KR101251900B1 - Apparatus for condensing sunlight of tracing - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a solar tracking condenser that is installed on an inclined or flat surface such as a roof or a rooftop to collect sunlight by tracking the position of the sun.
Such a solar tracking light collecting device of the present invention, the photovoltaic module frame having one end pivotally installed on the fixed hinge bar, and the other two points of the photovoltaic module frame to move up and down, respectively to adjust the inclination angle A lever portion formed of a first lever and a second lever, a drive pipe connected to the motor and a rotation shaft of the motor, and a drive pin and a shaft that are connected to the drive pipe, and are located at the top and bottom of the drive pinion. In accordance with the rotation of the rack pinion to the upper and lower racks linearly moving in different directions, the upper driven pipe connected to the upper rack and the lower driven pipe connected to the lower rack and one end of the upper driven It is fixed to the pipe and the other end is installed to move along the upper driven pipe by supporting the lower driven pipe. The upper driven pipe hinge to which one end of the first lever is pivotally coupled, and the one end is fixed to the lower driven pipe, and the other end is installed to move along the lower driven pipe by supporting the upper driven pipe, and the one end of the second lever rotates. It is characterized in that it comprises a lower driven pipe hinge to be coupled.

Description

Apparatus for condensing sunlight of tracing}

The present invention relates to a solar tracking light collecting device, and more particularly, to a solar tracking light collecting device that is installed on an inclined or flat surface such as a roof or a rooftop to track the position of the sun to collect sunlight.

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

Solar 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 to maintain fuel transportation and power generation facilities, long life of equipment, selection and installation of equipment size. Easy to construct

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

FIG. 1 is a conventional fixed solar light collecting device, which is the most inexpensive and stable structure, and is used in a place where there is no restriction of the installation area in a relatively remote area. In particular, it is common to install in places with strong wind speed such as island areas. As the initial installation cost is low and there is no risk of maintenance, it is a relatively popular array support method.

In addition, a fixed bidirectional solar light collecting device in which the fixed structure as described above is installed in both directions may be used.

However, such a conventional fixed solar light collecting device has a problem in that the light collection efficiency of the system as a whole is lowered according to the change in the altitude or the trajectory of the sunlight.

In addition, since it is mainly installed on the ground, the installation place is limited, and when installed on a roof or a roof, there is also a problem of weak wind and load.

Accordingly, the present invention has been made to solve the above problems, the object of which is to install a solar light concentrator whose angle is adjusted to the inclined portion or flat such as the roof or rooftop of the sun according to the change of the season or altitude The present invention provides a photovoltaic tracking concentrator that tracks a location and efficiently collects sunlight.

In order to achieve the above object, the present invention, one end of the photovoltaic module frame is rotatably installed on the fixed hinge bar, and the other side of the photovoltaic module frame while supporting the two sides of the photovoltaic power generation by moving up and down respectively And a lever unit formed of a first lever and a second lever for adjusting an inclination angle of the module frame, and a driving means for driving the lever unit up and down, so that the first lever and the second lever cross each other in an 'X' shape. It is characterized by providing a solar tracking light collecting device is configured.

The driving means is a motor, a drive pipe connected to the rotating shaft of the motor to rotate, the shaft is connected to the drive pipe and the upper and lower portions of the drive pinion are located in different directions according to the rotation of the drive pinion A plurality of rack pinion portions which are upper and lower racks linearly moving in a straight line, an upper driven pipe connected to the upper rack and a lower driven pipe connected to the lower rack, and one end of the upper driven pipe And a plurality of upper driven pipe hinges and one end fixed to the lower driven pipe and the other end guide the lower driven pipe and move along the upper driven pipe, and one end of the first lever rotates and the other end is fixed to the other end. The upper driven pipe is guided to move along the lower driven pipe, and one end of the second lever It is characterized by providing a solar tracking light collecting device comprising a plurality of lower driven pipe hinges that are pivotally coupled.

In addition, a fitting groove is formed at an intermediate point of the first lever, and the second lever is installed to pass through the fitting groove.

In addition, when the upper driven pipe and the lower driven pipe is moved in the opposite direction, it is characterized in that the pipe roller which serves as a guide role while supporting the upper and lower driven pipes.

In addition, the intermediate position of the photovoltaic module frame is characterized in that the installation of a further intermediate bar supporting the photovoltaic module frame from the bottom.

In addition, the photovoltaic module frame is arranged in a plurality in the horizontal and vertical direction, characterized in that one drive pipe is installed so as to be connected to a plurality of driven pipes through a plurality of rack pinions.

In addition, the connection portion of the photovoltaic module frame and the lever portion is characterized in that for connecting to the hinge connecting portion that can be freely changed angle without being separated.

The driving means includes a motor, a driving pipe connected to the rotating shaft of the motor to rotate, a worm connecting the shaft to the driving pipe, and one end of the shaft connected to the other end of the first driven pipe, and the other end of the shaft being driven by the second. A plurality of worm gear parts that are connected to one end of the pipe, and a left screw lead screw and one end connected to one end of the first driven pipe and one end connected to the other end of the third driven pipe, and one end of the second driven pipe. A plurality of screw parts connected to the other end and a right screw lead screw connected to one end of the fourth driven pipe, and a plurality of bearings installed between the other end of the fourth driven pipe and one end of the third driven pipe; It is fastened to the right screw lead screw and moves in the right direction according to the rotation of the right screw lead screw, and one end of the first lever is rotatably coupled. Including a lead screw hinge and a plurality of lead screw hinges which are fastened to the left screw lead screw and move in a left direction according to the rotation of the left screw lead screw, and that the one end of the second lever is rotatably coupled to the left screw lead screw hinge. It is characterized in that the configuration.

In addition, the photovoltaic module frame is arranged in a plurality of horizontal and vertical direction, characterized in that one drive pipe is installed so as to be connected to a plurality of driven pipes through a plurality of worm gear parts.

As described above, according to the present invention, the position of the sun can be tracked according to the change of season or altitude according to the change of the season or altitude by installing the solar light concentrating device whose angle is adjusted on the inclined part or the flat such as the roof or the roof. As a result, the light collecting efficiency can be improved.

1 is a perspective view showing a conventional fixed solar tracking light collecting device
2 is a front view of the solar tracking light collecting device according to the first embodiment of the present invention;
Fig. 3 is a plan view of Fig.
4 is an essential part of the left side view of FIG.
5 is a detailed view of the main part of FIG.
6 is a detailed perspective view of the lever part of FIG.
7 is a detailed view of the rack pinion part of FIG.
8 is a front view of a solar tracking light collecting device according to a second embodiment of the present invention;
Fig. 9 is a plan view of Fig. 8
10 is an essential part of the left side view of FIG.
11 is a detailed view of the main part of FIG.
FIG. 12 is a detailed view of part “A” (worm gear part) of FIG.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

It is to be understood that the words or words used in the present specification and claims are not to be construed in a conventional or dictionary sense and that the inventor can properly define the concept of a term in order to describe its invention in the best possible way And should be construed in light of the meanings and concepts consistent with the technical idea of the present invention. Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

FIG. 2 is a front view of the solar tracking light collecting apparatus according to the first embodiment of the present invention, FIG. 3 is a plan view of FIG. 2, and FIG. 4 is a main part of the left side view of FIG. 2. 5 is a detailed view of FIG. 2, FIG. 6 is a detailed perspective view of the lever part of FIG. 3, and FIG. 7 is a detail view of the rack pinion part of FIG. 2.

The solar tracking light collecting device of the present invention comprises a photovoltaic module frame 30, a lever unit 130 and a driving means.

The photovoltaic module frame 30 is a frame surrounding the circumference of the photovoltaic module (solar cell) 20 so that one end thereof is rotatable.

One end of the photovoltaic module frame 30 is preferably connected to the fixed hinge bar 150 so as to be rotatable.

The photovoltaic module (solar cell) 20 collects solar energy and converts it into electrical energy.

The fixed hinge bar 150 may be installed in a panel such as a roof or a roof (for example, the roof panel 10 of FIG. 2).

The other side of the photovoltaic module frame 30 is supported by the lever unit 130.

In addition, the connection portion of the photovoltaic module frame 30 and the lever unit 130 is connected to the hinge connecting portion 170 that can freely change the angle without being separated.

The lever unit 130 may move up and down while supporting two other points of the photovoltaic module frame 30, respectively, to adjust the inclination angle of the photovoltaic module frame to the first lever 131 and the second lever ( 132).

In addition, since the fitting groove 133 is formed at the intermediate point of the first lever 131 so that the second lever 132 is installed to pass through the fitting groove, the first lever and the second lever are raised in the cross shape. And lower.

The driving means serves to drive the lever unit 130 up and down.

These drive means are a motor 110, a drive pipe 120, a plurality of rack pinion portion 200, a plurality of driven pipe 300, a plurality of upper driven pipe hinges 410 and a plurality of lower driven pipe hinges 420 It is configured to include).

The drive pipe 120 is connected to the rotating shaft of the motor 110 to rotate.

The photovoltaic module frame 30 is disposed in a plurality of horizontal and vertical directions, the driving pipe 120 is disposed in the horizontal direction between the photovoltaic module frames.

In addition, a plurality of driven pipes 300 are connected to one drive pipe 120 through a plurality of rack pinion parts 200.

A plurality of rack pinion portion 200, the shaft is located in the upper and lower driving pinion 210 and the drive pinion is connected to the drive pipe 120 and linearly moving in different directions according to the rotation of the drive pinion It consists of upper and lower racks 221 and 222.

In more detail, the shaft of the driving pinion 210 is connected to the driving pipe 120 and rotates in the same direction, and is positioned at the upper portion of the driving pinion to engage with the upper rack 221 and the lower portion of the driving pinion. The lower racks 222 which are engaged with and driven at each other are linearly moved in opposite directions to each other.

The driven pipe 300 is composed of an upper driven pipe 310 connected with the upper rack 221 and a lower driven pipe 320 connected with the lower rack 222.

The plurality of upper driven pipe hinges 410 is fixed so that one end is fixed to the upper driven pipe 310 and the other end supports the lower driven pipe 320 to move along the upper driven pipe, and the first lever 131 One end of is rotatably coupled.

The plurality of lower driven pipe hinges 420 is fixed to one end of the lower driven pipe 320 and the other end is installed to move along the lower driven pipe by supporting the upper driven pipe 310 and the second lever 132. One end of is rotatably coupled.

Accordingly, when the upper driven pipe 310 moves in the solid line arrow direction of FIG. 4, one end of the upper driven pipe and the upper driven pipe hinge 410 fixed also move in the same direction, and the lower driven pipe 320 is illustrated in FIG. 4. When moving in the dotted arrow direction of 4, one end of the lower driven pipe and the fixed lower driven pipe hinge 420 also move in the same direction, so that the upper driven pipe hinge and the lower driven pipe hinge are simultaneously gathered inward or spread outwards. do.

Accordingly, when the upper driven pipe hinge 410 and the lower driven pipe hinge 420 are collected inward at the same time, the first lever 131 and the second lever 132 move upwards, and conversely, the upper driven pipe hinge When the lower driven pipe hinge is opened outward at the same time, the first lever and the second lever move downward.

Accordingly, the inclination angle of the photovoltaic module frame 30 as the other end of the photovoltaic module frame 30 hinged to the other end of the first lever 131 and the other end of the second lever 132 is raised or lowered. The degree can be adjusted.

Further, when the upper driven pipe 310 and the lower driven pipe 320 move in opposite directions, it is preferable to further install a pipe roller 140 that serves as a guide while supporting the upper and lower driven pipes. Reference numeral 141 denotes the pipe roller high information for supporting the pipe roller 140.

In addition, by installing a plurality of intermediate bars 160 supporting the photovoltaic module frame at the lower portion in the middle position of the photovoltaic module frame 30 to enable safer photovoltaic condensing.

The operation relationship of the solar tracking light collecting device according to the first embodiment of the present invention configured as described above will be described.

If the altitude of the sun is gradually lowered, the photovoltaic module frame 30 should be erected gradually, and if the altitude of the sun is gradually increased, the photovoltaic module frame 30 should be laid down.

First, the former case will be described. When the motor 110 is rotated in one direction, the driving pipe 120 connected to the rotating shaft rotates together, and thus the upper rack 221 positioned on the upper portion of the driving pinion 210. And the lower rack 222 positioned below the driving pinion are linearly moved in opposite directions.

In this case, the upper driven pipe 310 connected to the upper rack 221 and the upper driven pipe hinge 410, one end of which is fixed to the upper driven pipe, are moved in the direction of the solid arrow.

Accordingly, the lower driven pipe 320 and one end connected to the lower rack 222 and the lower driven pipe hinge 420 fixed to the lower driven pipe are moved in the direction of the dotted arrow, so that the upper driven pipe hinge 410 and the The lower driven pipe hinges move in opposite directions and are collected inward.

In this way, as the upper driven pipe hinge 410 and the lower driven pipe hinge 420 are simultaneously gathered inward, the first lever 131 and the second lever 132 move upwards, The other end of the photovoltaic module frame 30 hinged to the other end and the other end of the second lever is raised, so that the photovoltaic module frame is erected.

In this state, when the PV module frame 30 is to be laid down, first, when the motor 110 is rotated in the other direction, the driving pipe 120 connected to the rotating shaft rotates together, and thus the upper position of the driving pinion 210 is located. The upper rack 221 and the lower rack 222 positioned below the drive pinion are linearly moved in the opposite direction to the above.

In this case, the upper driven pipe 310 connected to the upper rack 221 and the upper driven pipe hinge 410, one end of which is fixed to the upper driven pipe, move in the opposite direction of the solid arrow.

Accordingly, the lower driven pipe 320 connected to the lower rack 222 and the lower driven pipe hinge 420 having one end fixed to the lower driven pipe move in the opposite direction to the dotted arrow, so that the upper driven pipe hinge 410 And the lower driven pipe hinge are opened outward.

In this way, as the upper driven pipe hinge 410 and the lower driven pipe hinge 420 are simultaneously spread outwards, the first lever 131 and the second lever 132 are moved downward, so that The other side of the photovoltaic module frame 30 hinged to the other end and the other end of the second lever is lowered so that the photovoltaic module frame is laid down.

8 is a front view of the solar tracking light collecting device according to the second embodiment of the present invention, FIG. 9 is a plan view of FIG. 8, FIG. 10 is a main part of the left side view of FIG. 8, and FIG. 11 is a main view of FIG. 2. 12 is a detailed view of the portion "A" (worm gear part) in FIG. 3, and the same components as those in FIGS. 2 to 7 will be described with the same reference numerals.

The solar tracking light collecting device of the present invention comprises a photovoltaic module frame 30, a lever unit 130 and a driving means.

For a detailed description of the photovoltaic module frame 30 and the lever unit 130, refer to the description of FIG. 2 to FIG.

The driving means serves to drive the lever unit 130 up and down.

The driving means includes a motor 110, a driving pipe 120, a plurality of worm gear parts 500, a plurality of screw parts, a plurality of bearings 900, and a plurality of lead screw hinge parts.

The drive pipe 120 is connected to the rotating shaft of the motor 110 to rotate.

The photovoltaic module frame 30 is disposed in a plurality of horizontal and vertical directions, and the driving pipe 120 is disposed in a horizontal direction between the photovoltaic module frames.

In addition, one driving pipe 120 is installed to be connected to the plurality of driven pipes 600 through the plurality of worm gear units 500.

The driven pipe 600 indicates the first driven pipe 610 and the second driven pipe 620 and is directly connected to the worm gear part 500.

The worm gear unit 500 is a device for rotating the first and second driven pipes 610 and 620 by the rotation of the driving pipe 120, and is composed of a worm 510 and a worm gear 520.

The shaft 511 of the worm 510 is connected to the drive pipe 120.

One end of the shaft 521 of the worm gear 520 is connected to the other end of the first driven pipe 610, and the other end is connected to one end of the second driven pipe 620.

The first and second driven pipes 610 and 620 are rotated in the same direction by the worm gear part 500.

The plurality of screw parts include a left screw lead screw 710 and a right screw lead screw 720.

The other end of the left screw lead screw 710 is connected to one end of the first driven pipe 610, and one end is connected to the other end of the third driven pipe 630.

One end of the right screw lead screw 720 is connected to the other end of the second driven pipe 620, and the other end thereof is connected to the one end of the fourth driven pipe 640.

The bearing 900 is installed between the other end of the fourth driven pipe 640 and one end of the third driven pipe 630 to prevent the rotational force of the fourth driven pipe from reaching the third driven pipe.

The plurality of lead screw hinge portions include a right screw lead screw hinge 810 and a left screw lead screw hinge 820.

The right screw lead screw hinge 810 is fastened to the right screw lead screw 720 to move in the right direction according to the rotation of the right screw lead screw, and one end of the first lever 131 is rotatably coupled.

The left screw lead screw hinge 820 is fastened to the left screw lead screw 710 and moves in a left direction according to the rotation of the left screw lead screw, and one end of the second lever 132 is rotatably coupled.

Accordingly, when the first and second driven pipes 610 and 620 are rotated by the worm gear part 500, the right screw lead screw hinge 810 installed in the right screw lead screw 720 is moved to the right (solid arrow direction). The left screw lead screw hinge 820 installed on the left screw lead screw 710 moves to the left (dotted arrow direction) so that the right screw lead screw hinge and the left screw lead screw hinge are gathered inward to form a first lever ( 131 and the second lever 132 is moved upward. Reference numeral 901 denotes bearing high information for supporting the bearing 900.

The operation relationship of the solar tracking light collecting device according to the second embodiment of the present invention configured as described above will be described.

If the altitude of the sun is gradually lowered, the photovoltaic module frame 30 should be gradually raised, and if the altitude of the sun is gradually increased, the photovoltaic module frame should be laid down.

First, the former case will be described. When the motor 110 is rotated in one direction, the driving pipe 120 connected to the rotating shaft rotates together, so that the first and second driven pipes 610 are driven by the worm gear part 500. 620 is rotated in one direction.

Then, the left screw lead screw 710 and the right screw lead screw 720 connected to the first and second driven pipes 610 and 620 are also rotated in the same direction, so that the left screw lead screw hinge 820 installed on the left screw lead screw. Is moved to the left (dotted arrow direction), the right screw lead screw hinge 810 installed on the right screw lead screw is moved to the right (solid arrow direction).

That is, the right screw lead screw hinge 810 and the left screw lead screw hinge 820 move in opposite directions to each other and are collected inward.

Accordingly, since the first lever 131 and the second lever 132 are moved upward, the other part of the photovoltaic module frame 30 hinged to the other end of the first lever and the other end of the second lever is raised. Then, the photovoltaic module frame is erected.

In such a state, when the solar module module 30 is to be laid down, when the motor 110 is rotated in the opposite direction when the solar module module is to be erected, the driving pipe 120 is connected to the rotation shaft of the motor. Rotates together, so that the first and second driven pipes 610 and 620 are rotated in the other direction by the worm gear part 500.

Then, the left screw lead screw 710 and the right screw lead screw 720 connected to the first and second driven pipes 610 and 620 are also rotated in the other direction (counter direction), so that the left screw lead screw installed on the left screw lead screw Hinge 820 is moved to the right (the opposite direction of the dotted arrow), the right screw lead screw hinge 810 installed on the right-screw lead screw is moved to the left (the opposite direction of the solid arrow).

In this case, as the right screw lead screw hinge 810 and the left screw lead screw hinge 820 are spread outward, the first lever 131 and the second lever 132 are moved downward.

Thus, the other side of the photovoltaic module frame 30 hinged to the other end of the first lever 131 and the other end of the second lever 132 is lowered, so that the photovoltaic module frame is laid down.

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.

10: roof panel
20: solar power module
30: PV module frame
110: motor
120: drive pipe
130: lever unit
131: first lever
132: second lever
133: fitting groove
140: pipe roller
141: high pipe roller information
150: fixed hinge bar
160: middle bar
170: hinge connection
200: rack pinion unit
210: driving pinion
221: upper rack
222: lower rack
300: driven pipe
310: upper driven pipe
320: lower driven pipe
410: upper driven pipe hinge
420: lower driven pipe hinge
500: worm gear unit
510: worm
511: shaft
520: worm gear
521: shaft
600: driven pipe
610: first driven pipe
620: second driven pipe
630: third driven pipe
640: fourth driven pipe
710: left hand lead screw
720: right-hand thread lead screw
810: right screw lead screw hinge
820: Left screw lead screw hinge
900: bearing
901: bearing high information

Claims (13)

On a solar tracking light collecting device having a photovoltaic module frame, one end of which is rotatably installed at a fixed hinge bar, a lever unit for adjusting an inclination angle of the photovoltaic module frame, and a driving means for driving the lever unit up and down. In
The photovoltaic module frame is arranged in a plurality of horizontal and vertical directions;
The lever unit includes a first lever and a second lever which are respectively installed on the plurality of photovoltaic module frames and move up and down while supporting two other points of the photovoltaic module frame, respectively;
The drive means includes a motor, a drive pipe connected to a rotating shaft of the motor to rotate, a drive pinion whose shaft is connected to the drive pipe, and upper and lower portions of the drive pinion, according to the rotation of the drive pinion. A plurality of rack pinion portions that are upper and lower racks linearly moving in different directions, an upper driven pipe connected to the upper rack and a lower driven pipe connected to the lower rack, and one end of the plurality of driven pipes A plurality of upper driven pipe hinges and one end fixed with the upper driven pipe, the other end of which is installed to move along the upper driven pipe by supporting the lower driven pipe, and one end of the first lever is rotatably coupled with the lower driven pipe. And the other end is installed to move along the lower driven pipe by supporting the upper driven pipe. And a plurality of lower driven pipe hinges at which one end of the lever is rotatably coupled. delete delete The method of claim 1,
And a pipe roller installed to serve as a guide while supporting the upper and lower driven pipes when the upper driven pipe and the lower driven pipe move in opposite directions. delete delete delete On a solar tracking light collecting device having a photovoltaic module frame, one end of which is rotatably installed at a fixed hinge bar, a lever unit for adjusting an inclination angle of the photovoltaic module frame, and a driving means for driving the lever unit up and down. In
The photovoltaic module frame is arranged in a plurality of horizontal and vertical directions;
The lever unit includes a first lever and a second lever which are respectively installed on the plurality of photovoltaic module frames and move up and down while supporting two other points of the photovoltaic module frame, respectively;
The driving means includes a motor, one drive pipe connected to the rotating shaft of the motor to rotate, a worm gear shaft connected to the drive pipe, and a plurality of worm gears that rotate in engagement with the worm, and the other end thereof. A plurality of driven pipes, the first driven pipe being connected to one end of the worm gear shaft and the second driven pipe, one end being connected to the other end of the worm gear shaft, and the other end being connected to one end of the first driven pipe and one end A plurality of screw parts including a left screw lead screw connected to the other end of the third driven pipe and a right screw lead screw connected to the other end of the second driven pipe and the other end connected to one end of the fourth driven pipe; A plurality of bearings installed between the other end of the driven pipe and one end of the third driven pipe and the right screw lead screw are fastened to the right screw lead screw. The right screw lead screw hinge which one end of the first lever is rotatably coupled to the left screw lead screw and moves in the left direction according to the rotation of the left screw lead screw. A solar tracking light collecting device, comprising: a plurality of lead screw hinges, each of which being a left screw lead screw hinge having one end rotatably coupled thereto. The method according to claim 1 or 8,
A solar tracking concentrating device, characterized in that forming a fitting groove in the intermediate point of the first lever, the second lever is installed to pass through the fitting groove. delete delete The method according to claim 1 or 8,
The photovoltaic module frame and the connecting portion of the lever unit, the solar tracking light collecting device, characterized in that configured by connecting with a hinge connection to freely change the angle without being separated. delete

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