JPH01238436A - Lighting controller - Google Patents

Abstract

PURPOSE:To control lighting smoothly, by reporting the power supply conditions to the main lighting control panel and changing-over power supply to standby and pre-setting a plurality of lighting control patterns from the service interruption to the service recovery. CONSTITUTION:A power supply supervising signal of a power supply supervisory panel 7 is transferred to the main lighting control panel 8. The main lighting control panel 8 sends the pre-setted pattern signal corresponding to each control terminal device 9 and changes over the power supply to a standby unit 14 after receiving the acknowledge signal. By this reason, either one of the commercial power supply 4, an independent power supply 5 or a battery 6 supplies the electric power to the lighting load 15 according to the power supply condition. In case of service interruption, the battery 6 supplies the power to the power supply supervisory panel 7, the main lighting control panel 8 and the control terminal device 9.

Description

[Detailed Description of the Invention] [Industrial Application Field] This invention relates to a lighting control device in a building such as a building;
In particular, the present invention relates to a control device for the lighting load capacity during a commercial power outage.

[Conventional technology]

As an example of a conventional lighting control device of this type, FIG. 4 shows a basic configuration diagram of a lighting control device disclosed in Japanese Patent Application Laid-open No. 139042/1983. In the figure, 1 is the main controller;
Reference numeral 2 designates a plurality of power outage detection terminals, 3 a plurality of load control terminals, 4 a commercial power source, and 5 a private power generator.

Conventional lighting control devices are configured as in the example above,
For example, if the commercial 'Frf power source 4 is out of power, the private power generator 5
When activated, the power outage detection terminal 2 detects this and
Detection data is sent to the main control device 1, control data is sent from the main control device 1 to each load control terminal device 3, and the load is controlled so that the private power generation device 5 does not become overloaded. There is.

[Invention or problem to be solved]

With the advancement of control equipment for buildings and other buildings, power supply equipment in buildings is now equipped with dedicated monitoring/control equipment, and in order to compensate for the slow start-up of private power generation,
Batteries (storage batteries) and the like have come to be used to temporarily supply power. In addition, since the power source monitoring/control device controls the output of the private power generation device, the conventional lighting control device cannot cope with power source switching and cannot smoothly control the lighting. It has arisen.

This invention was made in order to solve the problems of the conventional methods as described above, and it is possible to use this type of lighting that can be compatible with the control device of power supply equipment and that can smoothly control the lighting even during a power outage. The purpose is to obtain a control device.

(Means for Solving the Problems) Therefore, in the lighting control device according to the present invention, the lighting main control device is configured to detect power failure, readiness for switching to battery, completion of preparation for operation of private power generator, and recovery from the power supply monitoring device. A signal from the main controller is sent, and the power source is switched after receiving a control completion signal for the lighting load from the main control device, and
A plurality of lighting control patterns corresponding to each process from the series of power outages to power restoration are set and configured to be executable, and when each control terminal device reaches a predetermined state, the main control device By configuring the power supply to switch the power supply by sending a switching completion signal from the power supply monitoring device to the power supply monitoring device,
The aim is to achieve the above objectives.

Effect C] With the above configuration, when the power source monitoring device manually sends a signal indicating that the power source is ready to switch, the lighting main control device switches the terminal device to a predetermined setting state, and when this is completed, the power source monitoring device Sends a setting completion signal and the power monitoring device
In response to this, the power source is actually switched, so the lighting load does not become overloaded, and lighting control is performed smoothly.

(Example〕 The present invention will be explained below based on examples.

(Configuration) FIG. 1 is an overall configuration diagram of an embodiment of a lighting control device according to the present invention. Reference numerals 4 and 5 respectively indicate a commercial power source and a private power generator as in the conventional device shown in FIG. 4 of Moeki. 6 is a battery (M battery) for supplying power until the private power generator 5 is activated when the commercial power source 4 is out of power; 7 is a battery that monitors the commercial power source 4 and is connected to the battery 6 and the private power generator in the event of a power outage. 5 is a power supply monitoring device for switching the power supply; 8 is a lighting main control device that centrally controls/monitors the controlled load of each lighting device 15, and is notified of the power status from the power supply monitoring device 7; 9 is a lighting main control device; Lighting main control device 8
Each control terminal device 14, which is connected by a pair of signal lines S and each has a fixed unique address, connects the commercial power source 4. Private power generation device 5. A switching device 15 for switching the batteries 6 respectively,
Each lighting fixture (lighting load) controlled by the control terminal device 9
It is.

In addition, FIG. 2 shows each control terminal device 9 shown in FIG.
In the figure, 10 is a power supply unit for operating a terminal device, 11 is a communication unit that communicates control/monitoring data with the main controller 8, and 12 is a control unit that controls a controlled load using communication data. Sections 13 are relays that turn on/off each lighting load 15 according to a control signal from the control section 12.

(Function/Operation) FIG. 3 shows the power supply monitoring device 7. Lighting main control device 8
．． 3 is a communication sequence diagram showing the flow of signals between control terminal devices 9. FIG.

In the lighting control device configured as described above, in the process from a power outage to power restoration, first, when preparations for switching to the battery 6 for the lighting load 15 are made, a signal is sent from the power supply monitoring device 7 to the main control device 8. is not sent out, the main controller 8 sends a predetermined pattern command for when the battery is on to each terminal device 9, and when an (acceptance signal) is sent back to the AC, a terminal readiness signal is sent to the power supply monitoring device 7. The power supply switching section 14 connects the battery, and power is supplied to each lighting load 15. When preparations for in-house power generation are completed, the power source monitoring device 7 sends a signal to the main control device 8 in the same way as when the battery is turned on, and after a preparation completion signal is returned, the power source is switched. When the power is restored, from the main control device 8 to the control terminal device 9.

Normal operation is restored by sending a command to return to normal operation.

In the lighting control device configured as described above, the power monitoring signal of the power monitoring device 7 is transmitted to the lighting main operating device 8, and the main operating device 8 transmits a predetermined pattern corresponding to each control terminal device 9. Since the circuit is switched after the signal is sent and the acknowledgment signal ACD is received, the power source can be switched smoothly without overloading the lighting load 15.

In addition, during a power outage, the power supply monitoring device 7 and the main control device 8. The battery 6 can be used as a power source for driving the control terminal device 9 and the like.

Further, the power supply section 10 of the control terminal device 9 in FIG. 2 can be used by rectifying the signal current of the communication section 11 with the lighting main control device 8, or can be supplied by a battery or the like. . Therefore, even if the power supply 4 of the lighting load 15 is out of power, the power to the control unit 12 can be supplied, and the relay 13 for controlling each lighting load 15 can be controlled.

〔Effect of the invention〕

As described above, according to the present invention, the power supply status is reported to the lighting main control device, the power supply is switched after controlling each control terminal device, and each process from power outage to power restoration is controlled. By setting multiple lighting control patterns, it is possible to correspond to the control device of the power supply equipment, and it is now possible to smoothly control the lighting without overloading the lighting load even during a power outage.

[Brief explanation of the drawing]

FIG. 1 is an overall configuration diagram showing one embodiment of the present invention, and FIG.
The figure is a configuration diagram of each control terminal device in Figure 1, and Figure 3 is a configuration diagram of each control terminal device in Figure 1.
FIG. 4 is a sequence diagram showing the flow of signals between the FLT1 source monitoring device, the lighting control device, and the control terminal device, respectively. FIG. 4 is a basic configuration diagram of an example of a conventional lighting control device. 5...Private power generator 6...Battery 7...-Power supply monitoring device 8...Lighting main control device 9...Each control terminal Device 14...Power supply switching unit 15...Each lighting fixture S...Signal line Note that in each figure, the same reference numerals indicate the same or equivalent components.

Claims (1)

[Claims] A lighting main control device that centrally controls and monitors the controlled loads of lighting equipment installed in a building or other building, and a plurality of control terminal devices each having a fixed unique address. Connect with a pair of signal wires,
A lighting control device configured to transmit the control and monitoring data between the main control device and each control terminal device,
The lighting main control device receives signals such as power outage, ready to switch to battery, ready for private power generator, power restoration, etc. from the power supply monitoring device, and corresponds to each process from the series of power outages to power restoration. A plurality of lighting control patterns are set and configured to be executable, and when each control terminal device reaches a predetermined state, a switching completion signal is transmitted from the lighting main control device to the power supply monitoring device. A lighting control device characterized in that the power source monitoring device is configured to be able to switch power sources.