KR20160047086A - Control system and its device of operation pattern for LED festival lamps for vessels - Google Patents

Abstract

The present invention relates to a system for controlling an operation pattern of an LED festival lamp for a ship and a control device thereof. The system comprises: a master unit (10) configured to emit light by a light emitting pattern of a selected light emitting mode; a plurality of slave units (20) configured to transmit an output signal with respect to a receiving light emitting mode to the outside; a control unit (30) controlled to transmit an output signal with respect to the selected light emitting mode to the outside; and a power line (40) configured to supply operating power to the master unit (10) and the slave units (20). Therefore, the system can replace only the master unit or a slave unit in which a broken light emitting unit is installed.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an operation pattern control system,

The present invention relates to an operation pattern control system such as a LED for a ship and a control apparatus thereof, and more particularly, to an operation pattern control system and a control apparatus thereof for setting a light emission pattern of a light emitting unit and transmitting the set light emission pattern to the outside through an infrared communication system And an output signal transmitted from the master unit, and controls the second light emitting unit to emit light in a light emission pattern set by the master unit, and transmits the output signal received in the surroundings through an infrared communication system so that the other second light emitting units Since the flashing of the light emitting unit is synchronously controlled through the plurality of slave units flashing in the set light emission pattern, it is not required to install the signal line installed for synchronous flashing in the conventional power line communication system, and only the power line for supplying power is installed, Installation and demolition are very easy and convenient, so you can perform quick installation and demolition Behavior pattern control system, such as a marine LED celebrated and to the control device.

Generally, celebration light is installed on a large ship or a cruise ship, and it has been widely used for revealing the route of the visitor for the visitor when the blades are dark, or for revealing the facilities and the like.

In the conventional condensing lamp, a plurality of sockets are connected to an electric cable, a luminaire is connected to the socket, and a light source is provided to surround the luminaire. However, when a plurality of luminaire are independently blinking, The synchronous flicker of the luminaire was controlled through the power line communication method using PLC (Power Line Communication) and DMX controller.

However, in the conventional power line communication method, signal lines have to be connected to each of a plurality of luminaire in addition to an electric cable (power line), so that the wiring is very complicated and there is a problem that installation and demolition of the condenser are difficult and inconvenient.

In addition, it is necessary to dismantle the shipment quickly at the time of departure of the ship, but it is difficult to quickly remove the complicated wiring due to the structure of the wiring, which hinders the departure time of the ship and requires a lot of manpower for quick demolition, Lt; / RTI >

Further, in the conventional power line communication method, when the luminaire fails, the address of the luminaire must be re-designated or the circuit must be reconnected, which is problematic in that the operation management such as the conventional celebration is very difficult.

SUMMARY OF THE INVENTION The present invention has been proposed in order to solve all of the above problems, and it is an object of the present invention to provide an image forming apparatus, comprising: a master unit for setting a light emission pattern of a light emitting unit and transmitting the set light emission pattern to the outside through an infrared communication system; The second light emitting unit is controlled to emit light in a light emission pattern set by the master unit and the second light emitting unit emits an output signal received in the periphery in an infrared communication system Since the flashing of the light emitting unit is synchronously controlled through the plurality of flashing slave units, it is not required to install the signal line installed for synchronous flashing in the conventional power line communication system, and only the power line for supplying power is installed, It is very easy and convenient to install and demolish vessels. And the like, and a control apparatus thereof.

Further, since the master unit, the slave unit, the slave unit and the slave unit transmit or receive the output signal through the infrared communication method, the address must be set for each of the plurality of luminaires for the operation of the luminaire in the conventional power line communication system And it is an object of the present invention to provide an operation pattern control system, such as an LED for a ship, which is easy to operate and manage, and its control device.

Even if the light emitting unit fails, the master unit or the slave unit in which the failed light emitting unit is installed can be easily replaced without affecting the operation of the system. Therefore, in the conventional power line communication method, And it is an object of the present invention to provide an operation pattern control system such as a LED for a ship, which is very convenient to operate and manage the apparatus, and its control device.

According to an embodiment of the present invention, there is provided an application pattern control system such as a LED for a ship, wherein various light emitting modes having different light emitting patterns are programmed, and an output signal for any one of the selected light emitting modes A master unit for receiving the output signal transmitted from the master unit and emitting light in a light emission pattern of the selected light emission mode, A plurality of slave units for transmitting an output signal for the light emitting mode to the outside, and a plurality of slave units for selecting one of various light emitting modes programmed in the master unit, A master unit and a slave unit, the master unit and the slave unit being electrically connected to each other, It is configured including,; Power leads for supplying operating power portion eve

When the master unit selects one of the light emitting modes through the control unit, an output signal for the selected light emitting mode is transmitted to the exterior via the master unit, and the slave unit, which receives the transmitted output signal, The slave unit emits light in a light emission pattern in the light emission mode and transmits an output signal received in the other slave unit in the vicinity so as to control the synchronous flicker so that the peripheral slave unit emits light in a light emission mode of the received light emitting mode.

The master unit may include a first light emitting unit that emits light when power is supplied from the power supply line, a database that stores various light emitting modes having different light emission patterns, and information on a light emitting mode selected through the control unit A master control unit for controlling the first light emitting unit to emit light in a selected light emitting mode by causing an output signal for the selected light emitting mode collected from the database to be transmitted to the outside through the main transmitting unit, And a main transmitting unit for transmitting an output signal for the mode to the outside through an infrared (IR) communication system.

The slave unit may include a second light emitting unit that emits light when power is supplied from the power line, a receiving unit that receives an output signal transmitted from the master unit and transmits the output signal to the slave control unit, A slave control unit for controlling the second light emitting unit to emit light in a light emitting mode of the received light emitting mode and transmitting the output signal received through the transmitting unit to the outside through an infrared communication system; And a transmitting unit for transmitting an output signal to other slave units in the vicinity.

According to another aspect of the present invention, there is provided an apparatus for controlling an applied pattern such as a LED for a ship, which emits light when power is supplied to the printed circuit board, And a plurality of light emitting diodes (LEDs) on which the plurality of light emitting diode (LED) light emitting elements are integrated, and a circuit board which contacts and supports the PCB to easily erect the PCB of the LED light emitting portion, An Edison base mounted on the PCB of the LED light emitting unit and adapted to receive the LED light emitted from the LED light emitting unit, And an output signal for the light emission mode for controlling the light emission pattern of the light emitting portion is transmitted to the outside An infrared light emitting unit, an infrared light receiving unit installed on a PCB substrate of the LED light emitting unit for receiving an output signal transmitted from the outside and transmitting the received output signal to a microprocessor, A microprocessor installed on a PCB substrate for controlling the LED light emitting unit to emit light corresponding to an output signal transmitted through the infrared light receiving unit and controlling the output signal transmitted through the infrared light emitting unit to be transmitted to the outside, A transparent cover coupled to the upper portion of the base to protect the LED light emitting portion from the outside and being transparent so that the light emitted from the LED light emitting portion is easily transmitted; And the light emission pattern for the light emission pattern A master mode in which an output signal of the infrared ray emitting unit is transmitted to the infrared ray emitting unit or an output signal transmitted from the outside through the infrared ray receiving unit and a slave mode in which the received output signal is transmitted to the outside via the infrared ray emitting unit And an output signal for one light emitting mode selected from light emitting modes having different light emitting patterns when the microprocessor is switched to the master mode through the mode switching unit, And an operation unit for controlling the transmission of the data.

The light emitting device may further include a lens formed in each of the light emitting LED elements formed in the LED light emitting portion to widely reflect light emitted from the light emitting LED device to the periphery, So as to be widely provided.

As described above, according to the operation pattern control system of the LED for a ship and the like and the control apparatus thereof, it is possible to set a light emission pattern of the light emission section, and to transmit the set light emission pattern to the outside through the infrared communication system, And an output signal transmitted from the master unit, and controls the second light emitting unit to emit light in a light emission pattern set by the master unit, and transmits the output signal received in the surroundings through an infrared communication system so that the other second light emitting units Since the flashing of the light emitting unit is synchronously controlled through the plurality of slave units flashing in the set light emission pattern, it is not required to install the signal line installed for synchronous flashing in the conventional power line communication system, and only the power line for supplying power is installed, Installation and demolition are very easy and convenient, so you can perform quick installation and demolition And it is.

Further, since the master unit, the slave unit, the slave unit and the slave unit transmit or receive the output signal through the infrared communication method, the address must be set for each of the plurality of luminaires for the operation of the luminaire in the conventional power line communication system The inconvenience is prevented and the operation and management of the apparatus is convenient.

Even if the light emitting unit fails, the master unit or the slave unit in which the failed light emitting unit is installed can be easily replaced without affecting the operation of the system. Therefore, in the conventional power line communication method, There is no need for cumbersome work to be connected, and the operation and management of the apparatus is very convenient.

FIG. 1 is a conceptual diagram of an application pattern control system such as a LED for a ship, according to an embodiment of the present invention.
FIG. 2 is a view for explaining an application pattern control system such as the LED for a ship shown in FIG. 1;
3 is a perspective view of an apparatus for controlling an applied pattern such as a LED for a ship, according to another embodiment of the present invention.
Fig. 4 is an exploded perspective view of an application pattern control device such as a LED for a ship,
5 is an AA cross-sectional view of an application pattern control device, such as the LED for a ship,
FIG. 6 is a diagram showing the state of use of the application pattern control device such as the LED for a ship,

The operation pattern control system such as a LED for a ship and the like according to a preferred embodiment of the present invention and its control device will be described in detail with reference to the accompanying drawings. Detailed descriptions of well-known functions and constructions that may be unnecessarily obscured by the gist of the present invention will be omitted.

1 to 6 illustrate an operation pattern control system of a LED for a ship and a control device thereof according to an embodiment of the present invention. FIG. 2 is a view for explaining an application pattern control system such as the LED for a ship shown in FIG. 1, FIG. 3 is a perspective view of an application pattern control apparatus such as a LED for a ship, according to another embodiment of the present invention. Fig. 4 is an exploded perspective view of an application pattern control device such as a LED for a ship shown in Fig. 3, Fig. 5 is an AA cross-sectional view of an application pattern control device such as a LED for a ship shown in Fig. 3, 3 shows a state of use of an application pattern control device such as a LED for a ship.

As shown in the figure, an application pattern control system 100 for a marine LED flashlight according to an embodiment of the present invention includes a master unit 10, a slave unit 20, (30), and a power supply line (40).

As shown in FIG. 1, the master unit 10 is programmed with various light emitting modes having different light emission patterns, and transmits output signals for any one of the selected light emitting modes to the outside, By emitting light in a light-emitting pattern,

A database 12 in which various light emitting modes having different light emission patterns are stored in a database 12, a control unit 30, From the database 12 and transmits an output signal for the selected light emitting mode to the outside via the main transmitting unit 14, while the first light emitting unit 11 is selected for the selected light emitting mode A main transmitter 14 for transmitting an output signal for the selected light emitting mode through an infrared (IR) communication system to the outside, a master controller 13 for controlling the light emitting mode to emit light in a light emitting mode, .

That is, when any of the light emitting modes among the plurality of light emitting modes programmed in the database 12 is selected through the control unit 30 to be displayed as shown in FIG. 2B, the master control unit 13 selects the light emitting mode Through the database 12, and transmits an output signal for the light emitting mode collected by the plurality of slave units 20, which are located in the vicinity of the slave unit 20, through the main transmitting unit 14, And controls the first light emitting portion 11 to emit light in the light emission pattern of the selected light emission mode.

Here, the main transmitting unit 12 is located on both sides and transmits the output signals to the left and right sides, but it is needless to say that the main transmitting unit 12 is limited to this number and arrangement.

As shown in FIG. 1, the slave unit 20 includes a plurality of slave units 20, receives an output signal transmitted from the master unit 10, emits light in a light emission pattern of the received light emission mode, Mode is transmitted to the other slave unit 20,

A second light emitting unit 21 that emits light when power is supplied from the power line 40, a receiving unit 22 that receives an output signal transmitted from the master unit 10 and transmits the output signal to the slave control unit 23, The second light emitting unit 21 is controlled to emit light in a light emitting mode of the received light emitting mode and the output signal received through the transmitting unit 24 is transmitted through an infrared communication method And a transmission unit 24 for transmitting an output signal for the light emitting mode received by the slave control unit 23 to other slave units 20 in the vicinity through the infrared communication system, ).

2C, when the receiver 22 receives the output signal of the light emitting mode transmitted from the master unit 10, the slave controller 23 controls the slave controller 23 based on the received output signal, 2 light emitting unit 21 and transmits the output signal for the light emitting mode received by the other slave unit 20 in the vicinity through the transmitting unit 24 to the plurality of slave units 20 ) Emit light with a light emission pattern of the selected light emission mode.

Here, the transmitting unit 24 is located on both sides and is configured to transmit the output signal to the left and right sides, but it is needless to say that the transmitting unit 24 is limited to this number and arrangement.

1, the controller 30 selects any one of various light emitting modes programmed to the master unit 10 by an administrator and outputs an output signal for the selected light emitting mode through the master unit 10, To be transmitted to the outside,

The control unit 30 may be embodied as a remote controller for transmitting a control command to the master unit in a wireless control manner or may be embodied as a control box type installed and attached to the master unit 10 by a wire control method, The controller 10 transmits the control command.

1, the power supply line 40 is electrically connected to the master unit 10 and the slave unit 20 to supply operating power to the master unit 10 and the slave unit 20 do.

That is, when the application pattern control system 100 of the present invention comprising the above components selects the one of the light emission modes programmed in the master unit 10 through the control unit 30, An output signal for the selected light emission mode is transmitted to the exterior via the master unit 10 and the slave unit 20 receiving the transmitted output signal emits light in a light emission mode of a regular light emission mode, It is possible to control the synchronous flashing so that the peripheral slave unit 20 emits light in the light emitting mode of the received light emitting mode, It is not required to install the signal line installed for synchronous flashing and only the power line for supplying electric power is installed, and it is very easy and convenient to install and demount the device, There is an effect that can be performed.

In addition, since the master unit 10 and the slave unit 20, and the slave unit 20 and the slave unit 20 transmit or receive an output signal through the infrared communication method, The inconvenience of setting the address in each of a plurality of luminaire for the operation of the luminaire is prevented in advance, and the operation and management of the device is convenient.

The synchronized flicker is controlled as follows in the application pattern control system 100 of the present invention having the above-described configuration, such as the LED flashlight for ships.

First, as shown in FIG. 2A, a single power supply line 40 for supplying operating power to a large ship is provided, and one master unit 10 electrically connected to the power supply line 40 and a plurality of slaves The unit 20 is easily installed.

2B, when the administrator selects any of the various light emitting modes programmed in the master unit 10 through the control unit 30, the master unit 10 selects the light emitting mode So that the first light emitting unit 11 emits light in the light emission pattern of the set light emitting mode.

2C, the slave unit 20, which has received the output signal transmitted from the master unit 10, emits light in a light emission pattern corresponding to the output signal, The plurality of slave units 20 are induced to synchronize and blink together with the light emission pattern for the selected light emitting mode.

As shown in the drawing, an apparatus 200 for controlling an application pattern of a LED for a ship, for example, according to an embodiment of the present invention includes an LED light emitting unit 110, a heat sink 120, an Edison base 130, And includes an infrared (IR) light emitting unit 140, an infrared light receiving unit 150, a microprocessor 160, a transparent lid 170, a mode switching unit 180 and an operation unit 190.

As shown in FIGS. 3 to 5, the LED light emitting unit 110 emits light when power is supplied to the PCB 100, (Light-Emitting Diode) elements 112 are integrated and configured.

Here, the LED light emitting unit 110 may be radially positioned around the heat emitting body 120, which is erected upright, so as to guide the light emitted from the LED light emitting unit 110 to a wide area.

3 to 5, a light source formed on each of the light emitting LED elements 112 formed on the LED light emitting unit 110 so that the light source output from the light emitting LED element 112 is widely spread It is preferable to further include a lens 210 for reflecting the light emitted from the LED light emitting unit 110 so that the light source output from the LED light emitting unit 110 is widely provided to the periphery so that the luminous efficiency 110 of the LED light emitting unit is maximized.

3 to 5, the heat discharger 120 contacts and supports the PCB substrate 111 so that the PCB substrate 111 of the LED light emitting unit 110 is easily erected, The heat emitted from the light emitting portion 110 is easily conducted and discharged to the outside.

3 to 5, the Edison base 130 receives power from the outside and transmits the LED light to the LED light emitting unit 110, and the heat sink 120 is fixed to the upper part of the Edison base 130.

As shown in FIG. 6A, the Edison base 130 is easily installed in a socket 2 electrically connected to an external electric wire 1 for supplying power, receives operating power from an external electric wire, to be.

3 and 5, one or more infrared (IR) light emitting units 140 may be mounted on a PCB substrate 111 of the LED light emitting unit 110, To the outside.

6C and 6D, the infrared light emitting unit 140 transmits an output signal for the light emitting mode under the control of the microprocessor 160 to be turned on, and the infrared light emitting unit 140 The output signals are transmitted to the left and right sides of the heat discharging body 120, respectively. However, the present invention is not limited thereto.

3 to 5, one or more infrared light receiving units 150 are installed on the PCB substrate 111 of the LED light emitting unit 110 to receive an externally transmitted output signal, and the received output Signal to the microprocessor 160.

Here, as shown in FIG. 6D, the infrared ray receiving unit 150 is positioned at one side of the infrared ray receiving unit 150, and receives output signals transmitted from the outside. no.

3, the microprocessor 160 is provided on the PCB substrate 111 of the LED light emitting unit 110 and is connected to the LED light emitting unit 110, corresponding to an output signal transmitted through the infrared light receiving unit 150, Controls the light emitting unit 110 to emit light, and controls the transmission of the output signal transmitted through the infrared light emitting unit 140 to the outside.

Here, the microprocessor 160 may include a program having an output signal for a light emitting mode having different light emission patterns, and may select a light emitting mode of the LED light emitting unit 110 through the operation unit 190 Of course.

3 to 5, the transparent lid 170 is coupled to the upper portion of the Edison base 130 to protect the LED light emitting unit 110 from the outside, So that the light emitted from the light source is easily transmitted.

Here, a prism pattern having irregular curved surfaces having irregular light reflection angles may be formed on the inner and outer surfaces of the transparent lid 170 to maximize the scattering effect of light by inducing irregular reflection of light to be.

3, the mode switching unit 180 sets a light emission pattern of the microprocessor 160 to emit light by the LED light emitting unit 110, and outputs an output signal of the light emission mode for the light emission pattern Receives the output signal transmitted from the master mode or externally transmitted through the infrared ray emitting unit 140 through the infrared ray receiving unit 150 and outputs the received output signal to the outside via the infrared ray emitting unit 140 It is used to operate in slave mode to transmit.

3, when the microprocessor 160 is switched to the master mode through the mode switching unit 180, the operation unit 190 selects one of the light emitting modes having different light emitting patterns, The microprocessor 160 controls the infrared light emitting unit 140 to transmit the output signal to the outside first.

Here, the operation unit 190 may be embodied as an apparatus such as a remote controller for transmitting a control command to the microprocessor 160 in a wireless control manner, or may be embodied as an application pattern control apparatus 200 And transmits the control command to the microprocessor 160. The microprocessor 160 may be a microprocessor.

Hereinafter, an apparatus 200 for controlling an application pattern such as a LED for a ship according to another embodiment of the present invention will be described in more detail with reference to [Embodiment 1], but the present invention is not limited to the embodiments.

[Example 1]

First, as shown in FIG. 6A, a plurality of sockets 2 provided on a large ship and electrically connected to the external wires 1 to supply operating power are connected to application pattern control devices 200).

Then, as shown in FIG. 6B, any one of the application pattern control devices 200 such as the LED for the ship may be switched to the master mode by operation of the mode switching unit 180, The application pattern control device 200 switches the mode to the slave mode by the operation of the mode switching unit 180. [

Then, as shown in FIG. 6C, the light emitting mode of the LED light emitting unit 10 is set by the application pattern control device 200 such as the marine LED of the master mode through the operation unit 190, The control unit 200 controls the first light emitting unit 110 to emit light in a pattern of the light emitting mode set by the microprocessor 160, Mode.

At this time, the application pattern control device 200 such as the marine LED flashlight in the master mode transmits the output signal through the infrared light emitting part 140 but does not receive the output signal through the infrared light receiving part 150.

Then, as shown in FIG. 6D, the infrared ray receiving unit 150 of the application pattern controlling apparatus 200 such as the LED for the marine LED in the adjacent mode, which is adjacent to the application pattern controlling apparatus 200 such as the LED for the marine mode, The microprocessor 160 controls the light emission of the first light emitting unit 110 and the infrared light emitting unit 140 based on the transmitted output signal, And transmits the output signal to the application pattern control device 200 such as the LED for the marine LED in other surrounding slade mode to induce all the application pattern control devices 200 such as the marine LED flash device to synchronously blink together.

That is, the application pattern control device 200 of the present invention, such as a LED for a ship, does not require the installation of a signal line installed for synchronous flashing in the conventional power line communication system and only a power line for supplying power is installed, And the demolition is very simple and convenient, so that the installation and demolition can be performed quickly.

In addition, since only the application pattern control device 200 such as the LED for the ship, which is easily broken even if the application pattern control device 200 of the present invention is broken down, can be replaced with the conventional LED control device, There is no need of troublesome work for re-designating the address of the luminaire or reconnecting the circuit, so that the operation and management of the apparatus is very convenient.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limiting the scope of the invention as defined by the appended claims. You will understand the point. It goes without saying that variations can be made by those skilled in the art without departing from the spirit of the present invention. Accordingly, the scope of claim of the present invention is not limited within the scope of the detailed description, but will be defined by the following claims and technical ideas thereof.

1. External wire 2. Socket
10. Master part 11. First light emitting part
12. Database 13. Master Control
14. Main transmission section 20. Slave section
21. Second light emitting part 22. Receiving part
23. Slave controller 24. Transmitter
30. Control section 40. Power supply cable
100. Applied Pattern Control System for Ship LED
110. LED emitting part 111. PCB board
112. LED element for light emission 120. Heat-
130. Edison base 140. Infrared ray emitting part
150. Infrared ray receiving section 160. Microprocessor
170. Transparent cover 180. Mode switching section
190. Control unit 210. Lens
200. Application pattern control device such as LED shade for ship

Claims (5)

In an application pattern control system such as a LED for a marine vessel installed on a large ship or a cruise ship,
A master unit 10 for programming various light emitting modes having different light emitting patterns and transmitting an output signal for any one of the selected light emitting modes to the outside and emitting light in a selected light emitting mode;
A plurality of slave units 20 for receiving an output signal transmitted from the master unit 10 and for emitting an emission pattern of the received light emitting mode and for transmitting an output signal for the received light emitting mode to the outside, );
A control unit (30) for selecting any one of various light emitting modes programmed in the master unit (10) and controlling the output signal for the selected light emitting mode through the master unit (10) to be transmitted to the outside; And
And a power supply line 40 electrically connected to the master unit 10 and the slave unit 20 and supplying operating power to the master unit 10 and the slave unit 20,
When the user selects one of the light emitting modes programmed in the master unit 10 through the control unit 30, an output signal for the selected light emitting mode is transmitted to the outside through the master unit 10, The slave unit 20 receiving the output signal emits light with a light emission pattern of a predetermined light emitting mode and transmits an output signal received by the other slave unit 20 in the vicinity, Is controlled so as to emit light in a light emission pattern of a light emission mode received together.
The method according to claim 1,
The master unit (10)
A first light emitting part 11 which emits light when power is supplied from the power supply wire 40,
A database 12 in which various light emission modes having different light emission patterns are stored,
The information about the light emitting mode selected through the control unit 30 is collected from the database 12 and the output signal for the selected light emitting mode is transmitted to the outside through the main transmitting unit 14, A master control unit 13 for controlling the light emitting unit 11 to emit light in a selected light emitting mode,
And a main transmitting unit (14) for transmitting an output signal for the selected light emitting mode through the control unit (30) to the outside through an infrared (IR) communication method. system.
3. The method of claim 2,
The slave unit (20)
A second light emitting unit 21 which emits light when power is supplied from the power supply line 40,
A receiving unit 22 receiving the output signal transmitted from the master unit 10 and transmitting the received signal to the slave control unit 23,
The second light emitting unit 21 is controlled to emit light in a light emitting mode of the received light emitting mode and the output signal received through the transmitting unit 24 is transmitted through an infrared communication method A slave control unit 23 for allowing the slave control unit 23 to transmit the data to the outside via the network,
And a transmission unit (24) for transmitting an output signal for the light emitting mode received by the slave control unit (23) to another slave unit (20) in the vicinity through an infrared communication system. Applied Pattern Control System.
In an application pattern control device such as a LED for a marine vessel installed on a large ship or a cruise line,
Emitting diodes 110, on which a plurality of light-emitting diode devices 112 are integrated, is mounted on a printed circuit board substrate 111 formed vertically upright by emitting light when power is supplied thereto. );
The PCB 100 is contacted and supported so that the PCB substrate 111 of the LED light emitting unit 110 is easily erected and the heat dissipated from the LED light emitting unit 110 is easily conducted and discharged. Body 120;
An Edison base 130 for receiving the power from the outside and transmitting the LED light to the LED light emitting unit 110, the heat sink 120 being fixed to the upper part of the Edison base 130;
And one or more infrared (IR) light emitting units (140) provided on a PCB substrate (111) of the LED light emitting unit (110) for transmitting an output signal for a light emitting mode for controlling the light emitting pattern of the LED light emitting unit );
One or more infrared light receiving units 150 installed on the PCB substrate 111 of the LED light emitting unit 110 to receive an output signal transmitted from the outside and transmit the received output signal to the microprocessor 160;
The infrared light emitting unit 110 is provided on the PCB substrate 111 of the LED light emitting unit 110 to control the LED light emitting unit 110 to emit light corresponding to an output signal transmitted through the infrared light receiving unit 150, A microprocessor (160) for controlling the transmission of the output signal transmitted through the antenna (140) to the outside;
A transparent cover 170 which is fixedly coupled to the upper portion of the Edison base 130 to protect the LED light emitting unit 110 from the outside and is transparent so that light emitted from the LED light emitting unit 110 is easily transmitted, ;
A master mode in which the microprocessor 160 sets a light emission pattern emitted by the LED light emitting unit 110 and transmits an output signal of the light emission mode for the light emission pattern through the infrared light emitting unit 140, A mode switching unit 180 for receiving an output signal transmitted through the infrared ray receiving unit 150 and operating the slave mode to transmit the received output signal to the outside via the infrared ray emitting unit 140; And
When the microprocessor 160 is switched to the master mode through the mode switching unit 180, the microprocessor 160 outputs an output signal for one light emitting mode selected from the light emitting modes having different light emitting patterns, And an operation unit (190) for controlling the light to be transmitted to the outside through the light emitting unit (140) for the first time.
5. The method of claim 4,
Further comprising a lens 210 formed on each of the light emitting LED elements 112 formed on the LED light emitting portion 110 to widely reflect light emitted from the light emitting LED elements 112 around the light emitting element 112,
And the light source output from the LED light emitting unit 110 is widely provided to the periphery.

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