WO2016122211A1 - Converter module using wireless communication and lighting control system including same - Google Patents

Abstract

An embodiment of the present invention relates to a converter module using wireless communication and a lighting control system including the same. A technical problem to be solved is to enable a lighting apparatus to be controlled without requiring separate wiring work by applying a wireless communication module to a converter. To this end, an embodiment of the present invention discloses a converter module using wireless communication, which converts alternating current power into direct current power so as to control dimming of a lighting apparatus according to a control signal received from an external controller, wherein the converter module is configured such that, when a reset channel signal is received from the external controller for a predetermined reset period of time from the moment when power supply to the lighting apparatus is started, a lighting apparatus corresponding to a channel number included in the reset channel signal is turned on/off or dimming of the lighting apparatus is controlled.

Description

Converter module using wireless communication and lighting control system including the same

One embodiment of the present invention relates to a converter module using wireless communication and a lighting control system including the same, which can control a lighting device by applying a wireless communication module to a converter without a separate wiring work.

With the development of the current network technology, a network is constructed outdoors and in a building, and this network allows one server and various electronic devices to be connected, thus enabling remote control of various electronic devices by a server.

In addition, the remote control can provide a variety of services while being able to control the lighting, especially the electronic devices connected to the network. In other words, the remote control of the lighting allows the server to adjust the lighting on / off and brightness, color, and color temperature through the server.

Lamps are incandescent, fluorescent, mercury, neon or sodium, or LED lighting that has recently improved power savings and illumination. Public lighting is usually lit at sunset and off at sunrise. This is achieved by turning on or off the lamp by the illuminance sensor for detecting light.

However, the remote control of the lighting is one-way, that is, unidirectionally transmits a control command from the server to the light, and does not transmit a response signal resulting from the control command from the light to the server. Since the server side user does not monitor the state information of the lamp according to the control, there is a problem that it is very difficult to be provided with the reliability of the light control.

One embodiment of the present invention provides a converter module using a wireless communication and a lighting control system including the same that can control the lighting device without applying a separate wiring work by applying a wireless communication module to the converter.

Converter module using a wireless communication according to an embodiment of the present invention is a converter module for converting AC power into DC power to control the dimming of the lighting device according to a control signal received from an external controller, from the moment the power supply is started When the reset channel signal is received from the external controller for a preset reset time, the lighting device corresponding to the channel number included in the reset channel signal may be set to be turned on or off or dimmed.

The reset channel signal may include a unique identification number of the external controller and the channel number.

The converter module includes a wireless communication unit for transmitting and receiving data with the external controller; A power converter converting AC power supplied from the outside into DC power; A channel setting unit configured to set the lighting device as one channel according to the control signal or the reset channel signal; A dimming setting unit configured to set a dimming level and a dimming time of the lighting device; A signal generator for generating a dimming control signal integrating the setting information of the channel setting unit and the dimming setting unit; And controlling a dimming of the lighting device by the dimming control signal, and receiving a reset channel signal from an external controller for a preset reset time from the moment of supplying power to the lighting device, the channel number included in the reset channel signal. It may include a control unit for setting the lighting device corresponding to the channel for on-off or dimming control.

In addition, the lighting control system including a converter module using a wireless communication according to another embodiment of the present invention includes a lighting module having a plurality of lighting devices for providing a lighting function; A remote controller for generating a control signal or a reset channel signal for individual or group control of the module; And a converter module receiving AC power from the outside and converting the DC power into DC power to control on / off or dimming of the lighting module according to the control signal or the reset channel signal.

When the converter module receives the reset channel signal from the remote controller for a preset reset time from the start of power supply, the lighting module corresponding to the channel number included in the reset channel signal may be set to be on / off or dimmed. have.

The apparatus may further include a switching module capable of controlling power supply to the channel according to the control signal or the reset channel signal.

The reset channel signal may include a unique identification number of the external controller and the channel number.

The converter module includes a wireless communication unit for transmitting and receiving data with the remote controller; A power converter converting AC power supplied from the outside into DC power; A first channel setting unit configured to set the lighting module to one channel according to the control signal or the reset channel signal; A dimming setting unit configured to set a dimming level and a dimming time of the lighting module; A signal generator for generating a dimming control signal integrating the setting information of the channel setting unit and the dimming setting unit; And controlling the dimming of the lighting module by the dimming control signal, and receiving a reset channel signal from the remote controller for a preset reset time from the moment of supplying power, corresponding to the channel number included in the reset channel signal. It may include a control unit for setting the lighting module as a channel for on-off or dimming control.

The lighting module includes a red, green, blue and white lighting device, the converter module is provided with a PWM channel connected to the lighting module, by adjusting the PWM value of the PWM channel of the light irradiated from the lighting module The color is adjustable.

The remote controller includes a communication unit for transmitting and receiving data with the converter module; A switch unit for turning on and off the lighting module; A dimming controller for controlling dimming or color of the lighting module; A reset setting unit for setting a reset time of the lighting module; A second channel setting unit configured to set at least one channel by using individual IPs or group IPs of the lighting module; And a channel selector for selecting a channel to be illuminated among the channels, and the switch unit, the dimming control unit, the reset setting unit, the group setting unit, and the channel selection unit may be implemented by at least one button.

The converter module using the wireless communication and the lighting control system including the same according to an embodiment of the present invention, because the wireless communication module is applied to the converter, it is possible to control the lighting device without a separate wiring work, each converter Lighting control can be performed uniformly by grouping.

In addition, an embodiment of the present invention excludes the channel number included in the existing dimming control signal when a new reset channel signal is received from the remote controller during the reset time from the moment of supplying power to the lighting device. Since the lighting device corresponding to the included channel number is controlled, it is possible to simply control the lighting device with another remote controller even when the remote controller is broken or lost, thereby improving user convenience. .

1 is a view showing a lighting control system including a converter module using a wireless communication according to an embodiment of the present invention.

FIG. 2 is a block diagram schematically illustrating a converter module using wireless communication of FIG. 1.

3 is a block diagram schematically illustrating the remote controller of FIG. 1.

4 is a view showing a state in which a lighting control system including a converter module using a wireless communication according to an embodiment of the present invention is installed.

Terms used herein will be briefly described and the present invention will be described in detail.

The terms used in the present invention have been selected as widely used general terms as possible in consideration of the functions in the present invention, but this may vary according to the intention or precedent of the person skilled in the art, the emergence of new technologies and the like. In addition, in certain cases, there is also a term arbitrarily selected by the applicant, in which case the meaning will be described in detail in the description of the invention. Therefore, the terms used in the present invention should be defined based on the meanings of the terms and the contents throughout the present invention, rather than the names of the simple terms.

When any part of the specification is to "include" any component, this means that it may further include other components, except to exclude other components unless otherwise stated. In addition, the terms "... unit", "module", etc. described in the specification mean a unit for processing at least one function or operation, which may be implemented in hardware or software or a combination of hardware and software. .

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

1 is a view showing a lighting control system including a converter module using a wireless communication according to an embodiment of the present invention, Figure 2 is a block diagram schematically showing a converter module using a wireless communication of Figure 1, Figure 3 1 is a block diagram schematically illustrating the remote controller of FIG. 1, and FIG. 4 is a view illustrating a state in which a lighting control system including a converter module using wireless communication according to an embodiment of the present invention is installed.

1 to 4, a lighting control system including a converter module using wireless communication according to an embodiment of the present invention includes a lighting module 10, a remote controller 20, a converter module 30, and a switching module. And 40.

The lighting module 10 is installed in a common place such as an underground parking lot or a staircase, and generates light when electric current flows, and provides a lighting function. There are a plurality of lighting devices such as LEDs (L1a to FIG. 1). c, L2a to c, and L3a to c). The lighting module 10 is connected to the converter module 30, respectively. In the present invention, the LED is described as an example of the lighting module 10, but the present invention is not limited thereto, and a lighting device such as an incandescent lamp or a fluorescent lamp may also be applied.

The lighting module 10 may include a red (R), green (G), blue (B) and white (W) lighting device. In this case, the converter module 30 may adjust the color of light emitted from each lighting module 10 by adjusting the PWM values of the pulse width modulation (PWM) channels.

The remote controller 20 is a device used to manually set lighting control. The remote controller 20 generates a control signal or a reset channel signal for individually or grouping the lighting module 10. The remote controller 20 may be referred to as an external controller.

In order to implement such an operation, as illustrated in FIG. 3, the remote controller 20 may include a communication unit 210, a switch unit 220, a dimming control unit 230, a reset setting unit 240, and a second channel setting. A unit 250 and a channel selector 260 are included.

In this case, the switch unit 220, the dimming control unit 230, the reset setting unit 240, the second channel setting unit 250 and the channel selector 260 can be manipulated to perform each operation, It may be implemented as at least one button on the surface of the case of the remote controller 20.

The communication unit 210 is a device for transmitting and receiving data with the converter module 30, Zigbee (Bluetooth), Bluetooth (wifi), Wi-Fi (wifi), infrared (IR), RF communication method, and the like can be applied. That is, the remote controller 20 is connected to the converter module 30 and the Zigbee wireless module to control commands for various setting, on / off operation or reset operation for individual or group control of the lighting module 10. 30 can be sent.

The switch unit 210 is a device for turning on and off the lighting module 10, and switches on and off operations of the lighting module 10 by a user's manipulation.

The dimming control unit 220 is a device for controlling the dimming or color of the lighting module 10. The dimming control unit 220 controls an on time (ie, a time for turning on the lighting device) or a dimming level of the lighting module 10 by a user's manipulation. You can adjust the type or degree of color.

The reset setting unit 230 is a device for setting a reset time of the lighting module 10, and when power is supplied to the converter module 30 or when the lighting module 10 is turned on. The time reset by the user's operation can be set. The reset time may be 1 second to 2 seconds, but the length of the reset time is not limited in the present invention.

In addition, the reset setting unit 240 may generate a control command to reset the lighting device by pressing and holding the button provided to correspond to this for 2 seconds to 3 seconds.

The second channel setting unit 250 is an apparatus for setting at least one channel using individual IPs or group IPs of the lighting module 10. The second channel setting unit 250 controls the lighting module 10 by group or area by a user's manipulation. Grouping and the grouped lighting module 10 can be synchronized to set the channel. In this way, the second channel setting unit 250 may operate the lighting module 10 by group or area. For example, as illustrated in FIG. 1, the second channel setting unit 250 sets individual IPs of the lighting modules 10 to a channel having one group IP, and the lighting module having the same group IP ( 10) may be synchronized with each other so that each dimming level is uniformly controlled.

The channel selector 260 selects a channel to be illuminated among the channels set by the second channel setter 250.

Meanwhile, the remote controller 20 transmits a new channel selection signal (that is, a reset channel signal) selected through the channel selector 260 to the lighting module 10 during the reset time after the lighting module 10 is turned on. In addition, the channel number included in the existing dimming control signal may be excluded and the on / off or dimming of the lighting module 10 corresponding to the channel number included in the reset channel signal may be controlled.

On the other hand, the remote controller 20 converts the new channel selection signal (ie, reset channel signal) selected through the channel selection unit 260 for a predetermined reset time after the power supply to the converter module 30 is started. 30, the converter module 30 sets the converter module 30 to be set to the channel number included in the reset channel signal transmitted by the remote controller 20 without excluding the channel number included in the existing dimming control signal. 10) can be controlled to turn on or off or dimming.

In the present invention, even when the remote controller 20 is broken or lost through the reset channel signal, it is possible to simply control the lighting device to the other remote controller 20.

The converter module 30 receives an AC power from the outside and converts it into DC power so as to control the dimming of the lighting module 10 according to a control signal or a reset channel signal received from the remote controller 20. In addition, the converter module 30 is remote controller 20 for a preset reset time from the moment power supply is started to the converter module 30 by the operation of each switching module 40 or the lighting module 10 is turned on. When the reset channel signal is received from the lighting module 10 corresponding to the channel number included in the reset channel signal, the lighting module 10 may be set to be turned on or off. Here, the reset channel signal may include a unique identification number and a channel number of the remote controller 20. In addition, the converter module 30 is provided in plural number and is connected to the lighting module 10, respectively. In this case, the plurality of converter modules 30 connected to each lighting module 10 may be connected in series or in parallel.

Of course, if the converter module 30 does not receive the reset channel signal for a preset reset time from the moment when the power supply to the converter module 30 is started or the lighting module 10 is turned on, the converter module 30 may be The on / off and dimming of the lighting module 10 is controlled according to a control signal corresponding to the set and stored channel number.

In order to implement such an operation, as shown in FIG. 2, the converter module 30 includes a wireless communication unit 310, a power conversion unit 320, a first channel setting unit 330, and a dimming setting unit 340. The signal generator 350 and the controller 360 are included.

The wireless communication unit 310 is a device for transmitting and receiving data with the remote controller 20, Zigbee, Bluetooth, Wi-Fi, infrared, RF communication scheme can be applied. For example, the converter module 30 may be connected to the remote controller 20 through a Zigbee wireless module to perform various settings, on / off operations, or resets for individual or group control of the lighting module 10 from the remote controller 20. A control command for the operation can be received. The wireless communication unit 310 transmits various information received from the remote controller 20 to the control unit.

On the other hand, to describe the ZigBee wireless module that can be provided in the wireless communication unit 310, first ZigBee (ZigBee) means a low-power wireless short-range standard communication technology, the price is low, the power consumption is very small, the size The program is most suitable for small and small programs, not very fast at close range and rare network usage. These ZigBee wireless modules can be used for more than a year with a typical battery, and the transmission speed can be up to 250 Kbps in the 2.4GHz band. In addition, the Zigbee wireless module can attach up to 65,536 nodes to the network, and support star, cluster tree, and mesh network networks. Based on the IEEE 802.15.4 PHY and MAC standards, the ZigBee alliance (such as companies and research institutes) was centered and the ZigBee specification of the upper layer network and application layer was established. In addition, the Zigbee wireless module has a transmission distance of 10 ~ 75m range, 75m / 1mW (0dBm) or less, 30mA TX, in the case of 2.4GHz hardware is 30m / indoor, over 100m / outdoor, battery life of more than 100 ~ 1,000day Life can be maintained. According to the present invention, the wireless communication unit 310 having the characteristics of ZigBee may be attached to each converter module 30 in the form of an IC to perform wireless communication with the remote controller 20.

In addition, the wireless communication unit 310 may perform wireless communication with the wireless communication unit 310 of the converter module 30 connected to the adjacent lighting module 10. In this case, the converter module 30 may operate to synchronize the lighting modules 10 having the same group IP set from the remote controller 20 to each other.

The power converter 320 is a device for converting AC power supplied from the outside into DC power. For example, the power conversion unit 320 receives AC220V power and rectifies and converts the power into DC power. In this case, the power conversion unit 320 may also perform a function of lowering the high power supplied from the outside to the power supplyable to each component constituting the converter module 30 or the lighting module 10.

The first channel setting unit 330 is a device for setting the lighting module 10 to one channel according to a control signal or a reset channel signal received from the remote controller 20. That is, the first channel setting unit 330 may set the lighting module 10 as one channel among several channels according to the channel setting information included in the control signal or the reset channel signal received from the remote controller 20. .

For example, the plurality of converter modules 30 connected to one same first power line may be set to the selected first channel in the channel selector 260 of the remote controller 20. The plurality of converter modules 30 connected to different second power lines may be set as the second channel in the channel selector 260 of the remote controller 20. Of course, as described above, the channel number different from the previously set channel number by pressing the button of the channel selector 260 of the remote controller 20 during the preset reset time from the moment the power supply to the converter module 30 is started It is also possible to change.

The dimming setting unit 340 is a device for setting the dimming level and the dimming time of the lighting module 10. That is, the dimming setting unit 340 may turn on the lighting time of the lighting module 10 according to the dimming or color control information included in the control signal or the reset channel signal received from the remote controller 20. Time), dimming level or color type or intensity.

The signal generator 350 is a device for generating a dimming control signal integrating setting information of the first channel setting unit 330 and the dimming setting unit 340. The signal generator 350 may transmit a dimming control signal to the controller 360 to control channel setting or dimming of the lighting module 10.

The control unit 360 controls the dimming of the lighting module 10 according to a dimming control signal, the remote controller for a preset reset time from the moment the power supply to the converter module 30 is started or the lighting module 10 is turned on When receiving the reset channel signal from the (20), the converter module 30 is set to be assigned to the channel number included in the reset channel signal.

On the other hand, if the control unit 360 receives the reset channel signal from the remote controller 20 for a preset reset time from the moment when the power supply to the converter module 30 is started or the lighting module 10 is turned on, the control unit 360 receives the reset channel signal. The lighting module 10 corresponding to the included channel number is set as a channel for on / off or dimming control.

For example, the controller 360 is preset when the lighting module 10 is turned on after being turned off in a state of controlling a lighting device connected to a first group of four channels having four group IPs. When receiving a new reset channel signal set to control the lighting module 10 connected to the second group from the remote controller 20 during the reset time, the new reset is excluded except for the state of controlling the existing lighting module 10 of the first group. It may be set to control the lighting module 10 connected to the second group included in the channel signal.

On the other hand, the control unit 360 is a preset reset time from the moment the power supply is started to the converter module 30 in a state of controlling the lighting module 10 connected to the converter module 30 matched to a specific channel number. During the reception of the reset channel signal including the new channel number from the remote controller 20, the converter module 30 is set to be assigned to the new channel number.

On the other hand, the dimming control signal to increase the illuminance through the on command when the current measured illuminance value is low compared to the preset threshold illuminance value, and off when the current measured illuminance value is high compared to the preset threshold illuminance value The command may include an illuminance control command to reduce the illuminance. To this end, the lighting control system may further include a sensor module to be described later.

The switching module 40 is a device capable of controlling the power supply to at least one channel according to a control signal or a reset channel signal. The switching module 40 controls the power supply to the lighting module 10 set to at least one group or channel. In order to provide a plurality of switching devices.

On the other hand, such a switch device may be implemented as a wall switch or the like to start the supply of power or cut off the power by a user's manual operation.

Although not shown, the lighting control system may further include a sensor module to perform lighting control by using the presence and / or movement of a person or object sensed through the sensor module and a peripheral illumination value. In this case, the sensor module may include an infrared sensor, a microwave sensor, an illumination sensor, and the like to detect the presence and / or movement of a person or an object and a current illuminance value in a space where lighting control is to be performed. The infrared sensor detects a physical quantity or a chemical quantity such as temperature, pressure, and radiation intensity by using infrared rays and converts it into an electrical quantity capable of signal processing. In this case, the infrared light has a longer wavelength than the red light of visible light in the electromagnetic spectrum and a shorter wavelength than microwaves, and has a wavelength of about 0.75 μm to 1 mm. Such an infrared sensor has an active type that detects a change caused by blocking light by firing infrared rays by itself, and a passive type that reads only the change of infrared rays received from the outside without self-luminous. In addition, the microwave sensor generally uses microwaves to detect the presence and / or movement of a person or object. At this time, the microwave has a strong directivity and transmits a radio wave only in a certain direction, a long distance transmission with a small power and a wide range of radio waves exhibit a strong property.

Meanwhile, the lighting control system including the converter module using the wireless communication may further include a central control panel (not shown) connected to the converter module 30 by wireless communication. In this case, the central control panel may be installed in one unit area (for example, each floor of a building) in order to control the converter module 30 installed in a space where lighting control is to be performed. The central control panel may collect data including lighting time, power consumption, and the like of the lighting apparatus from the plurality of converter modules 30 and provide the same to the manager.

The converter module using the wireless communication and the lighting control system including the same according to the present invention configured as described above can control the lighting device without a separate wiring work, because the wireless communication module is applied to the converter, each converter Lighting control can be performed uniformly by grouping. In addition, the present invention excludes the channel number included in the existing dimming control signal when the new reset channel signal is received from the remote controller 20 during the reset time from the start of power supply to the lighting device is included in the reset channel signal Since it is to control the lighting device corresponding to the channel number, it is possible to simply control the lighting device with another remote controller 20 even in a situation in which the remote controller 20 is broken or lost, thereby the user's convenience Can improve.

What has been described above is only one embodiment for implementing a converter module using a wireless communication according to the present invention and a lighting control system including the same, the present invention is not limited to the above embodiment, in the claims below As claimed, any person having ordinary skill in the art without departing from the gist of the present invention will have the technical spirit of the present invention to the extent that various modifications can be made.

Claims (10)

In the converter module for converting AC power to DC power to control the dimming of the lighting device in accordance with a control signal received from an external controller, When receiving the reset channel signal from the external controller for a preset reset time from the moment the power supply is started to the converter module, the lighting device corresponding to the channel number included in the reset channel signal is set to be on-off or dimming control Converter module using wireless communication. The method according to claim 1, And the reset channel signal includes a unique identification number of the external controller and the channel number. The method according to claim 1, The converter module, A wireless communication unit for transmitting and receiving data with the external controller; A power converter converting AC power supplied from the outside into DC power; A channel setting unit configured to set the lighting device as one channel according to the control signal or the reset channel signal; A dimming setting unit configured to set a dimming level and a dimming time of the lighting device; A signal generator for generating a dimming control signal integrating the setting information of the channel setting unit and the dimming setting unit; And The on / off or dimming of the lighting device is controlled by the dimming control signal, and when a reset channel signal is received from an external controller for a preset reset time from the start of power supply, it corresponds to a channel number included in the reset channel signal. And a controller for setting the lighting device to a channel for on-off or dimming control. A lighting module having a plurality of lighting devices providing a lighting function; A remote controller for generating a control signal or a reset channel signal for individual or group control of the lighting module; And And a converter module receiving AC power from the outside and converting the DC power into DC power to control on / off or dimming of the lighting module according to the control signal or the reset channel signal. The method according to claim 4, When the converter module receives a reset channel signal from the remote controller for a preset reset time from the moment that power supply is started to the lighting module, the lighting module corresponding to the channel number included in the reset channel signal is turned on or off. Lighting control system, characterized in that set to be. The method according to claim 4, And a switching module capable of controlling power supply to the channel according to the control signal or the reset channel signal. The method according to claim 5 or 6, And said reset channel signal comprises a unique identification number of said external controller and said channel number. The method according to claim 4, The converter module A wireless communication unit for transmitting and receiving data with the remote controller; A power converter converting AC power supplied from the outside into DC power; A first channel setting unit configured to set the lighting module to one channel according to the control signal or the reset channel signal; A dimming setting unit configured to set a dimming level and a dimming time of the lighting module; A signal generator for generating a dimming control signal integrating the setting information of the channel setting unit and the dimming setting unit; And Control the dimming of the lighting module according to the dimming control signal, if receiving a reset channel signal from the remote controller for a preset reset time from the moment the power supply to the lighting module is started, the channel number included in the reset channel signal Lighting control system comprising a control unit for setting the lighting module corresponding to the channel for on-off or dimming control. The method according to claim 4, The lighting module comprises red, green, blue and white lighting devices, The converter module is provided with a PWM channel connected to the lighting module, the lighting control system, characterized in that for adjusting the color of the light irradiated from the lighting module by adjusting the PWM value of the PWM channel. The method according to claim 4, The remote controller Communication unit for transmitting and receiving data with the converter module; A switch unit for turning on and off the lighting module; A dimming controller for controlling dimming or color of the lighting module; A reset setting unit for setting a reset time of the lighting module; A second channel setting unit configured to set at least one channel by using individual IPs or group IPs of the lighting module; And A channel selector for selecting a channel to be illuminated among the channels, And the switch unit, the dimming control unit, the reset setting unit, the group setting unit, and the channel selecting unit are implemented by at least one button.

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