JP6426480B2 - Seal structure of solar roof end - Google Patents

Description

  The present invention relates to a seal at an end of a roof panel of a laminated structure (i.e., a solar roof), for example, when a photovoltaic module (or a photovoltaic panel, a solar panel) is mounted on a roof portion of a vehicle. It relates to the structure.

  In the case of using a solar power generation module having a laminated structure, for example, as a roofing material of a car, the sealability at the end is required from the viewpoint of insulation and durability between layers of the solar power generation module. In relation to the seal structure of such a photovoltaic power generation module, Patent Document 1 discloses a sheet-like seal material having a silicone resin and a plurality of particles dispersed in the silicone resin and having a cavity therein. And the structure which seals between the flame | frame which has the fitting part of the square-C-shaped cross section, and the photovoltaic module inserted in the fitting part using the sheet-like sealing material is described.

  Moreover, in patent document 2, the edge part of a solar power generation panel is affixed by affixing the sheet-like adhesive seal material for edge parts provided with the thermosetting resin layer and the adhesive layer on the edge part of a solar power generation module. And the solar power generation module is attached to a frame of a U-shaped cross section made of metal such as aluminum alloy or resin.

  In addition, Patent Document 3 discloses a solar panel adhesive using a sheet-like panel comprising a rubber-based pressure-sensitive adhesive layer and a non-pressure-sensitive adhesive layer such as a porous screen partially covering the surface. A configuration is described in which the ends of the photovoltaic modules are sealed and the solar panels are attached to a U-shaped cross section frame.

  In addition, in patent document 4, it was comprised so that permeation of water could be prevented over a long period of time by sticking the sealing material which consists of a crosslinked foam rubber which has a closed cell in the fixed groove of the square C-shaped cross section of a supporting member. A photovoltaic module is described.

JP, 2014-1362, A JP, 2011-5474, A JP, 2011-86841, A JP, 2010-118598, A

  In the configurations described in Patent Documents 1, 2 and 3 described above, a sheet-like sealing material is used to seal between the end of the photovoltaic module and the frame. However, the seal structure using the sheet-like seal material as described above requires processing such as pressurization and heating at the time of incorporation, and requires careful work to completely cover the end. Therefore, from the viewpoint of workability, it is preferable to use an irregular sealing material that is fluid at the time of construction and that hardens over time, for example.

  However, between the frame having a U-shaped cross section as described in Patent Documents 1, 2 and 3 above, and the end face of the photovoltaic module, a sealing material having flowability as described above is used. In the case of sealing, the sealing of the end face of the photovoltaic module may be insufficient, or the sealing material may leak out from the opening of the frame to impair the appearance.

  The present invention has been conceived focusing on the above technical problems, and in a solar roof using a solar power generation module having a laminated structure, a seal at the end of the solar roof having good sealability and design. The purpose is to realize the structure.

In order to achieve the above object, the present invention relates to a roof molding having a fitting portion having a U-shaped cross section in which two flanges project from the upper and lower sides of a vertical wall, and a laminated structure inserted into the fitting portion. In a seal structure of an end portion of a solar roof including a solar power generation module and a flowable seal material filled in the fitting portion, the seal material of the seal material is provided at an intermediate position inside the upper and lower two flanges. A projecting portion for suppressing outflow is formed, and the end of the photovoltaic module is inserted into the fitting portion so as to be embedded in the sealing material, and the inserted photovoltaic module is the flange and the A reservoir portion in contact with the projection and allowing the seal material to be accumulated in the fitting portion across the projection portion, and the seal material in the fitting portion when the seal material overflows from the reservoir portion Predetermined sky to stay : It is formed, the reservoir is characterized in that you are formed on the end side of the inserted photovoltaic module.

  According to the present invention, the solar roof is incorporated in a state where a sufficient sealing material is held in the so-called portion of the fitting portion of the roof molding. Therefore, since the edge part of a photovoltaic power generation module is suitably covered with a sealing material, a good sealing performance is exhibited. In addition, even if the sealing material leaks out of the protruding portion, it is not shielded from the outside, so the appearance does not deteriorate. That is, it is possible to realize a seal structure at the end of the solar roof having good sealability and design.

It is sectional drawing for demonstrating the seal structure of the solar roof edge part in this invention. It is sectional drawing which shows the seal structure of the conventional solar roof edge part. It is sectional drawing which shows the seal structure of the conventional solar roof edge part. It is sectional drawing for demonstrating the subject in the seal structure of the conventional solar roof edge part. It is sectional drawing which shows the seal structure of the conventional solar roof edge part. It is sectional drawing for demonstrating the subject in the seal structure of the conventional solar roof edge part shown in FIG. It is sectional drawing for demonstrating the subject in the seal structure of the conventional solar roof edge part shown in FIG.

  Below, this invention is demonstrated based on an example. In recent years, photovoltaic modules or solar panels that are attracting attention from the viewpoint of energy saving, greenhouse gas emission reduction, etc. are used externally on the existing roof, for example, in the roof of a general house . On the other hand, when it mounts in a vehicle, it is common to incorporate a solar power generation module directly in the roof part of a vehicle as what is called a solar roof.

  An example configuration of such a solar roof is shown in FIGS. 2 and 3. For example, the conventional solar roof 100 shown in FIG. 2 uses the glass 101 in the central portion of the roof of the vehicle, and pastes the photovoltaic cell 103 covered with the sealing material 102 on the back surface of the glass 101 It is a structure supported by the back plate 104. In the solar roof 100 having such a configuration, the sealing material 102 that wraps around the photovoltaic power generation cell 103 is slightly smaller than the glass 101 and located inside the peripheral portion of the glass 101. Therefore, by supporting the peripheral part of the glass 101 with the roof rail 106 of the vehicle through the roof mall 105 made of rubber or resin, the end of the photovoltaic cell 103 or the sealing material 102 is directly outside. I try not to expose it.

  In contrast to the conventional solar roof 100 as described above, in recent years, transparent and high strength polycarbonate is used for the surface layer, and CFRP (carbon fiber reinforced resin) is used for the back plate on the indoor side, so it is lightweight and compact. Stacked photovoltaic panels have been developed. For example, the solar roof 200 shown in FIG. 3 has a laminated structure in which the photovoltaic cells 204 covered with the sealing material 203 are held between the polycarbonate surface plate 201 and the CFRP back plate 202. ing. When the solar roof 200 having such a laminated structure is supported by the roof rail 206 of a vehicle or the like via the rubber or resin roof molding 205 as in the conventional configuration as shown in FIG. The end of the solar roof 200 is exposed to the outside.

  Therefore, when the solar roof having a laminated structure as shown in FIG. 3 is mounted on a vehicle, it differs from the cross sections as shown in FIG. 2 and FIG. A roof molding having a U-shaped cross section fitting as described in U.S. Pat. The end of the solar roof is sealed by inserting the end of the solar roof through a predetermined seal into the U-shaped cross section fitting portion. However, in a roof molding having a U-shaped cross-section fitting portion as known in the prior art, there is a possibility that the sealability of the end of the solar roof may be insufficient or the design may be deteriorated. The

  For example, a conventional roof molding 300 shown in FIG. 4 is made of rubber or resin and has a fitting portion 301 having a U-shaped cross section. In the conventional configuration shown in FIG. 4, the end portion of the solar roof 303 is sealed using a sheet-like sealing material 302 in the form of a double-sided adhesive tape. In the seal structure of such a configuration, there is a space in the U-shaped cross section fitting portion 301, and the upper and lower flanges 304 and 305 forming the U-shaped cross section fitting portion are in close contact with the solar roof 303 As a result, the sealability of the end of the solar roof 303 may be insufficient. For example, when the vehicle is subjected to high-pressure cleaning, heavy rain, etc., the flange 304 may be deformed by water pressure, and water may intrude into the fitting portion 301. In such a case, if the sealing material 302 does not completely cover the end of the solar roof 303, water may enter the laminated portion of the solar roof 303 and degrade the performance of the photovoltaic panel.

  In order to improve the sealability of the end portion of the solar roof 303, instead of the sheet-like sealing material 302 as described above, for example, as shown in FIG. Conceivable. However, even in such a case, as described above, the sealability of the end portion of the solar roof 303 may be insufficient, and the designability around the roof molding 300 may be reduced.

  For example, when the filling amount of the sealing material 306 varies or the opening degree between the flange 304 and the flange 305 varies, as shown in FIG. 6, the sealing material 306 remains in the fitting portion 301. In some cases, the ends of the solar roof 303 can not be completely covered.

  Alternatively, if the filling amount of the sealing material 306 is excessive or the insertion depth of the solar roof 303 with respect to the fitting portion 301 is inappropriate, as shown in FIG. In some cases, the solar roof 303 loses its appearance.

  Therefore, in the seal structure of the solar roof end according to the present invention, by improving the shape of the roof molding, the sealability of the solar roof end can be improved and good design can be ensured. It is done. FIG. 1 is a cross-sectional view showing the seal structure of the end of the solar roof, and FIG. 1 (a) shows a state in which the fitting portion of the U-shaped cross section of the roof molding is filled with a seal material. Further, (b) shows a state in which the end of the solar roof is inserted into the fitting portion of the U-shaped cross section.

  The roof molding 1 is made of, for example, rubber, resin or the like, and two flanges 3 and 4 project from above and below the vertical wall 2 to form a fitting portion 5 having a U-shaped cross section. Further, in the roof molding 1, protruding portions 6 and 7 are respectively formed at inner middle positions of the upper and lower two flanges 3 and 4. By providing such projecting portions 6 and 7, a reservoir 8 having a rectangular cross section is formed between the projecting portions 6 and 7 and the vertical wall 2.

  In the seal structure of the solar roof end portion in the present invention, the above-described stagnation portion 8 in the initial roof molding 1 is filled with the seal material 9 having a predetermined flowability. Then, as shown in FIG. 1 (b), the solar roof (solar power generation module) is directed to the reservoir 8 filled with the sealing material 9 in the fitting portion 5 having the above-described U-shaped cross section. 10 is fitted.

  When the end of the solar roof 10 is inserted into the accumulation portion 8 filled with the sealing material 9 as described above, the sealing material 9 overflows from the accumulation portion 8 by the volume integral into which the solar roof 10 is inserted There is. However, since the seal material 9 overflowing from the reservoir portion 8 can be retained in the fitting portion 5 on the inner side of the upper and lower flanges 11 and 12, the appearance is not affected. And since the end part of the solar roof 10 is completely covered and sealed by the sealing material 9 which has fluidity, it is suppressed appropriately that water, dust, etc. infiltrate into the inside of the solar roof 10. Therefore, with respect to the end portion of the solar roof 10 having a laminated structure, a seal structure having a good sealing property can be realized without losing the appearance.

  As described above, as the sealing material to be filled in the reservoir portion 8 in the U-shaped cross section fitting portion 5, silicone rubber, fluorine rubber, butyl rubber, ethylene propylene rubber, etc. may be mentioned. Moreover, in order to improve the workability at the time of pouring or filling this, it is also preferable to blend softeners such as polyptene, process oil, plasticizer and the like to improve fluidity. Furthermore, by heating and softening the sealing material before filling the sealing material, the flowability of the sealing material is further improved, and the filling operation becomes easy.

  DESCRIPTION OF SYMBOLS 1 ... Roof molding, 2 ... Vertical wall, 3, 4 ... Flange, 5 ... Fitting part, 6, 7 ... Projected part, 8 ... Reservoir part, 9 ... Seal material, 10 ... Solar roof (solar power generation module) .

Claims (1)

A roof molding having a fitting portion having a U-shaped cross section in which two flanges project from above and below a vertical wall, a photovoltaic module of a laminated structure inserted into the fitting portion, and the fitting portion being filled In the seal structure of the solar roof end portion which is composed of the flowable seal material,
At an inner intermediate position between the upper and lower two flanges, a projecting portion for suppressing the outflow of the sealing material is formed,
The end of the photovoltaic module is inserted into the fitting portion so as to be buried in the sealing material ;
The inserted photovoltaic module abuts against the flange and the projecting portion,
A reservoir portion in which the seal material is accumulated in the fitting portion with the projecting portion separated, and a predetermined space in which the seal material stays in the fitting portion when the seal material overflows from the reservoir portion are formed. ,
The reservoir is formed on the end side of the inserted photovoltaic module
Seal structure of a solar roof edge, wherein the this.

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