KR101063334B1 - Apparatus for controlling lighting with scheduling function - Google Patents

Abstract

The present invention relates to a lighting control device having a scheduling function, and more particularly, in the system for managing a plurality of lighting, by using the scheduling function to adapt to the environmental change of each light is arranged to operate the energy The present invention relates to a lighting control device having a scheduling function that can reduce the cost and ensure the convenience of lighting management, the reduction of lighting power, and the convenience of maintenance. The present invention can provide a wider range of line length required for the control of the existing local control unit through serial communication with the server and ensure stable communication, and by applying a scheduling table, based on time, environment or weather By varying the illuminance value or optimizing the customized illuminance for individual personnel, it is possible to provide efficient lighting control management and route guidance and work environment creation with optimized illuminance for individual personnel.

Description

Lighting control device with scheduling function {Apparatus for Controlling Lighting with scheduling function}

The present invention relates to a lighting control device having a scheduling function, and more particularly, in a system for managing a plurality of lights, by using the scheduling function, each lighting is adapted to an environment change in which the lighting is arranged to save energy. The present invention relates to a lighting control device having a scheduling function for ensuring convenience of lighting management, saving of lighting power, and convenience of maintenance.

As modernization increases the size of the building, the complex of modern buildings (apartments, villas, officetels, venture towers, etc.) have lights such as incandescent lamps, fluorescent lights or LED lights around the sidewalks leading to underground parking lots and doors. In the assembly building, lighting is installed in a place such as a corridor.

The lights are currently placed on the site of a large complex of aggregates, and a large number of lights are arranged according to the regulations for securing the underground parking lot corresponding to the building size, and intelligent control for effectively controlling the multiple lights. A model is required.

One of the existing proposed models includes a sensor and a controller for each light installed in the underground parking lot, so that the sensor detects the occupant when the occupant passes the place where the light is installed, and the controller temporarily raises the illuminance of the light. There is something to do.

However, the lighting provided with such a sensor and a controller is expensive in itself, and many installations in a large place such as an underground parking lot are inefficient in terms of cost, and malfunctions frequently occur because they are dependent on the sensor. There is a problem.

In addition, another of the existing lighting control model for power saving is a controller for controlling a plurality of lights installed in the underground parking lot to detect the movement through the image obtained through the camera, the position of the person or vehicle among the plurality of lights There is an adjustment of the illumination of the corresponding light.

Such a model has a considerable time delay for a process for detecting motion in real time through an image acquired through a camera and a process from controlling a light to checking a motion after the motion is confirmed by the calculation. It is difficult to adjust the lighting in response immediately. Therefore, since the lighting is often adjusted after the person or vehicle has passed, the efficiency is low, and the lighting does not respond properly, thereby increasing the risk of an accident.

In addition, such a model has a large amount of calculation due to continuous determination, and a large amount of power consumption due to the control of individual lighting in real time, and this may directly reduce the lighting life.

Therefore, in Patent Application Nos. 981274 and Patent Application Nos. 2010-0085966, filed and filed on March 11, 2010 and filed on September 10, 2010, the present applicant controls the lighting in consideration of the user's copper wire, to meet the needs of the user. The existing problem is solved according to the technology that can greatly reduce the malfunction and the amount of calculation by controlling the lighting located in the corresponding line in advance along the shortest distance from the user's location to the destination.

According to the patent, the management server is configured to control the lighting located in the prediction movement path to the lighting control server to control the illumination by grasping the user's prediction movement path.

By the way, the need for lighting control considering the basic brightness and operating environment is required according to the large scale of the complex, and several kinds of lighting fixtures have appeared, causing some problems.

First, it is difficult for the lighting control server to manage all the lights, and even if a separate local controller is connected to the lighting control server, a problem occurs in the length and bandwidth of the control line with the lighting control server.

In addition, since the management server that provides different control commands to the user's operation to the lighting control server performs the active control according to the routine control and detection at the same time, the load is high, the management cost increases, and damage occurs in the case of malfunction.

In addition, many high efficiency lighting devices have been introduced, but only the previously designed lighting can be controlled to reduce management efficiency and reduce energy savings.

The present invention provides a device having a scheduling function to configure a local control unit for controlling the lighting to reduce the load caused by the transmission of the control signal for the lighting control, and to reduce the cost of management by enabling efficient lighting control There is a purpose.

In addition, an object of the present invention is to provide a device that ensures stable lighting control by overcoming the line length required for the control of the existing local control unit, and providing a protocol that effectively utilizes a limited bandwidth.

In addition, an object of the present invention is to provide a lighting control device having a versatility so that it is possible to apply various types of lighting to the lighting control device, which will be provided now or in the future.

Receiving a control signal from the management server having the target information and the path-related information according to the present invention for achieving the above object and generates a light control signal for controlling the illumination of the illumination in response to the control signal Lighting control device having a scheduling function to control the individual lights in conjunction with the, is configured between the light control server and a plurality of lights, when receiving the light control signal of the light control server to change the illuminance of the light, And a local lighting controller configured to control illumination of individual lights connected according to a pre-stored scheduling table and accumulate and reflect the lighting control state in the scheduling table when the lighting control signal is not received.

In this case, in the scheduling table, a control value of an illumination for an illumination value for each time, environment, or weather may be set for each individual light.

The local lighting control unit may receive the lighting control signal through one of serial communication methods including the lighting control server and RS-485, 422, and 232.

On the other hand, the management server determines the predicted movement path of the target based on the detection of the sensing means for recognizing the object, and generates a control signal for a plurality of lights located on the predicted movement path to provide to the lighting control server, The lighting control server transmits the lighting control signal to the local lighting control unit that manages the lighting corresponding to the control signal, and the local lighting control unit adjusts the illuminance of the plurality of lights located on the predicted movement path based on the lighting control signal. Can be controlled.

In addition, when the actual movement route is different from the predicted movement route, the management server may generate a control signal for a different route according to the movement direction and provide the illumination control server to replace the existing control signal.

In addition, the management server determines the predicted movement path of the target based on the detection of the sensing means for recognizing the object, generates a control signal for a plurality of lights located on the predicted movement path and transmits to the lighting control server, DVR having a function of replacing the existing control signal by generating a control signal for a different path according to the moving direction and providing it to the lighting control server when the actual moving path is different from the predicted moving path based on the sensing means. (Digital Video Recorder) may be included.

The local lighting controller may accumulate the lighting control states according to the scheduling table and the lighting control signal in real time, calculate an average illuminance value of each light, and modify the illuminance of the individual light into a corresponding average illuminance value, respectively. The average of may be modified to maintain a predetermined reference illuminance value and stored in the scheduling table.

In addition, the local lighting control unit may further include a lighting compatible unit that adjusts to have the same brightness for a specific illuminance value between different types of lighting.

And a scheduling function for receiving the light control signal and controlling illumination for at least one light by communicating with a light control server for generating a light control signal for controlling the light according to the present invention for achieving the above object. The lighting control device includes a communication unit for receiving the control signal, a memory unit for storing spec information and identification information of illumination, and a same brightness value for a specific illuminance value between different types of illumination based on the spec information and identification information. A lighting compatible unit configured to adjust to have an illumination level, a scheduling unit in which illuminance values for individual lights are set for a case other than receiving the control signal, and illuminance values of the individual lights through the lighting compatible unit in response to the control signal If the control signal or the control signal is not received, based on the illuminance value set in the scheduling unit Controlling the individual light, and a control unit for reflecting the cumulative lighting control state to the scheduling unit.

The lighting control compatible unit may include a driving unit generating a driving signal corresponding to the type and illuminance value of the individual lighting, and a switching unit receiving the driving signal and switching the connection with the individual lighting according to the type of the driving signal. And a dimming controller for controlling the driving unit so that different kinds of lights have the same brightness with respect to a specific illuminance value included in the lighting control signal, and controlling a switching operation of the switching unit according to the type of the driving signal. Can be.

In addition, a plurality of sockets configured in different forms to be connected to the plug of the individual lighting is configured, a plurality of connector units for providing a recognition signal for the socket to which the plug is connected to the switching unit, and based on the recognition signal Generation of matching information matching the specification information and the identification information of the illumination is generated and stored in the memory unit and based on the matching information further includes a detection confirmation unit for detecting whether the abnormality of the dimming control of the dimming control and the switching operation of the switching unit; can do.

The present invention has the effect of reducing the cost of the control by transmitting a control signal for the light control by configuring a local control unit for controlling the lighting having a scheduling function, and to achieve an efficient light control.

In addition, the present invention can provide a wider coverage through the serial communication with the server to the line length required for the control of the existing local control and at the same time ensure a stable communication, by applying a scheduling table by time, environment or weather By varying the standard illuminance value or optimizing the customized illuminance for individual personnel, it is possible to provide efficient lighting control management and route guidance and work environment creation with optimized illuminance for individual personnel.

In addition, the present invention can apply various types of lighting to the lighting control device, which is presently or later provided, and has an effect of providing a lighting control device having a versatility to stably control the lighting control device.

1 is a block diagram of a lighting control device having a scheduling function in conjunction with the lighting control system according to the present invention.
2 is a detailed configuration diagram of a lighting control device according to the present invention.
Figure 3 is a detailed configuration of the lighting compatible unit according to the present invention.
4 is a block diagram of a connector unit according to the present invention.
5 is a view showing the illumination control according to the path guidance of the lighting control apparatus according to the present invention.
6 is a diagram illustrating a scheduling function of a lighting control device according to the present invention.

Lighting control device having a scheduling function according to the present invention in conjunction with the various lighting control system installed in the assembly building, when the control signal is received in response to the event generated by the monitoring means to control the lighting corresponding to the control signal, In other cases, the lighting is controlled according to the control method set in the scheduling table, and active control is performed only when necessary to reduce the load, reduce the management cost, and prevent the malfunction, thereby extending the life of the device.

At this time, as an embodiment of the lighting control system, there is a system for guiding the moving path through the control of the lighting to predict the moving path as shown in Figure 1, the lighting control system is a management server 30 and the light control server Light control device having a scheduling function according to the present invention may include a (20) may include a local lighting control unit 10 in conjunction with the management server 30 or the light control server 20. .

In addition, the management server 30 may include address information, occupant information including vehicle information, and route related information, and the management server 30 is based on the detection of the sensing means 40 for recognizing an object. After recognizing the parking location information and the vehicle information of the vehicle, the actual moving path of the occupant is confirmed, and the predicted moving path between the parking location and the address is determined based on the parking location information of the occupant and the path related information, and then the corresponding moving path is determined. Generate and provide a control signal for the lighting located in the lighting control server 20, the lighting control server 20 generates a lighting control signal for controlling the illumination of the corresponding light based on the control signal , May be transmitted to at least one local lighting control unit 10.

In addition, based on the detection of the sensing means 40 for recognizing an object, the resident information and the route-related information are collected from the DB of the management server 30, and the parking position information and the vehicle information of the vehicle are recognized. Determine an actual movement route, determine a prediction movement route between the parking position and the address based on the parking position information of the occupant and the route related information, and then generate the control signal for the lighting located on the prediction movement route; If the actual movement route is different from the predicted movement route based on the detection of the sensing means 40, a control signal for a different route according to the movement direction is generated and provided to the lighting control server 20 to replace the existing control signal. DVR (Digital Video Recorder) can be configured in the management server.

Hereinafter, a detailed configuration of a lighting control device having a scheduling function will be described in detail with reference to FIGS. 1 and 2.

First, referring to FIG. 1, the lighting control apparatus having the scheduling function according to the present invention is generated by the management server 30 controlling the monitoring means 40 based on the detection of the monitoring means 40. And a local lighting control unit 10 interlocked with the lighting control server 20 for receiving a control signal and generating a lighting control signal corresponding to the control signal, wherein the local lighting control unit 10 receives the lighting control signal. The illuminance of the individual lights 1 is controlled as a basis.

In this case, the sensing means 40 includes various sensors such as RFID or a photographing apparatus such as a camera, and the management server 30 recognizes an object from the sensing of the sensor or an image photographed through the camera to generate an event. Determine and generate a control signal for controlling the illuminance of the illumination (1) according to the event.

In addition, the control signal generated by the management server 30 may include the position information of the illumination (1) to be controlled in response to the occurrence of the event, and the illumination value of the illumination (1).

As described above, the management server 30 recognizes the occupants of the underground parking lot corresponding to the address of the occupants when the resident living in the assembly building is detected in the underground parking lot based on the detection of the sensing means 40 The control signal may include location information of at least one or more lights 1 located on the predicted movement path connecting the door and the current location of the occupant.

In addition, the management server 30 recognizes the manager of the assembly building on the basis of the detection of the sensing means 40 and a plurality of lights located on the minimum path from the office of the manager or the manager's current location to the office. The positional information of (1) may be included in the control signal.

Then, the lighting control server 20 receives the control signal from the management server 30, at least one local lighting control unit for controlling the illuminance of the plurality of lights (1) corresponding to the position information of the control signal ( 10) transmits an illumination control signal for controlling the illuminance of the illumination.

Accordingly, each of the local lighting controllers 10 controls the illumination of the corresponding light based on the received light control signal to change the illumination of a predetermined area or to obtain the illumination of the light constituting the predicted movement path of the occupant. The lighting can be adjusted differently to guide the resident to the route.

As described above, the management server 30 includes address information, occupant information including vehicle information, route related information, or ID information of the manager of the assembly building, and then identifies the occupant or the manager through the sensing means 40. The lighting control server 20 may be controlled to adjust the illumination of the local lighting control unit 10. In this way, the at least one local lighting control unit 10 may control the illuminance of the lighting located in its area to guide the resident to the moving path or control the illuminance of the lighting installed at the manager's work site.

In this case, the management server 30 may directly control the local lighting control unit 10 with the control signal.

In addition, the management server 30 may include a DVR, and the DVR may obtain the resident information and the route related information or the ID information of the manager of the assembly building from the DB of the management server. Accordingly, the DVR may control the sensing means 40 to recognize an object including a resident or a manager, and generate a predicted movement path or a work area of the manager as the control signal. Thereafter, the DVR transmits the control signal to the lighting control server 20, and manages the lighting corresponding to the predicted movement path and the work area based on the control signal through the lighting control server 20. The illumination of the illumination may be controlled by performing the control on the local lighting controller 10.

On the other hand, the lighting control server 20 may receive the control signal through the Ethernet communication with the management server 30, the lighting control server 20 and the local lighting control unit 10 is a conventional UTP transmission scheme In this communication connection, the connection range is narrowed and sufficient bandwidth is not secured, thereby interconnecting through one of the serial communication methods including RS-485, 422, and 232. 10) can be sent. Through such a serial communication connection method can increase the communication range, it is possible to ensure the transmission speed and sufficient bandwidth through the serial communication.

On the other hand, the local lighting control unit 10 is installed in a plurality to adjust the illuminance of the lighting (1) on the basis of the lighting control signal to the lighting belonging to a predetermined range, and if the lighting control signal is not received, the predetermined scheduling Efficient management of lighting is achieved by adjusting the illuminance of the lighting 1 according to the table, which will be described in detail with reference to FIG. 2.

FIG. 2 is a detailed configuration diagram of the local lighting control unit 10. The communication unit 110 receives the lighting control signal through a serial communication method with the lighting control server, and the scheduling unit 120 storing the scheduling table. And a memory unit 130 including a lighting table in which position information and specifications of each of the plurality of lights connected to the local lighting control unit are matched with each other, and a lighting compatible unit transmitting a driving signal corresponding to the specification of the lighting unit. 140 and the illumination control signal received from the communication unit 110 and the illumination table from the memory unit to match the illumination of the corresponding illumination through the lighting compatible unit 140, the illumination control signal is not received If not, it includes a control unit 150 for controlling the illumination of the illumination according to the scheduling table of the scheduling unit 120.

In this case, the control unit 150 may be preset a reference illuminance value, and the local lighting control unit 10 further includes a user interface unit 160 to receive an input for the reference illuminance value from a user to control the control unit. The reference illuminance value of 150 may be changed.

In addition, the controller 150 may change the reference illuminance value by receiving the illumination control signal. A detailed description of the reference illuminance value will be described below.

The spec included in the lighting table includes an electrical characteristic (voltage or current level) or a dimming level of the lighting, and the controller 150 controls the illumination of the lighting based on the lighting control signal or the scheduling table. The lighting compatible unit 140 is controlled, and the lighting compatible unit 140 adjusts the amount of current or voltage of individual lights based on the specifications of the lighting table so as to correspond to the illumination value included in the lighting control signal and the scheduling table. Or dimming level.

That is, the lighting compatible unit 140 may adjust to have the same brightness for a specific illuminance value between different kinds of lights.

This will be described in more detail with reference to the configuration of the lighting compatible unit 140 shown in FIG. 3.

First, the lighting compatible unit 140 may include a dimming control unit 141, a driving unit 142, a switching unit 143, and a detection / confirmation unit 144 as shown.

The controller 150 provides specifications and position information for at least one or more lights that are matched by calling an illumination table from the memory unit 130 based on the illumination control signal or the illumination value of each illumination set in the scheduling table. The dimming control unit 141 controls the driving unit 142 to generate a driving signal for one or more selected lights and corresponding illumination values.

According to the control of the controller 150, the dimming controller 141 controls to generate a driving signal corresponding to the specification of the light selected by the driving unit 142, and adjusts the driving signal to match the illuminance value. do.

In addition, the dimming controller 141 controls the switching unit 143 according to the signal type of the driving signal generated by the driving unit 142 so that the driving signal generated by the driving unit 142 is transmitted to the illumination. Switch.

That is, the driving unit 142 may generate a driving signal for controlling the dimming level in response to the specification of the lighting, or may generate a driving signal corresponding to the DC current, and the switching unit 143 may be a type of the driving signal. Accordingly, the signal connection with the driving unit 142 may be switched to transmit a driving signal corresponding to the individual lighting.

As such, according to the generation of different driving signals for each type of individual lighting, it is possible to provide versatility to cover various lighting.

In addition, different lighting types may be automatically recognized and registered in the lighting table, which will be described in detail through the sensing / checking unit 144 shown in FIG. 3 and the drawing shown in FIG. 4.

First, referring to FIG. 4 (a), the switching unit 143 is connected to a plurality of connector units 180 on which illumination is mounted, and the connector unit 180 provides a single connector with different specs as shown. Can be covered with

This is, as shown in Figure 4 (a) has a connection having a different shape for each of the spec different lighting, the connector 180 is recognized to distinguish the type of the connection when connected to the connection A signal may be generated and transmitted to the switching unit 143. In this case, the connection part may include a plug or an inverter.

In addition, as shown in (b) of FIG. 4, the connector unit 180 includes all different types of sockets A, B, and C corresponding to different connection units, and recognizes the connected sockets. You can generate a signal.

Accordingly, as shown in FIG. 3, the switching unit 143 transmits the recognition signal to the detection / confirmation unit 144, and the detection / confirmation unit 144 receives the recognition signal and receives the connector unit 180. Recognizing the presence of the illumination connected to the), and based on the recognition signal to generate the matching information with the specification information and the identification information of the corresponding illumination can be transmitted to the controller 150. In this case, the identification information may be identification information of the connector unit 180 to which the illumination is connected.

In addition, as illustrated in FIG. 3, the local lighting control unit 10 further includes a setting unit 170 connected to the sensing / confirming unit 144. Through the setting unit 170, the matching information regarding the arrangement and specification of the lighting installed in the individual connector unit 180 may be received.

Accordingly, the detection / confirmation unit 144 may receive the matching information manually input through the setting unit 170 and provide the matching information to the control unit 150.

Accordingly, the controller 150 may store the matching information in the lighting table 131 of the memory unit 130, and then describe individual lighting corresponding to the matching information based on the lighting table 131. As can be controlled.

At this time, the detection / confirmation unit 144 detects an abnormality in the dimming control of the dimming control unit 141 and the switching operation of the switching unit 143 based on the matching information, thereby making a stable illumination control operation. Can manage to lose.

As described above, a fluorescent lamp, a halogen lamp, a light emitting diode (LED) lamp, or the like may be variously applied to the illumination.

On the other hand, as described above, the local lighting control unit 10 is composed of a plurality of local lighting control unit 10 based on the light control signal of the light control server 20 according to the detection of the management server 30 Illumination being managed can be controlled while maintaining the above standard illuminance value. In addition, when the lighting control signal is not received, the local lighting controller 10 may optimize and manage the illumination of the entire lighting for each time, weather, or environment based on the scheduling table.

5 to 6, the management server 30 recognizes a specific object such as a resident or a manager through the sensing means 40, and adjusts the illumination of the lighting based on this. Illumination control in response to events such as resident's route guidance or manager's working environment optimization can be performed.

Therefore, as shown in FIG. 5, when the management server 30 recognizes the object through the monitoring means 40, an event corresponding to the object is generated and a control signal corresponding to the event is output to the lighting control server ( 20) to transmit.

The lighting control server 20 may transmit a lighting control signal to the local lighting control unit 10 to which the lighting corresponding to the event belongs based on the control signal.

For example, the management server 30 may generate route-related information or location information of a specific place as the control signal when the resident is, and the lighting control server 20 is the route-related information based on the control signal. Alternatively, in order to control the illuminance of the illumination located on the position information, an illumination control signal is generated and transmitted to at least one local lighting controller 10.

The local lighting control unit 20 may adjust the illuminance of the illumination located on the path related information or the position information to correspond to the illuminance value included in the illumination control signal.

Therefore, as shown in FIG. 5, when an object moves along a path corresponding to the path related information, the illuminance of illumination B, which is an illumination corresponding to the path related information, is brightly adjusted.

In this case, the local lighting control unit 10 adjusts the illumination of the illumination B brightly to correspond to the illumination value, and simultaneously adjusts the illumination of the illumination A not included in the path to a reference illumination value of which the average of the overall illumination is preset. Can be adjusted to satisfy. In addition, the illuminance value of the illumination included in the path and the illuminance value of the illumination not included in the path may be preset.

This saves power and enables efficient lighting management by satisfying events (path guidance, work environment optimization) corresponding to objects without setting the required illumination intensity higher than necessary.

In addition, as illustrated in FIG. 6, the local lighting controller 10 includes a scheduling unit 120 in which the scheduling table 121 of FIG. 2 is stored, so that an event by the management server 30 does not occur. In this case, the controller 150 of the local lighting controller 10 may adjust the illumination of the individual lights according to the illumination values of the individual lights set for each time, environment, or weather stored in the scheduling unit 120.

For example, the lighting can be turned on 100% during office hours (eg 8 to 19:00) and turned off after leaving the office. In addition, when a night worker is working and the lighting corresponding to the location of the worker is preset in the scheduling table 121, the lighting corresponding to the corresponding time and place is turned on and the remaining lighting is turned off, or the illumination value of the corresponding lighting is turned on. You can also set it to lighten and dim the rest of the lights.

In this case, a reference illuminance value may be set in the control unit 150, and the control unit 150 may adjust the illuminance value of the individual lights according to the scheduling based on the reference illuminance value, so that the average illuminance of the entire illumination is the reference illuminance. The illuminance of the illumination can be controlled to satisfy the value.

In addition, an ID signal for a specific object and a reference illuminance value corresponding thereto may be pre-stored in the scheduling table 121, and the controller 150 receives the illumination control signal including the ID signal. The illumination of the illumination may be controlled based on the reference illumination value of the scheduling table 121. Such a case may be applied when a desired standard illuminance value is different for each worker or a resident.

In addition, when the location information corresponding to a specific ID signal is matched to the scheduling table 121, the controller 150 may turn ON / OFF or illuminance value control of individual lights and other lights corresponding to the location information. When the lighting control signal receives a signal corresponding to a specific ID signal and a path guide, the individual lights belonging to the lighting control signal may be distinguished by adjusting ON / OFF or illuminance values.

In this case, the local lighting controller 10 may allow the average illuminance value of all the lights of the preset area managed by the local illumination control unit to maintain the reference illuminance value.

In other words, by providing an optimized illumination according to individual residents or individual managers, the user may be provided with an optimized illumination environment or guided path.

In addition, the controller 150 accumulates the lighting control state for the change in the illumination value of the individual lights according to the generation of the control signal of the management server 30 and the change in the illumination value of the individual lights according to the scheduling. A value may be generated to modify the illuminance of each of the individual lights to a corresponding average illuminance value, and the average of all the lights may be modified to maintain a predetermined reference illuminance value and stored in the scheduling table 121.

Thereafter, the controller 150 may perform illuminance control based on the scheduling table 121.

This can reduce the power consumed by the relatively low utilization light and increase the convenience of management by setting the low illuminance of the low utilization light.

10: local lighting control unit 20: lighting control server
30: management server 40: detection means
110: communication unit 120: scheduling unit
121: scheduling table 130: memory part
131: lighting table 140: lighting compatibility
141: dimming control unit 142: driving unit
143: switching unit 144: detection / confirmation unit
150: control unit 160: interface unit
170: setting portion 180: connector portion

Claims (11)

A scheduling function that receives a control signal from a management server having target information and path-related information and controls an individual light in conjunction with a lighting control server that generates a lighting control signal for controlling illumination of illumination in response to the control signal. In the provided light control device,
It is configured between the lighting control server and a plurality of lights, and changes the illuminance of the lighting when receiving the lighting control signal of the lighting control server, the individual lighting connected according to the pre-stored scheduling table if the lighting control signal is not received A local lighting control unit for controlling the illuminance of the light source and cumulatively reflecting the lighting control state in the scheduling table,
The local lighting control unit,
The lighting control state according to the scheduling table and the lighting control signal is accumulated in real time to calculate an average illuminance value of each light, thereby modifying the illuminance of the individual light to a corresponding average illuminance value, respectively, wherein the average of all the lights is a preset standard illuminance. Modify it to maintain the value and store it in the scheduling table,
And a lighting compatible unit configured to adjust individual lights to have the same brightness based on a specification of the lighting table so as to correspond to the illumination control signal or the illumination value included in the scheduling table.
The method according to claim 1,
The scheduling table is a lighting control device having a scheduling function, characterized in that the control value of the illumination for the illumination value for each time, environment or weather is set for each individual light.
The method according to claim 1,
And the local lighting control unit receives the lighting control signal through one of a serial communication method including the lighting control server and RS-485, 422, and 232.
The method according to claim 1,
The management server determines the predicted movement path of the object based on the detection of the sensing means for recognizing the object, generates a control signal for a plurality of lights located on the predicted movement path and provides it to the lighting control server,
The lighting control server transmits the lighting control signal to the local lighting control unit managing the lighting corresponding to the control signal,
And the local lighting control unit controls illumination of a plurality of lights positioned on a predicted movement path based on the lighting control signal.
The method according to claim 4,
The management server generates a control signal for a different path according to the moving direction when the actual moving path is different from the predicted moving path, and then provides the lighting control server to replace the existing control signal. Lighting control device.
The method according to claim 1,
The management server determines the predicted movement path of the object based on the detection of the sensing means for recognizing the object, generates a control signal for a plurality of lights located on the predicted movement path, and transmits it to the lighting control server. And a DVR having a function of generating a control signal for a different path according to a moving direction and providing the lighting control server to replace the existing control signal when the actual moving path is different from the predicted moving path based on the detection of the control path. Lighting control device having a scheduling function, characterized in that.
delete delete A lighting control device having a scheduling function for communicating with a lighting control server for generating a lighting control signal for controlling an illumination, receiving the lighting control signal and controlling illumination for at least one or more lights,
A communication unit for receiving the control signal;
A memory unit for storing specification information and identification information of the lighting;
An illumination compatible unit configured to adjust individual lights to have the same brightness with respect to specific illuminance values between different types of lights based on the specification information and the identification information;
A scheduling unit in which illuminance values for individual lights are set for a case other than receiving the control signal; And
In response to the control signal, the illumination value of the individual lighting is controlled through the lighting compatible unit or, when the control signal is not received, the individual lighting is controlled based on the illumination value set in the scheduling unit, and the lighting control state is scheduled. Control that reflects cumulatively on wealth
Lighting control device having a scheduling function comprising a.
The method according to claim 9,
The lighting control compatible unit
A driving unit generating a driving signal corresponding to the type and illuminance value of the individual lighting;
A switching unit which receives the driving signal and switches a connection with the individual lighting according to the type of the driving signal; And
A dimming control unit for controlling the driving unit so that different types of illumination have the same brightness with respect to a specific illuminance value included in the lighting control signal, and controls the switching operation of the switching unit according to the type of the driving signal
Lighting control device having a scheduling function comprising a.
The method according to claim 10,
A plurality of sockets configured to be connected to the plugs of the individual lights, the plurality of sockets having different shapes, the plurality of connector units providing a recognition signal for the socket to which the plug is connected; And
Based on the recognition signal, matching information matching the spec information of the illumination and the identification information is generated and stored in the memory unit, and based on the matching information, whether the abnormal operation of the dimming control of the dimming control unit and the switching operation of the switching unit Lighting control device having a scheduling function characterized in that it further comprises a detection confirmation unit for sensing.

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