JP2001043983A - Illumination control system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an excellent illumination control system having the value of an address of an illumination control device expressing relative positional relationship between the illumination control devices and facilitating setting. SOLUTION: In this illumination control system, plural illumination control devices each composed of an input part 2-1 such as a sensor, a CPU 2-2 for carrying out an updating process and the like of information such as an address and a tentative address, a maintenance switch 2-3 for switching an operation mode to an address setting mode and vice versa, an illumination control part 2-4 for lighting and lighting out an luminaire according to a signal from the CPU 2-2 and for controlling the luminance thereof, a storage part 2-5 for storing the address and the like, and a communication part 2-6 for communicating with other illumination control devices are connected to plural luminaires to be connected to the illumination control devices through a transmission line 10. The system is characterized in that it is ensured that each of the illumination control devices is given a unique address value by sequentially setting the addresses according to an input from the input part 2-1, and the address including relative positional information can simply be set in the address setting mode.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a lighting control system, and more particularly to a lighting control system for turning on / off a load by a lighting control device having an input unit such as a sensor.

[0002]

2. Description of the Related Art In order to create a more comfortable lighting environment,
A method has been adopted in which each lighting control device is given an address and the correspondence between the dimming switch and the operation pattern of each lighting control device is set. In addition, there is provided a system in which light is automatically adjusted by an input unit such as a sensor without the user having to actively perform a switch operation.

[0003]

However, in such a system as described above, the setter needs to ensure that each lighting control device has a unique address, and at the same time, adjusts the lighting based on the positional relationship of each lighting fixture. If you want to do the light, since the address and the positional relationship have no relationship,
It is necessary to strictly define the correspondence between the address of each lighting control device and the dimming pattern.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and an object of the present invention is to provide a lighting control system including a lighting control device having input means such as a sensor. It is an object of the present invention to provide an excellent lighting control system in which a value expresses a relative positional relationship between the lighting control devices and setting is simplified.

[0005]

According to the first aspect of the present invention, an input unit such as a sensor, a CPU for performing processing for updating information such as an address and a temporary address, an operation mode and an address setting mode are provided. And a lighting control unit for controlling the lighting and turning off and on of the lighting equipment according to a signal from the CPU, a lighting control unit for storing illuminance, a storage unit for storing addresses and the like, and communication with other lighting control devices. A communication unit, and a plurality of lighting control devices, and a plurality of lighting fixtures connected to the lighting control device, a lighting control system connected via a transmission path, wherein in the address setting mode In, by setting addresses in order according to the input from the input unit, it is ensured that each lighting control device has a unique address value, and the relative position information is included. It is characterized in that allows the setting of the address easily.

According to the second aspect of the present invention, the first aspect is provided.
In the invention described, in the address setting mode,
The illuminance of the luminaire connected to each lighting control device changes before and after the provisional address is acquired, so that the setting person can easily understand the setting status of the address. Is what you do.

[0007] According to the third aspect of the present invention, a first aspect is provided.
In the described invention, when a sensor is used in the input unit of the lighting control device, the detection range of the sensor is changed between the normal operation mode and the address setting mode, so that detection of a pedestrian or the like in the operation mode is not performed. It is possible to avoid simultaneous detection by a plurality of lighting control devices when setting addresses and addresses.

[0008]

DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of a lighting control system according to the present invention will be described below in detail with reference to FIGS.

The configuration of the system according to the present embodiment will be described below. FIG. 1 shows a case where the lighting control devices 2 to 5 and the lighting devices 6 to 9 to be controlled are independent, but as shown in FIG. 2, the lighting control devices 2 to 5 and the lighting devices 6 to 9 are integrated. Alternatively, it may be configured by using a tool that has been described. Further, as shown in FIG. 3, the information management device 1 may not be provided, and each lighting control device may be configured as a system that performs dimming cooperatively.

As shown in FIG. 4, an illumination control device 2 includes an input unit 2-1 such as a sensor and a CP for performing each processing described later.
U2-2, a maintenance switch 2-3 for switching between an operation mode and an address setting mode, and a CPU 2-2.
A lighting control unit 2-4 for controlling turning on / off and illuminance of the lighting fixture in accordance with a signal from the storage unit 2-5, a storage unit 2-5 for storing an address or the like described later, and a communication unit 2- for communicating with other lighting control devices.
And 6.

The CPU 2-2 performs the following processes (1) to (4). (1) Update processing of information such as addresses and temporary addresses (2) Data communication processing with other lighting control devices (3) Control processing of lighting through a dimmer (4) State according to input from a maintenance switch The storage unit 2-5 stores the following contents (5) to (9). (5) Self address used during operation (6) Temporary address in address setting mode (7) Minimum address which is the youngest address among all addresses (8) Minimum address which is the youngest address among all addresses (9) Sensor and maintenance A program whose operation is determined by the input from the switch, the input signal from the transmission line, and the current system state Next, when the input unit of each lighting control device is a sensor that detects a human body, the address setting is performed. The procedure for performing this is described below. First, as step 1, the operation of shifting to the address setting mode is described below with reference to FIG.
The description will be made in the order of 2). (10) The person who sets the address notifies any one of the lighting control devices in the system of the transition to the address setting mode. The transition to the address setting mode is performed by the maintenance switch 2-3 shown in FIG. (11) Upon receiving the notification of the transition to the address setting mode, the lighting control device changes its own state to the address setting state, and at the same time, notifies the other lighting control devices of the transition to the address setting mode via the transmission line 10. Do. The temporary address candidate value stored in the storage unit 2-5 shown in FIG. 4 is set to the minimum address value 1-1. Further, the detection range of the sensor is narrowed. Also, the illuminance of the lighting is set to a certain value common to all the lighting control devices. (12) The lighting control device that has received the notification of the transition to the address setting mode via the transmission line 10 changes its own state to the address setting state and, at the same time, transmits the notification to the lighting control device that has issued the notification of the transition to the address setting mode. , A state transition completion signal. Further, the temporary address candidate value stored in the storage unit 2-5 shown in FIG.
Set to. Further, the detection range of the sensor is narrowed. Also,
The illuminance of the lighting is set to a certain value common to all lighting control devices. At this time, the temporary addresses of all the lighting control devices are undecided.

Next, the operation at the time of the sensor reaction as step 2 will be described with reference to FIG.
When the sensor of the lighting control device 1 is caused to react by walking under the lighting device, the lighting control device sets the temporary address to the value 1-1 of the temporary address candidate at that time, and at the same time, sets another lighting through the transmission path. A temporary address acquisition notification is sent to the control device. Also, the illuminance of the illumination is changed.

Further, the operation at the time of receiving the temporary address acquisition notification as step 3 will be described with reference to FIG. 7. When each of the lighting control devices 2 to 5 receives the temporary address acquisition notification from the transmission line 10, the lighting control device 2-5 The temporary address candidate value held in 5-5-5 is changed from the value 1-1 at that time to the next value 1-2.

Finally, the operation of returning to the operation mode as step 4 will be described below in the order of (13) to (14). (13) Each lighting control device receives a notification of operation mode return from the maintenance switch. Then, the operation mode return notification is sent to the other lighting control devices through the transmission path 10. The lighting control device that has received the operation mode return notification from the transmission path 10
Depending on whether your own temporary address is set,
Hereinafter, one of the operations 13-1), 13-2), and 13-3) is performed. 13-1) When the temporary address is set The own temporary address is set as the own real address, and a return preparation completion signal is transmitted to the lighting control device that has notified the operation mode return. Also, the detection range of the sensor is expanded. 13-2) When Temporary Address is Not Set A temporary address non-setting signal is transmitted to the lighting control device that has notified the operation mode return. Further, measures such as notifying the setter that the address is not set may be taken by blinking the light or the like. 13-3) When the lighting control device that has sent the operation mode return notification determines that all the lighting control devices have acquired the address, the lighting control device uses its own temporary address as a real address and shifts to the operation mode. Also, the detection range of the sensor is expanded.

FIG. 8 shows a state after the setter has similarly moved into the sensor range of the adjacent lighting control device, that is, a state where the first lighting control device has obtained the temporary address. FIG. 9 shows a state where all the lighting control devices have acquired the temporary addresses. The lighting controller 1 is a temporary address 1-1, the lighting controller 2 is a temporary address 1-2, the lighting controller 3 is a temporary address 1-3, and the lighting controller 4 is a temporary address 1-4.
The lighting control device 5 becomes the temporary address 1-5. FIG.
It is a figure showing an example of setting of a detection range of a sensor when a sensor is used as an input part of a lighting control device. Here, part A shows a detection range at the time of address setting, and part B shows a detection range at the time of operation.

[0016]

As described above, according to the first aspect of the present invention, the address order directly represents the positional relationship of the lighting control devices (the lighting control devices physically adjacent to each other are
(Adjacent address values), it is possible to easily realize a dimming function that requires position information during operation, and to indicate the relative positional relationship between the lighting equipment and the lighting control devices. This has an effect that a simple address can be easily set.

According to the second aspect of the present invention, the change of the illuminance allows the setter to easily understand whether the device which has been left unset or whether the addresses are set in a desired order can be easily understood. It has the effect of saying

According to the third aspect of the present invention, the detection range of the sensor can be prevented from being overlooked by setting the detection range of the sensor to a wide range at the time of operation, and the detection range of the sensor can be reduced to a narrow range at the time of address setting. By doing so, there is an effect that it is possible to prevent a plurality of lighting control devices from acquiring the same address.

[Brief description of the drawings]

FIG. 1 is a system diagram of an embodiment of a lighting control system according to the present invention.

FIG. 2 is a system diagram of an embodiment of the lighting control system.

FIG. 3 is a system diagram of an embodiment of the lighting control system.

FIG. 4 is a configuration diagram of a lighting control device of the lighting control system.

FIG. 5 is a diagram immediately after a transition to an address setting mode of the lighting control system.

FIG. 6 is a diagram illustrating a state in which a first lighting control device of the lighting control system recognizes a setter.

FIG. 7 is a diagram illustrating a state in which another lighting control device of the lighting control system sets a temporary address candidate value to the next value.

FIG. 8 is a diagram illustrating a state in which a second lighting control device of the lighting control system recognizes a setter.

FIG. 9 shows a state in which all lighting control devices of the lighting control system have acquired temporary addresses.

FIG. 10 is a diagram showing an example of setting a detection range of a sensor when a sensor is used as an input unit of the illumination control device of the illumination control system.

[Explanation of symbols]

 1-5 Light control device 2-1 Input unit 2-3 Maintenance switch 2-4 Lighting control unit 2-5 Storage unit 2-6 Communication unit 6-9 Lighting equipment 10 Transmission path

 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 3K073 AA75 BA25 CA05 CE09 CE17 CG06 CG21 CG42 CH21 5K048 BA07 DA02 DA03 DA05 EB01 EB02 GC02

Claims (3)

[Claims] 1. An input unit such as a sensor, a CPU for updating information such as an address or a temporary address, a maintenance switch for switching between an operation mode and an address setting mode, and a signal from the CPU. A plurality of lighting control devices including: a lighting control unit that controls turning on and off of the lighting fixtures and illuminance; a storage unit that stores an address and the like; and a communication unit that communicates with another lighting control device. A plurality of lighting devices connected to the lighting control device is a lighting control system connected via a transmission path, and in the address setting mode, sequentially addresses in accordance with an input from an input unit. By setting, it is ensured that each lighting control device has a unique address value, and an address including relative position information can be easily set. Lighting control system. 2. In the address setting mode, the illuminance of the luminaire connected to each lighting control device changes before and after the provisional address is acquired, so that the setter can easily set the address setting status. The lighting control system according to claim 1, wherein the lighting control system can be understood. 3. When a sensor is used in the input unit of the lighting control device, the detection range of the sensor is changed between the normal operation mode and the address setting mode, so that detection of a pedestrian or the like in the operation mode is not performed. The lighting control system according to claim 1, wherein simultaneous detection by a plurality of lighting control devices at the time of address setting or address setting can be avoided.