JPH086972B2 - Vacuum solar collector header device - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention comprises an inlet side header pipe leading to a heat collecting body arranged inside a glass container, and an outlet side header pipe, the inlet side header pipe being coaxial with the inside of the outlet side header pipe. The present invention relates to a header device of a vacuum solar heat collector which is arranged in a fixed manner.

[0002]

2. Description of the Related Art FIG. 3 is an explanatory view showing a conventional vacuum solar heat collector and its header device.

In the figure, the inside of a transparent long glass container 10 having one end open and the other end closed is maintained at a predetermined degree of vacuum. Inside the glass container 10, a water storage tank 11 having a selective absorption film adhered on the surface as a heat collector is provided as a supporter 1.
2 are arranged coaxially. A water supply pipe 13 is inserted into the water storage tank 11 to the inside. One end of the water supply pipe 13 is connected to the inlet-side header pipe 14, one end of the connecting pipe 15 is connected to the opening of the water storage tank 11, and the other end of the connecting pipe 15 is connected to the outlet-side header pipe 16. Has been done. One end of the sealing metal fitting 17 is sealed to the opening of the glass container 10, and the other end of the sealing metal fitting 17 is connected to the outer surface of the connecting pipe 15. Inlet header tube 14
The outlet-side header pipe 16 is mounted so as to be positioned in parallel.

In this vacuum type solar heat collector, when a heat medium such as water is supplied from one end of the inlet-side header pipe 14 as shown by an arrow, the heat is diverted to each water supply pipe 13 and fixed in each water storage tank 11. After being pumped for a while, hot water flows into the outlet-side header pipe 16 through each connecting pipe 15, and then flows out from one end thereof as indicated by an arrow.

In the vacuum solar heat collector having such a structure, since the water supply pipe 13 is coaxially arranged inside the connecting pipe 15, a sealing metal fitting for connecting the glass container 10 and the connecting pipe 15 together. It has the advantage that only one 17 is required and the risk of vacuum leakage from the glass container 10 is small, but on the other hand, since the inlet side header pipe 14 and the outlet side header 16 are mounted in parallel, The temperature is 0 ° C
In the cold regions described below, there is a problem that a part of the inlet-side header pipe 14 or the water supply pipe 13, that is, a portion 13a between the inlet-side header pipe 14 and the outlet-side header pipe 16 is likely to freeze in a short period of time. are doing. Moreover, since there are many connection points, there is a problem in reliability against water leakage.

Therefore, in recent years, by arranging the inlet-side header pipe coaxially inside the outlet-side header pipe, the portion of the water supply pipe that easily freezes is eliminated, and the inlet-side header pipe is warmed by the hot water in the outlet-side header pipe. A header device for a vacuum solar heat collector has been proposed in which it is difficult to freeze and the number of connection points is reduced.

[0007]

However, in the case of such a header device, the inlet-side header pipe easily moves inside the outlet-side header pipe, and for example, when the inlet-side header pipe moves toward the heat collector, The side face closes the opening of the outlet-side header pipe to the connecting pipe, which causes a new problem that the heat medium warmed inside the heat collector becomes difficult to be supplied to the outlet-side header pipe.

The present invention has been made in view of the above circumstances. Even though the inlet side header pipe is coaxially arranged inside the outlet side header pipe, the inlet side header pipe is An object of the present invention is to provide a header device of a vacuum solar heat collector having a structure that does not move inside.

[0009]

DISCLOSURE OF THE INVENTION A header device for a vacuum solar heat collector according to the present invention comprises an inlet-side header pipe and an outlet-side header pipe which communicate with a heat collector disposed inside a glass container having a vacuum inside. In the header device of the vacuum solar heat collector, wherein the inlet-side header pipe is coaxially arranged in the outlet-side header pipe, the inlet-side header pipe has one end open and the other end flat. It is characterized in that it is molded and closed, and the flat portion thereof has a shape that contacts the inner surface of the outlet-side header pipe.

Further, in the present invention, the outlet-side header pipe is open at both ends thereof , and these openings are formed in the body.
The diameter is preferably smaller than the inner diameter of the portion .

[0011]

According to the present invention, since the flat portion formed at the end of the inlet side header pipe has a shape such that it contacts the inner surface of the outlet side header pipe, another member is used as a support tool. Even without use, it is possible to prevent the inlet header pipe from moving inside the outlet header pipe.

When the openings at both ends of the outlet-side header pipe have a smaller diameter than the inner diameter of the body , an air pocket is always formed above the body . Even if the water inside the outlet side header pipe freezes in the severe winter season, the air pool absorbs the expansion caused by the freezing of the water.
It is possible to prevent the header pipe on the outlet side from being damaged.

In the present invention, in order to mold and close one end of the header pipe on the inlet side to close it, after placing one end of the header pipe at a predetermined position of a mold having a recess having a desired shape,
The method of embossing is suitable.

[0014]

EXAMPLES The present invention will be described in detail below based on examples.

FIG. 1 is an explanatory view showing a vacuum solar heat collector and its header device according to the present invention, and FIG. 2 is an A of FIG.
It is an expanded sectional view of the A line.

In the figure, the inside of a transparent elongated glass container 10 having one end open and the other end closed is maintained at a predetermined vacuum degree [eg 10 ^-4 Torr]. Glass container 10
As a heat collector, a copper water storage tank 11 having a selective absorption film adhered to the surface is coaxially arranged inside the container via a support tool 12. Further, inside the water storage tank 11, a copper water supply pipe is provided. 13 is inserted to the back.

The water supply pipe 13 is connected to a copper inlet-side header pipe 14 by brazing, and also the water storage tank 11
One end of the connecting pipe 15 made of copper is connected to the opening of the above by brazing, and the other end of the connecting pipe 15 is connected to the outlet header pipe 16 made of copper by brazing. The inlet-side header pipe 14 is a pipe having a smaller diameter than the outlet-side header pipe 16, and is coaxially arranged inside the outlet-side header pipe 16. One end 16a of the outlet-side header pipe 16 is squeezed, and a copper cap 16b in which a small hole through which the inlet-side header pipe 14 is formed is attached to the other end, whereby the outlet-side header pipe 16 is provided. Both ends of the tube 16 are opened with a smaller diameter than the inner diameter of the body portion . Further, one end of the inlet-side header pipe 14 is open, but the other end is flatly molded and closed by pressing. The flat portion 14a formed at one end of the inlet-side header pipe 14 contacts the outlet-side header pipe 16, mainly the inner surface of the one end 16a thereof , so that the inlet-side header pipe 14 does not move. Further, one end of a sealing metal fitting 17 made of 42% Ni-6% Cr-Fe is sealed to the opening of the glass container 10, and the other end of the sealing metal fitting 17 is
It is connected to the outer surface of the connecting pipe 15 by brazing.

This vacuum type solar heat collector has four units as one unit, and a plurality of units are connected and used.

When such a vacuum solar heat collector is used, when a heat medium such as water is supplied from one end of the inlet-side header pipe 14 as indicated by an arrow, the water is split into each water supply pipe 13 to store the water in the water storage tank. After being pumped for a certain time in 11, warm water flows into the outlet-side header pipe 16 through the connecting pipe 15, then flows out from one end thereof as indicated by an arrow, and is sent to the next unit.

[0020]

As described above, according to the header device of the vacuum solar heat collector of the present invention, the inlet side header pipe does not move even if it is coaxially arranged inside the outlet side header pipe.
The situation in which the opening of the outlet-side header pipe to the connecting pipe is blocked and the hot water inside the heat collector is not supplied to the outlet-side header pipe does not occur.

Further, if the openings at both ends of the outlet-side header pipe are made smaller in diameter than the inner diameter of the body portion, an air pocket will be formed above the body portion, so that water freezes to cause the header to freeze. It is possible to prevent the tube from breaking.

The present invention is not limited to a vacuum type solar heat collector using a water storage tank, but a vacuum type solar heat collector using a heat collecting body composed of a double tube type heat collecting tube and a heat collecting plate. Can also be applied to.

[Brief description of drawings]

FIG. 1 is an explanatory view of a vacuum solar heat collector of the present invention and its header device.

FIG. 2 is an enlarged cross-sectional view taken along the line AA of FIG.

FIG. 3 is an explanatory view of a conventional vacuum solar heat collector and its header device.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 Glass container 11 Water tank 13 Water supply pipe 14 Inlet header pipe 14a Flat part of inlet header pipe 15 Connection pipe 16 Outlet header pipe

Claims (2)

[Claims] 1. An inlet-side header pipe communicating with a heat collector disposed inside a glass container having a vacuum inside, and an outlet-side header pipe, the inlet-side header pipe being coaxial with the inside of the outlet-side header pipe. In the header device of the vacuum solar heat collector arranged in, the inlet-side header tube, one end is open,
A header device for a vacuum solar heat collector, characterized in that the other end is formed into a flat shape and closed, and the flat portion has a shape such that it contacts the inner surface of the outlet-side header tube. 2. The vacuum solar heat collector according to claim 1, wherein both ends of the outlet-side header pipe are open, and the openings have a smaller diameter than the inner diameter of the body portion. Header device.