KR101233053B1 - Solar lighting collector - Google Patents

Abstract

In the present invention, the reflection of the sunlight introduced through the tapered inner surface of the vertical body is made, and the reflected sunlight is again reflected by the reflection plate attached to the lower part of the solar body and configured in the interior of the vertical body. All the solar cells of the solar light is evenly reached to achieve the condensation of sunlight, not only can greatly improve the light condensing effect in the same space, but also to move the body according to the movement of sunlight to change the time It can condense sunlight regardless of the changing angle of sunlight, and it is possible to construct multiple solar bodies within one body, so that solar concentrating devices can be maximized to maximize the space utilization according to solar installation. To provide.
To this end, the present invention, when the inside is hollow and the top is open, the inner surface (11) vertical body (10) is tapered to the upper and lower side (上 廣 下 峽); A support frame 20 vertically coupled to the inside of the vertical body 10; Solar bodies 30 are inserted into the support frame 20, a plurality of both sides at equal intervals; Reflectors 40 are attached to the lower portions of the solar cells 30 to reflect back the sunlight reflected through the inner surface 11 of the body 10.
A lower portion of the vertical body 10 includes a fluid 50 for tilting the vertical body 10 according to sunlight; Is connected to the fluid 50 is made of a sun detection unit 51 for detecting the sun light further.
In addition, the reflective plate 40 attached to the lower portion of the solar cells 30, the first reflector 41 to facilitate the re-reflection of the sunlight reflected from the inner surface 11 of the vertical body (10) Is further protruded, and the tapered inner surface 11 of the vertical body 10 is further protruded from the second reflecting projection (11a) to facilitate the reflection of sunlight.

Description

Solar lighting collector {Solar lighting collector}

The present invention relates to a solar light collecting apparatus, and more particularly, a plurality of solar bodies are formed inside a body of a hollow body having an interior and an open top, and these solar bodies are vertically spaced at a predetermined interval. In addition, the solar light that is introduced into the body is reflected and touches the solar body so that the solar light is condensed. Also, by constructing a plurality of solar bodies vertically, the solar light collecting effect is greatly improved and the inside of one body The solar light concentrating device can be configured to maximize the space utilization according to the installation of the solar body.

In general, solar energy concentrators are used to improve the integration rate of solar energy having low integration efficiency due to low energy density and severe climate dependence.

These solar energy concentrators are mainly classified into condensing type and non-condensing type. The condensing type concentrates solar energy on the surface of the heat absorber because the area of the heat absorber is larger than the opening area for introducing solar energy. However, these light condensing devices are most likely to be obtained by direct solar radiation, so it is difficult to operate on cloudy or cloudy days and is suitable for use in relatively sunny weather.

The non-condensing type, that is, the flat plate type, has a flat surface of the heat absorber so that the area of the heat absorber is the same as that of the light collecting device, and the temperature of about 120 ° C can be obtained. In this case, since the solar energy is incident on a low slope, only a part of the solar energy is absorbed by the light collecting plate of the light collecting device and part is reflected to the outside. Therefore, an auxiliary device such as a reflecting plate is installed on one side of the light collecting plate to improve the light collecting efficiency per unit area of the light collecting device. Try to improve.

However, in the case of a light collecting device provided with a reflecting plate on one side of a conventional light collecting plate, the light collecting effect of solar energy can be increased to some extent, but it is difficult to commercialize due to the high manufacturing cost, and because the structure is complicated, it is difficult to maintain and repair periodically. There was a disadvantage in that it is difficult to use in buildings such as houses, farms or shops or factories.

In addition, when solar energy is used as a heat source for hot water supply and heating, the amount of solar energy incident is most in summer when there is little heating load in the building, and very little in winter when the heating load is large, resulting in an imbalance between supply and demand of energy. There was this.

To solve this problem, various solar light collecting devices have been devised.

As an example, a device for utilizing solar energy using a concave mirror, which is disclosed in Korean Utility Model Publication No. 20-1999-0035535, has been devised, which has a conical or parabolic inner circumferential surface that can reflect sunlight, and is located at an arbitrary point on the inner circumferential surface thereof. A condensing mirror-shaped condensing means configured to reflect and collect incident sunlight toward the center, and a heating tube heated by the solar light disposed at the inner center of the condensing means and condensed at the inner center of the condensing means. It is configured to include, and the condensing means is installed to be moved in accordance with the change in the incident angle of sunlight.

As another example, the solar tracking photovoltaic concentrator of the Patent Publication No. 10-2010-0108989 has been conceived, which includes a support for supporting the device, the main frame rotatably connected to both sides of the support, One end is rotatably coupled to the upper portion of the main frame, the other end is rotatably connected to the support portion, the inclination adjustment unit for adjusting the main frame to have a predetermined angle of inclination, and the image and inside the main frame Both sides are rotatably installed at the lower side, and are configured to include a condenser lens unit for condensing sunlight and a condenser lens rotating unit installed between the main frame and the condenser lens unit to rotate the condenser lens unit.

These prior arts allow the light collecting unit to move along the sun to collect sunlight regardless of the position of the sun depending on time, and to improve the light collecting function of the sun by the concave mirror.

However, the prior art has a problem in that a plurality of light collecting devices have to be configured as one light collecting means or a light collecting lens unit cannot collect a large amount of sunlight at the same time, and thus, a plurality of light collecting devices must be configured. There is a problem that a large burden on the cost.

The present invention has been made in order to solve the problems of the conventional light concentrators for condensing sunlight, the plurality of solar bodies are vertically configured in the interior of the vertical body with a hollow formed inside and open at the top, By configuring them to be spaced apart and forming a reflector on the lower part of the solar body, the sunlight coming into the body is reflected through the inner surface of the body and again reflected by the reflector formed on the lower part of the solar body. By the multiple reflection effect, all the solar bodies can condense the solar light evenly, which not only improves the solar light condensing function, but also makes the body move according to the movement of the sun light. It can condense sunlight regardless of the angle of light, and consists of a number of solar bodies inside one body. You can do it is an object to provide a solar light collecting unit to maximize space utilization, according to the installation of the solar element.

As a means for achieving the above object is a solar light collecting device of the present invention, the inner body is hollow formed and the upper body is vertically tapered so that the inner surface is upper and lower narrow (上 廣 下 峽); A support frame vertically coupled to the inside of the vertical body; Solar bodies are inserted into the support frame a plurality of sides at equal intervals; It is attached to the lower portion of the solar body is made of a reflecting plate for reflecting again the sunlight reflected through the inner surface of the body.

A fluid for tilting the vertical body along the sunlight at the bottom of the vertical body; Is connected to the fluid is made of a sun sensing unit for sensing the sun light further comprises.

In addition, the reflective plate attached to the lower portion of the solar body is further formed with a first reflecting protrusion to facilitate the re-reflection of the sunlight reflected from the inner surface of the vertical body.

In addition, the tapered inner surface of the vertical body is made of a second projection is further protruding to facilitate the reflection of the sunlight.

The present invention is made of the reflection of the sunlight introduced through the tapered inner surface of the vertical body, the reflected sunlight is again reflected by the reflector attached to the lower portion of the solar body is configured in the interior of the vertical body All the solar cells of the solar light is evenly reached to achieve the condensation of sunlight, not only can greatly improve the light condensing effect in the same space, but also to move the body according to the movement of sunlight to change the time The solar light can be collected regardless of the angle of the sunlight being changed, and a plurality of solar bodies can be configured inside one body to maximize space utilization according to the installation of the solar bodies.

1 is a block diagram showing the configuration of the solar light collecting device of the present invention.
2 is a plan view showing the configuration of a solar condenser of the present invention.
Figure 3 is a block diagram showing a state in which sunlight is reflected by the solar light collecting device of the present invention.
Figure 4 is an operation of a state in which the present solar concentrating device is flowing along the sunlight.
5 is a configuration diagram showing another embodiment of the solar condenser of the present invention.
Figure 6 is a block diagram showing another embodiment of the solar concentrating device of the present invention.

Hereinafter, the structure and operation of the present invention will be described in more detail with reference to the accompanying drawings. In describing the present invention, the term or word used in the present specification and claims is based on the principle that the inventor can appropriately define the concept of the term in order to best describe the invention of his or her own. It should be interpreted as meanings and concepts corresponding to the technical idea of

As shown in the present invention, the solar light collecting apparatus of the present invention has a vertical body 10 in which an inner surface 11 is tapered so that an upper surface thereof is hollowed out and an upper side thereof is opened, and the vertical body ( 10) the support frame 20 is vertically coupled to the inside of the, the solar body 30 is inserted into the support frame 20 a plurality of equally spaced at equal intervals, respectively attached to the lower portion of the solar body 30 And a reflecting plate 40 for reflecting sunlight reflected through the inner surface 11 of the body 10.

The upper portion of the body 10 is formed in a circular shape as shown, or in various shapes such as square or hexagon.

Support frame 20 for supporting the solar body 30 in the vertical body 10, the lower end of the support frame 20 is coupled to the inner bottom surface of the vertical body 10, welding It can be bonded by being welded by or fixed using a separate bracket.

The solar body 30 uses solar cells of solar energy, which are generally used to collect reflected sunlight.

According to the present invention configured as described above, when sunlight is introduced into the vertical body 10, it is reflected by the tapered inner surface 11 of the vertical body 10.

In addition, the sunlight reflected by the inner surface 11 of the body 10 is reflected into the interior of the body 10, accordingly, a plurality of solar bodies 30 are configured in the interior of the body 10 The solar light condensing of the solar light by the solar body 30 is achieved.

Furthermore, since the reflector plate 40 is further attached to the lower part of the solar body 30, the solar panel is further reflected back by the reflector plates 40, so that the solar cell is configured inside the body 10. Sunlight is uniformly reached throughout the sieves 30 to condense the sunlight generated by sunlight.

In addition, since the inner surface 11 of the vertical body 10 is tapered up and down, the reflection of the sunlight can proceed more easily, so that a larger amount of sunlight can be collected at the same time. Can be.

In addition, since a plurality of solar bodies 30 can be configured in one body 10, the light collecting effect of the solar light can be increased and the installation space of the solar body 30 can be minimized, thereby greatly improving the space utilization.

The lower portion of the vertical body 10 further includes a fluid 50 for tilting the vertical body 10 along the sunlight, and a solar sensing unit 51 connected to the fluid 50 to detect sunlight. It is done.

Accordingly, the sun sensing unit 51 detects the sun that changes with time, so that the fluid 50 is operated so that the vertical body 10 always flows along the sun so that the position of the sun varies with time. Regardless of whether you can collect sunlight.

In addition, the reflective plate 40 attached to the lower portion of the solar cells 30, the first reflector 41 to facilitate the re-reflection of the sunlight reflected from the inner surface 11 of the vertical body (10) Is more undone.

Accordingly, as the sunlight reflected by the inner surface 11 of the body 10 may be reflected by the first reflecting protrusion 41, the reflection efficiency of the reflecting plate 40 formed in the plane may be greatly improved. give.

In addition, the tapered inner surface 11 of the vertical body 10 is further formed with a second reflecting protrusion (11a) to facilitate the reflection of the sunlight.

Accordingly, since the reflection range of the sunlight reaching the inner surface 11 may be further diffused by the second reflector 11a, the condensing function of the sunlight according to the improvement of the reflection efficiency is greatly improved.

As described above, the present invention has been described with reference to a preferred embodiment of the present invention as being capable of various modifications, but the present invention is not limited to such an embodiment, and the embodiment is simply applied in combination with the known art. Together with the claims and the detailed description of the present invention it will be seen that the technology that can be used by those skilled in the art that the present invention belongs to be included in the technical scope of the present invention.

10: body 11: inner body
11a: second reflector 20: support frame
30: solar 40: reflector
41: first reflector 50: fluid
51: sun detection unit

Claims (4)

A vertical body 10 in which the inner surface 11 is tapered so that the inner surface 11 is hollowed out when the inside is hollowed out and opened;
A support frame 20 vertically coupled to the inside of the vertical body 10;
Solar bodies 30 are inserted into the support frame 20, a plurality of both sides at equal intervals;
And a reflecting plate (40) attached to each of the lower parts of the solar bodies (30) to reflect back the sunlight reflected through the inner surface (11) of the body (10). The method according to claim 1,
A lower portion of the vertical body 10 includes a fluid 50 for tilting the vertical body 10 according to sunlight;
The solar light collecting device, characterized in that further comprises a sun detection unit 51 is connected to the fluid 50 to detect the sunlight. The method according to claim 1,
First reflecting projections 41 are further provided on the reflecting plates 40 attached to the lower portions of the solar bodies 30 to facilitate the re-reflection of sunlight reflected from the inner surface 11 of the vertical body 10. Photovoltaic condensing device, characterized in that is formed by the projection. The method according to claim 1,
The tapered inner surface (11) of the vertical body (10) is a solar light collecting device, characterized in that the second reflecting projection (11a) is further protruding to facilitate the reflection of sunlight.

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