JP5928997B2 - Heat collection panel or heat collection / condensing panel - Google Patents

Description

  The present invention relates to a heat collecting panel that uses solar heat and can be attached in combination to a solar power generation panel with a roof material, and a heat collecting / condensing panel that can simultaneously use solar heat and solar power.

The prior art will be described with reference to FIGS. 8 and 9 show the technique described in Japanese Patent No. 2699301.
In the specification, there is a combined roof structure of a solar cell portion made of solar cells and a heat collecting portion having an air flow path, and the solar cell portion includes a solar cell, a support member, and a bowl-shaped drainage plate. A space is formed between the solar cell and the drainage plate, and the heat collecting part is composed of the translucent plate, the support member, and the bowl-shaped drainage plate, and the air flow between the translucent plate and the drainage plate. A passage is formed, and the heat collecting part is laid so as to be located on the ridge side from the solar cell part, thereby forming a circulation space in which the space of the solar cell part and the air flow path of the heat collecting part communicate with each other. A combined roof structure is described in which an air inlet is provided on the eaves side and a duct is provided on the ridge side.

Japanese Patent No. 2699301

In the case of the above-described roof structure, as shown in FIG. 8, the left and right sides are fixed by attachment members. And as shown in FIG. 9, the eaves ridge direction is fixing the ridge side connection member in combination with the eaves side connection member. Each connecting member only performed a simple connection and a function of making the upper surface substantially the same.
For this reason, although the connection between the connection members has the effect of improving the designability, it is necessary to fix the left and right with the mounting members because there is no strength that can withstand negative pressure, and it takes time and labor for construction. It was.
The applicant has applied for a technology in which a photovoltaic power generation panel is integrated with a roof material having a mountain part and a valley part in Japanese Patent Application No. 2011-507486 “Solar power generation panel with roof material and eaves with roof material”. ing. In this application, the construction is simplified and a space communicating in the direction of the eave building is provided to improve the ventilation capacity from the eave side to the building side. However, there is a problem that it is not possible to apply the techniques of FIGS. 8 and 9 to this “solar power generation panel with roofing material and eaves with roofing material” having high ventilation capability.

An object of the present application is to provide a heat collecting panel and a heat collecting / condensing panel that can be combined with a solar power generation panel with a roof material and are easy to construct.
In addition, another object of the present invention is to provide a heat collection panel that improves heat collection efficiency by circulating warm air from the space to the heat collection space through the vent hole in the solar power generation panel with roofing material.
Furthermore, it aims at providing the panel provided with the condensing function in addition to the function of the heat collecting panel.

  The heat collecting panel used in the present application includes a light-transmitting plate, a heat insulating material, and a frame body attached to all sides, and a heat collecting space is formed between the light transmitting plate and the heat insulating material. A water fitting portion is formed on the water side of the frame. Moreover, the vent hole which connects the heat collecting space and the trough part of the roof material of the solar power generation panel with the roof material in the lower stage is formed.

  The heat collecting / condensing panel used in the present application consists of a translucent plate, a heat insulating material, a solar cell installed on the heat insulating material, and a frame body attached to all sides. A heat collection space is formed between the cells. A water fitting portion is formed on the water side of the frame. Moreover, the vent hole which connects the heat collecting space and the trough part of the roof material of the solar power generation panel with the roof material in the lower stage is formed.

The heat collecting panel and the heat collecting / light collecting panel of the present application are combined with a solar power generation panel with a roof material.
The solar power generation panel with a roof material combined with the heat collection panel or the heat collection / condensing panel of the present application is obtained by integrating the solar power generation panel and the roof material. The photovoltaic power generation panel is composed of a module main body and a frame attached to the four sides thereof. A water fitting part is formed on the water side of the frame, and the water fitting part of the upper heat collecting panel or the heat collecting / condensing panel is formed in a space formed by the water fitting part and the roofing material. Is a shape that fits. The roofing material has a mountain part and a valley part, and a space communicating in the eaves-ridge direction is formed. When a solar power generation panel with a roofing material is combined with a heat collection panel or a heat collection / condensing panel in the eaves ridge direction, the heat collection panel or heat -The underwater fitting part of a condensing panel is fitted, and the air which distribute | circulates a roof material trough part distribute | circulates from a vent hole to heat collection space, It is characterized by the above-mentioned.

By connecting the water fitting part of the solar power generation panel with the lower roof and the water fitting part of the upper heat collecting panel or the heat collecting / condensing panel, the strength of connection is increased, and the mounting member Etc. can be reduced and construction can be performed easily.
In addition, vents that communicate with the valleys of the solar power generation panel with roofing material installed in the lower stage are formed in the heat collecting panel or the heat collecting / condensing panel. Thereby, the warmed air circulates in the heat collecting space from the vent of the heat collecting panel or the heat collecting / condensing panel, so that the heat collecting efficiency can be improved as compared with the conventional case.
Furthermore, in addition to the function of the heat collecting panel, a heat collecting / condensing panel having a light collecting function can be provided. By combining such a heat collection / condensing panel with a solar power generation panel, the amount of power generation can be increased compared to installing the heat collection panel in combination with the solar power generation panel.

It is explanatory drawing of the Example of the heat collecting panel 1 used for this invention. It is explanatory drawing of the Example of the heat collecting and condensing panel 2 used for this invention. It is explanatory drawing of the Example of the roof material of the solar power generation panel with a roof material used for this invention. It is explanatory drawing of the Example of the photovoltaic power generation panel of the photovoltaic power generation panel with a roof material used for this invention. It is explanatory drawing of the Example of the photovoltaic power generation panel of the photovoltaic power generation panel with a roof material used for this invention. It is a top view of the Example of the photovoltaic power generation panel with a roof material used for this invention. It is explanatory drawing which shows the attachment state of the heat collecting panel of the Example of this invention, and is sectional drawing of the eaves-ridge direction. It is explanatory drawing which shows the attachment state of the heat collecting and condensing panel of the Example of this invention, and is sectional drawing of an eaves-ridge direction. It is explanatory drawing of a prior art. It is explanatory drawing of a prior art.

Examples of the heat collecting panel 1 and the heat collecting / condensing panel 2 of the present application will be described with reference to FIGS. FIG. 1 is a cross-sectional view in the eaves-ridge direction of an embodiment of the heat collecting panel 1. FIG. 2 is a cross-sectional view in the eaves-ridge direction of the embodiment of the heat collecting / condensing panel 2.
Moreover, the Example of the solar power generation module A with a roof material with which the heat collecting panel 1 of this application or the heat collecting and condensing panel 2 is combined is described with reference to FIGS. FIG. 3 is an explanatory diagram of an embodiment of the roof material 3. 4A and 4B are explanatory diagrams of an embodiment of the solar power generation panel 4. FIG. FIG. 5 is an explanatory diagram of the solar power generation panel A with a roof material.

First, an embodiment of the heat collecting panel of the present application will be described with reference to FIG.
As shown in FIG. 1, the heat collecting panel 1 is composed of a light-transmitting plate 12, a heat insulating material 13, and a frame body attached in all directions, and is arranged between the light transmitting plate 12 and the heat insulating material 13. A thermal space 14 is formed. A water fitting portion 11 is formed on the water side of the frame. Moreover, the vent hole 15 which connects the heat collection space 14 and the trough part of the roof material of the photovoltaic power generation panel with the lower roof material is formed.
The translucent plate 12 refers to a tempered glass plate or the like.
The underwater fitting portion 11 may be formed by deforming the underwater side frame, or may be attached to the underwater side frame as a separate body.
Moreover, the shape of the water side of the heat collecting panel 1 is not ask | required. You may combine the decorative panel which has a water fitting part which is formed in the solar power generation panel A with a roof material mentioned later on the water upper side of the heat collecting panel 1, and has a water fitting part. Furthermore, you may form the attachment part to a base material in a water-side frame.

Next, an embodiment of the heat collecting / condensing panel of the present application will be described with reference to FIG.
As shown in FIG. 2, the heat collecting / condensing panel 2 includes a translucent plate 22, a heat insulating material 23, a solar cell 26 installed on the heat insulating material, and a frame body attached to all sides. A heat collecting space 24 is formed between the light transmitting plate 22 and the solar cell 26. A water fitting portion 21 is formed on the water side of the frame. Moreover, the vent hole 25 which connects the heat collection space 24 and the trough part of the roof material of the photovoltaic power generation panel with a lower roof material is formed.
The translucent plate 22 refers to a tempered glass plate or the like.
The underwater fitting portion 21 may be formed by deforming the underwater side frame, or may be attached to the underwater side frame as a separate body.
Further, the shape of the water collecting / light collecting panel 2 on the water side is not limited. A water fitting part such as that formed in a solar power generation panel A with a roof material to be described later may be provided on the water upper side of the heat collecting / condensing panel 2 and a decorative panel having a water fitting part may be combined. . Furthermore, you may form the attachment part to a base material in a water-side frame.

Next, the Example of the photovoltaic power generation panel A with a roof material with which the heat collecting panel 1 or the heat collecting / condensing panel 2 of this application is combined is described. The roof material 3 in FIG. 3 and the solar power generation panel 4 in FIGS. 4A and 4B are combined, and an example of the solar power generation panel A with the roof material integrated as shown in FIG. 5 will be described. These are technologies in which the applicant has integrated a photovoltaic power generation panel with a roof material having a mountain part and a valley part in Japanese Patent Application No. 2011-507486 “Solar power generation panel with roof material and eaves with roof material”. Is filed.
As shown in FIG. 3, the roofing material 3 is formed by alternately forming the mountain portions 31 and the valley portions 32, and has a space communicating in the eaves-ridge direction. A wave shape in which the peaks 31 and the valleys 32 are alternately formed may be used, or a shape in which the valleys 32 are widened or a shape in which the valleys 32 are narrowed may be used.
As shown in FIGS. 4A and 4B, the photovoltaic power generation panel 4 is composed of a module main body 43 and a frame body attached to the four sides thereof, and a water fitting portion 42 is formed on the water side of the frame body. Has been. The water fitting portion 42 may be formed by deforming the water-side frame body, or may be attached to the water-side frame body as a separate body. In addition, the underwater fitting part 41 may be formed in the underwater side like a present Example. The underwater fitting portion 41 may be formed by deforming the underwater side frame, or may be attached to the underwater side frame as a separate body. The water fitting portion 42 of the photovoltaic power generation panel A with the roofing material is arranged in the space formed by the roofing material 3 and the photovoltaic power generation panel A with the upper roofing material or the heat collecting panel 1 or the heat collecting / condensing panel. The two underwater fitting parts 11, 21, and 41 are formed in a fitting shape.
As shown in FIG. 5, the fastener C is driven into the frame body of the photovoltaic power generation panel 4 from the back surface side of the mountain portion 31 of the roof material 3, and the frame body and the roof material 3 are integrated.

  Next, the attached state of the heat collection panel 1 and the heat collection / condensing panel 2 will be described with reference to FIGS. FIG. 6 is an explanatory diagram showing a mounting state of the heat collecting panel 1 according to the embodiment of the present invention. FIG. 7 is an explanatory diagram showing an attached state of the heat collecting / light collecting panel 2 according to the embodiment of the present invention.

As shown in FIGS. 6 and 7, the mounting state is the same for both the heat collecting panel 1 and the heat collecting / light collecting panel 2. The solar power generation panel A with a roof material combined with the heat collecting panel 1 or the heat collecting / condensing panel 2 of the present application is attached from the water side to the water side in the eaves-ridge direction. First, the solar power generation panel A with the roof material on the most submerged side is fixed to the base material by driving a fastening tool into the fastening portion 33.
Then, the underwater fitting portion 41 of the upper photovoltaic power generation panel 4 is fitted into the water fitting portion 42 of the fixed photovoltaic power generation panel A with the roof material, and a fastening tool is driven into the fastening portion 33. The construction is repeated such as fixing to the base material, and the heat collecting panel 1 or the heat collecting / condensing panel 2 is attached to the uppermost water side. In that case, the underwater fitting portions 11 and 21 of the upper heat collecting panel 1 or the heat collecting / condensing panel 2 are fitted into the upper water fitting portion 41 of the lower roof solar photovoltaic panel A.
Thus, when the photovoltaic power generation panel A with the roof material and the heat collecting panel 1 or the heat collecting / condensing panel 2 are combined in the eaves-and-ridge direction, the valley portion 32 of the lower photovoltaic power generation panel A with the roofing material 32 is combined. The warmed air that circulates in the air circulates from the space communicating in the direction of the eaves of the roof material 3 to the heat collecting spaces 14 and 24 through the vents 15 and 25. By doing so, the heat collection efficiency is improved.

  In the case of the present embodiment, when the photovoltaic power generation panel A with the roofing material and the heat collecting panel 1 or the heat collecting / condensing panel 2 are combined in the eaves building direction, the photovoltaic power generation panel with the lower roofing material is combined. The upper heat collecting panel 1 or the heat collecting / condensing panel 2 is designed to cover the A fixing portion 33, and the fixing portion 33 is not exposed. Therefore, it has a highly waterproof structure, and the joint cap between the solar power generation panel A with roofing material and the heat collection panel 1 or the heat collection / condensing panel 2 combined in the direction of the eaves, and the metal fitting for fastening the joint cap Is unnecessary.

  So far, the heat collecting panel 1 and the heat collecting / condensing panel 2 have been described as examples in which they are mounted directly on the base material. However, you may construct on the existing roof.

  In addition, it is good also as a heat collecting panel with a roof material which integrated the roof material 3 under the heat collecting panel 1 or the heat collecting / condensing panel 2, or a heat collecting / condensing panel with a roof material. In that case, a fastening tool is driven from the back side to the frame of the heat collecting panel 1 or the heat collecting / condensing panel 2 from the mountain portion 31 of the roofing material 3, and the frame and the roofing material 3 are integrated.

DESCRIPTION OF SYMBOLS 1 Heat collection panel 11 Underwater fitting part 12 Translucent board 13 Heat insulating material 14 Heat collecting space 15 Vent 2 Heat collecting and condensing panel 21 Underwater fitting part 22 Translucent board 23 Insulating material 24 Heat collecting space 25 Ventilation Mouth 26 Solar cell 3 Roofing material 31 Mountain part 32 Valley part 33 Fastening part 4 Solar power generation panel 41 Underwater fitting part 42 Overwater fitting part 43 Module main body A Solar power generation panel C with roofing material Fastening tool

Claims (1)

A heat collecting panel or a heat collecting / condensing panel combined with a solar power generation panel with a roof material,
The roofing solar power panel is:
The roofing material on which the peaks and valleys are formed and the photovoltaic panel are integrated,
The photovoltaic panel is
It consists of a module body and a frame attached to all four sides.
A water fitting part is formed on the water side of the frame,
The roofing material is
It has a length that protrudes from the water fitting part,
A fastening part is formed in the part protruding above the water ,
The heat collecting panel is
It has a translucent plate, a heat insulating material, and a frame attached to all sides,
A water fitting part is formed on the water side of the frame,
A heat collection space is formed between the translucent plate and the heat insulating material,
The heat collection space and the valley of the roof material are
Communicated with the vents,
The heat collecting / condensing panel is
A translucent plate, a heat insulating material, a solar cell installed on the heat insulating material,
With a frame attached to all sides,
A water fitting part is formed on the water side of the frame,
A heat collection space is formed between the translucent plate and the solar cell,
The heat collection space and the valley of the roof material are
Communicated with the vents,
When a solar power generation panel with a roof material and a heat collection panel or a heat collection / condensing panel are combined in the eaves building direction,
The upper heat collecting panel or heat collecting / condensing panel is
It is put on the fixed part of the photovoltaic panel with the roof material in the lower tier,
In the space formed by the water fitting part of the photovoltaic power generation panel with a roof material and the roof material,
The underwater fitting part of the heat collecting panel or the heat collecting / condensing panel is fitted,
A heat collecting panel or a heat collecting / condensing panel, characterized in that warm air flowing through a roof valley of a photovoltaic power generation panel with a roof material flows from a vent to a heat collecting space.

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