JP5238743B2 - Solar panel eaves cover - Google Patents

Description

  The present invention relates to an improvement of an eaves edge cover of a solar cell panel that is attached to an eaves side end portion of a solar cell panel and covers and hides a side end surface of the eave side end portion.

  When installing a solar cell panel on a roof such as a house, it is common to attach a decorative eaves edge cover to the eaves side end of the solar cell panel (see, for example, Patent Document 1). According to such an eaves end cover, since the side end surface of the eaves side end part of the solar cell panel is covered and concealed, the beauty of the eaves end side is not impaired.

JP 07-153984 A

  By the way, in order to obtain more electric energy from the solar cell panel, it is necessary to increase the installation area. Therefore, it is generally performed to install a solar cell panel having a larger area by bringing the eaves side end of the solar cell panel closer to the eaves.

  However, when the solar panel is installed as close to the eaves in this way, the panel surface is a mirror surface, so the momentum of the rainwater flowing on the upper surface of the panel becomes stronger on the downstream side and exceeds the eaves cover from the upper surface of the panel. The rainwater that flowed over it sometimes jumped over the eaves.

  The present invention has been proposed in view of such circumstances, and an object of the present invention is to provide an eaves edge cover having a new structure that can weaken the water flow of rainwater flowing from the upper surface of the solar cell panel to the eaves edge.

In order to achieve the above object, the eaves edge cover of the solar cell panel according to claim 1 is attached to an eave side end portion of the solar cell panel and covers the side end surface of the eave side end portion. in the cover, comprises a mounting piece drainage hole attached is opened in substantially parallel to the upper surface of the solar cell panel, and a cover piece extending downward from eaves side edge portion of the mounting piece, the sun It is configured to be fixed to a battery panel mounting base via a mounting reinforcement, and on the back side of the cover piece, a reinforcing piece for reinforcing the cover piece and a fitting fitted to the mounting reinforcement The joint portion is formed integrally .

  The eaves tip cover of the solar cell panel according to claim 2 is formed of a curved plate body in which a cover piece bulges toward the eaves side.

  The eaves cover of the solar cell panel according to claim 3 has a structure in which when the attachment piece is attached to the solar cell panel, the cover piece is inclined and descended inward of the solar cell panel.

  The eaves edge cover of the solar cell panel according to claim 4 has a plurality of drain holes formed in a staggered pattern.

  According to the eaves edge cover of the solar cell panel according to claim 1, since the drainage hole is opened in the mounting piece attached in a state substantially parallel to the upper surface of the solar cell panel, the solar cell panel is formed by the drainage hole. It is possible to drop the rain water flowing down the upper surface of the water, and as a result, the overall momentum of the water flowing toward the eaves can be weakened.

  According to the eaves tip cover of the solar cell panel according to claim 2, since the cover piece made of the curved plate body bulges toward the eave side, rainwater can be attached even if the water force cannot be weakened sufficiently by the drainage hole. It does not jump out from the edge of the eaves side of the piece, and rain water can be made to fall on the roof surface along the cover piece. Moreover, since the cover piece has a shape that curves and bulges to the eave side, the appearance can be improved.

  According to the eaves edge cover of the solar cell panel according to claim 3, since the cover piece is inclined down to the inner side of the solar cell panel, rain water falling from the drainage hole can be received by the back surface of the cover piece. Therefore, the momentum of rainwater falling from the drainage hole can be weakened.

  According to the eaves edge cover of the solar cell panel according to claim 4, since the drain holes are formed in a plurality of rows in a staggered manner, most of the flowing rainwater can be reliably drained.

It is a perspective view which shows the example of installation of the eaves edge cover of the solar cell panel of this invention, and the solar cell panel which is the attachment object. (A) is a fragmentary perspective view which shows one Embodiment of the same eaves edge cover, (b) is sectional drawing. (A), (b) is a perspective view which shows the attachment procedure of the eaves-edge cover. It is sectional drawing which shows the attachment state of the eaves edge cover. (A)-(c) is sectional drawing which shows the other example of the eaves edge cover of the solar cell panel of this invention, (d) is sectional drawing which shows the use condition of the eaves edge cover shown in (c).

  Embodiments of the present invention will be described below with reference to the accompanying drawings.

  FIG. 1 is a perspective view showing an installation example of an eaves edge cover (hereinafter, abbreviated as an eaves edge cover) of a solar cell panel of the present invention and a solar cell panel that is an attachment target thereof. Fig.2 (a) is a fragmentary perspective view which shows one Embodiment of the eaves edge cover, FIG.2 (b) is sectional drawing. FIGS. 3A and 3B are perspective views showing a procedure for attaching the eaves tip cover. FIG. 4 is a cross-sectional view showing an attached state of the eaves tip cover.

  The solar cell panel 2 shown in FIG. 1 is installed through a mount 3 disposed on a roof surface 1 on which tiles and slate are spread. In addition, the code | symbol 8 in FIG. 1 is the eaves wall installed in an eaves edge.

  The solar cell panel 2 is composed of a module body in which a plurality of panel bodies are assembled in a rectangular shape, and is installed on the roof surface 1 in units of the module body. An eaves edge cover 10 is attached to the edge of the eaves side end 2a of the module body, and a frame body 4 is attached to the other three sides.

  The eaves edge cover 10 is attached to an attachment piece 11 attached in a state substantially parallel to the upper surface of the solar cell panel 2, and a cover piece 12 extending slightly forward from the eaves side edge 11a of the attachment piece 11. The mounting piece 11 has a plurality of drain holes 11b as shown in FIG. In addition, illustration of the drain hole 11b is abbreviate | omitted in FIG. 1 and FIG.

  Each of the plurality of drain holes 11b is a round hole, and is formed in a staggered manner in a plurality of rows (two rows in the illustrated example) along the longitudinal direction of the eaves edge cover 10. By providing the drain holes 11b in a staggered manner in this way, most of the rainwater that flows from the solar cell panel 2 side (building side) over the eaves cover 10 can be drained. The drain holes 11b do not have to be arranged in the longitudinal direction, but are desirably formed over the entire length in the longitudinal direction in order to enhance the drainage effect. In order to further enhance the drainage effect, long holes that do not decrease in strength may be arranged.

  Further, the attachment piece 11 is provided with an attachment long hole 11 c for fixing to the mount 3 with the bolt 6.

  On the other hand, the cover piece 12 extends downward from the eaves side edge 11a of the attachment piece 11, has a shape inclined with an obtuse angle with the attachment piece 11, and the eaves edge cover 10 is connected to the solar cell panel 2. In the state where it was attached to, as shown in FIG. 4, it is the dimension and shape which can cover up the side end surface of the eaves side edge part 2a.

Further, on the back side of the cover piece 12, a reinforcing piece 12a for reinforcement, and a fitting portion 12b fitted to an attachment reinforcing tool 15 (see FIG. 3) for attaching and fixing the eaves edge cover 10 to the gantry 3; Are integrally formed. Incidentally, the reinforcing pieces 12a as shown in this example is an essential element in the eaves cover 10 are gills Bei to prevent damage such as breakage. Moreover, it cannot be overemphasized that the thing of various shapes can be employ | adopted about the fitting part 12b by the attachment structure to the mount frame 3 which is attachment object.

  The eaves edge cover 10 is fixed to the gantry 3 according to the procedure shown in FIGS.

  That is, first, a plurality of mounts 3 made of C-shaped channel-shaped hollow bar-like bodies are arranged and fixed on the roof, and a long eaves-end fixing bracket 5 is attached to the eaves side front end portion of the mounts 3. The eaves-end fixing bracket 5 includes a mounting table 5a on which the mounting piece 11 of the eaves-end cover 10 can be placed. The mounting table 5a is inserted through the hollow portion 3a of the mounting table 3 with a bolt 6 via a groove 3b. Hole 5aa is opened.

  Further, a positioning piece 5b (a part corresponding to the back leg of the eaves and the backrest connected to the top of the eaves) is formed at the rear part of the eaves-end fixing bracket 5. Further, at the upper end of the positioning piece 5b, the mounting table 5a and Is formed with a fitting piece 5c bent in the opposite direction, and the eaves-side end portion 2a of the solar cell panel 2 can be accommodated in a space formed by the fitting piece 5c, the positioning piece 5b, and the mount 3. It has become. Further, the positioning piece 5b can determine the installation position of the eaves edge cover 10.

  A side-view Z-shaped attachment reinforcing tool 15 is attached in advance to the back side of the attachment elongated hole 11c of the attachment piece 11 of the eaves edge cover 10, and the eaves edge cover 10 is attached to the gantry 3 with the attachment reinforcement tool 15. It can be installed without shifting between the mounting table 5a of the eaves-end fixing bracket 5 fixed to the front end portion of the gantry 3 and the mounting table 5a.

  After placing the eaves cover 10 in the correct position, the nut 7 is screwed onto the bolt 6 protruding upward through the insertion hole 5aa of the eaves fixing bracket 5 and the attachment long hole 11c of the attachment piece 11 of the eaves cover 10. Thus, the frame 3 is fixed.

  The eaves cover 10 fixed in this way is arranged in a state in which the mounting piece 11 is substantially parallel to the upper surface of the solar cell panel 2, and the lower end of the cover piece 12 is in the state of being close to the roof surface 1, and as a result The end surface of the front end portion of the gantry 3 and the side end surface of the eaves side end portion 2a of the solar cell panel 2 installed on the gantry 3 are covered.

  As described above, the eaves cover 10 shown in the present embodiment has a plurality of drain holes 11b formed in the attachment piece 11, so that a large amount of rainwater flows along the upper surface of the solar cell panel 2 from the ridge side. Flows down through the drain hole 11b (see FIG. 4). The white arrow in the figure indicates the flow of rainwater.

  Therefore, the rainwater that has flowed up to the eaves edge cover 10 does not jump out forward from the eaves side edge 11a of the mounting piece 11, and most of the rainwater flows down from the drain hole 11b. The rainwater flow that reaches the side is sufficiently weakened. Thus, by using the eaves tip cover 10 provided with the drain hole 11b in the mounting piece 11, it is possible to prevent rainwater flowing on the upper surface of the solar cell panel 2 from jumping over the eaves 8 (see FIG. 1).

  Moreover, since the eaves cover 10 shown in this embodiment makes the angle which the attachment piece 11 and the cover piece 12 make an obtuse angle, and makes the cover piece 12 incline-fall with respect to the roof surface 1, it is the drain hole 11b. Even when the water is not weakened sufficiently and rainwater tries to jump forward from the eaves side edge 11a of the mounting piece 11, the rainwater that has jumped out can be received on the inclined surface before falling onto the roof surface 1. , Thereby weakening the water.

In particular, FIG. 5 (a), the as eaves cover 10 shown (b), the intended was swelled the eaves side forms a cover piece 12 in a curved plate body, also mounting piece by drainage hole 11b 11 Even when the water force is not weakened at the eaves side edge 11a, it can be slowly dropped onto the roof surface 1 while being transmitted to the curved and bulged plate surface of the cover piece 12 without causing the running water to jump out. . Further, according to the cover piece 12 having such a curved shape, the curved surface can give a soft impression when viewed from the front side of the eaves side. 5A, only the cover piece 12 has a curved shape, and the eaves cover 10 of FIG. 5B has a curved shape in which the attachment piece 11 and the cover piece 12 are integrated.

  Moreover, the eaves edge cover 10 shown in FIG.5 (c) is formed so that the angle which the attachment piece 11 and the cover piece 12 make may become an acute angle, and as shown in FIG.5 (d), the cover piece 12 is a solar cell panel. 2, the rain water flowing down from the drain hole 11b can be received by the back surface of the cover piece 12, and as a result, the water force can be further weakened.

  In the three examples shown in FIG. 5, the structure of the back surface of the eaves edge cover 10 and the mounting reinforcement 15 (see FIG. 4 and the like) are omitted. Further, in FIG. 5, the same components as those of the eaves edge cover 10 shown in FIG.

DESCRIPTION OF SYMBOLS 1 Roof surface 2 Solar cell panel 2a Eave side edge part 10 Eaves edge cover of a solar cell panel 11 Attachment piece 11a Eave side edge part 11b Drain hole 11c Elongation hole 12 Cover piece 12a Reinforcement piece 12b Fitting part
15 Mounting bracket

Claims (4)

In the eaves end cover of the solar cell panel that is attached to the eaves side end of the solar cell panel and covers the side end surface of the eaves side end,
A solar cell panel, comprising: a mounting piece provided with a drain hole which is attached in a state substantially parallel to the upper surface of the solar cell panel ; and a cover piece extending downward from an eaves side edge of the mounting piece. It is configured to be fixed to the mounting base via a mounting reinforcement,
On the back side of the cover piece, a reinforcing piece for reinforcing the cover piece and a fitting portion fitted to the mounting reinforcement are integrally formed . Eaves cover. In claim 1,
The cover piece is an eaves tip cover of a solar cell panel, which is composed of a curved plate bulging toward the eaves side. In claim 1,
The said cover piece is a eaves edge cover of a solar cell panel which becomes a structure which inclines and descends to the inner side of this solar cell panel, when the said attachment piece is attached to the said solar cell panel. In any one of Claims 1-3,
The eaves cover of a solar cell panel, wherein the drain holes are formed in a plurality of rows in a zigzag pattern.

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