JP2000048279A - Building supervisory and control system using multiplex transmission - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a building supervisory and control system using multiplex transmission with which reliability is improved so as to be operated without stopping the system even when any abnormality occurs at a central supervisory and control unit or short-circuitting abnormality occurs on a multiplex transmission line. SOLUTION: A repeating supervisory and control unit 2 for supervising multiplex signals transmitted on multiplex transmission lines L(#1)-L(#n) is provided between a central supervisory and control unit 1 and terminal equipment 3. When any abnormality occurs at the central supervisory and control unit 1, backup control is performed as a controller of the terminal equipment 3 connected to these multiplex transmission lines L(#1)-(#n). When short-circuitting occurs on any one of multiplex transmission lines L(#1)-(#n) in the system, the multiplex transmission line is automatically disconnected and influences upon the other multiplex transmission lines are excluded.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an improvement in a building monitoring and control system using multiplex transmission, and more particularly, when a central monitoring and control device has an abnormality or a short circuit has occurred in a multiplex transmission line. The present invention relates to a highly reliable building monitoring and control system that can be operated without stopping the entire system.

[0002]

2. Description of the Related Art A building monitoring control system using multiplex transmission is widely used when an air conditioner, a lighting device, a security device, and the like of a building are schedule-controlled by an unmanned person.
FIG. 10 shows a basic configuration of this type of building monitoring and control system. A plurality of multiplex transmission lines L (# 1) to L (#n) are derived from the central supervisory control device 1, and the respective multiplex transmission lines L (# 1) to L (#n).
Is connected to a terminal 3 to which an address is assigned and a load is connected. Normally, a transmission signal specifying an address is transmitted from the central monitoring and control device 1 to the terminal device 3, a return signal is transmitted from the terminal device 3, and the multiplex transmission line multiplex transmission lines L (# 1) to L (#) The abnormality of n) and the state of the terminal 3 are monitored, and a state change occurs in the terminal 3,
At a predetermined time, the central monitoring and control device 1 sends a control signal to the terminal device 3 to be controlled according to a preset schedule control program to perform necessary control.

In such a building monitoring and control system, if an abnormality occurs in the central monitoring and control device 1 or a short-circuit abnormality occurs in the multiplex transmission lines L (# 1) to L (#n).
Although it had an alarm output function, the entire system was shut down and inoperable unless the cause of the abnormality was clarified and repaired.

[0004]

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and is intended to operate without stopping the entire system even when an abnormality occurs in the central monitoring and control device. It is a first object of the present invention to provide a building monitoring and control system using multiplex transmission which can perform the above.

[0005] A second object is to immediately disconnect the multiplex transmission line from the system when a short circuit abnormality occurs in the multiplex transmission line in the system so as to eliminate adverse effects on other multiplex transmission lines. Features. Furthermore,
A third object is a building that can quickly perform necessary control on terminals connected to a multiplex transmission line in place of a central monitoring and control device when an external alarm such as a fire or a power failure is received. It is to provide a monitoring control system.

[0006]

In order to achieve the above object, the present invention proposes a building monitoring and control system using multiplex transmission characterized by the following configuration. That is, in claim 1, a relay supervisory control device is provided between the central supervisory control device and the plurality of terminals in the multiplex transmission line, and the relay supervisory control device includes a plurality of central supervisory control devices. A schedule control table storing at least schedule time control information to be executed for the terminal, multiplex transmission monitoring means for capturing a transmission signal transmitted through the multiplex transmission line, and an abnormality caused by the transmission signal captured by the monitoring means. A multiplex transmission control driver that can be disconnected from the multiplex transmission line to which a plurality of terminals are connected by the transmission line switching unit, wherein the determination unit transmits the multiplex transmission line on the multiplex transmission line. When it is determined that the transmission signal to be transmitted is abnormal, the relay supervisory controller is disconnected from the central supervisory controller, and the multiplex transmission control is performed. Connect the driver to the multiplex transmission line, instead of the central monitoring and control unit, between a plurality of terminal unit has a configuration provided with a backup function to perform scheduled time control.

According to a second aspect of the present invention, a relay supervisory control device is provided between the central supervisory control device and the plurality of terminals among the multiplex transmission lines. Multiplex transmission monitoring means for taking in a transmission signal transmitted by the multiplex transmission means, determining means for determining an abnormality based on the transmission signal taken in by the monitoring means, and multiplex transmission control for a plurality of terminals connected to the multiplex transmission line. And a transmission line disconnecting means for disconnecting a plurality of terminals from the multiplex transmission line by disconnecting the connection with the multiplex transmission line. When an abnormality is determined based on a transmission signal transmitted through the multiplex transmission control driver, the relay supervisory control device is disconnected from the central supervisory control device. Connected to feed lines, this time is regarded as a short circuit when the multiplex transmission control driver detects the current, and in that the multiplex transmission line, disconnected configuration.

Further, according to the present invention, the central monitoring and control device is provided with a transmission line trouble display means for displaying a normal or short circuit abnormality of all multiplex transmission lines derived from the monitoring and control device. Further, in claims 4 and 5, in any one of claims 1 to 3, the central monitoring and control device executes the external alarm input unit for inputting an external alarm signal of fire or power failure, and executes the processing when the external alarm signal is input. An emergency control table that stores in advance the control contents to be performed, and the determination means is configured to respond to the control contents stored in advance in the emergency control table when an external alarm signal is input from the external alarm input unit. The present invention has a configuration in which the emergency control can be executed to promptly respond to an emergency.
In 1 to 5, the multiplex transmission monitoring means is constituted by a multiplex transmission driver.

[0009]

Embodiments of the present invention will be described below. FIG. 1 is a block diagram showing the basic configuration of the building monitoring and control system of the present invention. As shown in FIG. 1, the building monitoring and control system derives a plurality of multiplex transmission lines L (# 1) to L (#n) from the central monitoring and control device 1, and multiplex transmission lines L (# 1) to L (# 1). Each of the L (#n) is connected to a terminal 3 connected to a load and assigned an independent address, and is connected to the central monitoring and control apparatus 1, that is, to a relay point. 2 are connected. Note that the multiplex transmission line L (# 1) is not provided with the relay monitoring control device 1, but such a mode is also included in the system of the present invention.

The central monitoring and control device 1 and each multiplex transmission line L
(# 1) to the terminal 3 connected to L (#n),
Normally, a transmission signal and a return signal are transmitted and received by a polling method in which an address is specified.
Controls the terminal devices 3 in accordance with the schedule time control table stored therein. FIG. 2 is a diagram showing a relay monitoring control device.

The relay monitoring and control device 2 has a main CPU 20 constituting a discriminating means, and a control unit comprising a ROM 21, a RAM 22, and a clock IC 23. The control unit includes a multiplex transmission line L (#n ) A multiplex transmission monitoring means 24 for taking in a transmission signal transmitted on the upper side, a multiplex transmission control driver 25 for performing multiplex transmission control on the terminal 3 connected to the load, and a multiplex transmission line L (#n )
And a transmission line switching means 26 for switching between disconnection and connection.

The transmission line switching means 26 normally opens the contact A and closes the contact B, so that the multiplex transmission monitoring means 2
4 is connected to the multiplex transmission line L (#n), and when it is determined that an abnormality has occurred in the central monitoring and control device 1, the contact B is opened and A is closed, and the central monitoring and control device 1 is connected to the multiplex transmission line. L (#n), and instead connects the multiplex transmission control driver 25 to the multiplex transmission line L (#n), so that the relay supervisory controller 2 replaces the central supervisory controller 1 with the multiplex transmission line L (#n). The terminal 3 connected to #n) can be controlled.

Here, if the multiplex transmission monitoring means 24 is constituted by a multiplex transmission driver installed in the terminal device 3 or the like,
The transmission signal transmitted on the multiplex transmission line L (#n) can be taken as it is, and the configuration can be simplified (claim 6). Reference numeral 27 denotes an external alarm input unit for receiving a fire sensor, a power failure signal, and the like.
When an external alarm signal is input through another signal line L 'different from (#n), the control unit causes the RAM 21 or the ROM
Reference is made to an emergency control table stored as an emergency control program in, for example, an emergency control table 22 so that emergency control independent of the central monitoring and control device 1 can be quickly performed (claims 4 and 5).

In the RAM 21 and the ROM 22, a schedule control table as shown in FIG. 3A or a schedule control table as shown in FIG. Control information tables storing control information are stored. These tables are replaced with the central monitoring and control device 1 and serve as a monitoring and control device for the terminal 3 to be managed, as described later. Used when doing. The schedule control table is 1
It can be created for each month, day, and day of the year, and the control procedure performed on that day is stored as control data in chronological order,
The main CPU 20 searches the schedule time data at a predetermined time measured by the clock IC 23, for example, every one minute, reads out the control information of the coincident schedule time with reference to the control information table, and controls the terminal device 3. In the control information table shown in FIG. 3B, the type of the device to be controlled by the terminal 3 to be managed and the control content (ON, OFF) are defined in the address of the terminal 3.

The table in which the schedule control and the control information for the terminal are stored is transferred from the central supervisory controller 1 when the central supervisory controller 1 is operating normally, or the operation of the central supervisory controller 1 is performed. The information is stored in advance in the RAM 21 or the ROM 22 of the relay monitoring and control apparatus 2 in preparation for a failure. Next, the basic operation of the system of the present invention will be described.

The relay monitoring and control device 2 always keeps the transmission line switching means 26 in the A-closed state, and only monitors the transmission signal transmitted on the multiplex transmission line L (#n) to perform multiplexing. The terminal device 3 connected to the transmission line L (#n) is controlled by the central monitoring and control device 1. However, when an abnormality occurs in the transmission signal transmitted on the multiplex transmission line L (#n), the main CPU 20 of the relay monitoring and control device 2 determines the abnormality and operates the transmission line switching means 26 to activate the contact B. And close A.

For example, if the transmission signal taken in from the multiplex transmission line L (#n) by the multiplex transmission monitoring means 24 is normal for a predetermined time, for example, 5 seconds, the central monitoring and control device 1 functions. The transmission line switching means 26 switches from the state of closing B and the state of opening A to
Opening B and switching to the state of closing A, the multiplex transmission monitoring means 24 is disconnected from the multiplex transmission line L (#n),
The multiplex transmission control driver 25 controls the multiplex transmission line L (#n)
Connected to. As a result, the central monitoring and control device 1 is disconnected from the multiplex transmission line L (#n),
Since the terminal 3 on (#n) is connected to the relay monitoring and control device 2, the relay monitoring and control device 2
(#N) The schedule time control is executed on the terminal 3 connected above in place of the central monitoring and control device 1.
The schedule control in this case is performed by the main CPU 20 sequentially executing the control programs stored in the schedule control table while referring to the clock IC 23.

Steps 100 to 105 in FIG. 4 are flowcharts showing the basic operation of the backup control executed by the relay monitoring and control device. In step 100, a schedule control table is created by transferring and receiving, or directly inputting, information necessary for executing schedule time control from the central monitoring and control device to the terminal to be managed.

In steps 101 and 102, the abnormality of the multiplex transmission line L (#n) is detected, and if the abnormality is determined, the transmission line switching means 26 is used in place of the central supervisory control unit 1 to perform backup control. In operation, the connection of the multiplex transmission line is switched, and steps 103 to 105 are performed.
Then, the control is executed with reference to the schedule control table.

On the other hand, a short circuit of the multiplex transmission line L is determined by the following procedure. That is, if the main CPU 20 does not input a normal transmission signal for a predetermined time, for example, 5 seconds, by the multiplex transmission monitoring means 24, it determines that the transmission signal is abnormal, activates the transmission line switching means 26, and opens the contact B. , A are closed, and the multiplex transmission control driver 25 is connected to the multiplex transmission line L (#n). And
At this time, if the multiplex transmission control driver 25 detects the current, the current is flowing on the transmission line L (#n) where no current should flow, so that it is regarded as a short circuit, and the multiplex transmission control driver 25 is connected (#N)
Output an alarm. As a result, the short-circuited multiplex transmission line L (#n) is disconnected from the central monitoring and control panel 1, but the transmission line switching means 26 is operated to open the contact B until the short-circuit is released. , A in the closed state to avoid the influence on other multiplex transmission lines L and improve the reliability. In addition, it is desirable that the connection with the multiplex transmission control driver 25 be cut off for the multiplex transmission line in which a short circuit has occurred. In this case, a transmission line disconnecting unit is provided instead of the transmission line switching unit 26, and the connection is established. What is necessary is just to keep it shut off.

In the relay monitoring and control device 2, the short circuit of the multiplex transmission line L (#n) can be determined by such a method, and the short-circuited multiplex transmission line can be cut off. Therefore, the configuration can be simplified without separately providing a short circuit detecting means. Can be FIG. 5 systematically shows the above basic operation. If the determination means determines that the transmission is normal, the transmission line switching means 26 is kept in the closed state of the contact A, and the multiplex transmission monitoring means 24 is connected to the multiplex transmission line L (#n).
The transmission signal transmitted on (#n) is monitored. As a result, the transmission signal and the return signal transmitted and received between the central supervisory control device 1 and the terminal 3 pass through to the relay supervisory control device 2. On the other hand, if the determination means determines that the transmission is abnormal, the transmission line switching means 26 is switched to the closed state of the contact B to disconnect the multiplex transmission monitoring means 24 from the multiplex transmission line L (#n). The control driver 25 is connected to the multiplex transmission line L (#n). Then, in this state, it is determined whether or not a current is flowing on the multiplex transmission line L (#n). If a current is detected, the multiplex transmission line L (#n) is regarded as being short-circuited, and The multiplex transmission line L (#n) is disconnected until the short circuit is released, and when no current is detected, it is determined that the central monitoring and control device 1 is abnormal, and the central monitoring and control device is replaced with the one shown in FIG. Execute backup control.

When a multiplex transmission driver similar to the terminal is used as the multiplex transmission monitoring means 24,
Even after the relay monitoring and control device 2 determines the short circuit of the multiplex transmission line and disconnects the multiplex transmission line by the method described above, the relay monitoring and control device 2 is connected to the central monitoring and control device 21 by the multiplex transmission line L. Therefore, it is possible to notify the central monitoring and control device 1 that the multiplex transmission line managed by itself has been disconnected, and the central monitoring and control device 1 receiving the notification collects the notified data and displays it on the display unit. It may be displayed.

In the system proposed in claim 3,
Since the central monitoring and control device 1 includes transmission line monitoring and display means for displaying normal and short-circuit abnormalities of all the multiplex transmission lines derived from the monitoring and control device, the relay provided for each of the multiplex transmission lines to be managed is provided. By collectively displaying a list of data indicating the status of the multiplex transmission line notified from the monitoring control device 2, the status of the multiplex transmission line in the system can be grasped easily and quickly.

FIG. 6 shows an example of a display unit of the transmission line monitoring and display means provided in the relay monitoring and control device 2. The display unit includes a plurality of multiplex transmission lines L (# 1) to L (#n).
A system diagram in which the relay monitoring and control device 2 is provided is graphically displayed at a relay point between the relay monitoring and control device 2 and the central monitoring and control device 2. In the drawing, for convenience, a normal multiplex transmission line is indicated by a solid line. The multiplex transmission line in which a short circuit has occurred is indicated by a thick line (transmission line 3), but may be displayed in a different color.

FIG. 7 shows an example of the state signal of the transmission line transmitted and received between the central supervisory control unit and the relay supervisory control unit. XX is an address assigned to the relay control device, Y is status data, 0 indicates normal, and 1 indicates short circuit. Finally, a building monitoring and control system proposed in claims 4 and 5 will be described. Although the basic configuration of this system is shown in FIG. 1, it is characterized in that the relay monitoring and control device 2 is provided with an external alarm signal input unit 26. In this system, the central monitoring and control device 1
Further comprises: an external alarm input unit 27 for inputting an external alarm signal of fire or power failure; and an emergency control table in which control contents to be executed when the external alarm signal is input are stored in advance. The table is a RAM 21 or ROM 22
Is stored in In such a relay monitoring and control apparatus 2, a control program to be processed in an emergency is stored in the emergency control table, and the discriminating means constituted by the main CPU 20 receives an external alarm signal from the external alarm input unit 26. In such a case, an emergency control is executed independently of the central monitoring and control apparatus 1, and further, when an abnormality occurs in the central monitoring and control apparatus 1 or when a short circuit occurs in the multiplex transmission line L (#n). The emergency control may be executed when an external alarm signal is input from the external alarm input unit 26 only when the error occurs.

FIG. 8 shows an example of a control command signal transmitted and received between the central supervisory control unit and the relay supervisory control unit when an external alarm is input.
FIG. 4 is a flowchart showing a control operation procedure in an emergency when an external alarm signal is input. In FIG. 9, in step 200, the control information is transferred from the central monitoring and control device 1 in order to create an emergency control table. However, the emergency control table is created by directly inputting control information and a control program. Is also good. The management points correspond to the terminals.

[0027]

According to the present invention, the following effects can be obtained. In other words, according to the first aspect, if the central monitoring and control device becomes abnormal, the relay monitoring and control device makes a backup as a substitute, so that the terminal can be operated continuously without stopping the schedule time control. Can be done.

According to the second aspect of the present invention, if a short circuit occurs in the multiplex transmission line, the multiplex transmission line is automatically disconnected, so that adverse effects due to the short circuit can be prevented. In particular, when the determining means determines that the transmission signal transmitted on the multiplex transmission line is abnormal, the relay monitoring control device is disconnected from the central monitoring control device and the control transmission driver is connected to the multiplex transmission line. However, at this time, when the control transmission driver detects a current, the multiplex transmission line is cut off and held from other multiplex transmission lines, so that the system configuration can be configured without providing a special short-circuit detection means. After simplification, it is possible to deal with a short circuit in the multiplex transmission line.

According to the third aspect, the central supervisory control unit displays the normal and short-circuit status of all the multiplex transmission lines derived from the supervisory control unit. It can be displayed and monitoring becomes easy. According to the fourth and fifth aspects, the central monitoring and control device stores in advance an external alarm input unit for inputting an external alarm signal such as a fire or a power failure, and control contents to be executed when the external alarm signal is input. Since the emergency control table is further provided, the determination means can promptly deal with the central monitoring control unit when an external alarm signal is input from the external alarm input unit.

[Brief description of the drawings]

FIG. 1 is a basic configuration diagram of a building monitoring and control system using multiplex transmission according to the present invention.

FIG. 2 is a basic configuration diagram of a relay monitoring control device.

3A is a diagram illustrating an example of a schedule control table, and FIG. 3B is a diagram illustrating an example of a control information table.

FIG. 4 is a flowchart showing a basic operation of backup control in the building monitoring and control system of the present invention.

FIG. 5 is a flowchart showing a basic operation in the building monitoring and control system of the present invention.

FIG. 6 is a diagram illustrating an example of a display unit of a transmission line monitoring display unit.

FIG. 7 is a diagram showing a transmission line status command.

FIG. 8 is a diagram showing a control command when an alarm is input.

FIG. 9 is a flowchart showing a basic operation when an external alarm signal is received.

FIG. 10 is a basic configuration diagram of a conventional building monitoring and control system using multiplex transmission.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 central monitoring and control device 2 relay monitoring and control device 24 multiplex transmission monitoring means 25 multiplex transmission control driver 26 transmission line switching means 27 external alarm input unit 3 terminal

 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 5C087 BB03 BB54 BB74 CC06 CC46 DD01 DD04 DD23 EE05 EE07 EE08 EE15 FF01 FF02 FF04 FF19 FF20 FF30 GG01 GG06 GG09 GG12 DB17 DB18 EB06 EB08 5K048 AA00 AA08 BA07 BA08 BA51 CA03 CA11 DC04 EB01 EB02 EB08 FC01 GB05 GB06

Claims (6)

[Claims] A plurality of terminals each assigned an address are connected to at least one or more multiplex transmission lines derived from the central supervisory control device. A building monitoring and control system using multiplex transmission configured by providing a relay monitoring and control device between the terminal and a terminal, wherein the relay monitoring and control device is executed by a central monitoring and control device for a plurality of terminals. A schedule control table storing information necessary for schedule time control; multiplex transmission monitoring means for capturing a transmission signal transmitted through the multiplex transmission line; and determination means for determining abnormality of the transmission signal captured by the monitoring means. A multiplex transmission control driver which can be disconnected by a transmission line switching means for a multiplex transmission line connecting a plurality of terminals; When the determination means determines an abnormality in a transmission signal transmitted on the multiplex transmission line, the transmission line switching means is operated to disconnect the relay supervisory control device from the central supervisory control device. A building supervisory control system using multiplex transmission, characterized in that a driver is connected to a multiplex transmission line and schedule time control is performed between a plurality of terminals instead of the central supervisory control device. . 2. A plurality of terminals, each assigned an address, are connected to at least one or more multiplex transmission lines derived from the central monitoring and control unit, and a plurality of terminals are connected to the central monitoring and control unit among the multiplex transmission lines. What is claimed is: 1. A building monitoring and control system using multiplex transmission comprising a relay monitoring and control device provided between a terminal and a terminal, the relay monitoring and control device comprising: a multiplex transmission monitor for capturing a transmission signal transmitted through a multiplex transmission line. A multiplex transmission control driver for performing multiplex transmission control on a plurality of terminals connected to the multiplex transmission line; Transmission line disconnecting means for disconnecting a plurality of terminals from the multiplex transmission line, wherein the determining means determines whether a transmission signal transmitted on the multiplex transmission line is different. Is determined, the relay supervisory control device is disconnected from the central supervisory control device, and the multiplex transmission control driver is connected to the multiplex transmission line. At this time, when the multiplex transmission control driver detects a current, the transmission line disconnecting means is activated. A building supervisory control system using multiplex transmission, wherein the system operates to disconnect the multiplex transmission line. 3. The multiplex transmission system according to claim 1, wherein the central monitoring and control device includes transmission line monitoring and display means for displaying a normal or short circuit of all multiplex transmission lines to be managed. Building monitoring and control system 4. The apparatus according to claim 1, wherein the central monitoring and control device includes an external alarm input unit for inputting an external alarm signal of fire or power failure, and a control content to be executed when the external alarm signal is input. An emergency control table stored in advance is further provided, wherein the determination means is configured to execute control contents stored in advance in the emergency control table when an external alarm signal is input from an external alarm input unit. Building monitoring and control system using multiplex transmission. 5. The central monitoring and control device according to claim 1, wherein the central monitoring and control device includes an external alarm input unit for inputting an external alarm signal for fire or power failure, and a control content to be executed when the external alarm signal is input. An emergency control table that is stored in advance, wherein the determining means determines whether an abnormality has occurred in the central monitoring and control device, or when it has been determined that a short circuit has occurred in the multiplex transmission line. A building monitoring and control system using multiplex transmission configured to execute control contents stored in the emergency control table in advance when an external alarm signal is input. 6. The building monitoring and control system according to claim 1, wherein said multiplex transmission monitoring means comprises a multiplex transmission driver.