JP4956492B2 - Remote monitoring and control system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce working hours needed for setting related data, such as pattern control or group control. <P>SOLUTION: A central processor 20 of a setting terminal 5 requests a transmission controller 1 to report only an unused pattern number or a group number when the related data are not downloaded to a RAM 22. In the transmission controller 1, in response to the request, only the unused pattern number and the group number are reported to the setting terminal 5. Therefore, in comparison with the case that all the related data are downloaded, information about the unused pattern number or the group number is acquired by the central processor 20 in a very short time and consequently, working hours needed for setting pattern setting or group setting is largely reduced. <P>COPYRIGHT: (C)2010,JPO&amp;INPIT

Description

  The present invention relates to a remote monitoring control system for remotely controlling and monitoring the operation of a load.

  Conventionally, a remote monitoring control system configured as shown in FIG. 5 has been provided for load control (see, for example, Patent Document 1). In this remote monitoring control system, a plurality of operation terminals 2 and control terminals 3 are branched and connected (multi-drop connection) to a two-wire signal line Ls connected to the transmission control device 1. Each operation terminal 2 and each control terminal 3 are set with unique addresses, and the transmission control apparatus 1 recognizes the operation terminal 2 and the control terminal 3 individually using these addresses. The operation terminal 2 includes a switch S, and a load L is connected to the control terminal 3. The operation terminal 2 is provided with confirmation lamps 2a and 2b made of display elements (light emitting diodes) for confirming the operating state of the load L. The load L is not particularly limited, but an illumination load is often used.

  The transmission control device 1 sends a transmission signal Vs having the format shown in FIG. 6A to the signal line Ls. That is, the synchronization signal SY indicating the start of signal transmission, the mode data MD indicating the mode of the transmission signal Vs, the address data AD for calling the operation terminal 2 and the control terminal 3 separately, the control data CD for controlling the load L, In the case of bipolar (± 24V) consisting of a signal return period WT which is a time slot for receiving checksum data CS for detecting a transmission error and a return signal (monitoring data) from the operation terminal 2 or the control terminal 3 It is a division multiplexed signal, and data is transmitted by pulse width modulation (FIG. 6B). In each operation terminal 2 and each control terminal 3, when the address data AD transmitted by the transmission signal Vs received via the signal line Ls matches the preset address, the control data CD is obtained from the transmission signal Vs. At the same time, the monitoring data is returned as a current mode signal (a signal sent by short-circuiting the signal line Ls through an appropriate low impedance) in the signal return period WT of the transmission signal Vs.

  When data is transmitted from the transmission control device 1 to a desired operation terminal 2 or control terminal 3, the mode data MD is set to the control mode, and the address of the operation terminal 2 or the control terminal 3 is set to the address data AD. If the transmission signal Vs is transmitted and the transmission signal Vs is transmitted to the signal line Ls, the operation terminal 2 or the control terminal 3 matching the address data AD receives the control data CD, and the monitoring data is transmitted in the signal return period WT. Return it. The transmission control device 1 confirms that the control data CD has been transmitted to the desired operation terminal 2 or control terminal 3 based on the relationship between the transmitted control data CD and the monitoring data received during the signal return period WT. The control terminal 3 outputs a load control signal for controlling the load L according to the received control data CD, and the operation terminal 2 outputs a monitoring signal for performing an operation confirmation display of the load L according to the received control data CD. To do.

  On the other hand, the transmission control device 1 always sends a transmission signal Vs in which the mode data MD is a dummy mode at regular time intervals, and when the operation terminal 2 tries to transmit some information to the transmission control device 1. Then, an interrupt signal as shown in FIG. 6C is generated in synchronization with the synchronization signal SY of the transmission signal Vs in the dummy mode. At this time, the operation terminal 2 sets an interrupt flag to prepare for subsequent information exchange with the transmission control device 1. When the transmission control device 1 receives the interrupt signal, the mode data MD is set to the interrupt polling mode and the upper half of the address data AD (the upper 4 bits if the address data AD is 8 bits) is sequentially increased. In the operation terminal 2 that has transmitted the transmission signal and generated the interrupt signal, the upper 4 bits of the address data AD of the transmission signal in the interrupt polling mode match the upper 4 bits of the address set in the operation terminal 2 When this is done, the lower half of the address bits are returned to the transmission control device 1 during the signal return period WT. In this way, the transmission control device 1 searches for the 16 operation terminals 2 that have generated the interrupt signal together, so that the operation terminal 2 can be found in a relatively short time.

  When the transmission control device 1 acquires the address of the operation terminal 2 that has generated the interrupt signal, the mode data MD is set to the monitoring mode, and a transmission signal having the acquired address data AD is sent to the signal line Ls. In response to the transmission signal, the operation terminal 2 returns information to be transmitted in the signal return period WT. Finally, the transmission control device 1 sends a signal instructing an interrupt reset to the operation terminal 2 that has generated the interrupt signal, and cancels the interrupt flag of the operation terminal 2. As described above, information transmission from the operation terminal 2 to the transmission control device 1 is performed by four signal transmissions from the transmission control device 1 to the operation terminal 2 (dummy mode, interrupt polling mode, monitoring mode, allocation mode). Complete). When the transmission control device 1 tries to know the desired operating state of the control terminal 3, it is only necessary to send a transmission signal using the mode data MD as monitoring data.

  The above operations will be briefly summarized. First, when input data by the switch S is generated for the operation terminal 2, monitoring data corresponding to the input data is returned to the transmission control device 1, and the transmission control device 1 transmits the control data CD to the control terminal 3. The control terminal 3 controls the load L by outputting a load control signal. Here, a load monitoring input is given to the control terminal 3, monitoring data corresponding to the load monitoring input is returned to the transmission control device 1, and the returned monitoring data is transmitted to the operation terminal 2. The operation terminal 2 outputs a monitoring signal by this transmission signal. The monitoring output is usually used to turn on / off the confirmation lamp. The operation terminal 2 is provided with a switch S having a maximum of four circuits, and the control terminal 3 is capable of controlling a load L of a maximum of four circuits. The operation terminal 2 and the control terminal 3 each have a switch S and a load. In order to recognize L individually, a 2-bit load number is added. Hereinafter, the addresses of the operation terminal 2 or the control terminal 3 described above are referred to as channels, and the channels and load numbers are collectively referred to as addresses. That is, an individual address is given to each switch S and each load L.

  By the way, in this type of remote monitoring and control system, the correspondence relationship between the addresses of the switch S and the load L is managed by the transmission control device 1, so that a plurality of addresses for the switch S of one circuit in the transmission control device 1 are used. If the addresses of the load L of the circuit are associated with each other, it is possible to collectively control the loads L of a plurality of circuits with the switch S of one circuit. Such collective control includes group control and pattern control. In group control, a plurality of loads are controlled to the same control state, and in pattern control, a plurality of loads are controlled to a preset control state. An address defined for collective control is associated with the switch Sp of the collective control operation terminal 4 that performs group control and pattern control, but the other configurations are the same as those of other operation terminals.

  As described above, in order to perform collective control (pattern control or group control), the transmission control device 1 registers the address of the load L of a plurality of circuits in association with the address of the switch Sp of the collective control operation terminal unit 4. This kind of setting operation is called pattern setting and group setting. In the following, the switch Sp provided in the pattern control operation terminal 4 is referred to as a pattern switch, and the switch provided in the group control operation terminal (not shown) is referred to as a group switch, and is provided in the operation terminal 2. The switch S is called an individual switch.

  The pattern setting and group setting as described above are set by, for example, a dedicated terminal device (setting terminal device) 5. This setting terminal 5 is portable with a key for selecting an address corresponding to each load L, a display for switching the screen according to the selected address, and a storage means for storing the selected load. And is connected to the signal line Ls in a detachable manner, and related data for pattern control and group control set by operating keys is transmitted via the signal line Ls. Are transmitted and set.

  Here, in the above conventional example, four types of control, that is, individual control, pattern control, group control, and dimming control can be selected, and the control terminals 2 and 4 and the control terminal 3 are inherently set. The address includes a code for identifying which terminal 2, 4, 3 is for which control. Further, the address for individual control is 256 addresses (individual address) composed of 64 channels of 0ch to 63ch and the combination of four load numbers (1, 2, 3, 4), and 1 for pattern control. 72 addresses (pattern addresses) consisting of pattern numbers up to 72, 127 addresses (group addresses) consisting of group numbers from 1 to 127 for group control, and 0ch to 15ch for dimming control 16 addresses (dimming addresses) can be set. For example, in individual control, the same individual address is set in the corresponding operation terminal 2 and control terminal 3, and pattern control and group control are performed. Is the same pattern address or group address for the corresponding collective control operation terminal 4 and control terminal 3 Individual control by setting the relationship data, it is possible to pattern control, group control.

By the way, when pattern setting or group setting is additionally performed using the setting terminal 5, it is necessary to know an unset (unused) pattern address or group address other than those already set (used). is there. For this reason, in the conventional example described in Patent Document 1, all related data is downloaded from the transmission control device 1 to the setting terminal 5 in advance and stored in the memory of the setting terminal 5. You can search for unused pattern addresses and group addresses.
JP-A-11-298978

  However, in the conventional example, when all the related data held by the transmission control device 1 has not been downloaded to the setting terminal 5 in advance, as a pre-stage for searching for unused pattern addresses or group addresses, All relevant data must be downloaded from the transmission control device 1. For example, even when it is desired to search only for unused pattern addresses, it is necessary to download all related data including individual addresses and group addresses, and all related data is downloaded from the transmission control device 1. In addition, since it takes several tens of minutes to about one hour, there is a problem that it takes a lot of time for setting work.

  The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a remote monitoring control system capable of shortening the work time required for setting related data such as pattern control and group control. is there.

  In order to achieve the above object, the invention according to claim 1 is provided with an operation terminal having one or more switches and having a unique address set for each switch, and one or more loads connected to each load. Either a control terminal to which a unique address is set, and monitoring data received from the operation terminal when one of the switches is operated by connecting to the signal line connecting the operation terminal and the control terminal. A control device that generates control data for controlling the load of the device and transmits control data to the control terminal connected to the load for which the correspondence relationship with the operated switch is set, and connected to the signal line for transmission A remote monitoring and control system comprising a setting terminal for setting the relation data indicating the correspondence relation to the control device, wherein the relation data is obtained by operating one switch. Therefore, it supports pattern control corresponding to pattern control in which multiple loads are controlled in a preset control state for each load or group control in which multiple loads are all controlled to the same control state by operating one switch The setting terminal includes an operation input receiving unit that receives an operation input, a transmission unit that transmits data to the transmission control device via a signal line, and an operation input receiving unit. A relational data generating means for generating the relational data in response to an operation input received in step (b) and transmitting the generated relational data from the transmission means to the transmission control apparatus; and an unused pattern address not set in the transmission control apparatus as the relational data Or, the operation input for inquiring the group address was accepted by the operation input acceptance means Request data generating means for generating request data for requesting notification of an unused pattern address or group address to the transmission control apparatus and transmitting the request data from the transmission means to the transmission control apparatus. The apparatus transmits address notification data for notifying an unused pattern address or group address that is not set as related data when the request data is received from the setting terminal to the setting terminal. .

  According to the first aspect of the present invention, it is not necessary to download all the related data from the transmission control device to the setting terminal as in the conventional example, and an unused pattern address based on information notified from the transmission control device or The group address can be known immediately, and as a result, the work time required for setting related data such as pattern control and group control can be shortened.

  According to a second aspect of the present invention, in the first aspect of the invention, the addresses set for the switch of the operation terminal and the load of the control terminal are selected and set from a plurality of address groups prepared in advance. The transmission control device stores addresses set in all operation terminals and control terminals connected via signal lines, and the request data generation means of the setting terminal includes When an operation input for inquiring an unused address that is not set in any operation terminal and control terminal in the address group is received by the operation input receiving means, it is not used for the transmission control device. Request data for requesting notification of the address is transmitted, and the request data is transmitted from the transmission means to the transmission control device. The transmission control device receives the request data from the setting terminal. Transmitting the address notification data for notifying the unused addresses is not set to any operation terminal and the control terminal among the address group when Tsu to set terminal unit characterized.

  According to the second aspect of the present invention, the work time can be shortened for the address setting work for the individual control.

  According to the present invention, it is possible to reduce the work time required for setting work of related data such as pattern control and group control.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. However, since the basic configurations of the transmission control device 1, the operation terminals 2, 4, the control terminal 3, and the setting terminal 5 in this embodiment are the same as those of the conventional example, the same reference numerals are given to the common components. Therefore, illustration and description will be omitted as appropriate.

  FIG. 4 shows an external view of the setting terminal 5 in the present embodiment. The setting terminal 5 includes a flat case 11 formed to a size that can be held with one hand, and a display unit 12 made of a liquid crystal display is provided at the upper front of the case 11. An operation unit 13 for accepting operation inputs of various operations is provided at the lower part of the front surface. The upper surface of the case 11 is provided with a window portion 14 that transmits an infrared wireless signal, which will be described later, and a connection terminal (not shown) to the signal line Ls. Specific configurations and functions of the display unit 12 and the operation unit 13 will be described later.

  On the other hand, as shown in FIG. 3, the case 11 of the setting terminal 5 houses a central processing unit 20 mainly composed of a microcomputer (hereinafter abbreviated as a microcomputer), and the central processing unit 20 is stored in a ROM 21. The system program is operated and a RAM 22 (a non-volatile memory such as an EEPROM may be used) 22 as a storage means can be used as a work area to perform various operations described later. The central processing unit 20 is connected to a connection terminal via a signal transmission / reception circuit 23. The signal transmission / reception circuit 23 is connected to the setting terminal 5 and the transmission control device 1 via a signal line Ls of the remote monitoring control system. It is possible to send and receive data between them. When connecting the setting terminal 5 to the signal line Ls, a connection line (not shown) having a connector detachably coupled to a jack-type connection terminal at one end is used, and the other end of the connection line is signaled. It may be electrically connected to the line Ls.

  Further, a liquid crystal display 25 as a display unit 12 is connected to the central processing unit 20 via a liquid crystal driver 24, and a backlight 26 using a light emitting diode as a light source is disposed on the back side of the liquid crystal display 25. Is done. The operation unit 13 is configured by using a plurality of so-called rubber switches that utilize the elasticity of rubber as a return force of a push operation. A wireless signal transmission / reception circuit 27 that projects and receives infrared wireless signals is also connected to the central processing unit 20. A battery is basically used as a power source for the setting terminal 5. However, when connected to the signal line Ls, a power source is obtained by rectifying and stabilizing the transmission signal transmitted through the signal line Ls. Is also possible. The power supply function is realized by the power supply circuit 28. In order to connect a peripheral device such as an external storage device (for example, an IC card) or a printer, a peripheral device connection driver 29a and a data latch 29b for temporarily holding data exchanged with the peripheral device are provided. Is provided.

  Incidentally, as shown in FIG. 1, the display unit 12 has a screen of the liquid crystal display 25 arranged at the center, and the “control type”, “address No.”, “ "ON / OFF", "Timer", "Dimming" are written in order from the left, and "Mode", "Address setting", "P / G setting", "Initial", "Special", "Confirm" are on the left The letters “switch”, “input T / U”, “relay T / U”, “dimming T / U”, and “remaining amount display” are written in order from the left along the lower side. In addition, a marker M is provided in a portion corresponding to each character except for “mode” and “confirm” among characters written along the left side and the lower side in the liquid crystal display 25, and the marker M is displayed in reverse video. (Which means that the display color is different from other parts) indicates which content is selected. The liquid crystal display 25 is a dot matrix type display that can display an arbitrary character or figure.

  By the way, the operation unit 13 is provided with a number of keys K11 to K18, K21 to K24, and K31 to K34 that are pushed. These keys are basically divided into four types. However, the slide switch SW1 for switching on / off of the power source and the push button switch SW2 for switching on / off of the backlight 26 are provided on the side surface of the case 11 (see FIG. 4B). There are four operation modes of the setting device 34: an address setting mode, a pattern / group setting mode, an initial setting mode, and a special mode, and these modes are selected by pressing the keys K21 to K24. Key K21 corresponds to the address setting mode, key K22 corresponds to the pattern / group setting mode, key K23 corresponds to the initial setting mode, and key K24 corresponds to the special mode. That is, the keys K21 to K24 are selectively pressed.

  When the address setting mode is selected by operating the key K21, the address and function data can be set in the data storage unit of each terminal by the infrared wireless signal. When the address setting mode is selected, the marker M corresponding to the characters “address setting” is highlighted. Further, as described in the conventional example, since one terminal device has four load numbers, a setting screen for four addresses in four rows at the top and bottom is displayed on one screen of the liquid crystal display 25. . Also, the setting column has 5 columns on the left and right, and has 4 rows and 5 columns. In order to change the contents of each cell, a desired cell may be displayed in reverse video, and the cursor key K14 is used to display the cell in reverse video.

  The cursor key K14 has four up / down / left / right arrow keys. When the arrow key is pressed, the position of the reverse display moves in the direction of the arrow key. When the address type (the first column) is individual, the address No. (The grid in the second column) is displayed in a form in which the channel number and the load number are combined with a hyphen, and the channel number and the load number are displayed in reverse. That is, when the position of the reverse display is moved by the cursor key K14, the channel number and the load number are displayed in reverse display separately.

  Address type can be selected from group switch, pattern switch, individual switch, dimming switch by pressing keys K21-K24 with the cell in the first column highlighted. it can. When the first column is highlighted, the terminal type can be changed by operating the page key K15. There are two upper and lower page keys K15. When the upper and lower keys are operated, the terminal types are sequentially displayed.

  In a state where the inside of the cell in the second column is highlighted, the numerical value displayed in the cell in the second column can be changed by pressing the page key K15. For example, when the channel number is highlighted, the channel number can be increased / decreased by the up / down page keys K15, and when the load number is highlighted, the load number can be increased / decreased. When the pattern type is pattern (P) or group (G), the address No. In the state where is highlighted, the pattern number (pattern address) and the group number (group address) can be changed by the page key K15. Further, the address No. The address can be erased by pressing the address clear key K12 when the square of the cell is highlighted.

  When the grid in the third row is highlighted, the page key K15 is used to select whether the load is turned on or off, but such operations are effective only for pattern setting and group setting. become. When the cell in the fourth column is highlighted, the page key K15 can be used to specify temporary on and delay off, and the time is also selected. That is, 30 seconds, 1 minute, 5 minutes, 60 minutes, and 120 minutes can be selected when temporarily turned on, and 30 seconds, 1 minute, and 5 minutes can be selected when delayed. Specifically, a combination of operation type and time is sequentially selected by the page key K15, such as temporary on 30 seconds, temporary on 1 minute. When the fifth row of cells is highlighted, the dimming level is selected by the page key K15. This grid is effective when the pattern type is dimming, and if the lighting load associated with the operation unit is turned on by operating the operation unit of the operation terminal set with this setting The lighting load can be turned on at a specified dimming level. The setting contents of one cell can be confirmed using the execution key K16, and the setting contents of one cell can be deleted using the cancel key K17.

  After the address setting for one screen is completed by the operation as described above, the setting terminal 5 is set so that the infrared wireless signal can be exchanged only with the terminal for which the address or function data is set. If the key K13 is pressed by approaching the terminal, a wireless signal can be transmitted to the terminal and the setting contents on the screen can be stored in the memory of the terminal. When setting the contents of another terminal, it is possible to repeat the above operation, but if the forward key K18 is pressed, only the address (channel number) is forwarded (incremented by one). The same setting contents can be displayed on the screen of the liquid crystal display 25.

  By the way, in the address setting mode, if the confirmation key K11 is pressed while the setting terminal 5 is close to the terminal, the setting contents of the memory in the terminal are read and displayed on the screen of the liquid crystal display 25. The Therefore, in the case of an existing remote monitoring control system, the address and function data may be set after confirming the contents of the memory with the confirmation key K11. By such an operation, it is also possible to use already set contents.

  After the address and function data are set in each terminal as described above, pattern setting and group setting are possible. That is, when the pattern setting mode is selected by the key K22, the marker M corresponding to the characters “pattern setting” is displayed in reverse video. In this state, the group setting or the pattern setting can be selected by pressing the key K31 or the key K32. Alternatively, whether the group setting or the pattern setting can be selected even if the page key K15 is operated in a state where the cell in the first row and the first column is highlighted. Furthermore, the group number or pattern number can be designated by operating the page key K15 after confirming whether the group setting or the pattern setting is made by the execution key K16. Detailed setting operations for pattern setting and group setting are the same as those in the conventional example, and thus description thereof is omitted.

  When the key K23 is operated, the initial setting mode for setting various functions of the setting terminal 5 is entered, and the marker M is displayed in reverse video at the position corresponding to the character “initial”. When the initial setting mode is selected, whether or not the buzzer is sounded in response to the operation of the operation unit 13 (a dial tone), the screen contrast of the liquid crystal display 25, the type of the transmission control device 1, and the initial special setting settings Is possible.

  When the special mode is selected by operating the key K24, the marker M is highlighted at the position of the character “special”. In the special mode, the screen shown in FIG. 1A is displayed, and the four modes of the transmission control device (displayed as “transmission unit” in the illustrated example), check, edit, and setting states are operated by operating the page key K15. Each mode is selected by operating the execution key K16 after the selection.

  The transmission unit is a mode for selecting whether to input (read <download>), output (write <upload>), or collation of related data to the transmission control device 1, and operate the execution key K16 after selection by the page key K15. Any state is selected. If the execution key K16 is pressed while “input” is selected, all the related data is transferred. The related data transferred from the transmission control device 1 is stored in the RAM 22 of the setting terminal 5. If the execution key K16 is pressed with “Output” selected, the already set relation data is read from the RAM 22 and transferred to the transmission control device 1. Further, if the execution key K16 is pressed while “verification” is selected, the relational data stored in the RAM 22 and the relational data held by the transmission control device 1 are collated.

  The check is a system status display showing the operating status of the remote monitoring control system, an operation confirmation as to whether the remote monitoring control system actually operates using the set relational data, and an unused address display in the remote monitoring control system The remote monitoring control system has a function of determining whether the address of each terminal is used for pattern setting or group setting (referred to as terminal registration display). Therefore, in order to perform the check, it is necessary to be connected to the signal line Ls via the connection line 17.

  In the system status display, the current on / off status of the load of each load number is displayed for each channel. Unused channels are indicated by “−”. For this display, data relating to on / off of the load managed by the transmission control device 1 may be read into the RAM 22 and the contents of the RAM 22 may be monitored.

  The operation confirmation is a mode for confirming whether or not the address is appropriately set in the control terminal by using the setting terminal 5 instead of the operation terminal, and after selecting the operation confirmation mode, the cursor key If the pattern number or group number to be confirmed is selected and displayed using K14 and page key K15, and the execution key K16 is operated in that state, the pattern number (group number) or address displayed on the screen is displayed. Is collated with the related data of the transmission control device 1.

  When an unused address is selected to be displayed, unused addresses (individual addresses and dimming addresses) are searched by referring to related data downloaded from the transmission control device 1 and stored in the RAM 22 in advance. In addition, unused addresses are displayed side by side in a 3 × 4 cell.

  When the terminal registration display is selected, a screen for inputting the desired load address (channel and load number) is displayed. After selecting the channel and load number with the cursor key K14, the execution key K16 is operated to select it. It is possible to search whether or not the load of the selected address is used in pattern setting or group setting. The search results are displayed in a list of pattern numbers and group numbers using the addresses.

  When editing is selected in the special mode, it is possible to select reverse, copy, delete, and range designation input. These selections may be performed by operating the execution key K16 in a state where a desired item is selected by the page key K15 as in the above-described example. The description of each function is omitted.

  In the setting state mode in the special mode, it is possible to select whether the remote monitoring control system is in a normal state in which load control is performed or in a setting state in which related data is set in the transmission control device 1. The change of the operation state is realized by giving an instruction to the transmission control apparatus 1 using a normal transmission signal.

  In the setting state mode, the setting state of addresses used for each pattern number or group number can also be displayed. That is, the setting contents of each address are displayed on the screen of the liquid crystal display 25 for each pattern number or group number.

  Furthermore, in the setting state mode, as shown in FIG. 1B, the pattern number and the group number are empty, that is, the pattern numbers (1 to 72) and the group numbers (1 to 127) prepared in advance are displayed on the liquid crystal. Eight are displayed on the screen of the display 25. When each number is unused, a circle is displayed below the number, and when the number is used, “-” is displayed. As described above, when the operation input for confirming the empty state of the pattern number or the group number is received by the operation unit 13, if the related data downloaded from the transmission control device 1 is already stored in the RAM 22, the central processing unit 20 searches the relational data stored in the RAM 22 to check the use / unuse of each pattern number and group number, and displays the result on the screen of the liquid crystal display 25. On the other hand, if the related data is not downloaded from the transmission control device 1, the central processing unit 20 generates request data for requesting the transmission control device 1 to notify an unused pattern number or group number, and the request data Is transmitted from the signal transmission / reception circuit 23 to the transmission control device 1 via the signal line Ls.

  When the transmission control device 1 receives the request data from the setting terminal 5, the transmission control device 1 extracts the unused pattern number or group number by referring to the relational data stored in its own memory. A transmission signal including address notification data for notifying the used pattern number and group number is transmitted to the setting terminal 5 via the signal line Ls.

  In the setting terminal 5, the transmission signal transmitted from the transmission control device 1 is received by the signal transmission / reception circuit 23, and address notification data included in the transmission signal is taken into the central processing unit 20. The central processing unit 20 acquires an unused pattern number or group number from the address notification data received from the transmission control apparatus 1, and displays a circle under the unused number as shown in FIG. In this way, the empty state of the pattern number and group number is notified.

  Thus, in the conventional example, when the related data is not downloaded from the transmission control device 1, all the related data is first downloaded from the transmission control device 1 and stored in the RAM 22, and then the related data stored in the RAM 22. Required to download all relevant data from the transmission control device 1 (from several tens of minutes to about 1 hour). As a result, the work time required for the pattern setting and group setting work is increased. On the other hand, in the present embodiment, when the related data is not downloaded to the RAM 22 as described above, the transmission control apparatus 1 is requested to notify only the unused pattern number and group number, and the request is made. In response to this, the transmission control device 1 notifies the setting terminal 5 of only unused pattern numbers and group numbers. Information on the pattern number and group number used can be acquired by the central processing unit 20, and as a result, the work time required for the pattern setting and group setting setting work can be greatly reduced.

  By the way, in the setting state mode, as shown in FIG. 2, an empty circuit state, that is, a prepared individual address (a combination of channels 0 to 63 and load numbers 1 to 4) is displayed on the liquid crystal display 25. Eight are displayed on the screen. When each individual address is not used, a circle is displayed below the individual address, and when the individual address is used, “-” is displayed. As described above, when the operation input for confirming the empty state of the circuit is received by the operation unit 13, if the related data downloaded from the transmission control device 1 is already stored in the RAM 22, the central processing unit 20 The relational data stored in the RAM 22 is searched to check whether each circuit is used or not, and the result is displayed on the screen of the liquid crystal display 25. On the other hand, if the relevant data has not been downloaded from the transmission control device 1, the central processing unit 20 generates request data for requesting the transmission control device 1 to notify an unused circuit (individual address), and the request data Is transmitted from the signal transmission / reception circuit 23 to the transmission control device 1 via the signal line Ls.

  When the transmission control apparatus 1 receives the request data from the setting terminal 5, the transmission control apparatus 1 extracts unused individual addresses by referring to the relational data stored in its own memory, and extracts the extracted individual A transmission signal including address notification data for notifying the address is transmitted to the setting terminal 5 via the signal line Ls.

  In the setting terminal 5, the transmission signal transmitted from the transmission control device 1 is received by the signal transmission / reception circuit 23, and address notification data included in the transmission signal is taken into the central processing unit 20. The central processing unit 20 acquires an unused individual address from the address notification data received from the transmission control device 1, and displays a circle in the circuit by displaying a circle under the unused individual address as shown in FIG. Inform the state.

  Thus, in the present embodiment, not only the pattern number and group number but also the vacant state of the circuit (individual address) can be known in a shorter time than the conventional example, so the work time required for address setting for individual control Can be greatly shortened.

It is operation | movement explanatory drawing of the setting terminal in embodiment of this invention. It is operation | movement explanatory drawing of the setting terminal device same as the above. It is a block diagram of the setting terminal device same as the above. The setting terminal device same as the above is shown, (a) is a front view, (b) is a right side view. It is a figure which shows the structural example of the conventional remote monitoring control system. It is explanatory drawing of the transmission signal in the same as the above.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Transmission control apparatus 2 Operation terminal device 3 Control terminal device 5 Setting terminal device 13 Operation part (operation input reception means)
20 Central processing unit (related data generation means, request data generation means)
23 Signal transmission / reception circuit (transmission means)

Claims (2)

An operation terminal provided with one or more switches and having a unique address set for each switch, a control terminal connected with one or more loads and set with a unique address for each load, and an operation terminal And a switch operated by generating control data for controlling any load based on monitoring data received from the operation terminal when one of the switches is operated by being connected to a signal line branched from the control terminal A transmission control device that transmits control data to a control terminal connected with a load for which a correspondence relationship is set, and a transmission control device that is connected to a signal line and sets the relationship data indicating the correspondence relationship A remote monitoring and control system comprising a setting terminal,
The relation data includes a pattern address corresponding to pattern control in which a plurality of loads are controlled to a preset control state for each load by operation of one switch, or a plurality of loads are all controlled by operation of one switch. Including at least one of group addresses corresponding to group control controlled by the state,
The setting terminal includes an operation input receiving unit that receives an operation input, a transmission unit that transmits data to and from the transmission control device via a signal line, and the related data according to the operation input received by the operation input receiving unit. The relational data generation means for transmitting the generated relational data from the transmission means to the transmission control apparatus, and the operation input for inquiring an unused pattern address or group address not set in the transmission control apparatus as the relational data is operated. Request data generation means for generating request data for requesting notification of an unused pattern address or group address to the transmission control device when received by the input reception means, and transmitting the request data from the transmission means to the transmission control device And
The transmission control device transmits address notification data for notifying an unused pattern address or group address that is not set as related data when the request data is received from the setting terminal to the setting terminal. Remote monitoring and control system. The address set to the switch of the operation terminal and the load of the control terminal is selected and set from a plurality of address groups prepared in advance,
The transmission control device stores all the operation terminals connected via the signal lines and addresses set in the control terminals,
The request data generation means of the setting terminal receives an operation input for inquiring an unused address that is not set in any operation terminal and control terminal in the address group by the operation input reception means. Sometimes, request data for requesting notification of unused addresses to the transmission control device is generated and the request data is transmitted from the transmission means to the transmission control device,
When the transmission control device receives the request data from the setting terminal, address notification data for notifying an unused address that is not set in any operation terminal and control terminal in the address group. The remote monitoring control system according to claim 1, wherein: is transmitted to the setting terminal.

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