KR101042940B1 - Solar positioning device with column condenser - Google Patents

Abstract

The present invention relates to a device capable of accurately tracking the movement of the sun. More specifically, the present invention relates to an apparatus for measuring and comparing the amount of energy absorbed by each absorber with an absorber composed of a column collector and a solar energy absorber. A solar position tracking device configured.

Description

Solar position locator with cylindrical light focusing equipment

The present invention relates to a solar position tracking device that accurately tracks the position of the sun that changes every moment by the rotation of the earth. More particularly, the present invention includes a column condenser, a solar energy absorbing device, and an absorbed solar energy measuring device. A device that effectively tracks the sun.

It is an object of the present invention to provide a sun position tracking device and method which enables not only the sun position tracking but also precise tracking at all times.

In recent years, due to global warming prevention and environmental issues, the use of infinite solar energy as an alternative energy has been highlighted. The way to utilize solar energy is the technology that directly converts sunlight and solar heat into electric energy or heat energy, and this technology is used to maximize the solar energy. You need a sun position tracking device that recognizes and accurately tracks the position of the sun.

In general, the conventional solar position tracking device to track the position of the sun with a device configured to vary the amount of energy absorbed by the energy absorbing device, such as a plurality of solar sensors, solar cells or photodiodes absorbing solar energy. For example, Korean Patent 10-0836870 measures the amount of energy incident on a plurality of identically shaped solar sensors installed on the bottom of a perforated cylinder, and measures the position of the sun by comparing and measuring the current generated from each sensor. When the solar cell is perpendicular to the sun or directly incident to the sun, a larger current value is obtained. When the tracking device is moved to have the same current value of each solar sensor, the sun is determined to be perpendicular to the tracking device. Korean Patent 10-0904243 has a partition between the light sensor to detect the sun. However, this method has a problem in that the position tracking of the sun is impossible because the difference in the amount of energy generated by each energy absorbing device is small when sunlight is weak or the sun is covered by clouds, such as morning or evening.

On the other hand, there is a technique for condensing weak sunlight with convex lenses, Fresnel lenses and the like to increase the difference. Korean Patent 10-0427690 relates to a cylindrical solar position tracking device equipped with a convex lens on the top surface and four photodiodes installed on the bottom surface, so that the sunlight condensed through the lens shines on four photodiodes equally. Will move. Korean Patent 10-0933661 includes a technique for tracking the position of the sun using a lens unit and a photodiode using a refractive lens and a convex lens. The focus of sunlight collected through the lens is irradiated to four photodiodes to compare the values. However, these techniques do not track the position of the sun until the lens focuses on the photodiode, making it difficult to accurately focus the lens on the photodiode, as well as off the surface of the photodiode due to lens misalignment. If the sun disappears and appears after a long time, there is a problem that the location tracking becomes difficult and the tracking device must always move along the sun.

In addition, the prior art may attach a separate sensor to determine the presence of sunlight.

In order to solve the above problems of the conventional solar position tracking technology, the present invention is directed to a column collector and a unit absorber plate of a solar energy absorber and an absorber installed at a focal trajectory on the rear side to transmit, refract, and concentrate sunlight. It provides a device that measures and compares the amount of energy absorbed to track the position of the sun.

According to the present invention, since the amount of solar energy absorbed by the focused absorbing plate and the non-condensing absorbing plate is significantly different since the light collecting device is installed, the light absorbing plate operates accurately in the weak sunlight such as morning and evening, and occurs in each absorbing plate. Comparing the amount of energy used, the sun can be determined whether the sun is present or not, and the condenser has no mechanical moving parts and can always track the sun's position.

As described above, according to the present invention, when the solar light is collected by the column type light collecting device and the collected sunlight is absorbed by the energy absorbing plates, the amount of energy absorbed by each of the absorbing plates is compared, and the presence or absence and orientation of the sunlight Easily and accurately determine altitude.

Columnar concentrators have the advantage of focusing without having to move regardless of the angle of incidence or altitude of the sun. Even when the sunlight is weak, such as in the morning and evening or when the sun is covered by the clouds, the amount of solar energy between the absorber absorbing the concentrated sunlight and the absorber absorbing the uncondensed sunlight is greatly different. Accurately track the sun's position without the need for a separate device.

If each absorber shows a similar amount of energy or energy ratio, it means that there is no sunlight, and if there is a difference in the amount of energy, it means that there is sunlight. In addition, when the sun disappears and reappears after a while, the difference in the amount of energy occurs as mentioned above, and the sun is concentrated in the absorber that shows the greatest amount of energy. There is an advantage to figure out.

1 is a conceptual diagram of the condensing principle of the column condenser
2 is a perspective view of an embodiment consisting of a light collecting device and nine solar energy absorbing plates;
3 is a plan view (top) and a front view (bottom) of FIG.
4 is a schematic view of a solar energy absorbing device composed of a columnar light collecting device and a plurality of solar energy absorbing plates and an enlarged cross-sectional view of the energy absorbing device;
5 is a plan view (top), front view (bottom left), and side view (bottom right) of a cylindrical light collecting device and a semi-circular band-shaped solar energy absorber;
6 is a cross-sectional view of solar light transmission of a cylindrical light collecting device according to the incident angle of sunlight
7 is a change in focal position according to the incident angle of sunlight
8 is a layout view of a solar focal position and a solar energy absorbing plate transmitted, refracted, and focused through a columnar light collecting device installed on the ground;

Using the solar position tracking device according to the present invention, regardless of the position of the sun in the day or with or without sunlight, the solar position tracking device and the column condensing device to easily track the position of the sun without moving A solar position tracking device having a solar energy absorbing device and an energy amount measuring device will be described in detail with reference to the drawings.

The columnar concentrator 10 of the present invention has a characteristic of having the same transmission, refraction, and condensation, regardless of the angle at which the sunlight is incident in a circular, elliptical, or partial circular cross section. Otherwise, the sun does not need to be tracked and moved, and as shown in FIG. 1, a focal trajectory is made at a position separated by a focal length of the rear of the column concentrator according to the movement of the sun from sunrise to sunset.

As shown in FIG. 2, the plurality of solar energy absorbing plates 11 having the same width and the same plate shape are continuously disposed in the circumferential direction at the position of the solar focal trajectory from the sunrise angle to the sunset angle so that each absorbing plate absorbs sunlight. Install a solar energy absorber.

The projection area where the absorber plate is in contact with the sun is the same as the top view (above) of FIG. In the absence of a light collecting device, the amount of energy absorbed in each absorbing plate has a characteristic related to the projected area of the absorbing plate. On the other hand, as shown in Figure 4, when there is a light collecting device, the absorbing plate receiving the sunlight out of the light collecting device has a unique characteristic value, and the absorbing plates B, C, D that the solar focal point has a significantly high amount of energy see. The amount of energy absorbed by each absorber is explained in the enlarged view of FIG. 4. When the solar focal width is about 2 absorbers wide and spans absorbers B, C, and D, the amount of energy measured by each absorber is measured. Is absorber C> absorber plate D> absorber plate B> absorber plate A ≒ absorber plate E ≒ absorber plate F because it is proportional to the irradiated area. When explaining the principle of the present invention by changing the energy amount of the absorber plate B over the beginning of the focal point, since the focal point rotates in the rotational direction 30, the absorber plate B has a larger area of the solar focus, so that the energy amount is increased. The amount of energy does not increase when the beginning of the focal point exceeds the absorber plate B. The amount of energy decreases when the end of the focal point begins to exceed the absorber plate B. The energy amount of the plate B is similar to that of other absorbent plates. That is, the amount of absorption of solar energy of absorber B changes according to the position of the sun. This phenomenon occurs sequentially in all absorbers, and the position of the sun is due to the change in energy of absorbers that compares and focuses the energy of each absorber. You can check.

The width of the solar energy absorbing plate is determined according to the physical characteristics such as the diameter, refractive index, and focal width of the light collecting device. For example, when the diameter of the column concentrator is 30 cm and the focal orbit diameter is 50 cm, 80 absorbent plates having a width of 0.9 cm may be disposed on the focal orbit in a semicircle of about 180 degrees with an interval of 0.1 cm. One absorber plate corresponds to about 9 minutes. If necessary, the absorption plates can be arranged in multiple lines to further refine the time interval.

Each absorber plate is connected to a device for measuring the amount of energy absorbed to calculate the change or rate of change of energy from the amount of energy in each absorber plate, and to determine the position of the sun by comparing the difference in the amount of energy between the absorber plates. In any case, the sun exists over the condenser of the absorber plates with the highest energy levels. The energy amount measuring device is a device for measuring the amount of solar energy absorbed by each solar energy absorbing plate by the amount of electrical energy or thermal energy. When the solar cell is used as an absorption plate, solar energy is absorbed by each absorption plate to generate electric current or electric power in the absorption plate, and the energy amount measuring device measures electric current or electric power generated by the absorption plate. If you use a device that absorbs thermal energy, such as a metal plate as the absorption plate, solar energy is absorbed by each absorption plate to change the temperature of the absorption plate, the energy amount measuring device measures the temperature of the absorption plate It is a device for measuring the amount of thermal energy.

5 is a solar position tracking having a solar energy absorbing device and an energy amount measuring device consisting of six semi-circular band-shaped solar energy absorbing plates 12 axially continuous near the focal orbit of the rear surface of the columnar light collecting device. A drawing of the device. Each absorbing plate has a different diameter but has the same center as that of the light collecting device. The distance of each absorbing plate from the center of the light collecting device is slightly spaced apart to give a difference in the concentration of sunlight. Each absorber is connected to an energy measuring device to determine the degree of absorption of sunlight.

6 shows a cross section according to the angle of sunlight incident on the column concentrator, and the focal length of the sunlight passing through these cross sections is different. The solar focal length 31 from the concentrator center is the longest when vertical as shown in FIG.

FIG. 8 is a view illustrating the principle of the solar position tracking device of the present invention installed on the ground and operating at am / pm and noon, and the sunlight passing through the condenser in diagonal lines due to the low altitude of the sun in the morning and afternoon is absorbed into the absorber plate K. To focus. The amount of energy absorbed by each absorbing plate is in the order of absorbing plate K> absorbing plate J> absorbing plate L> absorbing plate M> absorbing plate N in the morning. As time goes by, the angle of incidence of sunlight becomes larger and the focal length becomes longer, focusing on the absorber M at noon, and the largest amount of energy is measured. At noon, it is absorber M> absorber L> absorber N> absorber K> absorber J. In the afternoon, go back. Comparing the amount of energy and the ratio of the amount of energy of each absorber plate, the angle of incidence of sunlight can be identified, so the position of the sun can be accurately tracked.

10: column condenser, 11: plate energy absorber,
12: band-shaped energy absorber
20: sun, 21: sunlight before entering the light collecting device,
22: sunlight refracted inside the light collecting device, 23: the sun light behind the light collecting device
25: trajectory of the sun,
30: movement direction of solar focus, 31: focus position

Claims (7)

A pillar-shaped light collecting device having a shape of a rod filled with a long core in a length (axial) direction and transmitting, refracting, and concentrating sunlight incident on the front part to focus at a position separated by a focal length from the rear part of the rod;
A plurality of solar energy absorbing plates having a width smaller than the physical diameter of the column condenser and having the same size and shape have the same center as the column condenser on the focal orbit formed at the rear of the column condenser as the sun moves. A solar energy absorbing device arranged continuously in the circumferential direction;
Solar position tracking device including energy measuring device to measure the amount of energy absorbed by each solar absorber
A pillar-shaped light collecting device having a shape of a rod filled with a long core in a length (axial) direction and transmitting, refracting, and concentrating sunlight incident on the front part to focus at a position separated by a focal length from the rear part of the rod;
A solar energy absorbing device in which a plurality of solar energy absorbing plates having a semi-circular band shape and different diameters are arranged in the longitudinal direction of the column so as to have the same center as the column collecting device near a focal position occurring at the rear portion of the column collecting device;
Solar position tracking device including energy measuring device to measure the amount of energy absorbed by each solar absorber
The solar position tracking device according to claim 1 or 2, wherein the column concentrator focuses on the opposite side of the direction in which sunlight is incident, and includes a concentrator having a circular, elliptical, or partial circular cross section.
According to claim 1 and 2, the columnar concentrator is a solar position tracking including a pipe-type condenser to adjust the temperature of the solar energy absorbing plate by absorbing a portion of the sunlight by flowing a liquid material such as water inside Device The solar position tracking device according to claim 1 or 2, wherein the columnar light collecting device includes a light collecting device made of a material having a different refractive index between the inside and the outside of the light collecting device to adjust the focal length.
The solar energy absorbing device of claim 1, wherein the solar energy absorbing device comprises a solar cell, and the energy measuring device includes a solar tracking device including a device for measuring an amount of electrical energy generated from the solar cell.
The solar energy tracking device according to claim 1 or 2, wherein the energy amount measuring device includes a device for measuring heat energy absorbed by the solar energy absorbing device.

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