JP3538702B2 - System expansion terminal and central monitoring and control system - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a system extension terminal which is further connected to a multiplex transmission line in order to extend a system in which a supervisory control device monitors and controls a terminal connected via the multiplex transmission line. The present invention relates to a central monitoring and control system having a system extension terminal.

[0002]

2. Description of the Related Art Conventionally, large buildings are mainly
A building monitoring and control system has been introduced, and a central monitoring and control device is installed as a load control device in a central monitoring room, etc., while a terminal connected to the load device is installed in a predetermined monitoring and control area in the building. are doing. One or more terminals are connected to the multiplex transmission line derived from the central supervisory control device, and the central supervisory control device monitors the operation of the terminal device and the load device. By transmitting the designated control signal, the terminal and the load device are controlled.

On the other hand, in the above-mentioned building, a lighting monitoring and control system is introduced as a monitoring and controlling system separate from the building monitoring and controlling system, and a lighting control device installed in a central monitoring room or the like includes: A terminal connected to a lighting device installed as a load device in a building is monitored, and a control signal is transmitted to control lighting and extinguishing of the lighting device.

The central monitoring and control device can connect a lighting monitoring and control system by connecting an interface unit (control panel) to the multiplex transmission line, and the central monitoring and control device can monitor and control the lighting device. ing. FIG.
It is a figure which shows the system configuration in that case typically. The central monitoring and control device 100 connects a plurality of terminals 101 (# 1 to #n) to the multiplex transmission line L100 and is connected as a primary side of the interface units 120 (# 1 to #N). On the other hand, the lighting control device 110 connects the plurality of terminals 111 (# 1 to #n) to the multiplex transmission line L110, and also connects the interface unit 120 (# 1
To #N).

[0005] The interface unit 120 includes a primary address managed by the central monitoring and control device 100,
The secondary address managed by the lighting control device 110 is set in a one-to-one correspondence, whereby
Both systems can transmit to each other. Further, the interface unit 120 can play a role of increasing the number of lighting control points viewed from the central monitoring and control apparatus 100 (primary side). And the control point is the lighting monitoring device 110 (secondary side).
ON / OFF of all lighting control circuits (for example, 256 circuits)
If it is assigned for OFF, if the central monitoring and control device 100 transmits a control signal only to that one management point,
All the lighting devices can be simultaneously turned on or off.

[0006]

However, in the above-mentioned conventional central monitoring and control system, since the interface unit can realize only one interface for one address, one interface unit is required for each address. However, if transmission is attempted between both systems using multiple addresses, multiple interface units must be connected, resulting in construction problems in terms of space, etc., and insufficient maintenance. Had become.

Further, in the interface unit, since each of the primary side address and the secondary side address is manually set by a dip switch, if the number of interface units increases, it takes time to set the address. It was hanging. In particular, if the interface units are installed in a distributed manner, much time is required, and furthermore,
The work was complicated when the system was changed.

The present invention has been made in view of such circumstances, and provides a system extension terminal capable of realizing a plurality of interfaces with one unit, and a central monitoring and control system including the terminal. It is an object.

[0009]

In order to achieve the above object, according to the first to sixth aspects of the present invention, multiplex transmission which is derived from a supervisory control device on the primary side and which connects one or a plurality of terminals. The present invention proposes a system extension terminal that is connected to both a line and a multiplex transmission line that is derived from a supervisory control device on the secondary side and connects one or more terminals.

The system extension terminal is connected to extend a system which is monitored and controlled by the primary supervisory control device. The primary supervisory control device controls the secondary supervisory control device. It is an object of the present invention to monitor and control a terminal connected to a control device. For example, the monitoring and controlling device on the primary side includes a central monitoring and controlling device for monitoring and controlling a power terminal, and the monitoring and controlling device on the secondary side includes a lighting control device for monitoring and controlling a lighting terminal. .

[0011] The system extension terminal according to claim 1 is:
Both a multiplex transmission line derived from the primary supervisory control device and connected to one or more terminals and a multiplex transmission line derived from the secondary supervisory control device and connected to one or more terminals. A system extension terminal connected to the
A primary transmission means for transmitting a signal through a multiplex transmission line with the monitoring and control device on the secondary side; a secondary transmission means for transmitting a signal through the multiplex transmission line with the monitoring and control device on the secondary side; An external memory provided with an address management table in which primary addresses managed by the supervisory control device of the above and secondary addresses managed by the secondary supervisory control device are registered in correspondence with each other; A monitoring and control device, a main CPU for transmitting via the primary side transmission means, a monitoring and control device for the secondary side, and a sub CPU for performing transmission via the secondary side transmission means; At the time of normal operation, the address management table is expanded into each of the internal memory of the main CPU and the internal memory of the sub CPU via the sub CPU, and the secondary monitoring and control device Side transmission A secondary-side status data table that stores the status of the secondary terminal indicated by the status signal received via the stage in association with the address of the terminal is stored in each of the main CPU and the sub CPU. It is stored in the built-in memory, and is transmitted from the primary monitoring and controlling device to the primary transmission.
Through the feed means, upon receiving the monitoring signal, with reference to the above address management table and the secondary state data table, the primary address added to the monitoring signal on the secondary side address Control means for converting the status signal of the terminal device corresponding to the converted secondary address and returning the status signal to the primary monitoring and control device via the primary transmission means.

In this case, the system extension terminal responds to a supervisory signal transmitted from the primary supervisory control device,
The status signal of the terminal on the secondary side is returned from this terminal without transmitting a signal to the supervisory control device on the secondary side. According to claim 2, in claim 1, the control means comprises:
When a control signal is received from the secondary monitor and control device via the primary transmission means, the primary address added to the control signal is referred to by referring to the address management table and the secondary state data table. Is converted to a secondary address, and a control signal to the terminal corresponding to the secondary address is
The transmission is performed via the secondary transmission means.

Here, the system extension terminal transmits a control signal transmitted from the primary supervisory control device to the secondary supervisory control device to control the secondary terminal device. In claim 3, in claim 1 or claim 2, 1
A primary state data table for storing the state of the primary terminal indicated by the state signal received from the secondary monitoring and control device via the primary transmission means in association with the address of the terminal; Have.

The control means is provided by the secondary monitoring and control device.
When a monitoring signal is received via the secondary transmission means,
With reference to the address management table and the primary state data table, the secondary address added to the monitor signal is converted into a primary address, and the state signal of the terminal corresponding to the primary address is converted. The transmission is transmitted to the monitoring and control device on the secondary side via the secondary side transmission means.

Here, the system extension terminal responds to a monitor signal transmitted from the monitor and control device on the secondary side,
The status signal of the terminal on the primary side is returned from the terminal without transmitting a signal to the supervisory control device on the primary side. That is, the monitoring and control of the secondary terminal by the monitoring and control device on the primary side and the monitoring and control of the terminal on the primary side by the monitoring and control device on the secondary side are enabled.

According to a fourth aspect of the present invention, in any one of the first to third aspects, the status of the primary terminal indicated by the status signal received from the primary monitoring and control device via the primary transmission means. Is stored further in correspondence with the address of the terminal device. The control means is
When a control signal is received from the secondary monitoring and control device via the secondary transmission means, the address management table and 1
With reference to the secondary state data table, the secondary address added to the control signal is converted into a primary address,
The control signal to the terminal corresponding to the primary address is
The transmission is performed via the primary side transmission means.

Here, the system extension terminal transmits a control signal transmitted from the secondary-side supervisory control device to the primary-side supervisory control device to control the primary-side terminal. That is, it is possible to control the primary terminal by the secondary monitoring and control device together with the monitoring and control of the secondary terminal by the primary monitoring and control device. According to a fifth aspect of the present invention, in any one of the first to fourth aspects, an operation means for operating a primary side address and a secondary side address in association with each other in the address management table is further provided.

According to a sixth aspect of the present invention, in any one of the first to fifth aspects, when the control means receives an address setting signal from the primary monitoring and control device via the primary transmission means, According to the designation indicated by the address setting signal,
The primary address and the secondary address are registered in the address management table in association with each other. Claim 7 proposes a central monitoring and control system, in which a primary monitoring and control device in which one or a plurality of terminals are connected through a multiplex transmission line and a multiplex transmission line in which one or a plurality of terminals are connected. Connected to both the secondary-side supervisory control device connected via the multiplex transmission line derived from the primary-side supervisory control device and the multiplex transmission line derived from the secondary-side supervisory control device, It comprises a system extension terminal according to any one of claims 1 to 6.

[0019]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram showing an example of the internal configuration of the system extension terminal U, and FIG.
1 is a system configuration diagram schematically showing a configuration of a central monitoring and control system in which a system scale is expanded by providing a system expansion terminal U of FIG.

As shown in FIG. 2, a central monitoring and control device 10 installed in a central monitoring room or the like of a building includes one or a plurality of terminals 11 (n units (# 1 to #n) in the figure). It is connected via the multiplex transmission line L1, and monitors and controls each terminal device 11, thereby monitoring and controlling the load device connected to each terminal device 11. The central monitoring and control device 10 monitors the status of each terminal 11 by polling or the like through the multiplex transmission line L1, and when the status of the terminal 11 changes, the central monitoring and control device 10 A signal indicating a state is transmitted by an interrupt signal or the like. Further, by transmitting a control signal specifying the terminal device 11 from the central monitoring and control device 10, the terminal device 11 and the load device are controlled.

On the other hand, a central monitoring and control device 1
In addition, a lighting monitoring control system is introduced as a monitoring control system of a different system from the monitoring control system by using the lighting control device 20 installed in a central monitoring room or the like as a lighting device installed as a load device in a building. And one or more terminal devices 21 (n (# 1 to #n) in the figure) to which the lighting device is connected, and transmits a control signal to turn on (ON) and turn off (OFF) the lighting device. Has control.

In the present invention, the system scale is expanded by providing the interface unit U as a system expansion terminal. Interface unit U
Is a central supervisory control device 10 which is a primary supervisory control device.
And a multiplex transmission line L1 connected to one or a plurality of terminals 11 and a multiplex transmission line derived from a lighting control device 20 as a secondary monitoring and control device and connected to one or a plurality of terminals 21. L2.

That is, the central supervisory control system comprises a primary supervisory control device 10 in which one or a plurality of terminals 11 are connected via a multiplex transmission line L1, and one or a plurality of terminals 21.
Are connected via the multiplex transmission line L2, the multiplex transmission line L1 derived from the primary monitoring control device 10, and the multiplex transmission line L1 derived from the secondary monitoring control device 20. An interface unit U as a system extension terminal connected to the multiplex transmission line L2.

By adopting such a configuration, the system monitored and controlled by the central monitoring and control device 10 (primary side) can be expanded. Terminal 2 connected to
1 can be monitored and controlled. Here, as shown in the figure, the central monitoring and control device 10 monitors and controls the power terminal device 11 as the primary monitoring and control device, and the lighting terminal device 21 is monitored as the secondary monitoring and control device. Although the case of the lighting control device 20 for controlling is shown, the present invention is not limited to these.

As shown in FIG. 1, the interface unit U includes a main CPU 1 having a built-in memory, a central monitoring and control unit 10, and a terminal transmission driver 2 as a primary transmission means for transmitting signals through a multiplex transmission line L1. , A switch 3 for operating data setting, a liquid crystal display unit 4 for displaying an operation procedure by the switch 3, a sub CPU 5 with a built-in memory, a lighting control unit 20, and a signal transmitted through the multiplex transmission line L2. A terminal transmission driver 6 as a secondary-side transmission unit for performing the operation, and an external memory 7 composed of a nonvolatile memory.

The main CPU 1 operates in the same manner as the terminal device 11 connected to the central monitoring and control device 10 by performing transmission via the multiplex transmission line L1 via the terminal transmission driver 2, while the sub CPU 5 By performing transmission through the multiplex transmission line L2 via the terminal transmission driver 6, the terminal device operates in the same manner as the terminal device 21 connected to the lighting control device 20.

The external memory 7 has a primary address managed by a central supervisory control device 10 as a primary supervisory control device, and a secondary address managed by an illumination control device 20 as a secondary supervisory control device. It has an address management table in which side addresses are registered in correspondence with each other. During a normal operation, this table is developed in the internal memory of each of the main CPU 1 and the sub CPU 5. It should be noted that the main CPU 1
The data of the address management table is fetched from the external memory 7 via the PU 5.

The internal memory of each of the main CPU 1 and the sub CPU 5 stores the status of the secondary terminal 21 indicated by the status signal received from the lighting control device 20 via the terminal transmission driver 6 in the terminal. A secondary side state data table stored in association with the address 21 is stored.
In the interface unit U, a control unit is constituted by the main CPU 1 and the sub CPU 5, and the control unit transmits the signal from the central monitoring and control device 10 through the multiplex transmission line L1.
When a monitor signal is received via the terminal transmission driver 2, the primary address added to the monitor signal is converted to a secondary address by referring to the address management table and the secondary state data table. Then, a status signal of the terminal device corresponding to the secondary address is returned to the central monitoring and control device 10 via the terminal transmission driver 2.

Thus, the interface unit U
Is a state signal of the terminal 21 on the secondary side with respect to the monitoring signal transmitted from the central monitoring and control device 10 on the primary side,
This unit U can send back a reply without sending a monitoring signal to the secondary-side lighting control device 20 or the terminal 21. Further, the control means includes a primary-side central monitoring and control device 1.
When the control signal is received from 0 through the terminal transmission driver 2, the primary address added to the control signal is converted to the secondary address with reference to the address management table and the secondary state data table. The control signal of the terminal 21 corresponding to the converted secondary side address is transmitted through the multiplex transmission line L2 via the terminal transmission driver 6.
Thereby, the interface unit U can control the secondary terminal 21 by the control signal transmitted from the primary central monitoring and control device 10.

As described above, in the central supervisory control system of the present invention, the interface unit U can realize an interface of a plurality of addresses, so that only one interface unit U is provided, Communication using a plurality of addresses is enabled, so that it is not necessary to connect a plurality of interface units as in the related art, so that construction and space can be saved, and maintainability can be improved.

Next, FIG. 3 shows an address management table and 2
The specific operation of the unit U will be described with reference to a configuration example of the next state data table. The address management table includes the address conversion table 30 shown in FIG.
And an address valid map 31 shown in (b). The secondary address corresponding to the primary address is registered in the address conversion table 30, and the primary address is stored in the address valid map 31. The presence or absence of the setting of the secondary side address for the side address is registered. The status data table 32 shown in (c) stores the statuses of the terminal device 21 on the secondary side, where one address is:
It has four management points and is managed by four types of management data. In the illustrated example of each of the tables 30, 31, and 32, an interface of up to 256 addresses is possible, but the present invention is not limited to this.

The main CPU 1 has a central monitoring and control device 10
When the monitoring signal is received from the terminal via the terminal transmission driver 2, based on the primary address added to the monitoring signal,
It is confirmed whether or not the secondary address is registered by the address valid map 31. If the secondary address is registered, the primary address is converted into the secondary address by the address conversion table 30, and the converted address is converted. The management data is extracted from the status data table 32 based on the secondary address, and the data is returned to the central monitoring and control device 10 as a status signal. On the other hand, when it is confirmed that the secondary address is not registered in the address conversion table 30 in the address valid map 32, the status signal is not returned.

When the sub CPU 5 receives the status signal of the terminal device 21 from the lighting control device 20 via the terminal transmission driver 6, the sub CPU 5 transmits the received status signal to the sub CPU 5.
5 is a state data table 32 stored in the internal memory.
If the status has changed, the sub CPU
5 notifies the main CPU 1 of the fact, and the main CPU 1 updates the status data table 32 stored in the built-in memory. As a result, the contents of the two state data tables 32 stored in the internal memories of the main CPU 1 and the sub CPU 5 match.

On the other hand, when the main CPU 1 receives a control signal from the central monitoring and control apparatus 10 via the terminal transmission driver 2, the main CPU 1 uses the address valid map 31 based on the primary address added to the control signal. It is checked whether or not the secondary address is registered. If the secondary address is registered, the management data is extracted from the status data table 32 based on the secondary address converted by the address conversion table 30. A control signal is generated from the management data and transmitted to the multiplex transmission line L2 on the secondary side via the sub CPU 5 and the terminal transmission driver 6.

The control signal at this time is transmitted to the illumination control device 20 on the secondary side, and the designated terminal device 21 is controlled by the illumination control device 20. The control signal may be directly transmitted to the terminal device 21 to control the terminal device 21. However, even in this case, since the lighting control device 20 manages the state of the terminal device 21, It is necessary to update the state data of the terminal device 21 stored in the lighting control device 20 by monitoring and the like by the lighting control device 20 thereafter.

For example, at the management point (1, 2, 3, 4) of the corresponding secondary address, the management data is (0)
0, 00, 00, 00) (00: invalid, see FIG. 3 (c)), when the control signal of ON (10) for the management point (1) is received from the primary side, "2
A control signal of “next side address + (10,00,00,00)” is created and transmitted. The transmission of the control signal may be limited by the content of the management data in the status data table 32. For example, a control signal may not be transmitted to a point where the management data is not abnormal (11).

FIG. 4 shows the operation when the interface unit U receives a control signal from the primary side. In a state where each of the main CPU 1 and the sub CPU 5 independently performs the application processing on the primary side and the secondary side (S100), the main CPU 1 checks whether the address added to the received signal is registered. It is determined (S101), and if registered, the inter-system interface address (secondary address) is extracted from the address conversion table 30 (S102), and the sub C
The converted address (secondary address) and the control data are notified to the PU 5 (S103). Then, the sub CPU
5 generates and notifies control request data (control signal) based on the status data table 32 and the data notified from the main CPU 1 (S104), and the secondary side controls the terminal 21 (S105). .

As described above, the interface unit U
Although the case where only the monitoring control from the primary side to the secondary side is possible has been described, in addition to this, the monitoring control from the secondary side to the primary side can be enabled. Therefore, the state of the primary terminal 11 indicated by the state signal received from the primary central monitoring and control device 10 via the terminal transmission driver 2 is
It further includes a primary-side state data table stored in correspondence with the address of the terminal device 11. This is the above 2
Similarly to the status data table 32 storing the status of the next side, the status is stored in the built-in memory of each of the main CPU 1 and the sub CPU 5, and when the main CPU 1 detects a change in the status, the status change is notified to the sub CPU 5, Of the state data table 32 is kept the same.

In the external memory 29, as an address management table, an address conversion table in which a primary address corresponding to a secondary address is registered (see FIG. 3A), and a primary address corresponding to the secondary address are stored. Address valid map that registers the presence or absence of the side address setting (see FIG. 3B)
Is provided. When a monitoring signal is received from the lighting control device 20 on the secondary side via the terminal transmission driver 6, the secondary side added to the monitoring signal is referred to by referring to the address management table and the primary state data table. The address is converted into a primary address, and a status signal of the terminal device 11 corresponding to the primary address is transmitted to the lighting control device 20 via the terminal transmission driver 6.

Thus, the interface unit U
Transmits a status signal of the terminal device 11 on the primary side to a monitoring signal transmitted from the lighting control device 20 on the secondary side, and sends a monitoring signal to the central monitoring control device 10 and the terminal device 11 on the primary side. A reply can be made from this unit U without transmission. That is, the interface unit U can monitor and control the secondary terminal 21 by the primary central monitoring and control device 10 and also monitor the primary terminal 11 by the secondary lighting control device 20. To

On the other hand, when a control signal is received from the secondary-side lighting control device 20 via the terminal transmission driver 6, the control signal is added to the control signal by referring to the address management table and the primary-side state data table. The converted secondary address is converted into a primary address, and a control signal corresponding to the primary address to the terminal 11 is transmitted to the terminal transmission driver 2.
To the primary side via.

Thus, the interface unit U
Can transmit the control signal transmitted from the secondary-side lighting control device 20 to the primary-side terminal device 11 via the primary-side central monitoring and control device 10 or directly.
That is, the interface unit U enables the primary-side central monitoring and control device 10 to monitor and control the secondary-side terminal device 21 and also enables the secondary-side lighting control device 20 to control the primary-side terminal device 11. I do.

Next, registration of an address in the interface unit U will be described. As shown in FIG. 5, the interface unit U includes
A plurality of switches 3 are provided as operating means for operating to register the primary side address and the secondary side address in association with each other. The switch 3 includes a mode key, a setting key, a delete key, a cancel key, a "+" key, a "-" key, and the like. By these operations, the address is set while viewing the display on the liquid crystal display unit 4. Is possible.

FIG. 6 shows an address setting operation. First, an address to be set (primary address) is selected by operating the switch 3 (S200).
Specifically, by operating the setting key continuously for 5 seconds, the mode is set to the address setting mode, the address is selected by operating the "+" key or the "-" key, and the setting key is continuously operated for 1 second. Operate to confirm the address selection. Since the range of the address changed by operating the “+” key or the “−” key is limited to, for example, the range of 0 to 255, no abnormal data is set in the address.

Next, the selected address is displayed on the liquid crystal display (S201), and by operating the switch 3, an address to be set (secondary address) is selected to complete one set of data input (S201). S202). In particular,
After selecting an address by operating the "+" key or the "-" key, the data input is completed by operating the setting key continuously for one second.

Here, it is determined whether or not an address duplication error is detected, and when an error is detected, the operator is notified by blinking the address display on the liquid crystal display unit 4 or the like to urge the user to input the address again (S203). This can prevent an address setting error. On the other hand, if the address setting is normal, the next data setting is enabled (S204), and if the next data is set, the operations of S200 to S203 are repeated. To complete the setting, the address setting mode is released by continuing to operate the setting key for 5 seconds. At this time, the set addresses are stored in the external memory 7 as the address management tables 30 and 31. At the same time, the tables 30 and 31 are developed and the address conversion tables stored in the internal memories of the main CPU 1 and the sub CPU 5 are stored. The tables 30 and 31 are updated (S205).

If the address can be set in this way,
Unlike the related art, it is not necessary to manually set each of the primary side address and the secondary side address separately by using a dip switch or the like, thereby simplifying the address setting operation. The registration of the address in the interface unit U is indicated by the address setting signal when the interface unit U receives an address setting signal from the primary central monitoring and control device 10 via the terminal transmission driver 2. According to the designation, the address management tables 30, 31
The primary side address and the secondary side address can be registered in association with each other.

Thus, the interface unit U
The address can be remotely set from the central monitoring and control device 10 to the interface unit U without having to go to the installation location of, and the maintainability is improved. Further, when a plurality of interface units U are installed in a distributed manner or when the system configuration is rearranged, the work of setting the address can be performed from one place, so that the work is not complicated.

Conventionally, the interface unit U
In order to set an address, a data setting device such as a notebook computer is connected to a modular jack provided in the unit U, but such an operation is not required. Further, since the configuration of the switch 3 and the liquid crystal display unit 4 for setting the address can be omitted, the cost can be reduced.

The address setting can be made by transmitting an address setting signal from the secondary side lighting control device 20, but a mismatch occurs between the consciousness of the operator and the actual setting contents. In order to prevent this, it is desirable that the address can be set only from the central monitoring and control device 10. FIG. 7 shows an example of an address setting signal (command) transmitted from the central monitoring controller 10.
From the central monitoring and control device 10 to the interface unit U, the address (XX) of the unit U is designated,
After the setting start command is transmitted, a setting data erasing command is transmitted, and the registered address data is deleted. Note that this erase command can be omitted when it is not necessary to erase all of the setting data as in the case of initial setting or partial change. Then
Data is set. Here, there are 1) a method of setting individually and 2) a method of setting by packet.
When the data setting is completed, the address setting mode ends with the setting end command.

When the addresses are individually set, as shown, a set of change start commands, a primary address setting start command, a primary address setting command, a secondary address setting start command, a secondary side An address setting command and a set of change end commands are transmitted in order. As a result, the secondary address (ZZ) for one set of primary address (YY) is set and registered. When a plurality of sets are set, transmission of these commands may be repeated.

On the other hand, when the address is set in the packet, the secondary address (ZZ) for the primary address (YY) can be set and registered collectively. Here, 85 secondary addresses can be set according to the type (K), but the present invention is not limited to this. For each of the secondary addresses, invalid (0) or clear (2) can be registered as a mode in addition to the setting (1). If a plurality of addresses can be collectively set in a packet as described above, all addresses can be set with a small number of operations in the central monitoring and control device 10.

FIG. 8 shows the operation of the address setting described above. The primary-side central monitoring and control device 10 edits the transmission data (S300), and transmits the data to the interface unit U (S301). When receiving the setting start command (S310), the interface unit U shifts to the address setting mode, prohibits the reception of the monitoring signal and the control signal, and stops the normal operation.
Next, when rewriting all data, the address management tables 30 and 31 are initialized by receiving a setting data erase command (S311). Then, when a data setting command is received (S312), the address data is updated. When a setting end command is received (S313), the table data stored in the external memory 7 is updated, and each of the main CPU 1 and the sub CPU 5 is updated. The data stored in the internal memory is also updated, and the operation returns to the normal operation. Then, the transmission for the address setting is also ended in the central monitoring control device 10 (S302).

[0054]

As can be understood from the above description, the system extension terminal according to claims 1 to 6 of the present invention includes a multiplex transmission line derived from a primary supervisory control device, By connecting to both of the multiplex transmission lines derived from the secondary supervisory control device, the secondary supervisory control device monitors and controls the system monitored and controlled by the primary supervisory control device. Can be extended to the system. Further, since this system extension terminal can realize an interface of a plurality of addresses, if one terminal is provided, communication using a plurality of addresses becomes possible between two systems, Since there is no need to connect a plurality of interface units as in the related art, construction and space can be saved, and maintainability is also improved.

In particular, the system extension terminal according to the first aspect refers to the address management table and the secondary state data table when receiving the monitor signal from the primary monitor and control device, and The primary address added to the monitoring signal is converted into a secondary address, and a status signal of the terminal corresponding to the secondary address is returned to the primary monitoring control device. Therefore, this system extension terminal is 1
Returning a status signal of a secondary terminal from a monitoring signal transmitted from the monitoring and control device on the secondary side without transmitting the signal to the monitoring and control device on the secondary side from the terminal. Can be.

According to a second aspect of the present invention, when a control signal is received from the primary supervisory control device, the address management table and the secondary state data table are referred to and the one added to the control signal. The secondary side address is converted into a secondary side address, and a control signal for the terminal corresponding to the secondary side address is transmitted to the secondary side. Therefore, this system extension terminal can transmit the control signal transmitted from the primary-side supervisory control device to the secondary-side terminal.

According to the third aspect, when a supervisory signal is received from the secondary supervisory controller, the secondary address added to the supervisory signal is referred to by referring to the address management table and the primary status data table. Is converted into a primary address, and the status signal of the terminal corresponding to the primary address is transmitted to the monitoring and control device on the secondary side. Therefore, the system extension terminal enables the monitoring and control of the secondary terminal by the primary monitoring and control device, and also enables the monitoring and control of the primary terminal by the secondary monitoring and control device.

According to the present invention, when a control signal is received from the secondary monitoring and control device, the secondary address added to the control signal is referred to by referring to the address management table and the primary state data table. Is converted to a primary address, and a control signal of the terminal corresponding to the primary address is transmitted to the primary side. Therefore, this system extension terminal enables the primary-side monitoring and control device to control the secondary-side terminal and the secondary-side monitoring and control device to control the primary-side terminal.

According to the fifth aspect, the address management table includes:
Since there is provided an operation means for operating the primary side address and the secondary side address in correspondence with each other and registering them, each of the primary side address and the secondary side address is separately set by a dip switch as in the prior art. There is no need to set by
Address setting work becomes easy. According to the sixth aspect, when an address setting signal is received from the primary monitoring and control device, the primary address and the secondary address are associated with each other in the address management table in accordance with the designation indicated by the address setting signal. Because it registers, in the installation place of this terminal,
The address can be remotely set from the monitoring and control device without having to go to the office. Furthermore, when the system is rearranged,
Work is not complicated.

A central supervisory control system according to claim 7 includes a primary supervisory control device, a secondary supervisory control device, a multiplex transmission line derived from the primary supervisory control device, A system extension terminal according to any one of claims 1 to 6, which is connected to a multiplex transmission line derived from the monitoring and control device on the secondary side. Therefore, by using only one system extension terminal, communication using a plurality of addresses becomes possible between two systems monitored and controlled by each monitoring control device. This eliminates the need for connection, thereby saving construction and space, and improving maintainability.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an example of an internal configuration of a system extension terminal of the present invention.

FIG. 2 is a diagram showing an example of a configuration of a central monitoring and control system of the present invention.

3A is a diagram illustrating an example of an address conversion table; FIG. 3B is a diagram illustrating an example of a configuration of an address valid map; FIG.

FIG. 4 is a diagram illustrating an example of an operation of the system extension terminal of the present invention.

FIG. 5 is a diagram showing an example of an appearance of a system extension terminal of the present invention.

FIG. 6 is a diagram showing another example of the operation of the system extension terminal of the present invention.

FIG. 7 is a diagram illustrating an example of a configuration of an address setting signal.

FIG. 8 is a diagram showing an example of the operation of the central monitoring and control system of the present invention.

FIG. 9 is a diagram showing an example of the configuration of a conventional central monitoring and control system.

[Explanation of symbols]

U interface unit (system extension terminal) 1 Main CPU 2 Terminal transmission driver (primary side) 3 switch 4 Liquid crystal display 5 Sub CPU 6. Terminal transmission driver (secondary side) 7 External memory L1 multiplex transmission line (primary side) L2 multiplex transmission line (secondary side) 10 Central monitoring and control device 11 terminal equipment (primary side) 20 Lighting control device 21 Terminal (secondary side) 30 Address conversion table 31 Address Valid Map 32 State data table

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-8-154283 (JP, A) JP-A-1-316096 (JP, A) JP-A-10-42381 (JP, A) JP-A-7-154 184273 (JP, A) JP-A-3-186039 (JP, A) JP-A-5-153658 (JP, A) (58) Fields investigated (Int. Cl. ⁷ , DB name) H04L 12/00-12 / 66 H04Q 9/00-9/16 H03J 9/00-9/06

Claims (7)

(57) [Claims] 1. A multiplex transmission line derived from a supervisory control device on the primary side and connected to one or more terminals and a multiplex transmission line derived from a supervisory control device on the secondary side and connected to one or more terminals. A system extension terminal connected to both of the multiplex transmission lines, wherein the primary monitoring and control device and a primary transmission means for transmitting a signal through the multiplex transmission line; and the secondary monitoring and control device. Secondary side transmission means for transmitting a signal through a multiplex transmission line, Primary side addresses managed by the primary side supervisory control device correspond to secondary side addresses managed by the secondary side supervisory control device An external memory having an address management table registered and registered therein; the primary-side monitoring and control device;
A main CPU which transmits through the following side transmission unit, a monitoring control device of the secondary side is constituted by a sub CPU for transmission over the secondary transmission means, in normal operation, the address management The table is developed in each of the internal memory of the main CPU and the internal memory of the sub CPU via the sub CPU, and received from the secondary monitoring and control device via the secondary transmission means. A secondary-side status data table for storing the status of the secondary terminal indicated by the status signal corresponding to the address of the terminal is stored in the internal memory of each of the main CPU and the sub CPU. Via the primary transmission means from the primary monitoring and control device.
To, upon receiving the monitoring signal, with reference to the above address management table and the secondary state data table, converts the primary address added to the monitoring signal on the secondary side address, The status signal of the terminal device corresponding to the secondary address is transmitted to the above-mentioned 1-bit signal via the primary transmission means.
A system expansion terminal comprising: a control unit for returning a reply to the monitoring and control device on the next side. 2. The control means, when receiving a control signal from the primary-side monitoring and control device via the primary-side transmission means, stores the address management table and the secondary-side status data table. The primary address added to the control signal is converted into a secondary address with reference to the secondary address.
The control signal to the terminal corresponding to the secondary address is
The system extension terminal according to claim 1, wherein the transmission is performed via a secondary transmission unit. 3. The status of a primary terminal indicated by a status signal received from said primary monitoring and control device via said primary transmission means is stored in correspondence with the address of said terminal. A primary state data table, wherein the control means transmits the secondary state data from the secondary monitoring and control device to the secondary side;
When a monitoring signal is received via the secondary transmission means,
Referring to the address management table and the primary state data table, the secondary address added to the monitoring signal is converted into a primary address, and the state of the terminal corresponding to the primary address is converted. The system extension terminal according to claim 1, wherein a signal is transmitted to the monitor and control device on the secondary side via the secondary side transmission unit. 4. The state of a primary terminal indicated by a status signal received from said primary monitoring and control device via said primary transmission means is stored in correspondence with the address of said terminal. A primary state data table, wherein the control means transmits the secondary state data from the secondary monitoring and control device to the secondary side;
When a control signal is received via the secondary transmission means,
With reference to the address management table and the primary state data table, the secondary address added to the control signal is converted into a primary address, and the address is transmitted to the terminal corresponding to the primary address. 4. The system extension terminal according to claim 1, wherein a control signal is transmitted via said primary transmission means. 5. The operating system according to claim 1, further comprising operating means for operating a primary address and a secondary address in correspondence with each other and registering them in said address management table. System extension terminal. 6. When the control means receives an address setting signal from the primary monitoring and control device via the primary transmission means, the control means transmits the address management table in accordance with the designation indicated by the address setting signal. The system extension terminal according to any one of claims 1 to 5, wherein a primary address and a secondary address are registered in correspondence with each other. 7. A supervisory control device on the primary side in which one or more terminals are connected via a multiplex transmission line, and a supervisory control device on a secondary side in which one or more terminals are connected via a multiplex transmission line. 7. The apparatus according to claim 1, wherein the apparatus is connected to both a multiplex transmission line derived from the primary-side supervisory control device and a multiplex transmission line derived from the secondary-side supervisory control device. 8. A central monitoring and control system comprising the system extension terminal according to any one of the above.