KR100892297B1 - Method and apparatus for scene lighting control system having self diagnosis function - Google Patents

Abstract

A system for controlling landscape lighting is provided to rapidly correspond to a malfunction state by transmitting a malfunction generation signal including identification information and malfunction information to a managing terminal of a remote area. A stabilizer(120) prevents an increase of a current. A lighting lamp(140) is emitted based on a driving power source supplied from outside. A stabilizer sensing circuit part(130) monitors an operation state of the stabilizer, and outputs a first malfunction signal. A lamp check circuit part(150) checks an operation state of the lighting lamp, and outputs a second malfunction signal. A display part(183) outputs display information. A lighting control part(160) transmits a malfunction generation signal including identification information and malfunction information to a managing terminal of a remote area.

Description

Scene lighting control system with self-diagnostic function and its self-diagnosis method

The present invention relates to a landscape lighting control system having a self-diagnostic function and a self-diagnostic method, and more particularly, an administrator easily maintains a plurality of landscape lighting control systems, for example, a landscape lighting control system remotely. The landscape lighting control system detects its own operation status, displays fault information by location, or transmits a failure occurrence signal including the identification information of the landscape lighting control system and the type of failure to a remote management terminal. The present invention relates to a landscape lighting control system having a self-diagnosis function and a self-diagnosis method capable of quickly responding to a failure condition.

Today, with increasing social incomes and increasing interest in diverse cultural life, many landscape lighting control systems are being introduced in the real world to emit light at night without natural light (visible light of the sun and reflected light of the moon).

For example, a street light system that illuminates the street at night, or a landscape lighting control system for aesthetics to be viewed by the public by viewing cultural assets or works of art at night is installed.

Such a landscape lighting control system is constructed as a system that illuminates a set area by emitting light lamps based on the driving power supplied from the outside, and maintenance of the landscape lighting control system is generally performed periodically or aperiodically by the manager. They visit the area where the system is installed and take a test of the failure of the landscape lighting control system.

Currently, the maintenance method of the landscape lighting control system requires hiring an experienced manager to manage many of the landscape lighting control systems scattered locally. Therefore, the maintenance of the landscape lighting control system requires a lot of maintenance costs, and the failure of the landscape lighting control system should be tested. Therefore, much management time is consumed.

Therefore, it is necessary to develop a system method that can effectively maintain and manage a lot of geographically dispersed landscape lighting control systems at low cost.

The present invention is proposed to solve the above-mentioned problems, landscape lighting control system having a self-diagnostic function that can easily maintain a number of landscape lighting control system that is installed far away in the region by a skilled manager and The purpose is to provide a self-diagnosis method.

According to the present invention, the landscape lighting control system detects an operation state by itself, displays failure information for each location, or transmits a failure occurrence signal including identification information and type of failure information of the landscape lighting control system to a remote management terminal. The purpose of the present invention is to provide a landscape lighting control system having a self-diagnosis function and a self-diagnostic method, which can quickly identify and respond to a failure condition.

Landscape lighting control system having a self-diagnostic function according to an aspect of the present invention for solving the above problems, the ballast to handle the stability function to prevent the increase of current, and the light emission based on the driving power supplied from the outside A lighting lamp to detect an operation state of the ballast and a ballast detection circuit unit configured to provide a first failure signal when a failure occurs, and a second failure signal to detect an operation state of the lighting lamp and to detect a failure state. A lamp check circuit unit configured to provide a display unit, a display unit implemented as a display element for outputting display information, and the ballast detection circuit unit or the fault check signal received from the lamp check circuit. Output information to the display unit or identification information of the landscape lighting control system through a network It includes an illumination control section for transmitting a failure signal contains the type information of the failure to a remote management terminal.

The lighting control unit is applied to the driving power supplied from the outside in a state above / below the reference range, and cuts off the driving power.

The landscape lighting control system further includes a battery for applying a driving power,

When the driving power is stopped, the lighting control unit transmits a failure occurrence signal to the management terminal based on the driving power applied from the battery, and emits the lighting lamp with the driving power applied from the battery.

The landscape lighting control system further includes a timer for providing date and time information,

The lighting control unit controls the ON / OFF of the lighting lamp by determining seasonal sunset and sunrise time zones based on the date and time information.

The landscape lighting control system further includes a voltage / overcurrent limiting circuit unit configured to limit the reference voltage and the current when the driving power supplied from the outside exceeds the reference voltage and the current.

The lighting control unit transmits a current limiting signal capable of limiting the current in stages during the seasonal sunset and sunrise time zones to the voltage / overcurrent limiting circuit unit to adjust the degree of emission of the illumination lamp.

The landscape lighting control system further includes an interface unit for transmitting a failure occurrence signal to the management terminal of the remote place through a network.

Self-diagnostic method of a landscape lighting control system according to another aspect of the present invention, if the driving power supplied from the landscape lighting control system exceeds the reference voltage and current, limiting to the reference voltage and current, and the current of Processing a stabilization function that prevents an increase, detecting an operation state of the stabilization function, an operation state of an illumination lamp that emits light based on driving power, and if a failure occurs in the stabilization function or the illumination lamp, Transmitting a failure occurrence signal including identification information of the landscape lighting control system and failure type information to a remote management terminal through a network; Steps.

The self-diagnostic method of the landscape lighting control system may further include outputting, by the landscape lighting control system, failure information for each location through a display unit when a failure occurs in the stabilization function or an illumination lamp.

The self-diagnostic method of the landscape lighting control system, when the landscape lighting control system stops supplying the driving power, emitting the lighting lamp with the driving power supplied from a battery, and seasonally based on date and time information. The method may further include controlling the driving of the landscape lighting control system by determining sunset and sunrise time zones.

The self-diagnosis method of the landscape lighting control system further includes the step of restricting the current of the driving power by the landscape lighting control system stepwise at the seasonal sunset and sunrise time, and adjusting the degree of light emission of the illumination lamp.

According to the present invention as described above, administrators who are not highly skilled in maintaining a plurality of landscape lighting control systems installed remotely in the region can be easily maintained from a remote location, the landscape lighting control system detects its own operation state, location By displaying the failure information for each star, or by transmitting a failure occurrence signal including the identification information of the landscape lighting control system and the type of failure information to the remote management terminal, the administrator can quickly respond to the failure state.

Hereinafter, a landscape lighting control system having a self-diagnostic function and a self-diagnostic method according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. Detailed description is omitted.

1 is a block diagram illustrating a landscape lighting control system having a self-diagnostic function according to a preferred embodiment of the present invention.

Referring to FIG. 1, the landscape lighting control system 100 according to the present invention includes a voltage / overcurrent limiting circuit unit 110, a ballast 120, a ballast sensing circuit unit 130, and an illumination lamp 140. And the lamp check circuit unit 150, the lighting control unit 160, the interface unit 170, the timer 181, the memory 182, the display unit 183, the keypad unit 184, and the battery 190. ).

When the driving power supplied from the outside exceeds the reference voltage and current, the voltage / overcurrent limiting circuit unit 110 limits the reference voltage and current so that the landscape lighting control system 100 does not cause a failure due to overvoltage and overcurrent. Do not.

Meanwhile, the voltage / overcurrent limiting circuit unit 110 includes, for example, a current limiting semiconductor element to limit the current of the driving power source according to the current limiting signal received from the lighting control unit. That is, the voltage / overcurrent limiting circuit unit 110 controls the current of the driving power applied to the lighting lamp 140 by gradually limiting the current of the driving power according to the current limiting signal to gradually adjust the brightness of the lighting lamp 140. To be adjustable.

The ballast 120 prevents the current from increasing as the driving power source that cuts off the overvoltage and the overcurrent in the voltage / overcurrent limiting circuit unit 110 is applied to the lighting lamp 140.

The ballast detection circuit unit 130 is implemented with various kinds of circuit elements, for example, resistors, diodes, etc., to monitor the operation state of the ballast 120, if a failure occurs in the ballast 120, For example, when the ballast 120 does not prevent an increase in current and the current continues to increase, the ballast failure signal is transmitted to the lighting controller 160 due to a failure of the ballast 120.

The illumination lamp 140 illuminates the set area by emitting light based on the driving power supplied through the ballast 120.

The lamp check circuit unit 150 is implemented with various types of circuit elements, and checks the operation state of the lighting lamp 140, and when a failure occurs in the lighting lamp 140, for example, the lighting lamp 140 emits light. If not, or in a bad state, the lamp failure signal is transmitted to the lighting control unit 160.

The battery 190 provides predetermined driving power in an emergency in which driving power is not applied to the landscape lighting control system 100.

The timer 181 provides time information, that is, date and time information. The timer 181 may be implemented in a real time clock (RTC) manner to provide date and time information in real time.

The memory 181 stores operation program information, configuration information, setting information, management information, and the like of the landscape lighting control system 100.

The display unit 183 is implemented as a display element such as an LED, an LCD, and the like, and outputs display information provided from the lighting controller 160. The display information output by the lighting controller 160 through the display unit 183 may be failure information for each location (eg, ballast failure or lamp failure).

The keypad unit 184 is implemented with a plurality of keys, so that the administrator can set or maintain the environment of the landscape lighting control system 100.

The interface unit 160 may enable the landscape lighting control system 100 to transmit a failure occurrence signal to a management terminal owned by an administrator through a network, for example, a PLC (Power Line Communication) communication method or a wired / wireless communication method. do.

2 is a view for explaining a signal transmission method of the landscape lighting control system according to a preferred embodiment of the present invention.

Referring to FIG. 2, when a failure signal is received from the ballast detection circuit unit 130 or the lamp check circuit unit 150, the lighting control unit 160 of the landscape lighting control system 100 receives the failure occurrence signal in a PLC communication method or in / between. The wireless terminal transmits the management terminal 200 to a remote location. In addition, the lighting controller 160 may transmit a failure occurrence signal to the management terminal 200 through a short range communication method, for example, a Zigbee communication method.

At this time, the lighting control unit 160 transmits a failure occurrence signal including the identification information of the landscape lighting control system and the type of the failure occurred to the management terminal 200, so that the manager can determine the location and location of the landscape lighting control system. Check the type of fault that occurred. Therefore, the manager can quickly visit the area in which the landscape lighting control system 100 in which the failure has been installed and repair the failure.

That is, the interface unit 170 is composed of a plurality of interfaces (171, 172) that can be connected to different types of networks, the landscape lighting control system 100 through the various types of networks to the failure occurrence signal management terminal ( 200).

In addition, the management terminal 200 may correspond to a computer terminal provided in the management station, a mobile terminal such as a mobile phone, PDA, etc., all kinds that can exchange signals with the landscape lighting control system 100 through the network. Can be used.

On the other hand, the lighting control unit 160 is the abnormality of the driving power applied through the voltage / overcurrent limiting circuit unit 110, that is, the driving power is applied in a state over / below the reference range, the ballast 120 or the lighting lamp 140 In case of abnormal power supply, cut off in order to prevent the failure.

In addition, the lighting controller 160 checks whether the supply of the driving power is stopped, and when the driving power is stopped, transmits a failure occurrence signal to the management terminal 200. In this case, since the supply of the driving power is stopped, the lighting controller 160 receives the driving power from the battery 190 and transmits a failure occurrence signal to the management terminal 200.

In addition, when the supply of the driving power is stopped, the lighting control unit 160 emits the lighting lamp 140 with the driving power supplied from the battery 190 so that the landscape lighting control system 100 maintains the light emitting state even in an emergency. do.

When the failure control unit 160 receives a failure signal from the ballast detection circuit unit 130 or the lamp check circuit unit 150, the lighting control unit 160 transmits a failure occurrence signal to the management terminal 200, or displays the failure information for each location through the display unit 183. Outputs Therefore, even if the manager of the landscape lighting control system 100 can check the location-specific failure information even if the administrator is not skilled, maintenance of the landscape lighting control system 100 becomes easy.

The lighting controller 160 controls the driving of the landscape lighting control system 100 based on the operation program information stored in the memory 182. For example, when the automatic control mode is set, the lighting controller 160 controls driving of the landscape lighting control system 100, that is, ON / OFF based on the date and time information provided from the timer 181.

At this time, the lighting controller 160 turns on the landscape lighting control system 100 at sunset time zone and turns off the landscape lighting control system 100 at sunrise time zone based on the date and time information provided from the timer 181. In addition, the lighting controller 160 may determine the seasonal sunset and sunrise time zones based on the date.

On the other hand, the lighting control unit 160 is gradually brightened or darkened due to the west light at sunset and sunrise time, it is effective to gradually adjust the degree of emission of the illumination lamp 140. Therefore, the lighting controller 160 transmits a current limiting signal to the voltage / overcurrent limiting circuit unit 110 at seasons of sunset and sunrise to adjust the degree of emission of the illumination lamp 140.

In addition, the manager recognizes the failure of the landscape lighting control system 100 through the management terminal 200, and transmits a control signal to the landscape lighting control system 100 by using the management terminal 200, landscape lighting control The system 100 may be repaired or the environment may be set. At this time, the manager may use the management terminal 200 to manage each landscape lighting control system 100 based on identification information of the landscape lighting control system 100. Remote control.

3 is a flowchart illustrating a self-diagnosis method of a landscape lighting control system according to the present invention.

Referring to FIG. 3, when the landscape lighting control system 100 according to the present invention exceeds the reference voltage and current supplied from the outside, the landscape lighting control system 100 limits the reference voltage and the current to the reference voltage and the current (S 100).

The landscape lighting control system 100 processes a stable function to prevent the current from increasing while driving power that cuts off the overvoltage and the overcurrent is applied to the lighting lamp 140 (S110).

The landscape lighting control system 100 checks the operation state of the stabilization function and the operation state of the illumination lamp 140 that emits light based on the driving power through the ballast detection circuit unit 130 implemented by various kinds of circuit elements ( S 120).

The landscape lighting control system 100 transmits a failure occurrence signal to a management terminal 200 of a remote place through a network when a failure occurs in the stabilization function or the lighting lamp 140 (S 130).

The failure occurrence signal transmitted from the landscape lighting control system 100 to the management terminal 200 includes identification information of the landscape lighting control system and information on the type of the failure, so that the administrator can determine the location and location of the landscape lighting control system. Check the type of fault that occurred.

In addition, the landscape lighting control system 100 outputs failure information for each location through the display unit 183 when a failure occurs (S 140).

On the other hand, the landscape lighting control system 100 checks whether there is an abnormality of the driving power applied, that is, whether the driving power is applied in a state above / below the reference range, and if the abnormal power is applied, and blocks (S 150).

In addition, the landscape lighting control system 100 checks whether the supply of the driving power is stopped, and when the driving power is stopped, transmits a failure occurrence signal to the management terminal 200, and the driving power supplied from the battery 190. By illuminating the lighting lamp 140, the landscape lighting control system 100 to maintain the light emitting state even in an emergency (S 160).

The landscape lighting control system 100 controls the driving of the landscape lighting control system 100, that is, ON / OFF based on the date and time information provided from the timer 181 (S 170).

At this time, the landscape lighting control system 100 turns on the landscape lighting control system 100 at sunset time zone based on the date and time information provided from the timer 181, and turns off the landscape lighting control system 100 at sunrise time zone. Let's do it. In addition, the lighting controller 160 may determine the seasonal sunset and sunrise time zones based on the date.

In addition, the landscape lighting control system 100 is gradually brightened or darkened due to the west light at sunset and sunrise time, it is effective to gradually adjust the degree of emission of the illumination lamp 140. Therefore, the lighting controller 160 transmits a current limit signal to the voltage / overcurrent limiting circuit unit 110 at seasons of sunset and sunrise to adjust the degree of emission of the lighting lamp 140 (S 180).

At this time, the landscape lighting control system 100 by controlling the current of the driving power applied to the lighting lamp 140 by step-by-step limiting the current of the driving power through the voltage / overcurrent limiting circuit unit 110, the lighting lamp 140 The brightness of the step can be adjusted.

Although the present invention has been described in detail only with respect to the described embodiments, it will be apparent to those skilled in the art that various modifications and variations are possible within the technical spirit of the present invention, and such modifications and modifications belong to the appended claims.

1 is a block diagram illustrating a landscape lighting control system having a self-diagnostic function according to a preferred embodiment of the present invention.

2 is a view for explaining a signal transmission method of the landscape lighting control system according to an embodiment of the present invention.

Figure 3 is a flow chart for explaining the self-diagnostic method of landscape lighting control system according to the present invention.

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

100: landscape lighting control system 110: voltage / overcurrent limiting circuit

120: ballast 130: ballast detection circuit

140: lighting lamp 150: lamp check circuit

160: lighting control unit 170: interface unit

181: timer 182: memory

183: display unit 184: keypad unit

190: battery

Claims (10)

In landscape lighting control system, With a ballast to handle the stability function to prevent the increase of current, Lighting lamps that emit light based on the driving power supplied from the outside, A ballast detection circuit unit configured to detect an operation state of the ballast and to provide a first failure signal when a failure occurs; A lamp check circuit unit for detecting an operation state of the lighting lamp and providing a second failure signal when a failure occurs; A display unit implemented as a display element and outputting display information; When the failure signal is received from the lamp inspection circuit, the ballast detection circuit unit outputs display information corresponding to the failure information for each location to the display unit, or identification information of the landscape lighting control system and type of failure information are output through the network. A lighting controller for transmitting a failure occurrence signal included to a remote management terminal; The lighting control unit determines the seasonal sunset and sunrise time zones based on the date and time information, and controls the driving of the landscape lighting control system ON / OFF, and restricts the current of the driving power stepwise to control the light emission level of the lighting lamp. Scenery lighting control system with self-diagnostic function to manage fault information including adjustment by time delete delete delete delete delete delete delete delete delete

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