JPH04132494A - Address setting system of remote monitor control system - Google Patents

Abstract

PURPOSE:To simplify a setting operation and to prevent a setting-mistake by allowing an address setting device to receive a signal including a class data of a terminal equipment from the terminal equipment and setting an address to the terminal equipment when it is judged that the terminal equipment is set by an input device based on a conversion table. CONSTITUTION:The name of an equipment to be set from an input section 11 of an address setting device 10 is entered. On the other hand, a signal including the type data of a terminal equipment 15 outputted through a signal transmission section 19 from a terminal device class storage section 18 of a terminal equipment 15 is fetched by a signal reception section 14. Then a conversion table 12 is used to judge whether or not the terminal equipment 15 is set to the device of the input device name. When the setting is enable, a signal including the address data of the terminal equipment 15 corresponding to the equipment name is sent from a signal transmission section 19 to the terminal equipment 15. A signal reception section 16 of the terminal equipment 15 receives the signal and stores the address data to an address storage section 17. Thus, the setting is simplified and the setting mistake is eliminated.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to an address setting method for a remote monitoring and control system that transmits data between a central control unit and a plurality of terminal devices connected via signal lines. It is related to.

[Conventional technology]

This type of remote monitoring and control system, as shown in Figure 3,
The central control unit 31 and a plurality of monitoring terminals 32, control terminals 33, wireless relay terminals 34, external interface terminals 35, and pattern setting terminals 36 each having a unique address set therein are connected to each other as a pair. It is connected via a signal line 37. A switch 5l-34 such as a wall switch is connected to the monitoring terminal 32 as a monitoring input. As shown in FIG. 4(a), the transmission signal Vs transmitted from the central control device 31 to the signal line 37 includes a start pulse signal ST indicating the start of signal transmission, a mode data signal MD indicating the signal mode, and each terminal device. 8-bit address data signal AD for calling 32-36, control data signal CD for transmitting control data for controlling loads Ll-L4, checksum data signal C8, and return signal for setting the return period from each terminal 32-36. Multipolar (±2
4V) time division multiplexed signal, and data is transmitted by pulse width modulation.

When the address data of the transmission signal V received via the signal line 37 matches the set address data, each of the terminals 32 to 36 takes in the control data of the transmission signal V5, and also takes in the control data of the transmission signal V5. Return standby signal WT
The monitoring data signal is synchronized with the current mote signal (signal line 3
7 through a suitable low impedance, and the signal is sent back. The central control device 31 also includes a dummy signal transmitting means that always sends out a dummy transmission signal with the mote data signal MD in a dummy mode, a monitoring terminal 32, a wireless relay terminal 34, an external interface terminal 35, When an interrupt signal v1 as shown in FIG. 4(b) returned from any of the pattern setting terminals 36 is received, the terminal 32 to 36 that generated the interrupt is detected and the terminal 32
Interrupt processing means for accessing .about.36 and returning monitoring data is provided. In addition, the central control device 31
In this case, the monitoring terminal 32 or the wireless relay terminal 34 or the external interface terminal 3 is connected as described above.
5. Corresponding load Ll-L based on the monitoring data sent back from the pattern setting terminal 36 to the central control device 31
The control data to be transmitted to the control terminal 33 that controls the load LL is created, and the control data is time-division multiplexed and transmitted to the control terminal 33 via the signal line 37.
-L4 is controlled. Further, when the state of the loads Ll-L4 of the control terminal 33 changes, the control terminal 33 returns monitoring data of the states of the loads Ll-L4 to the central control unit 31 via the signal line 37, and the central control Based on the monitoring data, the device 31 time-division multiplex transmits control data to the corresponding monitoring terminal 32 via the signal line 37, and transmits the control data to the corresponding monitoring terminal 32 via the signal line 37 to control the LEDs of the wall switches 81 to S4 of the monitoring terminal 32.
The display can be changed.

The wireless relay terminal 34 includes an optical wireless oscillator Y,
It is a terminal device that relays data in an optical wireless system consisting of an optical wireless receiver Data is received via the wireless signal line 38, and this data is transferred to the central control unit 31.

Further, the external interface terminal device 35 is a terminal device that performs data transmission with the external control device 39, and the pattern setting terminal device 36 transmits pattern control data input from the data input section 40 to the central control device 31. It is a terminal device that transfers data to In addition, the distribution board 41 or the relay control board 41
The control terminal 33 disposed inside a is set to the dimensions agreed upon by the distribution board, and is a latching relay whose control output can be used to turn on and off a remote control relay for load control. ) 42 is controlled.

Furthermore, according to Japanese Patent Application Laid-Open No. 1-138892, a terminal device for a remote monitoring and control system is provided with an internal non-volatile memory, address data and function data are stored in the memory, and a separate device is provided. A technique has been proposed in which data is written into the memory by receiving a wireless signal from a setting device. When this technique is used to set the address of a terminal device, address data to be set is inputted from the input section 22 of the address setting device 20, as shown in FIG. Then, a signal including the address data is transmitted from the signal transmitter 21 to the signal receiver 27 of the terminal device 25. When the terminal device 25 receives the signal, it stores the address data included in the signal in the address storage section 26.

[Invention or problem to be solved]

In the conventional example described above, when setting the address of a terminal, it was necessary to use a correspondence table to match the terminal's address from the device name of the terminal or the device being controlled, and then set that address. . In some cases, the device number of the terminal device or the device to be controlled is written in the design drawing, and the device name is confirmed from the device number, and the address of the terminal device is matched from the device name using a correspondence table. Ta. Therefore, the address setting work is troublesome, and address setting errors often occur due to errors in confirming address data.

Furthermore, when controlling the load with a terminal device, there are terminal devices that should not be used due to insufficient capacity of the terminal device or different purpose of use depending on the load. For example, if a 3A rated relay/terminal is used to open/close an outlet circuit, the current rating will be exceeded, so it cannot be used, and a 2OA relay/terminal must be used. Either phase control dimming terminals exist for dimming incandescent lamps, or these dimming terminals cannot be used to dim fluorescent lamps. In this way, if you use an unusable terminal device, the terminal device may be damaged or
There was a problem that it could damage the load side or, in the worst case, cause a fire.

The present invention has been made in view of the above points, and its purpose is to simplify the setting operation and eliminate setting errors when setting an address on a terminal device.
It is an object of the present invention to provide a remote monitoring and control system with no error in address setting of a terminal device.

[Means to solve the problem]

The present invention connects a plurality of terminal devices each having an address uniquely set to a central control device via a pair of signal lines, and communicates between the central control device and each terminal device by transmission signals sent from the central control device. Data is time-division multiplexed between
A remote monitoring and control system in which the transmission signal includes address data for accessing each terminal, control data for controlling the load connected to the terminal, and a return standby signal for setting the data return period from the terminal. An address setting method for a terminal device according to the present invention, which includes an address storage section for storing address data for transmission, a terminal device type storage section for storing the type of the terminal device, and address data written in the address storage section. A terminal device having a signal receiving section that receives a signal, a signal transmitting section that transmits a signal including the terminal device type data stored in the terminal device type storage section, and a terminal device that transmits the terminal device type data from the terminal device. a signal receiving section that receives a signal containing address data, a signal transmitting section that transmits a signal containing address data to the terminal device, an input section that inputs a device name to be set to the terminal device, and an input section that inputs from the input section. an address setting device that has a conversion table that converts the device name into address data and searches whether the terminal device to be set is a settable type of terminal device using the terminal device type data; The device is characterized in that the address of the terminal device can be set by inputting the device name into the address setting device.

[Effect]

Address setting errors in the remote monitoring and control system of the present invention are caused by
When setting an address on a terminal device, enter the device name of the device to be set from the input section of the address setting device, and enter the device type that is output from the terminal device type storage section of the terminal device via the signal transmission section. A signal containing data is received by a signal receiving unit, and a conversion table is used to determine whether or not it can be set for the terminal device or the device with the input device name, and if it is settable, transmits a signal including address data of the terminal device corresponding to the device name from the signal transmitter to the terminal device. In the terminal device, a signal including address data is received by a signal receiving section, and the address data is stored in an address storage section.

〔Example〕

Hereinafter, one embodiment of the present invention will be described based on the drawings. 1st
The figure is a block diagram showing one embodiment of the present invention.
is an address setter, which includes an input section 11 and a conversion table 1.
2, it has a signal transmitting section 13 and a signal receiving section 14. The input section 11 is for inputting the device name of the device to be set. As shown in FIG. 2, the conversion table 12 converts the device name entered manually from the input section I into address data, and also converts the device name entered into address data from the terminal device to which the address is to be set.
This is a table for checking whether or not the type of terminal device can control the device with the input device name. The signal transmitter 13 transmits a signal containing address data to the terminal device. The signal receiving section 14 receives signals transmitted from a terminal device.

Reference numeral 15 denotes a terminal device for which an address is to be set, which includes a signal receiving section I6, an address storage section 17, and a terminal device type storage section 1.
8 and a signal transmitter 19.

The signal receiving section 16 receives a signal containing address data transmitted from the address setting device IO.

The address storage unit I7 is for storing address data included in the signal received by the signal receiving unit I6,
A non-volatile memory is used because it is necessary to retain address data even if power is no longer supplied to the terminal device 15.

The terminal device type storage unit 18 stores the terminal device type indicating the type of terminal device. This terminal device type indicates the type of 3A relay-one terminal, 2OA relay-one terminal, dimming control terminal, etc., and is set in advance at the time of manufacturing the terminal. The signal transmitting section 19 is for transmitting terminal device type data from the terminal device type storage section 18 to the address setting device 10.

In addition, it is convenient to print out the contents of the conversion table shown in FIG. 2 so that you can see at a glance whether a device with the device name ``can'' be installed on a terminal device such as ``.''.

Next, the operation of setting an address to a terminal device according to this embodiment will be explained. First, select the device you want to set, for example Jump Rear, and input the device name "Jump Rear" from the input section 11 of the address setting device 1°. The address setting device IO receives terminal device type data from the terminal device type storage unit I8 of the terminal device 15 for which an address is to be set via the signal transmitting unit 19, and uses the conversion table 12 to Check whether the input device name "Jump Rear" can control the load. Now, assuming that the terminal device 15 or the dimming control terminal device is used, the conversion table shown in Fig. 2 shows that the device name [Jump rear j load can be controlled, and the conversion table also changes the device name “Jump Address data “1” corresponding to “Rear” is searched, and a signal including the address data “1” is transmitted from the signal transmitter 13 to the terminal device 15. If the terminal device 15 cannot control the load of the device name, an error display or the like may be displayed. The terminal device 15 sends the signal containing the address data "1" to the signal receiving section 16.
and stores the address data NJ in the address storage section 17. In this way, the address of the terminal device 15 or "
1".

Therefore, according to this embodiment, when a device name is input from the input section 11 of the address setting device 10, the address of the terminal device 15 is automatically set. Moreover, since the terminal device type data is taken in and the conversion table is used to identify whether or not the terminal device 15 to be set is a terminal device that can control the device, mistakes in terminal device assignment are eliminated.

〔Effect of the invention〕

As described above, according to the address setting method of the remote monitoring and control system of the present invention, when setting an address to a terminal device, the device name of the device to be set is inputted from the input section of the address setting device, and the terminal device The signal receiving section takes in a signal containing the terminal device type data output from the terminal device type storage section through the signal transmitting section, and uses the conversion table to convert the signal to the terminal device or the device with the input device name. It is determined whether the device name is settable or not, and if the device name is settable, a signal including address data of the terminal device corresponding to the device name is transmitted from the signal transmitter to the terminal device. In the terminal device, a signal containing address data is received by the signal receiving section, and the address data is stored in the address storage section, so when setting an address in the terminal device, the setting operation is simplified and setting errors are eliminated. At the same time, we were able to provide an address setting method for a remote monitoring and control system that eliminates terminal assignment errors.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing an embodiment of the present invention, FIG. 2 is a diagram showing a conversion table according to the above, FIG. 3 is a block diagram showing a remote monitoring and control system according to the present invention, FIG. 5 is a format diagram showing a transmission signal according to the above, and FIG. 5 is a block diagram showing a conventional example. 10-Address setter ll-Human power section 12-Conversion table 13-Signal transmitting section 14-Signal receiving section
15 - Terminal device signal receiving section Terminal device type storage section 17 -- Address storage section 19 - Signal transmitting section

Claims (1)

[Claims] (1) Multiple terminal devices, each with a unique address, are connected to the central control device via a pair of signal lines, and transmission signals sent from the central control device are used to connect the central control device and each terminal device. Data is time-division multiplexed and transmitted, and the transmission signals include address data for accessing each terminal, control data for controlling the load connected to the terminal, and a return standby signal for setting the data return period from the terminal. An address setting method for a terminal device in a remote monitoring and control system including: an address storage section for storing address data for transmission; a terminal device type storage section for storing the type of the terminal device; and the address storage section for storing address data for transmission. a terminal device comprising: a signal receiving section that receives a signal containing address data written in the terminal device; and a signal transmitting section that transmits a signal containing the terminal device type data stored in the terminal device type storage section; Input a signal receiving section that receives a signal containing terminal device type data from a terminal device, a signal transmitting section that sends a signal containing address data to the terminal device, and a device name that you want to set for the terminal device. Converts the device name input from the input section into address data, and searches using the terminal device type data to determine whether the terminal device to be set is of a type that can be set. 1. An address setting method for a remote monitoring and control system, characterized in that the address setting device is provided with an address setting device having a conversion table, and an address of a terminal device is set by inputting a device name into the address setting device.