KR20100104520A - A angle control device controlling at a time for a solar generator - Google Patents

Abstract

PURPOSE: In the integrated tilting device of the solar energy generating apparatus is one place the angle of the solar panel, it at a time controls. The separate tilting device is no need to be established in the solar panel and the installation fee is reduced. CONSTITUTION: The aquatic solar energy generating apparatus comprises the solar panel supporting part table frame and the tilting device(30) floating the solar panel fixture(20) in on water. It is possible to rotate, the horizontal frame(21) is fixed to a plurality of pillars(22). The securing clip(24) is installed in both ends of the solar panel rigid frame(23).

Description

A angle control device controlling at a time for a solar generator}

The present invention relates to an integrated angle control device of the photovoltaic device, and more particularly, it is possible to adjust the whole at once instead of individually adjusting the angle of the individual solar panels of the photovoltaic device, the water flow when installed in the water When the vertical vibration or horizontal vibration caused by the wind or wind to absorb it, and when installed on the ground relates to an integrated angle control device of the solar power generation device that can adjust the angle at a time despite the curved portion of the ground.

In general, a solar battery is a photovoltaic cell that converts solar energy into electrical energy, and its application fields include electric clocks, radios, unmanned light towers, unmanned repeaters, buoy lights, satellites, and rockets. It is used. In addition, solar heating houses, fog warning lights that alert drivers when a fog is on the road, and aviation obstacles installed in structures such as transmission towers are also used as solar cell applications.

The solar cell used in such a field of application is to make a solar panel by connecting the cells (Cell, 1 solar cell) and the cells in parallel and as many times as necessary, and then make the solar panels in parallel and as many times as necessary. Connect to and use.

On the other hand, such solar cells can use the power generated directly during the day when they can receive sunlight, but since the power is not produced at night, the battery is configured and charged to the storage battery during the day to continuously obtain power. Should be used.

In the conventional photovoltaic device, a solar cell panel in which solar cells are connected in parallel in parallel as necessary is fixed at an angle of about 35 degrees toward the south direction. This is to produce the maximum power by making the angle of incidence of the solar light and the solar panel at a right angle in a fixed state.

However, in the case of Korea, the altitude of the sun varies from 12 degrees to 58 degrees in each season, so when the solar panel is fixed, there is a problem that power efficiency is low and efficiency is low in preparation for investment cost.

Therefore, the angle of the solar panel was developed to adjust according to the movement of the sun, but such an angle adjusting device is installed in the individual solar panel is a way to control each solar panel.

However, in general, solar panels are installed in large quantities for several kilometers in order to generate photovoltaic power, and it is difficult to install angle adjusters one by one, and the quantity is too difficult to adjust angle of solar panels manually.

In addition, there was a lot of difficulty in finding a suitable installation place due to lack of land for installing a large number of solar panels.

The present invention has been made to solve the above-described problems, it is possible to adjust the angle of a number of solar panels using a single motor, when the installation of a photovoltaic device in the water can be transmitted flexibly to the movement of the water surface It is an object of the present invention to provide an integrated angle adjusting device of a photovoltaic device that provides a structure to adjust the angle of the solar panel of the photovoltaic device at one time.

And when the present invention is installed on the ground, it is intended to be configured to be able to adjust the angle of the plurality of solar panels installed in one place despite the height of the ground.

The present invention is a horizontal frame is rotatably fixed to a plurality of struts in order to achieve the object as described above, a plurality of solar panels are fixed to the horizontal frame by a fixing means, the rotation axis formed on the outermost horizontal frame end angle adjustment Solar panel fixings connected to the device; The worm is formed to be engaged with the worm gear fixed to the rotating shaft is fixed to the connecting rotary rod, the worm is rotatably fixed to one side of the support, the rotation center axis of the outermost worm is connected to the motor rotating shaft capable of forward and reverse rotation angle adjustment Device; The first circular rod and the second circular rod are connected in a cross-repetitive connection, the worm is connected and fixed to the place where the support is located in the first circular rod and the second circular rod, the insertion end is formed at the end of the first circular rod, the second connected A guide portion is formed at the end of the circular rod is inserted into the insertion end so as to be movable, the connecting rod is a universal joint is formed on one side of the first circular rod and the second circular rod; comprising a plurality of solar panels fixed in line The fixed body is composed of a plurality of columns, the plurality of angle adjusting devices installed at one end of the row is connected to the connecting rod at the same time characterized in that the angle can be adjusted at the same time by the drive of the motor fixed to one side of the connecting rod The solar panel fixing body and the angle adjusting device are fixed to the top surface of the solar panel support buoy frame in a row, and the solar panel support buoy frame in a row It is connected to each other while forming a time column, and is connected rotatably by a connecting bar, and the buoy is fixed to the lower part of the solar panel support buoy frame, and the scaffold buoy frame is connected to the end of the solar panel support buoy frame at which an angle adjusting device is installed. It is fixed to be rotatable, buoy is fixed to the lower part of the scaffold buoy frame, the scaffold is fixed to the upper surface of the scaffold buoy frame is configured to be checked, the angle adjustment at the same time to the movement of the water by the connecting rotary rod and the angle adjusting device It is possible to configure, or the solar panel fixture and the angle adjusting device is fixed to the bottom plate in a row is installed on the ground, a plurality of bottom plates are fixed to the ground at regular intervals in a row, the connecting rotary rod and the angle adjusting device It can be installed at an inclined place because it can be adjusted at one time even by the inclination angle It provides a one-piece angle adjustment of the solar-electric power generator device according to claim.

As described above, the present invention can adjust the angle of the solar panel of the photovoltaic device at once from one place, there is no need to install a separate angle adjustment device on each solar panel has the effect of reducing the installation cost.

And since the angle of all solar panels can be adjusted in one place, it is easy to manage and easy to repair.

Particularly, when the solar cell apparatus is installed in the water, it is necessary to float on the water, so that the up and down, front and rear vibrations are constantly due to the wave, but the integrated angle adjusting device of the solar cell apparatus of the present invention maintains the angle while maintaining the vibration. There is an effect that can be adjusted.

In addition, when installed on the ground because the power is transmitted for the angle adjustment even in uneven place has an effect of widening the installation terrain selection range.

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

The terms or words used in the present specification and claims should not be interpreted as being limited to the ordinary or dictionary meanings, and the inventors may appropriately define the concept of terms in order to best explain the invention of their own. Based on the principle, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

The present invention is configured to be able to adjust the angle of the plurality of solar panels at a time through a single motor without applying an individual angle adjusting device in the photovoltaic device, the means for transmitting the adjustment force is transmitted to the vibration or displacement of the upper and lower It is the main characteristic to be able to configure.

In addition, when the solar panel is installed in the water, it is possible to rotate the parts connected to each other so as to stably float on the check of the angle adjusting device and the surface waves.

1 to 7 shows a water photovoltaic device 10 installed in the water surface, the water photovoltaic device 10 is a solar panel support buoy frame to float the solar panel fixed body 20 on the water ( 80) and the angle adjusting device 30 is included.

The solar panel fixing body 20 has a horizontal frame 21 rotatably fixed to a plurality of struts 22, and a plurality of solar panels 1 are fixed to the horizontal frame 21 by fixing means. The horizontal frame 21 has a bar having a substantially rectangular cross section, and rotating shafts 21-1 are formed at both ends. The rotary shaft 21-1 is rotatably supported by the shaft support 25 where the strut 22 is located.

A plurality of solar panel fixing frames 23, which are fixing means, are fixed to the horizontal frame 21 at regular intervals, and fixing clips 24 are formed at both ends of the solar panel fixing frame 23 to hold the solar panels 1. .

In addition, the rotation shaft 21-1 formed at the end of the outermost horizontal frame 21 is connected to the angle adjusting device 30 to rotate the horizontal frame 21 according to the driving of the angle adjusting device 30. Adjust the angle of).

As shown in the enlarged view of FIG. 4, the angle adjusting device 30 is fixed with a worm gear 70 at the outermost rotation shaft 21-1, and the worm gear 70 is around the shaft fixing portion 71. The gear portion 72 is formed. The shaft fixing portion 71 of the worm gear 70 is fixed to perform the same movement as the rotating shaft 21-1, and the gear portion 72 forms only the angle range in which the solar panel fixing body 20 rotates around the sun. It is preferable. That is, the rotation should not be too much according to the rotation of the worm to make a shape with a large diameter can take the shape of cutting leaving only the rotation section.

A worm 60 is formed to be engaged with the worm gear 70 and is fixed to the connecting rotary rod 50. The worm 60 is rotatably fixed to one side of the support 22.

A pedestal 22-1 is formed on the support 22 to rotatably fix the worm 60 on the pedestal 22-1, and to fix the motor 40 capable of forward and reverse rotation on the pedestal 22-1. Fixes and connects with the worm 60. As the motor 40 is driven, the worm 60 rotates, and the worm 60 rotates the interlocking worm gear 70 to rotate the horizontal frame 21 connected to the worm gear 70.

The central axis of rotation of the outermost worm 60 of the connecting rotary rod 50 is driven in connection with the rotating shaft of the motor 40 capable of forward and reverse rotation, and the worm 60 formed in the middle of the connecting rotary rod 50 is an angle adjusting device ( 30 is fixed to the outermost support 22 is installed can be rotated.

Connection rotary rod 50 is characterized in that configured to absorb the vibration caused by the water waves when installed in the water in a configuration that transmits the driving force by the motor 40 to the worm gear 70. In addition, even when installed on the ground can receive a rotational force for adjustment regardless of the height of the ground.

The connecting rod 50 is connected to the first circular rod 51 and the second circular rod 52 are repeated in a cross, the strut 22 is positioned in the first circular rod 51 and the second circular rod 52 Worm 60 is fixed to the place.

An insertion end 53 is formed at an end of the first circular rod 51, and a guide portion 54 having a hollow in which the insertion end 53 is inserted at an end of the second circular rod 52 to be connected. ) Is formed so that the insertion end 53 is movably inserted. In addition, the guide portion 54 has a guide hole 54-1 communicating with the hollow in a slit shape, and the guide protrusion 53-1 formed at one side of the insertion end 53 is along the guide hole 54-1. Guide as you move.

The universal joint 55 is formed at one side of the first circular rod 51 and the second circular rod 52 so that the rotational force for adjustment may be transmitted even when the connecting rotary rod 50 is not in a straight line. When the vertical joint 55 swings up, down, left, and right, the length of the connecting rod 50 positioned between the posts may be longer than when the straight joint is on the straight line. In this case, the length of the connecting rod and the guide 54 may be increased. Will absorb the difference.

Means for supporting the solar panel fixing body 20 on the water is required to implement such an integrated angle adjustment device in the water.

As shown in FIG. 1, a plurality of solar panel fixing bodies 20 are fixed in a row, and a plurality of solar panel fixing bodies 20 fixed in such a row form a plurality of columns. 80) is fixed and supported.

A column of the angle adjusting device 30 installed at one outer end of the row in which a plurality of solar panel fixing bodies 20 are connected is simultaneously connected to the connecting rotating rod 50 and fixed to one end of the connecting rotating rod 50. By the driving of the motor 40, the angle can be adjusted simultaneously.

The solar panel support buoy frame 80 is formed in a box body with a rectangular frame 81 and a cylindrical buoy 100 is fixed to the bottom thereof, and the solar panel fixing body 20 supporting a plurality of solar panels 1, respectively. Is fixed at the top in a row.

The solar panel fixing body 20 and the angle adjusting device 30 are fixed to an upper surface of the solar panel support buoy frame 80 in a row, and the solar panel support buoy frame 80 in a row is connected to each other while forming a row again. But it is rotatably connected by the connecting bar 120. The connection bar 120 has hinges formed at both ends thereof and is rotatably coupled to one side of the solar panel support buoy frame 80. Therefore, it can move flexibly to the movement of the wave.

The buoy 100 is fixed to the lower portion of the solar panel support buoy frame 80, and the fixing means can be fixed by wire or welding.

In the solar panel support buoy frame 80, the foot plate buoy frame 90 is rotatably fixed to the end portion on which the angle adjusting device 30 is installed, by the connection part 82, and the connection part 82 is hinged to move the wave. You can move up and down accordingly.

The buoy 100 is fixed to the lower portion of the scaffold buoy frame 90, the scaffold 110 is fixed to the upper surface of the scaffold buoy frame 90 to check the angle adjustment device 30 as a person passes.

Thus, by the connection rotary rod 50 and the angle adjusting device 30 is configured to be able to adjust the angle at a time even in the movement of the water surface.

In another embodiment, when installed on the ground, as shown in FIG. 8, the ground photovoltaic device 200 has a long rectangular bottom plate 210 installed in a row, and is described above on the installation bottom plate 210. The solar panel fixing body 20 and the angle adjusting device 30 are installed.

The solar panel fixing body 20 and the angle adjusting device 30 are fixed to the bottom plate 210 in a row and installed on the ground, and the plurality of bottom plates 210 are fixed to the ground at regular intervals in a row. Therefore, by the connection rotary bar 50 and the angle adjusting device 30 is possible to be adjusted at one time even on the ground inclination is configured to be installed on an inclined place.

When installing a photovoltaic device on a hill or other inclined place, it is possible to adjust the angle of the solar panel at a time by the angle adjusting device of the present invention, if the flat surface is installed only without forming the entire surface.

1 is a perspective view showing a water-based photovoltaic device equipped with an integrated angle adjustment device of the photovoltaic device of the present invention.

Figure 2 is an enlarged view of portion A of Figure 1 showing an integrated angle adjusting device of the solar cell apparatus of the present invention.

Figure 3 is an enlarged view of the portion B of Figure 1 showing the integrated angle adjusting device of the photovoltaic device of the present invention.

Figure 4 is a perspective view showing a solar panel fixture of the integrated angle adjustment device of the solar cell apparatus of the present invention.

Figure 5 is a side view showing an integrated angle adjusting device of the photovoltaic device of the present invention.

Figure 6 is a side view showing a state in which the integrated angle adjustment device of the solar cell apparatus of the present invention operates.

Figure 7 is a perspective view showing a state in which the integrated angle adjustment device of the solar cell apparatus of the present invention is installed on the ground.

 BRIEF DESCRIPTION OF THE DRAWINGS FIG.

1: solar panel 10: water photovoltaic device

20: solar panel fixed body 21: horizontal frame

21-1: rotating shaft 22: prop

22-1: pedestal 23: solar panel fixing frame

24: fixed clip 25: shaft support

30: angle adjusting device 40: motor

50: connecting rod 51: first round rod

52: second round rod 53: insertion end

53-1: guide protrusion 54: guide part

54-1: Gide Hole 55: Universal Joint

60: worm 70: worm gear

80: solar panel support buoy frame 81: square frame

82: connection portion 90: scaffold buoy frame

91: plate support frame 100: buoy

110: scaffold 120: connecting bar

200: ground photovoltaic device 210: bottom plate

Claims (3)

The horizontal frame 21 is rotatably fixed to the plurality of struts 22, and the plurality of solar panels 1 are fixed to the horizontal frame 21 by fixing means, and a rotating shaft formed at the end of the outermost horizontal frame 21. 21-1 is a solar panel fixing body 20 connected to the angle adjusting device 30; The worm 60 is formed to be engaged with the worm gear 70 fixed to the rotating shaft 21-1 and fixed to the connecting rotary rod 50, and the worm 60 is rotatably fixed to one side of the support 22. The rotation center axis of the outermost worm 60 is connected to the rotation axis of the motor 40 capable of forward and reverse rotation angle adjustment device 30; Worm 60 where the first circular rod 51 and the second circular rod 52 are cross-repetitively connected, and the support 22 is positioned in the first circular rod 51 and the second circular rod 52. The connection is fixed and the insertion end 53 is formed at the end of the first circular rod 51, the guide portion 54 is formed at the end of the second circular rod 52 is connected to the insertion end 53 It is inserted to be movable, the connecting rod 50, the universal joint 55 is formed on one side of the first circular rod 51 and the second circular rod 52; A plurality of solar panel fixing body 20 is fixed in a row made of a plurality of columns, a plurality of angle adjusting device 30 is installed at one side end of the row is connected to the connecting rotary rod 50 at the same time connected to the rotating rod 50 An integrated angle adjusting device of the photovoltaic device, characterized in that the angle can be adjusted at the same time by the drive of the motor 40 fixed to one end of the. The solar panel support buoy frame (80) of claim 1, wherein the solar panel fixture (20) and the angle adjusting device (30) are fixed to the top surface of the solar panel support buoy frame (80) in a row. It is connected to each other while forming a heat again and connected rotatably by the connection bar 120, buoy 100 is fixed to the lower portion of the solar panel support buoy frame 80, the angle adjustment in the solar panel support buoy frame 80 The scaffold buoy frame 90 is rotatably fixed by the connecting portion 82 at the end where the device 30 is installed, and the buoy 100 is fixed to the lower part of the scaffold buoy frame 90, and the scaffold buoy frame 90 Solar panel is characterized in that the footrest 110 is fixed to the upper surface of the) is configured to be checked, the angle can be adjusted at a time to the movement of the water by the connecting rotary rod 50 and the angle adjusting device (30). Integrated angle adjuster of the device. According to claim 1, wherein the solar panel fixture 20 and the angle adjuster 30 is fixed to the bottom plate 210 in a row is installed on the ground, a plurality of bottom plates 210 in a row at regular intervals It is fixed to the ground, the integrated angle adjustment device of the solar power generation device, characterized in that configured to be installed at an inclined position can be adjusted at one time even by the inclination angle by the connecting rotary rod 50 and the angle adjusting device (30).

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