JPS6020663B2 - solar heat collector - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a solar heat collecting device placed on the roof or roof of a building.

Conventionally, as such a solar heat collector, one shown in FIG. 1 has been used.

The solar heat collector 51 shown in FIG. 1 is composed of three solar heat collectors 52 arranged in a row on the left and right. The solar heat collector 52 includes a case 53, a heat collecting plate 55 disposed within the case 53 and having a water pipe 54 extending in the front-rear direction, and a heat collecting plate 55 disposed at the front and rear ends of the case 53 and having a water pipe 54. It has a header 56 connected in a lotus shape. In front of the solar heat collector 52, a water supply pipe 57 is arranged which extends in the left-right direction, is closed at the right end, and has a water supply connection port at the left end, and the water supply pipe 57 and the header 56 are It is made to communicate through a passage tube 58. Further, behind the solar heat collector 52, a drain pipe 59 is arranged which extends in the left-right direction and has a closed left end and a water outlet at the right end.
9 and the header 56 are passed through each other through a passage tube 60. The water sent from the water supply port of the water supply pipe 57 passes through each delivery pipe 58 and from the header 56 to the water pipe 54.
Flow inside. This water is heated by solar heat while flowing through the water pipe 54, and the heated high-temperature water flows through the header 56.
and enters the drain pipe 59 via the transportation pipe 60, and enters the drain pipe 59.
g is sent to the heat storage tank from the water outlet. At this time, the water sent through the water supply pipe 57 is transferred to the heat collector 5 near the water supply port.
It is easiest for water to flow into the header 56 of No. 2, and it becomes progressively more difficult to flow as it moves away from the water supply V inlet. However, when flowing from the heat collector 52 into the drain pipe 59, it most easily flows into the drain pipe 59 from the hem 56 of the heat collector 52 near the water outlet, and gradually flows into the drain pipe 59 as it moves away from the water outlet. 'It's getting rich. Therefore, the water is dispersed and flows evenly to each heat collector 52.However, in such a solar heat collector 51, the water supply pipe 57 and the drain pipe 59 are exposed to the outside, There is a problem in that these tubes 57, 59 are corroded.

In addition, in order to prevent the high temperature water flowing through the drain pipe 59 from cooling down, the pipe 59 may be covered with a heat insulating material, in which case,
Requires a lot of insulation. Also, water is sent into the water supply pipe 57 from the left side, and water is sent out from the right side from the first drain pipe 59, so when circulating water, there is a gap between the exchange 57, 59 and the heat storage tank. The problem is that the piping becomes complicated. The object of the present invention is to provide a solar heat collector that solves the above problems.

In this specification, ``front and back'' refers to each drawing, and ``front'' refers to the lower side of each drawing, and ``rear'' refers to the upper side of each drawing.In addition, ``left and right refers to each drawing. The solar heat collector according to the present invention is composed of two or more solar heat collectors arranged in a row from side to side.

Each solar heat collector consists of a case, a heat collecting plate placed inside the case and having water pipes extending in the front and back direction, and a heat collecting plate placed at the front and rear ends of the case and connected to the water pipes in a lotus shape. The header is provided with a water pipe parallel to the header, which is disposed at either the front end or the rear end within the case. Then, the headers located at the front end and back weaving part of adjacent heat collectors are connected to each other in a straight line, and the water pipes of adjacent heat collectors are connected to each other in a straight line, and the headers located at the left end The left end of the water pipe in the nest heater and the left end of the header on the side where the water pipe is provided are connected to each other via a U-shaped pipe. In addition, the right end of the header on the side where the water pipe in the heat collector located at the right end is closed and the light is on the right end. The V-sections extend outward from the heat collector, one of which is provided with a water supply V-inlet, and the other of which is provided with a water outlet. In this solar heat collector, water sent from the heat storage tank flows into the water pipe of the heat collecting plate through the water supply port, is heated by solar heat while flowing through the water pipe, and is then passed from the water outlet to the lid. Returned to heat bath.

If the water supply V inlet is installed in the headboard and the water outlet is installed in the water pipe, the water sent from the heat storage tank will be
The water flows through the water supply joint into the header in the right-hand heat collector. This header is connected in a continuous manner to the header on the opposite side of each heat collector to the side where the water pipes are arranged, so water passes through the header of each heat collector to the heat collector plate. Flows into the water pipe. At this time, water tends to flow into the water pipes of the heat collector on the side closer to the water supply port, and it becomes increasingly difficult for water to flow in as it moves away from the water supply joint port. That is, it flows most easily into the water pipe in the right-hand heat collector, and gradually flows toward the left-hand heat collector.
The water heated while flowing through the water pipe flows into a header provided with a water supply port and a header on the opposite side of the header which passes through the header. At this time, the header located on the left end is located closest to the water outlet, so the water from the water pipe easily flows into the header at the collector located on the left end, and the header on the right side. The flow becomes more difficult as it moves toward the heat collector located. Therefore, the water sent from the heat storage tank is dispersed and flows uniformly to the water pipes of each heat collector.In addition, the water supply If the inlet is provided in the water pipe and the water outlet is provided in the hetsuda, the water sent from the heat storage tank enters the water pipe through the water supply port, and then goes to the water pipe via the U-shaped pipe. The water then flows into the water pipe of the heat collector plate through this header.At this time, water tends to flow into the water pipe of the heat collector on the left side, and flows into the heat collector located on the right side. It gradually becomes difficult for the water to flow in as it goes towards the water pipe.The water that is heated while flowing inside the water pipe flows into the header on the opposite side from where the water pipe is placed.At this time, the water that is located at the right end It is easy for the water to flow into the header of the heat exchanger, and the flow becomes more difficult as it goes towards the heat collector located on the left side.Therefore, the water sent from the heat storage tank flows into the header of each heat collector. Distributed and uniform flow.In the solar heat collector according to the present invention, the water supply pipe is placed in front of the heat collector as in the conventional case,
There is no need to place a drain pipe at the rear, so the appearance will not be spoiled.

In addition, there is no risk of water leaking from the water supply pipes and drain pipes due to corrosion, as in the case of a secondary tank. In addition, since the portion of each tube located outside the heat collector case is small, the amount of heat insulating material can be reduced when covering the Z pipe through which high-temperature water flows with heat insulating material. Furthermore, since the water supply port and the water discharge port are provided on the same side, the piping between both circles and the heat storage tank does not become complicated. This invention will be explained below with reference to the drawings.

In each drawing, the same reference numerals are given to the same parts.
Example 1 This example is shown in FIG.

This solar heat collector 1 is constructed by arranging two solar heat collectors 2 side by side. The heat collector 2 includes a case 3, a plurality of heat collecting plates 5 disposed inside the case 3 and having water pipes 4 extending in the front-rear direction, and a plurality of heat collecting plates 5 disposed inside the case 3 and having water pipes 4 extending in the front and back directions, and a front end and a rear end inside the case 3 so as to be perpendicular to the water pipes 4. Headers 6 and 7 are disposed in the water pipe 4 and are connected to the water pipe 4 in a circular shape 2, and a water pipe 8 is provided in parallel with the header 7, which is disposed at the rear end inside the case 3. A tube 9 extending rearward is connected to the right end of the front header 6 in both heat collectors 2 in a flexible manner, and the rear end of the tube 9 in the left heat collector 2 is connected to the right end of the front header 6. and the rear end of the pipe 9 in the right heat collector 2
is located. The headers 6 are passed through each other via a pipe 9 and a straight pipe 10. Also, straight pipe 1
The right end of the case 3 extends straight to the outside of the case 3, and a water supply port 3 is provided there. The right end of the rear header 7 of the left heat collector 2 and the left end of the rear header 7 of the right heat collector 2 are connected in a continuous manner by a straight lotus pipe 11. Further, the right end portion of the header 7 in the right heat collector 2 is closed. The right end of the water pipe 8 of the four heat collectors 2 on the left and the left end of the water pipe 8 of the right heat collector 2 are connected by a straight lotus pipe 12. Further, the right end portion of the water pipe 8 in the right heat collector 2 extends outward from the case 3, and a water outlet is provided there. The left end of the rear header 7 and the left end of the water pipe 8 in the left heat collector 2 are connected by a U-shaped pipe 13 in a lotus shape. Further, between the two heat collectors 2, the portions of the straight pipe 10 and the lotus tubes 11 and 12 exposed to the outside are covered with a heat insulating material 14. In such a solar heat collector 1, water sent from the heat storage tank passes through the water supply port, passes through the pipe 9, flows into the front header 6 of the right heat collector 2, and also flows through the straight pipe 10 and the pipe 9. It flows via pipe 9 into the front header 6 of the collector 2 on the left.

This water is heated by solar heat while passing through the water pipes 4 of each heat collecting plate 5 from the front header 6 and flows into the rear header 7. The front header 6 of the heat collector 2 on the right side is closer to the water supply port than the header 6 to the front part of the heat collector 2 on the left side, so water easily flows into it. Also, since the rear header 7 of the left heat collector 2 is closer to the water outlet than the rear header 7 of the right heat collector 2, the water pipe 4 of the left heat collector 2 is connected to the rear. Water easily flows into the header 7. therefore,
The water sent to the water supply port flows through each water pipe 4 in an evenly distributed manner. The water that has flowed into the rear header 7 is sent back to the heat storage tank from the water outlet via the U-shaped pipe and the water pipe 8.
Example 2 This example is shown in FIG.

This solar heat collector 21 is configured by three heat collectors 22 arranged in a row from side to side. These nest heat collectors 22 have substantially the same configuration as the heat collector 2 in the heat collector 1 shown in FIG. 2. The front header 6 in each heat collector 22 is a straight lotus tube 23 arranged between the ends of the header 6 in the adjacent heat collectors 22.
Has been forced to pass through the lotus. Further, the right end portion of the neck 6 extends straight outward of the case 3 to the front portion of the heat collector 22 located at the right end, and a water supply port is provided there. In this solar heat collector 22, the water sent from the heat storage tank and boiled passes through the water supply port, passes through the front header 6, and flows into each water pipe 4 in an evenly distributed manner.

While flowing through the water pipe 4, it is heated by solar heat, reaches the rear header 7, flows into the water pipe 8 via the U-shaped pipe 13, and is sent to the heat storage tank from the water outlet. Example
3 This example is shown in FIG.

This solar heat collector device 31 has substantially the same configuration as the heat collector device 21 shown in FIG. 3. The difference in configuration between the two is that in the heat collector 32 of the heat collector 31, the right-most heat collector 32
The right end of the front header 6 does not extend straight outward from the heat collector 32, and a pipe 33 is provided in the front header 6 and extends rearward. The rear end extends to the right and reaches the outside of the heat collector 32, where a water supply port is provided. In this heat collecting device 31, water flows through the device 31 in the same manner as in the heat collecting device 21.

Example 4 This example is shown in FIG.

This solar heat collecting device 41 has the heat collecting device 21 shown in FIG. It has become a place for descendants and descendants. In this heat sink device 41, water flows in the opposite direction to that in the heat collecting device 21 shown in FIG. In the above-mentioned Examples 1 to 4, the header 7 and the water pipe 8 in the heat collectors 2, 22, and 32 located at the left end are connected through the U-shaped pipe 13 in the case 3. However, the header T and the left end of the water pipe 8 may be extended to the outside of the case 3 and connected by a U-shaped pipe at this protrusion.

[Brief explanation of the drawing]

1 is a plan view showing the conventional example, FIG. 2 is a plan view showing Embodiment 1, FIG. 3 is a plan view showing Embodiment 2, FIG. 4 is a plan view showing Embodiment 3, and FIG. FIG. 3 is a plan view showing Example 4. FIG. 1, 21, 31, 41... Great solar heat collector, 2, 22,
32...Solar heat collector "3...Case, 4...
...Water pipe, 5...Heat collecting plate, 6,7...Header,
8... Water pipe, 13... U-shaped pipe. Figure 1 Figure 2 Figure 3 Figure 4 Heron Figure 5

Claims (1)

[Claims] 1. Two or more solar heat collectors arranged in a row on the left and right 2,
22, 32, each solar collector 2, 22, 3
2, a case 3, a heat collecting plate 5 disposed inside the case 3 and having a water pipe 4 extending in the front-rear direction, and a heat collecting plate 5 disposed at the front and rear ends of the case 3 and connected to the water pipe 4 in a continuous manner. Headers 6 and 7 located at either the front end or rear end of the case 3
It is equipped with a water pipe 8 parallel to the adjacent concentrators 2, 2.
Headers 6, 7 located at the front and rear ends of 2, 32
The water pipes 8 of the adjacent heat collectors 2, 22, 32 are connected to each other in a continuous manner, and the water pipes 8 of the heat collectors 2, 22, 32 located at the left end are connected to each other in a continuous manner. and the left end of the header 7 on the side where the water pipe 8 is provided are communicated via the U-shaped pipe 13, and the water pipe 8 in the heat collector 2, 22, 32 located at the right end is arranged. The right end of the header 7 on the side where it is closed is closed, and the water pipe 8 in the heat collectors 2, 22, 32 located at the right end and the right end of the header 6 on the opposite side to the water pipe 8 extend outward of the case 3. , a solar heat collector having a water supply port on one side and a water discharge port on the other side.