KR101191004B1 - Paraboric reflection system - Google Patents

Abstract

PURPOSE: A solar heat collector is provided to prevent a parabolic reflector from becoming damaged due to the wind pressure as wind blown into the parabolic reflector easily passes through gaps in between split members. CONSTITUTION: A solar heat collector comprises a post(1) and a parabolic reflector. The parabolic reflector is fixed to the post, and reflects solar heat to a thermal collector(2). The parabolic reflector comprises radially divided split members. The split members comprise different focal distance from the center of the thermal collector. Wind passes through gaps in between the split members.

Description

Solar heat collector {paraboric reflection system}

The present invention relates to a solar heat collecting device that can collect solar heat and use it as an energy source of a device and a facility such as hot water supply, cooling, heating and drying. In a device using a concave parabolic parabolic mirror that collects light and heat at one point, the solar heat collector to effectively cancel the wind pressure flowing into the parabolic mirror so that the parabolic mirror is not overturned or damaged by the wind pressure of the strong wind It is about.

Recently, a limited amount of fossil energy is depleted, and the demand for energy is getting fierce. In addition, excessive use of fossil energy causes many greenhouse gases to be emitted, resulting in environmental problems such as global warming. Therefore, there is an urgent need for development of various clean and renewable energy including solar energy.

According to this trend, solar energy is attracting attention along with wind power as a renewable energy source because the amount of remaining energy is infinite and there is no cost of using the energy. The development of the utilization technology has improved the economic feasibility, and the development of energy using solar heat, which is emerging as a huge power generation project in each country, is gradually expanding.

As such, the method of using solar heat may be used for cooling and heating, and for generating power. There are various heat collecting devices for collecting solar heat, but the present invention reflects sunlight with a parabolic mirror and collects a solar thermal collector. It is about a condensing-type heat collecting device that collects).

A parabolic mirror of a light collecting type collector is a surface generated by rotating a parabola about its central axis. In other words, the parabolic mirror consists of a parabolic reflector (parabolic reflector, 抛物面 鏡) of 360 degrees rotated, and the integrated parabolic mirror consisting of one parabolic mirror, as published in Korean Patent Publication No. 2011-10047, There is a divided prefabricated parabolic mirror which is divided into a plurality and assembled together as disclosed in No. 1980-120. Integral parabolic mirrors are mainly used for small collection devices, and split assembly type is widely used for large sizes.

In the above, in the case of the divided prefabricated parabolic mirror divided into a plurality of parts because the area of the parabolic mirror diameter is large, the wind pressure by the wind acts very large. In order to offset the wind pressure flowing into the parabolic mirror as described above, the conventional method uses a grid (insertion hole) to float the gaps between the partition plates to prevent wind damage or damage caused by the wind pressure. There is something.

However, in the conventional solar heat collecting device as described above, the formation of a plurality of interspaces in order to offset the wind pressure introduced into the parabolic mirror has a problem of reducing the heat collecting efficiency by reducing the reflection area of the sun.

That is, since the reflection of the solar heat is not made as much as the area of the interspace in the area occupied by the entire parabolic mirror, there is a problem that the heat collection efficiency is lowered.

In addition, due to the effective offset against the input direction of the wind pressure, the problem that the parabolic mirror is often overturned or damaged, and a more solid foundation work and a large frame is required to compensate for this. This is a major obstacle to the utilization of solar power, such as high cost, limited installation site, and lack of economic efficiency due to low heat collection efficiency.

The present invention has been proposed to solve the above conventional problems. SUMMARY OF THE INVENTION An object of the present invention is to provide a solar heat collecting apparatus using a split assembled parabolic mirror, which effectively cancels the wind pressure flowing into the parabolic mirror so that the parabolic mirror is not overturned or damaged by the wind pressure.

The solar heat collector of the present invention for achieving the object of the present invention as described above in the solar heat collector having a parabolic mirror that is fixed to the support and the support is irradiated with solar heat to the central collector (thermal collector) ; The parabolic mirror is divided into a plurality of partitions radially partitioned about a center, and the partitions are located at different focal lengths from the centers of the other partitions and the thermal collector which are located at both sides. By forming a gap between the other partitions, it is characterized in that the wind pressure is discharged to offset the gap between the gap formed on both sides of the partitions.

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The solar heat collector of the present invention made as described above is effectively canceled out as the wind pressure flowing into the parabolic mirror is easily discharged to the outside through the gap between the partitions, so that the parabolic mirror is not damaged by the wind pressure and can be used stably. At the same time, the spacing between the partitions is provided at a position that does not reduce the solar heat collecting area so as not to reduce the solar heat collecting efficiency.

1 is a side cross-sectional view showing a solar heat collector according to an embodiment according to the present invention.
Figure 2 is a schematic illustration showing a longitudinal section of the solar heat collector of the present embodiment.
3 is a sectional view taken along the line AA in Fig.
Figure 4 is an exploded perspective view showing the configuration of the main part of the solar heat collector according to the present embodiment.
5 is an exploded perspective view of the same combination.
Figure 6 is an exploded perspective view showing a partition constituting the solar heat collector of the present embodiment.
7 to 9 is a schematic illustration showing a state of use of the solar heat collector of the present embodiment.
10 is a schematic illustration schematically showing the concept of the configuration of the solar heat collector of the present invention.

Hereinafter, a solar heat collecting apparatus according to a preferred embodiment of the present invention with reference to the accompanying drawings in detail as follows.

1 to 9 is a view showing a solar heat collector according to an embodiment according to the present invention, the solar heat collector of the present embodiment is fixed to the support (1), the support (1) and irradiated with the heat of the sun It has a parabolic mirror 3 which is adapted to reflect to the heat collecting port 2.

In the above, the support 1 is preferably made of a pillar installed vertically on the ground, but is not limited thereto. The parabolic mirror 3 may be set to a predetermined height with respect to the ground.

The solar heat collecting device of the present embodiment as described above by concentrating the sunlight by reflecting the solar light introduced by the parabolic mirror 3 is irradiated with sunlight to the heat collecting port (2) located in the center of the parabolic mirror (3), The heat collecting port 2 is used to obtain high heat to generate high pressure steam using a heat exchanger or the like to generate electricity.

Of course, the solar heat obtained as being able to be used for heating other than power generation can be used in various conventionally known facilities and devices.

In the solar heat collecting apparatus of the present embodiment as described above, the parabolic mirror 3 is preferably made of an assembly of a plurality of partitions 4 having a reflecting surface formed of a parabolic surface.

As shown in FIG. 3, the partitions 4 are assembled so that the focus points are different from the centers of the other partitions 4 and the heat collecting holes 2 located at the side thereof, and thus the gap C is shown. It is configured to have a spaced apart, so that the divided body (4) is assembled with a gap (C) between the wind pressure flowing into the inside of the parabolic mirror (3) the space (C) between the partitions (4) As it is easily discharged to the outside through, effectively offset and the parabolic mirror 3 is not damaged by the wind pressure to be used stably.

That is, the parabolic mirror 3 is composed of a plurality of partitions 4 radially partitioned about the center as shown in FIG. 10, and the partitions 4 are positioned on both sides. By positioning the focal lengths differently from the centers of the other partitions 4 and the thermal collector to form a gap between the other partitions 4, the wind pressure is applied to both sides of the partitions 4. It is discharged to offset the gap between the formed.

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In the above, the space C between the partitions 4 is provided at a position (located on the connection surface of the partitions 4) that does not reduce the solar heat collection area, so that the wind pressure is reduced without degrading the solar heat collection efficiency. Can be offset.

In the solar heat collecting apparatus of the present embodiment as described above, the partitions 4 have a reflecting plate 5 having the reflecting surface as shown in FIG. 6 and a frame positioned and fixed on the rear surface of the reflecting plate 5. (6), the partitions 4 are fastened to the end of the fixing member 8 coupled to the outer circumferential surface of the fixing tube 7 is fixed to the heat collecting outlet 2, the frame 6, Each of the dividers 4 is assembled so that the focal lengths R1 and R2 centered on the heat collecting outlet 2 are differently positioned.

Therefore, the wind turbine is easily assembled to the partitions 4 at intervals, and the wind pressure flowing into the parabolic mirror 3 is easily discharged to the outside through the gap C between the partitions 4. It is not damaged.

In the solar heat collector of the present embodiment as described above, the outer circumferential surface of the fixing tube 7 is provided with a fixing flange 9 in which the tip of the fixing member 8 is bolted.

That is, as shown in FIGS. 4 and 5, the ends of the frame 6 and the fixing member 8 are assembled by bolts, respectively, and the tip of the fixing member 8 is bolted to the fixing flange 9. The partitions 4 are assembled as fastened to.

In the above, the fixing member 8 is preferably made of a tubular metal rod, and the heat collecting body 2 is provided at the tip of the supporting rod 10 fixed through the inside of the fixing pipe 7 to be collected and collected. The heat is transferred to a separate means and apparatus through the support rod 10 to be used.

The heat collected in the heat collecting port (2) is used is guided to the outside through a separate pipe.

In addition, in the solar heat collecting apparatus of the present embodiment, between the parabolic mirror 3 and the support 1, up and down pivot means 11 for rotating the parabolic mirror 3 up and down are placed and connected. Between the vertical rotation means 11 and the support 1, the horizontal rotation means 12 to horizontally rotate the vertical rotation means 11 and the parabolic mirror 3 around the support 1 It is published and is configured.

That is, the angle of the parabolic mirror (3) can be adjusted freely, and can be repositioned at an angle that can be offset by appropriately adjusted to the direction of the wind pressure in case of emergency such as typhoon, if necessary It is also possible to improve the heat collection efficiency of the solar by adjusting the light to the angle that can receive the maximum.

In the support (1) is provided with a wind direction sensor 13 to detect the direction of the wind pressure, and calculates the sensed data of the wind direction sensor 13, the vertical rotation means 11 and the horizontal rotating means ( A control member (12) is provided to effectively cancel the wind pressure by controlling the angle of the parabolic mirror (3) relative to the support (1) by controlling 12).

Therefore, after measuring the direction of the wind pressure incident by the wind direction sensor 13 toward the parabolic mirror 3 side, the control member receives the measured wind direction data and calculates it according to the set data (program), and the vertical rotation means By controlling the angle of the parabolic mirror 3 by controlling the 11 and the horizontal rotating means 12, it is possible to effectively cancel the applied wind pressure.

In the upper and lower rotation means 11 is fixed to the rotary plate 15, which is pivotally coupled to the hinge to the extension piece 14 extending downward from the bottom of the fixed tube 7, the hinge as a central axis It is preferred that the gear assembly 16 and the drive motor 17 for applying a rotational force for forward / reverse rotation of the gear assembly 16.

In the above, the gear assembly 16 is most preferably made of a bevel gear unit.

Therefore, the gear assembly 16 rotates the hinge by receiving the rotational force of the drive motor 17 so that the extension piece 14 rotates in the up and down direction on the rotating plate 15.

In addition, the horizontal rotating means 12 is to rotate the rotating plate 15 in the horizontal axis, the rotating plate 15 is preferably made of a hydraulic motor or an electric motor axially coupled to the rotating shaft, but is not limited thereto. no.

The solar heat collecting apparatus of the present embodiment made as described above receives solar light in the usual manner and reflects the heat collecting holes 2 by the reflecting plate 5 to concentrate the solar heat to obtain high heat while using a parabolic mirror ( When introduced into the interior of the 3), the introduced wind pressure is discharged through the gap (C) between the partitions 4 to be canceled as not to be damaged.

In addition, after detecting the wind direction of the wind pressure by the wind direction sensor 13, according to the wind direction detected through the control member to drive the vertical rotation means 11 and the horizontal rotating means 12 parabolic mirror (3) The wind pressure can be smoothly offset by rotating the wind pressure in an appropriate direction to offset the wind pressure, so that the solar heat can be stably collected even when the wind pressure is generated. It can be offset.

1: holding post 2: house
3: parabolic diameter 4: partition
5: reflector 6: frame
7: fixing tube 8: fixing member
9: fixed flange 10: support rod
11: vertical rotation means 12: horizontal rotation means
13: wind direction sensor 14: extension
15: rotating plate 16: gear assembly
17: drive motor

Claims (3)

A solar heat collecting device having a parabolic mirror fixed to a support and the heat is fixed to the heat collector is irradiated with a solar collector (thermal collector) in the center;
Said parabolic mirror consists of a plurality of partitions divided radially about the center,
The partitions are spaced between the other partitions and other partitions which are positioned on both sides and are located at different focal lengths from the center of the thermal collector to form a gap between the other partitions. Solar reflector, characterized in that to be discharged to offset the gap between the formed.
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