JPH05300578A - Remote monitor control system - Google Patents

Abstract

PURPOSE:To provide a remote monitor control system which can secure the interface between a host system and a multiplex transmission system in an extremely simple and accurate way. CONSTITUTION:A CPU 1 receives a command from a host system 7 through a communication line 8 and analyzes this command to produce a transmission signal including the control data on the load 5 of a multiplex transmission system to be controlled. The transmission signal is sent to the corresponding control terminal equipment 3. The terminal 3 turns on or off the load 5 and also performs a control monitoring action to return the monitoring information on the state of the load 5. The CPU 1 edits the returned monitoring information and sends this information back to the system 7 via the line 8. Thus the system 7 can recognize and monitor the state of the load 5 based on the return of the pattern control.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a remote monitoring control system.

[0002]

2. Description of the Related Art Conventionally, there is a remote monitoring control system for controlling and monitoring a load by using time division multiplex transmission. As shown in FIG. 11, this remote monitoring control system has a controller 1
Is connected to a transmission line 4 consisting of a pair of lines, and a monitoring terminal 2 for operating and monitoring a plurality of lighting load control terminals 3 and operation switches 6 such as wall switches is connected to each control terminal 3 Is connected to a lighting load 5, and the monitoring terminal 2 is connected to an operation switch 6.

The operation of the supervisory control system will be described based on the multiplex transmission signal shown in FIG. 12. From the control device 1, the multiplex transmission signal Vs having the format as shown in FIG.
Is sent, and the control terminal 3 and the monitoring terminal 2 are monitored and controlled. That is, the multiplex transmission signal Vs
Is a start pulse ST indicating the start of signal transmission, mode data MD indicating the signal mode, address data AD,
It is a multi-pole (± 24V) time division multiplex signal consisting of control data CD for controlling the load, checksum data CS for detecting a transmission error, and a reply waiting period WT for setting a reply waiting period for reply data, and pulse width modulation. The data is transmitted by.

In the control terminal device 3 and the monitoring terminal device 2, when the address data AD of the multiplex transmission signal Vs received via the transmission line 4 coincides with its own preset address, respectively. The control data CD of the multiplex transmission signal Vs is taken in, and the return data is short-circuited to the current mode signal (between the transmission lines 4 via an appropriate low impedance in synchronization with the signal return standby period WT of the multiplex transmission signal Vs. The signal is sent out).

On the other hand, the control device 1 is provided with a dummy signal transmitting means and an interrupt processing means. The dummy signal transmitting means constantly transmits the multiplex transmission signal Vs in which the mode data MD is in the dummy mode. When the interrupt signal Vi as shown in FIG. 12 (b) is returned, the interrupt processing means causes the monitoring terminal device 2 which generated the interrupt signal Vi to return the reply data.
That is, the monitoring terminal 2 is connected to the switch output of the operation switch 6, and when the switch output is turned on or off, the interrupt signal Vi is transmitted according to the change of the switch input. In response to the interrupt signal Vi, the control device 1 transmits a multiplex transmission signal Vs for address search for each group address in order to search for the terminal device 2 that has interrupted. The interrupting monitoring terminal device 2 sends back its own unique address as reply data when the group to which it belongs is accessed. By this reply, the control device 1 can determine the monitoring terminal device 2 that has interrupted, and then transmits the multiplex transmission signal Vs having the address data AD of the monitoring terminal device 2 to cause the monitoring terminal device 2 to operate. Access and monitor terminal 2
The operation data of the operation switch 6 connected from is sent back as reply data.

Based on the operation data returned from the monitoring terminal device 2 in this way, the control device 1 gives control data to the control terminal device 3 for controlling the load 5 corresponding to the monitoring terminal device 2. A CD is created, and the multiplex transmission signal Vs including the control data CD is transmitted via the transmission line 4 to the control terminal 3
Each of the lighting loads 5 is individually turned on and off by time-division multiplexing transmission.

When such a multiplex transmission system is connected to a host system, the control terminal 3 is used as an interface with the host system and the contact information of the control terminal is transmitted to the host system. Conventionally, a method, or a method in which a gateway is connected to the transmission line 4 and the load 5 is monitored and controlled by the host system via the gateway, has been conventionally used.

[0008]

However, when the host system is connected by the above-mentioned method, the former method has a problem that the communication with the host system cannot be performed when a trouble such as a short circuit or a disconnection occurs in the transmission line. there were. Further, in the latter method using the gateway, it is necessary to once convert into a time division multiplex transmission signal, so that there is a problem that it takes time for a command with a large amount of data such as pattern setting.

The present invention has been made in view of the above problems, and an object of the present invention is to provide a very simple and reliable interface between a host system and a multiplex transmission system. It is to provide a remote monitoring and control system that can be performed. A second aspect of the present invention is to provide a remote monitoring capable of interfacing a host system and a plurality of multiplex transmission systems with one I / F device, and performing supervisory control of a plurality of multiplex transmission systems in the host system. To provide a control system.

In addition to the object of the invention described in claim 2, the object of the invention described in claim 3 is to monitor and control loads of the multiplex transmission systems by interlocking a plurality of multiplex transmission systems. It is to provide a remote monitoring and control system capable of
The object of the invention described in claim 4 is that, in addition to the object of the invention described in claim 1 or 2, when the pattern control is performed by a command from the host system, the data amount relating to the pattern control managed by the host system is set. To provide a reduced remote monitoring and control system.

[0011]

In order to achieve the above-mentioned object, the invention of claim 1 has a central processing unit and a plurality of monitoring terminals and control terminals via a pair of transmission lines. The central processing unit transmits the multiplex transmission signal to access the terminal, and the control terminal is given load control data based on the operation data of the operation switch connected to the corresponding monitoring terminal. In a remote monitoring control system consisting of a multiplex transmission system for sending operation data of operation switches connected to a monitoring terminal device to a central processing unit as monitoring data during a reply waiting period provided in a multiplex transmission signal,
In the central processing unit, the communication means for communicating with the host system via the communication line and the load control data are created based on the command sent from the host system, and the load control result is displayed. Equipped with a means for replying to the host system, a group control for simultaneously controlling a plurality of loads sent from the host system, and a storage means for storing data of a target load of pattern control for controlling a combined load. It is a thing.

According to a second aspect of the present invention, there is provided a central processing unit,
A plurality of monitoring terminals and control terminals are connected via a pair of transmission lines, multiple transmission signals are transmitted from the central processing unit to access the terminals, and the monitoring terminals corresponding to the control terminals are monitored. The control data of the load based on the operation data of the operation switch connected to the operation terminal device is given, and the operation data of the operation switch connected to the monitoring terminal device is monitored during the reply waiting period provided in the multiplex transmission signal. In a remote monitoring control system consisting of a multiplex transmission system that sends back data to a central processing unit, a network is formed by connecting multiple central processing units of multiple transmission systems via communication lines.
In the central processing unit of each multiplex transmission system, the communication means for communicating with the host system via the communication line and the load control data are created based on the command sent from the host system, and A means for returning the control result to the host system, and a storage means for storing the data of the target load of the group control for controlling a plurality of loads at once, or the pattern control for controlling the combined loads, which is sent from the host system. And an I / F device including another communication means for performing communication between the network and the host system, and a protocol conversion means are interposed between the communication line of the network and the host system, Communication between the system and the central processing unit of each multiplex transmission system is performed via the I / F device.

According to a third aspect of the present invention, in the second aspect of the invention, the I / F device is provided with means for storing interlocking control data relating to interlocking of each multiplex transmission system, and operates the monitoring terminal device. The information necessary for the interlocking control for controlling the control terminal provided in the other multiplex transmission system interlocked with is stored when it is sent from the central processing unit via the communication line. The control information is given to the central processing unit of the corresponding multiplex transmission system based on the interlocking control data via the communication line,
The central processing unit of the multiplex transmission system, to which the control information is given, creates control data for the load.

According to a fourth aspect of the present invention, in the first or second aspect of the invention, a command for pattern control given from the higher-level system to the multiplex transmission system is a target of the multiplex transmission system, and control contents. And a means for converting the combination of the control point of the given command and the control mode into the pattern number that specifies the pattern control set in the corresponding central processing unit, and the control point and the control mode of The central processing unit or the I / F device is provided with means for rewritably storing the relationship between the combination and the pattern number to be converted.

[0015]

According to the configuration of the invention of claim 1, between the central processing unit of the multiplex transmission system and the host system,
By simply transmitting and receiving commands by communication, the supervising system of the multiplex transmission system can be controlled by the higher-level system, so that the interface between the multiplex transmission system and the higher-level system can be very simply and surely interfaced.

According to the structure of the invention of claim 2, between the central processing unit of the multiplex transmission system and the host system, the command can be exchanged by communication, and the supervisory control of the multiplex system can be performed by the host system. Therefore, the interface between the multiplex transmission system and the host system can be very simply and surely achieved, and a plurality of multiplex transmission systems can be combined into one I.
It is possible to monitor and control the host system through the / F device.

According to the third aspect of the invention, the control information of the control terminal of another multiplex transmission system can be easily controlled by the monitor information of the monitor terminal of another multiplex transmission system through the I / F device.
A large-scale remote monitoring and control system can be easily constructed. According to the invention of claim 4, when the load of each multiplex transmission system is pattern-controlled by the command from the host system,
The host system holds the data of the management points assigned to the central processing units of the multiplex transmission system to be controlled, and the management system and the control mode indicating the contents of the pattern control are sent from the host system as a command. Since the pattern control can be performed and the data managed by the host system corresponding to the pattern control need only be the management points, the amount of data managed by the host system can be small.

[0018]

EXAMPLES The present invention will be described below with reference to examples. (Embodiment 1) FIG. 1 shows a system of an embodiment of the present invention. In this embodiment, a general-purpose communication such as RS-232C is performed between a host system 7 and a central processing unit 1 of a multiplex transmission system. Communication is performed by using means. Of course, communication may be performed using RS485, RS422 or multiplex transmission communication means.

As shown in FIG. 2, the central processing unit 1 has a communication circuit 10 for communicating with the host system 7.
And a protocol conversion circuit 1 for converting a communication protocol
1, the multiplex transmission signal transmitter / receiver 14 for transmitting the multiplex transmission signal Vs and receiving the reply signal, the target load of group control for performing the load control all at once, and storing various patterns depending on the combination of the loads. Pattern / group data storage memory 12 for storing target loads of pattern control for control in correspondence with respective patterns
And load, signal processing for monitoring, control processing for controlling reading and writing to the pattern / group data storage memory 12, signal processing for communication with a host system via the communication circuit 10, and the like. The monitoring control circuit 13 is composed of a CPU and the like.

Thus, in the normal supervisory control of the multiplex transmission system, the same control as the conventional one is performed by the functions of the supervisory control circuit 13 and the multiplex transmission signal transmitting / receiving section 14 of the central processing unit 1.
On the other hand, when the central processing unit 1 receives a command from the host system 7, the supervisory control circuit 13 discriminates the content of this command and multiplexes including control data CD for controlling the load 5 of the multiplex transmission system to be controlled. A transmission signal Vs is created and transmitted to the corresponding control terminal device 3 through the multiplex transmission signal transmitting / receiving unit 14, and a control and monitoring operation is performed in which the monitoring information of the state of the load 5 is returned through the control terminal device 3.

When a command corresponding to the setting data for group control, pattern control, etc. is sent from the host system 7, the supervisory control circuit 13 changes the contents of the pattern / group data storage memory 12 into data from the host system 7. Rewrite and change. FIG. 3 shows a flow chart of an example in which the host system 7 performs load control. Next, the operation will be described based on this illustrated example.

In this example, the command sent from the host system 7 is a pattern control command, and the supervisory control circuit 13 of the central processing unit 1 that has received this pattern control command performs command analysis and performs pattern analysis based on this analysis. The pattern control data is read from the group data storage memory 12, the multiplex transmission signal Vs having the control data CD corresponding to the target load is created, and transmitted to the corresponding control terminal device 3 through the multiplex transmission signal transmitting / receiving unit 14. , The load 5 is turned on or off.

Then, the corresponding control terminals 3 ... Send back the monitoring information of the operating state of the load 5, and the monitoring control circuit 1
3 is a corresponding monitoring terminal 2 based on the monitoring information.
The multiplex transmission signal Vs having the control data CD indicating the load state is transmitted to the multiplex transmission signal transmitter / receiver 14. On the other hand, the monitoring control circuit 13 edits the returned monitoring information and sends it back to the host system 7. The host system 7 can grasp and monitor the load state based on the data of the pattern control reply.

In the case of controlling the individual load, the command sent from the host system 7 to the central processing unit 1 may include the load number to be targeted and the data designating the control terminal device 3. The control data CD is analyzed and sent to the control terminal 3 corresponding to the target load 5.
Of the multiplex transmission signal Vs. In this embodiment, the central processing unit 1 of one multiplex transmission system is directly connected to the host system 7 via the communication line 8. However, as shown in FIG. When connecting to the system 7, the network I / F device 2
The central processing unit 1 may be connected via 0.

(Second Embodiment) In the first embodiment, one multiplex transmission system is connected to the host system 7, but in the present embodiment, a plurality of multiplex transmission systems are connected to the host system 7. As shown in FIG. 5, a plurality of central processing units 1 ₁ ... Of multiplex transmission system are connected to each other via a communication line 8 to form a lower network, and the communication line 8 is connected to a higher system 7 to the communication line 9 of the network, between the I / F device 30, connected via the I / F unit 20 of the upper network, the host system 7, 1 ₁ ... a central processing unit of the multiplex transmission system Can communicate with each other.

As shown in FIG. 6, the central processing unit 1 includes a communication circuit 10 such as RS485 connected to a signal line 8 of a lower network, a supervisory control circuit 13, a pattern / group data storage memory 12, and a multiplexing circuit. The transmission signal transmitting / receiving unit 14 and the address unit 15 for setting the address of the central processing unit 1 in the lower network are provided. On the other hand, the I / F device 30 is the I / F of the network of the host system 7.
A communication circuit 31 such as RS-232C that communicates with the F device 20, a protocol conversion circuit 32 that converts a communication protocol, and a communication circuit 33 such as RS475 that communicates with a lower network, The signal processing circuit 34 performs distribution editing of signals transmitted and received between upper and lower networks.

Therefore, in this embodiment, the host system 7
As with the above embodiment, commands are used to control individual patterns and
Pattern control and group control can be performed, and patterns
Control and group control data can be set.
It In the case of pattern control and group control,
All or plural central processing units 1₁Target ...
Or whether to target individual central processing units.
E, Central processing unit 1 ₁... or a plurality of central processing units 1
₁In the case of control for ..., Signal processing of the I / F device 30
The command is distributed and edited in the logic circuit 34, and the target
Central processing unit 1₁Give an address to ...
You can get it.

FIG. 7 shows a flow chart in the case of performing the pattern control for the central processing units 1 ₁ and 1 ₂ by the command of the upper system 7, and in this case, the upper system 7 through the I / F device 20. Since the signal processing circuit 34 of the I / F device 30 which has received the transmitted pattern control command has a plurality of central processing units, the commands are distributed to the corresponding central processing units 1 ₁ and 1 ₂ and sent. .. Upon receipt of this command, the supervisory control circuit 13 of the central processing units 1 ₁ and 1 ₂ analyzes the command, reads pattern control data from the pattern / group data storage memory 12 based on this analysis, and performs control corresponding to the target load. The multiplex transmission signal Vs having the data CD is transmitted to the corresponding control terminal device 3 through the multiplex transmission signal transmitting / receiving unit 14 to turn the load 5 on or off.

The corresponding control terminals 3 ... Send back the monitoring information of the operating state of the load 5, and the monitoring control circuit 1
3 is a corresponding monitoring terminal 2 based on the monitoring information.
The multiplex transmission signal Vs having the control data CD indicating the load state is transmitted to the multiplex transmission signal transmitter / receiver 14. On the other hand, the monitoring control circuit 13 edits the returned monitoring information and sends it back to the I / F device 30.

The I / F device 30 includes central processing units 1 ₁ , 1
Edit the pattern control reply data from ₂ and
It is sent to the host system 7 through the device 20. The host system 7 can grasp and monitor the load state based on the reply data of the pattern control result. (Embodiment 3) In the present embodiment, a pattern / group control over a plurality of multiplex transmission systems is made possible by providing an interlocking relationship with the multiplex transmission systems constituting the lower network.

That is, in this embodiment, as shown in FIG.
The central control unit ₁ ... and the pattern control thereof which are in interlocking control relation corresponding to the pattern number or group number assigned to each central control unit 1 ₁ ... In the I / F device 30 for each pattern control or group control Alternatively, a storage unit 35 for storing a table in which pattern numbers or group numbers assigned for each group control are stored is provided, and the signal processing circuit 34 is provided with a signal processing function for interlocking control of each central processing unit ₁₁ . It is attached.

On the other hand, the central processing unit 1 ₁ ... determines whether to send to the I / F device 30 the monitoring information of the monitoring terminal 2 corresponding to the pattern control or group control connected to its own multiplex transmission system. A notification permission / inhibition data memory 16 for storing the pattern number or group number assigned for each pattern control or group control is added.

Thus, in this embodiment, the same control monitoring as in the second embodiment can be performed, and the interlocking control described below can be performed. First, when the operation switch 6 of the monitoring terminal 2 corresponding to the pattern control or the group control connected to the own multiplex transmission system is operated in the notification permission / inhibition data memory 16, the pattern number based on the monitoring information. Data indicating whether or not to transfer data or group number data to the I / F device 30 is stored for each pattern control or group control corresponding to each operation switch 6.

On the other hand I / F unit 30 the central processing unit 1 ₁ ... and the pattern in the storage unit 35 of central processing unit 1 ₁ ... is allowed interlocking relationship corresponding to the transferred come pattern number data or group number data from the A relationship table of numbers or group numbers is stored. Thus, in this embodiment, for example, when the operation switch 6 ₁ of the monitoring terminal 2 ₁ for pattern control connected to the central processing unit 1 ₁ via the transmission line 4 is operated, this operation is performed. monitoring information corresponding to the is returned to the prior art as well as a central processing unit 1 _1. Central processing unit 1 based on the returned monitoring information
_{In 1 the} control terminal 3 connected to its own multiplex transmission system
Among these, the control terminals 3 connected to the loads 5 subject to pattern control are sequentially accessed to load the respective loads 5
To turn on or off.

At the same time, it is determined whether or not the pattern number data corresponding to the monitoring information is transferred to the I / F device 30 in response to the operation of the operation switch 6 ₁ based on the data stored in the notification allowance data memory 16. If the notification is made, the data is transferred. I / F device 30
Then, the relational table (shown in FIG. 9) in which the central processing unit 1 ₁ of the other multiplex transmission system and the pattern number data which are interlocked with the transferred pattern number data contents are stored in the storage unit 35 Based on the signal processing circuit 34, the central processing units 1 ₂ , 1 of the corresponding multiplex transmission system
_{3. The} pattern number data read from the relation table of the storage unit 35 is transmitted to ... As control information. Upon receiving the pattern number data, the central processing units 1 ₂ , 1 ₃ ... sequentially access the control terminals 3 to which the corresponding loads 5 are connected based on the pattern numbers, and sequentially load the load 5 connected to each. To turn on or off.

In this way, the control provided in a plurality of multiplex transmission systems via the I / F device 30 by operating the operation switch 6 ₁ of the monitoring terminals 2 ₁ ... Connected to one multiplex transmission system. It is possible to perform pattern control or group control of the load 5 connected to the mobile terminal 3.
By the way, when pattern control is performed by a command from the host system 7, in order to facilitate the management of data for the pattern control of the host system, the command is transmitted to the central processing unit 1 ₁ of the multiplex transmission system. The assigned management points and the control mode indicating the mode of pattern control, for example, full light, half light 1, half light 2, and extinguished, are sent to the I / F device 30, and the I / F device 3 is supplied.
In the signal processing circuit 34 of 0, which central processing unit 1 ₁ ...
To determine whether the pattern control target, and to send the control information corresponding to the central processing unit 1 ₁ ....

Here, a pattern number is given to each pattern control having a different target load, and the I / F device 30 sets the pattern number and the central processing unit 1 ₁ ... Which is the target corresponding to the combination of the management point and the control mode. Relationship table (Fig. 10
Is stored using the storage unit 35, and the signal processing circuit 34 compares the command contents from the higher-level system 7 with the stored relationship table and converts it into control information composed of pattern number data. it is sending corresponding to the central processing unit 1 ₁ ... Te.

[0038]

According to the invention of claim 1, the central processing unit controls the load based on a communication means for communicating with the host system via a communication line and a command sent from the host system. A means to send data to the host system as well as to create data, and a group control to control multiple loads simultaneously sent from the host system and a target load for pattern control to control combined loads With the storage means for storing the data of
Between the central processing unit of the multiplex transmission system and the host system, supervision and control of the multiplex transmission system can be performed by simply sending and receiving commands by communication, so that the multiplex transmission system and the host system can be extremely controlled. There is an effect that it is possible to interface simply and surely.

According to a second aspect of the present invention, a plurality of central processing units of multiple transmission systems are connected to each other via communication lines to form a network, and the central processing units of each multiple transmission system are connected via communication lines. Communication means for communicating with the host system, and means for creating the load control data based on the command sent from the host system, and means for returning the load control result to the host system. Communication is carried out between the network and the host system, provided with a group control for controlling a plurality of loads to be received all at once and a storage means for storing data of a target load for pattern control for controlling a combined load. I / F provided with another communication means and protocol conversion means for
Since the device is interposed between the communication line of the network and the host system and the communication between the host system and the central processing unit of each multiplex transmission system is performed via the I / F device, the central processing of the multiplex transmission system is performed. By simply transmitting and receiving commands between the device and the host system, the multiplex transmission system can be monitored and controlled by the host system, so that the interface between the multiplex transmission system and the host system is very simple and reliable. Moreover, there is an effect that a plurality of multiplex transmission systems can be monitored and controlled by the host system through one I / F device.

According to a third aspect of the present invention, the I / F device is provided with means for storing interlocking control data relating to interlocking of each multiplex transmission system, and another multiplex transmission system is interlocked with the operation of the monitoring terminal device. The information required for the interlocking control for controlling the control terminal provided in the computer is handled based on the interlocking control data stored when the information is sent from the central processing unit through the communication line. Control information is given to a central processing unit of a multiplex transmission system via a communication line, and control data for the load is created in the central processing unit of the multiplex transmission system to which the control information is given. It is possible to easily control other terminal devices for control of the multiplex transmission system through the I / F device by using the monitoring information, and to easily construct a large-scale remote monitoring control system.

According to a fourth aspect of the present invention, a command for pattern control given from the host system to the multiplex transmission system is provided by being composed of a management point of the multiplex transmission system as a target and a control mode indicating the control content. Rewrite the relationship between the combination of control points and control modes and the pattern numbers to be converted from the combination of command control points and control modes to the pattern number that specifies the pattern control set in the corresponding central processing unit. Since the central processing unit or the I / F unit is provided with a freely memorized means, when the pattern control of the load of each multiplex transmission system is performed by the command from the host system, the central processing unit of the multiplex transmission system to be controlled respectively A system that holds the data of the assigned management points in the host system and shows the contents of this management point and pattern control By sending the mode and command as commands from the host system, the pattern control of the multiplex transmission system can be performed, and the data managed by the host system corresponding to the pattern control need only be the management points, so the amount of data managed by the host system is small. Has the effect of

[Brief description of drawings]

FIG. 1 is an overall configuration diagram of a first embodiment of the present invention.

FIG. 2 is a block diagram of the central processing unit of the above.

FIG. 3 is a flowchart for explaining the same operation as above.

FIG. 4 is a diagram showing another example of system configuration using the same as above.

FIG. 5 is an overall configuration diagram of a second embodiment of the present invention.

FIG. 6 is a block diagram of the central processing unit and the I / F device of the same.

FIG. 7 is a flowchart for explaining the same operation as above.

FIG. 8 is a block diagram of the central processing unit and the I / F device of the above.

FIG. 9 is an explanatory diagram of an allocation table for interlocking control of the above.

FIG. 10 is a data relation explanatory diagram for explaining commands according to the third embodiment of the present invention.

FIG. 11 is an overall configuration diagram of a conventional example.

FIG. 12 is a multiplex transmission signal V used in a multiplex transmission system.
It is explanatory drawing of s.

[Explanation of symbols]

 1 Central Processing Unit 2 Monitoring Terminal 3 Control Terminal 4 Transmission Line 5 Load 6 Operation Switch 7 Host System 8 Communication Line

Claims (4)

[Claims] 1. A central processing unit and a plurality of monitoring terminals and control terminals are connected via a pair of transmission lines, and the central processing unit transmits multiplex transmission signals to access the terminals. The control data of the load based on the operation data of the operation switch connected to the corresponding monitoring terminal device is given to the control terminal device, and the operation data of the connected operation switch is multiplexed and transmitted to the monitoring terminal device. In a remote monitoring control system consisting of a multiplex transmission system for sending back monitoring data to a central processing unit during a reply waiting period provided in a signal, the central processing unit communicates with a host system via a communication line. The control data of the above-mentioned load is created based on the means and the command sent from the host system,
Means for returning the load control result to the host system, and memory for storing the data of the target load of the group control for controlling a plurality of loads at once and the pattern control for controlling the combined loads, which are sent from the host system And a remote monitoring and control system. 2. A central processing unit is connected to a plurality of monitoring terminals and control terminals via a pair of transmission lines, and the central processing unit transmits multiplex transmission signals to access the terminals. The control data of the load based on the operation data of the operation switch connected to the corresponding monitoring terminal device is given to the control terminal device, and the operation data of the connected operation switch is multiplexed and transmitted to the monitoring terminal device. In a remote monitoring control system consisting of multiplex transmission systems that sends back monitoring data to the central processing unit during a reply waiting period provided in a signal, a network is formed by connecting multiple central processing units of multiple transmission systems via communication lines. At the same time, the central processing unit of each multiplex transmission system has a communication means for communicating with the host system via a communication line, and the above-mentioned negative address based on a command sent from the host system. As well as create a control data,
Means for returning the load control result to the host system, and memory for storing the data of the target load of the group control for controlling a plurality of loads at once and the pattern control for controlling the combined loads, which are sent from the host system And an I / F device including another communication means for performing communication between the network and the host system, and a protocol conversion means, between the communication line of the network and the host system. A remote monitoring and control system characterized in that communication between a host system and a central processing unit of each multiplex transmission system is performed via an I / F device. 3. The I / F device is provided with means for storing interlocking control data relating to interlocking of each multiplex transmission system, and is provided in another multiplex transmission system in association with operation of a monitoring terminal device. The center of the corresponding multiplex transmission system based on the interlocking control data stored when the information necessary for the interlocking control for controlling the control terminal is sent from the central processing unit via the communication line. The control information is given to the processing device through the communication line,
3. The remote monitoring control system according to claim 2, wherein the central processing unit of the multiplex transmission system given the control information creates control data for the load. 4. A command for a pattern control given from a host system to a multiplex transmission system is composed of a target multiplex transmission system management point and a control mode showing control contents, and a command management point to be given. A means for converting the combination of control modes into a pattern number designating the pattern control set in the corresponding central processing unit;
3. The remote monitoring control according to claim 1, wherein the central processing unit or the I / F unit is provided with means for rewritably storing the relationship between the combination of the management point and the control mode and the pattern number to be converted. system.