KR101184698B1 - Radio control device of led lighting - Google Patents

Abstract

PURPOSE: A device for wirelessly controlling an LED lamp is provided to increase an information processing speed and simplify a network by equalizing an identification code of a zigbee communication module which is connected to the LED lamp one by one. CONSTITUTION: An LED lamp(10) is installed on a wall or a ceiling outside and inside a building. A zigbee communication module(20) is connected to the LED lamp one by one. A zigbee communication module gives an identification code to control the intensity of light from the LED lamp. A power line and an input and output line are withdrawn from a base and are connected to the LED lamp. A mode selection switch is formed on a base of a communication module to change an identification code and a receiving channel.

Description

LED control radio control device {Radio control device of LED lighting}

The present invention relates to a wireless control technology of the LED lighting that is installed inside and outside the building, and more particularly, after installing a plurality of LED lighting on the ceiling surface or the inside and outside of the building to control the amount of light of the LED lighting, respectively. In the state of connecting the Zigbee communication module for 1: 1, a plurality of LED lights installed in a unit group to wirelessly control, but the 1: 1 of the Zigbee communication module connected to the LED lights existing in each unit group By using the same identification code (ID), one ZigBee communication module in the unit group when controlling the amount of LED lights that match 1: 1 1: 1 LED lights that match the other ZigBee communication modules in the same group at the same time The present invention relates to a wireless control device for LED lighting that enables to control the amount of light.

Normally, lighting devices are installed to brighten dark places inside and outside the building. Such lighting devices are mainly used in incandescent lamps or fluorescent lamps, but are currently referred to as light emitting diodes (LEDs), which consume less power, are semi-permanent, and environmentally friendly. ) LED lighting is mainly used.

The LED light is controlled to control the amount of light through wireless control, which is to darken the LED light when there is no object (for example, a person or a car), and to brighten the light by adjusting the light amount when the movement of the object is detected. Accordingly, as shown in Figure 1 attached to each LED lamp (not shown) is connected to each of the Zigbee communication module (Z1 ~ Zn) of the short-range wireless communication device in a 1: 1, and are connected to the respective LED lamps ZigBee communication modules (Z1 ~ Zn) are connected to the ZigBee coordinator (ZC) wirelessly to form a ZigBee network having an automatic relay algorithm, and also a sensor (S1) for detecting an object to adjust the amount of light such as the LED light , S2) was installed inside and outside the building.

Here, one-to-one matching of the Zigbee communication module to an LED lamp installed inside or outside a building is one of the IEEE 802.15.4 standards in which the Zigbee communication module supports short-range communication. This is because it provides technology for near field communication and ubiquitous computing, and this Zigbee communication module is a concept of a mobile phone or a wireless LAN because it is small in size and can communicate a small amount of information instead of minimizing power consumption.

At this time, each of the ZigBee communication module (Z1 ~ Zn), as well as the detection sensor (P1) (P2) is given an identification code (ID), of course, each of the ZigBee communication modules (Z1 ~ Zn) each sensor ( The channels corresponding to P1 and P2 are set, and accordingly, the Zigbee communication module Z1 to Zn may selectively adjust the amount of light of the LED lamp according to the signals detected by the detection sensors P1 and P2. It will be sent wirelessly to the LED light.

However, the conventional ZigBee communication module is given a unique identification code at the time of factory shipment, and a sticker is attached to identify the assigned identification code from the outside. When installing the Zigbee communication module, the installation location is bound to be fixed, and if you want to change the installation location in the field, you need to modify the channel and UI through a PC program. It can only be complicated by the task.

That is, when the channel is configured by configuring the sensor and the corresponding Zigbee communication module, the channel setting of the Zigbee communication module is controlled by a PC program such as firmware or UI. There was a disadvantage that UI work was complicated in the field, such as having to arrange a professional manpower.

In addition, the ZigBee coordinator and the ZigBee communication modules configure a ZigBee network by an automatic relay algorithm, and wirelessly transmit a response signal (ASK) according to wireless transmission and reception between each other, so that traffic due to wireless transmission and reception is inevitably increased. As the traffic increases, there is a structural disadvantage that the light quantity control speed of the LED lamp is delayed or causes an error.

For example, in the attached FIG. 1, in a state in which a plurality of ZigBee communication modules Z11 and Zn corresponding to the detection sensor P1 are set, signals detected from the detection sensor P1 are transferred to the ZigBee coordinator ZC. When transmitting wirelessly, the Zigbee coordinator (ZC) is to wirelessly transmit the detection signal to the Zigbee communication module (Z11, Zn) through the relay of the Zigbee communication module (Z2, Z3), in this case the Zigbee communication module (Z2) Z3 relays the detection signal to the ZigBee communication modules Z11 and Zn, and wirelessly transmits a response signal ACK to the ZigBee coordinator ZC, and also the ZigBee communication modules Z11 and Zn. The transmission of the response signal ACK to the ZigBee communication module (Z2, Z3), such as wireless, the traffic due to the mutual transmission and reception is bound to increase.

In addition, when constructing a Zigbee network through a plurality of Zigbee communication modules and one Zigbee coordinator, the one Zigbee coordinator can theoretically connect 65,000 Zigbee communication modules, but in fact, considering the increased traffic of wireless transmission and reception Only 150-200 ZigBee communication modules can be connected and configured. Accordingly, in the related art, a plurality of ZigBee coordinators are configured, and thus a ZigBee network connecting 150-200 ZigBee communication modules is complicated. There was a downside.

Therefore, the present invention is to improve the conventional problems as described above, and after installing a plurality of LED lights on the indoor or outdoor ceiling or wall of the building, the ZigBee communication module for controlling the amount of light of each LED light in these LED lights; By connecting 1: 1 and configuring a group of LED lights installed in a unit group for wireless control, but by configuring the same identification code of the Zigbee communication module connected 1: 1 with the LED lights existing in each unit group, ZigBee coordinator Simplify the configuration of the Zigbee network by eliminating the problem, and increase the information processing speed while eliminating the process of wirelessly transmitting the response signal (ACK) according to the ZigBee communication modules. Any one of the communication modules receives the detection signal from the sensor and wirelessly turns on the LED lamp. The other ZigBee communication modules in the group can also adjust the amount of light of LED lamps that are matched 1: 1 by wirelessly receiving the detection signal from the detection sensor at the same time, and also transmit the response signal wirelessly. It is an object of the present invention to provide an LED lighting wireless control device that can improve the problems such as the delay of the light quantity control speed of the LED lighting or error occurs while preventing traffic increase.

In addition, the present invention by allowing the same identification code to be assigned to a plurality of ZigBee communication module that is shipped from the factory, so that the inspection of the shipment of the ZigBee communication module can be made easily and simply, when installing the ZigBee communication module in the field Another purpose is to allow the installation location to be freely changed, and in particular, to modify the channel setting or the UI according to the change of the installation location, even by non-experts.

In addition, by configuring a ZigBee network in which a number of ZigBee communication modules are divided into a plurality of groups, a number of ZigBee communication modules (for example, up to 65,000) can be easily connected to the inside and outside of the building without worrying about the traffic of wireless transmission and reception. There is another purpose.

In addition, the ZigBee communication modules are each equipped with a relay program for wirelessly relaying a sensing signal or a light quantity control pulse signal received through an input port to an adjacent ZigBee communication module, the relay program is in accordance with the on / off of the switch It is configured to be activated.

The wireless control device of the present invention LED lighting for achieving the above object, a plurality of LED lighting is installed on the interior and exterior ceiling surface or wall of the building; A Zigbee communication module that is connected to the plurality of LED lamps in a 1: 1 match and is provided with an identification code (ID) to control the amount of light of the LED lamps; It includes, but the Zigbee communication module is configured in the unit group so as not to wirelessly transmit a response signal according to the information received in one unit group to constitute the same identification code, the Zigbee communication module having the same identification code One or a plurality of detection sensors for wirelessly transmitting a signal for detecting the movement of the object in the interior and exterior of the building to be synchronized in a 1: 1 correspondence with the unit group including a, and having the same identification code in the unit group The Zigbee communication module wirelessly transmits a pulse signal (PWM) for controlling the amount of light of the LED lamp in any one of the Zigbee communication module having the same identification code, or in one or a plurality of detection sensors that are synchronized corresponding to the 1: 1 When wirelessly transmitting a signal for detecting the movement of an object, the wirelessly transmitted pulse signal or reduction Receiving the signal at the same time in the first unit group: is configured to simultaneously control the light amount of the LED lamp to be matched to one.

The Zigbee communication module may include a power line and an input / output line drawn out from the base and connected to the LED lamp, wherein the power line includes a power port (+ 5V In) and ground (GND) receiving power supplied from the LED lamp. And an input port (Sensor On In) for receiving a detection signal wirelessly transmitted from the detection sensor or a light amount control pulse signal PWM output from another Zigbee communication module having the same identification code. And an output port (PWM OUT) for outputting a pulse signal (PWM) for controlling the amount of light of the LED lamp according to the detection signal received through the input port to the LED lamp.

The base of the Zigbee communication module may include a mode selection switch for changing a reception channel and an identification code, an UP / DOWN switch for enabling a mode search when the mode selection switch is on, and the mode selection switch. Display lamp which displays receiving channel and identification code which are changed by binary lamp lighting or numeric display, and a plurality of operation lamps which indicate whether power supply and detection status and output level of pulse signal are normal. It is configured to include.

As described above, the present invention simplifies the configuration of the ZigBee network by eliminating the ZigBee coordinator while eliminating the process of wirelessly transmitting response signals according to the reception of the ZigBee communication modules while increasing the information processing speed and being present in the same unit group. When one of the ZigBee communication modules with a code is wirelessly receiving a detection signal from the detection sensor and turns on the LED lamp, the other ZigBee communication modules present in the group also simultaneously receive the detection signal from the detection sensor. It is possible not only to adjust the amount of light of LED lamps that match 1, but also to prevent the increase of traffic caused by the wireless transmission of response signals, and to improve the problems such as delayed control of the amount of light of LED lamps and errors. As in the prior art, the sensor can be configured to correspond to the Zigbee communication module 1: 1. While not to be in such that the sensor building made in response to the unit group including a plurality of Zigbee communication module can be expected an effect of reducing the cost of installation of the sensor.

In addition, the present invention not only makes the inspection of the ZigBee communication module to be released easily and easily, of course, when installing the ZigBee communication module in the field to freely change the installation location, in particular the channel setting according to the change of the installation location In addition, non-experts can modify the UI and other modifications easily.

In addition, it is possible to configure a ZigBee network by dividing a number of ZigBee communication modules into a plurality of groups, so that a number of ZigBee communication modules (for example, up to 65,000) can be easily connected to the inside and outside of a building without worrying about the traffic of wireless transmission and reception. You can expect the effect to be.

1 is a schematic configuration diagram of a conventional Zigbee network.
2 is a block diagram of a wireless control device for LED lighting in an embodiment of the present invention.
3 and 4 is a configuration diagram of a Zigbee communication module according to an embodiment of the present invention.
5 is a wireless control state diagram of the LED lamp in the embodiment of the present invention.

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

2 is a configuration diagram of the LED lighting radio control apparatus according to an embodiment of the present invention, Figures 3 and 4 is a configuration diagram of a Zigbee communication module according to an embodiment of the present invention, Figure 5 is an embodiment of the present invention LED lighting lamp A radio control state diagram is shown.

2 to 5, the interior and exterior LED lighting wireless control device of the building according to an embodiment of the present invention, including the LED lighting 10, Zigbee communication module 20, the sensor 30 When the Zigbee communication module 20 is bundled into a unit group, the Zigbee communication modules 20 in the bundled unit group do not wirelessly transmit a response signal according to the reception of the detection signal from the detection sensor 30. So that it is configured with a single identification code (ID).

That is, the Zigbee communication module 20 includes a power line and an input / output line which is drawn out from the base 21 and connected to the LED lamp, as shown in FIG. 3, wherein the power line is supplied to the LED lamp 10. And a power port (+ 5V In) (P1) and a ground port (GND) (P2) for receiving power, wherein the input / output line is a sensing signal or the same identification code that is wirelessly transmitted from the sensing sensor 30. Sensor on In (P3) receiving the light amount control pulse signal (PWM) output from the other Zigbee communication module having a and according to the detection signal or pulse signal received through the input port (P3) LED lamp And an output port (PWM OUT) (P4) for outputting a pulse signal (PWM) for controlling the amount of light of the (10) to the LED lamp 10, while the base 21 has a receiving channel and identification Mode selection switch for code changes (S1), an up / down switch (S2) (S3) and a reception changed by the mode selection switch (S1) to enable mode search when the mode selection switch (S1) is on. Binary display lamp L1 indicating channel and identification code, and a plurality of operation lamps L2 indicating whether power supply and detection status to communication module 20 and output level of pulse signal PWM are normal. ) To further include.

Here, as shown in FIG. 4, the display lamp L1 of the binary number may be configured as a secret display window for displaying a number to increase identification power.

At this time, the Zigbee communication module 20 is connected to the power port (+ 5V In) (P1) and ground port (GND) (P2) of the power line, and the input port (Sensor On In) (P3) and The output port (PWM OUT) (P4) is connected to the LED lamp 10, so that the power supply to the ZigBee communication module 20 through the power line, while the radio transmitting the object from the sensor 30 All the Zigbee communication modules 20 included in the unit group can simultaneously receive the detection signal according to the movement of the sensor. Therefore, the detection sensor 30 is installed such that one or more units match 1: 1 with the unit group. It is made to save the number of installation of the sensor 30 in the interior and exterior of the building.

That is, the ZigBee communication module 20 is configured to be assigned the same identification code in one unit group by enclosing the unit group, and 1: 1 with the unit group including the ZigBee communication module 20 having the same identification code. The Zigbee communication module 20 comprises one or a plurality of detection sensors 30 for wirelessly transmitting a signal for detecting the movement of an object in a parking lot so as to correspond to the above, and having the same identification code in the unit group. When one or a plurality of detection sensors 30 corresponding to the wireless transmission of a signal for detecting the movement of the object, at the same time receiving the wireless transmission detection signal at the same time in the unit group LED lamp (1: 1) It is configured to adjust the amount of light at the same time.

Here, when receiving the detection signal from any one of the Zigbee communication module 20 grouped in the unit group and outputs the light quantity control pulse signal PWM through the output port (P4), the other Zigbee communication module ( 20 are configured to receive the output light amount control pulse signal through an input port P3, and output the same light amount control pulse signal through the output port P4 according to the received pulse signal.

On the other hand, the one or a plurality of detection sensors 30 is configured to be synchronized with a plurality of Zigbee communication module 20 existing in one unit group, accordingly a plurality of the same identification code is given in the interior and exterior of the building The unit groups including the Zigbee communication module 20 may be connected to one or a plurality of sensing sensors 30 which are synchronized with each other, and may receive a sensing signal wirelessly transmitted from the sensing sensor 30, but the reception may be performed. While not transmitting the response signal ASK to the sensor 30 wirelessly, it is possible to prevent traffic increase due to wireless transmission and reception.

Looking at this in more detail as an example with reference to the accompanying Figures 2 to 5, first one or a plurality of detection sensors 30 present in a specific location in the interior and exterior of the building detects the movement of the object and then the detected signal When transmitting the radio, ZigBee communication module 20 in the unit group (G1) that is synchronized with the sensor 30 present in the specific position is given the same identification code, respectively, the detection through the input port (P3) Receive a signal at the same time, or receives a detection signal from any one of the ZigBee communication module 20 grouped in a unit group, or other output grouped in the unit group when outputting the light quantity control pulse signal PWM through the output port (P4) The Zigbee communication module 20 receives the output light amount control pulse signal through the input port P3, but since the transmission line is not established, the reception A response signal (ASK) in accordance with a wireless transmission does not.

Then, the ZigBee communication modules 20 in the unit group G1 each have a 1: 1 light quantity control signal PWM through the output port P4 according to a sensing signal or a pulse signal received through the input port P3. Bar is output to the LED lamp (10) connected to

The LED light 10 is a light amount control is made in the dark state in the state that the light (10) is not detected by the detection of an object (for example, a person, a car), the light amount control according to the light amount control pulse signal PWM inputted through the output port (P4) Because it is made brighter, the indoor and outdoor specific location (S1) of the building is to be provided with the illumination by the brightened LED lamp 10.

On the other hand, when a movement of an object is generated from the specific position as above and outside of the building to another position, and the movement of the object is detected by one or a plurality of detection sensors 30 present in another position, the The detected signals are received by the Zigbee communication modules 20 in the unit group G2 which are synchronized.

That is, since the ZigBee communication modules 20 belonging to the unit group G2 are given the same identification code, the ZigBee communication modules 20 simultaneously receive the detection signals through the input port P3 or from the ZigBee communication module having the same identification code. In addition, since the pulse signal for controlling the amount of light to be output is received and the transmission line is not established, the response signal ASK according to the reception is not wirelessly transmitted to the detection sensor 30 or the other Zigbee communication module.

Then, the Zigbee communication modules 20 in the unit group G2 each have a 1: 1 light quantity control signal PWM through the output port P4 according to a sensing signal or a pulse signal received through the input port P3. Bar is output to the LED lamp (10) connected to

The LED light 10 is a light amount control is made in the dark state in the state that the light (10) is not detected by the detection of an object (for example, a person, a car), the light amount control according to the light amount control pulse signal PWM inputted through the output port (P4) Because it is made brighter, the specific location (S1) of the interior and exterior of the building is to be provided with the illumination by the brightened LED lamp 10.

That is, according to the present invention, the Zigbee communication modules 20 in the unit groups G1 and G2 are each assigned the same identification code, and the movement of an object from one or a plurality of detection sensors 30 synchronized with each unit group. After receiving the detection signal according to the signal or the light quantity control pulse signal output from the Zigbee communication module having the same identification code and does not wirelessly transmit the response signal (ASK) according to the reception to the sensor 30 or other Zigbee communication module, Since the light quantity control signal (PWM) is output to the LED lamp 10 that is matched 1: 1, the information processing delay due to the transmission and reception with the sensor 30 or wireless transmission and reception with other Zigbee communication module while removing the It will be able to provide a technical feature to quickly adjust the amount of light of the LED lamp (10).

On the other hand, in the embodiment of the present invention, each of the ZigBee communication module 20 is equipped with a relay program for wireless relaying the detection signal or the light quantity control pulse signal received through the input port (P3) to the adjacent ZigBee communication module Meanwhile, the relay program may be configured to be activated according to on / off of a switch (not shown).

That is, the ZigBee communication module 20 is configured in a number of ZigBee communication modules in the interior and exterior of the building tightly, considering that the transmission and reception distance of the radio signal is limited to 10 ~ 20m or less, Assuming that 30) is configured, the relay program of the ZigBee communication module 20 which is densely configured inside and outside the building is activated through a switch to wirelessly transmit the detection signal of the detection sensor 30 or one ZigBee communication module. By building a ZigBee network, which receives signals from adjacent ZigBee communication modules through the input port P3 and relays them back to another ZigBee communication module, even if one or more ZigBee coordinators are not conventionally constructed, To be able to control the amount of light for a large number of LED lights installed inside and outside .

Although the technical idea of the wireless control device of the LED lamp of the present invention has been described above with the accompanying drawings, this is illustrative of the best embodiment of the present invention and not intended to limit the present invention.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined by the appended claims. It is to be understood that such changes and modifications are within the scope of the claims.

10; LED lighting 20; Zigbee Communication Module
30; Detection sensor

Claims (4)

A plurality of LED lights installed on the interior and exterior ceiling surfaces and walls of the building; A Zigbee communication module that is connected to the plurality of LED lamps in a 1: 1 match and is provided with an identification code (ID) to control the amount of light of the LED lamps; Including,
The ZigBee communication module is configured in the unit group so that the identification code in the unit group in the same unit so as not to wirelessly transmit a response signal according to the information reception,
It constitutes one or a plurality of detection sensors for wirelessly transmitting a signal for detecting the movement of the object in the parking lot so as to be synchronized with the unit group including the Zigbee communication module having the same identification code 1: 1.
The ZigBee communication module having the same identification code in the unit group wirelessly transmits a pulse signal (PWM) for controlling the amount of light of the LED lamp in one of the ZigBee communication module having the same identification code, or corresponds to the 1: 1 When one or a plurality of sensors to be synchronized to the wireless transmission of a signal for detecting the movement of the object, simultaneously receiving the wireless transmission of the detection signal to control the amount of light of the LED lamp matched 1: 1 in the unit group at the same time LED lighting wireless control device, characterized in that the configuration. The method of claim 1,
The Zigbee communication module includes a power line and an input / output line which is drawn from the base and connected to the LED lamp,
The power line includes a power port (+ 5V In) and a ground (GND) port receiving power supplied to the LED lamp,
The input / output line receives an input signal (Sensor On In) for receiving a detection signal wirelessly transmitted from the detection sensor or a light amount control pulse signal PWM output from another Zigbee communication module having the same identification code, and through the input port. And an output port (PWM OUT) for outputting a pulse signal (PWM) for controlling the amount of light of the LED lamp according to the received detection signal to the LED lamp. The method of claim 2,
At the base of the Zigbee communication module, a mode selection switch for changing a reception channel and an identification code, an UP / DOWN switch for enabling a mode search when the mode selection switch is on, and the mode selection switch It further includes a display lamp for changing the receiving channel and the identification code by the lighting of the binary number or a number, and a plurality of operation lamps for indicating whether the power supply and detection status and the output level of the pulse signal is normal. LED lighting wireless control device, characterized in that the configuration. The method according to any one of claims 1 to 3,
Each of the Zigbee communication modules includes a relay program configured to wirelessly relay a sensing signal or a light quantity control pulse signal received through an input port to an adjacent Zigbee communication module, and the relay program is activated according to on / off of a switch. LED lighting wireless control device, characterized in that the configuration.

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