JPS6088754A - Roof integrated type solar energy collecting apparatus - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a roof-integrated solar heat collector installed integrally with a roof.

Conventionally, roof-integrated solar heat collectors, which are installed integrally with a part of a roof, are generally installed on a roof base that is formed on the same plane as the part covered with roofing material, that is, on a single-plane roof board surface. It was placed in a mounted state. However, in practice, the thickness or height of a heat collector is usually about 90 to 100 mm, whereas so-called colorbeth is used as a roofing material.
When plates, etc. are used, their thickness is significantly smaller than that of the heat collector described in 2), which results in the heat collector protruding high above the roof surface after construction. On the outside, there were some spots that gave the impression that a roof-mounted heat collector was being used, giving off a sense of strangeness. On the other hand, conventional solar heat collectors are generally installed over the rest of the roof flow from the ridge to the eaves, but when the roof area is large, it is especially difficult to install If the length of the flow is too large compared to the length of the heat collector that is about to come out, it is necessary to remove the roof by making the ridge cover of the heat collector or the piping space at the end of the heat unnecessarily long. Try to match the length of the flow -h +, -J, and there will be a lot of wasted parts: When it connects to Isu I up, J, Una 5!
There were 11 points.

This invention aims to provide a roof-integrated solar heat collecting device that solves the problems mentioned above.
It is placed lower than the roof board of the covered part of the roof with a step that is less than the height of the heat collector.
), the lower part of the solar heat collector is fitted into the concave part of the roof base formed by Cffff, and the φ1 side end of the heat collector is positioned in the middle of the roof flow, In addition, between the lower surface of the fltl side end and the surface of the sheathing board covered with roofing material located below it, a support plate made of aluminum or colored steel plate is arranged to maintain a predetermined flow gradient. It is characterized by the fact that it ended in a rainy day.

Embodiments of the present invention will be described below based on the drawings.

The roof-integrated solar heat collection device according to the present invention has a heat collector (
C) is installed in a so-called groove-like manner into the subsurface of roof A).

That is, as shown in Figures 1 to 3, the roofing board (
1a) is the roofing board (1) of the part covered by the roofing material (b)
11), the solar heat collector (C) is placed at a lower level with a step less than or equal to the height of the heat collector (C), and the solar heat collector (C) is placed in the recess (2) of the roof base formed by this. It is installed with 1.

The above-mentioned base plate < Ia) (1b) is shown in Figure 2.
, Uni, the height dimensions of the rafters (4a) (4b) carried on the same plane of a single purlin material (3) are made different, and the height dimension of the rafters (48N!Y) is low. The base plate (1a) is supported at different heights by supporting the higher floor planks (1b) on the high-level rafters (4'b), which are cut at different heights. ing.

And, as shown in FIG. 1, the solar heat collector (C) is
The edge of the ridge side reaches the ridges J and C of the roof (A) and covers the ridge cover (
5), but the end on the 1 side is covered by the roof (A).
In January), the roof flow ends in the middle of J), so the lower part is covered with normal roofing material (B), just like the area on the side of the heat collector (C). It is said that

The heat collector (C) itself has the following configuration.

filj is also shown in Figures 2 to 5 - Lee J.
Assembling the aluminum extrusion mold on the lower flooring board (1a) via the ASKUL 1-roof ink tank waterproofing sheet 1? ! Seven wooden Lm cups (6) are arranged in parallel at predetermined intervals, and these adjacent tile rods (6) (6)
When the color steel plate J and Rinaru waterproofing plate (7) are laid in between, the Thr heat material (8) and the heat collecting plate (9) are arranged in a laminated manner in order on top of it, and further above it. A transparent body (1o) such as a glass plate is arranged. and,
At both side edges of the heat collector (C), a side piping chamber (12) through which the circulation pipe (11) is passed is formed by a pipe cover (13) extending laterally from the tile rod (6) at the side end. and the vibrator cover holder IJ (14) with its tip supported on the field board (Ia) Jx
At the same time, the roofing (Δ(
B) is arranged to cover the side line part and the tile retainer (25).
Both extraction parts of the heat collector (C) are protected from rain by the Keraba Shrine (15).

In addition, the eave side end of the heat collector (c) houses piping (16) such as a header pipe, as shown in Figure 4! I palm (
17) The lower end is connected to the eaves partition plate (18) [M1 chained, and there is a drawer tip (19) on the outer surface of the partition 41m (18) at the part where the tile rod (6) is located. The ends are finished.

Since the eave side pane 81 of this heat collector (C) is located in the recessed part <2) of the base base, the heat collector (C)
) There remains the problem of how to stop rainwater flowing down the top or inside of the building. In order to solve this problem, the following rain protection structure has been adopted.

That is, as shown in Fig. 4, the part of the roof M (1 to 1) extending from the lower end of the eave side tip of the lower roof board (1a) to the eave side (). A support plate (21) made of plywood is installed between the tile retainer (20) at the upper end to maintain the required flow gradient, and on top of this a support plate (21) made of nofluminium temporary or colored steel plate is installed. ) are installed while maintaining a predetermined flow gradient. The ridge side end of the draining board (22) is bent upward and its rising edge (22a) is positioned on the lower surface side of the eave side end of the heat collector (C),
! The first end covers the upper surface of the tile retainer (20) and is fixed thereto with appropriate screws or the like. Also, draining board (22)
Both side edges of
It has a curved edge (22a) to prevent rainwater from leaking to the sides. Soshini draining board (22)
Both 111! The top surface of the I edge and the high-level field boards on both sides (
1b) For the connecting part between the 1V root IQ month (b) hung above, the upper eave end closing month (23) made of bent material such as an aluminum plate and the lower eave end closing material (23) are used. 2
4) A dance is being performed everywhere. That is, the upper light end tree 1-1 closing material (23), which is formed in a substantially downward-pointing cross-sectional shape,
Insert the ridge side end into the verge material <15) and insert it into the J opening.
C, and the upper part of the chevron-shaped bulge (24a) of the lower eave end closing +4 (24) is inserted into the old side end. And this lower eaves wood end closure +J
The outer Ie+1 part (241) of (24) is overlapped on the roofing material (b), and the inwardly extended sloped part (24c) covers both side edges of the draining board (22). I'm being kicked. The above eaves wood 1" Sealing material 2
3) (24) may be formed integrally by extending from both side edges of the drainage board (2), but the heat collector (C) may be installed after the roofing material (B) is installed. For convenience, the illustrated embodiment J and sea urchin are shown as separate parts)
It is right-handed to do things such as ``X,'' and ``1 later, E, 1, and 11L.''

This invention is based on (e) above, and first, the heat collector (C) is installed with at least its lower part fitted into the recess (2) formed in the roof base.
There is no large difference in level between the top surface of the roofing material ([)] and the top surface of the heat collector (C), and the appearance of the roof surface is noticeably strange due to the presence of the heat collector. There are no shortcomings.

In addition, because the eaves side end of the heat collector is located in the middle of the roof flow and does not reach the C1 eaves, when looking at the roof from below, when F is lifted, the eaves part is exactly the same as a normal roof. Not only does it look good on the outside, but also when the heat collector reaches the eaves and is installed in an upwardly protruding shape, the rainwater that flows down the top of the heat collector can cause a pile up at the eaves (;11). It is possible to simplify the structure of the rain gutter by eliminating the need for a special homology to prevent falling over.Furthermore, the heat collector (C)
While positioning the light emitting end of the roof in the middle of the roof flow, the flow gradient of r91 is adjusted by adjusting the slope between the pull side end all and the bent part of the roofing material below it. Since this is done through the drain plate (22) installed at I can do it. Therefore,
It is convenient to install a shorter heat collector than the length of the roof flow by connecting it to the roof integrated b, and the line of the heat collector itself! Compared to the case where the length of the II room is made to match the length of the roof flow, there is an advantage that loss can be reduced by standardizing the heat collector components and making them less desirable.

[Brief explanation of drawings]

The drawings show an embodiment of the present invention, and FIG. 1 is a perspective view showing an outline of the installed state of the heat collector, and FIG.
FIG. 3 is a plan view of one side edge of the eaves side end of the heat collector, FIG. 4 is an enlarged sectional view of line rv - + v in FIG. 1, and FIG. FIG. 6 is a perspective view showing the constituent members of the portion shown in FIG. (C)...Solar heat collector, (A)...Roof, (1)
)... Roofing material, <1a)... Low sheathing board, (1
11)...High field board, (2)...Concave part, (2
2)...Draining board. that's all

Claims (1)

[Claims] The field board of the part where the solar heat collector is installed on the roof base is placed below the field board of the part covered by the roof, with a step less than the height of the solar heat collector, and this When a solar heat collector is installed with at least one part fitted into the concave part of the roof Tζ formed by Position U in the middle of
A drainage plate made of aluminum or colored steel plate or the like is installed to maintain a predetermined flow gradient between the roofing board surface covered with roofing material and the direction of the lower surface of the eave side edge 1σ. A roof-integrated solar heat collection device characterized by being arranged and protected from rain.