JPS6054570B2 - Slanted fin type collector - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to improvements in solar collectors.

Various types of collectors have been developed to collect solar thermal energy as an energy-saving source, but the basic structure of all conventional collectors is a large number of heat collectors arranged in the direction of the slope of the roof. Pipes are arranged in parallel, and transparent glass, a heat collecting plate, a heat insulating material, etc. are combined with the pipes.

Most roof installations are designed to match the slope of the roof, but when installed on a roof with a small slope, the heat collection efficiency decreases, especially in the winter. difficult to avoid. There are also collectors that can be installed at different angles of inclination depending on the slope of the roof and the season, but such collectors require a lot of effort to install with sufficient stability. Moreover, in order to improve heat collection efficiency, it is necessary to change the angle. In addition, in conventional collectors, the heat collecting plate usually forms a heat collecting pipe by itself, is provided covering three heat collecting pipes, or is arranged along the axial direction of the heat collecting pipe. Since the heat collecting plate is attached to a pipe, the heat collecting efficiency of the heat collecting plate mainly depends on the arrangement angle of the heat collecting pipe.

The present invention has been made in view of the above-mentioned points, and includes: - An inclined fin type collector that can be installed directly on a roof with a small inclination angle and obtain sufficiently high heat collection efficiency without changing the angle. This is what we provide. That is, the inclined fin type collector of the present invention is a collector installed on a roof surface in which a large number of heat collecting vibes are arranged side by side. A large number of heat collecting plates are arranged side by side in a fin shape with an inclination angle, and the upper and lower edges of the adjacent heat collecting plates are each connected with a reflecting plate so as to have a v-shaped cross section, and The light-receiving surface of the heat collecting plate above the substantially penetrating portion of the heat collecting vibrator and the surface of the reflecting plate opposite to the light receiving surface are used as reflecting surfaces, and the above-mentioned light receiving surface below the substantially penetrating portion of the heat collecting vibrator The light-receiving surface of the heat-collecting plate, the surface of the reflecting plate facing the light-receiving surface, and the surface of the heat-collecting vibrator are painted black or treated with a selective absorption film.

DESCRIPTION OF THE PREFERRED EMBODIMENTS The collector of the present invention will be described below with reference to embodiments shown in the drawings.

Reference numerals 1, 1, . . . denote heat collecting vibrators arranged in parallel in one direction, and one end and the other end of each vibrator are connected to a water supplying vibrator 2 for low-temperature water or cold water and a hot water supplying vibrator 3 for high-temperature water.

Although it is not clearly shown in the drawing, normally the water supply vibrator 2
The hot water supply vibrator 3 is thicker than the heat collecting vibrator 1, and each of the vibrators 1, 2, and 3 is usually made of copper.
4, 4, . . . are the heat collecting vibrators 1, 1, . . .
The heat collecting plates are installed through the heat collecting vibrators 1, 1, ..., and each has an inclination angle α of 70 with respect to the heat collecting vibrator 1.
The upper edges of the heat collecting plates 4 are inclined toward the hot water supply vibe, and the heat collecting plates 4 are arranged parallel to each other in a fin shape so that there are 80 pieces.

5, 5, . . . are reflecting plates in which the upper and lower edges of the adjacent heat collecting plates 4, 4, . . . are connected in a V-shaped cross section, respectively.
Similar to the heat collecting plate 4, the heat collecting vibrator 1 is provided with a fin-like structure extending through the heat collecting vibrator.

Further, the heat collecting plate 4 and the reflecting plate 5 are connected to each other such that the internal angle β at the continuous contact portion of the square cross section is 200 to 400. In other words, the collector of the present invention connects the heat collecting plate 4 and the reflecting plate 5 of the same size so that the internal angle β of the connecting portion is between 20 and 40.
The heat collecting plates 4 and the reflecting plates 5 are connected to each other alternately, and each heat collecting vibrator 1 penetrates through the center of each heat collecting plate 4 and each reflecting plate 5 and is fixed to each other. In addition, the heat collecting plates 4, 4, .
. . . and the reflecting plates 5, 5, . . . are preferably formed of aluminum plates, and it is also possible to form the heat collecting plate and the reflecting plate by bending a single aluminum plate. Not until now. Also,
The light-receiving surface 4a of the heat-collecting plate 4 above the substantially penetrating portion of the heat-collecting vibrator 1 and the surface 5a of the reflecting plate 5 opposite to the light-receiving surface 4a are used as reflective surfaces, and the heat-collecting vibrator The light-receiving surface 4b of the heat-collecting plate 4 below the substantially penetrating portion 1, the surface 5b1 of the reflecting plate 5 facing the light-receiving surface 4b, and the surface of the heat-collecting vibrator are painted black or treated with a selective absorption film. has been applied. Therefore, the heat collecting plate 4
Thermal energy received by the light-receiving surface 4a is reflected by the light-receiving surface (reflecting surface) 4a and the surface (reflecting surface) 5a of the reflecting plate 5, and the light-receiving surface 4b and surface 5b are painted black or treated with a selective absorption film. In addition, heat is collected on the surface of the heat collecting vibrator 1.

Then, as shown in the example, the inclination angle α was set to 700 to 80.
The internal angle β of the V-shaped cross-sectional connecting part is 200 to 400, and the V-shape is perpendicular to the heat collecting vibrator 1 and the heat collecting plate 4 and the reflecting plate 5 are
A shape that is symmetrical with respect to the axis passing through the connecting portion with the heat collecting vibe 1 can more efficiently collect solar heat energy into the V-shape on the lower side of the heat collecting vibe 1. The drawing shows only the main body of the collector, that is, the heat collector 1 vibrator, the heat collector plate 2, the water supply vibrator 2, and the hot water supply vibrator 3, but these are usually made of a frame equipped with transparent glass and heat insulating material. It is installed inside the body. It goes without saying that the collector of the present invention is not limited to the illustrated embodiment. For example, when used as a natural circulation collector, the water supply vibrator and hot water supply vibrator are It is used as a return vibe, and each open end is formed to be connected to a hot water storage tank.

The collector of the present invention, like conventional products of this type, is installed on the roof with the heat collecting vibrator facing the slope of the roof surface or with the heat collecting vibrator facing the horizontal direction. As mentioned above, the heat collecting plates are arranged in parallel in the form of fins on the heat collecting vibrator, and the cross section of the heat collecting plate and the reflecting plate is V at the continuous part.
They are arranged alternately to form a mold, and the solar heat energy received by the light-receiving surface above the heat collecting plate is collected into the mold described above, so that the slope angle of the roof surface can be easily adjusted. Solar thermal energy can be efficiently collected into the above mold with almost no influence.

That is, even if the angle of incidence of solar heat rays on the collector changes, heat can be collected without being substantially affected. Moreover,
Since the heat collecting plate is provided in the shape of a fin on the heat collecting vibrator, the thermal energy collected by the heat collecting plate is efficiently conducted to the heat collecting vibrator. Furthermore, since the heat collecting plate and the reflecting plate are attached to the heat collecting vibrator by penetrating the heat collecting vibrator,
It is easier to manufacture than the type that is installed parallel to the heat collecting vibrator, and can also be used as a natural circulation type collector. Furthermore, if the collector of the present invention is installed with the heat collection vibrator facing horizontally, it is possible to effectively collect light and collect heat even during times when the incident angle of sunlight is small, such as after sunrise and before sunset.

In addition, when installing the heat collecting vibrator horizontally,
It goes without saying that the hot water supply opening of the hot water supply vibrator is positioned upward, and the water supply opening of the water supply vibrator is positioned downward. As mentioned above, the collector of the present invention can be installed on a roof surface with a small slope angle, regardless of the season, and exhibits high heat collection efficiency, and is easy to manufacture. Together with these factors, it has high industrial value.

[Brief explanation of the drawing]

FIG. 1 is a perspective view showing one embodiment of the present invention, and FIG. 2 is a perspective view showing an embodiment of the present invention.
FIG. 2 is a partially cross-sectional side view showing an enlarged main part thereof. 1... Heat collection vibrator, 4... Heat collection plate, 4
a, 4b... Light receiving surface, 5... Reflection plate, 5a,
5b...Surface, α...Inclination angle, β・
...■ Internal angle of the mold.

Claims (1)

[Claims] 1. In a collector installed on a roof surface and having a large number of heat collecting pipes arranged side by side, the heat collecting pipes are provided with an inclination angle with respect to the heat collecting pipes and passing through the heat collecting pipes. A large number of heat collecting plates are arranged side by side in the form of fins, and the upper and lower edges of the adjacent heat collecting plates are each connected with a reflecting plate so as to have a V-shaped cross section, and the heat collecting pipe has a substantially penetrating portion. A light-receiving surface of the heat collecting plate on the upper side and a surface of the reflecting plate opposite to the light-receiving surface are used as reflective surfaces, and light receiving on the heat collecting plate below the substantially penetrating portion of the heat collecting pipe. A tilted fin type collector, wherein a surface of the reflecting plate facing the light-receiving surface and a surface of the heat collecting pipe are painted black or treated with a selective absorption film. 2 The angle of inclination of the heat collecting plate to the heat collecting pipe is 70° to 8
The inclined fin type collector according to claim 1, wherein the angle is 0°. 3. The inclined fin type collector according to claim 1, wherein the internal angle at the V-shaped cross-sectional connection portion of the heat collecting plate and the reflecting plate is 20° to 40°. 4. The inclined fin type collector according to claim 1, wherein the V-shape is symmetrical with respect to an axis that is perpendicular to the heat collecting pipe and passes through the connecting portion between the heat collecting plate and the reflecting plate. .