WO2013047938A1

WO2013047938A1 - Light-emitting panel device and operating method for a solar cell plate

Info

Publication number: WO2013047938A1
Application number: PCT/KR2011/007618
Authority: WO
Inventors: 오세영; 손정삼
Original assignee: 에스오태양에너지주식회사
Priority date: 2011-09-28
Filing date: 2011-10-13
Publication date: 2013-04-04
Also published as: KR101091809B1

Abstract

The present invention relates to a light-emitting panel device of a solar cell plate, which comprises: a main body; a supporting member; and a light-emitting panel which is provided on the supporting member, has a plurality of light-emitting panels coupled through hinges thereon, respectively, is formed folded or open along the frames of the main body, and has a wheel formed on the light-emitting panel to move on a rail of the main body. According to the present invention, a panel portion is arranged above the main body in order to charge with energy even at night or in overcast conditions, and when the light-emitting panel portion is moved upward from a folded state, a cylinder portion, in a cylindrical shape and actuated by an actuating method such as a hydraulic method, is used to operate the device such that the device can be smoothly operated even in conditions in which strong winds blow or the light-emitting panel does not shake or is not damaged in the outside environment.

Description

Light emitting panel device and operation method of solar panel

The present invention relates to a light emitting panel device of a solar panel, and more particularly, at night or in cloudy weather, when sunlight is not irradiated, the light energy can be charged and the light emitting energy can be smoothly while leaving the rails. When the panel is raised or lowered, it can be raised or lowered by using the slide unit to raise or lower the panel. It relates to a light emitting panel device of a solar panel that can be.

In general, a light emitting panel device of a solar panel is used by placing a panel that emits light on a solar panel so as to charge energy even at night or in cloudy weather, such as the applicant's patent registration number 10-1021301. Used to fill.

However, when sliding the panel that can charge energy even at night and cloudy weather as described above and positioned to the upper side of the solar panel, when the wheel of the panel slides without a guide from the upper side of the rail and the wind blows, the wheel is moved from the rail There was a problem that the panel is not properly unfolded due to separation.

In addition, when unfolding a plurality of overlapping panels to be positioned one by one upward, the gears installed in each panel is engaged with each other to move upwards, in a strong windy weather, the gears are shaken and do not mesh properly as the gears move upwards. There was a problem with not moving.

The light emitting panel device of the solar panel of the present invention includes a solar panel absorbing sunlight, a frame in which the solar panel is positioned, a pair of rails positioned at both sides of the upper part of the frame and partially open, and a pair of rails. A main body including a fixed support having a motor connected to the rail to slide the frame in a frame, a support positioned to one side of the frame of the main body, the slide formed and being folded or unfolded, and coupled to the support and slide in contact with the slide A support member composed of a support part moved up and down by a part and an auxiliary motor for driving the support, and a plurality of light emitting panels positioned at the support member, respectively coupled by hinges, to be folded or unfolded along a frame of the main body. Is formed, the wheel is formed in the panel so that the wheel is moved in the rail of the body Generated portion is made light-emitting panel.

The present invention can be placed in the upper portion of the main body to charge the energy even at night or cloudy weather, when moving to the upper side in the folded state of the light emitting panel portion, using a cylinder-type slide portion that operates by an operating method, such as hydraulic pressure By operating the light emitting panel, the light emitting panel is not shaken or damaged even in a strong blowing weather or external environment.

In addition, when the light emitting panel is widely spread on the upper side of the solar panel, a part of the rail on which the light emitting panel slides is opened so that the wheels formed on the rail are not separated from the rail, so that the light emitting panel can move smoothly. An auxiliary electromagnet is formed in the wheel of the light emitting panel so that the position of the auxiliary electromagnet is accurately located, there is an advantage that the light emitting panel is located at the correct point.

In addition, the support member to which the light emitting panel is fixed is formed to be unfolded or folded, thereby minimizing a space occupied when the light emitting panel is not used, thereby having an advantage of excellent space utilization.

In addition, it is a useful invention that can be used to charge energy in the sunlight, as well as the night, the sun does not shine, the energy efficiency is excellent and each component can be easily maintained.

1 and 2 are perspective views showing a light emitting panel device of the solar panel of the present invention.

3 to 5 is a perspective view showing a state of use of the light emitting panel device of the solar panel of the present invention.

* Description of the sign *

10 main body 11: solar panel

12: frame 13: rail

14: motor 15: fixed base

20: support member 21: slide portion

22: support 23: support

24: auxiliary motor 30: light emitting panel

31: light emitting panel 32: wheels

50: light emitting panel device of solar panel

Looking at the configuration of the present invention for achieving the above object is as follows.

First, as shown in FIGS. 1 to 5, the light emitting panel device 50 of the solar panel of the present invention includes a main body 10, a support member 20, and a light emitting panel unit 30.

The main body 10 includes a solar panel 11 that absorbs sunlight, a frame 12 on which the solar panel 11 is positioned, and a pair of open portions positioned at both sides of the upper portion of the frame 12. The rail 15 and a pair of rails 13 are connected to each other, and a fixing member 15 including a motor 14 for sliding the rails 13 on the frame 12 is formed.

In addition, the support member 20 is positioned to one side of the frame 12 of the main body 10 and the support 22 is formed so that the slide portion 21 is formed and folded or unfolded, and is coupled to the support 22. And an auxiliary motor 24 for driving the support part 22 and the support part 23 which is in contact with the slide part 21 and moved up and down by the slide part 21.

In addition, the light emitting panel portion 30 is located in the support member 20 and a plurality of light emitting panels 31 are coupled by a hinge (k), respectively, or folded along the frame 12 of the main body 10 or Is formed to extend, the wheel 32 is formed on the light emitting panel 31 is configured to move the wheel 32 in the rail 13 of the main body 10

In addition, an auxiliary rail 17 on which the auxiliary electromagnet 16 is formed is further included in the rail 13 of the main body 10, and the auxiliary rail 17 is formed on the frame 12 of the main body 10. The slide motor 18 and the rail wheel (k) to operate the () is better to be formed to be included.

In addition, the frame 12 of the main body 10 is preferably such that the slide rail 19 to which the slide motor 18 is fixed is further included.

The support 23 of the support member 20 may further include a support plate 26 having an electromagnet 25 corresponding to the slide 21.

In addition, the main body 10, the support member 20, the light emitting panel portion of any one of the sensor (s) for detecting the intensity of sunlight is preferably formed to be further included.

In addition, the support member 20 may be fixed to the support 22 while being able to lift and lower the support 23 smoothly, so that the lowering device 27 may be formed.

Looking at the operation according to a preferred embodiment of the present invention having the configuration as described above are as follows.

First, a user places a plurality of solar panels 11 on the upper side of the frame 12 and positions the rail 13 partially open on both sides of the upper part.

In addition, the solar panel 11 may use any of those currently used, and the operational relationship and detailed description of the solar panel 11 will be omitted.

Here, when the rail 13 is positioned on the frame 12, the rail 13 is connected to the holder 15 connecting the rails 13 on both sides, and the motor 14 is connected to the holder 15. Secure it.

The holder 15 is positioned below the frame 12 so that the solar panel 11 can smoothly absorb sunlight without being disturbed.

In addition, the slide rails 19 are additionally installed on the frame 12 so that the motor 14 can smoothly move the rail 13 and the holder 15 from the frame 12.

Here, the slide rail 19 may be a motor 14 is installed to allow the motor 14 to move the rail 13 while moving along the slide rail 19, the motor 14 slides It may be operated in a fixed state on the rail 19 to allow the rail 13 to move in the frame 12.

In addition, one side of the rail 13 is initially brought into contact with an end of one side of the frame 12 in which the support member 20 coupled to the frame 12 is located, and the rail 13 is connected to the frame 12. The support member 20 is adjusted to move in the other direction of the frame 12 which is not located along the longitudinal direction.

In addition, the auxiliary rail 17 having the auxiliary electromagnet 16 formed therein is positioned inside the rail 13.

Here, the auxiliary magnet 16 is a position where the wheels 32 formed on the plurality of light emitting panels 31 can be located at a certain point when the light emitting panel 31 is fully extended from the upper side of the solar panel 11. Install it in

In addition, the rail wheel k is formed on the main body 10 so that the auxiliary rail 17 can smoothly rotate the auxiliary rail 17 such as an escalator or a tracked vehicle.

In addition, a slide motor 18 capable of moving the auxiliary rail 17 at any point below the frame 12 is provided.

In addition, the support member 20 and the light emitting panel unit 30 are coupled to one side of the frame 12.

Here, the slide portion 21 to be installed to the outside of the support 22 of the support member 20, the slide portion 21 may be manufactured in the form of a cylinder that is operated in a variety of ways, such as hydraulic pressure, shock It can also be produced in various forms according to the user's choice, such as a showbar.

Thereafter, the support 23 is installed inside the support 22. The support plate 26 corresponding to the slide 21 and the electromagnet 25 formed thereon is installed above the support 23. .

In addition, the light emitting panel unit 30 is coupled to the support unit 23.

The light emitting panel unit 30 emits light in place of sun light and forms wheels 32 on the light emitting panel 31 so that the light emitting panel 31 can move smoothly.

In addition, the light emitting panel 31 is formed into a plurality of pieces to be combined and combined, each of the light emitting panel 31 is hinged (not shown in the drawing) so that the light emitting panel 31 can be folded or unfolded smoothly. Connect it through.

Here, the hinge is a commonly used hinge, detailed description thereof will be omitted.

In addition, the wheel 32 formed on the light emitting panel 31 may be made of a metal material so as to react with the auxiliary electromagnet 16 formed on the rail 13, and after the wheel 32 is made of metal material, While preventing the breakage, the wheel 32 and the auxiliary electromagnet 16 may be formed in various ways depending on the user's purpose, such as can be produced by coating or coating a variety of materials that can correspond to each other.

In addition, the light emitting panel 31 may emit light in place of the sun light and may use a lamp (not shown) that may emit various lights according to the user's purpose, and the lamp may be electrically connected. It is obvious that detailed descriptions will be omitted.

In addition, when the wheel 32 is coupled to the light emitting panel 31, the wheel 32 is obviously coupled by an axis (not illustrated).

In addition, when the light emitting panel 31 is coupled to the support 23 of the support member 20, the light emitting panel 31 is lifted and lowered to the support 23 so that the light emitting panel 31 can be raised and lowered smoothly. To combine, and to connect the light emitting panel 31 to the lifting device 27.

On the other hand, after combining the main body 10, the support member 20, the light emitting panel portion 30 as described above, to operate the light emitting panel device of the solar panel.

Here, when the sunlight shines, the support member 20, the light emitting panel unit 30, and the like do not operate, and the solar panel 11 formed in the main body 10 absorbs the sunlight to store energy, and the sun shines. If it is not at night or cloudy weather, the support member 20 and the light emitting panel unit 30 is to operate.

In addition, the luminous panel device of the solar panel 11 includes a sensor (s) that can measure the intensity of the light, heat, etc. of the sun light so that the solar panel 11 absorbs energy to facilitate the charging, etc. Install it.

Here, the sensor (s) is to use a sensor that is currently commonly used to detect the intensity of the sunlight, heat and the like.

When the sensor s or the like installed on the luminous panel device of the solar panel 11 does not reach a constant value by measuring the intensity of light or the size of heat, the support member 20 is operated.

In detail, the support 22 is unfolded while the support 22 of the support member 20 folded in parallel with the original frame 12 is positioned in the vertical direction with respect to the frame 12.

Here, the support unit 23 is coupled to the support 22, and the light emitting panel unit 30 is coupled to the support unit 23 to be unfolded at the same time.

In addition, the support 22 is positioned in parallel with the frame 11 by the operation of the auxiliary motor 24 formed on one side of the frame 12 to be unfolded in the vertical direction of the frame 12. (S10 )

Then, while the slide unit 21 coupled to the support 22 is operated, the support unit 23 in contact with the slide unit 21 and the light emitting panel unit 30 connected to the support unit 23 are vertically oriented. You will move upward while standing.

Here, the light emitting panel 31 of the light emitting panel part 30 is moved in a state in which a plurality of light emitting panels 31 are folded in one form.

At the same time, when the support member 20 extends in the vertical direction and the support part 23 and the light emitting panel part 30 move upward, the lifting and lowering device 27 coupled to the support part 22 is operated. The lifting and lowering device 27 moves the support part 23 and the light emitting panel part 30 upward.

Here, the lifting and lowering device 27 may use a variety of types, it is generally good to use a device using a method of adjusting the length in the antenna or fishing rod. (S20)

When the support part 23 and the light emitting panel part 30 move upward, the rail 13 formed in the frame 12 moves.

In detail, the first rail 13 is to be in contact with the end of the frame 13 in which the support member 20, which is one side of the frame 12, is positioned or moved at regular intervals in the other direction of the frame 13. .

This is because the support member 20 is rotated so as to be positioned at right angles to the frame 12 and then the support 13 and the light emitting panel 30 are moved upward, and the rail 13 is supported by the end. When protruding in the direction of the support member 20 from the end of the frame 12 where the member 20 is located, because it may hit the light emitting panel 31 moving upward, the end of one side of the frame 12 It is positioned to abut or slightly moved in the opposite direction in which the light emitting panel 31 is located.

As such, the support part 23 and the light emitting panel part 30 of the support member 20 move upwards, so that the wheels 32 of the light emitting panel 31 at the shortest distance from the rail 13 are used as the rails 13. When positioned up to the height of the position, the rail 13 located on the upper side of the frame 12 is moved in one direction of the frame 12 in which the support member 20 is located at the shortest distance from the rail 13. The rail 13 moves in the direction of the supporting member 20 to the place where the wheel 32 of the light emitting panel 31 can be located inside the rail 13.

On the other hand, when the rail 13 is moved, the motor 14 located in the holder 15 for connecting the rail 13 located on both sides of the upper portion of the frame 12 is operated while the holder 15 and the rail 13 To move simultaneously.

In addition, the motor 14 is to slide the rail 13 and the holder 15 while being fixed to the holder 15. (S30)

As such, the support part 23 and the light emitting panel part 30 of the support member 20 move upward, and the wheels 32 of the light emitting panel 31 closest to the rail 13 of the light emitting panel part 30 are moved. ) Is positioned on the rail 13, the plurality of light emitting panels 31 connected by the hinge is opened, covering the entire frame 12, the support 23 is the last light emitting panel 31 Will be lying on the upper side.

In this case, when the light emitting panel portion 30 is extended to the upper side of the solar panel 11, the auxiliary rail 17 formed inside the rail 13 is operated to spread the light emitting panel 31.

In detail, the rail 13 of the main body 10 moves in the direction of the supporting member 20, and the wheels 32 of the light emitting panel 31 are positioned inside the rail 13, and then the rails The auxiliary rail 17 formed inside of the 13 is rotated like a tracked vehicle or an escalator by the operation of the slide motor 18. The auxiliary rail 17 is rotated by the operation of the rail wheel k for rotating the auxiliary rail 17. To rotate.

Here, when the auxiliary rail 17 is rotated, the wheel 32 of the light emitting panel 31 is in contact with the auxiliary electromagnet 16 formed on the auxiliary rail 17 by the magnetic force of the auxiliary electromagnet 16 The light emitting panel 31 is unfolded in accordance with the rotation of the auxiliary rail 17 while the wheels 32 are in close contact.

In addition, an auxiliary electromagnet 16 is formed at any point on the auxiliary rail 17. The auxiliary electromagnet 16 has a plurality of light emitting panels 31 completely unfolded, and then the light emitting panel 31 It is formed and is fixed to a separate rock fixing device (not shown in the figure) and the auxiliary electromagnet in response to the magnetic force of the auxiliary electromagnet 16 is not shaken by an external environment such as wind.

On the other hand, when the rail 13 moves in the direction in which the support member 20 is located or in the opposite direction, the rail 13 moves by the operation of the motor 14, and the motor 14 rotates the rail 13 more smoothly. The slide rail 19 may be formed in the frame 12 and the rail 13 may be moved while the motor 14 moves along the slide rail 19.

As described above, after the light emitting panel unit 30 is spread out to the upper side of the solar panel 11, the light emitting panel 31 is operated to irradiate light to the solar panel 11 to form a sun formed on the frame 12. The panel 11 is to absorb the light while charging the energy (S40).

Here, when the light emitting panel 31 is rotated in the vertical direction and unfolded upward of the solar panel 11, the support member 20 unfolded in the vertical direction and moved upward is returned to its original state.

Then, when the light emitting panel 31 is folded again, the supporting member 20 is moved upward in the vertical direction as described above.

Then, when the sun is shining again, the light-emitting panel 31 that is widely spread is folded in a state of being folded to one side of the frame 12 on which the support member 20 is formed while being folded by the hinge in the reverse order as described above. .

At this time, the support portion 23 is formed with a support plate 26 corresponding to the slide portion 21 and the electromagnet 25 is formed, while the support portion 23 that has been unfolded in the frame 12 is folded in the vertical direction, The slide unit 21 formed on the support 22 must correspond to the support unit 23 so that the slide unit 21 can smoothly return the light emitting panel unit 30 and the support unit 23 to their original state.

This is because the slide portion 21 formed on the support 22 is brought into contact with the support portion 23 in order to descend after the support portion 23 that has been unfolded on the frame 12 is folded in the vertical direction. This is because it is necessary to return to its original state by).

Here, the support part 23 which has been unfolded in the frame 12 is folded, and the slide part 21 of the support part 22 operates to the height at which the support plate 26 of the support part 23 is located, and the support part ( 23) should be fixed to the slide portion 21. When the support portion 23 laid down in the horizontal form is folded in the vertical form, the support portion 23 and the support portion 23 may not exactly contact each other. An electromagnet 25 is formed on the 26 to allow the slide 21 to be raised so as to abut against the electromagnet 25 formed on the support plate 26 of the support 23 so that the slide 21 is positioned at the correct point. It is.

As such, when the slide part 21 rises to the electromagnet 25 formed on the support plate 26 of the support part 23 and reaches the correct point, the support member 20 partially protrudes to one side of the frame 12 on which the support member 20 is formed. The rail 13 is moved by the operation of the motor 14 in the other direction opposite to the direction in which the support member 20 is formed.

In addition, the light emitting panel part 30 may be folded at the same time as the support part 23 is folded in the vertical direction.

Then, the wheels 32 of the light emitting panel 31 located inside the rail 13 are exposed to the outside of the rail 13.

This is to ensure that when the light emitting panel unit 30 returns to its original state, the wheels 32 formed on the light emitting panel 31 do not hit the rails 13, and the light emitting panel 31 can be smoothly returned to its original state. (S50)

After that, the rail 13 moves in the other direction of the frame 12 on which the support member 20 is formed, and then the support part 23 and the light emitting panel part 30 which are upwardly formed are formed on the support 22. The slide unit 21 is moved downward by the operation.

Here, the support 23 and the light emitting panel unit 30 is the support 23 and the light emitting panel unit 30 by the operation of the lifting and lowering device 27 coupled to the support 22 of the support member 20. Will move downward.

In addition, as the lifting and lowering device 27 and the slide unit 21 operate simultaneously, the support unit 23 and the light emitting panel unit 30 are moved upward or downward. (S60)

In addition, the support member 20 and the light emitting panel portion 30 simultaneously move downward, and the first support member 20 and the light emitting panel portion 30 are formed by the auxiliary motor 24 formed on the support member 20. It is to be folded to the lower side of the frame 12 so as to be in a position parallel to the frame 12 is located is to return to the initial state (S70).

Meanwhile, in order to operate the light emitting panel 31, the light emitting panel 31 is activated only when the light intensity or heat intensity emitted from the sun is sensed to be lower than a predetermined value, for which the main body 10 and the support member are operated. 20, the light emitting panel 30 may be used by attaching a sensor (s) that can detect the intensity of light or heat emitted from the sun at any place according to the user's purpose.

As described above, the light emitting panel unit 30 moves in the vertical direction to operate, and then moves upward through the slide unit 21 such as a cylinder, so that the plurality of light emitting panels 31 are weather and wind. Regardless of the external environmental factors such as the rail 13 can be smoothly operated without being shaken or separated.

And, when the light emitting panel portion 30 moves in the vertical direction and unfolds to the upper side of the frame 12, the wheel of the light emitting panel 31 to the inside of the rail 13, a portion formed in the frame 12 is open As the 32 is inserted and moved, it is smoothly moved inside the rail 13 without being affected by an external environment such as strong wind, so that the light emitting panel 31 is not separated from the frame 12, It can be expanded or folded correctly.

Claims

A solar panel 11 absorbing sunlight, a frame 12 on which the solar panel 11 is positioned, a pair of rails 13 positioned at both sides of the upper portion of the frame 12, and partially open; A main body (10) configured with a holder (15) formed with a motor (14) for connecting the pair of rails (13) to slide the rails (13) on the frame (12);

Positioned to one side of the frame 12 of the main body 10 and the support portion 22 is formed so that the slide portion 21 is formed and folded or unfolded, is coupled to the support 22 and in contact with the slide portion 21 A support member (20) comprising a support (23) moved up and down by a slide (21) and an auxiliary motor (24) for driving the support (22);

Located on the support member 20 and a plurality of light emitting panels 31 are each coupled by a hinge (k), is formed to be folded or unfolded along the frame 12 of the main body 10, the light emitting panel 31 The light emitting panel device of the solar panel, characterized in that the wheel 32 is formed on the light emitting panel portion 30 is configured to move the wheel 32 in the rail 13 of the main body (10).
The light emitting panel device of claim 1, wherein an auxiliary rail (17) having an auxiliary electromagnet (16) is further included in the rail (13) of the main body (10).
The light emitting panel device of claim 2, wherein the frame (12) of the main body (10) further comprises a slide motor (18) for operating the auxiliary rail (17).
The light emitting panel device of claim 2, wherein the main body (10) further comprises a rail wheel (k) for driving the auxiliary rail (17).
The light emitting panel device of claim 1, wherein the frame (12) of the main body (10) further comprises a slide rail (19).
The method of claim 1, wherein the support portion 23 of the support member 20 is further provided with a support plate 26 formed with an electromagnet 25 corresponding to the slide portion 21 is formed, the light emission of the solar panel Panel device.
The method of claim 1, wherein the support member 20 is fixed to the support 22, while the support unit 23 can be raised and lowered smoothly, the lowering device 27, characterized in that the lifting device 27 is formed Light emitting panel device.
According to claim 1, wherein the main body 10, the support member 20, the light emitting panel of the solar panel characterized in that it further comprises a sensor (s) for detecting the intensity of sunlight in any one of the light emitting panel portion (30). Panel device.
When the sensor formed on the light emitting panel device detects sunlight and irradiates light with a predetermined intensity or less, the support and the light emitting panel portion positioned parallel to the panel by the operation of the auxiliary motor formed on the supporting member are simultaneously unfolded in the vertical direction. Step S10;

A second step (S20) in which the slide part coupled to the support and the support part move upwards and at the same time the light emitting panel part move upwards;

After moving the light emitting panel portion to the upper side, three steps (S30) in which the rail formed on the frame is moved to the point where the light emitting panel portion is located by the operation of the motor formed on the fixing stand to seat the wheel formed on the light emitting panel portion (S30);

After the wheel of the light emitting panel part is seated on the rail, the slide motor is operated while the auxiliary rail formed inside the rail is operated and the light emitting panel is widened to the upper side of the solar panel while dragging the wheel of the light emitting panel part. Method of operating a light emitting panel device of a solar panel, characterized in that consisting of four steps to irradiate light (S40).
10. The method of claim 9, wherein when the light emitting panel portion moves upward in the second step (S20), a lifting device is formed on the support member to further operate the support unit and the light emitting panel unit by the lifting device. Method of operating a light emitting panel device of a solar panel.
The light emitting panel device of claim 9, wherein when the wheel of the light emitting panel part is seated on the rail in step 3 (S30), the wheel is in close contact with the auxiliary electromagnet formed on the auxiliary rail of the rail. Way.
10. The method according to claim 9, wherein the wheels formed on the respective light emitting panels are brought into close contact with the auxiliary electromagnets installed at any points of the auxiliary rails in the fourth step (S40), and then fully unfolded, and then assisted by a device corresponding to the magnetic force of the auxiliary electromagnet. Method of operating a light emitting panel device of a solar panel, characterized in that the electromagnet, the wheel is completely fixed.
10. The method of claim 9, after the fourth step (S40), the operation is completed, the light emitting panel is folded again by the operation of the rail, the rail of the main body is moved to the other direction in which the support member is formed by the operation of the motor, the light emitting panel 5 steps (S50) that the wheels are spaced apart from the rail, the light emitting panel that was folded to one side is moved to the lower side simultaneously with the support, the support by the operation of the slide unit (S60), the support member moved to the lower side, the light emitting panel part Method of operating a light emitting panel device of a solar panel, characterized in that it further comprises seven steps (S70) to return to the original state by the operation of the auxiliary motor.
The method of claim 13, wherein when the light emitting panel is folded in step 5 (S50), the position of the support and the support is fixed while the slide portion formed on the support and the electromagnet formed on the support of the support correspond to each other. How to operate the light emitting panel device.
The method of claim 13, wherein when the light emitting panel and the support member moves downward in the sixth step (S60), the lifting and lowering device is further formed on the support member to move the support portion and the light emitting panel portion downward. Operation method of light emitting panel device of solar panel.
The method according to any one of claims 9 to 13, wherein in the fourth step (S40) and the fifth step (S50), after the light emitting panel is unfolded to the upper side of the solar panel, the support member is automatically moved to the lower side of the main body and folded After returning to the original state, the operation of the light emitting panel of the solar panel, characterized in that the support member is expanded again when the operation of the light emitting panel is completed, and moves upward to return the completed light emitting panel to the original state.