JP2011052527A - Mounting structure for solar panel module - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a mounting structure for a solar panel module, which provides an inexpensive solar power generation system, by imparting a roof function for water cut-off, drainage or the like to the solar panel module attaching structure itself. <P>SOLUTION: This attaching structure for the solar panel module is constituted to attach a vertical frame and a horizontal frame vertically and laterally to an attaching base on a skeleton side, and to fix the solar panel module onto the vertical frame and the horizontal frame, the solar panel module is framed by upper and lower upper frame member and lower frame member, and right and left vertical frame members, the horizontal frame includes a piece to be locked, a locking part provided in the upper frame member is locked to the piece to be locked, the vertical frame includes a vertical frame member fixing part, and water cut-off erected pieces on both sides of the vertical frame member fixing part, and an attaching piece projected lateral-directionally from the vertical frame member is fixed to the vertical frame member fixing part of the vertical frame. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a solar panel module mounting structure.

The spread of solar power generation systems is indispensable for effective use of solar energy.
However, when a solar panel module is attached to a roof of a building, it is conventional to form a roof to protect the building from the wind and rain, and then install and install an angle etc. on it. As a result, the construction cost was high, which hindered its spread.
Patent Documents 1 and 2 disclose a solar panel mounting structure, but the structure is also complicated and a secondary mounting structure for the roof.

JP 2002-220904 A JP 2002-227353 A

  An object of the present invention is to provide a solar panel module mounting structure that is an inexpensive solar power generation system by providing roof functions such as water stop and drainage to the solar panel module mounting structure itself.

A solar panel module mounting structure according to the present invention is a solar panel module mounting structure in which a saddle frame and a horizontal frame are mounted vertically and horizontally on a mounting base portion on the fuselage side, and the solar panel module is fixed to the saddle frame and the horizontal frame. The solar panel module is framed by an upper and lower upper frame, a lower frame and left and right eaves frames, and the horizontal frame has a locked piece, and the locking portion provided on the upper frame is locked. The hook frame has a hook frame fixing portion and water stop standing pieces on both sides of the hook frame fixing portion, and the mounting piece projecting laterally from the hook frame is attached to the hook frame of the hook frame. It is what fixes to a fixing | fixed part.
Here, the mounting base portion on the side of the driving body is not limited to the roof, and may be a wall or an inclined surface of a building, and an attachment target is not selected.

  In the present invention, when the upper frame of the solar panel module has a locked portion that engages the lower frame of the solar panel module that is mounted above the solar panel module, the solar panel module is sequentially hooked from the lower side. Can be laid.

  In the present invention, when the solar panel modules are arranged side by side in the vertical direction, the upper frame and the lower frame may be provided with insertion pieces that enter with a gap therebetween.

In the solar panel module mounting structure according to the present invention, the eaves frame and the horizontal frame are mounted vertically and horizontally on the building laying surface, and the engaging portion provided on the upper frame that frames the solar panel module is engaged with the horizontal frame. The solar panel can be installed and installed simply by engaging with the stopper piece and fixing the attachment piece provided on the frame frame to the frame frame fixing part of the frame frame using screws or the like.
It is also possible to attach and fix the eye plate as needed from above the attachment pieces and attachment pieces of the adjacent frame frames.
When the solar panel module is installed in this way, the solar panel itself has a role corresponding to the roof, and rainwater that has entered between the solar panel and the frame temporarily moves up and down via drain holes provided in the lower frame. Drained from between the frames.
Between the upper and lower frames and between the eaves frames, the water is stopped by the overlapping parts provided between the upper and lower frames and the fixing pieces of the eaves frame. Since it flows down to the downstream side through the water-standing standing piece, laying a plurality of solar panel modules itself plays a role as a roof structure.

An example of a frame structure of a solar panel module is shown. AA line, BB line, and CC line sectional views of the frame are shown respectively. An example of the installation of the heel frame and the horizontal frame is shown. The procedure for attaching the frame assembly to the horizontal frame is shown. The procedure for attaching the frame assembly to the eaves frame is shown. An example of solar panel module installation will be shown. The example which connected the coffin frame and the horizontal frame with the connection tool is shown. (A) shows sectional drawing which attached the upper frame and the lower frame to the horizontal frame, (b) shows sectional drawing which attached the collar frame to the collar frame. The structural example which connects a heel frame and a horizontal frame with a connector is shown. An example of attaching a solar panel module to a horizontal frame is shown. The example which attaches the following solar panel module to the upper side of a solar panel module is shown. An example of attaching the eye plate to the frame is shown. The example which formed the to-be-latched part of the lower frame in the horizontal frame is shown.

FIG. 1 is a perspective view of the solar panel module 110, FIG. 2A is a sectional view taken along the line AA of the upper frame 110, FIG. 1B is a sectional view taken along the line BB of the lower frame 120, FIG. 3C is a sectional view of the collar frame 130 taken along the line C-C.
The solar panel module 100 is a module that converts sunlight into electricity, and is framed by left and right eaves frames 130, an upper frame 110, and a lower frame 120.

As shown in FIG. 2A, the upper frame 110 is made of an extruded aluminum material or the like, and a frame portion 113 is erected in a substantially L shape from the base portion 111, and a panel is placed inside the frame portion 113. 3 is formed by an inner piece 113a and an outer piece 113b.
In addition, screw holes 116 a and 116 b are provided inside the frame portion 113 to fit inside the collar frame 130 and fasten with screws.
The base portion 111 includes a locking portion 112 that locks to a lateral frame 20 described later and a locked portion 117 that is positioned above and locks a lower frame 120 of a solar panel module that is arranged in parallel.
The locking portion 112 may have any shape as long as the locking portion 112 can be locked to the horizontal frame 20, but in this embodiment, as shown in FIG. The locked piece 22 of the horizontal frame is squeezed inside the character shape.
Further, the shape of the locked portion 117 is not particularly limited as long as it can be engaged with the lower frame of the panel arranged in parallel above.
In the present embodiment, the locked portion 117 is formed in a protruding piece shape, and the engaging portion 122 having a U-shaped cross section of the lower frame 120 is easily hooked.

As shown in FIG. 2B, the lower frame 120 is formed with a frame portion 123 that is substantially L-shaped from the base portion 121, and an inner piece 123 a and an outer piece 123 b are formed inside the frame portion 123 so as to face the upper frame 110. And the fitting groove of the panel 3 is formed.
A seal member 4 is attached to the outer edge of the panel as necessary.
Inside the frame portion 123, there are screw holes 126a and 126b to be fitted and assembled to the collar frame 130, and a water drain hole 126 is provided by partially cutting out.
The lower frame 120 has an engaging portion 122 that is folded back from the upper end of the base 121 toward the lower frame.

As shown in FIG. 2C, the eaves frame 130 is constructed such that the frame portion 132 is erected from the base portion 134, and the end portions of the upper frame and the lower frame are fitted inside the frame portion and are framed by the screws 15.
A fitting portion for the panel 3 is formed inside the frame portion 132 by an inner piece 132b and an outer piece 132a.
An attachment piece 131 is provided on the outside of the frame portion 132 so as to protrude in the lateral direction.

As shown in FIG. 6, the solar panel module 100 framed as described above is fixed to the mounting base 1 such as a field with the eaves frame 10 and the horizontal frame 20 with screws or the like vertically and horizontally. The solar panel module 100 is hooked on the horizontal frame 20 and can be fixed to the eaves frame 10.
The procedure will be described below with reference to FIGS.
The present invention is characterized in that the solar panel module 100 is laid vertically and horizontally to give a function as a roof, and the mounting base portion 1 may be a so-called field plate or the like of the roof.

As shown in FIG. 3, the eaves frame 10 is attached to the attachment base portion 1 in the vertical direction, and the horizontal frame 20 is attached in the lateral direction perpendicular to the eaves frame 10.
In the present invention, rainwater flows down along the kite frame 10, and the kite 2 may be provided at the lower end of the kite frame 10.
In addition, this cage | basket 2 is an example at the time of attaching a solar panel module to a roof, and is not necessarily required.
The gutter 2 may be connected to a pipe 2a that guides rainwater downward.

As shown in FIG. 4A, the horizontal frame 20 has an “E” cross section, and a locked piece 22 is erected obliquely upward from a horizontal fixing piece 21 fixed to the mounting base portion 1. A locked groove 22a for locking the locking portion 112 of the upper frame 110 is formed inside.
As a result, the lower frame 110 can be easily locked and fixed to the horizontal frame 20, so that there is no possibility that the panel falls downward during the mounting operation.
As shown in FIG. 6, the solar panel module 100 can slide toward the eaves frame 10 while being hooked on the horizontal frame 20.
Next, as shown in FIGS. 4B and 4C, a panel positioned above the attached panel is attached.
As shown in FIG. 2, the insertion pieces 115 provided toward the outer side of the upper frame 110 and the insertion pieces 125 provided on the outer side of the lower frame 120 of the panel arranged thereabove are alternately arranged with a gap. In this manner, the engaging portion 122 of the lower frame 120 is engaged with the locked portion 117 of the upper frame 110 positioned below the engaging portion 122.
A protruding piece 121 a is provided on the base 121 side facing the engaging portion 122.
At this time, the overlapping piece 124 of the lower frame 120 overlaps the overlapping piece 114 of the upper frame 110.
If it does in this way, it will stop at the overlap part of a mutual overlap piece, but even if it penetrates inside, it suppresses the kinetic energy of rain water with the insertion pieces 115 and 125 arranged alternately, Infiltration due to capillary action can be suppressed.

Moreover, the collar frame 130 of the solar panel module 100 is fixed as shown in FIG.
The eaves frame 10 has an eaves fixing piece 11 for fixing to the mounting base portion 1 and an eaves frame fixing portion 12 erected from the eaves fixing piece 11, and erecting from the eaves fixing piece 11 on both sides thereof. Each has a water stop standing piece 13 and a drainage recess 14 is formed between the anchor frame fixing portion 12 and the waterstop standing piece 13, so that even if rainwater enters, it passes through this drainage recess. Drained.
As shown in FIG. 5 (c), the attachment pieces 131 provided on the left and right collar frames 130, 130 are screwed to the collar frame fixing portion 12 of the collar frame 10 using screws 16, and then the left and right collar frames 130, 130 are attached. The eye plate 32 is screwed with screws 33 so as to close the gap.
The face plate 32 has an attachment portion 31 and a pressing piece 32 that is erected from both sides thereof and is turned upward and has a plurality of convex pieces 32a provided on the back surface of the holding piece. The convex pieces 133a provided on the side are alternately engaged with each other.
By making the convex pieces interlocking in this way, the kinetic energy of rainwater is consumed, and the infiltration due to capillary action is suppressed.

  By adopting such an attachment structure of the upper frame, the lower frame, and the eaves frame, the water stop is high, and even if it enters from between the right and left assemblages etc., it has the water stop standing piece 13 of the eaves frame Although it has a simple structure, it has a sufficient function as a roof.

Next, as another embodiment, an example in which the heel frame 10A and the horizontal frame 20A are connected by a substantially L-shaped connector 40A will be described.
The parts common to the previous embodiment are indicated in the drawing with the reference symbol A corresponding to the above-described embodiment, so that detailed description will be omitted and only the differences will be described.
FIG. 7 shows a structural example in which a solar module 100A is juxtaposed to a frame frame 10A and a horizontal frame 20A connected by a connector 40A, (a) shows a sectional view of the vicinity of the horizontal frame 20A, (b) A cross-sectional view in the vicinity of the heel frame 10A is shown.

8 to 11 show the attachment procedure.
As shown in FIG. 8, the dredge frame 10 is formed with protruding water stop standing pieces 13A so that drain recesses 14A are formed on both sides of the standing rib frame fixing portion 10A. In this example, a connecting groove 17A having a substantially U-shaped cross section is provided on the outer sides of the water standing piece 13A so that the heads of the bolts can be slid in the vertical direction and the bolts are prevented from falling off.
The bolt-side head of the fixture 17 made of a bolt and nut attached to one side of the connection tool 40A is slid into the connection groove 17A, and then laterally inserted through the bolt and nut fixture 19A attached to the other side of the connection tool 40A. The frames 20A are connected to each other.

Next, as shown in FIG. 9, the locking part 112A provided on the upper frame 110A of the solar module panel 100A is engaged with the locked piece 22A of the horizontal frame 20A, and the hook frame 130A is attached to the hook frame fixing part 12A. Screw 131A.
Next, as shown in FIG. 10, an engaging portion 122A provided on the lower frame 120A of the upper solar module 100A is attached to the locked portion 117A that covers the locking portion 112A locked to the horizontal frame 20A from the outside. Lock.
Thereafter, the eye plate 30A is attached as shown in FIG.

FIG. 12 shows an example in which the lower frame 120B is supported by both the locked portion 117B of the upper frame 110B by providing the locked portion 22C of the lower frame 120B also in the horizontal frame 20B.
Moreover, it is the example which fixed the collar frame 10B with the coupling tool 40A and the bracket 40B.
Also in this case, a water stop standing piece 13B and a drain recess 14B are formed in the heel frame 10B.

DESCRIPTION OF SYMBOLS 1 Mounting base part 2 樋 10 竪 Frame 11 竪 Fixing piece 12 竪 Frame fixing part 13 Water stop standing piece 15 Screw 20 Horizontal frame 21 Horizontal fixing piece 22 Locked piece 30 Eye plate 31 Mounting part 32 Presser piece 100 Solar panel Module 110 Upper frame 111 Base portion 112 Locking portion 113 Frame portion 114 Overlay piece 115 Insertion piece 116a Screw hole 117 Locked portion 120 Lower frame 121 Base portion 122 Engagement portion 123 Frame portion 125 Insertion piece 130 Gutter frame 131 Attachment piece 132 Frame portion 134 Base

Claims (2)

A vertical frame and a horizontal frame are attached to the mounting base on the fuselage side,
A solar panel module mounting structure for fixing the solar panel module to the saddle frame and the horizontal frame,
The solar panel module is framed by upper and lower upper and lower frames and left and right frame.
The horizontal frame has a locked piece,
Engage the locking portion provided on the upper frame to the locked piece,
The dredge frame has a dredge frame fixing portion and water stop standing pieces on both sides of the dredge frame fixing portion,
A mounting structure for a solar panel module, wherein a mounting piece projecting laterally from a cocoon frame is fixed to a cocoon frame fixing portion of the cocoon frame.   2. The solar panel module mounting structure according to claim 1, wherein the upper frame of the solar panel module has a locked portion that engages with the lower frame of the solar panel module mounted above the solar panel module.

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