KR101190131B1 - Apparatus for condensing sunlight - Google Patents

Abstract

The present invention relates to a solar tracking light collecting device that maximizes the light collecting efficiency by stiffening the solar module plate by tracking the direction of sunlight according to the change of the altitude or the orbit of the sun.
The solar tracing concentrator of the present invention includes a plurality of roof trusses 115 formed in a triangular structure on top of the horizontal truss 105, a roof member 119 installed thereon, and the roof truss. Hinge bar 102 is formed to extend in the horizontal direction in the triangular portion of the, and installed on the upper of the hinge bar to support the solar module plate 200 and the lower portion of the solar module plate to collect sunlight Driving means for rotating the solar module plate to the left and right by the axis of the hinge bar by pushing or pulling, and tracking the orbit or altitude of the sun and outputs signals of different sizes according to the track or altitude of the tracked sun. It further comprises a light tracking and driving control unit 100 to rotate the left and right of the solar module plate in the vertical direction according to the size of the output signal to change the angle along the sunlight. It is characterized by.

Description

Solar tracking concentrator {Apparatus for condensing sunlight}

The present invention relates to a solar tracking light collecting device, and more particularly, is installed on a ground, a roof, or a building to maximize the light collecting efficiency by rotating the solar module plate by tracking the sunlight according to the change in the altitude and orbit of the sun. The present invention relates to a solar tracking concentrator that strengthens the installation structure.

In general, photovoltaic power generation refers to a power generation method that converts sunlight directly into electric power by solar cells.

Photovoltaic power generation is clean energy with no pollution such as air pollution, noise, heat generation and vibration, compared to other power generation. It is almost unnecessary for transportation of fuel and maintenance of power generation equipment, long life of equipment, selection and installation of equipment size. Easy to construct

Such photovoltaic power generation has the advantage that the energy source is clean, unlimited, easy to maintain the power generation system, unmanned and long life.

1 is a conventional fixed solar light collecting device, the most inexpensive and stable structure, it is common to install a lot of places where there is a relatively limited installation area. It is a fixed structure that is relatively used because there is little initial installation cost and there is no risk of maintenance.

In addition, a bidirectional solar light concentrator having such a fixed structure installed in both directions has been used.

However, since the conventional fixed solar light collecting devices are fixedly installed facing only one direction, there is a problem in that the light collecting efficiency gradually decreases when passing a predetermined position according to the change of the altitude and the orbit of the sun.

In addition, the installation place is limited because it is mainly installed on the ground, there was also a problem in the wind or load when installed on the roof or roof.

The present invention has been made to solve the above problems, the purpose is to install on the ground, roof or building, etc. by tracking the direction of sunlight according to the change of the altitude or orbit of the sun to rotate the solar module plate to improve the light collection efficiency It is to provide a solar tracking light collecting device to maximize.

Another object of the present invention is to provide a solar tracking light collecting device that can be installed on the roof of the building to increase the environmentally friendly energy production efficiency by using the roof area, which is an unnecessary space, without the need for a large area of land.

It is still another object of the present invention to provide a solar tracking light collecting device that can firmly install a solar module plate on a roof to withstand wind or load.

In order to achieve the above object, the present invention, a horizontal truss 105 having a horizontal structure and a plurality of triangular structures inclined to both sides on the upper portion of the horizontal truss and a roof member 119 thereon The roof truss 115 for installing a hinge bar 102 and the roof truss are formed to extend in the horizontal direction in the triangular nipple portion of the roof truss to hinge the solar module plate 200 located thereon. The hinge module of the solar module plate 200 is installed on the upper portion of the triangular faucet of the solar module plate 200 and supports the lower portion of the solar module plate for condensing sunlight, and pushes or pulls the lower portion thereof. It is characterized by providing a solar tracking light collecting device comprising a drive means for rotating the left and right in the vertical direction as an axis.

In addition, in the present invention, the solar module plate 200 is positioned at the right side of the open hinge 106 and the first solar module plate 201 positioned at the left side with respect to the open hinge. The second solar module plate 202 is characterized in that it provides a solar tracking light collecting device configured to be integral.

In addition, the present invention provides a solar tracking light concentrator configured to form a through hole 120 in the roof so that both ends of the semi-circular rotation guide bar 104 is fixed to both sides of the solar module plate 200 through the through holes. It is characterized by.

In addition, the present invention, the drive means is connected to the motor 213, the drive pipe 208 extending in the horizontal direction so as to rotate with the motor, and the rack pinion is connected to the drive pipe to convert the rotational motion of the motor into linear motion 206, a driven pipe 204 coupled to the rack pinion and linearly moving forward and backward and one end is hinged to a pushing clamp 209 fixed to the driven pipe, and the other end is hinged to the rotation guide bar 104. It is characterized by providing a solar tracking light collecting device consisting of a pushing mill 203 to be coupled.

delete

delete

delete

delete

delete

In addition, the present invention further comprises a light tracking and driving control unit 100 for tracking the orbit or altitude of the sun and outputs signals of different sizes according to the tracked or altitude of the tracked sun, the driving means is the light tracking And rotating the solar module plate 200 in left and right directions according to the magnitude of the signal output from the driving control unit 100 to change the angle along the sunlight.

delete

In addition, the present invention is installed in the triangular faucet portion of the building having a triangular roof in the horizontal direction to collect the solar light and the solar module plate 200, and to support the lower portion of the solar module plate by pushing or pulling the lower The solar module plate is characterized by providing a solar tracking light collecting device comprising a drive means for rotating the left and right in the vertical direction with the hinge bar (102) as an axis.

delete

delete

In addition, the present invention is supported on the ground and the support base 301 is formed through hole 303 through which the rotation guide bar 104 penetrates, the solar module is formed long in the horizontal direction at the top of the support is installed on the top A bearing 302 which serves as a hinge region of the plate 200, a solar module plate 200 installed on the upper portion of the support in a horizontal direction to collect sunlight, and a semi-circular shape and both ends of the through hole of the support. Rotation guide bar 104 which passes through the 303 and is fixed to the lower side of the solar module plate, the motor 213, the drive pipe 208 is installed in the horizontal direction so as to rotate with the motor, and the drive pipe A rack pinion 206 connected to convert the rotational motion of the motor into a linear motion, a driven pipe 204 coupled to the rack pinion and linearly moving forward and backward, and a pushing clamp 209 fixed at one end to the driven pipe. Hinged to The stage includes a pushing mill 203 hinged to the rotary guide bar, and the pushing module pushes the rotary guide bar in accordance with the linear movement of the driven pipe and pulls the rotary guide bar so that the solar module plate rotates up and down by the bearing axis. It is characterized by providing a solar tracking light collecting device is configured.

delete

According to the solar tracking light collecting device according to the present invention, there is an effect to maximize the light collection efficiency by rotating the solar module plate by tracking the direction of sunlight according to the change in the altitude or orbit of the sun.

In addition, by installing on the roof of the building, it is possible to increase the production efficiency of environment-friendly energy using the roof area, which is a large area without the need for land, and the means for fixing and rotating the solar module plate is fixedly installed on the roof. It also has the effect of providing a strong structure against wind and load.

In addition, the solar tracking light collecting device of the present invention can be installed on the ground.

1 is a perspective view showing a conventional fixed solar tracking light collecting device
2 is a plan view showing a solar tracking light collecting device according to an embodiment of the present invention
3 is a front view of FIG. 2
4 is a view showing a process of changing the inclination direction of the solar module plate by the rotation guide bar and the pushing mill of the present invention
5 and 6 are perspective views showing a state in which the solar tracking light collecting device according to the invention installed on the roof
7 is a plan view showing a solar tracking light collecting device according to another embodiment of the present invention
8 is a front view of FIG. 7
9 is a side view of FIG. 7

Hereinafter, a solar tracking concentrator according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 is a plan view showing a solar tracking light collecting device according to an embodiment of the present invention, Figure 3 is a front view of Figure 2, Figure 4 is an inclined direction of the solar module plate by the rotary guide bar and the pushing mill of the present invention 5 and 6 are perspective views illustrating a state in which the solar tracking light collecting device according to the present invention is installed on a roof.

The solar tracking light collecting device of the present invention, the light tracking and driving control unit 100, the solar module plate 200, the hinge bar 102, the covering material 103, the rotation guide bar 104, the horizontal truss 105, open Hinge 106, Roof Truss 115, Roof Member 119, Solar Module Board 200, Pushing Mill 203, Driven Pipe 204, Rack Pinion 206, Drive Pipe 208, Pushing Clamp 209, the rack pinion support 212, and the motor 213 are configured.

The light tracking and driving control unit 100 is installed on the roof member 119 to track the trajectory or altitude of the sun.

The optical tracking and driving control unit 100 is configured to ensure maximum energy efficiency at all times by attaching a plurality of optical sensors (not shown), for example, to track the same amount of light entering the optical sensor. , Since it can be easily configured according to the known conventional techniques, a detailed description thereof will be omitted.

The horizontal truss 105 has a horizontal structure and is installed on a separate pillar 114.

The roof truss 115 forms a triangular roof on the top of the horizontal truss 105.

That is, a plurality of roof trusses 115 are formed in a triangular structure inclined to both sides on the horizontal truss 105, the roof member 119 is installed thereon.

Accordingly, the horizontal truss 105 and the roof truss 115 form a building having a conventional triangular roof.

In addition, hinge bars 102 are formed on the triangular top portions of the plurality of roof trusses 115 so as to be arranged in the horizontal direction.

The solar module plate 200 is installed on the upper portion of the triangular top of the roof truss 115 in the horizontal direction to condense the sunlight.

The solar module plate 200 includes a first solar module plate 201, a second solar module plate 202, and an open hinge 106.

The open hinge 106 is formed in the center of the solar module plate 200 in the horizontal direction to serve as an axis, the first solar module plate 201 is the second solar module plate (left) on the basis of the open hinge ( 202 is located horizontally on the right side.

The open hinge 106, the first solar module plate 201, and the second solar module plate 202 are integrally formed. Accordingly, when the solar module plate 200 rotates about the open hinge axis, the first and second solar module plates 200 are rotated. The solar module plates rotate up and down together.

delete

On the other hand, the solar module support plate 101 may be installed below the first and second solar module plates 200 and 202.

In addition, the driving means of the present invention supports the lower part of the solar module plate 200, and pushes or pulls the lower part of the solar module plate to the left and right of the first and second solar module plate (axis) 200) 202 is rotated in the vertical direction.

The solar module plate 200 is preferably rotated from east to west along the direction of movement of the sun.

The driving means for this is configured to include a motor 213, a driving pipe 208, a rack pinion 206, a driven pipe 204, a pushing mill 203 and the rotary guide bar 104.

Rotation guide bar 104 is a semi-circular shape, both ends of the lower side of the solar module plate 200 through the through-hole 120 formed in the roof, that is, one end is fixed to the lower portion of the first solar module plate 201 The other end is fixed to the lower portion of the second solar module plate 202.

The drive pipe 208 extends in the horizontal direction so as to be connected to the rotating shaft of the motor 213 and rotate together.

The plurality of rack pinions 206 are connected to the drive pipes 208 to convert the rotational motion of the motor 213 into linear motion.

The driven pipe 204 is coupled to the rack pinion 206 and linearly moves forward and backward.

Here, the front-back direction refers to the direction of the arrow in FIG. 3 and the direction opposite to the arrow.

The pushing mill 203 is hinged to the pushing clamp 209, one end of which is fixed to the driven pipe 204 to move in the direction of the arrow or the opposite of the arrow in Figure 3, the other end is hinged to the rotary guide bar 104 Coupled to push or pull the rotation guide bar.

It is preferable that the other end of the pushing mill 203 is hinged to the lowest center of the center of the rotation guide bar (104).

delete

The motor 213 generates a rotational force in the forward or reverse direction, and may include a worm geared motor having a speed reducer (not shown) or a built-in speed reducer. The light tracking and driving control unit 100 may be applied. In this case, the motor rotates forward and backward depending on the size of the output signal.

As described above, the solar module plate 200 is rotated in the state in which the open hinge 106 is coupled to the hinge bar 102 to collect sunlight, and the semicircular rotation guide bar 104 has one end of the first solar cell. The other end of the module plate 201 is fixed to the lower part of the second solar module plate 202, the pushing mill 203 is hinged to the pushing clamp 209, one end is fixed to the driven pipe 204 and the other end The hinge module is coupled to the rotary guide bar 104 at the lowest point of the center and pushes or pulls the rotary guide bar according to the movement of the driven pipe (arrow direction or opposite arrow direction), so that the solar module plate 200 is connected to the hinge bar 102. The open hinge 106 is rotated about its axis.

Since the hinge bar 102 is installed in a state sandwiched between two roof trusses 115 to be interviewed, the hinge bar 102 is firmly fixed by both roof trusses.

Accordingly, the solar module plate 200 is secured and rotated safely even under wind or load.

The roof member 119 may be selectively provided with an opaque or transparent panel on the surface of the roof truss 115.

On the other hand, the cover member 103 may be installed under the roof member 119, and the cover member is to keep the indoor insulation.

In the covering member 103, a circular hole penetrating only the rotation guide bar 104 is formed.

Examples of the covering material 103 include transparent glass, a multilayer panel, polycarbonate (PC), and the like.

In addition, a drip tray 116 may be installed between the plurality of triangular roof trusses 115, and a pipe roller 207 serving as a guide while supporting the driven pipe 204 may be further installed.

The rack pinion support 212 serves to support the rack pinion 206.

Reference numeral 110 is a drip tray for supporting the drip tray 116.

Referring to the operation relationship of the solar tracking light collecting device of the present invention configured as described above are as follows.

When the light tracking and driving control unit 100 tracks the orbit or altitude of the sun and outputs signals of different sizes according to the tracked or altitude of the sun, the driving means outputs the magnitude of the signal output from the light tracking and driving control unit. According to the plurality of solar module plates 200 by rotating the left and right up and down the hinge bar 102 to the axis to change the angle along the sunlight.

That is, since the motor 213 rotates in the forward or reverse direction according to the sun's orbit or altitude, the driven pipe 204 linearly moves in the direction of the arrow or the direction opposite the arrow, and thus the pushing mill 203 rotates the guide bar. By pushing or pulling 104, the left and right sides of the solar module plate 200 are rotated up and down with the hinge bar 102 and the open hinge 106 as axes.

When the solar module plate 200 rotates as described above, the lower portion of the first solar module plate 201 is in contact with the upper left side of the roof member 119 or the lower portion of the second solar module plate 202 is disposed on the upper right side of the roof member. In addition, the solar module plate is in a horizontal state when the sun is at noon (see FIG. 4).

delete

As such, the solar module plate 200 is rotated by tracking the position of the solar light according to the change of the altitude or the orbit of the sun, thereby maximizing the condensing efficiency. By using the roof area, which is an unnecessary space, the production efficiency of eco-friendly energy can be increased, and the means for fixing and rotating the solar module plate and the solar module plate is firmly installed in the frame, thereby providing a strong structure against wind or load. Will be.

7 is a plan view illustrating a solar tracking concentrator according to another embodiment of the present invention, FIG. 8 is a front view of FIG. 7, and FIG. 9 is a side view of FIG. 7.

2 to 6 correspond to the case where the solar tracking concentrator of the present invention is installed on a roof or a building, and FIGS. 7 to 9 correspond to the case where the solar tracking concentrator of the present invention is installed on the ground. In the description of FIGS. 7 to 9, elements having the same functions as those of FIGS. 2 to 6 apply the same code names and code numbers.

Solar tracking light collecting device according to another embodiment of the present invention is the support 301, the bearing 302, the solar module plate 200, the rotary guide bar 104, the motor 213, the driving pipe 208, rack And a pinion 206 and a pushing mill 203.

The support 301 is supported by the base frame 304 fixed to the ground, and a through hole 303 through which the rotation guide bar 104 penetrates is formed.

The bearing 302 is formed on the upper portion of the support 301, and serves as a hinge region of the solar module plate 200 located at the upper portion.

Of course, the hinge bar 102 of FIG. 3 may be formed instead of the bearing 302.

The solar module plate 200 is installed on the upper portion of the support 301 in a horizontal direction to condense solar light.

The rotation guide bar 104 has a semicircular shape, and both ends thereof are fixed to both lower sides of the solar module plate 200 through the through holes 303 of the support 301.

The motor 213 rotates forward and backward by rotating the bearing 302 up and down on the left and right sides of the solar module plate 200.

The drive pipe 208 is provided in the horizontal direction so as to rotate together with the motor 213.

The rack pinion 206 is connected to the drive pipe 208 to convert the rotational motion of the motor 213 into linear motion.

The driven pipe 204 is coupled to the rack pinion 206 and linearly moves forward and backward.

One end of the pushing mill 203 is hinged to the pushing clamp 209 is fixed to the driven pipe 204, the other end is hinged to the rotary guide bar (104).

Accordingly, since the driven pipe 204 is linearly moved when the motor 213 is driven, the pushing mill 203 pushes or pulls the rotation guide bar 104 so that the solar module plate 200 shafts the bearing 302. Will be rotated.

The solar module plate 200 includes an open hinge 106 longly formed in the center in the horizontal direction, a first solar module plate 201 positioned on the left side based on the open hinge, and a second solar module plate positioned on the right side ( 202, the open hinge and the first and second solar module plates are integrally formed.

The other end of the pushing mill 203 is hingedly connected to the lowest point of the center of the rotation guide bar 104.

In addition, the present invention tracks the orbit or altitude of the sun, and drive the motor 213 according to the track or the altitude of the tracked light tracking and drive control unit for changing the angle of the solar module plate 200 along the sunlight It further includes (100).

And the pipe roller 207 which serves as a guide while supporting the driven pipe 204 is further installed.

The base frame 304 is fixed to the ground to support the driven pipe 204 and the rack pinion 206 as well as the support 301.

As described above, with reference to the preferred embodiment of the present invention, those skilled in the art will be variously modified and modified within the scope of the present invention without departing from the spirit and scope of the present invention described in the claims below. It will be appreciated that it can be changed.

100: light tracking and drive control unit 101: solar module support plate
102: hinge bar 103: coating material
104: rotation guide bar 105: horizontal truss
106: open hinge 110: drip tray
114: pillar 115: roof truss
116: drip tray 119: roof member
120: through hole 200: solar module plate
201: first solar module plate 202: second solar module plate
203: pushing mill 204: driven pipe
206: rack pinion 207: pipe roller
208: driving pipe 209: pushing clamp
212: rack pinion support 213: motor
301: support 302: bearing
303: through hole 304: base frame

Claims (21)

A roof truss 115 having a plurality of roof trusses having a triangular structure inclined to both sides on the upper side of the horizontal truss 105, a hinge bar 102 formed in a horizontal direction at a triangular top of the roof truss 115; Open hinge 106 formed in the horizontal direction in the center hinged to the hinge bar 102 is installed to rotate to drive the solar module plate 200 and the solar module plate 200 for condensing sunlight A solar tracking concentrator comprising means,
A roof member 119 installed on the roof truss 115;
Through-holes 120 formed in the roof member 119;
Being semi-circular, both ends further include a rotation guide bar 104 for fixing to both sides of the lower portion of the solar module plate 200 through the through holes 120;
The hinge bar (102) is formed long in the transverse direction on the triangular corner of the roof truss (115);
The open hinge 106 is formed in the longitudinal direction in the center of the solar module plate 200 is formed long in the horizontal direction;
The drive means includes a drive pipe 208 extending in the horizontal direction to rotate together with the motor 213 and a rack pinion connected to the drive pipe 208 to convert the rotational motion of the motor 213 into linear motion. 206, a driven pipe 204 coupled to the rack pinion 206 and linearly moving forward and backward, and one end fixed to a pushing clamp 209 fixed to the driven pipe 204, the other end of which is rotated. Solar tracking light collecting device characterized in that it comprises a pushing mill 203 hinged to the guide bar (104). delete delete delete The method of claim 1,
A solar tracking light collecting device, characterized in that the lower portion of the roof member 119 is coupled to the covering member 103 and the covering member 103 is formed with a circular hole through which both ends of the rotation guide bar 104 pass. . delete The method of claim 5,
The coating material (103) is a solar tracking light collecting device, characterized in that any one of a transparent glass, a multi-layer panel or a polycarbonate (PC). delete The method of claim 1,
Between the plurality of roof trusses 115, a solar tracing concentrator, characterized in that configured by installing a drip tray (116). 6. The method according to claim 1 or 5,
The roof member 119 is made of an opaque or transparent panel and is selectively installed on the roof truss 115, the solar tracking light collecting device, characterized in that configured. delete The method of claim 1,
The driving means further comprises a pipe roller (207) that serves as a guide while supporting the driven pipe (204). The hinge bar 102, which is formed to extend in the horizontal direction on the roof triangular top of a building having a triangular roof, and the open hinge 106 formed in the center, are hingedly coupled to the hinge bar 102 to be installed and rotated. In the solar tracking light collecting device comprising a solar module plate 200 for condensing light and a driving means for rotating the solar module plate 200,
Through-holes 120 formed in the roof;
Being semi-circular, both ends further include a rotation guide bar 104 for fixing to both sides of the lower portion of the solar module plate 200 through the through holes 120;
The hinge bar (102) is formed long in the transverse direction on the roof triangular part of the building;
The open hinge 106 is formed in the longitudinal direction in the center of the solar module plate 200 is formed long in the horizontal direction;
The drive means includes a drive pipe 208 extending in the horizontal direction to rotate together with the motor 213 and a rack pinion connected to the drive pipe 208 to convert the rotational motion of the motor 213 into linear motion. 206, a driven pipe 204 coupled to the rack pinion 206 and linearly moving forward and backward, and one end fixed to a pushing clamp 209 fixed to the driven pipe 204, the other end of which is rotated. Solar tracking light collecting device characterized in that it comprises a pushing mill 203 hinged to the guide bar (104). delete delete delete A support 301 supported by the ground and having a through hole 303 through which the rotation guide bar 104 passes;
A bearing 302 formed on the upper portion of the support 301 in a horizontal direction to be hinged;
A solar module plate (200) hinged to an open hinge (106) formed in a horizontal direction at the center thereof to the bearing (302) so as to pivot on the upper portion of the support (301) to condense sunlight;
It is semi-circular, both ends of the rotation guide bar 104 to be fixed to the lower both sides of the solar module plate 200 through the through hole 303; And
A drive pipe 208 extending in the horizontal direction to rotate together with the motor 213, a rack pinion 206 connected to the drive pipe 208 to convert the rotational motion of the motor 213 into a linear motion, The driven pipe 204 coupled to the rack pinion 206 and linearly moving forward and backward, and one end is fixed to the pushing clamp 209 is fixed to the driven pipe 204 and the other end is the rotation guide bar 104 The solar tracking light collecting device, characterized in that it comprises a driving means which is provided with a pushing mill (203) hinged to. The method according to any one of claims 1, 13 or 17,
The solar module plate 200 includes a first solar module plate 201 located on the left side and a second solar module plate 202 located on the right side with respect to the open hinge 106 and the open hinge 106. The solar tracking light collecting device, characterized in that formed integrally with this. The method according to any one of claims 1, 13 or 17,
The other end of the pushing mill (203), the solar tracking light collecting device, characterized in that configured by hinged to the lowermost center of the rotation guide bar (104). The method according to any one of claims 1, 13 or 17,
The driven pipe (204) is a solar tracking light collecting device, characterized in that configured to be arranged in parallel with a plurality of drive pipes (208) arranged side by side in parallel. The method according to any one of claims 1, 13 or 17,
It tracks the orbit or altitude of the sun, and outputs signals of different sizes according to the tracked or altitude of the tracked sun so that the driving means rotates the left and right of the solar module plate 200 in the vertical direction according to the magnitude of the output signal. And a light tracking and driving control unit 100 to change the angle along the sunlight.

Images