KR102618697B1 - The control appartus for landscape lighting contained to segment display - Google Patents

Abstract

The present invention relates to a landscape lighting control device equipped with segments, the configuration of which is registered in a management server to remotely set the dimming state according to the illuminance and take action on obstacles through wireless communication with the landscape lighting device. Run the operating application (APP) provided in and receive a unique ID number set to directly set and adjust the brightness of the lighting according to the status information of the landscape lighting device transmitted through the management server, or adjust the illuminance according to the status information of the landscape lighting device. , checks fault signals, sets the on/off time of the lighting device on site, controls the lighting and blinking time intervals between landscape lights, and controls the blinking detector to create a lighting pattern, and sends the performance and status information to the management server. Administrator terminal transmitting to; It receives and monitors the operation and status information of each light of multiple landscape lighting devices, sets the on/off time for each landscape light, and transmits it wirelessly to control the lighting and blinking of the landscape lights from a remote location, or controls multiple landscape lights to operate. By selectively setting the on/off of the lights to operate at set on/off time intervals for each landscape light through an administrator terminal or remote control device, or controlling the lights to enable various dynamic image expressions to produce lighting patterns, A management server that checks the status information when a failure occurs in the output segment of a lighting device and wirelessly transmits the failure information of the lighting device to the manager terminal, allowing the user to deal with obstacles to the lighting device in real time; An address, a unique identification code, is assigned to each, and an IR sensor and segment module are provided on the outside, protected by tempered glass. The displayed information on the status of each landscape light can be checked through the segment output unit, and the input signal of the assigned unique address can be checked. Accordingly, the status information of the voltage and illuminance of the lighting device is displayed to check the status and error information according to communication for each lighting device, or the presence of DMX communication is displayed through the segment output part of the LED display window, the status of DC power is displayed, and the lighting is controlled through dimming control. A landscape lighting device that operates to adjust the brightness of each landscape light and transmits and displays the illuminance and dimming status information of each landscape light to a manager terminal or management server; And it is wirelessly linked with the landscape lighting device to check and reset the address, which is a unique number assigned to each lighting fixture, or check whether there is an abnormality in the status display of the segment output unit of the lighting fixture, or whether there is an abnormality in the lighting or blinking of the LED landscape lighting, It includes a remote control device that controls the brightness of the lighting according to the illuminance to adjust the illuminance, or controls the self-direction of the light source to produce the lighting.

Description

The control appartus for landscape lighting contained to segment display}

The present invention relates to a landscape lighting control device equipped with segments. More specifically, the landscape lighting device is provided with an IR sensor and a segment module inside and is protected with tempered glass on the outside to display the status of each light through a segment output unit. You can check and receive status information such as voltage and illuminance information of the lighting by entering the given unique address. You can remotely check the illuminance status and fault information according to communication for each lighting device in the landscape lighting and adjust the illuminance. This relates to a landscape lighting control device equipped with a segment that ensures stable output and enables stable operation and management of landscape lighting.

In addition, the present invention detects heat emitted or reflected from an object through an IR sensor provided inside, and displays the DMX communication and DC power of the lighting through the segment output of the LED display window to send status information of the lighting device to the manager terminal or By transmitting to the management server, the address, which is a unique identification code assigned to each lighting device, and dimming lighting are adjusted, and the blinking, illuminance, and color of LED lights are remotely monitored and controlled to create landscape lighting and maintenance in response to failures. It relates to a landscape lighting control device equipped with easily accessible segments.

Landscape lighting refers to creating a comfortable light environment by focusing on forming a landscape through light and systematizing the relationships between the various lights that make up a city.

Urban landscape lighting not only beautifies and decorates the city at night with light, but can also enhance the dignity of the city by improving the safety and security of citizens. Accordingly, awareness of the importance of urban landscapes is spreading in countries that are achieving economic growth.

In particular, as the city's activity hours extend into the night, human activities continue not only during the day but also at night, and a 24-hour day/night urbanization phenomenon begins to appear in urban spaces, creating a demand for urban beauty and comfort even at night.

Accordingly, landscape lighting, which is one of the elements forming the cityscape, has become a part of the cityscape and is maximizing the effect of creating the cityscape at night.

Although the domestic landscape lighting market is in the early stages of forming a market, the need for landscape production to enhance the image of public facilities and buildings is increasing, and it is showing rapid growth thanks to the addition of local governments' night landscape creation projects. The prospects for expansion of the landscape lighting market will become brighter in the future if high added value in the lighting market is realized due to the emergence of new technologies and progress in convergence.

As mentioned above, in order to realize beautiful landscape lighting, control of turning on and off, illumination, color, etc. of multiple lighting devices is required. Recently, control of lighting color and brightness while consuming low power, convenience of construction, etc. A simple high-brightness LED (hereinafter referred to as “LED”) lamp is being adopted as the main component.

In order to realize beautiful landscape lighting, there is an urgent need for the development of technology that not only remotely controls the turning on and off, illuminance, and color of multiple lighting devices, but also remotely monitors the operating status of multiple lighting devices. In addition to simple monitoring of multiple lighting devices, there has been a demand for the development of technology that can virtually install multiple lighting devices in a predetermined area and simulate landscape lighting by the multiple installed lighting devices.

However, when a large number of lights are scattered over a large area, a lot of construction time and cost are required for wiring communication lines. Moreover, in order to produce existing lighting, it is driven through the wiring of communication lines connected to each lighting.

Because control signals must be processed to control multiple lights through communication lines, the burden of computational processing is high, which limits the ability to transmit and express signals quickly and accurately. Additionally, as the number of wires connected between the control device and the lights increases, the wiring becomes more complicated. Not only does construction become very complicated, but it also has the disadvantage of making maintenance inconvenient because it is difficult to identify problems due to breakdowns.

In order to solve these problems and manage high-quality, unified landscape lighting with efficiency and convenience, real-time monitoring of landscape lighting facilities, individual status inspection and fault diagnosis of light sources through periodic analysis of electrical characteristic data, and lighting and extinguishing times It is necessary to operate a control device with functions specialized for landscape lighting, such as power saving function through settings and automatic dimming of lighting, group control and individual control through identification of lighting, and lighting pattern production.

Therefore, the present applicant would like to present details of a method and device that can display the current status and illuminance information of landscape lighting devices and remotely detect infrared signals to control each landscape lighting according to the surrounding environment. .

1. Light-emitting diode line bar-type landscape lighting device equipped with status display and diagnostic functions (Utility Model Registration No. 20-0433679) 2. Landscape lighting device (Patent Registration No. 10-2117358)

The technical problem of the present invention, designed to improve the above problems, is to detect heat emitted or reflected from an object through an IR sensor provided inside, and display the DMX communication and DC power of the lighting through a segment of the LED display window, thereby displaying the corresponding heat. By transmitting the status information of the lighting device to the administrator terminal or management server, the address, which is a unique identification code assigned to each lighting device, and dimming lighting are adjusted, and the blinking, illuminance, and color of the LED light are remotely monitored and controlled to provide landscape lighting. The purpose is to provide a landscape lighting control device equipped with segments that facilitate lighting production and maintenance due to failure.

In addition, the present invention is equipped with an IR sensor and a segment module inside the landscape lighting device, and is protected with tempered glass on the outside, so that the status display of each light can be checked through the segment, and the voltage of the corresponding light, It is possible to receive status information such as illuminance information, and it is possible to remotely check the illuminance status and fault information for each lighting device according to communication and adjust the illuminance to ensure stable output and ensure stable operation and management of landscape lighting. The purpose is to provide a landscape lighting control device.

However, the objects of the present invention are not limited to the objects mentioned above, and other objects not mentioned will be clearly understood by those skilled in the art from the description below.

To achieve the above object, the landscape lighting control device equipped with segments according to an embodiment of the present invention runs the driving application (APP) provided by the management server, receives a unique ID number set for each authorized administrator, and manages the management server. The brightness of the lighting can be set and adjusted directly according to the status information of the landscape lighting device, or the lighting intensity and disturbance signals can be checked according to the lighting intensity and dimming status information of the landscape lighting transmitted from the landscape lighting device, and the lighting device can be checked on site. An administrator terminal that performs on/off time setting, lighting between landscape lights, control of blinking time intervals, and blinking detector control for creating lighting patterns, and transmits the performance and status information to the management server; It receives and monitors the operation and status information of each light of a plurality of landscape lighting devices, sets the on/off time for each landscape light, and wirelessly turns on and blinks each landscape light from a remote location. To selectively set on/off, control each landscape light to operate at set on/off time intervals through an administrator terminal or remote control device, or control to enable various dynamic image expressions to produce lighting patterns, or landscape lighting. A management server that checks the relevant status information when a failure occurs in the output segment of the device and wirelessly transmits the failure information of the lighting lamp to the manager terminal so that the failure elements of the lighting lamp can be handled in real time; An address, a unique identification code, is assigned to each lighting fixture, so when the lighting fixture is connected to one signal line, one lighting fixture is set to MASTER and the other lighting fixture is automatically changed to SLAVE, so the scenery stored in the MASTER lighting fixture is automatically changed to SLAVE. It operates in a redundant structure for directing or driving, is equipped with an IR sensor and segment module inside, and is protected with tempered glass on the outside. The main control unit on the top of the lighting fixture is attached with a single PCB to display the lighting fixture status and input address. It operates to display the voltage CHECK and communication status of the lighting fixture, and the lower sub-control unit is provided in the SMPS box inside the lighting fixture to perform DIMMING and color rendering. The sub-control unit is set to 4CH of R.G.B.W. and dimming is set to 10. It is operated to be set in stages, so that the status information of each landscape light can be displayed and confirmed through the segment output unit, and the status information of the voltage and illuminance of the lighting device is displayed according to the input signal of the assigned unique address, allowing communication for each lighting device. Status and error information can be checked, or the brightness of the lights can be adjusted through DMX communication, DC power status display, and dimming control through the segment output part of the LED display window, and information on the illuminance and dimming status of each landscape light. A landscape lighting device that transmits to an administrator terminal or management server and displays it; And it is wirelessly linked with the landscape lighting device to check the address, which is a unique number assigned to each lighting fixture, and when changing the address, if another lighting fixture is in a very close range, a control signal is sent to reset and change only the lighting fixture to be changed. transmits and receives the status information of the sensor unit located around the landscape lighting device provided by the management server, and considers the voltage and brightness information displayed on the segment output of other lighting fixtures located nearby according to the set information to determine the brightness of individual lighting, It is characterized by comprising a remote control device that controls the brightness of the lighting fixture by changing the illuminance to produce dimming.

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The landscape lighting control device equipped with segments according to the present invention is equipped with an IR sensor and a segment module inside the landscape lighting device and is protected with tempered glass on the outside, so that the status display of each light can be checked through the segments, and a unique address is assigned. By inputting, it is possible to receive status information such as voltage and illuminance information of the lighting, and remotely check the illuminance status and fault information according to communication for each lighting device and adjust the illuminance to ensure stable output of landscape lighting. It provides possible effects through stable operation and management.

In addition, the landscape lighting control device equipped with segments according to an embodiment of the present invention detects heat emitted or reflected from an object through an IR sensor provided inside, and performs DMX communication and DC power for lighting through the segment output of the LED display window. This displays and transmits the status information of the lighting device to the manager terminal or management server, adjusts the address, which is a unique identification code assigned to each lighting device, and dimming lighting, and remotely monitors the blinking, illuminance, and color of the LED light. It provides the effect of controlling lighting for scenery, prompt action in response to failures, and easy maintenance.

In addition, in the landscape lighting control device equipped with segments according to an embodiment of the present invention, lighting fixtures are connected to one signal line, and when one lighting fixture is set to MASTER, the other lighting fixtures are automatically set to SLAVER and set to MASTER. It is produced by lighting stored in the lighting equipment, and in the event of a failure, the SLAVER is automatically switched and operated to ensure stable operation of the landscape lighting equipment.

In addition, the landscape lighting control device equipped with different segments in the embodiment of the present invention can manage the stable lighting state of the landscape lighting by controlling the lighting or extinguishing, brightness, etc. of the landscape lighting installed through the sensor unit provided in the landscape lighting device. This has the effect of reducing the manpower and time required for the operation and management of landscape lighting.

1 is a configuration diagram of a landscape lighting control device equipped with segments according to the present invention.
Figure 2 is a block diagram showing the internal configuration of the landscape lighting device among the landscape lighting control devices equipped with segments according to the present invention.
Figure 3 is a block diagram showing the internal configuration of a remote control device among the landscape lighting control devices equipped with segments according to the present invention.
Figure 4 is a schematic diagram showing the operating state of a landscape lighting device equipped with segments according to the present invention.

Hereinafter, a detailed description of preferred embodiments of the present invention will be described with reference to the attached drawings. In the following description of the present invention, if a detailed description of a related known function or configuration is judged to unnecessarily obscure the gist of the present invention, the detailed description will be omitted.

In this specification, when one component ‘transmits’ data or signals to another component, one component can directly transmit data or signals to the other component, and at least one other component This means that data or signals can be transmitted to other components.

The present invention is equipped with an IR sensor and a segment module inside the landscape lighting device, and is protected with tempered glass on the outside, so that the status display of each light can be checked through the segment, and the voltage and illuminance information of the light is provided by entering the unique address given. It is possible to receive information on the status of lights, and it ensures stable output by checking the illuminance status and fault information and adjusting the illuminance according to communication for each lighting device of landscape lighting remotely, providing stable operation and management of real-time landscape lighting from a distance. .

Figure 1 shows the configuration of a landscape lighting control device equipped with segments according to the present invention. The landscape lighting control device equipped with segments according to the present invention is largely comprised of an administrator terminal 100, a communication network 200, and a management server. (300), landscape lighting device (400), and remote control device (500).

Looking at the detailed configuration and operation of the landscape lighting control device equipped with a segment according to the present invention with reference to the attached FIG. 1, the manager terminal 100 is registered in the management server 300 and remotely controls the landscape lighting device 400. As a subject that performs measures such as setting the dimming state according to the illuminance and obstacles through wireless communication, the information of the manager is set and stored in the management server 300 and the driving application (APP) provided by the management server 300 ) is given by executing the set unique ID number to set and adjust the brightness of the illuminance according to the status information of the landscape lighting device 400 transmitted through the management server 300, or when a failure of the landscape lighting device 400 occurs or Quickly perform procedures online and offline for predicted situations.

In addition, the manager terminal 100 receives the illuminance of the designated landscape lighting device 400 and the status information of the LED output unit through the management server 300, sets the on/off time for the landscape lights of the lighting device, and remotely You can participate in the direct operation of the landscape lighting by transmitting a control signal or directly setting and operating the status of the landscape lighting device 400 through wireless connection in the field.

Additionally, the manager terminal 100 checks the illuminance and fault signals according to the status information of a plurality of landscape lighting devices 400 transmitted through the management server 300 and sets the on/off time of the lighting device at the site. , control of the lighting and blinking time intervals between landscape lights, and control of the blinking detector for creating lighting patterns are performed, and the corresponding performance and status information is transmitted to the management server 300 and stored.

When changing the address, which is a unique number assigned to each lighting fixture of the landscape lighting device 400, the manager terminal 100 is set to allow only the lighting fixture to be changed to be changed if other lighting fixtures are in a very close range, and the management server Status information of the sensor device located around the landscape lighting device provided at (300) is received, and the brightness of the lighting device is controlled according to the set information to produce dimming. At this time, when controlling the brightness, the brightness and illuminance of individual lighting fixtures can be changed by considering the voltage and brightness information displayed on the segment output of other lighting fixtures located nearby.

In order to control and operate the landscape lighting device 400, the management server 300 sets the blinking/flashing time and brightness of the landscape lighting device based on the information set through the IR sensor to control the remote control device 500. The illumination level is adjusted to be displayed on the segment output unit, or when a failure of the landscape lighting device (400) occurs, the relevant status information is checked and the failure information of the lighting lamp is transmitted wirelessly to the manager terminal (100) in real time. The overall operation according to the operation of the landscape lighting device 400 is controlled so that the elements are resolved.

In addition, the management server 300 receives and monitors the operation and status information of each light of the plurality of landscape lighting devices 400, sets the on/off time for each landscape light, and transmits it wirelessly to enable landscape lighting from a remote location. Control the lights to turn on or blink, or selectively set on/off for multiple landscape lights so that each landscape light is operated at set on/off time intervals through the administrator terminal 100 or remote control device 500. Or, control to enable various dynamic image expressions to produce lighting patterns, or check the status information when a failure occurs in the output segment of the landscape lighting device 400 and wirelessly transmit the failure information of the lighting to the manager terminal 100. Enables handling of obstacles such as the landscape in real time.

In addition, the management server 300 assigns a unique address to each lighting device to control the illumination and dimming of the landscape lighting device 400, and provides real-time response, operation, and integrated management in the event of remote control of illumination, dimming, etc. or a failure. It is equipped with a driving application (app) for transmitting the application according to a request signal from the manager terminal 100, assigning a unique identification code to each authorized manager, and transmitting status information for controlling the landscape lighting device 400 to a remote location. Authorization for wireless control or on-site control is granted, and the corresponding result information according to the illuminance or dimming control of the lighting device is received and managed.

In addition, the management server 300 controls the illuminance of landscape lighting by driving the landscape lighting device 400 according to the illuminance set based on the information sensed through the IR sensor of the landscape lighting device 400, and segment The illumination status information is displayed through the output unit, or the corresponding status information is transmitted to the manager terminal 100 through a communication network to remotely check the brightness of the illumination intensity wirelessly and check and control whether the display unit is operating.

The landscape lighting device 400 is each assigned an address, which is a unique identification code, is equipped with an IR sensor and a segment module, and is protected with tempered glass on the outside, so that displayed information on the status of each landscape light can be checked through the segment output unit, Status information such as voltage and illuminance information of the lighting device is displayed according to the input signal of the assigned unique address, allowing the status and fault information according to communication for each lighting device to be checked.

The landscape lighting device 400 detects heat emitted or reflected from an object through an IR sensor provided inside, and displays the status of DMX communication, DC power, and brightness of the lighting through the segment output of the LED display window. operates to adjust, and information on the illuminance and dimming status of each landscape is transmitted to the manager terminal 100 or the management server 300 and displayed.

In addition, the landscape lighting device 400 lights up/flashes or dims by the adjusted illuminance of each lighting device with an address, which is a unique identification code assigned according to a control signal from the management server 300 or the manager terminal 100. It operates to drive and adjust the lighting according to the lighting signal, and transmits status information to the management server 300 or administrator terminal 100 for maintenance, field management, and rapid response in the event of a failure.

The landscape lighting device 400 is controlled by a control unit provided on one side of a printed circuit board (PCB), and determines the unique address and supply voltage for the corresponding lighting light and the number of lights indicating which of the several lighting lights are operating at a set time interval. An output unit, which is a status display unit of seven segments, is provided to be displayed.

The remote control device 500 is wirelessly linked with the landscape lighting device 400 to check and reset the address, which is a unique number assigned to each lighting fixture, or to display the status of the segment output unit 430 of the lighting fixture, whether there is an abnormality, or the LED. Check whether there is an abnormality in the lighting or blinking of the landscape lights, adjust the brightness of the lighting according to the illuminance, or control the self-production of the light source to produce the lighting.

The remote control device 500 transmits a control signal for driving the landscape lighting device 400, checks whether the status is displayed through the segment output unit 430 of the landscape light according to the signal, and determines whether the status is displayed according to the transmitted control signal. The overall operation of the landscape lighting device 400 is performed by receiving and storing the reception and control signals of the landscape lighting device 400.

Additionally, when changing the address, which is a unique number assigned to each lighting fixture of the landscape lighting device 400, the remote control device 500 sets only the lighting fixture to be changed when other lighting fixtures are within a very short distance, allowing the change. Transmits a control signal to enable, receives status information of a sensor device (not shown) located around the landscape lighting device 400 provided by the management server 300, and controls the brightness of the lighting fixture according to the set information. Dimming can be performed. In this case, when controlling the brightness, the brightness and illuminance of individual lighting fixtures can be changed by considering the voltage and brightness information displayed on the segment output of other lighting fixtures located nearby.

The communication network 200 is a communication network that is a high-speed backbone network of a large communication network capable of high-capacity, long-distance voice and data services, and may be a next-generation wired or wireless network for providing the Internet or high-speed multimedia services. If the communication network 200 is a mobile communication network, it may be a synchronous mobile communication network or an asynchronous mobile communication network.

An example of an asynchronous mobile communication network may be a WCDMA (Wideband Code Division Multiple Access) type communication network. In this case, although not shown in the drawing, the mobile communication network may include an RNC (Radio Network Controller). Meanwhile, although the WCDMA network was used as an example, it may be a next-generation communication network such as a 3G LTE network, 4G network, or 5G network, or any other IP-based IP network. The communication network 200 serves to transmit signals and data between the administrator terminal 100, management server 300, landscape lighting device 400, and remote control device 500.

Figure 2 is a block diagram showing the internal configuration of a landscape lighting device among the landscape lighting control devices equipped with segments according to the present invention. The landscape lighting device 400 includes a control unit 410 and a sensor unit 420. , It consists of an output unit 430, a communication unit 440, a driving unit 450, and a storage unit 460.

Looking at the detailed configuration and operation of the landscape lighting device with reference to Figures 1 and 2 attached below, first, the control unit 410 is each assigned an address, which is a unique identification code, is equipped with an IR sensor and a segment module, and is installed externally. Protected by tempered glass, the status of each landscape light can be checked through the segment output unit, or status information such as voltage and illuminance information of the lighting device can be displayed according to the input signal of the assigned unique address. Status and failure according to communication for each lighting device The overall operation of the landscape lighting device 400 is controlled so that information can be confirmed.

In addition, the control unit 410 turns on/flashes or produces dimming lighting by the adjusted illuminance of each lighting device with an address, which is a unique identification code assigned according to a request signal from the management server 300 or the manager terminal 100. Depending on the signal, the operation information required to drive the lights is transmitted, or the brightness of the lights is adjusted through DMX communication, DC power status display, and dimming control through the segment output of the LED display window in response to a detection signal through an IR sensor. The overall operation of the landscape lighting device 300 is controlled so that information on the illumination intensity and dimming status of landscape lights is transmitted to the manager terminal 100 or the management server 300 and displayed.

Meanwhile, when the control unit 410 is connected to one signal line for the lighting fixtures of the landscape lighting device 400, when one lighting fixture is set to MASTER, the other lighting fixtures are automatically changed to SLAVE and set to the MASTER lighting fixture. It operates in a redundant structure so that the stored scenery can be displayed or driven, and the voltage of the lighting fixture is checked through the manager terminal 100 or the remote control device 500, and the current voltage of the load or sub-controller of the lighting fixture is output in segments. A control signal is sent to be displayed on the unit 430, and the transmission and reception status of the DMX signal of the remote control device 500 is checked to control the transmission or reception status information to be selectively displayed on the segment output unit 430.

More specifically, when the identification information corresponds to its own identification information according to a request signal from the manager terminal 100 or the remote control device 500, the control unit 410 provides the identification information, the light source flashing state, according to the request signal. Generates driving state data including information on illumination state and color state, detects the blinking state and illumination state for each LED in the LED array, and adds its own identification information to the detected information to generate driving state data. Generate, check whether the detected information corresponds to the blinking state and illumination state according to the requested and received control signal, and if the two states are different, add your own identification information to the detected information to generate driving state data. and operates to transmit driving state data to the manager terminal 100 or the remote control device 500.

The sensor unit 420 is provided with an IR sensor on one side of the lighting device and detects heat emitted or reflected through the IR sensor according to a control signal from the control unit 410 to generate a segment output unit 430, which is an LED display window. Based on the information set through DMX communication, the status of DC power is displayed, and the illuminance of each landscape light and dimming status information are displayed.

The output unit 430 is composed of a segment display window, and according to the control signal of the control unit 410, the status information of the lighting and dimming of the landscape, etc., which is mapped to the transmission of the manager terminal 100 and the remote control device 500, is displayed. , DMX communication status such as scenery, and DC power status information are displayed and operated to be recognized.

The output unit 450 operates the manager terminal 100 in order to drive the landscape light specified in the unique ID number assigned according to the application execution signal of the manager terminal 100 in accordance with the control signal of the control unit 410. The intensity of illumination and dimming requirement information of each landscape lighting device 400 calculated according to the request signal are transmitted to enable the landscape lighting device 400 to be operated remotely, or each landscape lighting device 400 is operated remotely based on the sensing information of the sensor unit 420. By transmitting the adjusted data on the brightness of the illumination intensity of the landscape lighting device 400, the LED lights are turned on, a blinking signal is transmitted, and the corresponding status information is displayed through the segment display unit.

In addition, the output unit 430 sets the on/off state for a plurality of landscape lights of each landscape lighting device 400 calculated based on the reference data stored in the storage unit 490 and operates the designated landscape lights. , It operates to express various dynamic images to produce lighting patterns at set on/off time intervals for each landscape light.

The communication unit 440 responds to the control signal of the control unit 410 and sends the lighting of a specific landscape light of the landscape lighting device 400 assigned to each address, the error data of the flashing signal, and the device failure signal to the manager terminal 100. Or transmit it to the remote control device 500.

The driving unit 450 turns on the LED lighting according to the illuminance data signal transmitted from the remote control device 500 in accordance with the control signal from the control unit 410, transmits flashing lights, or drives the lighting according to the dimming lighting production signal. Perform sequential dimming operation.

The storage unit 460 stores the unique ID number of the user of the administrator terminal 100 or the unique ID number of the remote control device 500, which is set and designated for the operation of the landscape lighting device 400, or stores the unique ID number of each landscape lighting device. (400) Each identification code and assigned unique address information are stored, and ON/OFF time information such as scenery by region and location is classified and stored so that detailed data such as each set manager terminal (100) and scenery are stored. .

The storage unit 460 stores classification and designated identification codes and unique address information for each landscape lighting device 400 in response to a control signal from the control unit 410, and is used to implement landscape lighting of the manager terminal 100. The unique ID is stored to check whether the administrator is authorized according to the execution of the driving application (APP), and the standard information of the amount of illumination according to the driving of the scenery, etc. is classified and stored as data for the sensing information of the sensor unit 420. In addition, the transmission data of lighting and blinking for producing the lighting pattern of the landscape lighting device 400 is stored and requested, and standard data for the illuminance and dimming of the landscape lights are stored in consideration of the transmitted request signal for driving the landscape lights. It works.

Meanwhile, the landscape lighting device 400 is formed as a structure that is fixedly installed in the form of a lighting fixture, as shown in Figure 4 attached, or is composed of an aluminum structure extruded into a long 'bar' shape, or in the form of an underground lamp. It can be configured to be embedded, and is equipped with a segment output unit capable of displaying the status at the center of the LED lamp, and is equipped with a light-emitting module having a plurality of LED light-emitting elements that receive power and emit light.

More specifically, the transition lighting device 400 is equipped with tempered glass on the top of the case, and an IR sensor and a segment display are implemented inside, which means that the upper main control part of the lighting fixture is attached to a single PCB to display the lighting fixture status, When an address is entered, it operates to display the reception, voltage check, and communication status of the lighting fixture. The lower sub-control unit is provided in the SMPS box inside the lighting fixture to perform DIMMING and color rendering, and the sub-control unit is set to 4CH of R.G.B.W. It operates to be set to 10 levels.

Figure 3 shows the configuration of a remote control device of a landscape lighting control device equipped with a segment according to the present invention. Looking at its operation, the remote control device 500 includes a microcomputer 510, a setting unit 530, It consists of a transmission unit 550, an alarm unit 570, and a memory unit 590. Looking at the detailed configuration and operation of the remote control device 500 with reference to FIGS. 1 to 3 attached below, first, the microcomputer 510 is assigned to each lighting fixture of the wirelessly linked landscape lighting device 400. Check or reset the address, which is a unique number, check whether there is an abnormality in the status display of the segment output unit 430 of the lighting fixture, check whether there is an abnormality in the lighting or blinking of the LED landscape light, or control the brightness of the lighting according to the illuminance. or controls the overall operation of the remote control device 500 for self-direction of light sources such as lighting.

The microcomputer 510 transmits a control signal for driving the landscape lighting device 400, checks whether the status is displayed through the segment output unit of the landscape light according to the signal, and controls the landscape lighting device 400 according to the transmitted control signal. The operation of the remote control device 500 is controlled to transmit control signals for the overall operation of the landscape lighting device 500 so that the driving state and operation signals are transmitted and stored.

The setting unit 530 selects the address of each landscape lighting device 400 stored in the memory unit 570 according to a control signal from the microcomputer 510, and re-assigns the assigned address when the address for each lighting fixture needs to be changed. For dimming, press the DIM button to set and fix the illuminance required for the lighting equipment, or change the MASTER or SLAVE of the landscape lighting device 400 to set the cycle and time for self-direction of lighting and implement a locking function. A signal for driving the landscape lighting device 400 is transmitted.

Meanwhile, when changing the address, which is a unique number assigned to each lighting fixture of the landscape lighting device 400, the setting unit 530 transmits a control signal to enable the change by setting only the lighting fixture to be changed when it is in a very close range. , the brightness of the lighting fixture is controlled according to the sensed state located around the landscape lighting device 500 provided by the management server 300 to produce dimming, which means that when controlling the brightness, other lighting fixtures located nearby The brightness and illuminance of individual lighting fixtures can be changed by considering the voltage and brightness information displayed on the segment output unit.

The transmission unit 550 receives an input signal from the remote control device 500 to set the illumination intensity of the landscape lighting device 400, create dimming, change the address, and drive the lighting for self-production according to the control signal from the microcomputer 510. It is transmitted to the landscape lighting device 400, or status information about failures and errors of the landscape lighting device 400 is received.

The alarm unit 550 responds according to the control signal of the microcomputer 510 and generates an abnormality signal of a specific LED lighting of the landscape lighting device 400, an error signal of the brightness of the lighting, and a fault signal due to overcurrent flowing into the lighting. It operates to receive a failure signal from the landscape lighting device 400 and display the corresponding status information as a warning sound, a flashing signal, etc.

The memory unit 590 classifies and stores unique addresses that can be assigned to each landscape lighting device 400 according to the control signal from the microcomputer 510, or stores information on each address assigned to each landscape lighting device 400. It stores and transmits usable state address information according to a request signal from the setting unit 530, and stores the address changed according to the address change of the setting unit 530.

The content of the present invention has been described with reference to an embodiment shown in the drawings, but this is merely illustrative, and those skilled in the art will understand that various modifications and other equivalent embodiments are possible therefrom. You will understand. Therefore, the true scope of technical protection of the present invention should be determined by the technical spirit of the attached patent claims.

100: Administrator terminal 200: Communication network
300: Management server
400: Landscape lighting device
410: Control unit 420: Sensor unit
430: output unit 440: communication unit
450: driving unit 460: storage unit
500: remote control device
510: Microcomputer 530: Setting section
550: Transmission unit 570: Alarm unit
590: Memory unit

Claims (4)

By executing the driving application (APP) provided by the management server 300, a unique ID number set for each authorized administrator is given, and the brightness of the illumination is determined according to the status information of the landscape lighting device 400 transmitted through the management server 300. You can directly set and adjust the lighting, or check the illuminance and obstacle signals according to the illuminance and dimming status information of the landscape lights transmitted from the landscape lighting device 400, set the on/off time for the lighting device on site, turn on between landscape lights, A manager terminal (100) that controls the time interval of blinking, controls a blinking detector for creating a lighting pattern, and transmits the performance and status information to the management server (300);
Receives and monitors the operation and status information of each light of a plurality of landscape lighting devices 400, sets the on/off time for each landscape light, and wirelessly turns on and blinks each landscape light from a remote location. In order to selectively turn on/off the lights, each landscape light is controlled to operate at set on/off time intervals through the administrator terminal 100 or the remote control device 500, or various dynamic images are used to create lighting patterns. Control it so that it can be expressed, or when a failure occurs in the output segment of the landscape lighting device 400, check the relevant status information and wirelessly transmit the failure information of the lighting to the manager terminal 100 to process the obstacles to the landscape in real time. a management server (300) that allows this;
An address, a unique identification code, is assigned to each lighting fixture, so when the lighting fixture is connected to one signal line, one lighting fixture is set to MASTER and the other lighting fixture is automatically changed to SLAVE, so the scenery stored in the MASTER lighting fixture is automatically changed to SLAVE. It operates in a redundant structure for directing or driving, is equipped with an IR sensor and segment module inside, and is protected with tempered glass on the outside. The main control unit on the top of the lighting fixture is attached with a single PCB to display the lighting fixture status and input address. It operates to display the voltage CHECK and communication status of the lighting fixture, and the lower sub-control unit is provided in the SMPS box inside the lighting fixture to perform DIMMING and color rendering. The sub-control unit is set to 4CH of RGBW and dimming is set to 10. It is operated to be set in stages, so that the status information of each landscape light can be displayed and confirmed through the segment output unit, and the status information of the voltage and illuminance of the lighting device is displayed according to the input signal of the assigned unique address, allowing communication for each lighting device. Status and error information can be checked, or the brightness of the lights can be adjusted through DMX communication, DC power status display, and dimming control through the segment output part of the LED display window, and information on the illuminance and dimming status of each landscape light. A landscape lighting device (400) that transmits to the administrator terminal (100) or the management server (300) to be displayed; and
It is wirelessly linked with the landscape lighting device 400 to check the address, which is a unique number assigned to each lighting fixture, and when changing the address, if another lighting fixture is within a very short distance, only the lighting fixture to be changed is reset and controlled to be changed. A signal is transmitted, and status information of the sensor unit located around the landscape lighting device 400 provided by the management server 300 is received. Voltage and brightness information displayed on the segment output unit of another lighting fixture located nearby according to the set information. A landscape lighting control device equipped with a segment, comprising a remote control device (500) that controls the brightness of the lighting fixtures to produce dimming by changing the brightness and illuminance of individual lighting fixtures in consideration of the. delete delete delete

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