JPH02274094A - Remote supervisory control system - Google Patents

Abstract

PURPOSE:To facilitate wiring by providing a storage part, which holds function data to determine the function of display terminal equipment, and a terminal processing part, which determines the operating method of a display element based on the function data in the storage part, in the display terminal equipment as a load. CONSTITUTION:Display terminal equipment 10 is provided with a transmitting/ receiving part 11, which transmits/receives a transmission signal Vs transmitted through a signal line l, a terminal processing part 12 to execute respective types of processings in the display terminal equipment, a storage part 13, which stores the function data to set the function of the terminal processing part 12, and a signal element 14 consisting of a light emitting diode. The display element 14 operates as the load of the terminal processing part 12. In such a way, the display terminal equipment 10 is provided using the display element 14 as the load of the terminal equipment. Thus many display elements 14 can be coped with only by sending and wiring the signal line, the wiring is simplified.

Description

[Detailed description of the invention] [Industrial application field]

The present invention provides a remote monitoring and control system in which data is transmitted between a central control unit and a plurality of terminal devices connected via a signal line, and power is supplied from the central control unit to the terminal units via the signal line. It is related to.

[Conventional technology]

As shown in FIG. 7, this type of remote monitoring and control system includes a central control device 31, a plurality of monitoring terminals 32 to which unique addresses are set, a control terminal 33, a wireless relay terminal 34, An external interface terminal 35 and a pattern setting terminal 36 are connected via a pair of signal lines IB, and switches 81 to S4 such as a wall switch are connected to the monitoring terminal 32 as monitoring inputs. . Transmission signal V sent from central control device 31 to signal line e3
As shown in FIG. 8(a), S is a start pulse signal ST indicating the start of signal transmission, a mode data signal MD indicating the signal mode, and an address for transmitting 8-bit address data for calling each terminal 32 to 36. Data signal AD, control data signal CD that transmits control data for controlling loads L1 to L, checksum data signal C8, each terminal device 3
This is a bipolar (±24V) time division multiplexed signal consisting of a signal return period WT that sets the return period from signals 2 to 36, and data is transmitted by pulse width modulation. Each terminal device 32~
At 36, the transmission signal Vs received via the signal line 1s
When the address data of and the set address data match, the control data of the transmission signal Vs is taken in, and the monitoring data signal is sent to the current mode signal (signal lines 1!3) in synchronization with the signal return period WT of the transmission signal Vs. The signal is sent back by short-circuiting between the two via a suitable low impedance. The central control device 31 also includes a dummy signal transmitting means that always sends out a dummy transmission signal with the mode data signal MD in a dummy mode, a monitoring terminal 32, a wireless relay terminal 34, an external interface terminal 35, a pattern FIG. 8 (b) returned from any of the setting terminals 36
) When an interrupt signal Vi as shown in ) is received,
Interrupt processing means is provided for detecting the terminal device 32-36 that has generated an interrupt, accessing the terminal device 32-36, and causing the monitored data to be sent back. Central control device 3
1, the monitoring terminal 32 or the wireless relay terminal 34 or the external interface terminal 3 is connected as described above.
5. Corresponding load based on the monitoring data sent back from the pattern setting terminal 36 to the central control device 31, ~L
Create control data to be transmitted to the control terminal 33 that controls , and time-division multiplex transmit the control data to the control terminal 33 via the signal line 1g to control the load and ~L. . The wireless relay terminal 34 includes an optical wireless transmitter Y,
A terminal device that relays data in an optical wireless system I consisting of an optical wireless receiver X and a wireless signal line.The optical wireless receiver The received data is received via the wireless signal line Ns, 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 37, and the pattern setting terminal device 3
6 is a terminal device that transfers pattern control data input from the data input section 38 to the central control device 31. The monitoring terminal 32 and the control terminal 33 installed in the condominium 40 or the relay control panel 41 are set to the dimensions agreed upon for the condominium, and their control outputs are used to control the load control remote control relay ( It can also be turned on with a hand switch.
Three latching relays that can be turned off are controlled. Each terminal device 32 to 36 obtains power by rectifying and stabilizing a transmission signal that is constantly transmitted via the signal line 13. By the way, in the above-mentioned remote monitoring and control system,
In the central control unit 31 the load is ~L. There are cases where it is desired to know the on/off status of the device in one place, and for this purpose, a display board 1 such as a map board or an indicator board is provided. The display panel 1 requires at least as many display elements as the control terminals 33.

[Problem to be solved by the invention]

In the above configuration, as shown in FIG. 9, the display element 14 must be individually wired to the display panel control section 2'.
Although there are techniques such as wiring in a matrix, there is still a problem that the number of wires is large and complicated. The present invention aims to solve the above problems, and by using a display terminal device in which each display element is a load of the terminal device, it is possible to connect any number of display elements by simply sending and wiring signal lines. The aim is to provide a remote monitoring and control system with simplified wiring.

[Means to solve the problem]

In order to achieve the above object, the present invention provides a display terminal which is a terminal to which a display element is connected as a load, and the display terminal has a storage section that holds function data that determines the function of the display terminal. , and a terminal processing section that determines the operating method of the display element based on the functional data in the storage section. Further, the function setting signal including the function data is desirably set so that power can be supplied to the display terminal through a connection to the signal line of the display terminal. Additionally, it is desirable to provide the display terminal with a package of standardized dimensions. Further, it is desirable that the connecting portion of the display terminal to the signal line be a terminal that is detachably connected to the socket. The storage unit stores the operating state of the display element as monitoring data, and the terminal processing unit reads the monitoring data from the storage unit when power supply to the display terminal starts, and changes the operating state of the display element to the state at the time of the previous power supply. It may be possible to restore it.

[Effect]

According to the above configuration, since the display terminal is provided with the display element as the load of the terminal, it is possible to handle a large number of display elements simply by sending and wiring the signal line, and wiring becomes easy. . Furthermore, since power is supplied from the central control unit via the signal line, the signal line can be used both for data transmission and power supply to the display elements, and the number of wiring lines can be extremely reduced. In addition, if the function setting signal including function data is set to be supplied with power to the display terminal through the connection to the signal line in the display terminal, the function setting signal may be sent and received, or power may be supplied to the display terminal. There is no need to separately provide a connection section or a circuit section for this purpose, and the display terminal device can be made smaller. Furthermore, if a standardized package is used for the display terminal, the same panel as before can be used. In addition, if the connection part of the display terminal to the signal line is made into a terminal that can be detachably connected to the socket, it is easy to connect it to the function setting device when setting the function, and to connect it to the signal line during operation. This improves work efficiency. The terminal is configured to store the operating state of the display element as monitoring data in the storage unit, read the monitoring data from the storage unit when power supply to the display terminal device starts, and return the operating state of the display element to the state at the time of the previous power supply. By setting the processing section, it is possible to return to the original state even if the power supply is interrupted due to a disconnection of the signal line or a power outage.

【Example】

The display panel 1 includes a plurality of display terminals 1 as shown in FIG.
It is configured by connecting 0. Each display terminal device 10 is connected by sending and wiring a pair of signal lines l. The signal line 1 is connected to the signal line 1 through the display panel control section 2. connected to,
The transmission signal Vs on the signal line IB is monitored and the operating status of the load is transmitted to the display terminal 10. Here, display terminal 1
0 and the display panel control section 2 corresponds to the relationship between the terminals 832 to 36 and the central control device 31 described in the section of the prior art, and the same transmission signal Vs is transmitted. Here, the display terminal 10 may be connected to the signal line 13. As shown in FIG. 1, the display terminal 10 includes a transmitting/receiving section 11 that transmits and receives a transmission signal Vs transmitted via a signal line, a terminal processing section 12 that performs various processes in the display terminal 10, It includes a storage section 13 that stores function data for setting the functions of the terminal processing section 12, and a display element 14 made of a light emitting diode. The display element 14 operates as a load for the terminal processing section 12. In the transmitting/receiving section 11, the transmission signal Vs is rectified and stabilized to become a DC power supply, and the power is supplied to each part of the display terminal 10. Display terminal 10 is used for functional data.
Also includes address data for setting the address of. The terminal processing unit 12 is composed of a dedicated processor, and includes an E2PRO processor.
Depending on the function determined by the function data stored in the storage section 13 consisting of M, the display element 14 can be turned on continuously or lit with flicker. In the terminal processing section 12, when the address data from the display panel control section 2 is input, it is compared with the address data set in the storage section 13, and if the address data matches -, the address data is transmitted from the display panel control section 2. The load is controlled based on the control data, and the monitoring data is sent back to the display panel control section 2 in synchronization with the signal return period based on the monitoring input input to the display terminal 10. As shown in FIG. 3, this display terminal device 10 is housed in a package 3 similar to a general light emitting diode, and a signal line 1 is connected to a lead wire 4. The package 3 having the shape shown in FIG. 3(a) is attached using a nut 3a. Alternatively, as shown in FIG. 4, the device may be packaged in a panel package 3 provided with a terminal 6 that is detachably connected to a socket 5. On the other hand, as shown in FIG. 5, the function setting device 20 has a transmitting/receiving section 21 that transmits signals including function data to/from the display terminal 10. The functional data is processed by the data processing unit 22. The data processing unit 22 includes a data storage unit 23 that stores data, a keypad (or keyboard) 24 as an input unit, and a display that displays function data input from the keypad 24 and function data transmitted from the display terminal 10. device 25 is connected. Further, the transmitting/receiving section 21 is connected to a socket section 26 into which the terminal 6 of the package 3 shown in FIG. 4 can be attached and detached. That is, as shown in FIG.
The front of the case 27 has a keypad 24 and a display 25.
, the socket part 26 is exposed, and the terminal 6 of the display terminal 10 is detachably connected to the socket part 26. Furthermore, when writing functional data to the display terminal 10 having the package 3 having the shape shown in FIG.
Just connect 0. As described above, when writing function data to the storage section 13 of the display terminal 10, the display terminal 10 is removed from the signal line l, and the function setting device 20 is connected to the signal line l of the terminal 10.
(lead wire 4 or terminal 6). The function setting signal including the function data is a bipolar (±24V) signal, and has a calling signal, a response signal return period, a setting signal for transmitting the function data, and a confirmation signal return period for confirming the function data. . The setting signal includes data specifying the processing mode with the display terminal 10, and if it is the setting mode according to the mode, after writing to the storage unit 13, the function of the storage unit 13 is changed. The data is read out and sent back to the function setting device 20 as a confirmation signal. In addition, the function setting device 20
If the setting signal from the display terminal 10 is the confirmation mode, the display terminal 10 reads the function data from the storage section 13 and sends it back to the function setting device 20 as a confirmation signal. In either the setting mode or the confirmation mode, when the function setting device 20 receives a confirmation signal, the function data is displayed on the display 26 so that the user can confirm it. In the manner described above, the contents stored in the storage section 13 can be set and confirmed by the function setting device 20. Here, the function setting signal from the function setting device 20 is a bipolar signal as described above, and the function setting signal from the function setting device 20 is a bipolar signal as described above.
Since it is input from the connection part to the signal line l at 0, the display terminal device 10 can obtain DC power from the transmitting/receiving part 11 in the same way as when the transmission signal Vs is being transmitted from the display control part 2. Function data can be written in the storage unit 13 while the display terminal 10 is operated by power supply based on the function setting signal. Display terminal 1
0 as a signal line! to transmit the transmission signal V from the display panel control section 2.
s is transmitted, the display terminal device 10 is powered by the transmission signal Vs, and also reads the function data in the storage section 13 to determine the function. Here, the storage unit 13 stores operating states such as on/off of the display element 14, interlocking lighting, flickering lighting, etc. as monitoring data, and when power supply to the display terminal 10 is started, the terminal processing The unit 12 also reads the monitoring data from the storage unit 13 and restores the operating state of the display element 14 to the state at the time of previous power supply. Therefore, even if the operation stops due to a disconnection of the signal line β or a power outage, the original state can be restored after recovery.

【Effect of the invention】

As described above, the present invention provides a display terminal which is a terminal to which a display element is connected as a load, and the display terminal includes a storage section that holds function data that determines the function of the display terminal; The device is equipped with a terminal processing unit that determines the operation method of the display element based on the functional data of the display element, and a display terminal device is provided in which the display element is the load of the terminal device, so signal lines are sent and wired. This has the advantage of being able to accommodate a large number of display elements and simplifying wiring. Furthermore, since power is supplied from the central control unit via the signal line, the signal line can be used both for data transmission and power supply to the display elements, which greatly reduces the number of wiring lines and facilitates construction. In addition, if the function setting signal including function data is set to be supplied with power to the display terminal through the connection to the signal line in the display terminal, the function setting signal may be sent and received, or power may be supplied to the display terminal. There is no need to provide a separate connection or circuit for this purpose. The display terminal can be downsized. Furthermore, if a standardized package is used for the display terminal, the same panel as before can be used. Also, the connection part to the signal line in the display terminal. If it is provided as a terminal that can be detachably connected to a socket, it will be easier to attach and detach when connecting to a setting device when setting a function and to a signal line during operation, improving work efficiency. The terminal is configured to store the operating state of the display element as monitoring data in the storage unit, read the monitoring data from the storage unit when power supply to the display terminal device starts, and return the operating state of the display element to the state at the time of the previous power supply. By setting the processing section, it is possible to return to the original state even if the power supply is interrupted due to a disconnection of the signal line or a power outage.

[Brief explanation of drawings]

Fig. 1 is a block diagram of a display terminal according to an embodiment of the present invention, Fig. 2 is a schematic configuration diagram showing the connection relationship of the above, and Figs. 3 and 4 show various shapes of the display terminal used in the above. 5 is a block diagram of the function setting device used in the above, FIG. 6 is a perspective view of the function setting device used in the same, FIG. 7 is a schematic configuration diagram of the remote monitoring and control system according to the present invention, and FIG. The figure is an operation explanatory diagram showing the format of the transmission signal same as above, No. 9.
The figure is a schematic configuration diagram showing a conventional example. 1... Display panel, 2... Display panel control section, 3... Pa.
cage, 4...lead wire, 5...socket, 6...
・Terminal, 10...Display terminal device, 11...Transmission/reception unit,
12...Terminal processing unit, 13...Storage unit, 14...Display element, 20...Function setting device, 31...Central control unit, 32...Monitoring terminal, 33...Control terminal device,
19...Signal line. Fig. 1 10...Display terminal l] - Transmitting/receiving section 12 - Terminal processing section l 3 J self-memory section 11 - Display 7 Child agent Patent attorney Ishi 1) Chief 7 Fig. 2 Fig. 5 Fig. 3 ( b) Figure 4

Claims (5)

[Claims] (1) Multiple terminal devices each having an address set are connected to the central control device via signal lines, and data is transmitted between the central control device and the terminal devices using transmission signals sent from the central control device. In a remote monitoring and control system in which power is supplied from a central control unit to each terminal via a signal line, the display terminal has a display terminal which is a terminal to which a display element is connected as a load. A remote monitoring and control device comprising: a storage unit that holds functional data that determines the functions of a terminal device; and a terminal processing unit that determines the operating method of the display element based on the functional data in the storage unit. system. (2) The remote monitoring and control system according to claim 1, wherein the function setting signal including the function data is set so that power can be supplied to the display terminal through a connection to a signal line of the display terminal. . (3) The remote monitoring and control system according to claim 2, wherein the display terminal comprises a package with standardized dimensions. (4) The remote monitoring and control system according to claim 2, wherein the connection portion to the signal line in the display terminal device comprises a terminal that is detachably connected to a socket. (5) The storage unit stores the operating state of the display element as monitoring data, and the terminal processing unit reads the monitoring data from the storage unit at the time of starting power supply to the display terminal and records the operating state of the display element from the previous power supply. 2. The remote monitoring and control system according to claim 1, wherein the remote monitoring and control system is returned to its original state.