JP2762207B2 - Solar heat collector - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a solar heat collector and a solar heat collector capable of obtaining a high heat collecting temperature.

[0002]

2. Description of the Related Art Conventionally, various types of heat collectors having a large contact with air serving as a heat medium have been used in solar heat collectors used for roof structures. Examples of such a heat collector include a metal plate or the like in which a large number of fins are protruded, and a metal plate or the like as shown in JP-B-56-4816, which is processed into an angular waveform. Are known.

[0003]

However, any of the above-mentioned conventional heat collecting plates requires troublesome labor and cost for its manufacture and processing. Further, the heat collecting efficiency of such a heat collecting plate is not always sufficiently high.

[0004]

SUMMARY OF THE INVENTION The present invention has been proposed in view of the above, and has a solar heat collector having a light transmitting material disposed on an upper surface thereof.
A solar heat collector used in the heat space, on the upper and lower surfaces of a metal wool material having fine voids through which air can flow,
The present invention relates to a solar heat collector provided with a metal holding material having air permeability.

Further, according to the present invention, there is provided a flowing water plate in the direction of the eaves ridge in a solar heat collecting space formed by disposing a light-transmitting material on the upper surface and a heat insulating material on the lower surface and closing the side surface by the supporting material. with arranging the metallic coercive having air permeability on the upper and lower surfaces of the metal wool material air having minute voids can flow
A solar heat collector provided with a holding material is disposed in the solar heat collecting space, and the support material is provided with a cap material covering a space between light-transmitting materials adjacent in the lateral direction. A feature of the solar heat collector is also proposed.

[0006]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below in detail with reference to the embodiments shown in the drawings.

The solar heat collector 1 of the present invention includes a metal wool material 10 having fine voids through which air can flow, a metal holding material 11 having air permeability (hereinafter, simply referred to as a holding material) 11,
Consists of

FIG. 1 shows an example of a metal wool material 10 in which a fibrous or ribbon-like metal material is formed into a wool having a density such that it has fine voids through which air can flow, and is formed into a mat shape. . As the metal wool material 10, it is also possible to use a material made of waste materials such as cutting chips produced by metal processing. In this case, it is possible to contribute to resource reuse and to reduce material costs. it can.

FIG. 2 shows the metal wool material 10 shown in FIG.
An example of the solar heat collector 1 in which the holding members 11 having air permeability are disposed on the upper surface and the lower surface of the solar heat collector 1 is shown. As the holding material 11 used for the solar heat collector 1, a punching metal may be used as in the illustrated embodiment, or a wire mesh may be used.
In the solar heat collector 1 of the present invention thus configured, since the contact area between the metal wool material 10 and the air is large, a high heat collection temperature can be obtained.
There are many advantages as compared with the case where the solar heat collector is constituted by only the solar heat collector. In some cases, the metal wool material 10 is bent and is difficult to handle, but in the present invention, the bending of the metal wool material 10 is suppressed by the holding material 11, the handleability is excellent, and the workability is improved. In addition, although the hand (finger) of the worker may be damaged by only the metal wool material 10, in the present invention, the contact with the metal wool material 10 is suppressed by the holding material 11, and the handleability is excellent. The workability is improved. Furthermore, the metal wool material 10 alone must function as a heat receptor for receiving the solar radiation, but in the present invention, the holding material 11 functions as a heat receptor for receiving the solar radiation. In particular, the plate-shaped holding member 11 has a large area for receiving the radiation of the sun, so that the heat collection efficiency is high. In addition, the work for performing the selective absorption process for efficiently obtaining sunlight is extremely troublesome with only the metal wool material 10, but in the present invention,
In particular, the surface of the plate-like holding member 11 is treated with zirconium carbide, chromium oxide, or the like, and the selective absorption treatment can be easily performed. Since the holding material 11 has air permeability, it does not hinder the flow of the air as the heat medium and hinder the contact between the air and the metal wool material 10.

FIGS. 3 and 4 show an example of a solar heat collecting apparatus 2 in which the solar heat collecting body 1 is provided.

The solar heat collecting apparatus 2 constitutes a part of a roof structure, and a support member 4 is disposed on an upper surface of a heat insulating material 3 laid on a roof surface along the eaves ridge. A light-transmitting material 5 is disposed between the members 4, 4. The body 1 is provided.

The support member 4 is a through member or a piece member made of a metal or other high-strength material. The support member 4 has a projection 42, Locking vertical pieces 43, 43 having 42 are provided upright, and short mounting pieces 44, 44 are provided outside the locking vertical pieces 43, 43. In addition, this support material 4
Are fixed on the heat insulating material 3 by bolts 45.

The translucent member 5 has a substantially cross-shaped long fixed frame 52 and gaskets 53, 54 attached to the left and right side edges of a long tempered glass 51 having translucency and heat retention. Configuration. The light transmitting material 5 may have a multilayer structure for preventing heat radiation.

Further, the running water plate 7 is formed by bending the left and right side edges of a long metal material 71 which is continuous in the eaves ridge direction and stands along the side of the fixing portion 41 of the support member 4 and the mounting piece 44. The raised portion 72 is formed, and the upper end of the raised portion 72 is folded downward to form a folded portion 73 along the mounting piece 44, and the lower end of the folded portion 73 is horizontally bent. The horizontal portion 74 is formed along the upper surface of the fixed portion 41.
Then, the tip of the horizontal portion 74 is bent upward to lock the vertical piece 4.
A vertical portion 75 is formed along the outer surface of No. 3 and an engaging portion 76 is formed at the upper end thereof and bent outward to engage with the upper end of the locking vertical piece 43.

Although not shown, a water pipe may be provided in the solar heat collecting space 6 together with the solar heat collector 1.

In order to construct the solar heat collecting apparatus 2 (roof structure) using the above-described members, first, the solar heat collecting apparatus 2 is applied to the roof surface portion of the heat insulating material 3 extending from the roof surface to the inner surface of the top duct. A plurality of support members 4...
And the running water plate 7 is arranged between the supporting members 4 and 4.
The rising portion 72, the folded portion 73, the horizontal portion 74, and the vertical portion 75 are respectively aligned with the corresponding portions of the support member 4, and the engaging portions 76 are engaged with the upper ends of the locking vertical pieces 43 to be supported. Next, the solar heat collector 1 and the water pipe (not shown) having the above-mentioned configuration are arranged in the solar heat collecting space 6, and the light transmitting material 5 is desired from above, and the gasket 53 is used to flow the water plate 7 (starting portion). The upper end of the mounting piece 44 of the support member 4 is received via the folded portion 72 and the folded portion 73). Further, the auxiliary member 8 is provided from above the support member 4.
The cap material 9 is mounted via the.

The auxiliary member 8 is provided with hanging portions 82, 82 having a tip shape to be engaged with the projecting portion 42 of the locking vertical piece 43 of the supporting member 4 inside a receiving portion 81 having an umbrella-shaped cross section. , Hanging down from the left and right side edges of the receiving portion 81,
The support member 83 is provided with a support leg portion 83 that comes into contact with the upper surface of the cap 52. The support leg portion 83 prevents the cap member 9 from being depressed by a pressing force from above. In addition, the cap member 9 is suspended from the left and right side edges of the umbrella-shaped makeup portion 91 in cross section, and
2 and 52 are provided with locking legs 92 having a folded lower end shape.

The solar heat collector 2 constructed as described above
Is the solar heat collector 1 disposed in the solar heat collecting space 6.
Are metal wool material 10 and air-permeable holding materials 11, 11
Since the air is sufficiently circulated, the thermal conductivity is high. Since the contact area between the metal wool material 10 and the air is large, a high heat collection temperature can be obtained. In addition, since the holding material 11 (particularly, the holding material on the upper surface) receives the radiation of the sun, the light receiving area is increased as compared with the case where the solar heat collector is constituted only by the metal wool material 10, and the heat collection efficiency is high. Become. The air is the same as the conventional solar heat collector.
In the same way as the installation,
It flows toward the ridge side in the heat collecting space 6 and is taken out at the ridge side
You. The outside air flowing into the solar heat collecting space 6 from the eaves side
Heated directly by the radiant heat of the sun as it flows to the side
Since the temperature rises, the air in the solar heat collecting space 6 rises
Temperature difference between layer side (high temperature) and lower layer side (low temperature)
become. However, in the solar heat collector of the present invention,
The lower layer of air is made of metal wool
Warm enough by contact with 10. Especially in the present invention
Uses metal wool material 10 as solar heat collector 1
With large contact area with air and high heat exchange efficiency
Therefore, the lower layer air, which is originally low temperature,
The temperature rises from the upper layer and rises. The air is thick like this
Not only is it directly heated by the radiant heat of the sun,
Warm even by contact with solar heat collector 1 that has received radiant heat
While flowing through the solar heat collecting space 6 toward the ridge side
As a result, air with a small temperature difference is taken in on the building side as a result
Can be

Further, since the metal wool material 10 has a large contact area with the air, the heat collection efficiency is high. For example, a wire made of stainless steel and having a width of 0.4 mm and a thickness of 0.05 mm and formed in a wool shape having a density of 47.5 kg / m ³ is higher than a conventional heat collector having a square waveform by 10 ° C. or more. The heat collection temperature was indicated.

Although the present invention has been described with reference to the embodiments shown in the drawings, the present invention is not limited to the above-described embodiments, and can be implemented in any way unless the configuration described in the claims is changed. be able to.

[0021]

As described above, the solar heat collector of the present invention has air permeability and a metal wool material through which air can flow.
Since the metal holding material is used, bending of the metal wool material is suppressed by the metal holding material , the handleability is excellent, and the workability is improved. In addition, the contact between the metal holding material and the metal wool material is suppressed, and the hand (finger) of the worker is not damaged, the handleability is excellent, and the workability is improved. Further, the metal holding member can function as a heat receptor for receiving the radiation of the sun, and particularly, a plate-shaped metal.
The metal holding material has a large area for receiving the solar radiation, so that the heat collection efficiency is high. Also, in particular, plate-shaped metal
The surface of the holding material is treated with zirconium carbide, chromium oxide, or the like, and a selective absorption treatment for efficiently obtaining sunlight can be easily performed. Further, since the metal wool material has a large contact area with air, the thermal conductivity becomes high, and a high heat collecting temperature can be obtained. Furthermore, the metal wool material can be easily manufactured at least as compared with the conventional processing of a heat collector having a square wave shape or a heat collector provided with a large number of fins. The use of waste materials contributes to the reuse of resources and can reduce the cost of materials.

In the solar heat collecting apparatus of the present invention, a continuous water plate is provided in the solar heat collecting space in the direction of the eaves ridge, and the space between the adjacent solar heat collecting apparatuses is covered with a cap material. As a result, it is possible to prevent rainwater from entering between adjacent solar heat collectors in the horizontal direction with a cap material, and to guide rainwater that has entered the solar heat collector space to the running water plate to drain it reliably. It has a characteristic of rain. Therefore, the solar heat collecting apparatus of the present invention has a good raining behavior even if it is laid directly on the roof foundation.

[Brief description of the drawings]

FIG. 1 is a perspective view showing one embodiment of a metal wool material.

FIG. 2 is a perspective view showing one embodiment of a solar heat collector.

FIG. 3 is a longitudinal sectional view showing one embodiment of a solar heat collecting device provided with a solar heat collector.

FIG. 4 is a side sectional view showing an embodiment of a solar heat collecting apparatus provided with a solar heat collector.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 solar heat collector 10 metal wool material 11 holding material 2 solar heat collector 3 heat insulating material 4 support material 5 translucent material 6 solar heat collecting space

Continuation of front page (58) Field surveyed (Int.Cl. ⁶ , DB name) F24J 2/04

Claims (2)

(57) [Claims] 1. A solar heat collecting sky having a light transmitting material disposed on an upper surface thereof.
A solar heat collection member used in between, the upper and lower surfaces of the metal wool material air having minute voids can flow, solar heat collector body formed by arranging a metal retaining member having air permeability. 2. A light transmitting material is provided on an upper surface, and a heat insulating material is provided on a lower surface.
Solar heat that is formed when the sides are closed by the support material
In the heat collecting space, a flowing water plate continuous in the eaves ridge direction is arranged, and a metal holding material having air permeability is arranged on an upper surface and a lower surface of a metal wool material having fine voids through which air can flow. A solar heat collecting device, wherein a solar heat collector is disposed in the solar heat collecting space, and the support member is covered with a cap material covering a space between laterally adjacent light transmitting materials.