KR101180488B1 - intelligent lighting equipment mamagement system - Google Patents

Abstract

The present invention relates to a lighting facility management system having a main controller for managing lighting while communicating with sub-control modules for driving the lighting on / off, the sub-control module controls the supply and interruption of power to the lighting. A driving unit for controlling the driving unit, a sub communication unit for communicating with the main controller, a current detecting unit for detecting a current applied to the lighting unit, and a driving unit to turn on / off the lighting unit according to the set operating conditions, and according to the set metering pattern And a sub controller for providing current value information detected through the detection unit to the main controller through the sub communication unit, wherein the main controller provides from the sub control modules on the basis of the initial reference setting value for the lamp corresponding to each of the sub control modules. The current variation rate is calculated over time of the current value, and the calculated current variation rate is And calculating the predicted life corresponding to the set condition replacement provides enabling the reading. According to such a lighting facility management system, by providing a predicted lifespan according to the actual use state for the lamps can be applied more efficiently to the selection of the replacement lamps provides an advantage that can reduce the economic waste.

Description

Intelligent lighting equipment mamagement system

The present invention relates to a lighting equipment management system, and more particularly, to a lighting equipment management system that can provide the replacement time information by calculating the life expectancy of a plurality of lights.

Large buildings, department stores, and apartments that manage a large number of lights are expensive and manpower is required to replace the lights according to their use.

In the case of the individual replacement method that checks only when there is a failure of a plurality of lights to be managed and replaces them individually, it is not possible to plan the replacement time and the intermittent replacement work takes place, resulting in a high administrative cost including labor costs. As a result, most of them use a batch replacement method that replaces batches at predetermined exchange times.

However, in the case of a batch replacement method, labor costs for maintenance are reduced, but when some lamps deteriorate in the period between batch replacement cycles, it is difficult to cope with the replacement of the lamps irrespective of the actual state even if the lamps can be extended and used. Therefore, there is a disadvantage that the waste factor can be increased in terms of resource utilization.

The present invention was devised to improve the above problems, and the lighting equipment management system that supports the appropriate determination of the replacement time by collecting the diagnostic information according to the progress of use of the management target lamps and providing the life expectancy information The purpose is to provide.

In order to achieve the above object, the lighting facility management system according to the present invention is a lighting facility management system having a main controller for managing the lighting while communicating with sub-control modules for driving the lighting on / off, the The sub control module includes a driver for controlling supply and interruption of power to the lamp; A sub communication unit which communicates with the main controller; A current detector for detecting a current applied to the lamp; A sub controller configured to control the driving unit to turn on / off the lamp to correspond to a set operation condition, and to provide current value information detected through the current detector to the main controller through the sub communication unit according to a set metering pattern; The main controller calculates a current variation rate of a current value provided from the sub control modules based on an initial reference setting value for a lamp corresponding to each of the sub control modules, and calculates the current variation rate. The life expectancy corresponding to the replacement condition set from the above is calculated and provided to enable reading.

According to an aspect of the invention, the sub-control module further includes a reset button for instructing the initialization when the lamp is replaced; the sub-control unit is a reset signal for the lamp and the lamp when the reset button is operated The initial drive current value of the transmission to the main controller through the sub communication unit, the main controller is the start time and the initial drive current value for counting the operation time for the lamp of the sub-control module received the reset signal Set to the initial reference set value.

The main controller preferably calculates a prediction life corresponding to the replacement condition set from the current variation rate, and provides the replacement target time belonging to the calculated prediction life in a set periodic maintenance interval unit.

More preferably, the sub control module is further provided with a replacement display lamp for informing that the replacement display object, and the sub control unit drives the replacement display lamp to be turned on when a replacement object determination signal is received from the main controller through the sub communication unit. do.

According to the lighting equipment management system according to the present invention, by providing a prediction life according to the actual use state for the lamp can be applied more efficiently to the selection of the replacement target lamp provides an advantage that can reduce the economic waste.

1 is a block diagram showing a lighting system management system according to the present invention,
FIG. 2 is a block diagram of the sub control module of FIG. 1;
3 is a block diagram of the main controller of FIG. 1.

Hereinafter, a lighting system management system according to a preferred embodiment of the present invention with reference to the accompanying drawings will be described in more detail.

1 is a block diagram showing a lighting system management system according to the present invention, Figure 2 is a block diagram of the sub-control module of Figure 1, Figure 3 is a block diagram of the main controller of FIG.

1 to 3, the lighting facility management system 100 includes a lighting facility 110 and a main controller 170.

Lighting equipment 110 is composed of a plurality of lamps 150 and the sub-control module 130.

Here, the sub control module 130 is connected to the corresponding lamp 150 to control the control target lamp 150.

As the lighting 150 is controlled by the sub-control module 130, various light sources, for example, an incandescent lamp, a fluorescent lamp, a light source arrayed with a light emitting diode, and various known light sources may be applied.

Each of the sub-control modules 130 is assigned a unique identification number so as to be distinguished from the main controller 170 to communicate with the main controller 170 through a wired or wireless communication interface.

The sub control module 130 includes a sub controller 131, a sub communication unit 133, a driver 135, a current detector 137, an operation unit 139, and a display unit 141.

The driving unit 135 is controlled by the sub controller 131 to control supply and interruption of power to the lamp 150.

The driving unit 135 controls the power supply line for supplying power to the lamp 150 and may be constructed to additionally provide a brightness control function.

In the illustrated example, an example of a structure capable of controlling the power supply on / off through the power supply line from the driving unit 135 to the lighting unit 150 is illustrated and is common to the sub control module 130 to avoid the complexity of the drawing. The power supply line is omitted.

The sub communication unit 133 is controlled by the sub control unit 131 to communicate with the main controller 170.

The communication method between the sub communication unit 133 and the main controller 170 may be wired or wireless communication.

The current detector 137 detects a current applied to the lamp 150 and provides it to the sub controller 131.

The current detector 137 may be installed to detect a current applied to the lamp 150.

The sub controller 131 controls the driving unit 135 to turn on / off the lamp 150 in correspondence with the set operation condition, and the sub communication unit (131) controls the current value information detected through the current detector 137 according to the set reading pattern. 133 is provided to the main controller 170.

As an example of the meter reading pattern, the sub-control unit 131 may set a current interval after a meter reading waiting time, for example, 1 hour after the controlled lamp 150 is turned on to reach a normal operating temperature, for example, an interval of 30 minutes. Can be constructed to detect and provide.

In addition, the sub-control unit 131 may be configured to provide an average of three times the value except the lowest value and the highest value among the values measured five times at an interval of one second when detected at 30-minute intervals as a current value of a corresponding period. Can be.

The operation unit 139 is configured to set driving conditions for the lamp 150 and may be omitted when setting driving conditions by the main controller 170.

Reference numeral 140 is a reset button (R) is used to instruct the initialization when the lamp 150 is newly replaced in the sub-control module 130.

In this case, when the reset button 140 is operated, the sub controller 131 transmits the reset signal for the lamp 150 and the initial driving current value of the lamp 150 to the main controller 170 through the sub communication unit 133.

In addition, the main controller 170 sets the start start time and the initial drive current value for counting the start time for the lamp 150 of the sub control module 130 in which the reset signal is received as the initial reference set value.

The reset button R may be omitted when the initialization process is directly set by the administrator in the main controller 170.

The display unit 141 is controlled by the sub controller 131 to display display information, and reference numeral 142 denotes a replacement display lamp.

Replacement display lamp 142 is applied to use when you want to inform that the replacement display target.

The sub controller 131 drives the replacement display lamp 142 to be turned on when the replacement target determination signal is received from the main controller 170 through the sub communication unit 133.

The main controller 170 manages the lamp 150 while communicating with the sub-control modules 130 driving the lamp 150 on / off.

The main controller 170 may be constructed in a conventional computer structure.

The main controller 170 includes a main control unit 171, a main communication unit 173, an operation unit 179, a table display unit 181, and a storage device 175.

The operation unit 179 is an input device such as a keyboard and a mouse.

The display unit 181 is controlled by the main control unit 171 to display display information.

The main communication unit 173 provides the information transmitted from the sub control module 130 to the main control unit 171 through a communication interface, and transmits a control signal to the sub control module 130.

The memory device 175 is provided with a light management unit 177 which is an application program for calculating and managing the predicted life of each lamp 150.

The lighting management unit 175 may set various setting conditions supported by the manager through the display unit 181 for managing the lighting such as the day of the week, hourly driving on / off conditions, and regular maintenance intervals for the registered lamps 150. Provides environment setting screen.

The lighting manager 177 records initial reference setting values for the lamps 150 corresponding to each of the sub-control modules 130, and then records current values provided from the sub-control modules 130 at set intervals. From this, the current variation rate is calculated over time, and the estimated life expectancy corresponding to the set replacement condition is calculated by using the recorded initial reference set value from the calculated current variation rate, and the calculated prediction life is listed and provided for viewing. do.

Here, the initial reference setting value of the lighting management unit 177, as described above, after the administrator replaces the new lamp 150, the reset button 140 is described above from the sub-control module 130 after the operation signal is received. It can be constructed to record the first received current value according to the metering pattern.

Unlike this, the lighting management unit 177 provides a reset operation key in the lamp status view information provided to the manager, and operates the reset operation key by using the lamp 150 identification information that the manager knows after replacing the lamp 150. Subsequently, it may be constructed to record the current value received from the sub control module 130 as an initial reference setting value.

In addition, the lighting management unit 177 classifies and provides a replacement target time belonging to the calculated life expectancy by the set regular maintenance interval unit.

As an example, when the initial driving current value, which is the initial reference set value, is set to 100%, the replacement condition is set to be replaced when the current value decreases to 80% with respect to the initial reference set value, the lighting management unit 177 is a lighting lamp. If the current fluctuation rate calculated for A is 3000 hours after the current value is 90% of the initial reference value, and the current fluctuation rate calculated for the lamp B is 3000 hours after the 3000 hours use, the life expectancy of the lamp A is 6000 hours. The lamp B is calculated at 4000 hours.

On the other hand, the example of the case in which the driving current of the lamp 150 when the deterioration due to the use has been described, but when the drive current of the lamp 150 during the deterioration due to the use is increased, the replacement condition is set to the initial reference When the current value increases with respect to the value, for example, when the current value is increased to 120%, the replacement object may be applied in a manner set by the replacement object.

In addition, the lighting management unit 177 classifies the replacement target time belonging to the estimated life expectancy calculated from the current change rate according to the set replacement condition and the use time, provided by the administrator by viewing the set regular maintenance interval unit.

Here, the lighting management unit 177 may be replaced in the current maintenance period when the estimated life of the lamp 150 calculated for the set maintenance period is longer than the current maintenance period but is completed before the next regular maintenance period. To be classified and replaced as a replacement target, and transmits information indicating that the replacement target lamp has been determined to the corresponding sub control module 130, and the sub controller 131 replaces when the replacement target determination signal is received through the sub communication unit 133. The display lamp 142 is driven to be on.

The lighting facility management system 100 described above can manage the replacement time more efficiently by calculating and providing a life expectancy from the drive current change data according to the use of each lamp 150.

In addition, since the operator needs to replace by using the lighting of the replacement display lamp 142 of the sub-control module 130 during the regular maintenance period, the replacement operation can be performed smoothly.

130: sub control module 170: main controller

Claims (4)

delete delete In the lighting equipment management system having a main controller for managing the lighting while communicating with the sub-control modules for driving the lighting on / off,
The sub control module
A driving unit controlling supply and interruption of power to the lamp;
A sub communication unit which communicates with the main controller;
A current detector for detecting a current applied to the lamp;
A sub controller configured to control the driving unit to turn on / off the lamp to correspond to a set operation condition, and to provide current value information detected through the current detector to the main controller through the sub communication unit according to a set metering pattern; Equipped,
The main controller calculates a current rate of change of a current value provided from the sub-control modules based on an initial reference setting value for a lamp corresponding to each of the sub-control modules over time, and replaces the set value with the calculated current rate of change. Providing the reading is possible by calculating the life expectancy corresponding to the condition,
The sub control module further includes a reset button for instructing initialization when the lamp is replaced.
The sub controller transmits a reset signal for the lamp and an initial driving current value of the lamp to the main controller through the sub communication unit when the reset button is operated.
The main controller sets the start start time and initial drive current value for counting the start time for the lamp of the sub control module in which the reset signal is received as the initial reference set value,
And the main controller calculates a prediction life corresponding to a replacement condition set from the current variation rate and classifies and provides a replacement target time to which the calculated prediction life belongs in a set periodic maintenance interval unit. According to claim 3, The sub control module is further provided with a replacement display lamp for indicating that the replacement display target,
And the sub control unit drives the replacement display lamp to be turned on when a replacement target determination signal is received from the main controller through the sub communication unit.

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