KR101306200B1 - Apparatus and System for Condensing Sunlight - Google Patents

Abstract

The present invention relates to a solar light concentrating device and a solar light collecting system, comprising: a reflector for totally reflecting sunlight incident from a separate parabolic reflector assembly and proceeding into the main body; And is formed inside the main body, and the reflected sunlight is propagated again to the opening part of the lower part of the main body by reflecting the re-reflected sunlight again after the total reflection of the sunlight from the reflector is reflected on the inner surface of the main body. And a reflection angle at the inner surface of the main body and the reflection angle again may be a total reflection angle.

According to the present invention, by integrating the solar light accumulated in the parabolic reflector assembly through the solar light collecting device mounted on the lower side and transmitting the integrated solar light by the solar light transmitting device, the user can maximize the light condensing and light transmission efficiency of the solar light The integrated solar light can be easily transmitted to a desired position. When the integrated solar light is integrated again by forming a plurality of solar light concentrating devices, there is an effect of generating and transmitting ultra high density solar light.

Sunlight, condensing, transmission

Description

Solar Concentrator and Solar Condensing System {Apparatus and System for Condensing Sunlight}

The present invention relates to a solar light concentrating device and a solar light concentrating system, and more particularly, by condensing and transmitting solar light integrated in a parabolic reflector assembly, the light condensing and light transmission efficiency of the solar light can be maximized. The present invention relates to a solar light collecting device and a solar light collecting system capable of generating and transmitting ultra high-density solar light by forming a plurality of integrated solar light again.

Conventionally, a technique for reflecting incident sunlight using a parabolic reflector and integrating the reflected sunlight into energy in a usable form has been developed.
As one of such techniques, there has been a technique using a plurality of parabolic reflectors formed on the ground and using the heat energy of the collected solar light after collecting the solar light through the condenser formed at the center of the plurality of parabolic reflectors.
However, according to the method of forming a large number of parabolic reflectors on the ground, there is a problem in that each parabolic reflector must be individually adjusted so that the normal surface of the solar light is maintained in each parabolic reflector according to the slope of sunlight.
In order to individually adjust each parabolic reflector, each parabolic reflector needs to be provided with a separate adjusting device.
In addition, a technique for maximizing integration by forming a plurality of solar light concentrating devices and re-integrating integrated solar light, that is, by integrating sunlight a plurality of times as needed, has not been developed.

The problem to be solved by the present invention is to overcome the above problems, a plurality of parabolic reflectors are assembled a plurality of fixed parabolic reflectors as a support and fixed parabolic reflector assembly to the sun by one adjustment device By adjusting to maintain the normal plane, it is possible to easily adjust the angle of the parabolic reflector assembly with only one adjustment device.
Another problem to be solved by the present invention is to overcome the above problems, by integrating the solar light integrated in the parabolic reflector assembly through the solar light collecting device mounted on the lower side and the integrated solar light by the solar light transmitting device By transmitting the light, it is possible to easily transmit the integrated solar light to the user's desired location while maximizing the condensing efficiency and the light transmitting efficiency of the solar light, and by forming a plurality of solar light concentrating devices again to generate the ultra-high density solar light And to transmit light.

The present invention relates to a solar light concentrating device, comprising: a reflector for totally reflecting sunlight incident from a separate parabolic reflector assembly and traveling inside a main body; And is formed inside the main body, and the reflected sunlight is propagated again to the opening part of the lower part of the main body by reflecting the re-reflected sunlight again after the total reflection of the sunlight from the reflector is reflected on the inner surface of the main body. And a reflection angle at the inner surface of the main body and the reflection angle again may be a total reflection angle.
In addition, the present invention relates to a solar light collecting device, and passes through the sunlight incident from the separate parabolic reflector assembly into the main body, the parabolic reflector cell connecting tube formed in conjunction with the main body; And solar light that is formed inside the main body and that reflects the reflected sunlight after the sunlight passing through the inside of the parabolic reflector cell connector is reflected from the inner surface of the main body to the opening of the lower part of the main body. Proceeding, the reflection and re-reflection angle on the inner surface of the main body is a parabolic reflector, characterized in that the total reflection angle.
On the other hand, the present invention relates to a solar condensing system comprising a parabolic reflector assembly, a solar light collecting device and a solar light transmitting device composed of one or more parabolic reflector cells, wherein one of the parabolic reflector cells, A parabolic reflector for allowing incident sunlight to enter the parabolic reflector cell connector through an opening in a lower portion thereof; A parabolic reflector cell connector for injecting sunlight incident from the parabolic reflector into the solar light collecting device; And a supporter formed outside the parabolic reflector to support the parabolic reflector and the solar light collecting device, wherein the solar light collecting device totally reflects the sunlight incident from the parabolic reflector cell to the main body. A reflector for going inwards; And the solar light which is formed inside the main body and reflects the reflected light again after the total reflection of the solar light reflected by the reflecting plate is reflected on the inner surface of the main body to advance the reflected sunlight to the opening part of the lower part of the main body. And a paraboloid reflector which can be incident to the light transmitting device, wherein the reflection angle and the reflection angle on the inner surface of the main body are totally reflectable; and the solar light transmitting device includes the solar light collecting device. It is characterized in that to perform the function of transmitting the light incident from the sun to any destination.
The present invention also relates to a solar condensing system comprising a parabolic reflector assembly, a solar light collecting device, and a solar light transmitting device, wherein the parabolic reflector cell is composed of at least one parabolic reflector cell. A parabolic reflector for allowing incident sunlight to enter the parabolic reflector cell connector through an opening in a lower portion thereof; A parabolic reflector cell connector for injecting sunlight incident from the parabolic reflector into the solar light collecting device; And a supporter formed outside the parabolic reflector to support the parabolic reflector and the solar light collecting device, wherein the solar light collecting device passes the sunlight incident from the parabolic reflector cell to the main body. A parabolic reflector cell connecting tube which is formed inside and coupled to the main body; And solar light that is formed inside the main body and that reflects the reflected sunlight after the sunlight passing through the inside of the parabolic reflector cell connector is reflected from the inner surface of the main body to the opening of the lower part of the main body. The light transmitting device may be incident to the solar light transmitting device by performing a process, and the reflection and re-reflection angles on the inner surface of the main body may be parabolic reflectors which are totally reflectable angles. It is characterized by performing a function of transmitting the sunlight incident from the light condensing device to any destination.
In this case, when the parabolic reflector cells are plural, the upper surfaces formed by the plurality of the support bases are formed to form a normal line with the sunlight incident on the parabolic reflectors. It is characterized by the adjustable angle between sunlight.

According to the present invention, a plurality of parabolic reflectors are assembled, a plurality of assembled parabolic reflectors are fixed as a support, and a fixed parabolic reflector assembly is adjusted to maintain a normal plane to sunlight by one regulating device. There is an effect to enable easy adjustment of the angle of the parabolic reflector assembly.
According to the present invention, by integrating the solar light accumulated in the parabolic reflector assembly through the solar light collecting device mounted on the lower side and transmitting the integrated solar light by the solar light transmitting device, the user can maximize the light condensing and light transmission efficiency of the solar light The integrated solar light can be easily transmitted to a desired position, and a plurality of solar light concentrating devices are formed to re-integrate the integrated solar light to generate and transmit ultra high density solar light.

Prior to describing the specific details for carrying out the invention, the terminology or words used in this specification and claims may properly define the concept of a term in order for the inventor to best describe his or her invention. Based on the principle that the present invention should be interpreted as meaning and concept corresponding to the technical idea of the present invention.
In addition, when it is determined that the detailed description of the known function and its configuration related to the present invention may unnecessarily obscure the subject matter of the present invention, it should be noted that the detailed description is omitted.
Hereinafter, a solar light collecting device according to an exemplary embodiment of the present invention will be described in detail with reference to FIGS. 1 and 2.
1 is a cross-sectional view of a solar light collecting device according to a preferred embodiment of the present invention, Figure 2 is a cross-sectional view of a solar light collecting device according to another embodiment of the present invention.
As shown in FIG. 1, the solar light collecting apparatus 3 according to the preferred embodiment of the present invention includes a reflecting plate 4, a main body 5, and a parabolic reflector 6.
First, the reflector 4 reflects sunlight incident from a separate parabolic reflector assembly and proceeds into the main body 5.
In FIG. 1, sunlight incident in parallel from the left or right side of the reflector 4 is reflected by the reflector 4, proceeds downward, and enters the inside of the main body 5.
If the incident light is totally reflected by the reflector 4 by adjusting the reflection angle of the reflector 4, the loss of sunlight can be minimized.
In FIG. 1, the reflector 4 is configured in two stages, but may be configured in three or more stages depending on the design conditions or the number of parabolic reflector cells of the separate parabolic reflector assembly.
In addition, the parabolic reflector 6 is formed inside the main body 5 so that the sun reflected by the reflector 4 is reflected back again by reflecting the reflected light again after being reflected back from the inner surface of the main body 5 again. The light propagates to the opening under the main body 5.
As described above, the solar light reflected by the reflector 4 is re-reflected on the inner surface of the main body 5 and then the reflected light is reflected again, thereby maximizing the integration of the sunlight.
The sunlight reflected back to the opening part of the lower part of the main body 5 is integrated sunlight, and can be easily transmitted to a position where the integrated sunlight is used by using the solar light transmitting apparatus 7 as described later. .
In FIG. 1, the angle at which the sunlight reflected from the reflector 4 is incident on the inner surface of the main body 5 is preferably an angle capable of total reflection, and the reflected light after re-reflection on the inner surface of the main body 5 is reflected. The angle incident on the outer surface of the parabolic reflector 6 is also preferably an angle capable of total reflection.
Meanwhile, referring to FIG. 2, a separate parabolic reflector assembly may be directly coupled to the solar light collecting device 3.
In FIG. 2, the parabolic reflector cell connector 11 included in the separate parabolic reflector assembly as described below is directly coupled to the solar light collecting device 3, and passes through the inside of the parabolic reflector cell connector 11. Sunlight is reflected at the inner surface of the body 5 and the reflected sunlight is reflected back at the outer surface of the parabolic reflector 6 and the reflected light passes to the opening at the bottom of the body 5.
Hereinafter, a solar light collecting system according to a preferred embodiment of the present invention will be described in detail with reference to FIGS. 3 to 5.
3 is a perspective view of a solar condensing system according to a preferred embodiment of the present invention, Figure 4 is a side view of a solar condensing system according to a preferred embodiment of the present invention, Figure 5 is a preferred embodiment of the present invention It is a side view regarding the solar light transmitting device.
3 and 4, the solar light collecting system according to the preferred embodiment of the present invention includes a parabolic reflector assembly, a solar light collecting device 3, and a solar light transmitting device 7.
First, the parabolic reflector assembly is composed of a plurality of parabolic reflector cells, and one parabolic reflector cell includes a parabolic reflector 1, a support 2 and a parabolic reflector cell connector 11.
Sunlight is incident on the parabolic reflector 1, and the incident sunlight passes through the parabolic reflector cell connector 11 through an opening under the parabolic reflector 1 and passes through the solar concentrator. Enter 3).
In addition, the support 2 is formed outside the parabolic reflector 1 to support the parabolic reflector 1 and the solar light collecting device 3 and a plurality of parabolic reflector cells are installed to fix the plurality of supports 2 to each other.
By using a conventional sun tracking device, it is preferable that the upper surface of the support 2 forms a normal with the sunlight incident on the parabolic reflector 1, and in the case where a plurality of parabolic reflector cells are installed, the plurality of supports 2 By forming the upper surface to form a normal line with the sunlight incident on the parabolic reflector 1, it is possible to easily adjust the angle between the parabolic reflector assembly and the incident sunlight by only one adjusting device (sun tracking device).
In addition, since the support 2 moves or rotates integrally while supporting the solar light collecting device 3, even if the angle between the parabolic reflector assembly and the incident sunlight is changed, the solar light collecting function of the solar light collecting device 3 is not included. There is no abnormality.
In addition, the parabolic reflector cell connector 11 allows sunlight to pass through to the solar light collecting device 3 by passing sunlight incident through the opening under the parabolic reflector 1.
As described above, the end of the parabolic reflector cell connector 11 may be combined with the solar light collecting device 3, but may not be combined.
Next, since the solar light concentrating device 3 has been described above, redundant description thereof will be omitted.
The solar light transmitting device 7 transmits the integrated solar light that has passed through the solar light collecting device 3 to an arbitrary destination, and includes a bent portion 8, a reflecting portion 9, and a transmitting portion ( 10) is configured to include.
As shown in FIG. 5, the integrated solar light passing through the solar light concentrator 3 passes through the light transmitting unit 10 and the reflecting unit 9 in order, and the integrated solar light passing through the reflecting unit 9 is Since the light is incident on the light transmitting unit 10, it is possible to transmit integrated solar light irrespective of a distance to a position desired by a user.
The bending part 8 performs an articulation function so that even when the solar light collecting device moves in the front, rear, left, and right directions, the integrated solar light can move while traveling straight through the solar light transmitting device 7 without difficulty, and the reflector 9 It is combined with () to support the reflector (9).
The reflector 9 combined with the bent portion 8 is preferably formed in two between the two light transmitting portions 10, and the integrated solar light passing therein is totally reflected at the inner surface of the two reflecting portions 9. Adjust the angle so that it can be
Since the bending part 8, the reflecting part 9, and the light transmitting part 10 can be rotated, respectively, it is easy to transmit the light to a desired destination of the user.
As described above and described with reference to a preferred embodiment for illustrating the technical idea of the present invention, the present invention is not limited to the configuration and operation as shown and described as described above, it is a deviation from the scope of the technical idea It will be apparent to those skilled in the art that many changes and modifications can be made to the invention without departing from the scope of the invention. Accordingly, all such suitable changes, modifications, and equivalents should be considered to be within the scope of the present invention.

According to the present invention, it is possible to maximize the efficiency of condensing and transmitting light of solar light for utilization of solar energy, which is a representative green energy, so that solar power hydroponic cultivation and seawater desalination in power production, solar mining in underground space, farm building, etc. It can be used directly in various industries such as a device.

1 is a cross-sectional view of a solar light collecting device according to a preferred embodiment of the present invention.
2 is a cross-sectional view of a solar light collecting device according to another embodiment of the present invention.
3 is a perspective view of a solar light collecting system according to a preferred embodiment of the present invention.
Figure 4 is a side view of a solar condensing system according to a preferred embodiment of the present invention.
5 is a side view of a solar light transmitting apparatus according to a preferred embodiment of the present invention.

Claims (6)

In the solar light collecting device, A reflector 4 for totally reflecting the sunlight incident from the separate parabolic reflector assembly into the main body 5; And The solar light is formed inside the main body 5, and the reflected light is reflected back by reflecting the reflected light again after the total reflection of the solar light is reflected from the inner surface of the main body 5. (5) a solar condensing device, comprising: a parabolic reflector (6), wherein the parabolic reflector (6) is advanced to the lower opening, and the reflection and reflection angle at the inner surface of the main body (5) are totally reflectable. In the solar light collecting device, A parabolic reflector cell connector (11) which passes through sunlight incident from a separate parabolic reflector assembly and proceeds into the main body (5), and is formed to be coupled to the main body (5); And The sun is formed inside the main body (5), the sun reflected again by reflecting the reflected sunlight after passing through the interior of the parabolic reflector cell connector 11 is reflected from the inner surface of the main body (5) A light collecting device including; a parabolic reflector (6), wherein the light is advanced to an opening under the main body (5), and the reflection and rereflection angles on the inner surface of the main body (5) are totally reflectable. . In a solar condensing system comprising a parabolic reflector assembly, a solar light collecting device 3 and a solar light transmitting device 7 composed of one or more parabolic reflector cells, One of the parabolic reflector cells, A parabolic reflector 1 for injecting sunlight incident from the upper part into the parabolic reflector cell connector 11 through the lower opening; A parabolic reflector cell connector (11) for injecting sunlight incident from the parabolic reflector (1) into the solar light collecting device (3); And a support (2) formed outside the parabolic reflector (1) to support the parabolic reflector (1) and the solar light collecting device (3). The solar light collecting device 3, A reflector 4 for totally reflecting the sunlight incident from the parabolic reflector cell into the main body 5; And the sun light reflected in the main body 5 and reflected again by reflecting the reflected light again after the sun light totally reflected by the reflector 4 is reflected back from the inner surface of the main body 5. By going to the opening in the lower part of the main body 5 to be incident to the solar light transmitting device 7, the re-reflection and the reflection angle on the inner surface of the main body 5 is the total reflection angle of the parabolic reflector 6 It characterized by including; The solar light transmitting device (7) is characterized in that the solar light collecting system (3) performs the function of transmitting the light incident from the solar light collecting device (3) to any destination. In a solar condensing system comprising a parabolic reflector assembly, a solar light collecting device 3 and a solar light transmitting device 7 composed of one or more parabolic reflector cells, One of the parabolic reflector cells, A parabolic reflector 1 for injecting sunlight incident from the upper part into the parabolic reflector cell connector 11 through the lower opening; A parabolic reflector cell connector (11) for injecting sunlight incident from the parabolic reflector (1) into the solar light collecting device (3); And a support (2) formed outside the parabolic reflector (1) to support the parabolic reflector (1) and the solar light collecting device (3). The solar light collecting device 3, A parabolic reflector cell connector (11) which passes through sunlight incident from the parabolic reflector cell and proceeds into the main body (5), and is formed to be coupled to the main body (5); And the sun light formed in the main body 5 and reflected again by the reflected light after the sunlight passing through the inside of the parabolic reflector cell connecting pipe 11 is reflected from the inner surface of the main body 5. Advances sunlight into the opening of the lower part of the main body 5 so that it can be incident to the solar light transmitting device 7, but the reflection and re-reflection angles on the inner surface of the main body 5 are totally reflectable parabolic reflectors. (6); characterized by including The solar light transmitting device (7) is characterized in that the solar light collecting system (3) performs the function of transmitting the light incident from the solar light collecting device (3) to any destination. 5. The method according to claim 3, wherein when the parabolic reflector cells are plural, upper surfaces formed by the plurality of supports 2 are formed to form normals with sunlight incident on the parabolic reflectors 1. Thereby adjusting the angle between the parabolic reflector assembly and the incident sunlight with a single solar tracking device. delete

Images