KR20150007083A - Lighting system - Google Patents

Abstract

The present invention relates to a lighting system. According to an aspect of the present invention, the lighting system comprises: a gateway; a plurality of lighting devices which are communicably connected to the gateway; and a switch which is communicably connected to the gateway to receive a control command for the lighting devices. The switch is converted into an activated state when first proximity touch is detected, and state information of the lighting devices in the activated state is requested to the gateway.

Description

Lighting system

The present invention relates to an illumination system capable of reducing battery consumption of a switch.

Typical lighting systems use light sources such as incandescent lamps, discharge lamps, and fluorescent lamps and are used in various fields such as home, landscape, and industrial.

However, resistive light sources such as incandescent lamps are inefficient, discharge lamps are problematic due to high price and high voltage, and fluorescent lamps have environmental problems related to the use of mercury.

In order to solve the problem of the conventional light source, a lighting system of a large building has recently been replaced by an LED lighting device.

The lighting system includes a controller for on / off control of LED lighting devices installed in each floor or a specific area in real time, a controller for status information monitoring or power consumption monitoring, and a gateway for forming a network with a plurality of LED lighting devices.

In addition, the lighting system is provided with one or more switches so that the user can control on / off and dimming of the LED lighting apparatus. Here, a plurality of lighting apparatuses can be controlled through one switch, and on / off control of the same LED lighting apparatus can be performed through a plurality of switches provided at different positions, respectively.

Usually, the switch is attached to and installed in the wall of the illumination space. The switch is provided with a battery for power supply. At this time, when the battery is discharged, the user must remove the switch from the wall and replace it with a new battery. Therefore, a method of increasing the replacement cycle of the battery by reducing the power consumption of the battery is required.

An object of the present invention is to provide an illumination system capable of reducing battery consumption of a switch.

It is another object of the present invention to provide an illumination system capable of synchronizing the latest state information of a lighting apparatus before a user inputs a control command through a switch.

It is another object of the present invention to provide an illumination system capable of synchronizing state information of a changed illumination device through a switch other than a switch for a user to input a control command.

It is another object of the present invention to provide an illumination system capable of pre-synchronizing state information of a lighting apparatus only when a user requests the illumination system.

Another object of the present invention is to provide a lighting system capable of reducing the network load and increasing the replacement cycle of the battery.

According to an aspect of the present invention, there is provided a gateway device including: a gateway; a plurality of lighting devices communicably connected to the gateway; And a switch communicably connected to the gateway, for receiving a control command of the lighting devices.

Wherein the switch is activated when a first proximity touch is detected and requests the gateway for status information of the lighting devices in the activated state.

According to another aspect of the present invention, there is provided a gateway device including: a gateway; a plurality of illuminators communicably connected to the gateway; And a plurality of switches, communicably connected to the gateway, for receiving control commands of the lighting devices.

Herein, any one of the switches switches to the active state when the first proximity touch is detected, and requests the gateway from the status information of the lighting apparatuses changed by the other switches in the activated state.

INDUSTRIAL APPLICABILITY As described above, the illumination system according to one embodiment of the present invention has the following effects.

By periodically switching the standby mode and the active mode of the switch, the battery consumption of the switch can be reduced and the replacement period of the battery can be increased.

Also, by synchronizing the latest state information of the lighting apparatus before the user inputs the control command through the switch, the network load can be reduced and the change in the state information of the lighting apparatus can be applied to the switch in real time.

Further, by previously synchronizing the state information of the lighting apparatus changed by the user through the switch other than the switch for inputting the control command to the corresponding switch, the inconsistency of the state information of the switches can be prevented, and the reliability can be improved .

In addition, it is possible to reduce the network load and reduce battery consumption by pre-synchronizing the status information of the lighting device only when there is a request from the user.

1 is a conceptual diagram of an illumination system related to an embodiment of the present invention.
2 is a block diagram of an illumination system in accordance with one embodiment of the present invention.
3 is a conceptual diagram showing a switch constituting an illumination system according to an embodiment of the present invention.
4 is a conceptual diagram for explaining one operating state of the switch shown in FIG.
5 and 6 are flowcharts for explaining a control method of a lighting system according to an embodiment of the present invention.
7 is a graph for explaining the standby mode and the active mode.
8 is a conceptual diagram for explaining an operating state of the illumination system according to an embodiment of the present invention.

Hereinafter, a lighting system according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.

FIG. 1 is a conceptual diagram of an illumination system related to an embodiment of the present invention, and FIG. 2 is a block diagram of an illumination system related to an embodiment of the present invention.

1 and 2, the lighting system 1 includes an interface 10, a controller 20, a gateway 30, a plurality of illuminating devices 41 to 43 communicably connected to the gateway 30, 51-53).

The lighting system 1 further includes a switch 60 for controlling on / off, dimming control, color temperature control, etc. of the plurality of lighting devices 41 to 43 and 51 to 53 and status information of the lighting space, And a sensor 70 for sensing the illuminance and the like.

On the other hand, the components shown in Figs. 1 and 2 are not essential, so that the lighting system 1 having more or fewer components than the components described above can be implemented.

Hereinafter, each component that can constitute the lighting system 1 will be described in detail.

The monitoring unit 80 and the controller 20 are capable of managing each state information or power consumption including on / off, illuminance, color temperature, etc. of the lighting apparatus installed in each floor or a specific area of the building B in real time .

The monitoring unit 80 can communicate with the controller 20 through the SOAP or BACnet protocol and can transmit contents set by the user to the lighting devices 41 to 43 and 51 to 53 which are actually connected to the controller 20 And transmits the setting information to the controller 20. [0050]

The supervisory panel 80 can also invoke the controller 20 to retrieve the setting information of the stored lighting devices 41 to 43 and 51 to 53 and send the schedule control information to the controller 20, / Individual control, and can perform monitoring on the lighting devices 41 to 43, 51 to 53. [

The interface 10 may be a display panel which is responsible for inputting the control command for the lighting devices 41 to 43 and 51 to 53 or for displaying the status information of the lighting devices 41 to 43 and 51 to 53 .

The interface 10 communicates with the controller 20 and transmits to the controller 20 group / individual control or individual layer / whole layer control requested by the user via a graphical user interface (GUI) The result (response) can be received from the controller 20 and displayed as a graphical user interface.

The controller 20 communicates with an external device (e.g., a monitoring panel, an interface, and a gateway), and can perform control and monitoring with respect to the lighting devices 41 to 43 and 51 to 53.

The gateway 30 communicates with the controller 20 and receives the group / individual control of the lighting devices 41 to 43 and 51 to 53 from the controller 20, . In one embodiment, the gateway 30 may be a Zigbee gateway.

The gateway 30 includes a hardware configuration for performing a network relay role and a control function between the controller 20 and the illumination devices 41 to 43 and 51 to 53, the switch 60, the sensor 70, .

The gateway 30 may be referred to as a Zigbee gateway (GW) due to a Zigbee network that is commonly used in the lighting system 1, and may be a router, an access point Access Point), or a vail router.

In addition, the gateway 30 can support various communication methods by incorporating a communication modem. In one embodiment, the gateway 30 includes a Zigbee communication network, including a Zigbee communication module, as well as Bluetooth, WiFi, Wi-fi direct, Wi-Di, , 4G, WiBro, WiMax, and the like.

The gateway 30 can also communicate with other Zigbee devices such as the lighting devices 41 to 43, 51 to 53, the switch 60 and the sensor 70 in a wireless communication manner using the Zigbee communication method.

Meanwhile, the lighting devices 41 to 43 and 51 to 53 may be communicatively connected to the gateway 30 via the bridge devices 40 and 50, and may communicate with each other through the Zigbee communication method in one embodiment.

The bridge devices 40 and 50 transmit the control command transmitted from the gateway 30 to the corresponding lighting devices 41 to 43 and 51 to 53 and the response of the respective lighting devices 41 to 43 and 51 to 53 Or event information to the gateway 30.

Further, the illuminating devices 41 to 43 and 51 to 53 may be a flat type illuminating device or a Bulb type illuminating device, a PAR type illuminating device, and in particular, the illuminating device may be an LED illuminating device.

On the other hand, the control exclusive means of the lighting system 1 constituted by one set with the lighting apparatuses such as the controller 20 and the interface 10 and the monitoring panel 80 can be referred to as a first control means, A device used to control the illumination device in addition to the control means or to monitor the status information of the illumination device or the illumination space may be referred to as a second control means.

The second control means includes all devices capable of connecting, interlocking, pairing, etc. with the illumination device and / or the first control means through a wired / wireless network.

In one embodiment, the second control means may be a switch 60, a remote control, a smart phone, a PDA, a tablet PC, a notebook (see Fig. 8) or a computer.

On the other hand, the protocol may be different between the lighting device, the first control means and / or the second control means, and each component may be linked with another communication protocol, an associated adapter may be downloaded as needed, Etc. may be additionally provided to perform conversion processing or the like.

However, for convenience of description, the Zigbee communication protocol will be described below as an example, but the scope of the present invention is not limited thereto.

Also, in this document, the first control means and the second control means may be referred to as a terminal 110 (see FIG. 8) for convenience, and the terminal may include the above-described components such as a fixed terminal and a portable terminal. In particular, a device for inputting a control command for the lighting device or for confirming the status information of the lighting device among the terminals may be referred to as a switch 60.

On the other hand, the user can control a single lighting device through the switch 60 or a plurality of lighting devices. When controlling through a plurality of lighting devices through the switch 60, a plurality of lighting devices may be controlled individually or a plurality of lighting devices may be group-controlled.

For example, the first illuminating device 41 and the second illuminating device 42 can be individually turned on / off, dimmed, and color temperature controlled by one switch 60, 2 lighting devices 42 may be assigned to the first control group to control them in units of the first control group.

Further, the switch 60 may be installed in the wall of the illumination space, and the switch 60 may be detachably mounted to the wall of the illumination space. According to this structure, the user can input control commands for one or more lighting devices or check status information for one or more lighting devices via the switch 60 attached to the wall.

In addition, the user can use the switch 60 as a portable terminal by separating the switch 60 from the wall.

FIG. 3 is a conceptual diagram showing a switch constituting an illumination system according to an embodiment of the present invention, and FIG. 4 is a conceptual diagram illustrating an operation state of the switch shown in FIG.

The switch 60 includes a display unit 61 having a plurality of touch areas 61a to 61c, a control unit 68 for controlling the display unit 61, and a housing 67 ).

The switch 60 includes a proximity sensor 62 for sensing a proximity touch and a touch sensor 63 for sensing a touch input to the display unit 61.

In addition, the switch 60 includes the gateway 30 and a communication unit 64 for wireless communication with the lighting device.

The switch 60 may include a battery 66 for supplying power to the display unit 61 and the sensors 62 and 63. That is, the switch 60 is supplied with power through the battery 66 mounted in the housing 67 without being directly supplied with power from the external power source. The battery 66 may be detachably mounted on the housing 67 for easy replacement.

The switch 60 may also include a memory 65 in which the status information of the lighting device may be stored and the schedule information of the lighting device and / Can be stored.

The display unit 61 may function as an input unit for receiving control commands for one or more lighting devices and a display unit for displaying status information of the lighting apparatus. Also, the display unit 61 may be a touch screen capable of sensing a touch input of a user.

Alternatively, the display unit 61 may function as a display unit, and the input unit may be provided in another area of the housing 67 that is physically separated from the display unit 61. In this case, the input unit may be constituted by a touch screen or a mechanical button unit.

3 and 4, the control unit 68 can detect the different nearest depths h1 to h3 of a nearby object (e.g., the user's finger), respectively, the switch 60 may be controlled in various manners based on the output signals h3 and h3, which will be described later.

An illumination system 1 in accordance with an embodiment of the present invention includes a gateway 30, a plurality of illuminators (e.g., 41 to 43) communicatively coupled to the gateway, And a switch 60 for receiving a control command of the illumination devices 41 to 43.

At this time, the switch 60 is activated when the first proximity touch is detected, and requests the gateway for status information of the lighting devices in the activated state.

In other words, when the first proximity touch is detected, the switch 60 is switched to the active state. If the first proximity touch is not sensed, the switch 60 is maintained in the standby state or is switched to the standby state.

Here, the standby state means a state for minimizing the battery consumption of the switch 60, and the activated state means that the state information of the lighting devices is requested to the gateway so as to be synchronized with the latest state information of the lighting devices It means the state can be.

Also, in the standby state, the switch 60 and the gateway 30 do not exchange status information of the lighting device so as to reduce power consumption. That is, when the switch 60 is kept in the standby state for a predetermined time, the latest information state of the lighting apparatus may not be reflected in the switch 60. [

Meanwhile, the activation state may only indicate a state in which state information of the lighting apparatus can be pre-synchronized through the gateway 30. More specifically, when receiving the control command of the user for the lighting apparatus, May be referred to as a state before transmission to the gateway 3.

For convenience of explanation, the state for pre-synchronization is referred to as a first activation state, and the state for performing the function of the normal switch 60 by receiving a control command is referred to as a second activation state. Here, the first activation state may consume less power than the second activation state.

On the other hand, the gateway 30 may transmit the status information of the lighting devices to the switch 60 when the status information of the lighting devices is requested from the switch 60. At this time, the switch 60 can be synchronized with the status information of the lighting devices transmitted from the gateway in the activated state (first activated state).

That is, the latest state information of the lighting apparatus can be reflected on the switch 60 before the user inputs the control command through the pre-synchronization.

In addition, the switch 60 may display the status information of the synchronized lighting devices on the display unit 61.

When the second proximity touch or the direct touch is detected, the switch 60 can transmit a control command to the gateway 30 corresponding to the touch input.

Specifically, the plurality of touch areas 61a to 61c of the display unit 61 may function as an input unit for receiving control commands for the illumination device. Accordingly, the controller 68 can transmit a corresponding control command to the gateway 30 when the second proximity touch or direct touch of the user is detected in the touch areas 61a to 61c.

On the other hand, when the input of the control command is not performed through the direct touch but is performed through the proximity touch, the proximity depth of the second proximity touch and the proximity depth of the first proximity touch may be determined differently.

For example, referring to FIG. 4, the proximity depth of the first proximity touch may be determined as h3, and the proximity depth of the second proximity touch may be determined as h2 or h1. Specifically, the proximity depth of the second proximity touch can be determined to be smaller than the proximity depth of the first proximity touch. This reflects the user's operation pattern (access and manipulation) using the switch 60. [

FIGS. 5 and 6 are flowcharts for explaining a control method of the illumination system according to an embodiment of the present invention, and FIG. 7 is a graph for explaining the standby mode and the activation mode.

Referring to FIGS. 5 and 6, the control method of the lighting system 1 includes a step S101 of sensing a first proximity touch to the switch.

That is, the controller 68 determines that the user has approached the switch 60 by sensing the first proximity touch, and the controller 68 transmits status information of the lighting device connected to the switch 60 to the gateway 30 ).

The control method of the lighting system 1 includes a step S102 of requesting status information of a lighting device connected to the switch 60 and a step S103 of receiving status information of the lighting device from the gateway 30 . At this time, the step of requesting the status information of the lighting apparatus and the step of receiving the status information of the lighting apparatus may be performed at the time of proximity recognition (first activation state).

In addition, the control method of the lighting system 1 may include a step (S104) of confirming the change of the status information through the status information of the received lighting apparatus. At this time, if the state information of the lighting apparatus is changed, step (S105) of applying the latest state information of the lighting apparatus to the switch 60 may be performed.

The control method of the lighting system 1 may include receiving a control command of the lighting device (S106) and transmitting a control command to the gateway 30 (S107). At this time, the step of receiving and transmitting the control command of the illumination device may be performed at the button touch time (second activation state).

At this time, the state of the switch 60 is also applied to the gateway 30, and the status information of the switch 60 is received.

On the other hand, when the predetermined time passes after the button information (control command information) according to the touch is transmitted to the gateway 30, the switch 60 can be switched to the standby mode to reduce battery consumption.

Referring to FIG. 7, the switch 60 operates in a first activation mode and a standby mode for sensing a proximity touch, and the first activation mode and the standby mode can be periodically switched.

That is, the switch 60 operates in the first activation mode for periodically sensing the proximity touch (first proximity touch) of the user while maintaining the standby state.

Here, the time Ta operating in the first activation mode may be shorter than the time Tb operating in the standby mode. This is to reduce the consumption of the battery by setting a relatively long time (Tb) to operate in the standby mode. It goes without saying that Ta and Tb can be variously determined in consideration of the characteristics of the illumination space in which the switch 60 is installed.

As described above, the switch 60 may be provided with a memory 65, and the memory 65 may store predetermined schedule information. The schedule information may include time (Ta) information operating in a first activation mode and time (Tb) information operating in a standby mode.

For example, the switch 60 installed in the office space can be set to Ta and Tb separately by dividing the working time and the working time.

Also, when the switch 60 is operated in the first activation mode, the switch 60 may be in the first activation state when the first proximity touch is detected. Alternatively, when the switch 60 is operated in the first activation mode, the switch 60 can be switched to the standby state described above if the first proximity touch is not detected.

As described above, when the first proximity touch is detected when the switch 60 is operated in the first activation mode, the switch is activated (first activated state) and the status information of the lighting devices is transmitted to the gateway 30 And may be synchronized with the latest state information of the lighting devices stored in the gateway 30. [

If the second proximity touch or the direct touch is detected when the switch 60 is operated in the first activation mode, the switch 60 enters the second activation mode for receiving the control command for the illumination device Can be switched. At this time, the switch 60 becomes the second activation state described above. Also, the switch 60 may be switched to the standby mode after a predetermined time Tc in the second activation mode.

8 is a conceptual diagram for explaining an operating state of the illumination system according to an embodiment of the present invention.

A plurality of switches may be provided in the illumination space, for example, one illumination device (for example, 41) may be controlled through a plurality of switches (including terminals), respectively. The lighting device 41 may be controlled not only by the switch 60 provided in the illumination space, but also by the terminal 110 and the like.

At this time, one of the switches is activated when the first proximity touch is detected, and requests the gateway for status information of the lighting devices changed by the other switches in the activated state.

For convenience of explanation, the plurality of switches 60 are divided into a first switch and a second switch, and both the first switch and the second switch operate in the standby mode. When the control command for the illumination device 41 is inputted through the second switch, the second switch is subjected to the pre-synchronization process through the gateway 30 as described above.

When the user inputs a control command through the first switch, the first switch goes through a pre-synchronization process through the gateway 30. At this time, the first switch requests status information of the lighting device 41 changed by the second switch to the gateway, and the changed status information is synchronized to the first switch.

That is, by previously synchronizing the state information of the already changed lighting apparatus with the switch (first switch) other than the switch (first switch) for the user to input the control command to the corresponding switch (first switch) It is possible to prevent the inconsistency of the status information between the terminals (including the terminal).

1: Lighting system
10: Interface
20: Controller
30: Gateway
41 to 43, 51 to 53: Lighting device
60: Switch
70: Sensor
80: Surveillance Board

Claims (11)

Gateway;
A plurality of lighting devices communicably connected to the gateway; And
And a switch communicably connected to the gateway for receiving a control command of the lighting devices,
Wherein the switch is activated when a first proximity touch is detected, and requests the gateway for status information of the lighting devices in the activated state. The method according to claim 1,
Wherein the gateway transmits status information of the lighting devices to the switch when the status information of the lighting devices is requested from the switch. 3. The method of claim 2,
Wherein the switch is synchronized to status information of the lighting devices received from the gateway in an active state. The method of claim 3,
Wherein the switch displays status information of the synchronized lighting devices. The method of claim 3,
Wherein the switch transmits a control command to the gateway corresponding to the touch input when the second proximity touch or the direct touch is detected. 6. The method of claim 5,
Wherein the proximity depth of the second proximity touch and the proximity depth of the first proximity touch are determined differently. The method according to claim 1,
The switch operates in a first activation mode and a standby mode for sensing a proximity touch,
The first activation mode and the standby mode are switched periodically,
Wherein the time to operate in the first activation mode is determined to be shorter than the time to operate in the standby mode. 8. The method of claim 7,
When the first proximity touch is detected when the switch is operating in the first activation mode, the switch is activated, requesting the gateway for status information of the lighting devices, synchronizing with the status information of the lighting devices stored in the gateway Of the illumination system. 8. The method of claim 7,
Wherein when the second proximity touch or direct touch is sensed when the switch is operating in a first activation mode, the switch is switched to a second activation mode for receiving a control command for the lighting device. The apparatus of claim 1,
A display unit having a plurality of touch areas;
A proximity sensor for sensing a proximity touch;
A touch sensor for sensing a touch input to the display unit;
A control unit for controlling the display unit; And
And a battery for supplying power to the display unit and each sensor. Gateway;
A plurality of lighting devices communicably connected to the gateway;
A plurality of switches communicably connected to the gateway for receiving control commands of the lighting devices; And
Wherein one of the switches is activated when the first proximity touch is detected, and requests the gateway to inform the status of the lighting devices changed by another switch in the activated state.

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