JPH0614365A - Remote supervisory and control system - Google Patents

Abstract

PURPOSE:To provide a remote supervisory and control system capable of fixing a local controller and a network controller in a board similarly to other intra- board fixing apparatuses. CONSTITUTION:Each local controller 10 is connected to a transmission line 4 in a multiplex transmission system and connected also to a local bus 12 through a communication circuit and the size of its body 80 is formed within a regulated size for board fixing. The network controller 13 is connected to a central supervisory board 14 through a communication line and connected also to the local controllers 10 through other communication lines and the size of the body 80 is formed within a regulated size.

Description

Detailed Description of the Invention

[0001]

FIELD OF THE INVENTION The present invention relates to a remote monitoring and 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. 25, this remote monitoring control system performs operation monitoring of a plurality of lighting load control terminals 3 and operation switches 6 such as wall switches on a transmission line 4 consisting of a pair of lines from the transmission unit 1. The monitoring terminal 2 is connected, the lighting load 5 is connected to each control terminal 3, and the operation switch 6 is connected to the monitoring terminal 2.

The operation of the supervisory control system will be described based on the multiplex transmission signal shown in FIG. 26. The multiplex transmission signal Vs having the format shown in FIG. The control terminal device 3 and the monitoring terminal device 2 are adapted to be monitored and controlled. That is, the multiplex transmission signal V
s is a start pulse ST indicating the start of signal transmission, mode data MD indicating the signal mode, and address data A
D, control data CD for controlling load, checksum data CS for detecting a transmission error, and a multi-pole (± 24V) consisting of a reply waiting period WT for setting a reply waiting period for reply data
This is a time division multiplex signal and data is transmitted by pulse width modulation.

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 waiting period WT of the multiplex transmission signal Vs. The signal is sent out).

On the other hand, the transmission unit 1 is provided with dummy signal transmitting means and 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. In addition, the interrupt processing means uses an interrupt signal Vi as shown in FIG.
Is sent back, the reply data is sent back from the monitoring terminal device 2 which generated the interrupt signal Vi. 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 terminal Vi is transmitted according to the change of the switch input. In the transmission unit 1,
Corresponding to the interrupt signal Vi, a multiplex transmission signal Vs for address search is transmitted for each group address in order to search the interrupted terminal 2. The interrupting monitoring terminal 2 returns its own unique address as reply data when the group to which it belongs is accessed.

From this reply, the transmission unit 1 can determine the interrupting monitoring terminal 2 and then the multiplex transmission signal Vs having the address data AD of the monitoring terminal 2 concerned.
Is transmitted to access the monitoring terminal device 2, and the operation data of the operation switch 6 connected from the monitoring terminal device 2 is returned as reply data. In this way, based on the operation data returned from the monitoring terminal device 2,
The transmission unit 1 creates control data CD to be given to the control terminal 3 that controls the load 5 corresponding to the monitoring terminal 2, and transmits the multiplex transmission signal Vs including this control data CD via the transmission line 4. By performing time division multiplex transmission to the control terminal device 3, each lighting load 5 is individually turned on and off.

By the way, when connecting such a multiplex transmission system to a central monitoring panel of a host system, the control terminal 3 is used as an interface with the host system, and contact information of the control terminal is provided. Conventionally, a method of transmitting to the host system or a method of connecting a gateway to the transmission line 4 and monitoring and controlling the load 5 through the gateway has been used. However, when the upper system is connected by the above method, the former method has a problem that communication with the upper system cannot be performed when a trouble such as a short circuit or a disconnection occurs in the transmission line. Further, in the latter method using the gateway, there is a problem that it takes time for a command with a large amount of data such as a pattern setting because it needs to be converted into a time division multiplex transmission signal once.

[0008]

In order to solve the above problems, a local network is constructed by using a local controller equipped with a transmission unit, and a central monitoring board provided as a host system is connected by using a network controller. A remote monitoring control system that can control and monitor the load of each multiplex transmission system with communication commands from the central monitoring panel, and can perform necessary data settings and confirmation of the setting data, etc. Is proposed.

However, in this system, no consideration was given to mounting the network controller or the local controller in the panel, and there was a problem that the wiring workability was poor. The present invention has been made in view of the above points,
The object of the inventions of claims 1 and 2 is to mount a local controller or a network controller in the panel in the same way as other devices mounted in the panel, and also to facilitate wiring. It is to provide a remote monitoring and control system based on the above.

A third aspect of the present invention provides a remote monitoring and control system in which a local controller or a network controller can be easily attached to a DIN rail.

[0011]

In order to achieve the above-mentioned object, the invention according to claim 1 comprises a transmission unit and a plurality of monitoring terminals and control terminals via a pair of transmission lines. Access to the terminal by transmitting the multiplex transmission signal from the transmission unit, giving the control terminal the load control data based on the monitoring data from the corresponding monitoring terminal, and sending it to the monitoring terminal. On the other hand, a local transmission controller is provided with a communication means for connecting the transmission unit and the local bus by constructing a multiplex transmission system for returning the monitoring data to the transmission unit during the reply waiting period provided in the multiplex transmission signal. Data is exchanged by communication with the local controller by the first communication means connected to the local bus to which a plurality of are connected, and by the second communication means the central supervisor. In a remote monitoring and control system that communicates with the panel and has a network controller, the communication that connects the local controller to the above-mentioned local bus by matching the size of the body of the local controller with the specified dimensions of the lighting distribution board agreement type The connecting terminal portion of the means and the connecting terminal portion for connecting the transmission line are provided on one side edge portion of the front surface of the body, and the power source connecting terminal portion is provided on the other side edge portion of the front surface of the body. The power switch operation part is provided on the front surface of the body near the power connection terminal part.

According to a second aspect of the present invention, the transmission unit is connected to a plurality of monitoring terminals and control terminals via a pair of transmission lines, and a multiplex transmission signal is transmitted from the transmission unit to the terminal. Access control, the control terminal is given load control data based on the monitor data from the corresponding monitor terminal, and the monitor terminal is provided with the monitor data in the multiplex transmission signal. A multiplex transmission system for sending back to a transmission unit is built therein, and a local controller having a communication means for connecting the transmission unit and the local bus, and a first communication in which a plurality of local controllers are connected to the local bus Means for exchanging data with the local controller by communication, and second means for communication with the central monitoring panel to communicate with the network controller. In a remote monitoring and control system provided, the size of the body of the network controller is made to correspond to the prescribed size of the lighting distribution board agreement, and the connection terminal portion of the first communication means connected to the local bus and the transmission A connecting terminal portion for connecting a wire is provided on one side edge portion of the front surface of the body, and a power supply connecting terminal portion is provided on the other side edge portion of the front surface of the body, in the vicinity of the power supply connecting terminal portion. The operation part of the power switch is exposed on the front surface of the body, and the connector for connecting the second communication means is exposed on the side surface of the body.

According to a third aspect of the present invention, in the first or second aspect, a mounting groove is formed in the rear portion of the body so that both ends and the rear are opened, and one mounting surface is integrally provided on one inner side surface of the mounting groove.
The locking claw that locks the locking piece on one side of the IN rail with the bottom surface of the mounting groove, and the rear side of the body on the side of the other inner surface of the mounting groove are orthogonal to the longitudinal direction of the mounting groove. DIN rail mounting means configured to be movable in any direction, spring-biased in the mounting groove direction, and provided with a movable locking body that projects the tip from the other inner surface of the mounting groove into the mounting groove in a retractable manner. And a dimension between the mounting groove and the other inner surface of the mounting groove is made larger than a dimension between the tips of both side locking pieces of the DIN rail, and the tip of the movable locking body is the other inner surface of the mounting groove. The lock means is provided to lock the state when the user moves to the state position where the user is immersed.

[0014]

According to the invention of claim 1, since the size of the body of the local controller is made to correspond to the prescribed size of the agreement type for the lighting distribution board, other lighting parts are provided in the board. It can be installed side-by-side with equipment that meets the specified dimensions of the agreement type for electric boards, and the connection terminal portion of the communication means for connecting to the local bus and the connection terminal portion for connecting the above transmission line Provided on one side edge on the front side of the body and the power supply connection terminal on the other side edge on the front side of the body, and exposed the operation part of the power switch on the front side of the body near the power connection terminal. Since it is installed, the position of the power supply terminal connection part can be known by the existence of the operation part of the power switch, and there is no risk of connecting the power supply line to the transmission line or the local bus line by mistake. Connect the transmission line to the connection terminal of the communication means of the system Since the connection terminal portion are separated, it is possible to eliminate the occurrence of accidents such as power supply lines are incompatible to the connection terminal portion for connecting the connection terminal portion and the transmission line means of communication light electric system.

According to the second aspect of the present invention, since the size of the body of the network controller is made to correspond to the prescribed size of the agreement type for the lighting distribution board, it is used for other lighting distribution boards in the board. The connection terminal part of the first communication means, which can be installed side by side with the device corresponding to the specified size of the agreement, and which is connected to the local bus, and the connection terminal part for connecting the transmission line are connected to the device. In addition to being provided on one side edge of the front surface of the body, the power supply connection terminal is provided on the other side edge of the front surface of the body, and the operation part of the power switch is provided on the front surface of the body near the power supply connection terminal. Since it is exposed, and the connector for connecting the second communication means is exposed on the side surface of the body, the position of the power supply terminal connection portion can be known by the existence of the operation portion of the power switch, and the power supply line, the transmission line, and the local There is no risk of accidentally connecting to the bus line, and Since the connection terminal part is apart from the connection terminal part of the weak electric communication means and the connection terminal part connecting the transmission line, the power supply line connects the connection terminal part of the weak electric communication means and the transmission line. It is possible to eliminate the occurrence of accidents such as touching the connection terminal part of the second communication means, and since the connector for connecting the second communication means is exposed on the side surface of the body, other signal lines, transmission lines, and power supply lines. Wiring that mixes the like is eliminated, and orderly wiring can be performed.

According to the third aspect of the present invention, a mounting groove formed in the rear portion of the body so that both ends and the rear are opened,
A locking claw that is integrally projectingly provided on one inner surface of the mounting groove and locks a locking piece on one side of the DIN rail with the bottom surface of the mounting groove, and a side surface of the other inner surface of the mounting groove. It is provided in the rear part of the body of the body so as to be movable in the direction orthogonal to the longitudinal direction of the mounting groove and biased by a spring in the mounting groove direction, and the tip projects from the other inner side surface of the mounting groove so that it can be retracted into the mounting groove. Since it has a DIN rail mounting means composed of a movable locking body to be mounted, the local controller or the network controller can be mounted on the DIN rail, and the dimension between the mounting groove and the other inner side surface can be set to DIN. The locking means is formed to be larger than the dimension between the tips of both side locking pieces of the rail, and locks the state when the tip of the movable locking body moves to a position where the tip of the movable locking body is recessed in the other inner side surface of the mounting groove. From even heavy weight of the network controller and the local controller is the device body of the DIN
Rail mounting is easy.

[0017]

EXAMPLES The present invention will be described below with reference to examples. FIG. 1 shows the configuration of the entire system of an embodiment of the present invention. In this system, a plurality of multiplex transmission systems are constructed, and each multiplex transmission system has a conventional transmission unit, a communication means, and a communication with the transmission unit. A local controller unit 10 ₁ ... having a signal processing means for performing signal processing with the means is provided, and each local controller 10 ₁ ... uses the first communication means and is a setting device including an external personal computer or the like. It is possible to connect an external peripheral device such as 11 and to the local bus 12 by using the second communication means.

The local bus 12 is connected to the central monitoring board 14 of the host system via the network controller 13 and the interface unit 15. Although the local bus 12 is shown as three lines in the figure, one line is a ground line of a shield line. On the other hand, on the transmission line 4 of each multiplex transmission system, the monitoring terminal 2 provided with the operation switch 6 and the monitoring terminal 2'provided with the heat detection sensor 7 are provided.
In addition, a lighting control panel 3 which controls the load 5 through a consensus remote control relay 8 for a lighting distribution panel, or a lighting control panel which controls the load 5 by a built-in relay. A contract type control terminal 3'is connected, and these monitoring terminals 2, 2'and control terminals 3,
3'is monitored and controlled by the transmission unit in the local controller 10 _1, ... Reference numeral 9 in the figure denotes a power supply transformer of the agreement type for the lighting distribution board of the remote control relay 8.

As shown in FIG. 2, the network controller 13 incorporates a circuit portion in a body 80 composed of a cover 80a and a body 80b which are formed in a size of a contract type for a lighting distribution board, and a circuit portion is provided on an upper surface of the cover 80a. Is an RS232C connector 52A for communicating with the central monitoring panel 14.
And RS232C connector 52B for communicating between the setting device 11 including a personal computer and the like.
And the power supply connection terminal portion 53 on the left side portion in the drawing of the upper side edge, and the connection terminal portion 54 for the network connecting the local bus 12 on the right side portion of the lower side edge. is doing. Further, an operating portion of the power switch SW is exposed on the front surface of the cover 80a slightly below the power connecting terminal portion 53, and the position of the power connecting terminal portion 53 can be known by this operating portion. Also cover 8
A display portion 91 is provided on the front surface on the right side of 0a, and further, various setting dip switches SW ₃ ... Are provided on the lower center of the front surface. On the other hand, mounting portions 55 having screw insertion holes 55a for screw-fixing the body 80 to the mounting surface are provided at the four corners of the body 80b, and further the rear surface of the body 80b constitutes a DIN rail mounting means described later. Groove 56
Are formed in both left and right directions.

FIG. 3 is a view showing a disassembled state of the surface portion of the cover 80a. A metal plate such as aluminum is attached to the front surface of the cover 80a, and a shield nameplate 70 for reducing the influence of radiation noise is attached. I'm wearing it. The power supply connection terminal portion 53 includes a terminal screw 53a and a terminal screw 5 as shown.
It is composed of a terminal fitting composed of a terminal plate 53b to which 3a is screwed, and is disposed in a recess 58 formed in the cover 80a. A transparent terminal cover 57 is detachably arranged in front of the power supply connection terminal portion 53. In this arrangement, the projections 57a at both ends of the terminal cover 57 are locked in the recesses 58,
Further, the projection 58a from the concave portion 58 is fitted in the notch 53b so that the process is performed without screws.

The power switch SW is fitted in a fitting hole 59 formed in the cover 80a. The connection terminal portion 54 is composed of terminal fittings composed of a terminal screw 54a and a terminal plate 54b with a lead wire, and each terminal fitting is disposed in a terminal fitting mounting recess 60 formed in the cover 80a. Here the body 80
Since it is also used for the body of the local controller 10, the terminal metal fitting mounting recess 60 for mounting other terminal metal fittings is provided, but since it is not necessary for the network controller 13, the hole concealing nameplate 61 is not necessary. The terminal metal fitting recess 60 is fitted. Similarly, a terminal metal fitting mounting recess 62 for a connection terminal portion for connecting the transmission line 4 is provided, but since it is unnecessary, a hole concealing name plate 61 is fitted.

[0022] Both stuck the DIP switch SW _3, nameplate 63, 64 in the cover 80a corresponding to the exposed position of the SW _4, it is pivotally supported switch cover 65 and 66 openably. A name plate 68 is also attached to the recess 67 of the cover 80a provided with the display portion 91, and the door 69 is pivotally supported so as to be openable and closable. The door 69 is normally closed so that the display state cannot be seen from the outside, and is opened as shown in FIG. 14 when it is necessary to see the display.

FIG. 4 is an exploded plan view of the back surface portion of the cover 80a, in which the terminal plate 53b is connected and fixed to the back surface of the installation portion of the power supply connection terminal portion 53, and the power switch SW is connected and fixed. Board 71 fixing screw 72
It is fixed by. Also, circuit elements for communication to be described later, the terminal screw 54a of the connecting terminal portion 54, the display element L ₁₁ of the display unit 91 ..., DIP switch SW _3, SW _4, implements the RS232C connector 52A, and 52B The printed circuit board 73 is covered with the fixing screw 72.
It is attached to the back side of 0a. In the figure, 74 is a ground wire.

FIG. 5A shows the back surface of the cover 80a in which members such as the above-mentioned printed circuit board 73 are arranged. On the other hand, inside the body 80b, as shown in FIG. 6, the printed circuit board 82 on which the circuit of the power supply unit 81 is mounted is fixed using the fixing screw 72, and the transformer block 86 is arranged and fixed. Further, the movable locking body 83 is attached to the spring seat 85 provided corresponding to the movable locking body 83 of the DIN rail mounting means arranged on the back surface of the body 80b (that is, the rear surface as the body 80). A spring 84 that biases in the direction is attached. FIG. 7 shows the transformer block 8 from the back side of the body 80b.
6 shows a state in which 6 is fixed with a fixing screw 72.

FIG. 5B shows a state in which the printed circuit board 82 and the transformer block 86 are arranged on the body 80b. From the transformer block 86, the power supply connection line 87, the ground lines 88 and 88 ', and the secondary line. The output lines 89A and 89B are respectively derived, and the secondary output lines 89A and 87B and the ground line 8 are provided.
8'is connected to the printed circuit board 82. Here, the transformer block 86 is configured by fixing a transformer 93 in a metal fixed case 92 having a U-shaped cross section shown in FIGS. 8A and 8B by a fixing screw 72 as shown in FIG.
The ground wires 88 and 88 'are Y-shaped terminal fittings 9 provided at the tips.
5 and the fixing screw 72 are connected and fixed to the fixed leg 94 of the transformer 93.

Power is supplied to the circuit of the printed circuit board 73 on the cover 80a side from the printed circuit board 82 on which the power source section 81 on the body 80b side is mounted, and the connector 96 provided on the printed circuit board 73 and the connector 97 provided on the printed circuit board 82.
And the connection line 98 as shown in FIG. As shown in FIG. 10 (a), the DIN rail mounting means includes a mounting groove 56 formed on the back surface of the body 80 b, that is, the rear surface of the body 80, and an inner side surface on one side of the mounting groove 56 as shown in FIG. 10 (b). Locking claw 9 protruding as shown
9 and the above-described movable locking body 83. The movable locking body 83 has a top surface on which a hole 1 for hooking a lower portion of the spring 84 exposed from the window of the spring seat 85 on the rear surface of the body 80b is provided.
00 is provided as shown in FIG. 11, and locking ribs 102 and retaining ribs 105 are provided in a protruding manner.
It is movably mounted in a slide groove 103 in a direction orthogonal to the longitudinal direction of the mounting groove 56 provided on the back surface of the body 80b. Here, locking pieces 103a, 103a are provided so as to project inwardly on both inner edges of the slide groove 103.
03a and the bottom surface of the slide groove 103, both side edges 83a, 83a of the movable locking body 83 are slidably locked. The movable locking body 83 has a tip portion projecting into and out of the mounting groove 56 by a spring bias. The state at this time is the state shown in FIG. 12A, and at this time, the locking rib 102 is the rib 1 provided on the bottom surface side of the slide groove 103.
You are over 01. The protruding portion has elasticity due to the U-shaped cutout groove formed around the protruding portion of the locking rib 102. The plurality of ribs 106 on the surface of the movable locking body 83 are for strengthening the strength of the movable locking body 83.

The width of the one mounting groove 56 is exactly the length from the tip of the locking claw 99 to the other inner side surface of the DIN rail 1.
It is formed to be slightly larger than the dimension between the tips of both side locking pieces 104a, 104b of No. 04. Therefore, as shown in FIG. 13A, when one side edge of the body 80 is applied to the mounting surface, D
When the body 80 is rotated to the right in the figure while the tip of one of the locking pieces 104a of the IN rail 104 is applied to the tip of the locking claw 99, the DIN rail 10 is rotated as shown in FIG. 13B.
The other locking piece 104b of No. 4 fits into the mounting groove 56, and at this time, it abuts on the tapered surface of the tip portion 83a of the movable locking body 83. In this state, as shown in FIG. 12B, the movable locking body 83 resists the spring bias and moves to the position where the locking rib 102 rides over the rib 101 to the right and is locked.
At the right, pull and move to the right. Fall prevention rib 10
Reference numeral 3 corresponds to a rib 105 provided on the body 80a side, and prevents the movable locking body 83 from coming off the slide groove 103.

In this state, as shown in FIG. 13C, the locking piece 104a is engaged between the locking claw 99 and the bottom surface of the mounting groove 56, and the locking piece 104b extends to the bottom surface of the mounting groove 56. To move. Then, as shown in FIG. 12B, when the end portion of the movable locking body 83 is pushed up in the arrow direction X to release the above lock, the movable locking body 83 causes the spring 8 to move.
It moves to the left by the urging force of 4, and the tip projects into the mounting groove 56, and the DIN rail 1 is attached by the tip and the bottom of the mounting groove 56.
The other locking piece 104b of 04 is locked. Thereby, the body 80 can be mounted and fixed to the DIN rail 104. When removing from the DIN rail 104, the movable locking body 8
After moving 3 to the lock position as described above, DIN
The rail 104 may be removed from the mounting groove 56.

FIG. 15 shows a circuit configuration of the network controller 13.
RS48 connected to local bus 12 as shown
A communication circuit 40 including five drivers, and this communication circuit 40
A CPU 41 for controlling communication through
A communication circuit 42 including an RS232C driver for connecting the setting device 11 including a personal computer,
A CPU 43 that controls communication performed through the communication circuit 42, a communication circuit 44 that includes an RS232C driver that is connected to the central monitoring panel 14 that is a host system through the interface 15, and a control process that performs communication through the communication circuit 44. And C for exchanging data with the CPUs 41 and 42 through the DPRAMs 46 and 47.
It is composed of PU 45 and the like.

The CPU 45 controls the polling / selecting procedure of the RSC 232C, a protocol conversion function for interfacing when the central monitoring board 14 is directly connected to the communication circuit 20, and management and control of each local controller 10 ₁ . The management function of communication through the communication circuit 40 in the meantime and the communication command from the central monitoring panel 14 and the setting device 11 are received, and each local controller 10
₁ ..., controls and monitors the load 5 of each multiplex transmission system, sets various data necessary for the multiplex transmission system, and confirms the setting data. Further, to the central monitoring panel 14 and the setting device 11,
In addition to the function of returning the corresponding data, the monitoring data of the monitoring terminals 2 and 2'from the local controller 10 ₁ ... is further received, and according to the interlocking control data between the local controls 10 ₁ ... set in the EEPROM 48,
It is provided with a function of interlocking control for designating the corresponding local controller 10 ₁ or transmitting a control command to all the local controllers 10 ₁ . ROM
Reference numeral 49 is a memory storing operation programs and the like, and RAM 50
Is a memory for securing a work area and for temporary storage. Further, the EEPROM 48 stores the above-mentioned zone registration data, address data of the connected local controllers 10 ₁ ...

The CPU 43 polls the RS232C /
It has a function of controlling the selecting procedure and a function of communicating with the setter 11 via the communication circuit 42, and the communication load due to polling / selecting is dispersed to improve the response. The CPU 41 controls each polling / selecting procedure of RS485 and each local controller 1 via the communication circuit 40 and the local bus 12.
0 ₁ ... and a function of performing communication with, and dispersed the communication load, to improve the response.

A display unit 91 is provided at the output port of the CPU 45.
Is connected to the CPU 45, and the display unit 91 displays an operation display of the network controller 13, an abnormality in network communication using the local bus 12, an abnormality in communication with the central monitoring panel 14, and an abnormality in communication with the setting device 11, respectively. The light emitting diodes L _{11 to} L ₁₄ displayed under the control of 1 are provided as shown in FIG.

The dip switch SW ₃ connected to the input port of the CPU 45 is for setting the communication contents.
It has a 4-bit S ₁₁ to S ₁₄ configuration assigned one bit for each controlled as shown in FIG. 16. The DIP switch SW ₄ is a switch for setting the communication baud rate, word length, parity and state. Next, the local controller 10 uses a body 80 having the same shape as the network controller 13 as shown in FIG.
This local controller 10 is provided with an input side connection terminal portion 120A for connecting to the local bus 12 and a connection terminal portion 120B for output side connection, and the RS232C communication connector is provided at one of 37. There is. Further, the structure is different from that of the network controller 13 in that a connection terminal portion 121 for connecting the transmission line 4 is provided, and other structures are basically the same structure, and therefore the description thereof is omitted.

The circuit configuration of the local controller 10 is, as shown in FIG. 18, an RS232 for connecting a setting device 11 including a central monitoring board or a personal computer.
A first communication circuit 20 composed of a C driver and a CPU 2 for controlling communication performed through the communication circuit 20.
The communication of RS232C is controlled by the first communication device, and the second communication circuit 22 including an RS485 driver is used.
The CPU 23 and the like, which control the communication performed through the communication circuit 22, control the communication by RS485, and the CPU 21 and the CPU 23 exchange data with each other through a dual port RAM (hereinafter abbreviated as DPRAM) 24. Further, data is exchanged between the CPU 21 and the transmission unit 1 side through the DPRAM 25.

The CPU 21 receives the control function of the polling / selecting procedure of the RSC 232C, the protocol conversion function for interfacing when the central monitoring board 14 is directly connected to the communication circuit 20, and the communication of RS232C or RS485. In accordance with the communication command, a function of controlling the load 5, setting of setting data required for remote monitoring such as address data, confirmation of the setting, etc. to the transmission unit 1, and a source of the communication command. It has a function to send back data according to these controls, monitoring, settings, confirmations, etc.
When the monitoring data of the monitoring terminals 2 and 2 ′ is received through the RAM 25, the monitoring data is transmitted to the network controller 13 via the DPRAM 24, the CPU 23, the communication circuit 22 and the local bus 12, and the network controller 13
A function for realizing interlocking control for controlling other multiplex transmission systems via the LAN and a zone control command received by communication from a higher host are converted into a pattern control command by referring to the zone allocation data stored in the EEPROM 26. In addition, it has a function to issue an instruction to the transmission unit 1,
It has a function of receiving the notification of the state change of the load 5 from the transmission unit 1 via the RAM 25 and communicating with the host. The ROM 27 is a memory for storing operating programs and RA
M28 is a memory for securing a work area and for temporary storage.

On the other hand, the transmission unit 1 has a CPU 30, a ROM 31 storing an operation program, a RAM 32 for securing a work area and a temporary storage, and an EEP storing a load 5 and data for pattern and group control.
A conventional transmission unit that includes a ROM 33 and a transmission / reception circuit 34 for multiplex transmission signals, and the CPU 30 monitors and controls the monitoring terminals 2 and 2'and the control terminals 3 and 3 connected via the transmission line 4. And control processing based on an instruction from the CPU 21 according to the communication command received via the DPRAM 25, setting of various data necessary for the multiplex transmission system, and processing of checking the setting data, The function of sending back data, notification of the monitoring data of the monitoring terminals 2 and 2'to the upper order, the notification of the data of the state change of the load 5, the short-circuiting and opening of the transmission line 4, the terminal abnormality, etc. It has a function of notifying abnormal data to a higher level.

The CPU 23 corresponding to the communication circuit 22 is R
The control function of the polling / selecting procedure of S485 is provided, and the function of communicating with the network controller 13 via the communication circuit 20 and the local bus 12 is provided to distribute the communication load and improve the response. There is. The display unit 35 connected to the output port of the CPU 21
The local controller 10 in the recess 67 of the cover 80a.
Of the light-emitting diode L for displaying the operation display, the abnormality of the network communication using the local bus 12, the abnormality of the communication with the setting device 11, the opening and the short circuit of the transmission line 4 of the multiplex transmission system, respectively under the control of the CPU 21. _{1 to} L ₅ are provided as shown in FIG. The switch SW ₀ is a switch for connecting a terminating resistor when it is arranged at the end.

Further to the input port of the CPU21 connects the DIP switch SW ₁ and SW _2, DIP switch SW ₁ is used to set the address of the local controller 10 of the network, DIP switch SW ₂ Is for setting whether or not to notify the upper level of all-on / off control of the load 5, group control, pattern control, and zone control as shown in FIG. 20, and as shown in FIG. 4 bits S _{1 to} S ₄ each having 1 bit assigned to each control.

Next, the operation of the system shown in FIG.
~ It demonstrates based on FIG. FIG. 21 shows a case of zone control for a predetermined multiplex transmission system. In this case, when a zone control command is sent from the central monitoring board 14 to the network controller 13, the network controller 13 will give a predetermined, for example, local controller 10
Send zone control command to ₁ . The local controller 10 ₁ converts the data into pattern control data and creates load control data for controlling each load 5 to be pattern-controlled.
Load control is performed by transmitting the data to each of the control terminals 3 ₁ , 3 ₂ by multiplex transmission. And the respective control terminals 3 ₁ , 3 ₂
The local controller 10 ₁ , which has received the data of the state monitoring after control sent from the device, collates the result of the pattern control, and displays the display control data to the monitoring terminal 2 ₁₁ that operates the load 5 to be controlled. It is transmitted and the state of the load 5 corresponding to the operation switch 6 is displayed. Furthermore, the result of pattern control is converted into zone state data. The zone control result is further returned to the network controller 13, and the network controller 13 returns the received zone control result to the central monitoring board 14.

FIG. 22 shows the case of zone control for a plurality of multiplex transmission systems. In this case, the central monitoring board 14 is used.
When a zone control command is sent from the network controller 13 to the network controller 13, the network controller 13 sends the specified two local controllers 10 ₁ , 10 ₂
Send a zone control command to. The processing in each of the local controllers 10 ₁ and 10 ₂ is the same as in the case of FIG. 8, and the reply processing is also the same.

FIG. 23 shows a case where the load 5 of a certain multiplex transmission system is pattern-controlled, and the network controller 13 which has received the pattern (group) control command from the central monitoring board 14 further responds to the pattern control command by the local controller 10. Send to ₁ . Subsequent processing is the same as the above zone control, and the local controller 1
The data returned from 0 ₁ to the network controller 13 becomes the pattern control result, and the pattern control result is further transmitted from the network controller 13 to the central monitoring board 14
Will be replied to.

FIG. 24 shows a case of interlocking control between the local nets 10 ₁ ... In this case, for example, the operation switch of the monitoring terminal 2 _P1 for pattern control provided in a certain multiplex transmission system is operated to When the monitoring data is returned to the local controller 10 ₁ , the local controller 10 _1
1 transmits display control data to the monitoring terminal 2 _P1 ,
The network controller 13 also indicates that the operation switch of the monitoring terminal 2 _P1 has been operated based on the monitoring data.
To notify. At the same time, the corresponding control terminals 3 ₁₁ , 3
_The load control data is transmitted to ₁₂ and the corresponding load control is performed. In the local net 10 _{1 which} has received the status monitoring data by the load control, the control data for display is transmitted to the monitoring terminals 2 ₁₁ and 2 ₁₂ for operating the load 5 which is the control target and corresponds to the operation switch 6. The state of the load 5 is displayed, and similarly, the control data for display is transmitted to the monitoring terminal 2 _P1 to display the pattern state.

On the other hand, the network controller 13 which has received the above notification transmits a pattern simultaneous control command to the local controller 10 _{2 which} has an interlocking relationship with the local controller 10 ₁ . Upon receiving this pattern simultaneous control command, the local controller 10 ₂ controls the corresponding load 5 and the status display similarly to the controller 10 ₁ .

Since the monitoring control processing of the transmission unit 1 of the multiplex transmission system is the same as the conventional example, the above description is simplified.

[0045]

According to the invention described in claim 1, since the size of the body of the local controller is made to correspond to the prescribed size of the agreement type for the lighting distribution board, the agreement for another lighting distribution board is provided in the board. It can be installed side by side with equipment according to the specified dimensions of the shape, and the connection terminal part of the communication means for connecting to the local bus and the connection terminal part for connecting the transmission line are provided on the front surface of the body. In addition to being provided on one side edge portion, the power supply connection terminal portion is provided on the other side edge portion on the front surface of the body, and the operation portion of the power switch is exposed on the front surface of the body near the power supply connection terminal portion. The position of the power supply terminal connection can be known from the presence of the operation part of the power switch, so there is no risk of accidentally connecting the power supply line to the transmission line or the local bus line. Connection for connecting the above-mentioned transmission line with the connection terminal part of the means Since the terminal part are separated, the power supply line there is an effect that it is possible to eliminate the occurrence of an accident such as incompatible to the connection terminal portion for connecting the connection terminal portion and the transmission line means of communication light electric system.

According to the second aspect of the present invention, the size of the body of the network controller is made to correspond to the stipulated dimensions of the agreement type for the lighting distribution board. The connection terminal part of the first communication means that can be installed side by side with the device in accordance with the prescribed size of the agreement and that is connected to the local bus, and the connection terminal part that connects the transmission line are described above. The power switch is provided on one side edge of the front side of the body and the power supply connection terminal is provided on the other side edge of the front side of the body, and a power switch operation section is provided on the front side of the body near the power connection terminal. And expose the second side on the side of the body.
Since the connector for connecting the communication means of is exposed, the position of the power supply terminal connection part can be known by the existence of the operation part of the power switch,
There is no risk of mistakenly connecting the power supply line to the transmission line or the local bus line, and the power supply connection terminal part is such that the connection terminal part of the weak electric communication means and the connection terminal part connecting the transmission line are connected. Since they are separated from each other, it is possible to prevent the occurrence of an accident in which the power supply line is in contact with the connection terminal part of the weak electric communication means or the connection terminal part for connecting the transmission line.
Since the connector for connecting the communication means is externally provided, there is an effect that wirings in which other signal lines, transmission lines, power supply lines and the like are mixed are eliminated, and orderly wiring can be performed.

According to the third aspect of the present invention, a mounting groove is formed in the rear portion of the body so that both ends and the rear are opened, and one inner surface of the mounting groove is integrally formed to project to one side of the DIN rail. The locking claw that locks the locking piece with the bottom surface of the mounting groove and the rear part of the body on the side of the other inner surface of the mounting groove are movable in the direction orthogonal to the longitudinal direction of the mounting groove. In addition, the DIN rail mounting means is provided with a movable locking body which is provided by being biased by a spring in the mounting groove direction and has a tip projecting into and out of the mounting groove from the other inner side surface of the mounting groove. , The local controller or network controller can be mounted on the DIN rail, and the dimension between the other inner surface of the mounting groove is larger than the dimension between the tips of both side locking pieces of the DIN rail.
Since the locking means is provided for locking the state of the movable locking body when the tip of the movable locking body moves to the position where the tip of the movable locking body is retracted into the other inner side surface of the mounting groove, the DIN of the body is not required even if the weight of the network controller or the local controller is heavy. The effect is that rail mounting is easy.

[Brief description of drawings]

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

FIG. 2A is a partially cutaway front view of the above network controller. (B) is a bottom view of the same network controller. (C) is a side view of the network controller which can be partially broken.

FIG. 3 is an exploded front view of a cover of the above network controller.

FIG. 4 is an exploded rear view of the cover of the above network controller.

FIG. 5A is a rear view of the cover of the above network controller. (B) is a front view of the body of the same network controller.

FIG. 6 is an exploded front view of the body of the above network controller.

FIG. 7 is a rear view with a part of the body of the above network controller omitted.

FIG. 8A is a side view of a fixed case of the transformer block of the above. (B) is a rear view of the fixed case of the transformer block same as the above.

FIG. 9 is a rear view of the above transformer block.

FIG. 10A is a rear view of the body of the above network controller. (B) is a side view of the body of the same network controller.

FIG. 11 (a) is a side view of the movable locking body of the DIN rail mounting means of the above. (B) is a bottom view of the movable locking body of the DIN rail mounting means. (C) is a front view of a movable locking body of the DIN rail mounting means of the above. (D) is a top view of the movable locking body of the DIN rail attachment means same as the above.

FIG. 12 is an operation explanatory view of the movable locking body of the DIN rail mounting means of the above.

FIG. 13 is an explanatory diagram of the use of the DIN rail mounting means of the above.

FIG. 14 is a front view of a display unit of the above network controller.

FIG. 15 is a circuit configuration diagram of the above network controller.

FIG. 16 is a configuration diagram of a DIP switch of the above network controller.

FIG. 17A is a partially cutaway front view of the above network controller. (B) is a bottom view of the same network controller. (C) is a side view of the network controller which can be partially broken.

FIG. 18 is a circuit configuration diagram of the above local controller.

FIG. 19 is a configuration diagram of a display unit of the above local controller.

FIG. 20 is a configuration diagram of a DIP switch of the above local controller.

FIG. 21 is a flowchart for explaining the same operation as above.

FIG. 22 is a flowchart for explaining the same operation as above.

FIG. 23 is a flowchart for explaining the same operation as above.

FIG. 24 is a flowchart for explaining the same operation as above.

FIG. 25 is a system diagram of a conventional example.

FIG. 26 is a multiplex transmission signal V used in a multiplex transmission system.
It is explanatory drawing of s.

[Explanation of symbols]

 4 Transmission line 10 Local controller 12 Local bus 13 Network controller 14 Central monitoring panel 80 Body

Claims (3)

[Claims] 1. A transmission unit, a plurality of monitoring terminals and a control terminal are connected via a pair of transmission lines, and multiple transmission signals are transmitted from the transmission unit to access and control the terminals. The load control data is given to the monitoring terminal device based on the monitoring data from the corresponding monitoring terminal device, and to the monitoring terminal device, the monitoring data is sent to the transmission unit during the reply waiting period in which multiplex transmission signals are provided with the monitoring data. A local controller provided with a communication means for connecting a transmission unit and a local bus by constructing a multiplex transmission system for replying, and a local controller by a first communication means connected to a local bus to which a plurality of local controllers are connected. The remote monitoring system is provided with a network controller by exchanging data with each other by communication with the central monitoring panel by the second communication means. In the system, the size of the body of the local controller is made to correspond to the specified dimensions of the agreement type for the lighting distribution board, and the connection terminal portion of the communication means for connecting to the local bus and the connection terminal portion for connecting the transmission line are provided. Is provided on one side edge portion of the front surface of the body, and a power supply connection terminal portion is provided on the other side edge portion of the front surface of the body body, and a power switch is provided on the front surface of the body body near the power supply connection terminal portion. The remote monitoring and control system is characterized in that the operation part is exposed. 2. A transmission unit, a plurality of monitoring terminals and a control terminal are connected via a pair of transmission lines, and multiple transmission signals are transmitted from the transmission unit to access and control the terminals. The load control data is given to the monitoring terminal device based on the monitoring data from the corresponding monitoring terminal device, and to the monitoring terminal device, the monitoring data is sent to the transmission unit during the reply waiting period in which multiplex transmission signals are provided with the monitoring data. A local controller provided with a communication means for connecting a transmission unit and a local bus by constructing a multiplex transmission system for replying, and a local controller by a first communication means connected to a local bus to which a plurality of local controllers are connected. The remote monitoring system is provided with a network controller by exchanging data with each other by communication with the central monitoring panel by the second communication means. In the system, the size of the body of the network controller is made to correspond to the prescribed size of the agreement type for the lighting distribution board, and the connection terminal portion of the first communication means for connecting to the local bus is connected to the transmission line. The terminal portion is provided on one side edge portion of the front surface of the body, and the power supply connection terminal portion is provided on the other side edge portion of the front surface of the body body, and is provided on the front surface of the body body near the power supply connection terminal portion. A remote monitoring and control system characterized in that an operating portion of a power switch is exposed and a connector for connecting a second communication means is exposed on a side surface of the body. 3. A mounting groove formed in the rear portion of the body so that both ends and the rear are opened, and a locking piece on one side of the DIN rail which is integrally projectingly provided on one inner side surface of the mounting groove. A locking claw that locks between the bottom surface of the groove and a rear part of the body on the side of the other inner surface of the mounting groove that is movable in the direction orthogonal to the longitudinal direction of the mounting groove and that is spring in the mounting groove direction. A movable locking body that is urged and has its tip projecting into and out of the mounting groove from the other inner surface of the mounting groove.
IN rail mounting means is provided, and a dimension between the other inner side surface of the mounting groove is formed to be larger than a dimension between tips of both side locking pieces of the DIN rail, and a tip of the movable locking body is attached to the mounting groove. 3. The remote monitoring and controlling system according to claim 1 or 2, further comprising: locking means for locking the state when the state is moved into the other inner side surface.