KR101278594B1 - low energy light system - Google Patents

Abstract

The present invention relates to a power saving lighting system, comprising: a plurality of lights; A plurality of sensor controllers for detecting a moving object in the lighting area of the lamp and controlling power on / off of the lamp; A central controller which monitors the lighting / flashing information of the lamp in real time through short-range wireless communication with the sensor controller and calculates control scheduling information using the information; And a remote controller capable of remotely controlling the sensor controller through wireless communication with the sensor controller.
According to the present invention, it is possible to monitor the on / off information of a plurality of lights through a central control unit, to easily control and monitor the central control, and to easily execute control commands, as well as to display the light usage pattern information. By generating and controlling the control scheduling information, the power efficiency can be substantially improved.

Description

Low energy light system

The present invention relates to a power-saving light system, and more particularly to a power-saving light system that can significantly improve the power efficiency of the light by monitoring the on / off information of the light, and obtaining and controlling the control scheduling information of the light. It is about.

In general, a place such as a parking lot, a corridor, a toilet, a warehouse, etc. of a large building or an apartment is installed with a light for indoor lighting. Typically, such a room light is used regardless of the presence of a vehicle or a person entering the place. It stays on for a time, or is turned on or off depending on the user's or administrator's choice.

However, according to the method of manually turning on or turning off the lights installed in the above-mentioned places by the user or the administrator, the lights in the place where the vehicle or the person is not inadvertently entered for 24 hours by the carelessness of the user or the administrator The problem is that the electric energy is unnecessarily consumed since it is kept in the lit state.

Therefore, in order to solve the problem of unnecessary consumption of electric energy, the artificial intelligence light control device is installed in a place such as a parking lot, a corridor, a toilet, a warehouse of a large building or an apartment as described above, and the corresponding place. When a vehicle or a person who enters and exits is detected, the lamp is automatically turned on for a certain time, and after a certain time, the lamp is automatically turned off to prevent unnecessary electric energy consumption.

However, such a conventional artificial intelligence light control device has a disadvantage in that the durability of the light deteriorates because the lighting is turned on or off whenever a vehicle or a person entering or exiting the place is detected. Patent application 10-2006-0054823 (2006.6.19) has been developed an intelligent light control device.

According to this, the lighting of the place can be controlled regardless of whether the vehicle or the person is detected at a specific lighting time during which a vehicle or a person frequently enters and exits. Whenever a vehicle or a person is detected, all of the disadvantages of reduced durability of the lights generated by turning on or off the lights installed in the corresponding place, as well as the disadvantages of increasing the cost of maintenance or replacement of the lights are eliminated. Could.

However, such a conventional light control device has unnecessary power consumption because the lamp is turned on even if a body or any other unwanted object (eg, an object moving by a natural phenomenon such as a beast or a wind) is detected besides a specific lighting time. There is a problem that occurs, and when the object is not detected, the lamp is turned off immediately so that there is a frequent traffic lights on / off frequently, there is a problem occurs and the durability is poor.

In addition, without considering the lighting / off pattern information according to the time and space of the entire lamp, it is difficult to directly control and parameter setting of each lamp, and there was a problem that the wiring through the wire is very complicated.

An object of the present invention for solving the above problems is to monitor the on / off information of a plurality of lights through a single central control unit, the central control and monitoring is easy, not only can easily execute the control command, the lamp It is intended to provide a system that can significantly improve the power efficiency of a lamp by generating usage pattern information and acquiring and controlling control scheduling information.

Features of the present invention for solving the above problems are a plurality of lights; A plurality of sensor controllers for detecting a moving object in the lighting area of the lamp and controlling power on / off of the lamp; A central controller which monitors the lighting / flashing information of the lamp in real time through short-range wireless communication with the sensor controller and calculates control scheduling information using the information; And a remote controller capable of remotely controlling the sensor controller through wireless communication with the sensor controller.

Here, the sensor control unit, a sensor for detecting a moving object, a power control unit for controlling the power, a microcontroller unit (MCU), a display unit for displaying the sensing information and power status information through the sensor, and the information It is preferable to include a short-range wireless communication unit that enables wireless communication with the outside.

The remote controller may include a keypad unit capable of inputting a control command, a microcontroller unit, a power supply unit, a flash memory for storing setting values of the control command, and a short range wireless communication unit for communicating the command signal with the sensor controller. Preferably, the short range wireless communication unit is preferably a Zigbee wireless communication device.

In addition, preferably, the wireless communication device of the central control unit may be an RF dongle, and the sensor control unit may include an infrared heat sensor and an illuminance sensor.

According to the present invention, it is possible to monitor the on / off information of a plurality of lights through a central control unit, to easily control and monitor the central control, and to easily execute control commands, as well as to display the light usage pattern information. By generating and controlling the control scheduling information, the power efficiency can be substantially improved.

In addition, real-time power consumption detection and control signal monitoring, and by developing and applying a variety of software, it is possible to enable a more rich and effective system control and monitoring.

1 is a block diagram showing a power saving type light system according to the present invention;
2 is a block diagram illustrating a sensor control unit as one embodiment of a power saving type light system according to an embodiment of the present invention;
3 is a block diagram of a remote controller which is one of the configurations of a power saving type light system according to an embodiment of the present invention;
4 is a block diagram of an RF dongle, which is one of the configurations of a power saving lamp system, according to an embodiment of the present invention;
5 is a conceptual diagram illustrating a group algorithm for automatically controlling lighting using a power saving lamp system according to the present invention;
6 is a conceptual diagram of an overall simultaneous operation algorithm for automatically controlling lighting using a power saving type light system according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and how to accomplish it, will be described with reference to the embodiments described in detail below with reference to the accompanying drawings. However, the present invention is not limited to the embodiments described herein but may be embodied in other forms. The embodiments are provided so that those skilled in the art can easily carry out the technical idea of the present invention to those skilled in the art.

In the drawings, embodiments of the present invention are not limited to the specific forms shown and are exaggerated for clarity. In addition, parts denoted by the same reference numerals throughout the specification represent the same components.

The expression "and / or" is used herein to mean including at least one of the components listed before and after. Also, singular forms include plural forms unless the context clearly dictates otherwise. Also, components, steps, operations and elements referred to in the specification as " comprises "or" comprising " refer to the presence or addition of one or more other components, steps, operations, elements, and / or devices.

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

1 is a block diagram illustrating a power saving lamp system according to the present invention. As shown in FIG. 1, a power saving lamp system according to the present invention includes a plurality of lamps 10; A plurality of sensor controllers 20 which detect a moving object in an illumination area of the light adjacent to the light and control power on / off of the light; A central controller 30 for monitoring the lighting / flashing information of the lamp in real time with the sensor controller and short-range wireless communication, and calculating control scheduling information using the information; And a remote controller 40 capable of remotely controlling the sensor controller through wireless communication with the sensor controller.

The present invention is configured to arrange a plurality of lights 10 in various buildings or external spaces, and to arrange a sensor unit adjacent to the light 10, the on of the light 10 through the plurality of sensor control unit 20. control the / off, and the control command is controlled by the central controller 30 using short-range communication such as the plurality of sensor controllers 20 and Zigbee, and controls various control information of the central controller 30. By using a remote controller that can be easily operated, the command signal can be transmitted to the sensor controller 20 using short-range wireless communication and its control values can be set.

As described above, the present invention monitors the on / off information of the plurality of lights 10 through one central control unit 30, rather than the light 10 system complicated by wires, and is controlled by a simple remote controller 40. In order to set the command, the central control and monitoring is easy, not only can easily execute the control command, but also detect the moving object through the sensor of the sensor controller 20 to turn on / off the light 10. In terms of proper monitor control, the power efficiency can be improved considerably.

2 is a block diagram of the sensor control unit 20, which is one of the configurations of the power saving lamp 10 system, according to an embodiment of the present invention. As shown in FIG. 2, the sensor controller 20 is installed adjacent to the lamp 10, and includes a sensor 21 for detecting a moving object, a power controller 23 for controlling the power of the lamp 10, and a sensor 21. A microcontroller unit (MCU) 25, a display unit 27 displaying sensing information and power status information through the sensor, and a short range wireless communication unit 29 for enabling wireless communication with the information. It is configured to include.

Installing a sensor 21 for detecting a moving object is a waste of power if there is no person in the lighting area, and turning on the lamp 10 is a waste of power. This is to obtain information that can be controlled.

Sensors for detecting the moving object can be applied to a variety of sensors, in the embodiment of the present invention installed the illumination sensor and the infrared heat sensor. The illuminance sensor detects the brightness of the illumination area, and because it does not require illumination of the light 10 in a day or a bright space, it detects this and acquires an on / off control signal of the light 10, and an infrared heat sensor The sensor detects the presence of a moving object or a person by detecting infrared rays emitted from a living organism, thereby detecting a need for lighting to acquire an on / off control signal of the lamp 10.

In addition, the detection signal obtained through the detection sensor 21 is sent to the power control unit 23, thereby controlling the on / off of the lamp 10 power. In addition, the micro-controller unit 25 serves to send a control command to the power control unit 23 by processing the sensing signal as described above and processing the control signal when received from the outside. The communication unit 29 transmits / receives, and the display unit 27 displays the sensing information control information as described above. In addition, the display unit may display and modify various parameters, and of course, may set a time and a reference value of the illuminance sensor.

3 is a block diagram of the remote controller 40, which is one of the configurations of the power saving type lamp 10 system, according to an embodiment of the present invention. As shown in FIG. 3, the remote controller 40 applied to the power saving type lamp 10 system according to the present invention includes a keypad 49 capable of inputting a control command, a microcontroller unit 45, a power supply unit, and Flash memory 43 for storing the setting value of the control command, and the short-range wireless communication unit 41 for communicating the command signal with the sensor control unit 20.

Since the above-described light 10 and the sensor control unit 20 is located in the upper part of a building or an external space, it is not easy to control them, and if a lot of lights 10 and the sensor control unit 20 are wired, the wiring is very great. There is a problem of becoming complicated. Therefore, in the present invention, by enabling the remote control 40 to control the on / off of the light 10 through the short-range wireless communication, it is possible to control all the plurality of lights 10 with one remote control 40, There is a great advantage that it is convenient, and can control the light 10 from a greater distance.

Short-range wireless communication used in the present invention can be applied in various ways, in particular, Zigbee (zigbee) communication is preferable. Zigbee refers to one of the IEEE 802.15.4 standards supporting near field communication. It is a technology for near field communication and ubiquitous computing within 10-20m in wireless networking field such as home and office.

In other words, Zigbee is a concept of mobile phone or wireless LAN, and the other technology is different from existing technology to communicate a small amount of information without minimizing power consumption. It is used for logistics, environmental monitoring, human interface, telematics and military. In addition, since it is small in size and low in power consumption and inexpensive, it is widely used as a ubiquitous construction solution such as a home network.

The central control unit 30 collects the on / off information of the sensor control unit 20 and the light 10 arranged in a plurality of locations using a local area network, and uses this information to obtain the most efficient and appropriate light. Generate on / off control information of (10). The on / off control scheduling information includes information of a person or a moving object according to time and place, and the lighting 10 can be illuminated as needed through the on / off control scheduling information. In addition to reducing the waste of power, and providing efficient control information of the lamp 10 through the scheduling information, it is possible to monitor the various information as described above in real time.

The central controller 30 includes a terminal such as a PC, an RF dongle 35 capable of wireless communication with the terminal, the sensor controller 20, and the remote controller 40. RF dongle 35 is a device for short-range wireless communication, a small device that can be connected to the terminal from the outside.

4 is a block diagram of an RF dongle, which is one of the components of a power saving type lamp 10 system according to an embodiment of the present invention. As shown in FIG. 4, the RF dongle 35 applied to the embodiment of the present invention includes a USB connection unit 36, a power supply control unit 38, a microcontroller unit (MCU) 37, and a communication unit. That is, the terminal is connected to the terminal through a USB terminal, receives a detection signal and a control signal transmitted from the sensor controller 20 through a communication unit 39, collects the signal or information on the connected terminal, and controls the various controls described above. It is configured to generate and monitor the scheduling information. Such a device configuration is preferably configured as the most suitable device for the optimization of the entire system, such as the number, capacity of the lamp 10 and the sensor control unit 20.

The central control unit via the RF dongle 35 transmits and receives power consumption detection and control signals in real time, and develops and applies various interface protocols or router algorithms between individual sensors, real-time monitoring programs, and remote control software. And effective system control and monitoring can be enabled.

In addition, as shown in Figure 1, by connecting the central terminal 30 and the wireless terminal (smartphone, etc.) of the system manager of the lamp 10 through a network, to monitor the control information of the lamp 10 anytime, anywhere. And, if an urgent situation occurs, it is also possible to control via a wireless terminal.

5 and 6 illustrate a conceptual diagram of an algorithm for automatically controlling lighting using a power saving type light 10 system according to the present invention. FIG. 5 illustrates a group algorithm, and FIG.

As shown in FIG. 5, the algorithm for automatically controlling lighting by group controls the maximum saving mechanism by grouping the entire area in consideration of entrances and exits of vehicles, people, and the like to turn on or off the groups according to the movement route. It can be implemented. As such, when the area is divided and controlled by the group, when there is a difference in the necessity of lighting in each area, since the control can be properly made for each area, there is an advantage of significantly increasing the power efficiency.

And, as shown in Figure 6, if it is difficult to group by the structural problems of the multi-unit housing, it is possible to implement the optimal saving mechanism, it is possible to implement an algorithm that automatically adjusts the optimal lighting time and turn off all at the same time . Such an overall simultaneous operation algorithm has no difference in the lighting / lighting pattern for each region, and if the lighting / lighting pattern according to time is also similar, there is an advantage that power efficiency can be improved by controlling the lighting or lighting as a whole.

While the invention has been shown and described with respect to the specific embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. Anyone with it will know easily.

Claims (6)

A plurality of lights located above the building or exterior space;
Adjacent to each of the lamps,
Infrared sensor for detecting a moving object located in the lighting area of the light, Illumination sensor for detecting the brightness of the lighting area of the light, Power control unit for controlling the power of the light, Detection information through the infrared sensor and the illumination sensor And a plurality of sensor controllers including a display unit for displaying state information of the power source, a wireless communication unit for enabling Zigbee communication, and a first microcontroller unit for processing the sensing information and a control signal to control the power control unit.
A wireless dongle capable of Zigbee communication and USB connection with the sensor control unit is provided, and the detection information of the infrared sensor and the illumination sensor and the on / off information of the lamp are monitored in real time, and according to the situation using the monitored information. A central controller configured to generate on / off control scheduling information of the lamp and to transmit the control scheduling information to the sensor controller through the Zigbee communication to control on / off of the lamp; And
The sensor includes a keypad for inputting a control signal for controlling the on / off of the light, a memory in which a setting value of the control signal is stored, and a short range wireless communication unit for transmitting the control signal to the sensor controller. It includes; a remote control for controlling the remote control;
The control scheduling information,
In consideration of the entrance and exit, it is determined whether the entire area can be grouped, and if the grouping is possible, the on / off of the lights is controlled for each group according to the moving path of the moving object through the sensing information of the infrared sensor, and the grouping is impossible. First information for simultaneously controlling the light on / off for the entire area according to a set time range or sensing information of the set illumination sensor;
And a second information for controlling on / off of the lamp according to power consumption transmitted in real time according to the state information of the power supply of the sensor controller. delete delete delete delete delete

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