JPS6143627B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a roof-mounting structure for a natural circulation type solar heat collection device comprising a heat collector part and a hot water storage tank part forming a natural circulation circuit with the heat collector part.

Conventionally, as a roof-mounting structure for this type of solar heat collector, it is known that the entire heat collector is placed on roof panels such as tiles and supported from all sides with wires, etc. It lacks the strength and stability to support it, and has disadvantages such as exposed wires, which spoil the appearance.

The first invention of the present application aims to provide an effective mounting structure for a natural circulation type solar heat collector on a newly built or existing roof without the drawbacks of the conventional method.

In addition to the object of the first invention, the second invention of the present application provides a structure for mounting a natural circulation solar heat collecting device on the roof, which has an even better appearance by configuring the piping so that it is not exposed to the outside. The purpose is to

The details of the present invention will be explained below with reference to the drawings. In Figures 1 and 2, rafters 1 are supported parallel to the roof structure of the building, roofing boards 2 are stretched over the rafters 1, and waterproof paper 3 is laid on top of them. A roof base material is made up of rafters, roofing boards, and waterproof paper, and a roof is constructed by reeding roof boards 4 such as slate, metal plates, tiles, etc. on this base material, and on this roof surface, A roof plate on the roof surface that approximately corresponds to the installation base area of the heat collector part 5a of the natural circulation solar heat collector 5 is left unreeded, and a frame is appropriately raised from the roof plate surface on this surface F where the roof plate is not laid. A shaped heat collector support frame 6 is fixed, the support frame 6 supports the heat collector part 5a of the heat collecting device 5, and the hot water storage tank part 5b is placed on the roof plate 4.

First, the heat collector part 5a of the heat collector 5 has the third and fourth parts.
As shown in the figure, in this example, a type that heats liquid such as water is used, and its structure is such that the flat upper surface of the flat box-shaped heat collector case 7 is opened, a transparent glass 12 is fitted into it, Inside the case 7 is the lower base tube 8.
And while installing the base pipe 9, between both the base pipes,
A heat collecting plate 11 having a large number of channels 10 through which hot water flows is connected, and a rectangular frame-shaped hanging plate 16 is integrally moved downward from the lower end of the four peripheral walls of the case 7 of such a heat collector. It is extended. 17...... are tight material receiving grooves provided on each of the four peripheral edges of the bottom of the case 7, 18...... are tight materials such as rubber fitted into the receiving grooves 17..., respectively, and the whole has a frame shape. ing. 19 is a heat insulating material inside the case.

The other hot water storage tank 5b has a hot water storage tank 34 installed inside a tank case 33 as shown in the second and fifth figures, and is connected to the sloped upper part of the roof of the heat collector section 5a, and the connecting means includes: A connecting plate 3 having one end fixed to both left and right sides of the heat collector case 7
Both left and right sides of the hot water storage tank case 33 are fixed to 5 and 35 with screws 36. The piping related to this hot water storage tank 34 is as follows. Fifth
In the figure, the water supply pipe 37 connected to the water supply port at the upper part of the hot water storage tank 34 extends from the case 33 into the heat collector case 7 and extends through the heat collector case 7.
A circulation connecting pipe 39 extends downward through the bottom plate 13 of the heat collector, is provided with a coupling 38 at the extending end, and connects the lower outlet of the hot water storage tank 34 and the lower base pipe 8 of the heat collector. A lower hot water sampling pipe 40 is connected to an appropriate location in the case 7, extends downward through the case bottom plate 13, and is provided with a coupling ring 41 at the extending end. An upper hot water sampling pipe 43 is connected to an appropriate location in the heat collector case 7 of the circulation connecting pipe 42 that connects the inlet and the upper base pipe 9 of the heat collector, and the hot water sampling pipe 43 is passed through the case bottom plate 13. It extends downward, and a coupling ring 44 is connected to the extending end. The upper hot water sampling pipe 43 is connected to the hot water storage tank 3 without going through the circulation connection pipe 42.
It may also be directly connected to the hot water sampling outlet provided at the top of No. 4. Reference numeral 45 denotes a drain pipe connected to the lower base pipe 8, which also extends downward through the bottom plate of the case, and has a coupling ring 46 at its extending end. In this case, when installing the anti-freeze valve without installing drain piping, it is sufficient to simply provide a drain nozzle that penetrates the lower side surface of the collector case as in the conventional case.

Next, the heat collector support frame 6 is constructed by connecting four wooden frame members 20 with a rectangular cross section, and the outer dimensions of the frame are slightly larger than the inner dimensions of the frame-shaped hanging plates 16 of the heat collector 5. This support frame 6 is formed into a small rectangular frame body.
is placed on the waterproof paper 3 on the non-roofing surface F, and fixed to the roof board 2 or rafters 1 with nails, etc., and in this example, sub-boards are placed on the lower part of the slope of the support frame 6 and on the outside of both left and right sides. A tree 21 is fixed in the same manner, and a flashing plate 22 is attached to each frame member 20 and splint 21 of this support frame 6 as shown in the figure.
0...from the upper surface to the outer surface, then the splint 21...
... on the waterproof paper 3 from the upper surface to the outer surface, and the rain flashing board material 22 at the slanted upper part is extended 24 on the waterproof paper 3 diagonally from the middle of the outer surface of the frame material 20.
Then, the upper end of each flashing board material 22 is fixed to the upper surface of the frame material 20 with nails, screws, etc. 23, and the side ends of each flashing board material 22 are welded. They are joined together watertightly by folding or the like. Of the portions 24 of the flashing board material 2...... extended onto the waterproof paper 3, the extended portions above the roof slope and on the left and right sides are as shown in the third and fourth figures.
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. The portion is bent downward 26. Each flashing board material 2
The upper end portion of No. 2 on the support frame 6 is bent upward 27 as a water return. The above flashing board material 22
is an annealed aluminum alloy thin plate, a metal thin plate such as a galvanized iron plate, or a synthetic resin sheet, and preferably a bendable plate-like material is used.

In this example, the roof board 2 and waterproof paper 3 are not provided on the inside of the support frame 6, and the attic is left open.
It is also a good idea to put up field boards.

Next, each frame member 20 of the support frame 6 as described above...
On the top surface, attach one side of the heat collector mounting material 28 made of angle material such as aluminum alloy to the flashing board material 22, using the nails, screws, etc. 23 as described above, or with new nails, screws, etc. At the same time, the other side extends downward with a slight distance from the outside of each frame member 20, and the side ends of each mounting member 28 are watertightly joined to each other. Numeral 29 is a fin-shaped tight material such as rubber attached to the inner surface of the lower end of each mounting member 28, and seals the gap between the flashing plate 22 of the support frame 6 and the mounting member 28 in a watertight manner.

Place the bottom surface of the heat collector section 5a on the support frame 6 to which the heat collector mounting material 28 is fixed as described above, and then attach the tight material 18 on the bottom surface to the mounting material 2.
8... While abutting the upper surface, the hanging plate 16 is fitted onto the outside of the mounting material 28, and in this state, the hanging plate 16 is attached to the mounting material 2 with the screws 30.
8......, and the hot water storage tank portion 5b is placed on the roof plate 4... through an appropriate receiving member 47.

In this case, the water supply pipe 37, upper and lower hot water sampling pipes 40, 43, and drain pipe 45 protruding from the bottom surface of the heat collector part 5a are located inside the frame-shaped support frame 6,
and water supply, hot water sampling and drain pipes 47, 48,
49 and 50 are piped into the attic, and these pipes are connected to the couplings 38, 41, 44, and 46 of the pipes 37, 40, 43, and 45, respectively.

When installed as described above, rain falling on the roof plate 4 for the heat collector portion 5a flows down along the outside of the frame-shaped support frame 6 rising upward from the surface of the roof plate. , will not flow into the support frame 6. Even if rainwater reaches the height of the support frame 6, the fin-shaped tight material 29 prevents the rainwater from entering, and even if it reaches the upper surface of the support frame 6 beyond the tight material 29, the rainwater restraining plate material The upper water return bend 27... of 22...... prevents its infiltration. On the other hand, since the hot water storage tank 5b does not require strict watertightness due to its nature, it is generally susceptible to rainwater infiltration, and there is also the risk of water overflowing from inside, so it is placed on the roof plate 4. It is valid to have done so.

In the above example, the heat collector mounting material 28 is a long material that spans the entire length of the frame material 20, but it can also be a short material that does not include the tight material 29.

In the above example, the hanging plate 16 of the heat collector part 5a was indirectly fixed to the support frame 6 via the mounting material 28,
In some cases, the mounting material 28 may be omitted and the screws 30 may be inserted directly into the support frame 6 to directly fix the support frame 6.

It goes without saying that the solar heat collector of the present invention may also be of a type that heats gas such as air.

According to the roof mounting structure of the natural circulation solar heat collector of the first invention of the present application, the whole structure includes a frame-shaped hanging plate on the heat collector part and a heat collector support frame fixed on the surface of the roof where no roof plate is installed. It has an extremely simple structure and can firmly and stably support the entire heat collection device, and therefore can be effectively used not only for newly constructed roofs but also for existing roofs. Of the heat collection devices, it does not require strict watertightness.
The hot water storage tank, where there is a risk of water overflowing from inside, is placed on the roof board to effectively handle the water area, and it also provides a clean appearance with no wires. , its value is extremely high.

According to the structure for attaching the natural circulation solar heat collecting device to the roof of the second invention of the present application, in addition to the effects of the first invention, the water supply and hot water collection piping to the heat collecting device can be provided in the attic, This makes it possible to further improve the appearance.

[Brief explanation of the drawing]

The drawings show an embodiment of the present invention, and FIG. 1 is a partial plan view of the roof, FIG. 2 is an enlarged cross-sectional view of a portion of FIG. 1, and FIG. FIG. 4 is a partially omitted enlarged view of FIG. 1, and FIG. 5 is a schematic perspective view showing the circulation circuit of the apparatus. 4... Roof plate, 5a... Heat collector part, 5b... Hot water tank part, 6... Heat collector support frame, 7... Heat collector case, 16... Hanging board, 22... Rain flashing board material ,
24... Expansion part, 28... Heat collector mounting material, 37...
...Water supply pipe, 40...Lower hot water sampling pipe, 43...Upper hot water sampling pipe, 47, 48, 49...Piping.

Claims (1)

[Scope of Claims] 1. A solar heat collecting mechanism, which is connected to the upper part of the solar heat collecting mechanism in the roof inclination direction of the heat collector part, and which is connected to the upper part of the solar heat collecting mechanism in the roof inclination direction. In a natural circulation type solar heat collector having a mechanism and a hot water storage tank part forming a natural circulation circuit, frame-shaped hanging plates extend downward from the four peripheries of the heat collector part, and are attached to the roof surface from the roof surface. A heat collector support frame in the form of a frame that rises upward and has an outer diameter smaller than the inner frame shape of the hanging board is fixed, and a watertight means is provided between the support frame and the surrounding roof board, The heat collector part of the natural circulation type solar heat collector is installed and fixed on the heat collector support frame with its hanging plate fitted on the outside of the heat collector support frame, while the hot water storage tank part is fixed to the roof plate. A structure for attaching a natural circulation solar heat collector to the roof. 2. The heat collector support frame is provided with a flashing board that extends onto the roof and covers at least the outer surface of the support frame, and the portion of the flashing board that extends onto the roof overlaps with surrounding roof boards. The mounting structure according to claim 1, which maintains watertightness. 3 A heat collector mounting member having a downwardly extending portion extending along the outside of the support frame is fixed on the heat collector support frame, and the hanging plate is located on the outside of the heat collector mounting member and attached to the heat collector mounting member. The mounting structure according to claim 1 or 2, which is screwed. 4. A solar heat collecting mechanism is installed in a case with a transparent upper surface, and a solar heat collecting mechanism is connected to the upper part of the solar heat collecting mechanism in the roof inclination direction, and the solar heat collecting mechanism and natural circulation circuit are In a natural circulation solar heat collector having a hot water storage tank section, frame-shaped hanging plates extend downward from the four peripheries of the heat collector section, and water supply and hot water sampling pipes connected to the hot water storage tank. is protruded from inside the case of the heat collector section through the bottom plate and into the frame of the hanging plate, and on the roof surface is a frame that rises above the roof surface and has a frame outer shape smaller than the frame inner shape of the hanging plate. A collector support frame of the shape is fixed, and a watertight means is provided between the support frame and the surrounding roof plate, and the collector part of the natural circulation solar heat collector has its hanging plate fixed to the roof plate. The water supply and hot water supply pipes are installed and fixed on the heat collector support frame so as to fit on the outside of the heat collector support frame, while the hot water storage tank is placed on the roof board, and is connected to the water supply and hot water sampling pipes. A structure for mounting a natural circulation solar heat collector on the roof, with each pipe installed in the attic.