KR101163140B1 - Sun tracker driven integratedly for photovoltaic system - Google Patents

Abstract

The present invention relates to an integrated drive type solar tracking device for photovoltaic power generation, and more specifically, a plurality of fixed supports arranged in a row at regular intervals in the north-south direction is fixed perpendicular to the ground to form a plurality of rows in the east-west direction Installed on the upper end of the fixed support, the rotating shaft support for adjustable angle according to the inclination of the ground is installed, respectively, between the rotating shaft support of the fixed support arranged in a row in the north-south direction of the fixed support extending in the north-south direction Inserted so as to be horizontal to the ground, respectively, and installed on the rotating shaft, a plurality of solar panel mounting frame is installed on the upper surface of the solar panel facing south by a pair of frame fixing member that can adjust the angle according to the altitude change of the sun according to the season. Fixedly installed at an inclined angle to the east and west of the fixed support On the outermost sides of the fixed support arranged in a row in a direction, a pair of wire supports on which the rotating shaft drive wires for integrally driving the rotating shaft are wound are fixed to the ground perpendicularly to the ground, and on one side of the wire support The wire winding drums, both ends of which are wound in opposite directions to each other, are rotatably installed by a drum driving motor, thereby tracking the movement of the sun moving in the winter from sunrise to sunset. The solar panel's angle can be easily adjusted according to the change of the sun's altitude, and the solar power generation efficiency can be greatly improved, and the composition can be manufactured at a low cost by greatly simplifying the configuration. In addition, it can be easily installed even in a sloped area. In addition, by using wires to drive a plurality of rotating shafts integrally, the commercialization of photovoltaic power generation is further improved by drastically reducing the time and cost required for the construction, maintenance and operation of large-scale solar panels. The present invention relates to an integrated solar tracking device for photovoltaic power generation.

Description

Sun tracker driven integratedly for photovoltaic system

The present invention relates to an integrated driving type solar tracking device for photovoltaic power generation, and more particularly, to track the movement of the sun moving in the east from sunrise to sunset and at the same time changing the altitude of the solar panel according to the season. The angle can be easily adjusted to drastically improve the photovoltaic power generation efficiency, and the construction can be made at a low cost by greatly simplifying the construction so that it can be easily installed in areas where the ground is flat as well as inclined ground. In addition, by using wires to drive a plurality of rotating shafts integrally, the commercialization of photovoltaic power generation is further improved by drastically reducing the time and cost required for the construction, maintenance and operation of large-scale solar panels. On an integrated solar tracker for solar power A.

Conventional photovoltaic photovoltaic tracking device has a plurality of fixed support which is fixed to the ground vertically at most regular intervals, a rotating shaft rotatably installed on the upper end of the fixed support, and the ground on the top of the rotating shaft and It is composed of a solar panel mounting frame installed to be horizontal, and a drive device for rotating the rotating shaft.

Conventional photovoltaic solar tracking device is configured as described above, the rotating shaft is rotated by a drive controller operated by a programmed controller or an optical sensor for detecting the position of the sun while the solar panel installation frame moves from sunrise to sunset. Since the movement of the sun to move from each other, the solar panel is installed on the upper surface of the solar panel mounting frame is able to significantly increase the solar power generation efficiency as the sunlight can be incident under the optimal conditions for a long time.

However, since the conventional solar tracking device for photovoltaic power generation is configured as described above, the solar panel installed on the upper surface of the solar panel mounting frame is installed to be horizontal to the ground, so that the incident angle of sunlight is relatively high in the summer when the sun's altitude increases. Photovoltaic power generation efficiency increases as the state is close to vertical, but in winter, when the sun's altitude is lowered, there is a problem that the photovoltaic power efficiency decreases rapidly as the angle of incidence of the sunlight becomes far from the vertical.

In addition, the conventional photovoltaic solar tracking device is configured as described above because the solar panel is installed on the top surface of the solar panel mounting frame is installed so as to be parallel to the ground should be mainly installed on a flat, slope There was a problem that was difficult to construct.

In addition, the conventional solar tracking device for photovoltaic power generation is configured as described above when the driving device for rotating the rotating shaft should be installed one by one for each of the rotating shaft is mounted solar panels, if you want to construct a large solar panel in a certain area In addition to the high installation cost, there is a problem that the economic efficiency is significantly lowered as the time and cost required for the operation and maintenance of each drive device after construction.

The present invention is to solve the above problems, while tracking the movement of the sun moving in the east from sunrise to sunset, and at the same time can easily adjust the angle of the solar panel according to the altitude change of the solar photovoltaic power generation Not only can the efficiency be greatly improved, but also the structure can be greatly simplified and manufactured at low cost, so that it can be easily installed not only on the flat ground but also on the inclined ground, and by using wire It is a technical task to further promote the commercialization of photovoltaic power generation by making it possible to drive the rotational axis of the integrated circuit, which can drastically reduce the time and cost for construction, maintenance and operation of large-scale solar panels. do.

The present invention for achieving the above technical problem is a plurality of fixed support arranged in a row at regular intervals in the north-south direction is fixed perpendicular to the ground to form a plurality of rows in the east-west direction, the upper end of the fixed support is supported by a rotating shaft Each of the fixing supports is installed, and the rotating shafts extending in the north-south direction are inserted in parallel with the ground between the rotating shaft support portions of the fixing supports arranged in a row in the north-south direction. A plurality of solar panel mounting frames each comprising an upper and a lower horizontal member positioned at a lower side and a vertical member positioned at left and right sides of the rotating shaft are inserted and installed, respectively. Between the bracket and the bracket Frame fixing members for fixing the solar panel mounting frame to be inclined to the south by a pair of fastening members fastened to each other is fixedly installed, one end of the rotary shaft is coupled to the outer surface of the rotary shaft by a fastening member at the top Coupling parts are formed and connecting rods are hingedly coupled to each other so that the wire coupler is pivotally rotatable in the east-west direction. A pair of wire supports provided with rollers are fixedly installed on the ground vertically, and between the wire support rollers provided on the wire supports, a rotating shaft driving wire coupled to the wire coupling hole of the connecting rod is wound therebetween. On one side of the wire support, the rotary shaft driving wire on the outer peripheral surface It is characterized in that the wire winding drum, which is wound at both ends of the fish in opposite directions, is rotatably installed by the drum driving motor.

Integrated driving type solar tracking device for photovoltaic power generation according to the present invention configured as described above tracks the movement of the sun moving from east to west at sunrise and at the same time according to the altitude change of the solar panel according to the season The angle can be easily adjusted to drastically improve the photovoltaic power generation efficiency, and the construction can be made at a low cost by greatly simplifying the construction, so that it can be easily installed not only on the flat ground but also on the inclined ground. In addition, by using wires to drive multiple rotating shafts integrally, it is possible to drastically reduce the time and cost required for the construction, maintenance and operation of large-scale solar panels. There is an effect that can be further promoted.

1 is a perspective view showing an integrated driving solar tracking device according to the present invention.
Figure 2 is a perspective view showing a coupled state of the solar panel mounting frame provided in the integrated drive type solar tracking device according to the present invention.
3 is a cross-sectional view taken along the line AA of FIG.
Figure 4 is a perspective view showing a coupling state of the connecting rod provided in the integrated drive type solar tracking device according to the present invention.
Figure 5a is a perspective view showing the installation state of the wire winding drum and the drum driving motor provided in the integrated drive type solar tracking device according to the present invention.
Figure 5b (a) (b) is an explanatory view showing the operation of the wire winding drum provided in the integrated drive-type solar tracking device according to the present invention.
Figure 6 is an explanatory diagram showing a sun tracking process of the integrated drive type solar tracking device according to the present invention.
Figure 7 is an explanatory view showing the solar angle adjustment process of the integrated drive type solar tracking device according to the present invention.
8 is an explanatory diagram showing a process of adjusting the inclination angle of the integrated driving type solar tracking device according to the present invention.
9 is an explanatory diagram showing a state in which the integrated driving solar tracking device according to the present invention is installed on a slope.

Hereinafter, the present invention will be described in detail with reference to FIGS. 1 to 9 to achieve the above object.

Integrated drive type solar tracking device for photovoltaic power generation according to the present invention, as shown in Figure 1 so that a plurality of fixed supports (2) arranged in a row at regular intervals in the north-south direction to form a plurality of rows in the east-west direction It is vertically fixed to the ground, each fixed support 2 is formed at the same height so that the rotary shaft 9 is installed at the upper end of the fixed support 2 to be horizontal to the ground.

At the upper end of the fixed support (2), as shown in Figure 2 is provided with a rotating shaft support 3 for rotatably supporting the rotating shaft (9), each of the rotating shaft support (3) is shown in FIG. As shown therein, a cylindrical bearing 8 for supporting the rotating shaft 9 is inserted therein and is formed in a circular tube shape so as to rotate smoothly.

At this time, the engaging flange (3c) for preventing the bearing (8) inserted into the inside of the rotary shaft support portion 3 to escape to the outside of the rotary shaft support portion 3 protruding from the inner peripheral surface of both ends of the rotary shaft support portion (3) It is desirable to be formed.

The rotary shaft support 3 may be fixedly installed or pivotally installed at the upper end of the fixed support 2, when the rotary shaft support 3 is fixedly installed at the upper end of the fixed support 2 is integrated according to the present invention. Driven solar tracking device (1) can be installed only in a flat surface area, but when installed in a rotational manner can be easily installed in a flat ground area, as well as a sloped area.

When the rotary shaft support 3 is to be pivotally installed on the upper end of the fixed support 2, the rotary shaft support 3 is a hinge that the hinge bolts 4 are fastened to both lower sides as shown in FIG. Coupling portions 3a and 3b are formed to be rotatably coupled to the upper end of the fixed support 2 in the north-south direction, and to the lower side of the hinge coupling portions 3a and 3b formed on the rotary shaft support 3. (4) the inclined angle adjustment hole (5) for adjusting the inclination angle of the rotary shaft support (3) rotated in the north-south direction, respectively, is formed through, the inclination angle adjustment long hole (5) through the fixed support (2) The fixing bolt 6 which is fastened to the fixing nut 7 is inserted.

As such, when the rotary shaft support 3 is pivotally installed at the upper end of the fixed support 2, the inclination angle formed at the hinge coupling portions 3a and 3b of the rotary shaft support 3 as shown in FIG. Loosen the fixing bolt 6 and the fixing nut 7 fastened to penetrate the adjustment hole 5, and the rotating shaft support 3 hinged to the upper end of the fixing support 2 is identified along the inclination angle adjusting hole 5. As it can rotate freely at an angle and then securely fasten the fixing bolt 6 and the fixing nut 7 freely at a desired angle, as shown in FIG. When the integrated driving solar tracking device 1 is to be installed, the angle of the rotary shaft support part hinged to the upper end of the fixed support 2 can be easily adjusted according to the inclination of the ground. .

On the other hand, between the rotary shaft support portion 3 respectively installed on the upper end of the fixed support (2) arranged in a line in the north-south direction of the fixed support as shown in Figure 2 is a rotary shaft (9) extending in the north-south direction It is inserted and installed so as to be horizontal with.

In addition, the rotary shaft 9 inserted into the rotary shaft support 3 of the fixed support 2 is rotatable by a bearing 8 inserted into the rotary shaft support 3 as shown in FIG. 3. Supported.

At this time, as the bearing 8 for supporting the rotating shaft 9, a cylindrical plastic bearing having a shaft insertion hole formed therein is used, which is shown in FIG. It is preferable to be formed to be firmly coupled to the outer surface of the rotation shaft 9 by the coupling bolt (8a) and then divided into a pair of assembling members forming the upper and lower symmetry.

On the outer side of the rotating shaft 9, as shown in FIG. 2, the upper and lower horizontal members 10a and 10b located on the upper and lower sides of the rotating shaft 9 and the left and right sides of the rotating shaft 9 are located. A plurality of solar panel mounting frames 10 made up of vertical members 10c and 10d are respectively inserted and installed. The solar panel mounting frame 10 inserted into the outer side of each rotating shaft 9 is a solar panel mounting frame 10. The upper and lower horizontal members 10a and 10b and the rotating shaft 9 are fixed inclined to the south by the frame fixing members 14 and 15 respectively fixed to the upper and lower horizontal members 10a and 10b.

At this time, the angle of the solar panel mounting frame 10 which is fixed inclined southward by the frame fixing members 14, 15 is 15 to the ground so that the sunlight can be incident at the incident angle close to the vertical during the summer or winter It is desirable to maintain an angle of 30 degrees.

In addition, the frame fixing members 14 and 15 for inclining the solar panel mounting frame 10 inserted into the rotating shaft 9 to the south side inclined to the south side have one end thereof as shown in FIG. 2. It is coupled to the upper and lower horizontal members (10a) (10b) of 10) and the other end is inserted to the outside of the pair of fixing brackets (11a) (11b) and the rotating shaft (9) inserted into the outside of the rotating shaft (9) It consists of a pair of fastening members 13a and 13b fastened to penetrate the other ends of the fixing brackets 11a and 11b, and bolts and nuts are used as the fastening members 13a and 13b.

At this time, it is preferable that the fixing brackets 11a and 11b of the frame fixing members 14 and 15 penetrate a plurality of sun angle adjusting through holes 12 at regular intervals, as shown in FIG. 2. .

As such, when the plurality of solar angle adjusting through-holes 12 are formed through the fixed brackets 11a and 11b of the frame fixing members 14 and 15 at regular intervals, the fixed brackets are illustrated as shown in FIG. 7. The altitude change of the sun according to the season by moving the fastening positions of the pair of fastening members 13a and 13b fastened to penetrate through the 11a and 11b to the plurality of solar angle adjusting through-holes 12 formed at regular intervals. As the angle of the solar panel 20 installed on the upper surface of the solar panel installation frame 10 can be easily adjusted accordingly, the solar light can be incident at a vertical angle of incidence closer to the vertical during summer or winter. The efficiency can be greatly improved.

On the other hand, as shown in Figure 2, one end of the rotating shaft 9 is provided with connecting rods 16 for rotating the rotating shaft 9, each connecting rod 16 is shown in FIG. As described above, the rotating shaft coupling portion 17 is formed at the upper end by the fastening member 17a to be coupled to the outer surface of the rotating shaft 9, and the lower end of the wire coupling hole 18 is rotatably hinged in the east-west direction. .

At this time, the wire coupler 18, which is hinged to the lower end of the connecting rod 16 to be rotatable in the east-west direction, as shown in FIG. 4, a pair of wire fixing bolts 19a formed in a U-shape. It is firmly coupled to the rotating shaft drive wire 24 by the (19b) and the fixing nut (20).

In addition, a pair of wire support rollers 22 and 23 are provided on upper and lower sides of the front and rear sides of the fixed support 2 arranged in a row in the east-west direction of the fixed support as shown in FIG. 1. The wire supports 21a and 21b are fixedly installed on the ground, respectively, and are connected between the wire support rollers 22 and 23 provided on the wire supports 21a and 21b, respectively. The rotary shaft drive wire 24 coupled to the wire coupling sphere 18 is wound.

At this time, one end of the wire support (21a) (21b) as shown in Figure 5a and 5b wire winding drum which is wound both ends of the rotary shaft driving wire 24 in the opposite direction as shown in Figure 5a (5b) 25 is rotatably installed by the drum driving motor 26, and both ends of the rotating shaft driving wire 24 wound in opposite directions on the outer circumferential surface of the wire winding drum 25 are wire winding drums 25. It is firmly fixed to the outer circumferential surface of the by welding.

In addition, the drum driving motor 26 is widely used in a conventional single-axis solar tracking device, and a motor operated by a programmed controller or an optical sensor for tracking the position of the sun is used.

Referring to the operational relationship of the integrated drive-type solar tracking device for photovoltaic power generation according to the present invention configured as described above are as follows.

Integrated drive type solar tracking device for photovoltaic power generation according to the present invention, as shown in Figure 5a and 5b, the drum drive motor 26 by the programmed controller or an optical sensor for detecting the position of the sun The wire winding drum 25 rotates as it is operating. At this time, when the wire winding drum 25 rotates clockwise as shown in (a) of FIG. 5B, one end of the rotating shaft driving wire 24 is rotated. The part is released from the wire winding drum 25 and the other end is wound around the outer circumferential surface of the wire winding drum 25 while the rotating shaft driving wire 24 moves to the left side, and is shown in FIG. 5B (b). As the wire winding drum 25 rotates in a counterclockwise direction, one end of the rotating shaft driving wire 24 is wound around the outer circumferential surface of the wire winding drum 25, and the other end thereof is released from the wire winding drum 25.Front barrel driving wire (24) is moved to the right.

As shown in FIG. 6, when both ends of the rotating shaft driving wire 24 are wound in opposite directions on the outer circumferential surface of the wire winding drum 25 by the rotation of the wire winding drum 25. As the rotating shaft 9 connected by the connecting rod 16 is rotated according to the moving direction of the rotating shaft driving wire 24, the solar panel is installed to be inclined southward to maintain an angle of 15 to 30 degrees with the ground. Since the frame 10 tracks the movement of the sun moving from east to west from sunrise to sunset, sunlight may be incident on the solar panel 30 installed on the upper surface of the solar panel installation frame 10 for a long time under optimum conditions. As a result, the solar power generation efficiency can be greatly improved.

In addition, the integrated driving type solar tracking device for photovoltaic power generation according to the present invention is a frame fixing member for inclining the solar panel mounting frame 10 inserted into the rotating shaft 9 inclined southward as shown in FIG. 14) When a plurality of solar angle adjusting through-holes 12 are formed through the fixed brackets 11a and 11b at regular intervals, a pair of fastenings are fastened to penetrate the fixed brackets 11a and 11b. By moving the fastening positions of the members 13a and 13b to the plurality of solar angle adjusting through holes 12, the solar panel 30 is installed on the upper surface of the solar panel mounting frame 10 according to the change of the altitude of the sun according to the season. As the angle can be easily adjusted, solar light can be incident at an angle of incidence closer to the vertical during the summer or winter seasons, thereby greatly improving the solar power generation efficiency.

In addition, the integrated driving type solar tracking device for solar power generation according to the present invention, when the rotary shaft support 3 is installed in the upper end of the fixed support 2, as shown in Figure 8, the rotary shaft support (3) Loosen the fixing bolt 6 and the fixing nut 7 fastened to penetrate the inclined angle adjusting slot 5 formed in the hinge coupling parts 3a and 3b of the hinge holder at the upper end of the fixing support 2. The rotating shaft support part 3 is rotated at a specific angle along the inclined angle adjusting slot 5, and then the fixing bolt 6 and the fixing nut 7 can be firmly fastened and fixed, so that the ground is flat. Of course, as shown in Figure 9 can be easily installed in the region where the ground is inclined by simply adjusting the angle of the rotary shaft support portion 3 hinged to the upper end of the fixed support (2) according to the inclination of the ground. .

In addition, the integrated driving type solar tracking device for photovoltaic power generation according to the present invention, as shown in FIG. 1, lengthens the rotation shaft 9 rotatably supported by the plurality of fixed supports 2 in the north-south direction. By extending the number of the solar panel mounting frame 10 installed on the outside of the rotating shaft 9 can be freely increased, it is possible to easily construct a plurality of solar panels 30 in a plurality of rows over a large area. Rather, the plurality of rotation shafts 9 on which the plurality of solar panels 30 are mounted may be integrally driven using one rotation shaft driving wire 24 supported by a pair of wire supports 21a and 21b. This will significantly reduce the time and cost required for the construction, maintenance and operation of large solar panels.

Integrated driving type solar tracking device for photovoltaic power generation according to the present invention configured as described above tracks the movement of the sun moving from east to west at sunrise and at the same time changes the altitude of the sun according to the season solar panel (30) The angle of) can be easily adjusted to greatly improve the photovoltaic power generation efficiency, and the construction can be manufactured at a low cost by greatly simplifying the configuration. It is possible to construct and to drive a plurality of rotating shafts 9 by using the rotating shaft drive wire 24, the time and cost required for the construction, maintenance and operation of large-scale solar panel 30 By drastically reducing the cost, it is possible to further promote the commercialization of photovoltaic power generation.

1: solar tracking device 2: fixed support
3: rotating shaft support 3a, 3b: hinge coupling
3c: locking flange 4: hinge bolt
5: long hole for tilt angle adjustment 6: fixing bolt
7: fixing nut 8: bearing
8a: coupling bolt 9: rotation axis
10: frame for solar panel installation 10a, 10b: horizontal member
10c, 10d: vertical member 11a, 11b: fixed bracket
12: through hole for solar angle control 13a, 13b: fastening member
14, 15: frame fixing member 16: connecting rod
17: rotating shaft coupling portion 17a: fastening member
18: wire coupler 19a, 19b: wire fixing bolt
20: fixing nut 21a, 21b: wire support
22, 23: wire support roller 24: wire for rotating shaft drive
25: wire winding drum 26: drum driving motor
30: solar panel

Claims (1)

The plurality of fixing supports (2) arranged in a line at regular intervals in the north-south direction is fixed perpendicular to the ground to form a plurality of rows in the east-west direction,
Rotating shaft support 3 is installed at the upper end of the fixed support 2,
Between the rotary shaft support portion 3 of the fixed support (2) arranged in a line in the north-south direction of the fixed support is inserted into each of the rotating shaft (9) extending in the north-south direction to be horizontal to the ground,
The outer side of the rotating shaft (9) consists of upper and lower horizontal members (10a) (10b) located on the upper and lower sides of the rotating shaft (9) and vertical members (10c) (10d) located on the left and right sides of the rotating shaft (9). A plurality of solar panel installation frame 10 is inserted and installed, respectively
A pair of fixing brackets 11a and 11b and a fixing bracket are disposed between the upper and lower horizontal members 10a and 10b and the rotating shaft 9 of the solar panel mounting frame 10 respectively inserted into the rotating shaft 9. Frame fixing members (14) (15) for fixing the solar panel mounting frame (10) inclined to the south consists of a pair of fastening members (13a) and (13b) fastened to penetrate through (11a) (11b), respectively. ,
One end of the rotating shaft 9 is formed with a rotating shaft coupling portion 17 coupled to an outer surface of the rotating shaft 9 by a fastening member 17a at an upper end thereof, and a wire coupling hole 18 rotates in the east-west direction at the lower end thereof. Each hinged connecting rod 16 is installed,
A pair of wire supports 21a and 21b having wire support rollers 22 and 23 provided on the upper and lower sides of the front and rear sides of the fixed support 2 arranged in a row in the east-west direction among the fixed supports. Fixed to the ground perpendicular to each other,
Between the wire support rollers 22 and 23 provided on the wire supports 21a and 21b, the rotary shaft driving wire 24 coupled to the wire coupling hole 18 of the connecting rod 16 is wound. Become,
On one side of the wire support (21a) (21b), the wire winding drum 25, the both ends of the rotary shaft drive wire 24 is wound in the opposite direction on the outer circumferential surface is rotatable by the drum drive motor 26 Integrated drive solar tracking device for photovoltaic power generation, characterized in that configured to be installed.

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