KR101113161B1 - A System For Controlling Diming of Lamps Using IP Based Combo Sensor - Google Patents

Abstract

The present invention relates to a lighting dimming control system using an IP-based composite sensor, a plurality of LED lamp modules installed on a lighting target, installed in a plurality of zones in the lighting target, to detect the illuminance of the installed zone and the movement of the object, IP-based complex for transmitting the detected illuminance and fuselage detection signal through the wireless network and receiving the dimming control signal through the wireless network, transmitting the dimming control signal to the LED lamp module to control the dimming of the LED lamp module A sensor, an access point coupled to the IP-based composite sensor through a wireless network, connected to the access point via a wired network to receive the illuminance and a fuselage detection signal, and transmit the dimming control signal based on the illuminance and the fuselage detection signal. A relay controller for generating and transmitting the generated dimming control signal to the IP-based composite sensor; And a management server connected to the relay controller through the Internet to receive and manage lighting management state information of the lighting target from the relay controller, and remotely control the lighting of the lighting target through the relay controller.
According to the present invention as described above, by using the IP-based composite sensor to control the illuminance of each zone by greatly reducing the power consumption according to the lighting and extend the life of the lamp, accordingly expensive The recovery time of installation investment cost of LED lighting facility can be greatly shortened, which can contribute to the expansion of LED market.

Description

Illumination Dimming Control System Using IP Based Composite Sensors {A System For Controlling Diming of Lamps Using IP Based Combo Sensor}

The present invention relates to an illumination dimming control system, and more particularly, to divide an illumination installation area into a plurality of zones, and to control illumination intensity of each zone by using an IP-based composite sensor installed in each divided zone. The present invention relates to a technology that can significantly reduce the power consumption of lighting and extend the life of the lamp.

Lighting fixtures are used to provide sufficient visual perception to the user in a facility where there is not enough light at night or during the day (eg a parking lot, inside a building, etc.).

Lighting fixtures are typically connected to a plurality of lamps in one switch to be lit or flashed at the same time according to the switch operation to turn on unnecessary lamps when switching on (ON) causing energy waste.

In the case of offices, lamps are turned on even in areas where lighting is not needed, such as in the window or in the absence of staff, and unnecessary energy is wasted.In underground parking lots, lights are turned on 24 hours. There are risky disadvantages in terms of crime.

Recently, in lighting facilities, fluorescent lamps with high power consumption and environmental pollution have been replaced by LED lamps with high energy efficiency, eco-friendliness, and long lifespan. Due to the long period, it is difficult to expand the LED market.

The present invention is proposed to solve such a conventional problem, an object of the present invention is to divide the lighting installation area into a plurality of zones, the illumination of the illumination for each zone by using IP-based composite sensor installed in each divided zone By controlling the power consumption, it is possible to drastically reduce the power consumption for lighting and to extend the life of the lamp.

Another object of the present invention is to interconnect the IP-based composite sensor and video recording device such as CCTV to control the storage and deletion cycle of the image according to the information detected by the complex sensor to reduce the load of the memory for image recording To ensure that

According to an aspect of the present invention for achieving the above object, a plurality of LED lamp module installed on the illumination target, installed in a plurality of zones in the illumination target, detects the detection of the illuminance of the installed zone and the movement of the object, IP-based composite sensor for controlling the dimming of the LED lamp module by transmitting the illuminance and fuselage detection signal through the wireless network and receiving the dimming control signal through the wireless network, the dimming control signal to the LED lamp module And an access point coupled to the IP-based composite sensor through a wireless network, and connected to the access point via a wired network to receive the illuminance and a fuselage detection signal and generate the dimming control signal based on the illuminance and the fuselage detection signal. And a relay controller and the relay controller for transmitting the generated dimming control signal to the IP-based composite sensor. An IP-based composite sensor comprising a management server connected to a roller through the Internet to receive and manage lighting management state information of the lighting target from the relay controller, and remotely control the lighting of the lighting target through the relay controller. An illumination dimming control system is provided.

Here, the IP-based composite sensor is an illuminance sensor for detecting the illuminance of the installation zone, a fuselage detection sensor for detecting the movement of an object in the installation zone, an analogue illuminance signal and the fuselage detection signal output from the illuminance sensor and the fuselage detection sensor. A / D conversion unit for converting the signal into a digital signal, a wireless LAN module communicating with the relay controller through the access point, a wireless transmitter for transmitting the dimming control signal to the LED lamp module and the operation of the IP-based composite sensor It is preferable to include a controlling processor.

The IP-based composite sensor may further include an acoustic sensor for detecting sound in the installation zone, and the relay controller may generate the dimming control signal based on the illuminance signal, the fuselage detection signal, and the acoustic detection signal. .

In addition, the mobile controller is connected to the relay controller through a mobile communication network, and supports or embeds an IP protocol, and receives and manages lighting management state information of the lighting target from the relay controller, and remotely controls the lighting of the lighting target through the relay controller. More preferably, the terminal further includes a session controller for receiving an access signal of the mobile terminal through a mobile communication network, and an IP-based composite sensor controlled by the relay controller. Device management unit for recognizing the device, a stack management unit for managing the stack to interoperate the hardware and software of the relay controller, a log management unit for storing, managing and monitoring the log information including the device information of the user ID and password IP device and the Session management It is to perform Remote lighting light-control control signal in accordance with the access connection of the mobile terminal and the driving unit configured to include a data transceiver for transmitting and receiving data for the mobile device and the remote control.

In addition, to capture and record the image of the illumination target, the IP-based composite sensor is connected via a wireless network and receives a sensor signal and the dimming control signal including an illumination signal, a fuselage detection signal and a sound detection signal of the installation area; The apparatus may further include an image recording apparatus configured to vary an image recording period and an image storage period based on the received sensor signal and the dimming control signal. To this end, the image recording apparatus may further include an image of the illumination target. The image capturing unit which stores the image photographed by the image capturing unit, the image storing unit partitioned into a first storage region storing important images and a second storage region storing general images, the IP-based composite The receiving unit receives the sensor signal and the dimming control signal from a sensor and an important event based on the sensor signal. Storing the image of the important point that might be encountered in the first storage section, and is configured to include an image storage control section for controlling to store the general image of the other in the second storage section.

In addition, the image storage control unit weights the general image stored in the second storage area according to the size of the dimming control signal, and if the storage space is insufficient in the second storage area to first delete the low-weight image data More preferred.

According to the present invention as described above, by using the IP-based composite sensor to control the illuminance of each zone by greatly reducing the power consumption according to the lighting and extend the life of the lamp, accordingly expensive The recovery time of installation investment cost of LED lighting facility can be greatly shortened, which can contribute to the expansion of LED market.

In addition, by interlinking IP-based composite sensors with video recording devices such as CCTV, the memory load for image recording can be reduced by controlling the storage and deletion cycles of images according to the information detected by the composite sensors. .

1 is a block diagram of an illumination dimming control system according to a first embodiment of the present invention.
FIG. 2 is a block diagram illustrating a detailed configuration of the LED lamp module of FIG. 1.
3 is a block diagram illustrating a detailed configuration of the IP-based composite sensor of FIG.
4 is a block diagram illustrating an internal configuration of the relay controller of FIG. 1.
FIG. 5 is a block diagram illustrating a detailed configuration of an IP-based composite sensor and an image recording apparatus in an illumination dimming control system according to a second embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail preferred embodiments of the present invention.

1 is a block diagram showing an illumination dimming control system according to a first embodiment of the present invention, Figure 2 is a block diagram showing a detailed configuration of the LED lamp module of Figure 1, Figure 3 is a detail of the IP-based composite sensor of Figure 1 4 is a block diagram showing the internal configuration of the relay controller of FIG.

Referring to FIG. 1, a plurality of LED lamp modules 10 are installed at an illumination target, and an illumination target is set to a plurality of zones, and one IP-based composite sensor 20 is installed in each zone.

Illumination dimming control system according to the first embodiment of the present invention is a plurality of LED lamp module 10 installed on the illumination target, installed in each zone within the illumination target, and detects the detection of the illuminance of the installed zone and the movement of the object, IP to control the dimming of the LED lamp module 10 by transmitting the dimmed illumination and fuselage detection signal through the wireless network and receiving the dimming control signal through the wireless network, by transmitting the dimming control signal to the LED lamp module 10. Based on the composite sensor 20, the IP-based composite sensor 20 and the access point 30 coupled to the wireless network through the wired network, and receives the illuminance and the fuselage detection signal, The relay controller 40 generates a dimming control signal based on the fuselage detection signal, and transmits the generated dimming control signal to the IP-based composite sensor through the Internet. Is connected to the relay controller 40 through a management server 50 and a mobile communication network, which receive and manage lighting management state information of the lighting target from the controller 40 and remotely control the lighting of the lighting target through the relay controller. The mobile terminal 60 is configured to receive and manage lighting management state information of the target site and remotely control the lighting of the lighting target site through the relay controller 40.

The LED lamp module 10 is installed in a number of underground parking lot, buildings, street lights, etc., as shown in FIG. 2, and includes an LED converter 11 for driving the LED lamp 11 and the LED lamp 11. It is configured by. The LED converter 12 receives the dimming control signal from the IP-based composite sensor 20 and transmits the dimming control signal received from the RF transceiver 12-1 and the RF transceiver 12-1 using the 2.4 GHz wireless method. A / D converter 12-2 for converting to a digital signal, a microcomputer 12-3 for generating a PWM control signal based on the dimming control signal converted to a digital signal, and generating a PWM waveform according to the PWM control signal. And a SMPS 12-5 driven by the PWM dimming unit 12-4 and the generated PWM waveform to supply the switching mode power. Here, the microcomputer 12-3 increases or decreases the illuminance of the LED lamp 11 by varying the pulse width of the driving signal applied to the SMPS according to the dimming control signal.

The IP-based composite sensor 20 is installed one by one in a predetermined area within the lighting target to detect state information in the corresponding area, and the plurality of LED modules 10 located in the corresponding area according to the dimming control signal received from the relay controller 40. As shown in FIG. 3, the illuminance sensor 21 detecting the illuminance of the installation zone, the fuselage sensor 22 detecting the movement of an object in the installation zone, the illuminance sensor and the fuselage detection sensor Wireless LAN module 24 for communicating with the relay controller 40 through an A / D conversion unit 23, an access point 30 for converting the analogue illuminance signal and the fuselage detection signal output from the digital signal into a digital signal, The LED lamp module 10 is configured to include a wireless transmitter 25 for transmitting the dimming control signal and a processor 26 for controlling the operation of the IP-based composite sensor.

The illuminance sensor 21 may use CdS or the like as an element whose resistance varies according to the brightness of ambient light.

The fuselage detecting sensor 22 is provided so that the transmitter and the receiver face each other so that when the body enters between the transmitter and the receiver, the transmission signal of the transmitter is not transmitted to the receiver. The signal transmitted from the transmitter is reflected to a wall or an object and is transmitted to the receiver. When the signal is reflected on the wall and the fuselage is interposed between the walls, the characteristics such as the frequency or waveform of the reflected light are different, or the position where the signal is reflected and received is different. It can be divided into reflection type that uses the property of losing.

The WLAN module 24 is for communication with the access point 30, and transmits an illuminance detection signal and a fuselage detection signal to the relay controller 40 through the access point 30, and relays through the access point 30. Receiving the dimming control signal from the controller 40, a wireless LAN is a local area network (LAN) capable of high-speed Internet within a certain distance of the place where the access point 30, which is a wireless access device is installed.

The relay controller 40 is connected to the access point 30 through a wired network to receive the illuminance and the fuselage detection signal, generates a dimming control signal based on the illuminance and the fuselage detection signal and transmits it to the IP-based composite sensor 20. . Dimming control by illuminance divides the irradiance according to the external illuminance value into several stages and controls the illuminance of the LED lamp 11 corresponding to the stage to which the detected external illuminance belongs. As the external illuminance is lower, the irradiance is increased. When the external illuminance is a predetermined value or more, the LED lamp 11 may be turned off. Dimming control by the fuselage detection, for example, it is possible to control the brightness with a brightness of about 60% for 15 minutes when it is recognized that there is no person in the compartment, and to turn off the lamp when no more fuselage is detected. Dimming control may be performed according to separate criteria for illuminance and moving object detection, but it is preferable that a combination of the two sensor signals is programmed to perform proper dimming control. For this purpose, comparative data for dimming control are stored in a memory. It is preferably stored.

The management server 50 is connected to the relay controller 40 through the Internet to receive and manage lighting management state information of the lighting target from the relay controller 40, and remotely control the lighting of the lighting target through the relay controller 40. do.

The mobile terminal 60 is a wireless terminal possessed by an administrator who manages lighting of an illumination target or a user of a corresponding region. The mobile terminal 60 is connected to the relay controller 40 through the mobile communication base station 70 and is the same as the management server 50. It is a device that can perform management functions.

In order for the mobile terminal 60 to remotely control the relay controller 40 to manage and control the lighting of the lighting target, the mobile terminal 60 must have IP protocol support or built-in, and the relay controller 40 can IP protocol must be supported.

The configuration of the relay controller 40 to support the IP protocol is shown in FIG.

Referring to FIG. 4, the relay controller 40 is connected to the session manager 41 and the session manager 41 for receiving the access signal of the mobile terminal 60 through the mobile communication network, and is controlled by the relay controller 40. Device management unit 42 for recognizing the IP-based composite sensor 20, the stack management unit 43 for managing the stack to interoperate the hardware and software of the relay controller 40, the device information of the user ID and password IP device Drive unit 45 and mobile to perform remote illumination control according to the access signal of the mobile terminal 60 connected through the log management unit 44 and the session management unit 41 for storing, managing and monitoring log information, including It comprises a data transceiver 46 for transmitting and receiving data for the remote control with the terminal 60.

Hereinafter, an operation of an illumination dimming system according to a first embodiment of the present invention will be described in detail with reference to FIGS. 1 to 4.

First, when the IP-based composite sensor 20 transmits a sensor signal for detecting ambient light and body motion to the relay controller 40 through the wireless LAN module 24, the relay controller 40 analyzes the sensor signal. It generates a dimming control signal corresponding to whether the external illumination and the fuselage of the current illumination object is detected and transmits it to the IP-based composite sensor 20.

The IP-based composite sensor 20 transmits the dimming control signal to the LED converter 12 through the wireless transmitter 25, and the LED converter 12 generates a PWM control signal corresponding to the dimming control signal. The driving power of the variable pulse width is applied to the LED lamp 11 to control the brightness of the LED lamp 11.

The dimming control program performed by the relay controller 40 is received and installed through the management server 50, and the management server 50 or the mobile terminal 60 checks the operation state of the current relay controller 40 and dimming programming. And direct remote control of the LED module 10 is also possible.

FIG. 5 is a block diagram illustrating a detailed configuration of an IP-based composite sensor and an image recording apparatus in an illumination dimming control system according to a second embodiment of the present invention.

According to the second embodiment of the present invention, the IP-based composite sensor 20 is further provided with a sound sensor 27 for detecting ambient sound, and the IP-based composite sensor 20 is combined with an image recording apparatus through a wireless LAN. Since 80 is further included, the description of the common configuration will be omitted and the configuration of the illumination dimming control system according to the second embodiment will be described based on the two differences.

The IP-based composite sensor 20 transmits the acoustic detection signal detected through the acoustic sensor 27 in addition to the illumination signal and the fuselage detection signal to the relay controller 40 through the wireless LAN module 24, and the relay controller 40. In addition to the illuminance signal and the fuselage detection signal, the dimming control signal is generated by reflecting the sound detection signal. Dimming control by sound detection divides the illumination intensity according to the ambient sound into several stages and controls the brightness of the LED lamp 11 according to the detected ambient sound level. In this case, the illumination intensity may be increased, and when the sound level or the sound level change amount is more than a predetermined value, the LED lamp 11 may be completely turned on. As described above, the dimming control may be performed for each of illuminance, body sensing, and sound signals, but it may be desirable to combine the three sensor signals to achieve proper dimming control.

The image recording apparatus is to capture and record the image of the lighting target, and is connected to the IP-based composite sensor 20 through a wireless network and includes a sensor signal and a dimming control signal including an illuminance signal, a fuselage detection signal, and an acoustic detection signal of an installation area. And vary the recording period and the image storage period of the image based on the received sensor signal and the dimming control signal.

As shown in FIG. 5, the image recording apparatus 80 of the present invention stores an image photographing unit 81 for capturing an image of an illumination target, and an image photographed by the image capturing unit 81. The image storage unit 82 is divided into the first storage area 82-1 is stored and the second storage area 82-2 is stored a general image, IP-based composite sensor 20 and the wireless network The first storage area 82-1 is connected to the receiving unit 83 receiving the sensor signal and the dimming control signal from the IP-based composite sensor 20 and the critical image at the time when it is determined that the important event has occurred. And an image storage control unit 84 for controlling to store other images in the second storage area 82-2.

Here, the important image may be, for example, when the amount of change in ambient illumination is large, when a body is detected, when the amount of change in sound level or sound level is very large, or when a combination of three sensor signal values determines that an important event has occurred. It means the captured image. The important video is stored separately in the first storage area 82-1 so that when the image storage space is insufficient, the previous video of the second storage area 82-2 is deleted so that the image retention period of the important video and the normal video can be different. It is possible to maximize the memory efficiency accordingly, and sufficient video recording is possible even with a small memory.

In addition, the image storage control unit 84 preferably weights the general image to maximize the memory efficiency by changing the retention period between the general image.

That is, the image storage control unit 84 weights the general image stored in the second storage area 84-2 according to the magnitude of the dimming control signal generated by the relay controller 40, and the second storage area 84. If the storage space is insufficient in -2), the image data having low weight is deleted first.

According to the second embodiment, there is an advantage of maximizing image storage and preservation efficiency by assigning a double priority to image preservation and deletion.

10: LED lamp module 11: LED lamp
12: LED converter 20: IP based composite sensor
21: Ambient light sensor 22: Body sensor
23: A / D conversion unit 24: Wireless LAN module
25 wireless transmission unit 26 processor
27: acoustic sensor 30: access point
40: relay controller 41: session management unit
42: device manager 43: stack manager
44: log management unit 45: drive unit
46: data transceiver 50: management server
60: mobile terminal 70: mobile communication base station
80: video recording device 81: video recording unit
82: image storage control unit 83: receiving unit
84: image storage unit

Claims (8)

A plurality of LED lamp modules installed on the illumination target;
It is installed in a plurality of zones within the illumination target, detects the illuminance of the installed zone and the movement and sound signals of the object, and transmits the detected illuminance detection signal, the fuselage detection signal and the acoustic detection signal through the wireless network, and the wireless network An IP-based composite sensor configured to control the dimming of the LED lamp module by receiving the dimming control signal through the dimming control signal to the LED lamp module;
An access point coupled to the IP-based composite sensor through a wireless network;
Connected to the access point via a wired network to receive the illuminance detection signal, the fuselage detection signal and the sound detection signal, and generate the dimming control signal based on the illuminance detection signal, the fuselage detection signal and the sound detection signal, A relay controller for transmitting the dimming control signal to the IP-based composite sensor;
A management server connected to the relay controller through the Internet to receive and manage lighting management state information of a lighting target from the relay controller, and to remotely control the lighting of the lighting target through the relay controller; And
Taking and recording an image of an illumination target, the IP-based composite sensor is connected through a wireless network to receive a sensor signal and an illumination control signal including an illumination signal, a fuselage detection signal and an acoustic detection signal of an installation area, and An image recording device for varying the recording period and the image storage period of the image based on the received sensor signal and the dimming control signal,
The IP-based composite sensor includes an illuminance sensor for detecting the illuminance of the installation zone, a fuselage detection sensor for detecting the movement of an object in the installation zone, an acoustic sensor for detecting the sound in the installation zone, an illuminance sensor, the fuselage detection sensor and the sound An A / D conversion unit for converting an analog illuminance signal, a fuselage detection signal, and an acoustic detection signal into a digital signal output from a sensor, a wireless LAN module communicating with the relay controller through the access point, and the LED lamp module Illumination dimming control system using an IP-based composite sensor, characterized in that it comprises a wireless transmitter for transmitting the dimming control signal to and a processor for controlling the operation of the IP-based composite sensor.
delete delete The method of claim 1,
The mobile terminal is connected to the relay controller through a mobile communication network and supports or embeds an IP protocol, and receives and manages the lighting management state information of the lighting target from the relay controller and remotely controls the lighting of the lighting target through the relay controller. Illumination dimming control system using an IP-based composite sensor further comprises.
The method of claim 4, wherein
The relay controller
A session manager which receives an access signal of the mobile terminal through a mobile communication network;
A device manager connected to the session manager and configured to recognize an IP-based composite sensor controlled by the relay controller;
A stack manager configured to manage a stack to interwork hardware and software of the relay controller;
A user ID and password log management unit for storing, managing and monitoring log information including device information of the IP device; And
A driver for performing remote illumination dimming control according to a connection signal of the mobile terminal connected through the session manager; And
Illumination dimming control system using an IP-based composite sensor, characterized in that it comprises a data transceiver for transmitting and receiving data for remote control with the mobile terminal.
delete The method of claim 1,
The video recording device
An image capturing unit for capturing an image of the lighting target;
An image storage unit configured to store an image photographed by the image photographing unit, the image storage unit being divided into a first storage area storing important images and a second storage area storing general images;
A receiver configured to receive the sensor signal and a dimming control signal from the IP-based composite sensor; And
And an image storage control unit configured to store an important image at the time when it is determined that an important event has occurred in the first storage area and store other general images in the second storage area based on the sensor signal. Illumination dimming control system using IP based composite sensor.
The method of claim 7, wherein
The image storage control unit
IP-based composite, characterized in that the weight is given to the general image stored in the second storage area according to the size of the dimming control signal, and the image data having low weight is deleted first when the storage space is insufficient in the second storage area. Illumination dimming control system using sensors.

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