JP3451855B2 - Remote 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 remote monitoring control system.

[0002]

2. Description of the Related Art FIG. 11 shows a system configuration diagram of a remote monitoring control device F using time division multiplex transmission. The remote monitoring control device F is equipped with an operating switch S ₁ ... And a control terminal 4 for controlling a load such as a lighting load 2 and a transmission unit 3 as a basic configuration, and two signal lines 5 are provided between the terminals 1 and 4 and the transmission unit 3.
12A, the transmission signal Vs transmitted from the transmission unit 3 to the signal line 5 is, as shown in FIG. 12A, a start pulse signal ST indicating the start of signal transmission, a mode data signal MD indicating the signal mode, and a terminal device. Address data signal AD for calling 1, 4 and control data signal C for controlling lighting load 2
D, a checksum data signal CS, and a multi-pole (± 24V) time division multiplex signal composed of a return waiting period WT composed of long pulses for setting a return period from the terminals 1 and 4, and each data is a pulse. It is transmitted by width modulation.

In each of the terminals 1 and 4, when the address data of the transmission signal Vs received via the signal line 5 and its own unique address data match, the control data of the transmission signal Vs is taken in and the transmission signal is transmitted. The monitor data signal is sent back as a current mode signal (a signal sent by short-circuiting between the signal lines 5 via an appropriate low impedance) in synchronization with the Vs return waiting period WT.

Further, to the transmission unit 3, dummy signal transmitting means for constantly transmitting the dummy transmission signal Vs in which the mode data signal MD is set to the dummy mode, and any one of the monitoring terminals 1 shown in FIG. When an interrupt signal Vi as shown in (1) is received, an interrupt processing means for detecting the interrupt generating terminal device 1, accessing the terminal device 1 and returning the monitoring data is provided. On the other hand, when the monitor terminal 1 receives a monitor input by operating the switches S _{1 to} S _4, the interrupt signal Vi is generated in synchronization with the start pulse signal ST of the dummy transmission signal Vs. The interrupt generation means for returning its own unique address data in synchronization with the return waiting period WT of the transmission signal Vs in the address confirmation mode from the transmission unit 3 and the transmission signal Vs in the interrupt access mode in response to the interrupt from the transmission unit 3 are provided. Data return means is provided for returning the monitor data corresponding to the monitor input when transmitted.

The transmission unit 3 creates control data to be transmitted to the control terminal 4 based on the monitor data returned from the monitoring terminal 1 to the transmission unit 3, and transmits it to the control terminal 4. The lighting load 2 is controlled to be turned on / off. The control terminal 4 uses a latching relay to turn on / off the lighting load, and can perform a reversing operation in response to the reception of control data.

In this remote monitoring control device F, the switch provided on the normal monitoring terminal 1 is operated to switch the operation switch S ₁ ... Although the load 2 can be turned on / off, the load 2 can be operated by receiving a command from a personal computer or the like, and the maximum wiring length is 500 m, so that it is not possible to control the remote control terminal 4. .

[0007]

SUMMARY OF THE INVENTION The present invention has been made in view of the above points, and an object of the present invention is to provide a load provided on the remote monitoring control device side through an information communication network. Can be controlled and on the computer
Change the address setting of the virtual operation switch presented.
The computer operator does not need specialized control knowledge
Also, to provide a remote monitoring and control system that easily can. It is an object of the invention of claim 2, the remote that can be used in addition to the purpose of the invention of claim 1, the technology used in the Lee over Sir net, to control the load of the remote monitoring and control apparatus To provide a supervisory control system.

In addition to the object of the invention of claim 1 or 2, the object of the invention of claim 3 is to provide a remote monitoring control system which can be easily attached to a distribution board like a general breaker. There is. The object of the invention of claim 4 is, in addition to the object of the invention of claim 1 or 2, to provide a remote monitoring control system that can be mounted on a rack defined by the JIS standard.

According to the invention of claim 5, in addition to the object of any one of claims 1 to 4, it is possible to turn the load on and off while performing work such as office work with a computer. the Ru near to provide a remote monitoring and control system that can be easily increased or decreased on the program the number of operation switches for virtually presented on a computer.

According to the sixth aspect of the present invention, in addition to the object of any of the first to fifth aspects of the invention, when a program for performing work by a computer is started up, the illumination suitable for the work is automatically performed. It is to provide a remote monitoring control system capable of creating scenes and the like. In addition to the object of any one of claims 1 to 6 , an object of the invention of claim 7 is to have a program for load control of electronic mail from another computer connected to an information communication network. Just call your computer
Another object is to provide a remote monitoring control system capable of controlling the load on the remote monitoring control device side.

The object of the invention of claim 8 is that in addition to the object of any one of the inventions of claims 1 to 7 , there is no means for connecting to an information communication network, but a general-purpose communication processing unit is provided. It is possible to provide a remote monitoring control system capable of controlling the load on the remote monitoring control device side even with a computer owned by the computer. The object of the invention of claim 9 is that, in addition to the object of any one of claims 1 to 8 , contents set by using a computer on an information communication network are carelessly taken by another computer. (EN) Provided is a remote monitoring and control system capable of eliminating the possibility of being changed by.

The object of the invention of claim 10 is to:
In addition to the object of any one of claims 1 to 9 , time adjustment of a clock function of a computer can be automatically performed at the same time as turning on a time adjustment contact of a master clock installed in a building or the like. It is possible to provide a remote monitoring control system.

[0013]

In order to achieve the above object, in the invention of claim 1, at least two of a transmission unit, a monitoring terminal equipped with an operation switch, and a control terminal for controlling a load are provided. Each terminal is individually accessed by connecting it to the transmission unit via a wire-type signal line, and transmitting a transmission signal containing address data for calling each terminal to the signal line by time division multiplexing in the transmission unit. When receiving the monitoring data based on the monitoring input sent from the monitoring terminal device during the return waiting period set in synchronization with the transmission signal, the control terminal creates the control data based on the monitoring data and sends the monitoring data. The control data is transmitted to the control terminal corresponding to the control device by the transmission signal, and the control terminal controls the operation of the corresponding load based on the received control data. The above-mentioned transmission signal and return waiting period are connected between the remote monitoring control device that generates output, the network transmission line of a general-purpose information communication network, and the signal line of the remote monitoring control device. Data is transmitted and received by a computer, and command and data are exchanged with a computer connected to the information communication network using a predetermined protocol, and load control is performed based on the command data from the information communication network side. A conversion function that returns the monitoring data to the transmission unit of the remote monitoring controller and converts the control data sent by a transmission signal from the transmission unit of the remote monitoring controller into command data for the computer connected to the information communication network. remote monitoring and control system composed of an interface device provided with In, information
Computers connected to the communications network
Address setting mode
The selection of the operation switch that was virtually presented during
And attached to the monitoring terminal of the remote monitoring and control device
When the operation switch is operated, the interface is
Sent from the face device through the information communication network
Address data of the monitoring terminal of the relevant operation switch
Is loaded, and the relevant operation switch is activated while the address setting mode is being set.
When the switch is operated a certain number of times, the operation switch is monitored.
Set the address of the terminal for the operation of the selected operation switch above.
It is characterized in that it is set as an address, and the load on the remote monitoring and control device side can be controlled from a computer connected to the information communication network, and many personal computers connected to the network are installed, such as one personal computer. In offices, there is no need for a wall switch to operate loads such as lighting loads, which can save construction work, and even if there are multiple remote monitoring and control devices, use the corresponding interface device for each. The load on each remote monitoring control device can be controlled by a computer on the information communication network, and the number of devices can be flexibly accommodated. Further, since the command data is sent to the interface device side through the information communication network, it is possible to monitor and control the load at a remote place like a branch office. See you
Addition of virtual operation switches presented on the computer
Control to the computer operator.
It can be done easily without any knowledge .

According to a second aspect of the present invention, in the first aspect of the present invention, the information communication network is made of Ethernet, and an address for identifying on the information communication network is set in the interface device. Since Ethernet is used, the technology used for Ethernet can be used for controlling the load on the remote monitoring control device side.

The invention of claim 3 is characterized in that, in the invention of claim 1 or 2, the shape and size of the device main body of the interface device is set by the contract size of the distribution board, and like the general breaker. Easy to install on the distribution board. According to a fourth aspect of the invention, in the first or second aspect of the invention, the shape and size of the device body of the interface device are J
It is characterized by being a rack type defined by the IS standard, and can be mounted on a rack defined by the JIS standard.

According to a fifth aspect of the present invention, in any one of the first to fourth aspects of the invention, in the computer connected to the information communication network, the operation switch provided in the monitoring terminal of the remote monitoring control device is virtually computerized. The above-described program is provided, the program is executed by multitasking, and when there is an operation by the operation switch that is virtually presented at the time of execution, the interface device corresponds to the operation to the transmission unit side of the remote monitoring control device. The feature is that the command data for sending back the monitoring data is sent to the interface device via the information communication network, and it is possible to turn on and off the load while performing office work etc. with the computer, and it is also virtually presented. You can easily increase or decrease the number of operating switches There is almost no cost to increase or decrease the number of switches, and it is easy to write the name indicating the location etc. on the operation switch that is virtually presented by using the word processor software installed in the computer. It is clean and the operation of the virtually presented operation switches is easy.

[0017]

In the invention of claim 6 , claim 1 to claim 1
In the invention described in any one of 5) , in a computer connected to the information communication network, when a predetermined application program is executed, monitoring data for load control is returned from the interface device to the transmission unit side of the remote monitoring control device. It is characterized by sending command data to the interface device through the information communication network, and when a predetermined program is started to perform the work on the computer, it is possible to automatically create a lighting scene suitable for the work Becomes

According to the invention of claim 7 , claim 1 to claim 1
In the invention described in any one of 6 above, when a computer connected to an information communication network sends predetermined command data by electronic mail from another computer, the interface device sends the command to the transmission unit side of the remote monitoring control device. The command and data to be returned as monitoring data for load control are sent to the interface device through the information communication network, and the information communication network is used when the computer is remote from the computer having the load control program. The load on the remote monitoring and control device side can be controlled simply by sending an e-mail from another computer connected to the computer to the computer having the load control program.

According to an eighth aspect of the present invention, in the invention according to any one of the first to seventh aspects, the interface device is provided with a general-purpose communication processing section, and command data sent from an external computer through the communication processing section. Based on the above, the monitoring data for load control is returned from the interface device to the transmission unit side of the remote monitoring control device, and a general-purpose communication processing unit is not provided with means for connecting to the information communication network. A computer with a built-in computer can control the load on the remote monitoring and control device side.

In the invention of claim 9 , claim 1 to claim 1
In the invention described in any one of 8 above, the interface device accepts the command data sent through the information communication network when the password sent together with the command data and the password registered in advance match. It is possible to prevent the contents set by using one computer on the communication network from being accidentally changed on the other computer side, and the setting contents can be protected.

According to a tenth aspect of the invention, in the invention according to any one of the first to ninth aspects, a time adjustment setting contact is connected to the interface device, and the time adjustment command is turned on when the time adjustment setting contact is turned on. Is sent to a computer connected to the information communication network, and the time of the clock function of the computer necessary for performing schedule control, etc. is set to the time of the master clock installed in the building. It can be automatically performed by a time adjustment command sent from the interface device when the contact is turned on.

[0023]

DETAILED DESCRIPTION OF THE INVENTION

(Embodiment 1) FIG. 1 shows the system configuration of the present embodiment. The configuration of the remote monitoring control device F is basically the same as that of the device of FIG. And an interface device 6 for operating as a terminal device and enabling data exchange between the information communication network NT using Ethernet and the remote monitoring control device F.

FIG. 2 shows the circuit configuration of the interface device 6. The interface device 6 is connected to the signal line 5 and receives the transmission signal Vs from the transmission unit 3 and returns it in synchronization with the return waiting period WT. A signal transmitting / receiving circuit 10 for transmitting a signal, and an information communication network NT
Ethernet transceiver 1 connected to the transmission line 7
1, a protocol used for the information communication network NT, here, a TCP / IP communication processing unit 12 for performing communication according to the TCP / IP protocol, and an IP address for setting an IP address used for identification in TCP / IP communication A setting unit 13 and a general-purpose communication processing unit including an RS485 processing unit 14 and an RS232C processing unit 15;
Data analysis from the TCP / IP communication processing unit 12, the RS485 processing unit 14, and the RS232C processing unit 15 is performed to generate a data protocol for the remote monitoring control device F side, a return signal is generated, and a transmission signal Vs is analyzed. A central processing unit 16 having a function, a ROM 17 storing an operation program of the central processing unit 16, and data that needs to be temporarily stored, for example, turning on the control terminal 4 on the remote monitoring control device F side. RAM 18 for storing off data, etc.
And a power supply circuit 19 for obtaining an operating power supply for each part from a commercial AC power supply (AC100V), functioning as a monitoring terminal device from the remote monitoring control device F side, and an IP address from the information communication network NT. Works with computers that have been granted. Data signals are exchanged between the signal transmitting / receiving circuit 10 and the central processing unit 16 at the TTL level.

The TCP / IP communication processing unit 12 uses TCP / I
A text message, which is required command data to the remote monitoring control device F, is taken out from the P protocol, and is returned from the central processing unit 16 to a computer connected to the information communication network NT, for example, a personal computer (hereinafter referred to as a personal computer) 8. Command data to be TC
Performs processing such as loading on the P / IP protocol. RS4
The 85 processing unit 14 is for analyzing command data sent by serial communication by RS485 and passing it to the central processing unit 16, and includes a signal processing unit such as a voltage level converting unit for that purpose. Further, the RS232C processing unit 15 uses the RS23
It is for analyzing a command sent by 2C serial communication and passing it to the central processing unit 16, and includes a signal processing unit therefor.

The interface device 6 is connected to the router 22 via the hub 21 and constitutes a part of the information communication network NT. The personal computer 8 on the side of the information communication network NT is also connected to the router 22 via the hub 21. Figure 3
(A) and (b) show the appearance of an example of the interface device 6, and the device body 6A of the illustrated example is formed in a rack-compatible shape dimension standardized by JIS, and a power switch of a power circuit 19 is provided on the front surface thereof. SW, an energization display lamp LA of the power source, and a display lamp LB showing the transmission state of the transmission signal Vs of the remote monitoring and control apparatus F are provided, and RS2 is provided on the back surface.
32C connector 30 and RS485 connection terminal portion 31
And 1 for 10BASE-T for connecting the transmission line 7
A modular jack 32 for 0BASE-T, a connection terminal portion 33 for the signal line 5, and a lead-out portion 35 for a power cord 34 are provided.

FIG. 4 shows the appearance of another example of the interface device 6, and the device body 6B of the illustrated example is formed in the shape and size by the distribution board agreement size (BAK), and is divided like the circuit breaker. It can be installed in the switchboard, and the power circuit 19 is connected to the commercial AC power supply (A
C100V), a power supply terminal 36 for connection, a connection terminal portion 33 of the other side signal line 5 and a connection terminal portion 31 of RS485 are provided on the upper surface, and a power supply indicator lamp LA on the upper surface and a remote monitoring An indicator lamp LB showing the transmission state of the transmission signal Vs of the control device F and the connector 3 of the RS232C
0 and a modular jack 32 for 10BASE-T for connecting the transmission line 7 are provided.

The personal computer 8 on the information communication network NT side is provided with a load control program for performing the same operation as the monitoring terminal 1 of the remote monitoring control device F through the interface device 6, and the program is under the OS. When the program is executed, the lighting load 2 that is turned on / off through the control terminal 4 on the screen of the monitor 9 as shown in FIG. 5 is executed.
Virtual operation switch S with a name indicating the location of
Pictures (icons) of ₁₁ , S ₁₂ , and S ₁₃ buttons are displayed. In the illustrated example, the operation switch S corresponding to the lighting load of the conference room, the lighting load of the design room, and the lighting load of the office.
The pictures of the buttons ₁₁ , ₁₁ , ₁₂ and S ₁₃ are displayed, and the pictures of the display lamp La and the display lamp Lb showing the ON state and the OFF state of the corresponding lighting load are displayed on the operation switches S ₁₁ ,
Is displayed corresponding to S _12, S _13.

Here, the personal computer is usually applied to document preparation, software development, electronic mail, etc., and is often used as a kind of office equipment.
Especially in the office, the time has come to install notebook type personal computers on the desks. On the other hand, a personal computer worker had to walk to an operation switch provided on the wall for operation in order to turn on and off the lighting load for a break or overtime at night, but in the present invention, the information communication network NT is used. The same operation as the monitoring terminal 1 for turning the lighting load 2 on and off is performed through the interface device 6 on the personal computer 8 that is connected and can perform communication by the TCP / IP protocol and that has an IP address set. The load control program for the above is incorporated as described above, and the picture (icon) of the button of the operation switch S ₁₁ ... Displayed on the monitor 9 by executing the program, for example, the button of the operation switch S ₁₁ . By clicking (double-clicking), the personal computer 8 sends a load operation command corresponding to the operation switch S ₁₁ to the TCP / IP protocol. Sent as command data of. That is, it is sent as a text message via the information communication network NT to the interface device 6 having the IP address associated with the IP address of the personal computer 8.

In the interface device 6, the transceiver 11 and the TCI / IP communication processing unit 12 fetch the command data into the central processing unit 16 for analysis, and based on this analysis, the signal transmitting / receiving circuit 10 operates the monitoring operation terminal 1 Similarly, the interrupt signal Vi is sent out, and then, in the interrupt process with the transmission unit 3, the address data as the monitoring terminal set corresponding to the operation switch S ₁₁ is returned to the transmission unit 3. Therefore, the transmission unit 3 sends the transmission signal Vs for accessing the address to call the interface device 6, and returns the monitoring data indicating that the operation switch S ₁₁ has been operated.

The transmission unit 3 which has received this monitoring data
Is the control terminal 4 associated with the address as the monitoring terminal sent from the interface device 6.
Control data to the control terminal device 4 is transmitted by the transmission signal Vs for accessing the control terminal device 4, and the control terminal device 4 receives the control data to connect the lighting load 2 to be controlled to the latching relay ( (Not shown)
Is turned on and off, and the lighting load 2 connected to the power supply is turned on or off via the contact of the latching relay (not shown).

When the lighting load 2 is turned on or off,
Therefore, the control terminal 4 uses the load state as monitoring data.
During the return waiting period WT and returns to the transmission unit 3 for transmission.
The unit 3 displays the load status based on this monitoring data.
The interface device 6 receives the control data for
The transmission signal Vs is transmitted. interface
The device 6 receives the control data received by the signal transmitting / receiving circuit 10.
Is analyzed by the central control unit 15, and based on the analyzed result
Control command to the TCP / IP communication processing unit 12
I associated as a text message through the shea 11
Information communication network N to PC 8 with P address
Send through T. On PC 8, solve this text message
The operation switch S above.₁₁Monitor 9 corresponding to the button
The picture of the upper display lamp La or Lb is changed to the picture in the lit state,
Operation switch S ₁₁Shows the state of lighting load 2 corresponding to
You Similarly, the operation switch S₁₂Click the button of… to operate
If so, the operation switch S is performed in the same manner as described above.₁₂Corresponding to ...
Lighting load provided on the remote monitoring and control device F side with
2 can be turned on or off, and its load state
The state of the display lamp La or Lb can be known.

In this way, since the load operation on the remote monitoring control device F side can be performed in the personal computer 8, it is not necessary for the personal computer operator to stand up to operate the operating switches provided on the wall one by one, and like the optical wireless system. There is no need to worry about installing an optical receiver or losing the optical transmitter. If the load control program of the personal computer 8 is provided with a function of increasing the number of buttons of the operation switch S ₁₁ ..., there is no need to perform construction work like the operation switch provided on the wall, and the operation switch can be operated by software. S ₁₁ ... expansion of can be easily performed. When entering a name corresponding to each operation switch S ₁₁ origin button drawn on the monitor 9 screen, the personal computer 8
Use the kanji conversion function of. Therefore, the name can be entered easily and neatly.

By the way, the address setting of the interface device 6 for determining which lighting load 2 of which control terminal 4 on the side of the remote monitoring and control device F is associated can also be set on the personal computer 8 side. When it is used for document creation work, word processing software etc. is operated, and the worker has an illumination load 2 in the area where he / she exists.
You rarely know what the address is to control. That is, it is necessary that the user of the personal computer 8 can easily set the address without knowing the address.

Therefore, in the present embodiment, the load control program on the personal computer 8 has a function called an address setting mode. That is, while the address setting mode is set, the worker selects the button of the operation switch S ₁₁ ... Displayed on the screen of the monitor 9 of the personal computer 8 and the remote monitoring provided in the area where the worker's seat is located. Operation switch S ₁ attached to the monitoring terminal 1 of the controller F ₁
For example, when S ₁ is turned on and off, the personal computer 8 sends the address data sent to the transmission unit 3 to the transmission signal on the signal line 3 in the interrupt processing performed by the monitoring terminal 1 with the transmission unit 3. The interface device 6 receiving Vs is sent through the information communication network NT to count the number of operations of the operation switch and detect the address.

Next, when the operator completes the address setting mode, the personal computer 8 judges whether the same address data has been sent twice during the address mode setting, and when the same address data has been sent twice, that is, the monitoring terminal. when the operation switch S ₁ ... operation of the vessel 1 had twice, sets the address and the target load number monitoring terminal unit 1 operated switch on the PC 8 selected above, for example with respect to S ₁₁ To do.
Further, when the other operation switch of the monitoring terminal 1 is operated twice in the address setting mode, a message prompting the user to enter the address setting mode again is displayed on the monitor 9 screen of the personal computer 8 and the setting is performed again. Ask the worker to redo the process.

In this way, the address of the operation switch S ₁₁ on the personal computer 8 on the remote monitoring control device F is set corresponding to the address of the operation switch S ₁ on the monitoring terminal 1 provided on the wall surface. Can be done. FIG. 6 shows a flowchart of the above-mentioned address setting mode. When a specific program is executed on the personal computer 8, command data for automatically operating the lighting load 2 may be created and sent to the interface device 6. For example, when the minutes are created in a meeting room or the like, when the program for creating the minutes is executed, the lighting load 2 in the meeting room can be automatically turned off. By doing so, it is not necessary to bother to execute a program for lighting control, and the minutes creator can automatically control the lighting load 2 by performing normal work.

In order to prevent forgetting to turn off the lighting load 2 in the area where one's own seat is from a distant place, when it is desired to turn off the lighting load 2, a lighting control program operated by electronic mail on the personal computer 8 is used. It is also possible. That is, as shown in FIG. 7, for a personal computer 8 which is in the area of one's own seat and in which an electronic mail-compatible lighting control program is installed and executed, the information is present in another area and uses Ethernet. When predetermined command data is sent by e-mail from the personal computer 8'connected to the communication network NT, the personal computer 8 analyzes the command and operates the operation switches displayed on the monitor 9 screen described above. As in the case of performing it, the lighting load 2 connected to the corresponding control terminal 4 of the remote monitoring control device F can be turned off. Of course, you can also email the command to turn it on.

Further, the personal computer 8 connected to the information communication network NT can make settings for the pattern control of the lighting load 2, check the setting contents for the pattern control, and perform other control of the individual load lighting 2. If the personal computer 8 is provided with a program that enables it, the whole system will be chaotically operated if any of the personal computers 8 and 8'on the information communication network NT can be set and operated. For example, even though the pattern control settings that can be set (provisionally set) are set on the personal computer 8 ′ in FIG. 8, the setting contents are rewritten on the other personal computer 8 and the contents set on the personal computer 8 become invalid. The problem arises that There is also the problem that even if an abnormality occurs in the system, it becomes difficult to find it due to disorder. It is also predicted that the operators of other personal computers will make mistaken operations and will interfere with lighting control operations in other areas.

In order to prevent these, in the present embodiment, whether the interface device 6 accepts command data corresponding to the operation of the operation switches S ₁₁ ... Or the setting operation of the pattern control sent from the personal computers 8, 8 '. To be able to set a password to judge whether or not
This prevents operations that you do not want to change from being performed on other computers.

That is, in the case of normal control, operation, and setting commands, the command sent from any personal computer 8 can be accepted by the interface device 6, but the command data sandwiched by the password setting commands is sent. If the password is received, the password is sent to the RAM 1 for example.
8 and if there is no command data sandwiched between matching password setting commands, the command
It does not accept data. For example, when the pattern control setting is set by the command with password as described above, a password is required to change or delete the setting contents, and it is possible to prevent inadvertent change or deletion.

In the present embodiment, the command with the password cancel command is sent to the interface device 6 to cancel the command with the password, and the command is accepted by the interface device 6 even without the password thereafter. Is able to. In the present embodiment, the interface device 6 is provided with the general-purpose communication processing units such as the RS485 processing unit 14 and the RS232C processing unit 15. Therefore, the communication processing unit of the panel computer is connected to these communication processing units and the Lighting load 2 on the remote monitoring and control device F side
It is also possible to send a command for on / off operation of.

Further, in the above-described embodiment, the remote monitoring control device for turning on / off the lighting load 2 is used, but a remote monitoring control device for turning on / off the ventilation fan, the air conditioner or the like may be used. (Embodiment 2) By the way, in a remote monitoring control system, it is assumed that a clock in the personal computer 8 may be applied to perform a schedule operation. Therefore, usually the personal computer 8 often adjusts the time by a time adjustment program, but the schedule function such as lighting control needs to adjust the time with another system installed in the building, such as security or broadcasting equipment. Usually, in order to set the time, a contact signal is usually received from the master clock, and the personal computer 8 does not have such a function. Therefore, in this embodiment, as shown in FIG. 9, the interface device 6 is provided with contact input terminals T ₁ and T ₂ for connecting the contact TS for time adjustment of the master clock installed in the building. That is, in FIG. 2, the contact input terminal T ₁ to the central control unit 16 as shown in dashed box, the T ₂ is provided, said contact input terminals T _1, for time setting of the master clock that is connected to a T ₂ contact T
When S is turned on, the central processing unit 16 of the interface device 6 creates a time adjustment command and sends it to the personal computer 8 through the information communication network NT.

The personal computer 8 receives the time adjustment command as a contact signal of the master clock and adjusts the time. The rest of the configuration operation of the present embodiment is the same as that of the first embodiment, and the description thereof is omitted here. (Third Embodiment) In the first and second embodiments, the remote monitoring control device F has only one system, but in the present embodiment, the remote monitoring control device F has a plurality of systems (two systems in the illustrated example) as shown in FIG. System) and information communication network NT
A personal computer 8 connected to the information communication network NT through the interface device 6 ...
Thus, it is possible to control the lighting loads 2 of the plurality of remote monitoring control devices F in an interlocking manner.

Of course, if the number of interface devices 6 is increased, many remote monitoring and control devices F can be connected to the information communication network NT, and the size of the corresponding system can be flexibly adjusted.

[0046]

According to the invention of claim 1, the transmission unit, the monitoring terminal equipped with the operation switch, and the control terminal for controlling the load are connected to the transmission unit via at least a two-wire signal line. By connecting and transmitting the transmission signal containing address data for calling each terminal to the signal line by time division multiplexing, each terminal is individually accessed and the return standby set in synchronization with the transmission signal is established. When the monitoring data based on the monitoring input sent from the monitoring terminal during the period is received, the control data is created based on the monitoring data, and the control terminal corresponding to the monitoring terminal that sent the monitoring data is sent to the controlling terminal. A remote monitoring control device that transmits control data by the transmission signal and generates an output that controls the operation of the corresponding load based on the received control data in the control terminal, Is connected to a signal line of the transmission path for the network of the information communication network and remote monitoring and control device performs exchange of data by the transmission signal and return waiting period between the transmission unit of the remote monitoring control device,
Command data is exchanged with a computer connected to the information communication network by using a predetermined protocol, and remote monitoring control device for monitoring data for load control based on the command data from the information communication network side. From the interface device equipped with a conversion function that returns the control data sent from the transmission unit of the remote monitoring and control device as a transmission signal to the command data to the computer connected to the information communication network. Therefore, the load on the remote monitoring and control device side can be controlled from the computer connected to the information communication network, and many personal computers connected to the network, such as one desk, are installed, and the lighting load in the office is reduced. Wall switches for operating loads such as It is possible to reduce the load on each remote monitoring control device by the computer on the information communication network by using the corresponding interface device even if there are multiple remote monitoring control devices. Can be controlled and the number of devices can be flexibly dealt with. Further, since the command data is sent to the interface device side through the information communication network, it is possible to monitor and control the load at a remote place like a branch office. Moreover, information and communication networks
Computer connected to the network
Equipped with a program, virtual while setting the address setting mode
Selection of the operation switches presented in the
Operation switch attached to the monitoring terminal of the monitoring controller
When is operated, the interface device
The operation switch sent through the information communication network.
Address data of the monitoring terminal of the switch
The operation switch is operated while setting
If there is a fixed number of times, the address of the terminal for monitoring the operation switch is addressed.
Set as the address of the operation switch selected above.
Virtual operation presented on the computer as
Controls the switch address settings to the computer operator.
It can be done easily without any specialized knowledge.
effective.

The invention of claim 2 is characterized in that, in the invention of claim 1, the information communication network comprises Ethernet, and an address for identifying on the information communication network is set in the interface device. Since Ethernet is used, there is an effect that the technology used for Ethernet can be used for controlling the load on the remote monitoring control device side.

According to a third aspect of the present invention, in the first or second aspect of the present invention, since the shape and size of the apparatus main body of the interface device are set by the distribution board agreement size, the distribution board is the same as a general breaker. There is an effect that it can be easily attached to. According to the invention of claim 4, in the invention of claim 1 or 2, the apparatus main body of the interface device is a rack type in which the shape and size of the device main body are defined by JIS standard.
There is an effect that it can be mounted on a rack defined by the S standard.

According to a fifth aspect of the present invention, in any one of the first to fourth aspects of the present invention, the computer connected to the information communication network is a virtual computer having operation switches provided in the monitoring terminal of the remote monitoring control device. The above-described program is provided, the program is executed by multitasking, and when there is an operation by the operation switch that is virtually presented at the time of execution, the interface device corresponds to the operation to the transmission unit side of the remote monitoring control device. Since the command data for returning the monitoring data is sent to the interface device via the information communication network, it is possible to turn on the load while performing work such as office work with a computer.
The operation can be turned off, and the number of operation switches to be virtually presented can be easily increased or decreased on a program. Therefore, there is almost no cost for increasing or decreasing the operation switches. It is also possible to enter a name indicating such as easily and neatly by using the word processor software etc. installed in the computer, and the effect that the operation switch virtually presented is easy to operate. is there.

[0050]

The invention of claim 6 is the first to fifth aspects of the invention.
In any one of the inventions described above, the computer connected to the information communication network, when a predetermined application program is executed, causes the interface device to return monitoring data for load control to the transmission unit side of the remote monitoring control device. Command data for sending to the interface device through the information communication network, it is possible to automatically create a lighting scene suitable for work when a predetermined program is started to perform work on a computer. There is.

The invention of claim 7 is from claim 1 to claim 6.
In any one of the inventions described above, when the computer connected to the information communication network receives predetermined command data from another computer by electronic mail, the interface device loads the transmission unit side of the remote monitoring control device. Command data to be sent back as monitoring data for control is sent to the interface device through the information communication network, so if you are away from the computer that has the load control program, connect to the information communication network. There is an effect that the load on the remote monitoring and control device side can be controlled only by sending an e-mail from another computer to a computer that has a load control program.

The invention of claim 8 is from claim 1 to claim 7.
In any one of the inventions described above, the interface device includes a general-purpose communication processing unit, and based on command data sent from an external computer through the communication processing unit, a load is applied from the interface device to the transmission unit side of the remote monitoring control device. Since the monitoring data for control is returned, there is an effect that a computer having a general-purpose communication processing unit can control the load on the remote monitoring control device side, although it does not have means for connecting to the information communication network.

The invention of claim 9 is the invention of claims 1 to 8.
In any one of the inventions described above, since the interface device accepts the command data sent through the information communication network when the password sent together with the command data and the password registered in advance are matched, It is possible to prevent the contents set using one computer from being accidentally changed on the other computer side,
The effect is that the settings can be protected.

The invention of claim 10 is any one of claims 1 to
In the invention described in any one of 9 above, a time adjustment setting contact is connected to the interface device, and when the time adjustment setting contact is turned on, the time adjustment command is sent to the computer connected to the information communication network.
The time adjustment of the computer clock function required for schedule control etc. is automatically performed by the time adjustment command sent from the interface device at the same time when the contact for setting the time adjustment of the master clock installed in the building is turned on. The effect is that it can be done.

[Brief description of drawings]

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

FIG. 2 is a circuit configuration diagram of an interface device used in the above.

FIG. 3A is a reduced perspective view of an example of an interface device used in the above. (B) is a reduced back view of an example of the interface device used in the above.

FIG. 4 is a perspective view of another example of the interface device used in the above.

FIG. 5 is an example view of a monitor screen of a personal computer connected to the above information communication network.

FIG. 6 is a flowchart for explaining the operation in the address setting mode of the above.

FIG. 7 is an explanatory diagram of a control operation using an electronic mail of the same.

FIG. 8 is an explanatory diagram of a case where the password of the same as above is used.

FIG. 9 is a system configuration diagram of a second embodiment of the present invention.

FIG. 10 is a system configuration diagram of a third embodiment of the present invention.

FIG. 11 is a system diagram of a remote monitoring control device.

FIG. 12 is an explanatory diagram of a transmission signal of the remote monitoring control device.

[Explanation of symbols]

1 Monitoring terminal 2 Lighting load 3 transmission units 4 Control terminal 5 signal lines 6 Interface device 7 transmission lines 8 PC 9 monitors 21 Hub 22 routers F Remote monitoring controller NT Information and Communication Network

Continuation of front page (56) Reference JP-A-1-140894 (JP, A) JP-A-8-237762 (JP, A) JP-A-8-123518 (JP, A) JP-A-4-6994 (JP , A) JP-A-8-124051 (JP, A) JP-A-8-163269 (JP, A) JP-A-58-157240 (JP, A) JP-A-8-139821 (JP, A) JP-A-8-139821 (JP, A) 6-121376 (JP, A) (58) Fields investigated (Int.Cl. ⁷ , DB name) H04Q 9/00

Claims (10)

(57) [Claims] 1. A transmission unit, a monitoring terminal device having an operation switch, and a control terminal device for controlling a load are connected to the transmission unit via at least a two-wire type signal line, and each of the transmission units is connected. By sending a transmission signal containing address data for calling the terminal device to the signal line by time division multiplexing, each terminal device can be accessed individually, and from the monitoring terminal device during the return waiting period set in synchronization with the transmission signal. When the monitoring data based on the transmitted monitoring input is received, the control data is created based on the monitoring data, and the control data is transmitted to the control terminal device corresponding to the monitoring terminal device that transmitted the monitoring data by the transmission signal. A general-purpose information communication network and a remote monitoring control device that transmits and outputs an output for controlling the operation of the corresponding load based on the received control data in the control terminal device. A computer connected to the information communication network, which is connected to the network transmission line and the signal line of the remote monitoring and control device, and exchanges data with the transmission unit of the remote monitoring and control device according to the transmission signal and the return standby period. Command data is transmitted and received between and by using a predetermined protocol, and the monitoring data for load control is returned to the transmission unit of the remote monitoring control device based on the command data from the information communication network side, From an interface device equipped with a conversion function that converts the control data sent by a transmission signal from the transmission unit of the remote monitoring control device into command data for a computer connected to the information communication network.
In the remote monitoring and control system consisting of, in the computer connected to the information communication network,
Equipped with a program for address setting mode, address setting
Select the operation switch that was virtually presented while setting the mode.
Optional and attached to the monitoring terminal of the remote monitoring control device
When the operation switch provided is operated, the
Interface device through the information and communication network.
The address data of the monitoring terminal of the relevant operation switch
Data and load it while the address setting mode is being set.
If the operation switch is operated a predetermined number of times, the operation switch
Set the address of the monitoring terminal to the operation switch selected above.
A remote monitoring and control system that is set as a local address . 2. The remote monitoring and controlling system according to claim 1, wherein the information communication network comprises Ethernet, and an address for identifying on the information communication network is set in the interface device. 3. The remote monitoring control system according to claim 1, wherein the shape and size of the main body of the interface device are set according to the contract size of the distribution board. 4. The remote monitoring control system according to claim 1 or 2, wherein the interface unit is of a rack type whose shape is defined by the JIS standard. 5. A computer connected to an information communication network is provided with a program for virtually presenting operating switches provided on a monitoring terminal of a remote monitoring control device on the computer, and the program is executed by multitasking. When there is an operation by the operation switch virtually presented at the time of execution, command data for returning the monitoring data corresponding to the operation from the interface device to the transmission unit side of the remote monitoring control device is transmitted by the information communication network to the interface device. 5. The remote monitoring control system according to claim 1, wherein the remote monitoring control system is transmitted to the remote monitoring control system. 6. A predetermined application program is executed by a computer connected to the information communication network.
Then, the interface is sent to the transmission unit side of the remote monitoring controller.
Interface device returns monitoring data for load control
Information and communication network to send commands and data
6. The remote monitoring control system according to claim 1, wherein the remote monitoring control system is transmitted to the interface device through the . 7. A computer connected to an information communication network sends a predetermined message by e-mail from another computer.
When command data is sent, remote monitoring control device
Load control from the interface device to the transmission unit side of
Command data to be returned as monitoring data for
The remote monitoring control system according to any of claims 1 to 6, wherein the sending to the interface device via the information communication network. 8. A general-purpose communication processing unit for an interface device
And is sent from an external computer through the communication processing unit.
Based on the received command and data,
Control from the interface device to the transmission unit side
The remote monitoring control system according to any one of claims 1 to 7 , wherein monitoring data for control is returned . 9. The interface device is an information communication network.
Receiving command data sent through the work
And the password sent with the command data
9. The remote monitoring control system according to claim 1, wherein the remote monitoring control system is performed when the password matches a password registered in advance . 10. The interface device is provided with a time setting device.
When the fixed contact is connected and the time setting contact is on
Connect the time adjustment command to the information communication network
10. The remote monitoring control system according to claim 1, wherein the remote monitoring control system is transmitted to the computer .