KR101278184B1 - The Track Style Sunlight Production Of Electric Power System - Google Patents

Abstract

The present invention, the support having a seating groove 14 on the top, fixed to the ground 10; It is equipped with a rotary shaft 23 on the bottom, the mounting shaft 20 is mounted on the mounting groove 14 of the support 10, the mounting table 20 is installed on the solar panel 70 on the upper surface; Installed on the left and right sides of the support (10) and the mounting table 20 via a hinge, at least one or more of the operation control by the operation signal includes a lifting unit 30 for raising and lowering the mounting table 20, east-west direction It is possible to automatically follow the sun is moved to increase the light collecting efficiency of the solar panel, it is possible to prevent the damage of the solar panel is blown away from the strong wind.

Description

The Track Style Sunlight Production Of Electric Power System

The present invention relates to a trackable photovoltaic tracker device, which will be described in more detail, which can automatically follow the sun to increase the light collecting efficiency of the solar panel and prevent the solar panel from flying and being damaged from strong winds. The present invention relates to a tracked photovoltaic tracker device.

In general, photovoltaic power generation is distinguished from solar thermal technology that uses radiant heat energy transmitted from the sun, and power generation using solar power uses infinite clean energy, which requires no additional energy or driving source, simple construction, and limited installation due to environmental problems. There is an advantage that is not affected.

However, the photovoltaic power generation is dependent on the amount of sunshine time, a large number of photovoltaic modules are required to obtain a large power, there is a disadvantage that is expensive compared to commercial power.

In the case of photovoltaic power generation, in order to maximize power generation efficiency, a solar tracking type apparatus which tracks the position of the sun through power or device manipulation so that the direct sunlight of the sun always enters the front of the photovoltaic module vertically; There is a semi-fixed device in which the vertical position of the photovoltaic module is changed every season or month, and a fixed device in which the position is fixed regardless of the height of sunlight.

Such a photovoltaic device has the advantage of easily and simply condensing solar light to obtain electricity, but the structure is relatively complex, there is a problem that the position is not precisely set, in particular, because the support for strong wind is weak The tracking angle of the sun was difficult to maintain.

In addition, the time that the sun is located in the middle of the solar cell varies depending on the latitude of the region. In the conventional photovoltaic device, an operator manually manipulates the sun to optimally condense the sun between the solar cell and the solar power module. There was an inconvenience to adjust the condition, and research to solve this problem was actively conducted.

The present invention has been made in order to solve the above problems, it is possible to automatically follow the sun to increase the light collection efficiency of the solar panel, so that when the solar panel is located in the midst of the sun through the timer to accurately correspond to the sun The purpose of the present invention is to provide a trackable photovoltaic tracker device that can be irradiated with sufficient amount of light as well as maximize the power generation efficiency.

According to an aspect of the present invention,

A support having a seating groove at the top and fixed to the ground;

It is equipped with a rotating shaft on the bottom, the mounting shaft is mounted on the mounting groove of the support, the mounting plate is installed on the top solar panel;

It is characterized in that it comprises a lifting unit which is installed on the left and right sides of the support and the mounting platform via a hinge and at least one or more operation is controlled by the operation signal to raise and lower the mounting platform.

In addition, a solar sensing sensor for sensing the position of the sun and outputting a detection signal to the control unit is provided on the upper surface of the solar panel.

In addition, the upper surface of the support is provided with a locking device that is disposed adjacent to the seating groove receives the operation signal to fix and release the rotating shaft mounted on the seating groove.

In addition, the locking device is composed of a hook surrounding the outer surface of the rotating shaft, and a solenoid receiving the operation signal from the control unit to draw in and out the hook.

In addition, the timer for outputting a signal to the control unit in accordance with the passage of time set so that the lifting unit operation control by the control unit is further provided.

The present invention having the configuration as described above, it is possible to automatically follow the sun moving in the east-west direction through the solar sensor and the lifting unit to increase the light collecting efficiency of the solar panel.

In addition, by setting the position time in the midnight of the sun according to the latitude on the timer, so that the solar panel is correctly matched when positioned in the midnight of the sun to receive enough light from the sun and maximize power generation efficiency through this. You can.

In addition, by electrically connecting the anemometer installed in the photovoltaic power plant to the control unit of the control panel, even if there is a high-speed strong wind, such as typhoon, the installation stand is automatically controlled to maintain the horizontal state, it is not known that the solar panel is blown off from the strong wind To prevent it.

1 to 3 is a combined perspective view and an exploded perspective view and a right side view of the tracking photovoltaic tracker device according to the present invention.
Figure 4 is a block diagram showing the correlation between each component in the tracked photovoltaic tracker device according to the present invention.
5 is a view showing the operation relationship of the locking device in the tracked photovoltaic tracker device according to the present invention.
6 to 7 is an operational relationship diagram of the tracked photovoltaic tracker device according to the present invention.

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

1 to 3 is a combined perspective view and an exploded perspective view and a right side view of the tracking photovoltaic tracker device according to the present invention, Figure 4 is a correlation between the components in the tracking photovoltaic tracker device according to the present invention Figure 5 is a block diagram showing, Figure 5 is a view showing the operation of the locking device in the tracked photovoltaic tracker device according to the present invention.

The tracking photovoltaic tracker device according to the present invention includes a support 10 fixed to the ground by having a seating groove 14 at an upper end thereof; It is equipped with a rotary shaft 23 on the bottom, the mounting shaft 20 is mounted on the mounting groove 14 of the support 10, the mounting table 20 is installed on the solar panel 70 on the upper surface; The support 10 and the mounting table 20 is installed side by side on the left and right via a hinge and at least one operation control by the operation signal is composed of a plurality of lifting unit 30 to raise and lower the mounting table 20, this 1 to 3 are shown.

In the present embodiment, the support 10 includes a first support member 11; A second support member 12 disposed behind the first support member 11 and formed relatively higher than the first support member 11; And a reinforcing rod 13 connecting the first and second support members 11 and 12 to each other.

In addition, a mounting groove 14 is integrally formed on an upper surface of the first support member 11 and the second support member 12, and a mounting table 20 having a rotating shaft 23 on a bottom surface of the mounting groove 14. Is seated, in particular, the upper surface of the support 10, that is, the locking device 60 is installed and fixed adjacent to the mounting groove 14, the locking device 60 will be described in detail later.

In addition, the hinge 13 is installed on the reinforcing rod 13 to axially fix the clamp 34 that surrounds and fixes the outer surface of the elevating unit 30.

In this embodiment, the support 10 is manufactured in an inclined form, but this is only one embodiment and may be modified in various shapes as necessary.

The mounting table 20 and a pair of vertical bar (21); It consists of a plurality of horizontal bars 22 disposed in the longitudinal direction on the upper surface of the vertical bar 21, the lower surface of the vertical bar 21 is installed to correspond to the rotary shaft 23 mounted on the seating groove 14 On the outer surface of the vertical bar 21, a hinge for fixing the rod 32 of the elevating unit 30 is installed.

In addition, a solar panel 70 for converting light energy into electrical energy is installed and fixed on an upper surface of the mounting table 20.

In the present embodiment, the solar sensing sensor 50 for detecting the position of the sun and outputting a detection signal to the controller 42 is reinforced on the upper surface of the solar panel 70, and the solar sensing sensor 50 is well known. It is a solar tracking sensor.

Thus, by installing the solar sensor 50 on the solar panel 70 as described above, even if the position of the sun changes over time, the solar panel 70 can be accurately followed always power generation efficiency Can maximize.

The plurality of elevating units 30, which are installed side by side on the left and right sides of the support 10 and the mounting table 20 via a hinge, and are operated and controlled by an operation signal to raise and lower the mounting table 20, are known actuators. A main body 31 having a clamp 34 on an outer surface thereof, the main body 31 being axially fixed to the hinge of the reinforcing rod 13; A rod 32 having one end mounted on the inside of the main body 31 so as to be elevated, and having the other end axially fixed to the hinge of the vertical bar 21; It consists of a motor 33 for forcibly raising and lowering the rod 32, as shown in FIG.

The lifting unit 30 is provided with two pairs, respectively, on the left and right with respect to the support 10, and is lifted up and down by the operation signal of the controller 42.

In the present embodiment, the lifting unit 30 is described as an actuator, but this is only one embodiment, and the structure of lifting and lowering like the lifting unit 30, for example, by a hydraulic cylinder, a rack and pinion, and a motor. As long as it is equipped with a lifting function, such as a screw that is rotated forward and backward, it can be modified as much as possible.

The support 10 has a switch unit 41 for controlling the ON / OFF power; The control panel 40 is provided with the control part 42 which operation control by the switch part 41, and the operation control of the motor 33 of the several lifting unit 30 installed in the left and right.

In addition, the support 10 or the control panel 40 is provided with a timer 43 for transmitting an output signal to the control unit 42 so that the lifting unit 30 is operated by the control unit 42 in accordance with the flow of the set time. do.

In more detail, when the timer 43 is described in more detail, in general, the sun is differently located in the median according to the latitude of the region, and the operator sets the time difference according to the latitude to the timer 43. When positioned in the middle of the sun and the solar panel 70 will be able to control to correspond exactly.

The upper surface of the support 10 is disposed adjacent to the seating groove 14 is provided with a plurality of locking devices 60 for receiving and receiving the operation signal to fix and release the rotating shaft 23 mounted on the seating groove 14, The locking device 60 includes a hook 61 surrounding the outer surface of the rotating shaft 23; The solenoid 62 receives the operation signal from the control unit 42 and draws in and pulls out the hook 61.

In the present embodiment, the locking device 60 installed adjacent to the seating groove 14 of the support 10 is fixed to the rotation shaft 23 when the mounting table 20 is disposed in a horizontal state, but at the position of the sun. According to this, when the mounting table 20 needs to be raised and lowered, for example, when the rod 32 of the lifting unit 30 installed on the right side of the support 10 moves up and down, the locking device fixing the right rotating shaft 23 ( The hook 61 of the 60 is drawn by the solenoid 62 to release the fixed state of the right rotating shaft 23 for a predetermined time. At this time, the rod 32 of the right elevating unit 30 is the motor 33. It is controlled by the operation to lift the mounting table 20 in the upward direction, after a predetermined time has elapsed, the solenoid 62 is operated by the operation signal of the control unit 42 so that the hook 61 is restored to its original state. do.

Although not shown in detail, the control unit 42 of the control panel 40 may be electrically connected to an anemometer (not shown) installed in a solar power plant (not shown).

In more detail, when the signal sensed by the anemometer (not shown) is transmitted to the control unit 42, the control unit 42 is left and right to maintain the horizontal state of the mounting table 20 to which the solar panel 70 is attached. When the lifting shaft 30 is placed on the seating groove 14, the rotating shaft 23 is seated in the seating groove 14 while pushing the hook 61 in the direction of the solenoid 62. The hook 61 pushed in the direction of the solenoid 62 is shot by a spring (not shown) installed in the solenoid 62 to wrap and fix the outer surface of the rotating shaft 23. 4 to 5 are shown.

Therefore, even if a high speed strong wind blows like a typhoon, the solar panel 70 may be prevented from being damaged from the strong wind through the above configuration.

Referring to the operation of the present invention made of such a configuration as follows.

As shown in FIG. 1, when the sun rises from the east side (left side) while the mounting table 20 maintains a horizontal state on the upper surface of the support 10, the solar sensor 50 detects this and detects a detection signal. The controller 42 of the control panel 40 is transmitted.

The control unit 42 receiving the detection signal from the solar sensor 50 is a locking device that wraps around the lifting unit 30 and the right rotating shaft 23 of the mounting table 20 disposed on the right side of the support 10. Operation 60 is controlled, and this will be described in detail below.

First, in the locking device 60 which is controlled by the control unit 42, the hook 61 surrounding the right rotating shaft 23 is retracted by the solenoid 62 so that the fixed state is released. As the rod 32 is gradually lifted and lowered by the motor 33 of the 30, the bottom surface of the mounting table 20 is pushed up, and at the same time, the hook 61 that has been retracted backward to the solenoid 62 has a predetermined time. This flow returns to its original state.

As described above, the solar sensor 50 installed in the solar panel 70 in the state in which the sun and the solar panel 70 are aligned to correspond to each other detects and detects the shade caused by the sun light or the sun light. The signal is output to the control unit 42, and the control unit 42 receives the detection signal from the solar sensor 50 and rotates the motor 33 of the lifting unit 30 installed on the right side of the support 10 in reverse. The rod 32, which has pushed the right bottom surface of the mounting table 20, is gradually introduced into the main body 31.

And, as the sun moves along the ecliptic, the mounting table 20 on which the solar panel 70 is disposed is also axially rotated together with the lifting unit 30 on the right side, and when the sun is positioned in the middle, the mounting table 20 ) Is finally arranged in a horizontal state on the upper surface of the support (10).

In particular, when the right rotating shaft 23 of the mounting table 20 is mounted on the right seating groove 14 of the support 10, the rotating shaft 23 pushes the hook 61 in the direction of the solenoid 62 while the seating groove 14 ), The hook 61 pushed in the direction of the solenoid 62 is shot and fixed by a spring (not shown) installed in the solenoid 62 and wrapped around the outer surface of the rotation shaft 23.

In addition, when the sun slowly moves to the west through the median, the operation is performed in the reverse order of the above-described process, and thus, a detailed description thereof will be omitted, as illustrated in FIGS. 6 to 7.

On the other hand, the support 10 or the control panel 40 is provided with a timer 43 for outputting a signal to the control unit 42 in accordance with the passage of time set to operate the lifting unit 30 by the control unit 42. .

In the case of the timer 43, the sun is generally located in the middle of the sun according to the latitude of the region, and the position of the sun in the middle of the sun by setting the time difference according to the latitude in the timer 43 When the solar panel 70 corresponds to the correct amount of light from the sun can be irradiated, thereby maximizing power generation efficiency.

Although not shown in detail, the control unit 42 of the control panel 40 may be electrically connected to an anemometer installed in a photovoltaic power plant (not shown). More specifically, the signal detected by the anemometer is described. When the control unit 42 is delivered to the control unit 42, the control unit 42 controls the lifting unit 30 installed on the left and right to maintain the horizontal state of the mounting table 20 to which the solar panel 70 is attached, and the seating groove 14 When the rotary shaft 23 is mounted on the rotary shaft 23, the rotary shaft 23 is seated in the seating groove 14 while pushing the hook 61 in the direction of the solenoid 62, and the hook 61 pushed in the direction of the solenoid 62 is the solenoid ( It is shot by a spring (not shown) installed in the inside of 62 to surround the outer surface of the rotating shaft 23 to be fixed.

Therefore, even if a high speed strong wind blows like a typhoon, the solar panel 70 may be prevented from being damaged from the strong wind through the above configuration.

In the present exemplary embodiment, the timer 43 and the solar sensor 50 may be applied to each other or simultaneously applied to obtain the optimal light condensing efficiency.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It is natural.

10: support 20: mounting 30: lifting unit
40: control panel 43: timer 50: solar sensor
60: locking device 70: solar panel

Claims (6)

Equipped with a seating groove 14 on the top, the support 10 is fixed to the ground, and the rotary shaft 23 on the bottom, the rotary shaft 23 is mounted on the seating groove 14 of the support 10, Mounting table 20 is installed on the upper surface of the solar cell panel 70, and the support 10 and the mounting brackets 20 are installed on the right and left sides of the hinge through at least one operation signal is controlled by the operating signal 20 In the tracker device consisting of a lifting unit 30 for lifting up and down,
On the upper surface of the support 10, a locking device 60 is disposed to be adjacent to the seating groove 14 and receives an operation signal to fix and release the rotating shaft 23 mounted on the seating groove 14, and is provided with reinforcement.
The locking device 60 is composed of a hook (61) surrounding the outer surface of the rotating shaft 23, and a solenoid (62) for inputting and withdrawing the hook (61) by receiving an operation signal from the control unit (42) Tracking photovoltaic tracker device.
The method of claim 1,
The support 10 has a control unit for controlling the operation of the motor unit 33 of the lifting unit 30, which is operated by the switch unit 41 and the left and right by the switch unit 41 to control the power ON / OFF ( Tracked photovoltaic tracker device, characterized in that the control panel 40 having a reinforcement 42 is provided.
The method of claim 1,
Tracking solar power tracker device, characterized in that the upper surface of the solar panel 70 is provided with a solar sensing sensor 50 for sensing the position of the sun and outputting a detection signal to the control unit 42.
The method of claim 2,
The tracking photovoltaic tracker is further provided with a timer 43 for outputting a signal to the control unit 42 in accordance with the flow of time set to control the lifting unit 30 by the control unit 42. Device.
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