KR101038391B1 - Standing signboard using sunlight and wire/wireless control method thereof - Google Patents

Abstract

The present invention relates to an interplate plate using sunlight and a wired / wireless control method thereof. In accordance with an aspect of the present invention, a plate using solar light includes: a solar light receiving module generating power by receiving sunlight; A battery unit which receives and charges power generated from the solar reception module and supplies the charged power to the outside; An LED unit including a plurality of LED elements configured to emit light by receiving the power from the battery unit; A communication unit which transmits and receives a signal with an external server device that controls charging / discharging of the battery unit and light emission of the LED unit; To control charging / discharging of the battery unit and light emission of the LED unit according to a command signal received from the external server device, and to transmit a status signal of at least one of the battery unit and the LED unit to the external server device. And a control unit for controlling the communication unit. As a result, power consumption can be minimized, the state of the board can be monitored, various contents can be displayed, and the emergency power supply can be used.

Solar, sign board, LED

Description

Sign board using solar light and wired / wireless control method {STANDING SIGNBOARD USING SUNLIGHT AND WIRE / WIRELESS CONTROL METHOD THEREOF}

The present invention relates to an interplate plate using sunlight and a wired / wireless control method thereof. More specifically, the present invention relates to a base plate using sunlight that can transmit and receive information on the state of the base plate to an external server device, and a wired / wireless control method thereof.

Photovoltaic is attracting attention recently because it is a resource that can be used unlimitedly at no extra cost and also has eco-friendly advantages. In particular, the outdoor advertising signboard among the devices using the sunlight can directly receive the sunlight can reduce the cost more effectively.

1 is a view showing the configuration of a conventional power system using sunlight. As shown in FIG. 1, a conventional power system using sunlight includes a solar light receiving module 1 for receiving sunlight, a battery unit 2, and a controller 3 for controlling the power system as a whole. A circuit breaker (4) and a switchboard (5) for distributing power to the necessary devices. The control unit 3 again adjusts the constant current and the constant voltage, the central processing unit 3a for controlling the charging and discharging of the battery unit 2, and the inverter 3b for converting DC power into AC power and adjusting frequency and phase. ). The controller 3 charges the battery unit 2 and supplies power to each external device through the switchboard 5. Thereby, the device can be operated independently regardless of the external power source.

However, since the conventional power system using solar light cannot monitor the usage status of each external device that is supplied with power, there is a problem that power consumption is inefficient because the amount of power required by each external device is not known.

In particular, in the case of a solar panel using a constant power consumption, regardless of the operation time, and the content displayed on the display unit consisting of the light emitting element is limited to the existing stored content, it operates regardless of the surrounding situation in which the panel is placed It also has its limitations.

Accordingly, an object of the present invention is to provide an interplate plate wired / wireless control system using solar light and a method of controlling the same, which can minimize power consumption by implementing a light emitting device as an LED.

In addition, an object of the present invention is to provide an interplate plate and a wired / wireless control method using solar light that can monitor the state of the interplate plate by communicating with an external server device.

Another object of the present invention is to provide a signboard using solar light and a wire / wireless control method thereof that can display various contents by displaying data received from an external server on a signboard.

Another object of the present invention is to provide an interplate board using solar light and a wired / wireless control method thereof that can be used as an emergency power supply device by providing power stored by converting sunlight into an external electronic device.

The object is a solar receiving module for generating power by receiving sunlight; A battery unit which receives and charges power generated from the solar reception module and supplies the charged power to the outside; An LED unit including a plurality of LED elements configured to emit light by receiving the power from the battery unit; A communication unit which transmits and receives a signal with an external server device that controls charging / discharging of the battery unit and light emission of the LED unit; To control charging / discharging of the battery unit and light emission of the LED unit according to a command signal received from the external server device, and to transmit a status signal of at least one of the battery unit and the LED unit to the external server device. It is achieved by the board using sunlight, characterized in that it comprises a control unit for controlling the communication unit.

The communication unit may further receive data from the external server device, and the controller may control the LED unit to display the received data on the LED unit.

The communication unit may receive the signal or the data from the external server device in a wireless communication method including a Bluetooth or infrared method.

The battery unit or the LED unit may further include a storage unit for storing the state information and the received data.

The apparatus may further include an angle adjusting device for adjusting an arrangement angle of the solar receiver module according to the angle at which the sunlight is incident.

The battery unit may further include an interface unit for supplying the power to an external electronic device.

It may further include a waterproof panel for protecting the components inside the interplate.

On the other hand, a storage step of receiving sunlight and converting it into power and storing the converted power in the battery unit; A receiving step of receiving a command signal from an external server device; A control step of controlling the charging / discharging of the battery unit and the emission of the LED unit which receives the power from the battery unit and emits light according to the received command signal; The above object is also achieved by the wired / wireless control method of the base plate using sunlight, characterized in that it comprises a transmitting step of transmitting the status signal of at least one of the battery unit and the LED unit to the external server device.

The receiving step may further include a display step of further receiving data from the external server device, and displaying the received data on the LED unit.

The receiving step may receive the signal or the data from the external server device by a wireless communication method including a Bluetooth or infrared method.

The method may further include an information storing step of storing state information and the received data of the battery unit and the LED unit.

The method may further include an angle adjusting step of adjusting an arrangement angle of the solar light receiving module receiving the sun light according to the angle at which the sun light is incident.

According to the interlayer plate and the wired / wireless control method using sunlight according to the present invention, it is possible to minimize the power consumption by implementing a light emitting device as an LED.

In addition, according to the solar panel and the wired and wireless control method using the solar according to the present invention, it is possible to monitor the state of the billboard control system by communicating with an external server.

In addition, according to the solar cell board and the wired / wireless control method according to the present invention, various contents can be displayed by displaying data received from an external server on the bulletin board.

In addition, according to the interlayer plate and the wired / wireless control method using the sunlight according to the present invention can be used as an emergency power supply device by providing the electric power stored by converting sunlight to an external electronic device.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the interplate plate wired and wireless control system and the control method using the solar according to the present invention.

Figure 2 is a block diagram showing the configuration of the plate holding plate using sunlight according to the present invention. As shown in FIG. 2, the plate 100 using sunlight according to the present invention includes a solar receiver module 10, a battery unit 20, an LED unit 30, a communication unit 40, and a controller. And 50.

The solar receiver module 10 receives sunlight. The solar receiver module 10 according to the present invention converts solar energy into electrical energy to generate predetermined power required for driving the LED unit 30 and the communication unit 40.

The battery unit 20 stores power received from the solar light receiving module 10 and supplies it to the LED unit 30 and the communication unit 40. The battery unit 20 according to the present invention may be implemented as a storage battery and is a rechargeable secondary battery. Thus, since the battery unit 20 according to the present invention can receive power from the solar receiving module 10, the intervening plate 100 can operate independently of the external power source.

On the other hand, although not shown in the drawing, the plate 100 using sunlight according to the present invention further includes a battery charging unit for charging the power supplied from the solar receiving module 10 to the battery unit 20.

The LED unit 30 receives power from the battery unit 20 and emits light. The LED (Light Emitting Diode) is environmentally friendly because it can obtain high illuminance even with low power and has a long lifetime, and is very efficient when used with the solar receiving module 10. The LED unit 30 according to the present invention may be implemented as a UVLED (UltraViolet Light Emitting Diode) that emits a wavelength that is harmless to plants and animals among the LEDs.

LED unit 30 according to the present invention is a plurality of LED elements are arranged, it is possible to represent text and image data in a variety of ways.

The communication unit 40 transmits and receives a signal with an external server device 300. In addition to the wired communication method, the communication unit 40 according to the present invention may perform communication by using a wireless communication method such as Bluetooth, infrared, Wireless LAN, and Zigbee. This has the advantage of freely transmitting and receiving signals and data regardless of the distance from the interplate 100.

Here, the external server device 300 controls the charge / discharge of the battery unit 20 and the light emission of the LED unit 30. In addition, since the external server apparatus 300 may receive a status signal for the sign board 100, the status of the sign board 100 may be monitored, and the data to be displayed on the LED unit 30 of the sign board 100 may be received. 100 can be transmitted. External server device 300 according to the present invention can be any device that can transmit and receive data, such as mobile phones, PDAs (Personal Digital Assistants). Detailed description of the external server device 300 will be described later.

The controller 50 controls the light emission of the LED unit 30 and the charge / discharge of the battery unit 20 according to the command signal received from the external server device 300, and the battery unit 20 and the LED unit 30. The communication unit 40 is controlled to transmit at least one of the status signals to the external server device 300. The controller 50 according to the present invention may be implemented as a central processing unit which is a main processor.

Here, the command signal is not only a command for the operation of the battery unit 20 and the LED unit 30, but also the contents of data displayed on the LED unit 30 and an external electronic device through the interface unit 90 to be described later ( And a command signal for whether or not to power 400. In this way, it is possible to remotely control the signboard 100 from the outside.

The state of the battery unit 20 includes information about the life and remaining amount of the battery unit 20, and the state of the LED unit 30 is displayed on the life of the LED unit 30 and the LED unit 30. Data information and the like. To this end, the interplate 100 according to the present invention may be provided with various types of sensors.

In detail, the control unit 50 detects the life or remaining amount of the battery unit 20 and transmits the same to the external server device 300. The manager may determine that the life of the battery unit 20 is short, so it is easy to know whether the replacement is necessary. And if the remaining amount of the battery unit 20 in the night is not much left, it may take measures such as temporarily stopping the operation.

In addition, the controller 50 continuously detects the life of the LED unit 30 and transmits the same to the external server device 300. Similarly, the administrator can easily determine whether the LED unit 30 needs to be replaced. In addition, when the manager receives the data displayed on the LED unit 30 and determines that the display of more important data is necessary, the manager may display the desired data by transmitting the data from the external server device 300 to the publication board 100. . In this way, the manager can monitor the status of the signboard 100 so that the administrator can receive appropriate status by receiving the status signal of the signboard 100 and simultaneously transmit advertisement information.

Of course, the controller 50 may transmit not only the state of the battery unit 20 or the LED unit 30 but also a state signal of another configuration such as the solar receiver module 10.

The controller 50 according to the present invention controls the constant current and the constant voltage, and controls the charging and discharging of the battery unit 20. In addition, the controller 50 according to the present invention may also protect the overcharge and overdischarge of the battery unit 20 by limiting the flow of the DC current, and performs various functions such as sensing the current flowing in reverse and preventing it. can do.

In order to calculate the power consumption of the intervening plate 100 according to the present invention, the battery unit 20 is a standard of 12V-100Ah, and there are 10 LED elements provided in the LED unit 10, Assuming 10 hours of use, the total daily load is 12 * 6.67 * 10 = 800Ah.

Meanwhile, the plate 100 using sunlight according to the present invention may further include a storage unit 60. The storage unit 60 according to the present invention may store state information of the battery unit 20 or the LED unit 30 and data displayed on the LED unit 30. That is, information received or transmitted from an external server device 300 may be stored.

In addition, the storage unit 60 may also store environmental information necessary for the interrogation board 100 to optimally operate, such as information of a server device located at the closest distance among the external server devices 300. Of course, such environmental information can also be transmitted to an external server device 300.

The storage unit 60 according to the present invention is preferably implemented as a volatile memory, and may be combined and separated as necessary by a USB interface provided on an external side of the intervening plate 100.

3 is a perspective view showing the plate 100 using sunlight according to an embodiment of the present invention. As shown in FIG. 3, the plate 100 according to the embodiment of the present invention may include an angle adjusting device 70 and a support 80.

The angle adjusting device 70 adjusts the placement angle of the solar receiving module 10 according to the angle at which the sunlight is incident. As shown in FIG. 3, the angle adjusting device 70 according to the present invention is preferably provided in the form of a column connecting the lower one side of the solar receiver module 10 and the upper one side of the trunk plate 100. The angle adjusting device 70 is separated into a fixed part 70a and a moving part 70b. Although not shown in the drawing, the angle adjusting device 70 is provided with a driving part for driving the moving part 70b up and down. As the moving unit 70b moves according to the driving, the angle of the solar receiving module 10 is adjusted.

The angle adjusting device 70 according to the present invention operates under the control of the controller 50 and may adjust the angle of the solar receiving module 10 according to a condition such as temperature or illuminance detected by the sensor. Specifically, when the temperature of the plate 100 is high, by adjusting the angle of the solar receiving module 10 to lower the amount of light received from the sunlight can be lowered the temperature, if the illumination is high to increase the incident amount of sunlight In order to adjust the angle of the solar receiving module 10 to a higher. Thereby, sunlight can be made to inject more efficiently. Of course, the controller 50 may adjust the degree of emission of the LED unit 30 according to the sensed temperature or illuminance.

The support unit 80 supports the interplate plate 100 using sunlight according to the present invention. Support 80 according to the present invention may be implemented as a caster (Caster) that can be freely changed the anchor or direction to securely fixed to the ground. This allows the installation of the signboard 100 in any place, regardless of the location and is easy to move.

And the plate 100 according to the present invention may further include a SUS waterproof panel (S). This ensures safe protection of internal components regardless of external weather conditions.

4 is a block diagram showing the configuration of the interplate 200 using sunlight according to another embodiment of the present invention. As shown in FIG. 4, the interplate 200 according to another embodiment of the present invention further includes an interface unit 90.

The interface unit 90 is connected to the external electronic device 400 to supply power charged in the battery unit 20 to the external electronic device 400 under the control of the controller 50. Thus, the plate 200 using the solar light according to the present invention can be used as an independent power supply device as an industrial emergency power supply or leisure power kit.

Figure 5 is a block diagram showing the configuration of an external server device 300 for controlling the entry plate using sunlight according to the present invention. As shown in FIG. 5, the external server device 300 includes a database 310, a data server 320, a web server 330, an SMS / TCP server 340, and a schedule server 350. And a communication unit 360.

The database 310 stores status information about the signboard 100 and command information and data to be transmitted to the signboard 100. The database 310 according to the present invention receives a command such as a query from the user terminal T and inputs and outputs necessary data.

The data server 320 provides necessary data among the data stored in the database 310 to the interrogation board 100 through the communication unit 360.

The web server 330 stores files necessary for the operation of the website and provides a state in which an administrator or an external user can check the state of the signboard 100 through a web browser and input a command.

The SMS / TCP server 340 provides the data to be displayed on the LED unit 30 of the board 100 to the board 100 by SMS (Short Message Service), and the board 100 by the TCP / IP interface. Communicate with When the user transmits the short message to the designated number using a mobile phone, the SMS / TCP server 340 receives the short message and transmits the short data to the publication board 100 disposed in the region where the user is located or the region desired by the user. Can be.

The schedule server 350 stores the operation of the sign board 100 for each time, and transmits the operation to the sign board 100. As a result, the administrator may input the hourly operation of the publication 100 and then periodically perform the regular operation.

The communication unit 360 communicates with the publication board 100 or the user terminal T. The communication unit 360 included in the server device 300 may be formed by a wireless communication method as well as a wired communication method as in the communication unit 40 included in the publication plate 100.

Hereinafter, a wired / wireless control method of the interlayer plates 100 and 200 using sunlight according to the present invention will be described with reference to FIG. 6.

First, the solar light receiving module 10 receives sunlight and converts it into electric power, and stores the converted power in the battery unit 20 (S10). Next, a command signal is received from an external server device 300 (S20). The reception step S20 may further include a display step of receiving data from an external server device 300 and displaying the received data on the LED unit 30.

In the reception step S20, it is preferable to transmit and receive a signal or data by using a wireless communication method such as Bluetooth, infrared, wireless LAN, and Zigbee. This enables remote control of the interplate 100 at a long distance.

Then, the charging / discharging of the battery unit 20 and the light emission of the LED unit 30 are controlled according to the command signal received in step S20 (S30). Herein, the light emission of the LED unit 30 may include not only the operation of the LED unit 30, but also the brightness of the LED unit 30 and contents of data displayed on the LED unit 30.

Finally, at least one state signal of the battery unit 20 and the LED unit 30 is transmitted to the external server device 300 (S40). Here, the transmitting step of step S40 may be performed before step S20 or step S30 independently of receiving a command signal from an external server device 300.

Here, the wired / wireless control method of the board using the sunlight according to the present invention further includes an information storing step of storing the state information of the battery unit 20 and the LED unit 30 and the data received from the external server device 300. can do. As a result, it is possible to store the environmental information necessary for the interposer plate 100 to operate optimally.

In addition, the wired / wireless control method of the interlayer plate using sunlight according to the present invention may further include an angle adjusting step of adjusting the arrangement angle of the solar receiving module 10 for receiving sunlight according to the angle at which the sunlight is incident. . Thereby, sunlight can be made to inject more efficiently.

As mentioned above, the present invention has been described in detail through preferred embodiments, but the present invention is not limited thereto and may be variously implemented within the scope of the claims.

1 is a view showing the configuration of a conventional power system using sunlight,

Figure 2 is a block diagram showing the configuration of the plate using sunlight according to an embodiment of the present invention,

3 is a perspective view showing a plate using solar light according to the present invention,

Figure 4 is a block diagram showing the configuration of the plate holding plate using sunlight according to another embodiment of the present invention,

5 is a view showing the configuration of a server device used for the control of the interplate plate using sunlight according to the present invention,

6 is a flowchart illustrating a wired / wireless control method of an interplate plate using sunlight according to the present invention.

* Description of the symbols for the main parts of the drawings *

10: solar receiving module 20: battery unit

30: LED part 40, 360: communication part

50: control unit 60: storage unit

70: angle adjusting device 70a: fixed part

70b: moving part 80: support part

90: interface unit 100, 200: sign board

300: server device 310: database

320: data server 330: web server

340: SMS / TCP server 350: Schedule server

400: electronic device S10: storage step

S20: Receive step S30: Control step

S40: Transmission step

Claims (12)

Solar receiving module 10 for generating sunlight by receiving sunlight; A battery unit 20 which receives and charges the power generated from the solar receiver module 10 and supplies the charged power to the outside; An LED unit 30 including a plurality of LED elements that receive the power from the battery unit 20 and emit light; A communication unit 40 for transmitting and receiving a signal to and from an external server device 300 that controls charging / discharging of the battery unit 20 and light emission of the LED unit 30; Controls charging / discharging of the battery unit 20 and light emission of the LED unit 30 according to a command signal received from the external server device 300, and controls the battery unit 20 and the LED unit 30. Control unit (50) for controlling the communication unit (40) to transmit at least one of the status signals to the external server device (300); And an angle adjusting device (70) for adjusting an arrangement angle of the solar receiving module (10) according to the angle at which the sunlight is incident. The method of claim 1, The communication unit 40 further receives data from the external server device 300, The control unit 50 controls the LED unit 30 to display the received data on the LED unit 30, the signboard using sunlight. The method according to claim 1 or 2, The communication unit 40 is a signboard using sunlight, characterized in that for performing a wireless communication with the external server device 300 by a wireless communication method including a Bluetooth (Bluetooth) or an infrared method. The method of claim 3, And a storage unit (60) for storing the state information and the received data of the battery unit (20) or the LED unit (30). delete The method of claim 1, The battery unit 20 is an input plate using solar light, characterized in that further comprises an interface unit 90 for supplying the power to an external electronic device (400). The method of claim 1, The panel using solar light, characterized in that it further comprises a waterproof panel (S) for protecting the components inside the panel. A storage step of receiving sunlight, converting the power into power, and storing the converted power in the battery unit 20 (S10); A receiving step of receiving a command signal from an external server device 300 (S20); A control step of controlling the charging / discharging of the battery unit 20 and the emission of the LED unit 30 which receives the power from the battery unit 20 and emits light according to the received command signal; And A transmission step of transmitting a status signal of at least one of the battery unit and the LED unit to the external server apparatus; Wire and wireless control method of the base plate using sunlight, characterized in that it further comprises an angle adjusting step of adjusting the placement angle of the solar light receiving module 10 for receiving sunlight according to the angle of sunlight incident. The method of claim 8, The receiving step (S20) further receives data from the external server device 300, Wire and wireless control method of the base plate using sunlight, characterized in that it further comprises a display step of displaying the received data on the LED unit (30). delete The method of claim 8, The receiving step (S20) further comprises a data storage step of storing the state information and the received data of the battery unit 20 and the LED unit 30, the wired / wireless control method of the interlayer plate using sunlight. . delete

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