JP2022164873A - Illumination control system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain an illumination control system capable of improving workability of schedule setting.

SOLUTION: Included are: a relay connected to a first network to which a first operation device for operating illumination control can be connected; and an illumination controller that is connected to the relay through a second network to which a second operation device for operating illumination control can be connected, stores schedule information, and controls a lighting state of an illumination device on the basis of the schedule information. When the first operation device and a plurality of the relays are connected to the first network, the schedule information stored in the illumination controller respectively connected to the plurality of relays can be collectively changed through the plurality of relays by operating the first operation device. When the second operation device is connected to the second network, the schedule information stored in the illumination controller connected to the second network can be changed by operating the second operation device, without the relay.

SELECTED DRAWING: Figure 1

COPYRIGHT: (C)2023,JPO&INPIT

Description

The present disclosure relates to lighting control systems.

There is a technique for controlling a lighting system based on a schedule (see Patent Document 1, for example). There are also techniques for controlling lighting systems based on the times of sunrise and sunset.

Japanese Patent No. 4644952

In the case of a system that changes the schedule of the lighting controller in a centralized control room, it was necessary to perform the work in a centralized control room away from the place where the lighting equipment was installed. Also, in the case of a system that changes the schedule of lighting controllers installed on each floor via a network, it is not possible to change the schedule of lighting controllers installed on other floors. I had to do some configuration work. Therefore, in either case, there is a problem that the workability of schedule setting is inferior.

Furthermore, when performing lighting control for dimming during the daytime hours, the lights are dimmed or turned off immediately after sunrise even though the brightness of the surroundings due to external light is not sufficient. For this reason, there was a possibility that the illuminated space would become dark. Similarly, when the lighting control is performed after the sunset time by dimming control in the daytime zone, the light is dimmed or turned on after the surrounding outside light becomes dark. Therefore, there is a risk that the illuminated space will be dark in the time period immediately before sunset. Therefore, there is a problem that a comfortable lighting space cannot be produced.

The present disclosure has been made to solve the problems described above, and a first object thereof is to obtain a lighting control system capable of improving workability of schedule setting. A second object is to obtain a lighting control system capable of producing a comfortable lighting space.

A lighting control system according to the present disclosure includes a repeater connected to a first network connectable to a first operation device for operating lighting control, and a second operating device for operating lighting control. a lighting controller connected to the repeater via a second network to which equipment can be connected, storing schedule information, and controlling a lighting state of the lighting device based on the schedule information; When the device and the plurality of repeaters are connected to the first network, by operating the first operation device, the device is connected to the plurality of repeaters via the plurality of repeaters. The schedule information stored in the lighting controller can be collectively changed, and when the second operation device is connected to the second network, by operating the second operation device , the schedule information stored in the lighting controller connected to the second network can be changed without going through the repeater.

In the present disclosure, when a first operation device and a plurality of repeaters are connected to a first network, schedule information of lighting controllers respectively connected to the plurality of repeaters is acquired by a computer via the plurality of repeaters. Can be changed in bulk. On the other hand, when the second operating device is connected to the second network, the schedule information of only the lighting controller connected to the second network can be changed by the computer without going through the repeater. By preparing a plurality of access methods to the lighting controller for setting the schedule in this way, it is possible to improve the workability of the schedule setting.

1 is a diagram showing a lighting control system according to Embodiment 1; FIG.

A lighting control system according to an embodiment will be described with reference to the drawings.

Embodiment 1.
FIG. 1 is a diagram showing a lighting control system according to Embodiment 1. FIG. A plurality of repeaters 1 are connected to a computer 3 via a first network 2 in a building monitoring system. The first network 2 is for example the network of a building monitoring system. The computer 3 is a lighting integrated controller installed in a centralized control room or the like. A plurality of repeaters 1 are connected to a lighting web server 4 of a web system and other equipment 5 such as a building centralized control system via BACnet (A Data Communication Protocol for Building Automation and Control Networks) indicated by a dotted line in FIG. is also connected. The lighting web server 4 comprises up to 3000 user client servers 6 and up to 5 management client servers 7 .

One or a plurality of lighting controllers 8 arranged on each floor are connected to a plurality of repeaters 1 via a second network 9 which is Ethernet (registered trademark). One or more lighting devices 10 are connected to the lighting controller 8 via a second network 9 . In addition to the lighting device 10, a relay control terminal 11, a dimming signal terminal 12, a relay terminal 13, a remote control breaker control terminal 14, a human sensor 15, an amplifier 16, a contact input terminal 17, and a contact output. A terminal device 18 , a switch unit 19 such as a wall switch, a dimming controller 20 , an illuminance sensor 21 , an illuminance human sensor 22 , and an image human sensor 23 are also connected to the lighting controller 8 via the second network 9 .

The repeater 1 communicates with the computer 3 of the building monitoring system connected to the upper level, and communicates with a plurality of lighting controllers 8 connected to the lower level. The repeater 1 has a central processing unit (CPU), volatile or non-volatile memory, a first communication port and a second communication port. Both the first communication port and the second communication port are Ethernet (registered trademark). A first communication port is connected to a higher system and a second communication port is connected to a lower system.

When the repeater 1 detects an abnormality such as a communication error or an equipment failure occurring in the lower system, it generates a lighting control signal for controlling the lighting controller 8 and the equipment connected to the lower system. In addition, when the control signal received from other upper equipment includes a signal for controlling the lighting controller 8 and equipment connected to its lower order, the repeater 1 controls the lighting controller 8 and the lighting controller 8 based on this signal. It generates a lighting control signal for controlling devices connected below it. Further, when the information signals from the lighting controller 8 and the devices connected to the lower level thereof include a signal for transmission to the upper device, the repeater 1 transmits lighting information corresponding to the upper device from this signal. to generate

The lighting controller 8 communicates with devices such as the repeater 1 connected to the upper level. Further, the lighting controller 8 transmits and receives control signals to devices such as the lighting device 10 connected downstream based on the control signal from the repeater 1 or the like or the control information managed by itself.

The lighting controller 8 has a central processing unit (CPU), volatile or nonvolatile memory, a first communication port, and a second communication port. The first communication port is Ethernet. The second communication port is a two-wire dedicated communication line. A first communication port is connected to a higher system and a second communication port is connected to a lower system. The lighting controller 8 includes device information related to devices connected to a lower level including device-specific address information, group information assigned to each device, date and time information including a calendar and the current date and time, and The non-volatile memory stores schedule information for controlling the lighting state of the lighting device based on the date and time information. The lighting controller 8 controls the lighting states of the lighting devices 10 belonging to the same group as the group information based on the schedule information.

The switch unit 19 switches the lighting state of the lighting device 10 controlled by the lighting controller 8 . The switch unit 19 has a switch operator, an infrared transmit/receive port (IR port), a central processing unit (CPU), volatile or non-volatile memory, and a first communication port. The first communication port is a port for supplying power to the switch unit 19 and for communicating with the outside, and is connected to the second port of the lighting controller 8 by a transition wiring. On/off information of the switch and group information corresponding to the switch are transmitted from the switch unit 19 to the lighting controller 8 . When setting the switch unit 19 , setting information such as a group signal to be assigned to each switch is transmitted from the lighting controller 8 to the switch unit 19 . Also, the switch unit 19 can transmit and receive information between the setting terminal 24 and the lighting controller 8 via the IR port. The switch unit 19 transmits a depression signal from the first communication port when the switch operation section is depressed. The lighting control system switches the lighting state of the lighting device 10 using the depression signal transmitted from the switch unit 19 as a trigger.

The schedule information consists of patterns 1-4. Pattern 1 is year-round schedule control information. Patterns 2-4 are user schedule control information defined by the user. The priority of each pattern is pattern 4, pattern 3, pattern 2, and pattern 1 in descending order. The lighting controller 8 controls the lighting state of each lighting device 10 according to the schedule pattern with the higher priority. If the schedule management settings for patterns 2 to 4 are not set or are invalid due to expiration, etc., the lighting controller 8 controls the lighting state of each lighting device 10 according to the year-round schedule for pattern 1 .

Thus, the user can arbitrarily control the lighting state of each lighting device 10 by setting a plurality of schedule patterns in the lighting controller 8 . By being able to set multiple schedule patterns, the number of situations in which users set schedules will increase dramatically. However, if the schedule pattern can only be set by the computer 3, it is necessary to move to the place where the computer 3 is installed even if it is desired to set a schedule only for a specific floor. Similarly, even if it is desired to set a schedule only for an individual area, it is necessary to move the computer 3 to a place where it can be set. In general, the place where the computer 3 is installed is a building central control room or the like, and in many cases only specific users are permitted to enter. Therefore, although a plurality of schedule patterns can be set, only specific users cannot easily perform the work. Therefore, when it is desired to set a schedule for a specific floor, a computer 25 in which lighting control setting software is installed is connected to the second lower network 9 by wire or wirelessly using a wireless LAN 26 . Based on the display information displayed on the computer 25, the schedule setting of the equipment connected to the lower level of the lighting controller 8 is performed. Also, if it is desired to set a schedule for only an individual area, an infrared signal is transmitted to the switch unit 19 using the setting terminal 24 dedicated to setting, and the schedule setting for the equipment set in the same group as the switch unit 19 is performed. conduct.

In this embodiment, when the computer 3 is connected to the first network 2, the schedule information of the plurality of lighting controllers 8 respectively connected to the second network 9 is sent to the computer 3 via the plurality of repeaters 1. can be changed collectively. Since the setting is made via the repeater 1, it is possible to set the schedule of the lighting controllers 8 arranged throughout the building without being restricted by the cable length of the second network 9 or the like. On the other hand, when the computer 25 is connected to the second network 9, the schedule information of only the lighting controller 8 connected to the second network 9 can be changed by the computer 25 without going through the plurality of repeaters 1. can be done. Since the computer 25 directly accesses the lighting controller 8 without going through multiple repeaters 1 , the scope of change is limited to the schedule setting of the lighting controller 8 connected to the second network 9 . By preparing a plurality of access methods for schedule setting in this way, many users can easily perform schedule setting. Therefore, workability of schedule setting can be improved.

Also, the schedule information set in the lighting controller 8 of the group to which the switch unit 19 belongs can be changed from the setting terminal 24 via the communication port of the switch unit 19 . Thereby, workability of schedule setting can be improved.

The lighting controllers 8 that can be scheduled can be limited depending on where the computer or configuration terminal 24 is connected. That is, it is possible to schedule the entire lighting control system from the host system. From the lower system of the lighting controller 8, it is possible to set the schedule of the equipment connected to the lower level of the lighting controller 8. FIG. From the switch unit 19, it is possible to set the schedule of the device of the group to which the switch unit 19 belongs. This makes it possible to easily set a schedule according to the user's level of knowledge regarding the lighting control system. In other words, a user with a high level of knowledge about the lighting control system can access from the host system and set the schedule for the entire lighting control system. A user with a low knowledge level can set a schedule within a necessary range, such as by floor or by group.

Embodiment 2.
This embodiment incorporates additional functions into the lighting controller 8 of the first embodiment. Latitude information and longitude information of the location where the lighting control system is installed is input to the lighting controller 8 from the computers 3 and 25 or the setting terminal 24 and stored in the non-volatile memory inside the lighting controller 8 . The lighting controller 8 calculates the times of sunrise and sunset based on the stored latitude information and longitude information and the current date in the calendar information.

The set time for the sunrise time and the set time for the sunset time are input to the lighting controller 8 from the computers 3 and 25 or the setting terminal 24 and stored in the non-volatile memory inside the lighting controller 8 . The set time is set within a range of ±99 minutes, for example. This set time is for shifting the start or end time of the schedule for performing lighting control based on the sunrise time and sunset time.

The lighting controller 8 calculates the schedule control operation time by adding or subtracting the set time from the calculated sunrise and sunset times. The lighting controller 8 controls the lighting state of the lighting device 10 based on the schedule information when the schedule control operation time comes.

For example, if a set time of +30 minutes is set with respect to the sunrise time, the lighting controller 8 starts lighting control 30 minutes after the sunrise time, and dims the lighting device 10 to gradually darken it or turn off the light. Thus, even in a situation where the surroundings are dark and there is little outside light, the illuminated space such as a living room can be brought into a bright state without darkening or turning off the light immediately after sunrise time. Also, when the predetermined time information of -30 minutes is set for the sunset time, the lighting controller 8 starts lighting control 30 minutes before the sunset time, dims the lighting device 10, and gradually brightens it. Or turn it all on. As a result, lighting control can be performed before the surroundings become dark and outside light decreases, so that the illuminated space can be in a bright state.

As described above, in the present embodiment, the schedule control operation time is calculated by adding or subtracting the set time to the calculated sunrise/sunset time, and when the schedule control operation time comes, the lighting control is performed based on the schedule information. Controls the lighting state of the device. Thereby, a comfortable lighting space can be produced. It also improves user convenience and energy efficiency.

In the present embodiment, the times of both sunrise and sunset are calculated, but at least one of the times may be calculated and the schedule control operation time may be calculated from the calculated times. It is also possible to perform fading lighting control to gradually brighten or darken between the sunrise time or sunset time and the set time.

Further, in Embodiments 1 and 2, when the user performs a schedule confirmation operation on the computer 3, 25 or the setting terminal 24, the lighting control for a plurality of subsequent days including the current day among the schedule information set in the lighting controller is performed. The schedule is displayed on the screen of the computer 3, 25 or the setting terminal 24. This allows the user to easily grasp the current schedule information when the user wants to change the schedule information or immediately after setting the schedule information. Then, when it is found that the desired schedule information is not obtained, the schedule information can be immediately corrected.

1 Repeater 2 First Network 3, 25 Computer 8 Lighting Controller 9 Second Network 10 Lighting Device 19 Switch Unit 24 Setting Terminal

Claims (4)

a repeater connected to a first network connectable to a first operation device for operating lighting control;
A second operating device for operating lighting control is connected to the repeater via a connectable second network, schedule information is stored, and the lighting state of the lighting device is controlled based on the schedule information. and a lighting controller that
When the first manipulation device and the plurality of relays are connected to the first network, by operating the first manipulation device, a plurality of the relays are connected via the plurality of relays. the schedule information stored in the lighting controllers respectively connected to the devices can be collectively changed,
When the second operation device is connected to the second network, by operating the second operation device, the lighting connected to the second network without the repeater A lighting control system, wherein the schedule information stored in a controller can be changed. a switch unit connected to the lighting controller via the second network and having a transmission/reception port for wireless communication;
A third operation device capable of wireless communication with the switch unit,
By operating the third operation device, the schedule information stored in the lighting controller connected to the second network is changed via the switch unit without via the repeater. The lighting control system of claim 1, wherein the lighting control system is capable of 3. The lighting control system according to claim 1, wherein the schedule information is changed based on latitude information, longitude information and calendar information. 4. The lighting control system according to any one of claims 1 to 3, wherein the lighting control schedule for a plurality of days including the current day among the schedule information set in the lighting controller is displayed.

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