JP3213081U - Snow melting roof structure and snow melting roof structure - Google Patents

Abstract

The present invention provides a snow melting roof structure and a snow melting roof structure that can fix a snow melting roof structure to an upper surface of a roof roof material by a sucker member and can easily perform snow melting roof construction. A snow melting roof structure M disposed on an upper surface of a roof R of a building, the solar cell module 1 for converting sunlight into electric energy, and a heat generating heater 2 disposed on the bottom surface of the solar cell module. And a heat shield sheet 3 disposed on the bottom surface of the heater, the heater is a paint-type heater, and the three members D of the solar cell module, the heater and the heat shield sheet are integrally formed in layers. The suction cup member 4 detachably attached to the top surface of the roof is disposed on the bottom surface of the three-piece heat shield sheet formed integrally. [Selection] Figure 5

Description

  The present invention relates to a snow melting roof structure and a snow melting roof structure used for a roof of a building such as a house.

  Conventionally, as this type of snow melting roof structure, a solar cell module that converts sunlight into electric energy is fixed to the upper surface of a metal roofing material for burning a metal plate, and a heat generating heater is fixed to the bottom surface of the metal roofing material. What integrally formed three members of a roofing material, a solar cell module, and a heater is known.

Japanese Patent No. 3418781

  However, in the case of the above-described conventional structure, since the three members of the metal roofing material, the solar cell module and the heating heater for the metal plate are integrally formed with an adhesive or the like, it is applied to the existing roof structure. In this case, it will be necessary to replace and refurbish the metal roofing material, and this will require additional construction costs including equipment costs compared to the new construction, which may reduce the flexibility and cost of construction work. It has the disadvantage of being.

  The present invention aims to solve such inconveniences. Among the present inventions, the invention according to claim 1 is a snow melting roof structure disposed on the upper surface of a roof of a building, A solar cell module that converts sunlight into electrical energy, a heat heater disposed on the bottom surface of the solar cell module, and a heat shield sheet disposed on the bottom surface of the heat heater. The three members of the solar cell module, the heater, and the heat shield sheet are integrally formed in a layered manner, and the bottom surface of the heat shield sheet of the three members formed on the top surface of the roof. A snow melting roof structure comprising a removable sucker member.

  The invention according to claim 2 is characterized in that an insulating paint layer is formed on the bottom and side surfaces of the heater, and the heat shield sheet is disposed on the bottom of the heater through the insulating paint layer. It is what.

  The invention described in claim 3 is a snow melting roof structure characterized in that the snow melting roof structure according to claim 1 or 2 is arranged on the upper surface of a metal plate-fired roof or a flat roof as the roof. .

  As described above, according to the present invention, the snow melting roof structure is formed by integrally forming the solar cell module, the heater, and the heat shield sheet. Since a sucker member that can be attached to and detached from the upper surface of the roof is disposed on the bottom surface of the three-part heat shield sheet, the snow melting roof structure can be fixed to the upper surface of the roof material of the roof by the sucker member. Snow melting roof construction can be performed by laying on the roof with members, snow melting roof structure can be easily laid in the construction site, and snow melting roof construction can be performed easily and efficiently, It can be applied not only to new construction but also to existing roof structures, and in roof replacement work and refurbishment work, it must be separated from the top surface of the roof by releasing the sucker action of the sucker member It is possible to fix a plurality of snowmelt roof structures to the upper surface of the roof again by the sucker member after the completion of the roof replacement work and refurbishment work, and the snowmelt roof structure can be reused. Can improve the flexibility and economy of construction work, can use the existing roof as it is, can reduce the construction cost by reducing the roof construction by reusing the snow melting roof structure, The snow melting roof structure can be laid at a necessary location, so-called partial snow melting is also possible, the equipment cost and the maintenance cost can be reduced, and a heating heater is disposed on the bottom surface of the solar cell module. As a result, the adhesion between the heater and the solar cell module increases, the heat transfer from the heat of the heater to the solar cell module increases, and the snow melting efficiency of the snow on the solar cell module is improved. Furthermore, since the heating heater is a paint-type heating heater, the applied part functions as a heater, and it is easy to manually paint, apply curved surfaces, and define the application range, improving workability. A low voltage DC power supply of 12V or 24V DC can be used, and safety of use can be improved. Further, since a heat shield sheet is disposed on the bottom surface of the heater, the heater Heat can be prevented from being transferred to the upper surface of the roof in the lower position, so that the snow on the solar cell module can be melted more efficiently, and the electric energy of the solar cell module due to the snow can be melted. A reduction in conversion efficiency can be prevented, and furthermore, since the snow melting roof structure in which the solar cell module is integrally formed is disposed on the upper surface of the roof, the solar cell module is attached. This eliminates the need for a special frame to prevent the aesthetic appearance of the house.

  Further, in the invention of claim 2, since the insulating paint layer is formed on the bottom surface and the side surface of the heater, and the heat shield sheet is disposed on the bottom surface of the heater with the insulating paint layer interposed therebetween. Insulation between the heating heater and the top surface of the roof can be reliably performed, and the use efficiency can be improved by improving the heating efficiency and preventing an electric shock accident.

1 is a partially cutaway perspective view of a first embodiment of the present invention. 1 is an overall cross-sectional view of a first embodiment of the present invention. 1 is an exploded perspective view of a first embodiment of the present invention. It is a separation cross-sectional view of the first embodiment of the present invention. It is a cross-sectional view of the use condition of the first embodiment of the present invention. It is explanatory drawing of the use condition of the example of 1st Embodiment of this invention. It is a top view of the use condition of the 1st example of implementation of this invention. It is a cross-sectional view of the use condition of the second embodiment of the present invention. It is a isolation | separation cross-sectional view of the use condition of the 2nd example of implementation of this invention.

  1 to 9 show an embodiment of the present invention. FIGS. 1 to 4 show a first embodiment of a snowmelt roof structure applied to a metal roof tile roof, and FIGS. 5 to 7 show a metal. FIG. 8 and FIG. 9 show a second embodiment of the embodiment applied to a flat roof.

In the first embodiment of FIGS. 1 to 4, as shown in FIG. 2, the snow melting roof structure M is disposed in a fixed state on the upper surface of the roof material R ₁ of the roof R of the building T, and sunlight is converted into electric energy. The solar cell module 1 to be converted, the heat generating heater 2 disposed on the bottom surface of the solar cell module 1, and the heat shield sheet 3 disposed on the bottom surface of the heat generating heater 2 are provided. The three members D of the heat sheet 3 are integrally formed in layers, and a plurality of sucker members 4 that can be attached to and detached from the top surface of the roof material R ₁ of the roof R are formed on the bottom surface of the heat shield sheet 3 of the three members D that are integrally formed. Individually arranged in a fixed state.

In this case, the solar cell module 1 uses a solar cell 1a that is lightweight and flexible and converts sunlight into electric energy, and a heater 2 is fixedly disposed on the bottom surface of the solar cell module 1 with an adhesive S. The insulating paint layer E is applied and formed on the bottom and side surfaces of the heater 2, and the heat shield sheet 3 made of an aluminum plate or the like is fixed to the bottom of the heater 2 with the adhesive S via the insulating paint layer E. The three members D of the solar cell module 1, the heat generating heater 2, and the heat shield sheet 3 are integrally formed in layers, and the roof material R _{1 of the} roof R is formed on the bottom surface of the heat shield sheet 3 of the three members D formed integrally. A removable sucker member 4 made of synthetic resin or the like is disposed in a fixed state on the upper surface of the heat sink sheet. In this case, the sucker member 4 includes a plate-like mounting portion 4a and a hook-shaped elastic sucker portion 4b. Sucker on the bottom of the A plate-shaped mounting portion 4a of the member 4 and fixed by an adhesive S, the solar cell module 1 by an elastic suction cup portion 4b of the bowl-shaped sucker member 4 presses the upper surface of the roofing material R ₁ roof R, heater 2 and heat shield sheet 3 is rolled up the elastic suction cup portion 4b of the bowl-shaped sucker member 4 is fixed to the upper surface of the roofing material R ₁ roof R by sucker action of negative pressure three members D formed integrally constitute a third member D so away from the upper surface of the roofing material R ₁ roof R by releasing the sucker effect of the negative pressure. In addition, although the three members D of the solar cell module 1, the heat generating heater 2, and the heat shielding sheet 3 are integrally formed with the adhesive S, they may be integrally formed with other fixing means of the adhesive S. it can. In this case, the suction cup member 4 is made of synthetic resin or rubber.

In this case, roofing material R ₁ of the roof R is a metal tile bar roofing materials, galvanized iron sheet, color steel plate, made like Galvalume steel plate (R), standing for goby joined in the longitudinal direction left and right margin Raised portion Ra is formed.

  Further, in this case, the solar cell module 1 is light and flexible as a whole, and has a thickness of about 20 mm, a width of about 37 cm, and a length of about 2.5 m. Copper Cu, indium In, gallium Ga CIGS solar cell 1a made of a compound semiconductor produced using four kinds of elements of selenium Se as a raw material is used, and a plurality of CIGS solar cells 1a are used according to the length and width of the roof R, and FIG. As described above, output terminals 1b and 1b project from the end portions. Of course, the solar cell 1a formed by laminating an amorphous silicon film on a thin stainless steel substrate, and other structures can also be used.

  Also, in this case, the heating heater 2 is a paint-type heating heater 2 and is a resin-based paint-like heater using a carbon nanomaterial, and the applied portion functions as a heater. Hand coating, curved surface coating, and coating range can be easily defined, and a low voltage DC power source of 12V or 24V DC from the solar battery cell 1a can be used. For example, the trade name “Carbo Etherum” (Germany / Future) (Manufactured by Carbon Co., Ltd.) is used, and as shown in FIGS. 1 and 3, input terminals 2a and 2a connected to positive and negative electrodes (not shown) are projected at the ends. Of course, other manufacturers' paint-type products can be used.

  The insulating coating layer E applied to the bottom and side surfaces of the heater 2 is formed by spray coating or hand coating of an insulating coating that forms a highly electrically insulating coating film. Insulating paint is used.

Further, the heat shield sheet 3 is referred to as heat shield in order to block heat escape to the upper surface of the roof material R ₁ of the roof R, and heat insulation in the sense of suppressing heat from the heater 2 from escaping to the roof R. In addition, a structure having a waterproof effect is also applied. For example, not only an aluminum plate material, but also a synthetic resin sheet material on which aluminum vapor deposition is applied may be applied.

Further, in this case, as shown in FIGS. 3 and 4, the three members D of the solar cell module 1, the heater 2 and the heat shield sheet 3 are integrally formed with the adhesive S in advance in the factory. so that the snow melting roof structure M is fabricated by arranging in by three-member bottom surface to the roof stuck sucker member 4 detachable from the upper surface of the roofing material R ₁ of R of the thermal barrier sheet 3 D .

Since the snowmelt roof structure M according to the first embodiment of the present invention has the above-described configuration, as shown in FIGS. 1 and 2, the three members D including the solar cell module 1, the heater 2, and the heat shield sheet 3 in advance in the factory. the integrally formed, and disposed in a fixed state sucker member 4 detachable from the upper surface of the roofing material R ₁ of the roof R to the bottom surface of the thermal barrier sheet 3 of a three-member D formed integrally snow melting roof structure As shown in FIGS. 5 and 6, a plurality of snow melting roof structures M ·· manufactured in advance in the factory are roof materials R ₁ , R ₁ And the adhesive S is bonded and fixed over the roof gradient direction, and the solar cell module 1 and the heater 2 can be electrically connected to the snow melting control means Q to perform snow melting roof construction. Converts sunlight into electrical energy, Heater 2 generates heat by power generated from the module 1, the thermal heater 2 will be removed melt the snow on the solar cell module 1.

Therefore, in the snow melting roof structure M, the three members D of the solar cell module 1, the heater 2 and the heat shield sheet 3 are integrally formed, and the three members D are integrally formed on the bottom surface of the heat shield sheet 3. since roofing R top detachable suckers member 4 of the _first roof R is arranged, roofing roof R a plurality of snow melting roof structure M · · by a plurality of suction cup members 4 · · R ₁ can be fixed to the upper surface of the roof ₁ and the snow melting roof construction can be performed by laying on the roof material R _{1 with the} sucker member 4, and the laying work of the snow melting roof structure M ·· at the construction site is easily performed. It is possible to carry out snow melting roof construction easily and efficiently, and can be applied not only to new construction but also to existing roof construction. In refurbishment and refurbishment of roof R, Release sucker action of sucker member 4 Rukoto by can be separated from the upper surface of the roofing material R ₁ roof R, sucker member 4, replacement construction and roofing again after completion of the work again plurality of snow melting roof structure M · · a plurality of roof R - makes it possible to fix to the upper surface of the roofing material R ₁ roof R, it is possible to reuse a plurality of snow melting roof structure M · ·, Thus, improving the flexibility and economy of construction work The existing roof R can be used as it is, and the construction cost can be reduced by reusing the snowmelt roof structure M .. _{All of 1} · R ₁ ·· or selected roofing material R ₁ · R ₁ or roofing material R ₁ · R ₁ can be partially laid with a snow melting roof structure M · M ·· The roof structure M can be laid at the necessary location, Loose partial snow melting is also possible, so that the equipment cost and maintenance cost can be reduced, and the heating heater 2 is disposed on the bottom surface of the solar cell module 1, so that the heating heater 2 and the solar cell module 1 are in close contact with each other. The heat transfer efficiency of the heat generating heater 2 to the solar cell module 1 can be improved, and the snow melting efficiency of the snow on the solar cell module 1 can be improved. since 3 is arranged, the thermal heater 2 can be prevented from being wastefully transmitted to the upper surface of the roofing material R ₁ below, it just, more efficiently melt the snow on the solar cell module 1 The snow melting roof structure M in which the solar cell module 1 is integrally formed can be prevented, and a decrease in the conversion efficiency of the electric energy by the solar cell module 1 due to snow accumulation can be prevented. Since disposed on the upper surface in a fixed state of the roofing material R ₁ roof R, it is possible to prevent spoiling the appearance of a house with a special mount for attaching the solar cell module 1 is not required.

In this case, since the heating heater 2 is a paint-type heating heater 2, the applied portion functions as a heater, and it is easy to manually paint, apply curved surfaces, and define a coating range, thereby improving workability. A low voltage DC power supply of 12V or 24V DC can be used, and the safety of use can be improved. In this case, an insulating paint layer E is formed on the bottom and side surfaces of the heater 2 to generate heat. since the bottom surface of the heater 2 through the insulating coating layer E are disposed above the heat insulating sheet 3, it can be surely performed insulation between the upper surface of the roofing material R ₁ of the heater 2 and the roof R, fever It is possible to increase the safety of use by improving efficiency and preventing electric shock accidents.

5 to 7 show a first embodiment of a snow melting roof structure applied to a metal roof tile roof R. In this case, as shown in FIGS. 5 and 7, a nail is placed on a tree 5 as a roof constituent member. A waterproof sheet B such as asphalt felt is laid on the ground plate 6 that has been struck, and a plurality of roof materials R ₁ , R _1, ... Are arranged in parallel on the prevention sheet material 8, and adjacent roof materials R ₁ · R ₁ ··· Ra raised portion Ra is jointed and tiled roof parts K · K · · is carried out with metal tiled bar roof construction, all or selected of each roofing material R ₁ · R ₁ · · · The roof material R ₁ · R ₁ or the roof material R ₁ · R ₁ has a structure in which a snow melting roof structure M · M ·· is fixed to the upper surface thereof by a plurality of sucker members 4 ···.

Therefore, for example, as shown in FIG. 6, the snow melting roof structure M · M ·· is arranged on the roof material R ₁ ·· of the roof R of the building T such as a building or a structure such as a house and the snow melting on the building T A control panel as a control means Q is arranged, and a storage battery C and a generator G are installed in the vicinity of the building T. The solar cell modules 1 and the heating heaters 2 are electrically connected in series or in parallel. Are connected to each other, electrically connect the solar cell modules 1, 1, and the storage battery C of each snow melting roof structure M · M ··, and connect the generator G and the storage battery C electrically. The generator G and the storage battery C are electrically connected to the snow melting control means Q, and the control circuit portion of the snow melting control means Q and the heat generating heaters 2, 2,.

  In this case, the storage battery C is a large-capacity storage battery C, for example, a lithium ion rechargeable battery, and the generator G is a stationary emergency LP gas generator. Of course, other structures can also be used.

  Therefore, in the snow melting roof structure of this embodiment, the above-mentioned snow melting roof structure M is used, so that the same effect as described above can be obtained.

  Further, in this case, since the snow melting control means Q capable of controlling the solar cell module 1 and the heater 2 is disposed, and the generator G and the storage battery C are electrically connected to the snow melting control means Q, the solar cell module. 1 can be stored in the storage battery C, and when the generated power from the solar cell module 1 is insufficient in the cloudy or rainy weather, at night, etc., the storage battery C or the generator G supplies power to the heat generating heater 2. A so-called self-supporting residential energy system that can supply power and does not use commercial power can be obtained.

FIG. 8 and FIG. 9 show a second embodiment applied to the roof R of the land roof structure F. In this case, the roof of the land roof structure F composed of a concrete floor portion F ₁ and a concrete parapet portion F _2. tarpaulin B such as vinyl chloride on the floor portion F ₁ of the roofing material R ₁ of R is laid with an adhesive S, a plurality of the plurality of snow melting roof structure M · · on the upper surface of the waterproof sheet B The suction cup members 4... Are fixed to the upper surface of the roof material R ₁ of the roof R. Incidentally, instead of the waterproof sheet B, the sucker member 4 may be employed that can suction member as a roofing material R ₁ of the roof R.

Even in this second embodiment, the snow melting roof structure M can be laid on the roof material R ₁ by the suction cup member 4 as in the first embodiment, and the snow melting roof structure M ·・ Easy laying work and snow melting roof construction can be done easily and efficiently.

  The present invention is not limited to the above embodiment, but can be applied not only to a metal roof tiled roof, but also to a horizontal or vertical roof, a dormitory structure, a gable structure, a single flow structure, and other roofs. The fixing means for the solar cell module 1 and the heater 2 can be selected as appropriate, for example, a double-sided adhesive tape can be used, and the material and structure of the sucker member 4 is the roof. The size, form, and the like are appropriately changed and designed.

  As described above, the intended purpose can be sufficiently achieved.

M Snow melting roof structure T Building R Roof E Insulating paint layer D Three members 1 Solar cell module 2 Heating heater 3 Heat shield sheet 4 Sucker member

Claims (3)

  A snow melting roof structure disposed on an upper surface of a roof of a building, the solar cell module converting sunlight into electric energy, a heating heater disposed on the bottom surface of the solar cell module, and a bottom surface of the heating heater The heat-generating heater is a paint-type heat-generating heater, and the solar cell module, the heat-generating heater, and the heat-shielding sheet are integrally formed in a layered manner. A snow melting roof structure characterized in that a sucker member that can be attached to and detached from the top surface of the roof is disposed on the bottom surface of the heat shield sheet of the three members formed.   The snow melting roof structure according to claim 1, wherein an insulating paint layer is formed on a bottom surface and a side surface of the heat heater, and the heat shield sheet is disposed on the bottom surface of the heat heater via the insulating paint layer. body.   A snow melting roof structure according to claim 1 or 2, wherein the snow melting roof structure according to claim 1 or 2 is disposed on an upper surface of a metal plate-fired roof or a flat roof as the roof.