JP3937753B2 - Solar heat collector - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The invention of this application relates to a solar heat collecting apparatus. More specifically, the invention of this application relates to a new solar heat collecting apparatus capable of efficiently and easily performing indirect heat collection from a solar cell module in a power generation unit or system including the solar cell module. The present invention relates to a photovoltaic power generation unit or system provided with this.
[0002]
[Prior art]
With increasing interest in energy issues and environmental issues, solar energy is attracting attention, and in particular, the practical use of solar power generation systems that convert solar energy into electric power is being promoted. This solar power generation system is usually constructed such that a plurality of solar power generation units having solar cell modules are arranged in a plurality of rows from the eaves side to the ridge side on the roof surface of a house or the like. .
[0003]
By the way, when considering further effective use of solar energy, it is conceivable to use not only solar energy but also solar thermal energy by the solar power generation unit disposed on the roof surface as described above. That is, for example, on the same roof surface, power is generated by sunlight and solar heat is collected as hot water.
[0004]
However, conventionally, in order to simultaneously perform solar power generation and solar hot water collection on the same roof surface, it is necessary to install a solar water heater or the like separate from the solar power generation unit. Naturally, there was a problem that the number of solar power generation units to be arranged had to be reduced. This hinders the effective use of solar energy.
[0005]
Therefore, an electrothermal hybrid solar power generation unit that can simultaneously generate solar hot water as well as solar power generation without reducing the efficiency of solar power generation, and an electrothermal hybrid type using the solar power generation unit New solar power generation systems are being considered.
[0006]
As an electrothermal hybrid unit or system using sunlight, for example, as illustrated in FIG. 11, the upper portion of the solar cell module (1) is covered with the cover glass (2) and disposed on the back side thereof. In the gap between the case body (3) and the solid heat insulating material (4), a metal water pipe or a metal fin (heat collecting plate) integrated with the metal water pipe is provided. It is considered to arrange a heat collector (5) that is in close contact with the back surface of the battery module (1) and that allows a heat medium to flow through the water pipe.
[0007]
[Problems to be solved by the invention]
The electrothermal hybrid units and systems as described above are attracting attention as expanding the possibilities for the use of sunlight. On the other hand, the heat collection in the heat collector (5) is a solar cell module ( Since it is indirect heat collection on the back surface of 1), it has been desired to make it more efficient.
[0008]
In fact, in the case of the heat collector (5) using a water pipe or a fin, these are made of metal and have high rigidity, and the solar cell module (1) also has high rigidity. It is not easy to adhere to the back surface of (1), and therefore there is a problem that the heat collecting performance is not always good. In addition, there is a problem that the production and construction of the heat collecting performance is inevitably expensive.
[0009]
Accordingly, the invention of this application solves the above-described problems, and a new solar heat collecting apparatus capable of indirectly collecting heat from the solar cell module more efficiently and easily, It is an object to provide a solar power generation unit or system provided with this.
[0010]
[Means for Solving the Problems]
In order to solve the above problems, the invention of this application is firstly a heat collecting device in a solar power generation unit having a solar cell module , on both surfaces of a metal sheet having a heat medium inflow / outflow portion. It is equipped with a flexible sheet bag that is made by laminating and sticking a synthetic resin sheet , and the bag is inflated by the heat medium inside when it is in operation and water is flowing , and adheres to the back surface of the solar cell module. Thus, a solar heat collecting apparatus is provided, which performs solar heat collection and the bag-like body is in a deflated state when the operation is stopped .
[0011]
The invention of this application, the second bag-shaped body, a solar heat collector, wherein the flexible sheet is adhered to those molded, the third, the bag-like The solar heat collecting apparatus is characterized in that the body is provided with a front and back partial sealing portion at the center in the planar shape . Fourth, the end of the partial sealing portion is formed into a circular shape. A solar heat collecting apparatus characterized in that the circular shape of the end portion is larger than the width of the partial sealing portion; and the sixth, bag-like body having a partial sealing unit provides a solar heat collector, characterized in that it is surrounded by a bag-like body having no partial sealing portion.
[0012]
The invention of this application provides, in a seventh aspect, a solar heat collecting device in which the solar cell module and the heat collecting device are integrated by a case body, and in the eighth, in the case body. Provides a solar heat collecting apparatus to which a drain hose for leading water leakage into the gutter is connected.
[0013]
Ninth, the invention of this application is characterized in that a plurality of solar thermal collectors described above are connected to each other at an inflow / outflow portion of the heat medium so that the heat medium flows. A solar heat collector is also provided.
[0014]
Furthermore, the invention of this application provides, in a tenth aspect, a solar power generation unit including any one of the above solar heat collectors, and in an eleventh , a solar power generation system. .
[0015]
DETAILED DESCRIPTION OF THE INVENTION
The invention of this application has the features as described above, and the embodiments of the invention will be described below in more detail with reference to the drawings.
[0016]
FIG. 1 is a plan view illustrating an outline of the main part of the bag-like body of the heat collecting apparatus of the invention of this application. The bag-like body (6) is composed of a flexible sheet, and has an inlet part (61) for inflow of the heat medium into the inside and an outlet part (62) for outflow of the heat medium from the inside. have.
[0017]
The inlet portion (61) and the outlet portion (62) may be formed in a pipe shape and connected by a joint hose or the like to form a system with a plurality of bag-like bodies (6). And according to the distribution | circulation system and use of a heat medium, you may arrange | position several inlet parts (61) and outlet parts (62) with respect to one bag-like body (6), respectively.
[0018]
The bag-like body (6) may be formed by one piece of flexibility, or may be formed by bonding two or more pieces. For example, FIG. 2 illustrates a cross section of the peripheral portion AA of FIG. As illustrated in FIG. 2, the flexible sheet (63) can be bonded and sealed around the bag-like body (6) by adhesion or welding.
[0019]
The flexible sheet (63) is required to have heat resistance required as a heat collector and strength that prevents the heat medium from leaking out, and also has flexibility. And heat-transfer property as a heat collection body shall be high.
[0020]
As the flexible sheet (63) having such a performance, a synthetic resin sheet is laminated and adhered to both surfaces of a metal sheet (63A) such as aluminum as illustrated as an enlarged cross section in FIG. be able to. For example, a PP resin layer (63B) that is heat resistant and capable of heat welding is laminated on the inner surface side, and a PET resin layer (63C) that has good heat resistance and strength is laminated on the outermost layer. Can be.
[0021]
Moreover, as illustrated in FIG. 1, in the solar heat collecting apparatus of the invention of this application, the front and back partial sealing portions (64) can be disposed in the center portion in the planar shape. The partial sealing portion (64) enables the shape and strength of the bag-like body (6) to be maintained, and, as indicated by arrows in FIG. 1, from the inlet portion (61) to the outlet portion (62). By controlling the flow of the heating medium, it is possible to make the heat collection to the heating medium uniform. When the partial sealing portion (64) is not present, the heat medium tends to flow from the inlet portion (61) to the outlet portion (62) at the shortest distance, and thus heat collection by heat transfer to the heat medium is not uniform. In some cases, the heat collection efficiency is not good. The arrangement of the partial sealing portion (64) is preferable for this reason.
[0022]
The partial sealing portion (64) is formed in a state where the front side and the back side of the bag-like body (6) are tightly sealed as illustrated in FIG.
For example, as illustrated in FIG. 4, for example, the bag-like body (6) as described above can be arranged on a building roof to constitute an electrothermal hybrid type device. That is, as illustrated in FIG. 4, in the solar heat collecting apparatus of the invention of this application, the bag-like body (6) is disposed on the back surface side of the solar cell module (1) covered with the cover glass (2). And supported by a solid heat insulating material (4) such as a foamed resin and inserted in the case body (3). The bag-like body (6) swells due to the circulation of the heat medium therein during heat collection, and comes into close contact with the back surface of the solar cell module (1).
[0023]
FIG. 5 is a cross-sectional view illustrating state changes during operation water flow (A) and when stopped (B) when collecting heat by generating warm water using water as a medium.
When water or hot water of the heat medium enters the bag-like body (6) during operation water flow in FIG. 5 (A), the bag-like body (6) swells and becomes in a crimped state on the back surface of the solar cell module (1). Highly efficient heat collection is possible through heat conduction. On the other hand, at the time of the stop of FIG. 5 (B), the bag-like body (6) is deflated and the heat collection is stopped.
[0024]
As described above, in the solar heat collecting apparatus of the invention of this application using the bag-like body (6) constituted by the flexible sheet (63), the bag-like body (6) is formed according to its shape freedom. When the heat medium enters, it swells with the pressure and comes into close contact with the solar cell module, so that it is possible to reliably and effectively collect heat indirectly. The heat collecting performance is superior to that of a rigid heat collecting body such as a metal water pipe or fin. In addition, the materials and manufacturing are inexpensive, the assembly work is easy, and the bag-like body (6) can be easily replaced and repaired when trouble occurs.
[0025]
In addition, the structure in which the partial sealing portion (64) is provided as described above increases the retention of the shape and strength of the bag-like body (6), and uniform and efficient collection by controlling the flow of the heat medium. The heat will be further increased.
[0026]
The arrangement of the partial sealing portion (64) will be further described. The partial sealing portion (64) can also be formed by welding in the same manner as the peripheral portion of the bag-like body (6). Since the load concentrates easily on the end portion (64A) of (64) and is easily damaged, the end portion (64A) is preferably circular as illustrated in FIG. 1, and further illustrated in FIG. As described above, it is more preferable to use a gentle circular shape that is larger than the width of the central portion of the partial sealing portion (64). Thereby, stress is reduced and the durability of the bag-like body (6) can be improved.
[0027]
Further, in the bag-like body (6) exemplified above, when there is a concern that water leakage may occur due to damage of the sealing portion, the bag-like body not having the partial sealing portion (64) is surrounded. May be. For example, as illustrated in FIG. 7, a double bag structure of an inner bag (65) and an outer bag (66) is formed, and a partial sealing portion (64) is formed only in the inner bag (65). It is.
[0028]
Accordingly, even if the inner bag (65) is damaged, the outer bag (66) can prevent the heat medium from leaking. Since these bags are composed of thin sheets, even if they are of a double or even multiple structure, the heat transfer is good and the cost burden is small. The outer bag (66) can also be configured by the flexible sheet as described above.
[0029]
For example, in the case of a double bag structure, damage to the inner bag (65) can be detected by the heat medium accumulated between the outer bag (66) when water passes and becomes a resistance and can be detected. It will be possible to make a replacement decision without doing so.
[0030]
Further, as a countermeasure against water leakage, as illustrated in FIG. 4, since the bag-like body (6) can be integrally disposed on the case body (3), as illustrated in FIG. A drainage home (67) capable of discharging the water in the case body (3) to the rain gutter (68) even when water leaks can be connected to the case body (3).
[0031]
Furthermore, in the invention of this application, a plurality of solar heat collecting devices including the bag-like body (6) may be connected to each other in parallel as shown in FIG. It is good also as a structure mutually connected in series like this.
[0032]
In any case, the solar heat collecting apparatus of the invention of the present application exemplified and described in detail above can constitute a solar power generation unit or a system thereof by integration with the solar cell module.
[0033]
Of course, the invention of this application is not limited to the above example, and various forms of details are possible.
[0034]
【The invention's effect】
As described above in detail, the invention of this application makes it possible to achieve indirect functions from the solar cell module extremely efficiently and easily for realizing a combined function of solar power generation by solar cells and solar heat collection. Heat collection is possible.
[Brief description of the drawings]
FIG. 1 is a schematic plan view illustrating a bag-like body.
FIG. 2 is a partial cross-sectional view illustrating a flexible sheet of a bag-like body.
FIG. 3 is a schematic cross-sectional view illustrating a partially sealed portion.
FIG. 4 is a cross-sectional view exemplifying a configuration for incorporation into a solar cell unit.
FIGS. 5A and 5B are cross-sectional views illustrating states of the solar heat collecting apparatus during operation (A) and when stopped (B). FIGS.
FIG. 6 is a plan view showing an example in which an end portion of a partially sealed portion is an enlarged circle.
7A and 7B are a plan view and a cross-sectional view showing an example of a double bag structure.
FIG. 8 is a cross-sectional view illustrating the arrangement of a drain hose.
FIG. 9 is a plan view illustrating parallel connection.
FIG. 10 is a plan view illustrating serial connection.
FIG. 11 is a cross-sectional view showing an example of a heat collector using a water pipe.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Solar cell module 2 Cover glass 3 Case body 4 Solid heat insulating material 5 Heat collector 6 Bag-shaped body 61 Inlet part 62 Outlet part 63 Flexible sheet 63A Metal sheet 63B PP resin layer 63C PET resin layer 64 Partial sealing part 64A End 65 Inner bag 66 Outer bag 67 Drain hose 68 Rain

Claims (11)

A heat collecting apparatus in a solar power generation unit having a solar cell module, comprising a flexible sheet bag having a heat medium inflow / outflow portion and laminated with a synthetic resin sheet on both surfaces of a metal sheet The bag-like body is swollen by the heat medium inside it during running water, which is the time of heat collection , and is closely attached to the back surface of the solar cell module to collect solar heat , and the bag-like body is in a deflated state when the operation is stopped. solar heat collector characterized by comprising.   The solar heat collecting apparatus according to claim 1, wherein the bag-like body is formed by bonding a flexible sheet. The solar heat collecting apparatus according to claim 1, wherein the bag-like body is provided with front and back partial sealing portions at a central portion of the planar shape . 4. The solar heat collecting apparatus according to claim 3 , wherein the end portion of the partial sealing portion is formed in a circular shape . The solar heat collecting apparatus according to claim 4 , wherein the circular shape of the end portion is larger than the width of the central portion of the partial sealing portion . The solar heat collecting apparatus according to any one of claims 3 to 5 , wherein the bag-like body having a partially sealed portion is surrounded by a bag-like body having no partially sealed portion . The solar heat collector according to any one of claims 1 to 6 , wherein the solar cell module and the heat collector are integrated by a case body . 8. The solar heat collecting apparatus according to claim 7 , wherein a drainage hose for connecting water leaked into the case body to the rain gutter is connected to the case body . A solar heat collector, wherein a plurality of solar heat collectors according to any one of claims 1 to 8 are connected to each other at an inflow / outflow portion of the heat medium so that the heat medium flows . A solar power generation unit comprising the solar heat collecting apparatus according to claim 1 . A solar power generation system comprising the solar heat collecting apparatus of claim 10 .

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