JP2005164123A - Solar heat collector unit - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a solar heat collector panel capable of freely changing shape and size in response to a demand of a user. <P>SOLUTION: A solar heat collector panel unit 10 is provided with piping 50 and a connector 60, and a desired shape and/or size can be provided by connecting adjacent units 10 via the connector 60. Its projected shape is a regular polygon. By mutually connecting the units 10, shape and/or size can be freely set, and by cleverly selecting material and shape of the connector 60, not only a flat shape, but also three-dimensional and curved shapes or the like can be composed. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a solar heat collector panel (a flat plate solar collector).

As interest in environmental and energy issues grows, the demand for solar heat collector panels continues to increase.
The solar heat collector panel is mainly known as a flat panel type or a vacuum tube type, but the flat panel type having a simple configuration and easy to reduce the cost is becoming the mainstream of the solar heat collector panel.
Various studies have been made to improve the heat collection efficiency of the flat panel solar heat collector panel, which are disclosed in Patent Documents 1 and 2 and many other documents.

JP-A-9-217961 JP 2002-130835 A

However, since the conventional solar heat collector panel in Patent Documents 1 and 2 is generally a large flat plate having a surface area of several m ² , the installation shape and installation location are limited.
However, as the demand for solar heat collector panels increases, the specifications required by consumers have expanded, and in addition to improving heat collection efficiency and heat insulation performance, flexibility in installation shape is desired.

  An object of this invention is to provide the solar heat collector panel which can change the shape and magnitude | size of a flat panel freely according to a consumer's request | requirement in view of said point.

  The present invention solves the above-mentioned problems by a solar heat collector unit comprising a pipe and a connector, and can be formed in a desired shape and / or size by connecting to an adjacent unit through the connector. did.

According to the present invention, it is possible to form a solar heat collector panel having a free shape and size by dividing the solar heat collector panel into small-sized units.
Furthermore, by increasing the degree of freedom of the connector, it is possible to form a curved surface as well as a flat surface, and effective use at a limited installation location can be achieved.
Moreover, a solar heat collector system without waste can be formed according to the amount of heat required by the consumer.

The present invention will be described in detail with reference to the drawings.
FIG. 1 is a top view of a solar heat collector unit (hereinafter simply referred to as “unit”) 10 of the present invention.
1 (b) is a schematic surface of FIG. 1 (a) viewed from the direction of numeral 1, and FIG. 1 (c) is a schematic surface of FIG. 1 (a) viewed from the direction of numeral 2.
The unit 10 includes a silica airgel 20 which is a transparent heat insulating material, a heat collecting plate 40 whose surface is coated with a selective absorption film 30 and a metal pipe for heat medium circulation (hereinafter simply referred to as “pipe”) 50. It consists of a connector 60.

In the embodiment, the unit 10 is a regular hexagon having a side length of about 40 mm and a thickness of about 20 mm.
The unit in FIG. 1 has a regular hexagonal projection shape (top view), but this shape is not limited to a regular hexagon, and may be another regular polygon (including a square and a rectangle).

As shown in FIGS. 1A and 1C, the pipe 50 protrudes from the silica airgel 20, and has an appropriate connector 60 at the tip thereof.
The unit 10 is provided with one or more connectors, and by combining the connector 60 provided in the unit 10 and the connector 60 provided in the other unit 10, the unit is assembled, and the solar heat collector panel Form.

  In the present invention, the selective absorption film 30 coated on the surface of the heat collecting plate 40 is a titanium oxynitride (or aluminum oxynitride) thin film. Titanium oxynitride (or aluminum oxynitride) is suitable for a selective absorption film because it has the property of absorbing light of the wavelength of sunlight but not emitting light of the wavelength of infrared light.

In the present invention, silica airgel is used as the heat insulating material. Silica airgel is known as a high-performance heat insulating material because of its high porosity and extremely low thermal conductivity, and also has a high visible light transmittance and a specific gravity of about 0.1, so it is a solar heat collector. It is suitable as a transparent heat insulating material for panels.
The silica airgel 20 used in the present invention is obtained by supercritical drying of a wet gel prepared by hydrolysis and polycondensation of alkoxysilane.

  As shown in FIG. 1 (b), the pipe 50 is coupled to the lower part of the heat collecting plate 40, and each surface is coated with a selective absorption film 30. Furthermore, the selective absorption film 30, the heat collecting plate 40, and the entire pipe 50 are covered with the silica airgel 20, and are integrally formed.

Since the unit 10 integrally molded in this way is sealed with the silica airgel 20 without a gap, convection due to air does not occur, and the heat insulating performance is extremely excellent.
Silica aerogel is originally a very weak substance, but in the present invention, since the heat collecting plate 40 is embedded inside the silica aerogel, the silica aerogel is reinforced. Furthermore, by coating the silica airgel with a polymer, glass or the like, sufficient strength that can withstand practical use can be obtained.

  In addition, although the kind of metal which is a material of the heat collecting plate 40 and the piping 50 is not specifically limited, Copper excellent in heat conductivity is suitable.

FIG. 2 is a schematic view of a solar heat collector panel 70 configured by connecting a plurality of units 10.
In addition, the shape of the solar heat collector panel 70 of FIG. 2 is an example, and is not limited to this.
A feature of the solar heat collector unit of the present invention is that a solar heat collector panel having a free shape can be configured by connecting adjacent units to each other via a connector.
Furthermore, by devising the shape and material of the connector, it is possible to form a curved surface as well as a flat surface.
Therefore, when the installation space is limited, such as in a narrow place or uneven place, it is only necessary to form a three-dimensional panel by changing the unit connection, enabling effective use of the limited installation space. Become.

  Further, since the size of the panel can be freely selected, a solar heat collector panel corresponding to the amount of heat required by the consumer can be configured.

It is explanatory drawing of the solar heat collector unit of this invention, (a) is a top view, (b) is the schematic which looked at (a) from the direction of the number 1, (c) is (a) from the direction of the number 2 Schematic diagram seen. The schematic diagram of the solar heat collector panel comprised by connecting the solar heat collector unit of this invention.

Explanation of symbols

10: Solar heat collector unit 20: Silica airgel 30: Selective absorption film 40: Heat collecting plate 50: Piping 60: Connector

Claims (4)

It comprises a pipe and a connector, and can be formed into a desired shape and / or size by connecting with an adjacent unit via the connector.
Solar heat collector unit.   The solar heat collector unit according to claim 1, wherein the projected shape of the solar heat collector unit is a regular polygon.   The solar heat collector unit of claim 1 or 2, wherein the solar heat collector unit comprises two or more connectors. The solar heat collector unit according to any one of claims 1 to 3, wherein the solar heat collector unit uses a titanium oxynitride or aluminum oxynitride thin film as a selective absorption film and silica airgel as a transparent heat insulating material.

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