JPH06103889B2 - Remote monitoring controller - Google Patents

Description

TECHNICAL FIELD The present invention relates to a remote monitoring control device capable of selectively controlling a plurality of terminals from a central device.

[Conventional technology]

FIG. 3 is a block diagram showing a configuration example of a conventional distant monitoring control device disclosed in, for example, Japanese Patent Laid-Open No. 59-28743.
In the figure, (1) is a central device, and a plurality of terminal devices (R ₁ ), (R ₂ ), ...
(Rn) is connected. Here, the central device (1) is
A transmission / reception circuit (11) for sending monitoring and control signals to the terminal devices (R ₁ ), (R ₂ ), ..., (Rn) and receiving a monitoring return signal from the devices for the signals,
Each of the terminal devices (R ₁ ), (R ₂ ), ..., (Rn) is sequentially called, and comprises a sequential monitoring circuit (21) for controlling the transmission / reception circuit (11) to cyclically monitor the terminal device. ing. Also, each terminal device (R ₁ ), (R ₂ ), ..., (Rn)
A unique address is assigned to each.

Next, the operation will be described. FIG. 4 (a) shows the case where each terminal device is constantly called and monitored.
Shows respective states in the case of controlling the specific terminal device.

In 4 (a), the central unit (1) first terminal device monitoring request signal sent to (R _1), which the terminal device (R ₁₎ the monitoring return signals sent back from this Then, it sends a monitoring request signal to the terminal device (R ₂ ) and similarly receives the monitoring return signal. Thereafter, similarly, the monitoring operation up to the terminal device (Rn) is performed, and then the terminal device (R ₁ ), (R ₂ ), ... (Rn) is repeatedly monitored, and this operation is repeated. The series of repetitive operations are sequentially controlled by the supervisory control circuit (21).

Next, the case of controlling a specific terminal device will be described. In FIG. 4 (b), the operator selects a specific terminal device (here, the terminal device (R ₁ )) in the state where the cyclic call monitoring is constantly performed as shown in FIG. 4 (a). When selected, the sequential monitoring control circuit (21) interrupts the cyclic call monitoring operation described above, and continuously monitors only the selected terminal device (R ₁ ). However, the sequential monitoring control circuit (21) waits for the operation in progress, that is, in FIG. 4 (b), waiting for the completion of reception of the monitoring return signal of the terminal device (R ₂ ), and then the selected terminal device (R ₁ ) Is controlled so that only one is continuously monitored. Hereinafter, the operator selects and controls the controlled device and deselects the terminal device (R ₁ ), but the sequential monitoring control circuit (21) similarly controls the operation of the central device (1).

Here, the control operation from the central unit (1) is based on three behavior operations of terminal selection → controlled device selection → control.

Next, when the operator selects a controlled device, the central device (1) sends a controlled device selection signal to the terminal device (R ₁ ). When the terminal device (R ₁ ) receives this signal, it selects the controlled device and sends back a monitor return signal.

Next, when the operator issues a control command, the central unit (1)
Sends a control signal to the terminal device (R ₁ ). When the terminal device (R ₁ ) receives this signal, it controls the device and returns a monitor return signal. When the operator confirms that the device has been controlled, the operator deselects the terminal device (R ₁ ). As a result, the sequential monitoring control circuit (21) restarts the cyclic call monitoring operation. Normally, the cyclic call monitoring operation is restarted from the terminal device that was interrupted earlier, in the example of FIG. 4 (b), the terminal device (R ₂ ).

As described above, since this distant monitoring control device is of the polling system, the transmission / reception circuit (11) of the central device (1) only needs to be one set, and the transmission path (l) also has a plurality of terminal devices (R ₁ ). ，
(R ₂ ), ..., (Rn) can be shared, and the device can be configured at a relatively low cost. Further, since all the terminal devices (R ₁ ), (R ₂ ), ..., (Rn) are constantly monitored all the time, there is a status change (such as an abnormality in the monitored control device) in the monitoring item of the specific terminal device. In the case of each, each can be immediately transmitted to the central unit (1) and displayed.

[Problems to be Solved by the Invention]

Since the conventional polling-type distant monitoring control device is configured as described above, ・ When selectively controlling a plurality of terminal devices, the cyclic monitoring is interrupted and the control is performed by calling each terminal device. However, there is a problem that it takes time to control all the terminal devices.

The present invention has been made to solve the above problems, and an object thereof is to obtain a distant monitoring control device capable of shortening the control communication time of all terminal devices.

[Means for Solving the Problems]

A distant monitoring control device according to the present invention connects a central device and each terminal device by a loop-shaped transmission line, and connects and sends a number of control words corresponding to the number of terminals to which control communication is generated from the central device. It is the one.

[Action]

The means for concatenating and transmitting the control words of the number corresponding to the plurality of terminal devices in the present invention does not require the control execution by calling for each terminal device, and the control communication time of the plurality of terminal devices is shortened.

Example of Invention

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

In FIG. 1, (CC) is a central device, and a plurality of terminal devices (SS ₁ ), (SS ₂ ), (SS) are provided via a transmission line (l).
₃ ) and are connected in a loop. Where the central unit (C
C) is a terminal processing unit (17) for processing selection control data for the terminal devices (SS ₁ ), (SS ₂ ), (SS ₃ ) and monitoring return data from the device, and a terminal processing unit (17). A parallel-to-serial converter (hereinafter referred to as P / S) (14) that converts the transmission data from 17) into a serial signal from a parallel signal and a transmission line (l) that modulates the serial signal from the P / S (14). Transmission to or transmission line (l)
Modulator / demodulator (hereinafter referred to as modem)
(16) and the serial signal from the modem (16) are converted into parallel signals, and the monitor return data from each terminal device (SS ₁ ), (SS ₂ ), (SS ₃ ) is sent to all terminal processing units (17). ) To serial converter (hereinafter referred to as S / P) (15).

A terminal address (41) is assigned to each terminal device (SS ₁ ), (SS ₂ ) and (SS ₃ ). In addition, a call signal from the central unit (CC) is received from the transmission line (l), demodulated or delayed regenerated and relayed, and then re-modulated and sent to the transmission line (l), and a serial signal from the modem (16). S / P (15) for serial-to-parallel conversion and passing it to the local processing unit (18) and the terminal address (4
1) Comparing with the local station processing unit (18), the P / S (14) for converting the monitoring return data sent from the local station processing unit (18) from a parallel signal to a serial signal, and a modem ( 16) The serial signal demodulated in 16) is delayed and reproduced in the serial state, and then the gate (32)
A gate (33) controlled by a delay reproduction relay section (19) to be transferred to the local station and a local station transmission timing signal (50) output from the local station processing section (18) from the serial signal from the P / S (14). It consists of and.

Next, the operation will be described.

FIG. 2 shows the situation in the cycle of cyclically monitoring the monitor return signal from each terminal device and the situation in the cycle of selectively controlling a plurality of terminal devices, respectively.

First, the monitoring cycle will be described.

The central device (CC) sends a call signal to the transmission line (l) in the order of command word (# 0), count word (# 1), count word (# 2), and count word (# 3).

The terminal device (SS ₁ ) sends the command word (# 0) to the modem (1
When it is received at 6), it is passed to the delay regeneration relay section (19) and S / P (15), and further the S / P (15) is passed to the own station processing section (18). The local station processing unit (18) refers to the terminal address (41), prepares the monitoring data of the local end device, and leaves the local station transmission timing signal (50) in an insignificant state. Therefore, the command word (# 0) is regenerated and relayed to the next terminal device (SS ₂ ) via the delay regeneration relay unit (19), the gate (32) and the modem (16).

The terminal device (SS ₁ ) sends the count word (# 1) to the modem (1
When it is received at 6), it is passed to the delay regeneration relay section (19) and S / P (15), and further the S / P (15) is passed to the own station processing section (18). The local station processing unit (18) sends the local station transmission timing signal (50) to return the monitoring data of the local terminal device to the central device (CC) because the terminal address (41) and the count word number match. Significantly, since the serial signal of P / S (14) (monitoring data of own terminal device) is sent to the next terminal device (SS ₂ ) via the gate (33) and the modem (16), the count word (# 1 ) Data unit (not shown) has a terminal device (SS ₁ )
The monitoring data of is converted.

After the terminal device (SS ₁ ) sends the monitoring data of its own terminal device, it resets its own station transmission timing signal (50) to the insignificant state again.

When the terminal device (SS ₁ ) receives the count word (# 2) and the count word (# 3) by the modem (16), the terminal device (SS ₁ ) passes the count word (# 2) and the count word (# 3) to the delay regeneration relay unit (19) and S / P (15), and further S / P ( 15) is passed to the local processing unit (18). Since the terminal address (41) and the count word number do not match, the own station processing unit (18) leaves the own station transmission timing signal (50) in an insignificant state.

Therefore, count word (# 2) and count word (#
3) is regenerated and relayed to the next terminal device (SS ₂ ) via the delay regeneration relay unit (19), the gate (32) and the modem (16).

The terminal device (SS ₂ ) sends a command word (# 0), a count word (SS ₁ ), a count word (# 2) and a count word (# 3) from the upstream terminal device (SS ₁ ) to the modem (1
When it is received at 6), it is passed to the delay regeneration relay section (19) and S / P (15), and further the S / P (15) is passed to the own station processing section (18). The operation of the terminal device (SS ₂ ) upon receiving each of the above words is as follows.

-When receiving the command word (# 0), the local station processing unit (18) refers to the terminal address (41) to leave the local station transmission timing signal (50) in an insignificant state, and the command word (# 0) Is regenerated and relayed to the next terminal device (SS ₃ ) via the delay regeneration relay unit (19), the gate (32) and the modem (16).

・ When the count word (SS ₁ ) is received, the local terminal processing unit (1
8) refers to the terminal address (41), prepares the monitoring data of its own terminal device, and sends its own transmission timing signal (50)
Leave insignificant. Therefore count word (SS ₁ )
Is regenerated and relayed to the next terminal device (SS ₃ ) via the delay regeneration relay unit (19), the gate (32) and the modem (16).

-When receiving the count word (# 2), the own terminal processing unit (18) returns the monitoring data of the own terminal device to the central device (CC) because the terminal address (41) and the count word number match. In order to transmit (5
0) is significant and the serial signal of P / S (14) (monitoring data of own terminal device) is sent to the next terminal device (SS ₃ ) via the gate (33) and modem (16). (#
Monitoring data of the terminal device (SS ₂ ) is converted to the data section (not shown) of ₂ ).

The terminal device (SS ₂ ) returns the local station transmission timing signal (50) to the insignificant state after transmitting the monitoring data of the own terminal device.

-When receiving the count word (# 3), the own station terminal processing unit (18) refers to the terminal address (41) to leave the own station transmission timing signal (50) in an insignificant state, and the count word (# 3) Is regenerated and relayed to the next terminal device (SS ₃ ) via the delay regeneration relay unit (19), the gate (32) and the modem (16).

Terminal device (SS ₃₎ upstream of the terminal device from the (SS _3), the command word (# 0), the count word (SS _1), the count word (SS _2), the count word (# 3) a modem (1
When it is received at 6), it is passed to the delay regeneration relay section (19) and S / P (15), and further the S / P (15) is passed to the own station processing section (18). The operation of the terminal device (SS ₂ ) upon receiving each of the above words is as follows.

-When receiving the command word (# 0), the local station processing unit (18) refers to the terminal address (41) to leave the local station transmission timing signal (50) in an insignificant state, and the command word (# 0) Is regenerated and relayed to the next central unit (CC) via the delay regeneration relay section (19), the gate (32) and the modem (16).

・ When the count word (SS ₁ ) is received, the local terminal processing unit (1
8) refers to the terminal address (41) and puts the local station transmission timing signal (50) in an insignificant state. Therefore, the count word (SS ₁ ) is regenerated and relayed to the next central unit (CC) via the delay regeneration relay unit (19), the gate (32) and the modem (16).

・ When the count word (SS ₂ ) is received, the local terminal processing unit (1
8) refers to the terminal address (41), prepares the monitoring data of its own terminal device, and sends its own transmission timing signal (50)
Leave insignificant. Therefore count word (SS ₂ )
Is regenerated and relayed to the next central unit (CC) via the delay regeneration relay unit (19), the gate (32) and the modem (16).

-When the count word (# 3) is received, the local terminal processing unit (18) matches the terminal address with the count word number, so the monitoring data of the local terminal device is sent to the central device (CC).
In order to send it back to the local station, the local transmission timing signal (50) is made significant, and the serial signal of the P / S (14) (monitor data of the local terminal device) is sent to the next center via the gate (33) and modem (16). Since it is sent to the device (CC), the monitoring data of the terminal device (SS ₃ ) is converted to the data part (not shown) of the count word (# 3).

The terminal device (SS ₃ ) returns its own station transmission timing signal (50) to the insignificant state after sending the monitoring data of the own terminal device. By the above operation, the monitoring data of all terminal devices are transmitted to the central device (CC) by a series of terminal call signals (command word and count word).

The central unit (CC) is each terminal unit (SS ₁ ), (SS ₂ ), (S
The monitoring data in the count word sent from S ₃ ) is cyclically monitored while comparing and matching with the count word number.

When the central device (CC) finishes receiving the monitoring data of all the terminal devices, it again sends the command word (# 0) to the transmission line (l). All the terminal processing units (17) control the series of repeated operations.

Next, the case of controlling a plurality of terminal devices will be described.

In FIG. 2, when the operator controls the selection of controlled devices for a plurality of terminal devices (here, all terminal devices (SS ₁ ), (SS ₂ ), (SS ₃ )), all terminal processing is performed. Department (1
7) is the terminal device (S) whose terminal address (41) is the last.
After receiving completion monitoring data from S _3), immediately connect the control words corresponding to the number of all the terminals, transmitting selection control data placed on the control word and via a modem (16) P / S (14 ) Then, the command word and the count words (# 1), (# 2) and (# 3) are sent to the transmission line (1).

The terminal device (SS ₁ ) receives control words (C ₃ ), control words (C ₂ ), control words (C ₁ ), command words (# 0), count words (# 1), count words from the central unit (CC). (# 2), count word (# 3) to modem (1
When it is received by 6), it is passed to the delay regeneration relay section (19) and S / P (15), and further the S / P (15) is passed to the own station processing section (18). The operation of the terminal device (SS ₁ ) upon receiving each of the above words is as follows.

-When receiving the control word (C ₃ ) and the control word (C ₂ ), the local station processing unit (18) does not match the terminal address (41) with the control word number.
0) is inactive, and the control word (C ₃ ) and control word (C ₂ ) pass through the delay regeneration repeater (19), gate (32) and modem (16) to the next terminal device (SS ₂ ). It is regenerated and relayed to.

・ When the control word (C ₁ ) is received, the local processing unit (18) fetches the selection control data of the control word (C ₁ ) because the terminal address and the control word number match, and sends a device selection control command to the controlled device. To execute. The own station transmission timing signal (50) is set to the inactive state, and the control word (C ₁ ) is sent to the next terminal device (SS ₂ ) via the delay regeneration relay unit (19), the gate (32) and the modem (16). It is replayed and relayed.

-When receiving the command word (# 0), the local processing unit (18)
Refers to the terminal address (41), prepares the monitoring data of the own terminal device, sets the local station transmission timing signal (50) to the insignificant state, and the command word (# 0) to the delay reproduction relay section (19). It is relayed to the next terminal device (SS ₂ ) via the gate (32) and the modem (16).

-When receiving the count word (# 1), the local processing unit (18)
Makes the transmission timing signal (50) of its own station significant and returns P / S (14) to return the monitoring data of its own terminal device to the central device because the terminal address (41) and the count word number match. Serial signal (monitoring data of own terminal device)
Sends the next terminal (SS) through the gate (32) and the modem (16).
₂ ), the monitoring data of the terminal device (SS ₁ ) is converted to the data portion (not shown) of the count word (# 1).

After the terminal device (SS ₁ ) sends the monitoring data of its own terminal device, it resets its own station transmission timing signal (50) to the insignificant state again.

-When the count word (# 2) and the count word (# 3) are received, the local station processing unit (18) does not match the terminal address (41) with the count word number, so the local station transmission timing signal (50) Leave it indifferent.

Therefore, count word (# 2) and count word (#
3) is regenerated and relayed to the next terminal device (SS ₂ ) via the delay regeneration relay unit (19), the gate (32) and the modem (16).

The terminal device (SS ₂ ) has control word (C ₃ ), control word (C ₂ ), control word (C ₁ ), command word (# 0), count word (SS ₁ ), count from the terminal device (SS ₁ ). Set the word (# 2) and count word (# 3) to the modem (1
When it is received by 6), it is passed to the delay regeneration relay section (19) and S / P (15), and further the S / P (15) is passed to the own station processing section (18). The operation of the terminal device (SS ₂ ) upon receiving each of the above words is as follows.

・ When the control word (C ₃ ) is received, the local station processing unit (18) is inconsistent with the local station transmission timing signal (50) because the terminal address (41) and the control word number do not match. (C ₃ ) is a delay regeneration relay section (19) and gate (32)
And it is regenerated and relayed to the next terminal device (SS ₂ ) via the modem (16).

-When receiving the control word (C ₂ ), the local processing unit (18) fetches the selection control data of the control word (C ₂ ) because the terminal address (41) matches the control word number, and the device for the controlled device Execute the selection control command. The local transmission timing signal (50) is set to the inactive state, and the control word (C ₂ ) is set to the delay regeneration relay section (19), the gate (32) and the modem (1
It is regenerated and relayed to the next terminal device (SS ₃ ) via 6).

-When receiving the control word (C ₁ ) and the command word (# 0), the local terminal processing unit (18) refers to the terminal address (41) and puts the local transmission timing signal (50) in an insignificant state. The control word (C ₁ ) and the command word (# 0) are regenerated and relayed to the next terminal device (SS ₃ ) via the delay regeneration relay unit (19), the gate (32) and the modem (16).

・ When the count word (SS ₁ ) is received, the local terminal processing unit (1
8) refers to the terminal address (41), prepares the monitoring data of its own terminal device, and sends its own transmission timing signal (50)
Leave insignificant. Therefore count word (SS ₁ )
Is regenerated and relayed to the next terminal device (SS ₃ ) via the delay regeneration relay unit (19), the gate (32) and the modem (16).

-When receiving the count word (# 2), the own terminal processing unit (18) returns the monitoring data of the own terminal device to the central device (CC) because the terminal address (41) and the count word number match. In order to transmit (5
0) is significant and the serial signal of P / S (14) (monitoring data of own terminal device) is sent to the next terminal device (SS ₃ ) via the gate (33) and modem (16). (#
Monitoring data of the terminal device (SS ₂ ) is converted to the data section (not shown) of ₂ ).

The terminal device (SS ₂ ) returns the local station transmission timing signal (50) to the insignificant state after transmitting the monitoring data of the own terminal device.

-When receiving the count word (# 3), the own station terminal processing unit (18) refers to the terminal address (41) to leave the own station transmission timing signal (50) in an insignificant state, and the count word (# 3) Is regenerated and relayed to the next terminal device (SS ₃ ) via the delay regeneration relay unit (19), the gate (32) and the modem (16).

The terminal device (SS ₃ ) receives control words (C ₃ ), control words (C ₂ ), control words (C ₁ ), command words (# 0), count words (SS ₁ ) from the upstream terminal device (SS ₂ ). ), The count word (SS ₂ ) and the count word (# 3) are received by the modem (16), the delay regeneration relay section (19) and S / P (15)
And the S / P (15) to the local processing unit (18).
Terminal device by receiving each word above (SS ₃ )
The operation of is as follows.

・ When the control word (C ₃ ) is received, the local station processing unit (18) fetches the selection control data of the control word (C ₃ ) because the terminal address (41) and the control word number match. Execute the device selection control command for.

The local station transmission timing signal (50) is made inactive, and the control word (C ₃ ) is regenerated and relayed to the next central unit via the delay regeneration relay unit (19), the gate (32) and the modem (16). .

When receiving the control word (C ₂ ), control word (C ₁ ), command word (# 0) and count word (SS ₁ ), the local processing unit (18) refers to the terminal address (41), by also controlling the word number and the count word number do not match, local transmission timing signal (50) is in insignificant state, the control word (C _2), the control word (C _1), the command word (# 0), the count word (SS ₁ ) is regenerated and relayed to the next central unit (CC) via the delay regeneration relay unit (19), the gate (32) and the modem (16).

・ When the count word (SS ₂ ) is received, the local terminal processing unit (1
8) refers to the terminal address (41), prepares the monitoring data of its own terminal device, and sends its own transmission timing signal (50)
Leave insignificant. Therefore count word (SS ₂ )
Is regenerated and relayed to the next central unit (CC) via the delay regeneration relay section (19), the gate (32) and the modem (16).

-When the count word (# 3) is received, the local terminal processing unit (18) matches the terminal address with the count word number, so the monitoring data of the local terminal device is sent to the central device (CC).
In order to send it back to the local station, the local transmission timing signal (50) is made significant, and the serial signal of the P / S (14) (monitor data of the local terminal device) is sent to the next center via the gate (33) and modem (16). Since it is sent to the device (CC), the monitoring data of the terminal device (SS ₃ ) is converted to the data part (not shown) of the count word (# 3).

The terminal device (SS ₃ ) returns its own station transmission timing signal (50) to the insignificant state after sending the monitoring data of the own terminal device.

If the central unit (CC) has finished receiving the monitoring data of all the terminal units and the operator has not performed a new control operation, the control word is not sent and the command word (#
Return to the monitoring cycle with 0) as the first word.

All the terminal processing units (17) control the series of repeated operations.

In the above embodiment, the case where the number of terminal devices is 3 has been described, but if the control word is connected and transmitted from the central device as many as the number of terminal devices, any number of terminal devices can be supported. Although the word transmission order was explained in the case of C ₃ → C ₂ → C ₁ , C ₃ → C ₁ → C ₂ , C ₂ → C ₁ → C ₃ , C ₂ → C ₃ → C ₁ , C ₁ → C ₂ → C ₃ ,
C ₁ → C ₃ → C ₂ of either good, also, C ₁ only and C ₁ and C ₂ only, etc., the number of control words is arbitrary. Further, the control word may be concatenated after the count word, and the same effect as that of the above-described embodiment is obtained.

〔The invention's effect〕

As described above, according to the present invention, the transmission path is formed into a loop, and the control word can be connected by the number corresponding to the number of terminals for which control communication is necessary from the central device, so that a plurality of terminal devices can be connected. This has the effect of shortening the control contact time for

[Brief description of drawings]

FIG. 1 is a block diagram showing the configuration of a distant monitoring control apparatus according to an embodiment of the present invention, FIG. 2 is a time chart for explaining the operation of the present invention, and FIGS. 3 and 4 (a).
(B) is a block diagram and a time chart of a conventional distant monitoring control device. (CC) is the central unit, (l) is the transmission line, (SS ₁ ), (S
S ₂ ), (SS ₃ ) are terminal devices, (17) are all terminal processing units, (1
8) is the local processing unit, and (41) is the terminal address. In the drawings, the same reference numerals indicate the same or corresponding parts.

 ─────────────────────────────────────────────────── ─── Continuation of front page (72) Inoue Akio 22-3504 Minami-Akutagawa-cho, Takatsuki-shi, Osaka (72) Inventor Kazunori Onishi 1-8-20 Sanmuro, Ikoma-gun, Nara (72) Inventor Hirofumi Morimoto 1-2-2 Wadasaki-cho, Hyogo-ku, Kobe-shi, Hyogo Mitsubishi Electric Corporation Control Works (72) Inventor Naoki Murata 1-2-1 Wadasaki-cho, Hyogo-ku, Kobe-shi Hyogo Mitsubishi Electric Control Manufacturing Co., Ltd. (72) Inventor Shingo Yamane 1-2-2 Wadazaki-cho, Hyogo-ku, Kobe City, Hyogo Prefecture Mitsubishi Electric Co., Ltd. (72) Inventor Ryoji Tokunaga Wadazaki-cho, Hyogo-ku, Kobe City, Hyogo Prefecture 1-2, 1-2, Mitsubishi Electric Corporation Control Factory

Claims (1)

[Claims] 1. A fixed-cycle polling distant monitoring control device for connecting a central device and a terminal device of each station through a transmission line to monitor and control the terminal device of each station in response to a call from the central device. Means for calling the terminal device by connecting a command word to the terminal device and a count word corresponding to the address of each terminal device. Upon receiving the command word in response to the call signal, each terminal device replays and relays the command word to the next terminal device as it is, and the count word number transmitted from the central device matches the address number of the own terminal device. Then, means for converting the monitoring data of the own terminal device into a count word and transmitting it to the central device, the central device Means for cyclically monitoring the monitoring data in the count word transmitted from each of the above-mentioned terminal devices while comparing and matching with the count word number, in the case of selectively controlling a desired terminal device from the central device The central device transmits a command word and a count word, and also transmits a control word corresponding to the address of the terminal device in which the control communication is generated by linking the control word and calling the desired terminal device. In response to the control word, the terminal device receives the control word, and when the control word number and the address number of the own terminal device match, the device selection control command for the controlled device in the control word is fetched and the next terminal device as it is. When the command word is received, this terminal device plays it back to the next terminal device as it is. When the count word number transmitted from the central device and the address number of the self terminal device match, the means for converting the monitoring data of the self terminal device into the count word and transmitting the count word to the central device. When the terminal device not selected receives the transmitted control word and command word, it reproduces and relays it to the next terminal device as it is, and the count word number and the address number of its own terminal device transmitted from the central device. When the two match, the means for converting the monitoring data of the terminal device into a count word and transmitting the count data to the central device, the central device transmitting the monitoring data in the count word transmitted from each terminal device following the command word. It was equipped with a means for cyclic monitoring while comparing and matching the count word number. A distant supervisory control device.