof B. It is constructed to be orthogonal. This is referred to as “horizontal” of the photovoltaic power generation unit A.

  Also in the first embodiment and the second embodiment, mainly the base tool 1, the low receiving pedestal 3A and the high receiving pedestal 3B, or the base tool 1, the purlin-like member 2, the low receiving pedestal 3A and the high receiving pedestal 3B. Thus, there is the greatest advantage that the solar power generation unit A can be easily and quickly attached to the metal roof B. Furthermore, it has the effect that the inclination direction (light-receiving surface) of the photovoltaic power generation unit A can be appropriately selected and installed at the time of construction.

DESCRIPTION OF SYMBOLS 1 ... Base tool, 2 ... Purlin-like member, 3A ... Low receiving base, 3B ... High receiving base,
A ... Solar power generation unit, B ... Metal roof, J ... Clamping part, 7 ... Folded plate roof material.

Claims (5)

A plurality of base tools to be fixed to the longitudinal direction of the lashing portion of the metal roof in which the folded-plate roof plate members are connected to each other via the lashing portions and the adjacent lashing portions, and to be fixed on the base tools. It consists of a low pedestal and a high pedestal, and a photovoltaic power generation unit, and the base tool is bent from both ends in the width direction of the upper surface portion so that the side surface portion is bent , and the base is formed from the lower end of one of the side surface portions. A locking piece is formed inward in the width direction of the tool and upward, and a clamping bolt is provided on the other side surface, and the end of the locking piece and the clamping bolt It is configured to press the neck, and the base tool, the low receiving pedestal, and the base tool and the high receiving pedestal are fixed by bolts and nuts , and an inclined surface is formed by the two low receiving pedestals and the two high receiving pedestals. The solar power generation unit is disposed and fixed to both the low pedestal and the high pedestal. Mounting device for photovoltaic unit characterized by comprising Te.   2. The photovoltaic power generation according to claim 1, wherein a plurality of the photovoltaic power generation units are installed, and a base axis that forms an inclined surface of each photovoltaic power generation unit coincides with a longitudinal direction of the folded plate roof sheet material. Unit mounting device. A plurality of base tools fixed to the longitudinal direction of the clamming part of the metal roof to which the folded plate roof board material is connected via the clamming part, and the longitudinal direction of the folded plate roofing sheet material. also the two hazy member less mounted fixed on said plurality of base members which are arranged on a line perpendicular Te, a low receiving base and high receiving base for mounting fixed on the purlins member, the sun The base tool has a side surface bent in a hanging manner from both ends of the upper surface in the width direction, and extends from the lower end of one of the side surfaces inward and upward in the width direction of the base device. The locking piece is formed and a clamping bolt is provided on the other side surface, and the neck of the clamped portion is pressed between the tip of the locking piece and the clamping bolt, and the pedestal and the hazy member and the high receiving base hazy member and a bolt-nut Is fixed at the both lower receiving base and two high-receiving base with both low receiving base which inclined surface is formed at the both high receiving base, characterized in that the photovoltaic unit is disposed fixed Mounting device for solar power generation unit.   In Claim 3, The said photovoltaic power generation unit is installed in multiple numbers, The base axis which forms the inclined surface of each photovoltaic power generation unit is arrange | positioned on the line orthogonal to the longitudinal direction of the said folded-plate roof board | plate material. A solar power generation unit mounting device.   In any one of Claim 1, 2, or 3, A mounting material is fixed to the lower surface of the said photovoltaic power generation unit, and this mounting material is fixed to the top part of the said low receiving base and a high receiving base. A solar power generation unit mounting device.

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