JPS605321Y2 - solar heat collector - Google Patents

Description

[Detailed description of the invention] This invention relates to the improvement of a solar heat collector that combines multiple heat collecting elements, and reduces the flow path resistance of the solar heat collector formed by the heat collector, and collects solar heat. The purpose is to improve the effectiveness and maintain good quality by allowing water and air to be drained well.

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

In FIG. 1, a solar heat collector 1 is constructed by arranging a plurality of heat collecting elements 3 having heat collecting pipes 2 in parallel and forming an inlet side heat collecting element group 4.
and an exit side heat collecting element group 5 are formed.

One end of the heat collecting pipe 2 of each heat collecting element group is connected to the inlet side header 6 and the outlet side header 7, respectively, and the other end of the heat collecting pipe 2 is connected so that both the heat collecting element groups are connected in series. Connecting pipe 8
are connected.

Further, the inlet header 6 and the outlet header 7 are connected via a venturi tube 9, as shown in FIG.

In addition, the solar heat collector 1 is installed so that the header 6.7 side is lower than the connecting pipe δ side, and the inlet side heat collecting element group 4 is lower than the outlet side heat collecting element group 5. It will be installed at a slope of .

Therefore, a plurality of heat collectors 1 of the present invention are arranged in series,
When used as a solar heat collector, the inlet side header 6
The fluid to be heated (for example, water) flowing into the inlet mainly flows through the heat collecting pipe 2 of each heat collecting element 3 of the inlet side heat collecting element group 4, and then flows from the connecting pipe 8 to the outlet side heat collecting element group 5. Each heat collecting element 3
It passes through the heat collecting pipe 2 and is collected by the outlet header 7.

In addition, a part of the fluid to be heated in the inlet header 6 passes through the venturi pipe 9 and flows to the outlet header 7 in a short circuit, reducing the flow resistance of the heat collector 1 and, by extension, the entire heat collecting device, and Prevent the heating fluid from heating up too much and boiling.

The fluid to be heated in the outlet header 7 then proceeds to the ladder to the inlet side of the next heat collector.

At this time, the heat collection pipe 2 and header 6.7 in the heat collector
Air is removed, and even in the outlet side header 7 where air tends to remain, the heated fluid that has become a static flow in the Venturi tube 9 flows, so that no vortices are generated and no air pockets are formed. It's Nishide.

Therefore, the occurrence of turbulent flow and deterioration of water quality due to the formation of air pockets are eliminated, and there is no risk of erosion of the heat collecting pipe 2 and the header 6.7.

When the heated fluid is extracted from the heat collector 1, when the inlet side is opened, the fluid in the heat collecting element group 4 on the inlet side header is directly connected, and the fluid in the heat collecting element group 5 on the outlet side header is connected. tube 8
, the heat collecting element group 5, the outlet side header 7 and the Venturi tube 9, and then flows out to the inlet side header 6, so it is extracted (
The work (draining water) is simple, and there is little risk of fluid remaining in the header or the heat collecting pipe 2 after draining, causing corrosion or freezing.

As mentioned above, in this invention, the inlet side header of the inlet side heat collecting element group and the outlet side header of the outlet side heat collecting element group are connected via the Venturi tube, so when multiple heat collectors are installed in series. However, there is no risk of excessively increasing flow resistance or boiling of the heated fluid, and water and air are well vented to prevent corrosion and crushing of heat collecting pipes and headers. It is possible to maintain good quality.

[Brief explanation of drawings]

FIG. 1 is a schematic diagram showing an embodiment of the present invention, and FIG. 2 is a sectional view of the main part. 1... Solar heat collector, 2... Heat collecting pipe, 3... Heat collecting element, 4... Entrance side heat collecting element group, 5... ...Exit side heat collecting element group, 6...
...Inlet header, 7...Outlet header 8...Connecting pipe, 9...Venturi tube.

Claims (1)

[Scope of utility model registration request] A plurality of heat collecting elements having heat collecting pipes are arranged in parallel to form an inlet side heat collecting element group and an outlet side heat collecting element group, and one end of the heat collecting pipe of each heat collecting element group is laddered to the inlet side. and the outlet side header, the other ends of the heat collecting pipes of both heat collecting element groups are connected by a connecting pipe, and the inlet side header and the outlet side header are connected via a Venturi tube. Solar heat collector.