JPH0470195A - Load controller - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention provides a base unit that sends out a load control signal, a slave unit connected to the base unit via a signal line, and a load connected to the slave unit. The present invention relates to a load control device comprising: a load control device in which a slave device controls a connected load according to a load control signal sent from a parent device, and is supplied with power from a commercial power source or a backup power source.

[Prior Art] Conventionally, a load control signal is transmitted from the parent device, and includes a parent device that sends a load control signal, a slave device connected to the parent device via a signal line, and a page connected to the slave device. Is there a known load control device in which a slave unit controls a connected load using a load control signal and is supplied with power from a commercial power source or a backup power source?In this device, when the backup power source is turned on, Some devices are equipped with a mode changeover switch for setting whether to control the load on or off, and can be set to prevent an overload condition during backup (see Japanese Patent Application Laid-Open No. 86043/1983).

However, in the load control device described in Japanese Patent Application Laid-Open No. 56-86043, if the parent unit fails, the control status of the slave unit remains the same as it was when the backup power was turned on, even after the commercial power is restored. However, there was a problem in that failsafe could not be ensured.

Therefore, in order to solve this problem, the master unit stores the control details of the slave unit in its memory before a power outage, cancels the control contents of the slave unit when the power is turned on, and then transfers the control details from the master unit to the slave unit. Communication of control information stored in a storage device [7] There is a system that controls the load to the state before a power outage according to this control information (see Japanese Patent Laid-Open No. 58-207830).

As shown in Figure 2, this negative 61 control device (1) is connected to a master unit (2) that sends out load control (No. 3), and a signal line (3) is connected to the master unit (2). A plurality of slave units (4) are connected through the terminal, and a load (5) is connected to each slave unit (4).

As shown in Fig. 4, the base unit (2) has a CPU (5), and the CPU (15) includes a human output interface (16) connected to the signal line (3), a power supply Part (1
7) Operation unit (1, 8) for operating the CPU (15)
, a storage device (one) for storing control information, etc. is connected, and power is supplied to the storage device (19) from an emergency power source (20).

Next, the operation will be explained.

Under normal conditions, the base unit (2) transmits start signals, address signals, and load control signals to C according to input from the operation unit (18).
It is sent from the PU (15) via the human output interface (16).

The handset (4) inputs the load control signal of its own address to control the load (5) and sends out a return signal.

The base unit (2) manually generates a return signal, compares this return signal with the transmitted or control signal, and if they match, ends the transmission to the slave unit (4), and if they do not match, repeats the transmission a1 again.

Furthermore, when a power outage occurs, the content of control of the load (5) that was being performed in the slave device (4) up to that point is canceled.

In the parent device (2), the storage device (19) is backed up by the emergency power source (20).

Then, when the power is restored, the power supply unit (17) in the base unit (2) gives a start signal to the CPU (15), and the CPU (
15) sends out a control signal based on the control contents before the power outage stored in the storage device 1F (19).

Therefore, the load (5) in each slave unit (4) is controlled by the load control signal.

[Problems to be Solved by the Invention] Since the conventional load control device is configured as described above, when the backup power source is turned on, the load is controlled to the state before the power outage. If the load was large, there was a risk that the backup electrolytic corrosion would become overloaded.

The present invention was made to solve the above-mentioned problems, and an object of the present invention is to provide a load control device that can perform load control during backup power supply and also provides a fail-safe function in the event of a failure of the main unit.

[Means for Solving the Problems] A load control device according to the present invention includes a master unit that sends out a load control signal, a slave unit connected to the master unit via a signal line,
The load connected to the slave unit, the mode changeover switch for setting whether the load is operated or stopped when switching from commercial power to backup power, and the load connected to the slave unit are connected to the load connected to the slave unit. The device is equipped with a timer that measures time, and a determining means that determines whether the load control signal output from the parent device in response to turning on the backup power source is addressed to the device itself. Therefore, when the determining means receives a load control signal addressed to itself from the base unit within a predetermined time after turning on the backup power based on the information from the timer, it performs load control based on the load control signal from the base unit, and performs load control based on the load control signal from the base unit. If a load control signal is not sent from the base unit even after a predetermined period of time has passed after the pull-up power is turned on, the load is controlled according to an operating mode or a stopping mode set by a mode changeover switch. It is.

[Operation] The load control device according to the present invention sends a load control signal from the parent device to the slave device, and the slave device controls the connected load based on the load control signal, and the mode switching device provided in the slave device controls the connected load. A switch is used to set the mode in which the load is operated or stopped when the commercial power supply is switched to the backup power supply, a timer is used to measure the time since the backup power supply is turned on, and a judgment means provided in the slave unit is used to If a load control signal addressed to itself is received from the base unit within a predetermined time after the backup power is turned on, load control is performed based on the load control signal from the base unit, and the backup power is turned on and a predetermined time has elapsed since then. However, if no load control signal is sent from the base unit, the load is controlled according to the operating mode or f+ set by the mode changeover switch and the stopping mode.

[Example] An embodiment of the present invention will be described below with reference to the drawings.

As shown in Fig. 2, the load control device (1) has a base unit (2) that sends out load control signals, and the base unit (2) is connected to a plurality of terminals via a signal line (3). A slave unit (4) is also connected, and a load (5) is connected to each slave unit (4).

As shown in detail in FIG. 1, the handset (4) has a transmitting/receiving circuit (6) connected to a signal line (3) for transmitting and receiving signals to and from the base unit (2), and It has a power outage detection circuit (7) which also serves as a synchronous circuit and is connected to the signal line (3).

Furthermore, a transmission control circuit (8) is connected to the transmitting/receiving circuit (6) and the power outage detection circuit (7) as a means for determining whether the load control signal sent from the base unit (2) is addressed to itself or not. The transmission control circuit (8) has a built-in timer (9) that measures the time since the backup power source is turned on.

Furthermore, a mode changeover switch (10) is connected to the transmission control circuit (8), which sets a mode in which the load (5) is operated or stopped when switching from commercial power supply to backup power supply. And the load (5) is connected and turned on and off by the signal from the transmission control circuit (8).
FF relay (11) is connected, and relay (1
1) is connected to the signal line (3).

Next, the operation of this embodiment will be explained along the flowchart of FIG.

The user of the load control device (1) uses the mode changeover switch (10) to select in advance the load (5) to be started using the backup power source according to the capacity of the backup power source.

When the backup power source is turned on due to a power outage, etc., the transmission control circuit (8) starts a timer (9) and checks whether a predetermined time has elapsed (step S1). If it is determined that there is no
), it is determined whether there is a load control request (step S2).

If it is determined that there is no load control request from the parent device (2), the process returns to step S1 described above.

Also, if there is a load control request from the main unit (2), it will be disconnected by 11 and 5.
In this case, the transmission control circuit (8) controls the load (5) according to the content of the control request from the parent device (2) (step S3),
If operation is requested, load (5) is activated (step S4).

On the other hand, if it is determined in step S] that the predetermined time has elapsed, the transmission control circuit (8) determines whether the mode changeover switch (11)) is in the ON mode or the OFF mode. If it is determined that the load (5) is ON-controlled, the load (5) is
5) is activated (step S4).

In addition, if it is determined that the mode is OFF and the result is 5, the load (5
) is turned off (step S7), and the load (5) is stopped (step S8).

C. Effects of the Invention As explained above, according to the present invention, when switching from commercial power source to backup power source using the mode changeover switch, setting whether the mode is to operate or stop the load (7. If a self-directed load control signal is received from the base unit within a predetermined time after the power is turned on, load control is performed based on the load control signal from the base unit, and even if a predetermined time has elapsed after the backup power is turned on, the base unit If no load control signal is sent from the main unit, the load is controlled according to the operating mode or stopping mode set by the mode selector switch, so the main unit controls the load according to the capacity of the backup power supply. It is possible to control the amount of negative fj, and in the event that the main unit breaks down, only the load set in advance by the mode changeover switch can be set to the load amount commensurate with the capacity of the backup power supply using the ONL, thereby ensuring sufficient fail-safe power. It is possible to have a safe function.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing the configuration of a slave device according to an embodiment of the present invention, FIG. 2 is a block diagram showing the configuration of a load control device, FIG. 3 is a flowchart showing the operation of the present invention, and FIG. 4 1 is a block diagram showing the configuration of a conventional parent device. In the figure, (2) is the main unit, (3) is the signal line, (4) is the slave unit, (5) is the load, (8) is the transmission control circuit, (9) is the timer, and 00) is the mode selection switch. It is. In addition, in the figure, the number "-n" indicates the same or equivalent part. Agent: Patent Attorney Masuo Oiwa (2 others)

Claims (1)

[Claims] A base unit that sends out a load control signal, a slave unit connected to the base unit via a signal line, and a load connected to the slave unit,
The slave unit controls the connected load by the load control signal sent from the master unit, and in a load control device that is supplied with power from a commercial power source or a backup power source, the slave unit is instructed to switch from the commercial power source to the backup power source. A mode selector switch that sets the mode in which the load is operated or stopped when the load is switched on, a timer that measures the time since the backup power supply is turned on, and a load that is output from the main unit in response to the backup power supply being turned on. and determining means for determining whether or not the control signal is addressed to itself, and the determining means determines whether the control signal is addressed to itself or not, and when the determination means receives the load control signal addressed to itself from the base unit within a predetermined time after turning on the backup power based on information from the timer, Load control is performed based on the load control signal from the main unit, and if the load control signal is not sent from the main unit even after a predetermined period of time has passed after the backup power is turned on, the operating mode set by the mode changeover switch or A load control device that controls a load according to a stopping mode.