KR101177121B1 - Photocell lamp and method for controlling thereof - Google Patents

Abstract

The present invention relates to a photovoltaic lamp for maximizing the energy consumption efficiency of the lamp while minimizing energy loss due to the light irradiated to the side of the lamp, the case being open at the bottom; A reflection plate mounted horizontally inside the open lower portion of the case and reflecting light; A first lighting unit installed in a lower direction at a center of a lower surface of the reflecting plate and illuminated by a power supply; A first photovoltaic plate disposed on the reflecting plate so as to surround side surfaces of the first lighting unit, and configured to convert light radiated to the side of the first lighting unit into electricity; A second lighting unit installed in a lower direction around a lower surface of the reflecting plate around the first lighting unit and illuminated by power; A second photovoltaic plate disposed on the reflecting plate to surround side surfaces of the second lighting unit, and configured to convert light irradiated to the side of the second lighting unit into electricity; A power supply mounted on an inner surface of the case and connected to the first and second lighting units; A rechargeable battery mounted to an inner surface of the case and storing electricity generated by the first photovoltaic plate and the second photovoltaic plate; A controller mounted on an inner surface of the case and configured to control blinking of the first lighting unit and the second lighting unit with power supplied by the power supply and the rechargeable battery; .

Description

Photocell lighting and its control method {PHOTOCELL LAMP AND METHOD FOR CONTROLLING THEREOF}

The present invention relates to a photovoltaic lamp that illuminates by using a photovoltaic cell, and more particularly, a photovoltaic lamp that minimizes energy loss due to light irradiated to the side of the lamp while maximizing energy consumption efficiency of the lamp and a control method thereof. It is about.

In general, a lamp is a tool that illuminates a user to identify an object even in the dark by converting electrical energy into light energy by supplying power, and thus has been a catalyst for drastic development of human civilization. Although it is used in various forms, for example, the incandescent light bulb, which was developed for the first time, has been prevented from being used even though it can be manufactured inexpensively because more heat is generated than light.

The fluorescent lamp was introduced to improve the above-mentioned disadvantages, which has the advantage of saving energy because the ratio of converting electrical energy to light energy is higher than the light bulb, but it has a long time required for lighting and its life is short. It requires a medium.

LED (Light emitting diode) was developed in response to this, the high light intensity with a small power, and its life is significantly longer than a few years without special repairs for one company, so it is recently attracting much attention as a lighting lamp.

As an example of the conventional LED lighting that is illuminated using the LED as described above, there is an LED lighting used to be embedded in the ceiling, as shown in Figures 8 to 10 will be described as follows.

As shown in the drawing, a conventional LED lighting lamp is a top surface 11 in close contact with the ceiling (8) or the wall surface, and the luminaire portion which is orthogonal to the top surface 11 and the side surface 12 in which the binding groove 121 is formed. (1); A plurality of slit grooves 44 are formed on the outer circumference, and an upper accommodating portion 41 and a lower accommodating portion are formed therein, and the upper case 4 is inserted into and coupled to the side surface 12 of the luminaire 1. Wow; An LED module (3) arranged with a plurality of LEDs (31) disposed in the upper housing portion (41) of the upper case (4);

A protective plate (2) formed on the LED combination (3) and having a lens (21) formed on each of the LEDs (31); A lower case 6 formed with a plurality of slit grooves 61 and fastened to the lower part of the upper case 4; A terminal (7) inserted into the rear end of the lower case (6); It is accommodated in the lower housing portion of the upper case 4, is coupled to and electrically connected to a power supply 51 for receiving and adjusting the power supplied from the terminal 7 and then supplying to each of the LEDs 31 Cooling fan 5; will be configured.

Therefore, the LED lamp of the prior art, which is configured as described above, has a beautiful aesthetics as the upper surface 11 that is in close contact with the ceiling 8 or the wall, and the luminaire 1 that is the side surface 12 that supports the buried light. The upper case (4) and the internal components of the upper part (4) to improve the heat dissipation function by the high ventilation of the slit groove (44) while protecting the protective plate (2), the LED module (3) and the cooling fan (5) housed therein Protection and high breathability of the slit groove 61, the lower case to function as a cooling, the LED module (3) focusing a plurality of LED 31, the light emitted from the LED 31 to collect or distribute at a predetermined angle A protective plate (2) to protect the LED (31) from impact, a terminal (7) to properly accommodate the power supply, a cooling fan (5), and a power supply suitable for each device, while being able to focus to obtain a desired shape of light. It consists of a power supply 51 for supplying and controlling the Will.

However, the above-described conventional techniques have the following problems.

Conventional lighting including the LED is to illuminate the lower side to be illuminated, but in addition to the lower side of the structure of the lighting is irradiated with light to the side, the unnecessary illumination is made, thereby causing unnecessary energy loss There was this.

There is an urgent need for a useful technology for maximizing the energy consumption efficiency of the lamp itself by minimizing such loss of unnecessary energy.

Accordingly, the present invention has been made to solve the conventional problems as described above,

An object of the present invention is to provide a photovoltaic lamp and its control method to maximize the energy consumption efficiency of the lamp while minimizing the energy loss due to light irradiated to the side of the lamp.

In addition, another object of the present invention is to provide a photovoltaic lamp and a control method thereof so that the energy consumption by the lamp is minimized while the lighting is smoothly controlled by controlling the lighting of the lighting unit.

In addition, another object of the present invention is to provide a photovoltaic lamp such that the energy consumption by the illumination is further reduced by configuring the lighting unit as an LED.

In addition, another object of the present invention is to provide a photovoltaic lamp having a cover in the open portion of the case to ensure the light portion of the illumination portion is transmitted smoothly.

In order to achieve the above object, a "photovoltaic lamp" according to the present invention includes a case in which a lower part is opened; A reflection plate mounted horizontally inside the open lower portion of the case and reflecting light; A first lighting unit installed in a lower direction at a center of a lower surface of the reflecting plate and illuminated by a power supply; A first photovoltaic plate disposed on the reflecting plate so as to surround side surfaces of the first lighting unit, and configured to convert light radiated to the side of the first lighting unit into electricity; A second lighting unit installed in a lower direction around a lower surface of the reflecting plate around the first lighting unit and illuminated by power; A second photovoltaic plate disposed on the reflecting plate to surround side surfaces of the second lighting unit, and configured to convert light irradiated to the side of the second lighting unit into electricity; A power supply mounted on an inner surface of the case and connected to the first and second lighting units; A rechargeable battery mounted to an inner surface of the case and storing electricity generated by the first photovoltaic plate and the second photovoltaic plate; A controller mounted on an inner surface of the case and configured to control blinking of the first lighting unit and the second lighting unit with power supplied by the power supply and the rechargeable battery; .

In addition, the control unit of the "photovoltaic lamp" according to the present invention, when the first photovoltaic plate is charged with the rechargeable battery by a first photovoltaic plate with a predetermined capacitance or more, the first lighting unit is turned off to the rechargeable battery. And controlling the lighting of the second lighting unit to be repeated with a charged power source.

Further, the control unit of the "photovoltaic lamp" according to the present invention, when the rechargeable battery is charged by a second photovoltaic plate with a predetermined capacitance or more with the lighting of the second lighting unit, the second lighting unit is turned off to the rechargeable battery. And controlling the lighting of the first lighting unit to be repeated with a charged power source.

In addition, the control unit of the "photovoltaic lamp" according to the present invention, when the first photovoltaic plate is charged with the rechargeable battery by a first photovoltaic plate with a predetermined capacitance or more, the first lighting unit is turned off to the rechargeable battery. While the second lighting unit is turned on by the charged power, when the rechargeable battery is charged by the second photovoltaic panel with a predetermined capacitance or more, the second lighting unit is turned off and the power charged in the rechargeable battery is turned on. It is characterized in that the control to repeat to turn on the first lighting unit.

In addition, the control unit of the "photovoltaic lamp" according to the present invention, when the first photovoltaic plate and the second photovoltaic plate is charged with the first photovoltaic panel and the second photovoltaic panel when the rechargeable battery is charged more than a predetermined capacitance Cut off the power supply by the power supply and it characterized in that the control to repeat to turn on the first lighting unit and the second lighting unit with the power charged in the rechargeable battery.

Further, the first lighting unit of the "photovoltaic lamp" according to the present invention includes a first printed circuit board attached to the reflecting plate, and a plurality of first LEDs provided on the bottom surface of the first printed circuit board. It features.

Further, the second lighting unit of the "photovoltaic lamp" according to the present invention includes a second printed circuit board attached to the reflecting plate, and a plurality of second LEDs provided on the bottom surface of the second printed circuit board. It features.

In addition, the "photovoltaic lamp" according to the present invention is coupled to the bottom of the case so as to cover the open lower portion of the case, the cover is formed of a light-transparent opaque material; And further comprising:

On the other hand, in order to achieve the above object, the "control method of a photovoltaic lamp" according to the present invention is to produce electricity in the first photovoltaic panel with the light irradiated with the lighting of the first lighting unit, the produced electric furnace second The lighting unit is turned on, the second photovoltaic panel produces electricity with light irradiated with the lighting of the second lighting unit, and the generated electricity is controlled to turn on the first lighting unit.

On the other hand, the "photovoltaic lamp control method" according to another embodiment of the present invention in order to achieve the above object is the light irradiated with the lighting of the first lighting unit and the second lighting unit the first photovoltaic plate and the second photovoltaic plate Produces electricity from, and characterized in that to control to turn on the first lighting unit and the second lighting unit with the produced electricity.

The present invention as described above has the effect that the energy loss due to light irradiated to the side of the lamp is minimized, and the energy consumption efficiency of the lamp is maximized.

In addition, the present invention has the effect of minimizing the energy consumption by the lamp while the illumination is smoothly controlled by controlling the lighting of the lighting unit.

Moreover, this invention has the effect that an energy consumption by illumination is further reduced by comprised a lighting part by LED.

In addition, the present invention is provided with a cover in the open portion of the case has an effect that the light is protected while the light is transmitted through the light.

1 is a bottom perspective view of a photovoltaic lamp according to the present invention,
2 is an exploded perspective view of a photovoltaic lamp according to the present invention;
3 is a longitudinal sectional view of a photovoltaic lamp according to the present invention;
4 is a bottom view of a state in which a cover of a photovoltaic lamp according to the present invention is removed;
5 is a main configuration diagram of a photovoltaic lamp according to the present invention;
Figure 6 is a bottom perspective view showing an installation state of the LED luminaire showing a conventional example,
Figure 7 is a side view showing the installation state of the conventional LED luminaire according to Figure 6,
8 is an exploded perspective view of a conventional LED luminaire according to FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be understood, however, that the invention can be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

1 is a bottom perspective view of a photovoltaic lamp according to the present invention, FIG. 2 is an exploded perspective view of a photovoltaic lamp according to the present invention, and FIG. 3 is a longitudinal cross-sectional view of the photocell lamp according to the present invention.

As shown in the drawing, the photovoltaic lamp according to the present invention includes a case 10, a reflecting plate 20 installed on the case 10, a first lighting unit 30 installed on the reflecting plate 20, and the The first photovoltaic plate 40 provided around the first lighting unit 30, the second lighting unit 50 installed on the reflecting plate 20 around the first lighting unit 30, and the second lighting unit A second photovoltaic plate 60 installed around the 50, a power supply 70 installed inside the case 10, a rechargeable battery 80 installed in the case 10, and the case. And a control unit 90 provided at (10).

The case 10 is formed in a cylindrical shape in which the lower part is open, and serves to provide a space in which the various parts are installed.

The reflector 20 is horizontally mounted inside the open lower part of the case 10, and a space on which the components including the first lighting unit 30 and the second lighting unit 50 are mounted is disposed on a lower surface of the case 10. At the same time serving to provide a role to reflect the light emitted from the first illumination unit 30 and the second illumination unit 50 to the lower side.

The first lighting unit 30 is installed in the lower direction at the center of the lower surface of the reflecting plate 20, so that the illumination is made by the supply of power. The first lighting unit 30 that serves as this may be used a variety of light bulbs and electric lights to form an illumination.

As described above, the first lighting unit 30 includes a first printed circuit board 31 attached to the reflective plate 20 and a plurality of first LEDs 32 installed on a lower surface of the first printed circuit board 31. It is preferably configured to include. The first LED 32 has a relatively low power consumption, and when used in the photovoltaic lamp according to the present invention, its energy consumption efficiency can be maximized, and at the same time, its life is also relatively long compared to other lamps, which is very suitable for the present invention. will be. The first LEDs 32 are installed in a state in which a plurality of first LEDs 32 are arranged upright on a lower surface of the first printed circuit board 31 mounted on a central portion of the reflective plate 20.

The first photovoltaic plate 40 is installed on the reflecting plate 20 so as to surround the side surface of the first lighting unit 30, and converts light irradiated toward the side of the first lighting unit 30 into electricity. Do it. The first photovoltaic plate 40 having such a role is provided with a photovoltaic cell called a solar cell in a plate shape, and a plurality of photovoltaic cells are arranged in a circular arrangement.

The second lighting unit 50 is installed downward along the circumference of the lower surface of the reflecting plate 20 around the first lighting unit 30, so that the illumination is made by the supply of power. The second lighting unit 50 that serves as this may be used a variety of light bulbs and electric lights to form an illumination.

As described above, the second lighting unit 50 includes a second printed circuit board 51 attached to the reflecting plate 20 and a plurality of second LEDs 52 provided on the bottom surface of the second printed circuit board 51. It is preferably configured to include. Like the first LED 32, the second LED 52 has a relatively low power consumption, and when used in the photovoltaic lamp according to the present invention, its energy consumption efficiency can be maximized, and at the same time, its life is also applied to other lamps. It is relatively long compared to the present invention and is very suitable for the present invention. Such second LEDs 52 are installed in a plurality of circularly arranged on the lower surface of the second printed circuit board 51 mounted in a circular shape on the circumferential portion of the reflecting plate 20.

The second photovoltaic panel 60 is installed on the reflecting plate 20 so as to surround the side surface of the second lighting unit 50, and converts light irradiated to the side of the second lighting unit 50 into electricity. Do it. The second photovoltaic panel 60 having such a role is provided with a photovoltaic cell called a solar cell in a plate shape, and is installed in a state in which a plurality of photovoltaic panels are arranged in a circular arrangement.

The power supply 70 is mounted on the inner surface of the case 10 and is connected to the first lighting unit 30 and the second lighting unit 50. The power supply 70 is connected to a common commercial power source and the first lighting unit 30. And the second lighting unit 50 are known, and a switching-mode power supply (SMPS) is generally used.

The rechargeable battery 80 is mounted on the inner surface of the case 10, and serves to store electricity generated by the first photovoltaic plate 40 and the second photovoltaic plate 60. The rechargeable battery 80, which plays such a role, is preferably, but is not limited to, a super capacitor having a long lifetime and semi-permanent repetitive charging.

The controller 90 is a circuit board mounted on an inner surface of the case 10 and mounted with a microprocessor and a memory. The controller 90 is a power source supplied by the power supply 70 and the rechargeable battery 80. 30) and serves to control the flashing of the second lighting unit 50.

In addition, the present invention further includes a cover 100 coupled to the lower end of the case 10 so as to cover the open lower portion of the case 10 and formed of a light-transparent opaque material. The cover 100 transmits the light irradiated downward by the first and second lighting units 30 and 50, and the first and second lighting units 30 and 2 provided on the bottom surface of the reflector 20. It covers and protects all the parts including the lighting unit 50.

4 is a bottom view of a state in which a cover of a photovoltaic lamp according to the present invention is removed, and FIG. 5 is a main configuration diagram of the photovoltaic lamp according to the present invention.

As shown in the drawing, the controller 90 lights the first lighting unit 30 together with the first photovoltaic panel 40 when the rechargeable battery 80 is charged by a predetermined capacitance or more. The control unit 30 is turned off and the lighting of the second lighting unit 50 is repeated with the power charged in the rechargeable battery 80. That is, when the controller 90 lights the first lighting unit 30 by connecting the power supplied through the power supply 70 to the first lighting unit 30, the first photovoltaic panel 40 is turned on. Is generated, thereby charging the generated battery 80 with the electricity generated thereby.

In this case, the control unit 90 keeps the first lighting unit 30 continuously lit and then turns off the first lighting unit 30 when the rechargeable battery 80 is charged to a predetermined capacitance or more, and the rechargeable battery 80 The second lighting unit 50 is turned on by the electricity charged in), and the lighting is turned on in a state in which energy consumption efficiency is maximized while sequentially repeating the lighting and charging and turning off and lighting.

In addition, according to another control scheme, the controller 90 may turn on the second lighting unit 50 and the second lighting unit when the rechargeable battery 80 is charged by a predetermined capacitance or more by the second photovoltaic panel 60. The control unit 50 is turned off and the lighting of the first lighting unit 30 is repeated with the power charged in the rechargeable battery 80. That is, when the control unit 90 connects the power supplied through the power supply 70 to the second lighting unit 50 to light the second lighting unit 50, the control unit 90 generates electricity by the second photovoltaic panel 60. Is generated, thereby charging the generated battery 80 with the electricity generated thereby.

In this case, the control unit 90 keeps the second lighting unit 50 continuously lit and then turns off the second lighting unit 50 when the rechargeable battery 80 is charged to a predetermined capacitance or more and the rechargeable battery 80. The first lighting unit 30 is turned on by the electricity charged in), and the lighting is turned on in a state in which energy consumption efficiency is maximized while sequentially repeating the processes of lighting and charging and turning off and lighting.

In addition, in another control method, the controller 90 lights the first lighting unit 30 and the first photovoltaic panel 40 when the rechargeable battery 80 is charged above a predetermined capacitance. While the lighting unit 30 is turned off and the second lighting unit 50 is turned on with the power charged in the rechargeable battery 80, the second photovoltaic panel 60 is turned on with the lighting of the second lighting unit 50. When the rechargeable battery 80 is charged above a predetermined electric capacity, the second lighting unit 50 is turned off and the first lighting unit 30 is repeatedly turned on by the power charged in the rechargeable battery 80.

That is, when the controller 90 lights the first lighting unit 30 by connecting the power supplied through the power supply 70 to the first lighting unit 30, the first photovoltaic panel 40 is turned on. Is generated, thereby charging the generated battery 80 with the electricity generated thereby.

In this case, the control unit 90 keeps the first lighting unit 30 continuously lit and then turns off the first lighting unit 30 when the rechargeable battery 80 is charged to a predetermined capacitance or more, and the rechargeable battery 80 The second lighting unit 50 is turned on by electricity charged in the above, and lighting is performed in a state in which energy consumption efficiency is maximized while sequentially repeating the above lighting and charging and turning off and lighting. When the electricity generated in the second photovoltaic panel 60 is charged by the second lighting unit 50 in the process of being greater than a predetermined capacitance in the rechargeable battery 80, the second lighting unit 50 is turned off and the rechargeable battery is turned off. The first lighting unit 30 is turned on by electricity charged in 80.

Therefore, the electricity charged by the first photovoltaic plate 40 and the second photovoltaic plate 60 through light generated by the lighting of the first lighting unit 30 and the second lighting unit 50 is transferred to the first lighting unit 30. By separately supplying to the lighting unit 30 and the second lighting unit 50 is to maximize the energy consumption efficiency.

In addition, in another control method, the control unit 90 may be turned on by the first photovoltaic plate 40 and the second photovoltaic plate 60 together with the lighting of the first lighting unit 30 and the second lighting unit 50. When the rechargeable battery 80 is charged above a predetermined electric capacity, the power supply by the power supply 70 is cut off, and the first lighting unit 30 and the second lighting unit 50 are disconnected by the power charged in the rechargeable battery 80. Control to repeat the lighting.

That is, the controller 90 connects the power supplied through the power supply 70 to the first lighting unit 30 and the second lighting unit 50 so that the first lighting unit 30 and the second lighting unit 50 are connected. When the lights are turned on at the same time, electricity is generated by the first photovoltaic plate 40 and the second photovoltaic plate 60, and the generated electricity is charged in the rechargeable battery 80.

At this time, the control unit 90 keeps the first lighting unit 30 and the second lighting unit 50 continuously lit, and when the rechargeable battery 80 is charged to a predetermined electric capacity or more from the power supply 70. The power supply is cut off and the first lighting unit 30 and the second lighting unit 50 are turned on by electricity charged in the rechargeable battery 80, and the above lighting, charging and re-lighting processes are sequentially repeated. The lighting is maximized to maximize energy consumption.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is clear that the present invention can be suitably modified and applied in the same manner. Therefore, the above description does not limit the scope of the present invention, which is defined by the limitations of the following claims.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention.

10: Case
20: reflector
30: first lighting unit
31: first printed circuit board 32: first LED
40: first photovoltaic plate
50: second lighting unit
51: second printed circuit board 52: second LED
60: second photovoltaic plate
70: power supply
80: rechargeable battery
90: control unit
100: cover

Claims (10)

A case 10 whose lower part is opened;
A reflection plate 20 mounted horizontally inside the open lower portion of the case 10 and reflecting light;
A first lighting unit 30 installed at the center of the lower surface of the reflecting plate 20 in a downward direction and illuminated by a power supply;
A first photovoltaic plate (40) installed on the reflecting plate (20) so as to surround the side surface of the first lighting unit (30) and converting light irradiated to the side of the first lighting unit (30) into electricity;
A second lighting unit 50 installed in a downward direction around a lower surface of the reflecting plate 20 around the first lighting unit 30 and illuminated by power;
A second photovoltaic plate (60) installed on the reflecting plate (20) so as to surround a side of the second lighting unit (50), and converting light irradiated to the side of the second lighting unit (50) into electricity;
A power supply 70 mounted on an inner surface of the case 10 and connected to the first lighting unit 30 and the second lighting unit 50;
A rechargeable battery (80) mounted on an inner surface of the case (10) and storing electricity generated by the first photovoltaic plate (40) and the second photovoltaic plate (60);
The control unit is mounted on the inner surface of the case 10, and controls the flashing of the first lighting unit 30 and the second lighting unit 50 by the power supplied by the power supply 70 and the rechargeable battery 80 ( 90);
Photovoltaic lamps, characterized in that it comprises.
The method of claim 1,
The control unit 90,
When the rechargeable battery 80 is charged by the first photovoltaic panel 40 with a predetermined capacitance or more, the first lighting unit 30 is turned off and the rechargeable battery 80 is turned on. Photovoltaic lamp, characterized in that to control to repeat the lighting the second lighting unit (50) with a charged power.
The method of claim 1,
The control unit 90,
When the rechargeable battery 80 is charged by the second photovoltaic panel 60 with the lighting of the second lighting unit 50, the second lighting unit 50 is turned off and the rechargeable battery 80 is turned off. Photovoltaic lamp, characterized in that to control to repeat the first lighting unit 30 is turned on by the charged power.
The method of claim 1,
The control unit 90,
When the rechargeable battery 80 is charged by the first photovoltaic panel 40 with a predetermined capacitance or more, the first lighting unit 30 is turned off and the rechargeable battery 80 is turned on. While the second lighting unit 50 is turned on by using a charged power, when the rechargeable battery 80 is charged by the second photovoltaic panel 60 together with the lighting of the second lighting unit 50, the predetermined capacity exceeds the predetermined capacity. A photovoltaic lamp, characterized in that the second lighting unit (50) is turned off and the lighting of the first lighting unit (30) is repeated to be repeated with the power charged in the rechargeable battery (80).
The method of claim 1,
The control unit 90,
When the rechargeable battery 80 is charged above a predetermined capacitance by the first photovoltaic plate 40 and the second photovoltaic plate 60 together with the lighting of the first lighting unit 30 and the second lighting unit 50. Photovoltaic lamp, characterized in that to cut off the power supply by the power supply 70 and to repeat the lighting of the first lighting unit 30 and the second lighting unit 50 with the power charged in the rechargeable battery (80). .
The method of claim 1,
The first lighting unit 30,
A first printed circuit board 31 attached to the reflective plate 20,
A plurality of first LEDs 32 are provided on the lower surface of the first printed circuit board 31,
Photovoltaic lamps, characterized in that it comprises.
The method of claim 1,
The second lighting unit 50,
A second printed circuit board 51 attached to the reflective plate 20;
A plurality of second LEDs 52 are provided on the lower surface of the second printed circuit board 51,
Photovoltaic lamps, characterized in that it comprises.
The method of claim 1,
A cover 100 coupled to a lower end of the case 10 to cover an open lower portion of the case 10 and formed of a light-transparent opaque material;
Photovoltaic lamps, characterized in that it further comprises.
The light is irradiated with the lighting of the first lighting unit to produce electricity in the first photovoltaic panel, and the produced electricity lights the second lighting unit,
And generating electricity in the second photovoltaic panel with light irradiated with the lighting of the second lighting unit, and controlling the generated lighting to turn on the first lighting unit.
Producing electricity in the first photovoltaic panel and the second photovoltaic panel with light irradiated with the lighting of the first lighting unit and the second lighting unit, and controlling the first lighting unit and the second lighting unit to turn on the generated electricity. Control method of a photovoltaic lamp, characterized in that.

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