JPH10312210A - Distributed monitor control system - Google Patents

Distributed monitor control system

Info

Publication number
JPH10312210A
JPH10312210A JP13580097A JP13580097A JPH10312210A JP H10312210 A JPH10312210 A JP H10312210A JP 13580097 A JP13580097 A JP 13580097A JP 13580097 A JP13580097 A JP 13580097A JP H10312210 A JPH10312210 A JP H10312210A
Authority
JP
Japan
Prior art keywords
control
signal
monitoring
controlled
selection
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
JP13580097A
Other languages
Japanese (ja)
Inventor
Takeshi Watanabe
猛 渡辺
Nobuhiro Saigo
信博 西郷
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Toshiba Corp
Original Assignee
Toshiba Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Toshiba Corp filed Critical Toshiba Corp
Priority to JP13580097A priority Critical patent/JPH10312210A/en
Publication of JPH10312210A publication Critical patent/JPH10312210A/en
Pending legal-status Critical Current

Links

Classifications

    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E60/00Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y04INFORMATION OR COMMUNICATION TECHNOLOGIES HAVING AN IMPACT ON OTHER TECHNOLOGY AREAS
    • Y04SSYSTEMS INTEGRATING TECHNOLOGIES RELATED TO POWER NETWORK OPERATION, COMMUNICATION OR INFORMATION TECHNOLOGIES FOR IMPROVING THE ELECTRICAL POWER GENERATION, TRANSMISSION, DISTRIBUTION, MANAGEMENT OR USAGE, i.e. SMART GRIDS
    • Y04S10/00Systems supporting electrical power generation, transmission or distribution
    • Y04S10/16Electric power substations
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y04INFORMATION OR COMMUNICATION TECHNOLOGIES HAVING AN IMPACT ON OTHER TECHNOLOGY AREAS
    • Y04SSYSTEMS INTEGRATING TECHNOLOGIES RELATED TO POWER NETWORK OPERATION, COMMUNICATION OR INFORMATION TECHNOLOGIES FOR IMPROVING THE ELECTRICAL POWER GENERATION, TRANSMISSION, DISTRIBUTION, MANAGEMENT OR USAGE, i.e. SMART GRIDS
    • Y04S10/00Systems supporting electrical power generation, transmission or distribution
    • Y04S10/30State monitoring, e.g. fault, temperature monitoring, insulator monitoring, corona discharge

Landscapes

  • Testing And Monitoring For Control Systems (AREA)
  • Remote Monitoring And Control Of Power-Distribution Networks (AREA)
  • Control By Computers (AREA)

Abstract

PROBLEM TO BE SOLVED: To provide a distributed monitor control system allowing a remote monitor control master station device and a host device to effectively distribute functions with respect to the flow of selective control signals. SOLUTION: The host device 4 sets a selective control signal part as a downstream transmission signal to transmit to the remote monitor control master station device 1 provided at a controlling place through a network 3. The device 1 recognizes the selective control signal part from the host device 4 and received data and when the device 4 no longer can keep sending a selective signal due to the generation of some abnormality after receiving a selective signal among received data, the selective signal to a device to be controlled at a place to be controlled 2 by changing to a nonselective signal.

Description

【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION

【0001】[0001]

【発明の属する技術分野】本発明は、遠方監視制御親局
装置をネットワークにより結合して被制御所(子局)を
監視制御するようにした分散形監視制御システムに関す
る。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a distributed supervisory control system for monitoring and controlling a controlled station (slave station) by connecting remote supervisory control master stations by a network.

【0002】[0002]

【従来の技術】一般に、変電所設備などにおける監視制
御は遠方監視制御装置を用いて行われており、例えば、
制御所に遠方監視制御親局装置を設け被制御所に子局を
設けて監視制御を行っている。そして、このような監視
制御システムでは、複数台の遠方監視制御親局装置をネ
ットワークで結合し分散して集中監視制御するようにし
ている。この場合、遠方監視制御親局装置と被制御所
(子局)との間は、サイクリック伝送にて各種データを
送受信している。2. Description of the Related Art Generally, monitoring and control in substation facilities and the like are performed using a remote monitoring and control device.
A remote monitoring control master station device is provided at a control station, and a slave station is provided at a controlled station to perform monitoring control. In such a supervisory control system, a plurality of remote supervisory control master stations are connected and dispersed in a network to perform centralized supervisory control. In this case, various data are transmitted and received between the remote monitoring control master station device and the controlled station (slave station) by cyclic transmission.

【0003】また、被制御所(子局)側の制御システム
においては、試験モード設定手段を用いた有効なシステ
ム試験機能を実現するようにしたものもある。これら
は、近年変電所構内ネットワークとして光LANを用い
たいわゆる構内LAN対応の分散形制御システムとして
開発されている。Some control systems on the controlled station (slave station) side implement an effective system test function using test mode setting means. These systems have recently been developed as distributed control systems for so-called local LANs using optical LANs as substation local networks.

【0004】[0004]

【発明が解決しようとする課題】ところが、水力発電所
システムの制御所(親局)側に分散形監視制御システム
を適用したものはない。水力発電所システムにおける制
御所(親局)側に分散形監視制御システムを適用しよう
とした場合には、以下のような問題点がある。すなわ
ち、遠方監視制御親局装置と被制御所(子局)側とが従
来一般的に用いられているサイクリック伝送のままであ
るような場合には、システムの基本機能の選択制御信号
の流れに対して、分散形監視制御装置システムの遠方監
視制御親局装置と通常バックアップ卓として備えられる
監視制御卓装置(上位装置)とがどの様に効果的に機能
を分散させるかが重要になってくる。However, there is no system in which a distributed monitoring and control system is applied to a control station (master station) of a hydroelectric power plant system. When the distributed monitoring and control system is applied to the control station (master station) in the hydroelectric power plant system, there are the following problems. In other words, when the remote monitoring control master station apparatus and the controlled station (slave station) side remain the cyclic transmission generally used in the past, the flow of the selection control signal of the basic function of the system is controlled. On the other hand, it has become important how to effectively distribute the functions of the remote supervisory control master station device of the distributed supervisory control device system and the supervisory control console device (upper device) normally provided as a backup console. come.

【0005】本発明の目的は、選択制御信号の流れに対
して遠方監視制御親局装置と上位装置とが効果的に機能
を分散さることができる分散形監視制御システムを提供
することである。An object of the present invention is to provide a distributed supervisory control system in which the remote supervisory control master station device and the higher-level device can effectively distribute functions with respect to the flow of a selection control signal.

【0006】[0006]

【課題を解決するための手段】請求項1の発明に係わる
分散形監視制御システムは、下り送信信号として選択制
御信号部を設定しネットワークを介して制御所に設けら
れた遠方監視制御親局装置へ送信する上位装置と、上位
装置からの選択制御信号部を受信データとして認識し受
信データのうち選択信号を受信後に上位装置が何等かの
異常発生により選択信号を送り続けることが不可能とな
った場合は被制御所の被制御機器への選択信号を無選択
信号へ変化させ送信する遠方監視制御親局装置とを備え
たものである。According to a first aspect of the present invention, there is provided a distributed monitoring and control system, wherein a selection control signal section is set as a downlink transmission signal, and a remote monitoring and control master station provided at a control station via a network. It is impossible to recognize the selection control signal section from the upper device and the higher device to be transmitted as received data and to continue sending the selection signal due to the occurrence of some abnormality in the higher device after receiving the selection signal from the received data. In this case, a remote monitoring control master station device that changes the selection signal to the controlled device of the controlled place into a non-selection signal and transmits the signal is transmitted.

【0007】請求項1の発明に係わる分散形監視制御シ
ステムでは、上位装置は、下り送信信号として選択制御
信号部を設定しネットワークを介して制御所に設けられ
た遠方監視制御親局装置へ送信する。遠方監視制御装置
親局装置は、上位装置からの選択制御信号部を受信デー
タとして認識し、受信データのうち選択信号を受信後に
上位装置が何等かの異常発生により選択信号を送り続け
ることが不可能となった場合は被制御所の被制御機器へ
の選択信号を無選択信号へ変化させ送信する。[0007] In the distributed monitoring and control system according to the first aspect of the present invention, the higher-level device sets a selection control signal section as a downstream transmission signal and transmits the selection control signal section to the remote monitoring control master station device provided in the control center via the network. I do. The remote monitoring control device master station device recognizes the selection control signal portion from the higher-level device as reception data, and it is impossible for the higher-level device to continue transmitting the selection signal due to occurrence of some abnormality after receiving the selection signal from the reception data. When it becomes possible, the selection signal to the controlled device at the controlled station is changed to a non-selection signal and transmitted.

【0008】請求項2の発明に係わる分散形監視制御シ
ステムは、請求項1の発明において、遠方監視制御親局
装置は、上位装置からの選択制御信号部を受信データと
して認識し、受信データのうち制御信号を受信後に上位
装置が何等かの異常発生により制御信号を送り続けるこ
とが不可能となった場合は、被制御所の被制御機器への
選択信号を無選択信号へ変化させ送信するようにしたも
のである。According to a second aspect of the present invention, there is provided a distributed monitoring and control system according to the first aspect, wherein the remote supervisory control master station device recognizes a selection control signal section from a higher-level device as received data, and receives the received data. If it becomes impossible for the host device to continue sending the control signal due to some abnormality after receiving the control signal, the selection signal to the controlled device of the controlled place is changed to the non-selection signal and transmitted. It is like that.

【0009】請求項2の発明に係わる分散形監視制御シ
ステムでは、請求項1の発明の作用に加え、上位装置か
らの受信データである選択制御信号部のうち制御信号を
受信後に、上位装置が何等かの異常発生により制御信号
を送り続けることが不可能となった場合は、遠方監視制
御親局装置は被制御所の被制御機器への選択信号を無選
択信号へ変化させ送信する。In the distributed monitoring and control system according to the second aspect of the present invention, in addition to the operation of the first aspect, after the higher-level device receives the control signal from the selection control signal portion which is the data received from the higher-level device, When it becomes impossible to continue sending the control signal due to the occurrence of some abnormality, the remote monitoring control master station changes the selection signal to the controlled device of the controlled place into the non-selection signal and transmits it.

【0010】請求項3の発明に係わる分散形監視制御シ
ステムは、請求項1の発明において、他の配電盤からの
制御信号を遠方監視制御装置に入力するためのプロセス
入出力装置を設け、遠方監視制御親局装置は、上位装置
からの選択信号の受信中に配電盤からの制御信号を入力
した場合は、直ちに被制御所の被制御機器への選択信号
を無選択信号へ変化させ、プロセス入出力装置からの制
御信号に対して予め決められた選択制御信号を被制御機
器へ送信するようにしたものである。A distributed monitoring and control system according to a third aspect of the present invention is the distributed monitoring and control system according to the first aspect, further comprising a process input / output device for inputting a control signal from another switchboard to the remote monitoring and control device. When the control master station device receives a control signal from the switchboard while receiving the selection signal from the higher-level device, the control master device immediately changes the selection signal to the controlled device of the controlled station to a non-selection signal, and performs process input / output. A predetermined selection control signal in response to a control signal from the device is transmitted to the controlled device.

【0011】請求項3の発明に係わる分散形監視制御シ
ステムでは、請求項1の発明の作用に加え、上位装置か
らの選択信号の受信中にプロセス入力装置を介して配電
盤からの制御信号を入力した場合は、遠方監視制御親局
装置は、直ちに被制御所の被制御機器への選択信号を無
選択信号へ変化させる。そして、プロセス入出力装置か
らの制御信号に対して予め決められた選択制御信号を被
制御機器へ送信する。In the distributed monitoring and control system according to a third aspect of the present invention, in addition to the operation of the first aspect, a control signal from a switchboard is input via a process input device while a selection signal is being received from a higher-level device. In such a case, the remote monitoring control master station immediately changes the selection signal to the controlled device of the controlled site to the non-selection signal. Then, a predetermined selection control signal in response to a control signal from the process input / output device is transmitted to the controlled device.

【0012】請求項4の発明に係わる分散形監視制御シ
ステムは、請求項3の発明において、遠方監視制御親局
装置は、プロセス入出力装置からの制御信号に対して予
め決められた選択制御信号を被制御機器へ送信中に、上
位装置からの選択信号を受信した場合はプロセス入出力
装置からの制御信号に基づく予め決められた選択制御信
号が終了後に上位装置からの選択信号を有効とし、被制
御機器へ送信するようにしたものである。According to a fourth aspect of the present invention, there is provided a distributed monitoring and control system according to the third aspect, wherein the remote supervisory control master station device selects a predetermined control signal in response to a control signal from the process input / output device. During the transmission to the controlled device, when a selection signal from the higher-level device is received, the selection signal from the higher-level device is validated after a predetermined selection control signal based on the control signal from the process input / output device is completed, and the This is transmitted to the controlled device.

【0013】請求項4の発明に係わる分散形監視制御シ
ステムでは、請求項3の発明の作用に加え、プロセス入
出力装置からの制御信号に対して予め決められた選択制
御信号を被制御機器へ送信中に上位装置からの選択信号
を受信した場合は、遠方監視制御親局装置は、プロセス
入出力装置からの制御信号に基づく予め決められた選択
制御信号が終了後に上位装置からの選択信号を有効とし
被制御機器へ送信する。In the distributed monitoring and control system according to a fourth aspect of the present invention, in addition to the function of the third aspect of the present invention, a predetermined selection control signal in response to a control signal from the process input / output device is transmitted to the controlled device. When receiving a selection signal from the higher-level device during transmission, the remote monitoring control master station device transmits a selection signal from the higher-level device after a predetermined selection control signal based on the control signal from the process input / output device ends. Validate and send to controlled device.

【0014】請求項5の発明に係わる分散形監視制御シ
ステムは、請求項1の発明において、遠方監視制御親局
装置は、上位装置からの選択信号が予め定められた一定
時間以上継続した場合は、被制御所の被制御機器への選
択信号を無選択信号へ変化させ送信するようにしたもの
である。According to a fifth aspect of the present invention, there is provided a distributed monitoring and control system according to the first aspect of the present invention, wherein the remote supervisory control master station device is configured to perform the operation when the selection signal from the higher-level device continues for a predetermined time or more. , A selection signal to a controlled device at a controlled place is changed to a non-selection signal and transmitted.

【0015】請求項5の発明に係わる分散形監視制御シ
ステムでは、請求項1の発明の作用に加え、上位装置か
らの選択信号が予め定められた一定時間以上継続した場
合は、遠方監視制御親局装置は、被制御所の被制御機器
への選択信号を無選択信号へ変化させ送信する。In the distributed monitoring and control system according to the fifth aspect of the present invention, in addition to the operation of the first aspect of the present invention, when the selection signal from the higher-level device continues for a predetermined time or more, the remote monitoring and control system is controlled. The station device changes the selection signal to the controlled device of the controlled station into a non-selection signal and transmits the signal.

【0016】請求項6の発明に係わる分散形監視制御シ
ステムは、請求項1の発明において、遠方監視制御親局
装置は、上位装置からの制御信号が予め定められた一定
時間以上継続した場合は被制御所の被制御機器への制御
信号を無選択信号へ変化させ、再度上位装置からの選択
信号を認識するまでは被制御機器への制御出力をロック
するようにしたものである。According to a sixth aspect of the present invention, there is provided a distributed monitoring and control system according to the first aspect of the present invention, wherein the remote supervisory control master station device is configured to execute the control when the control signal from the higher-level device continues for a predetermined time or more. The control signal to the controlled device at the controlled site is changed to a non-selection signal, and the control output to the controlled device is locked until the selection signal from the host device is recognized again.

【0017】請求項6の発明に係わる分散形監視制御シ
ステムでは、請求項1の発明の作用に加え、上位装置か
らの制御信号が予め定められた一定時間以上継続した場
合は、遠方監視制御親局装置は、被制御所の被制御機器
への制御信号を無選択信号へ変化させ、再度上位装置か
らの選択信号を認識するまでは被制御機器への制御出力
をロックする。In a distributed monitoring and control system according to a sixth aspect of the present invention, in addition to the operation of the first aspect of the present invention, when a control signal from a host device continues for a predetermined time or more, a remote monitoring and control system is provided. The station device changes the control signal to the controlled device at the controlled station to a non-selection signal, and locks the control output to the controlled device until the selection signal from the host device is recognized again.

【0018】請求項7の発明に係わる分散形監視制御シ
ステムは、請求項1の発明において、上位装置は、遠方
監視制御親局装置への制御選択信号を出力する上位集中
監視制御装置とそのバックアップ機能を持つ監視制御卓
装置とを有し、監視制御卓装置にはネットワークを介し
て系統監視盤を接続し、監視制御卓装置は、上位集中監
視制御装置から遠方監視制御親局装置へ選択信号の送信
中は、ネットワーク中の当該選択信号を傍受し、系統監
視盤上に当該選択信号により選択された被制御機器の選
択フリッカを行うようにしたものである。According to a seventh aspect of the present invention, in the distributed monitoring and control system according to the first aspect of the present invention, the higher-level device includes a higher-level centralized monitoring and control device that outputs a control selection signal to a remote monitoring and control master station device and a backup thereof. A monitoring and control console device having a function, a system monitoring panel is connected to the monitoring and control console device via a network, and the monitoring and control console device sends a selection signal from the centralized monitoring and control device to the remote monitoring and control master station device. During the transmission, the selected signal in the network is intercepted, and a flicker of the controlled device selected by the selected signal is performed on the system monitoring panel.

【0019】請求項7の発明に係わる分散形監視制御シ
ステムでは、請求項1の発明の作用に加え、上位集中監
視制御装置から遠方監視制御親局装置へ選択信号の送信
中は、監視制御卓装置は、ネットワーク中の当該選択信
号を傍受し、系統監視盤上に当該選択信号により選択さ
れた被制御機器の選択フリッカを行う。In the distributed monitoring and control system according to the seventh aspect of the present invention, in addition to the operation of the first aspect of the present invention, while the selection signal is being transmitted from the centralized supervisory control device to the remote supervisory control master station device, the supervisory control console is controlled. The apparatus intercepts the selection signal in the network and performs a selection flicker of the controlled device selected by the selection signal on the system monitoring panel.

【0020】請求項8の発明に係わる分散形監視制御シ
ステムは、請求項7の発明において、監視制御卓装置
は、上位集中監視制御装置から遠方監視制御親局装置へ
の選択信号により選択された被制御機器を予め記憶し、
その後の上位集中監視制御装置からの当該被制御機器へ
の制御信号に対して応動待ちとし、系統監視盤上にはフ
リッカ無しとするようにしたものである。In the distributed monitoring and control system according to an eighth aspect of the present invention, in the invention of the seventh aspect, the monitoring and control console device is selected by a selection signal from the upper centralized monitoring and control device to the remote monitoring and control master station device. The controlled device is stored in advance,
In response to a control signal from the higher-level centralized monitoring and control device to the controlled device, the system waits for a response and does not flicker on the system monitoring panel.

【0021】請求項8の発明に係わる分散形監視制御シ
ステムでは、請求項7の発明の作用に加え、監視制御卓
装置は、上位集中監視制御装置から遠方監視制御親局装
置への選択信号により選択された被制御機器を予め記憶
すると共に、その後の上位集中監視制御装置からの当該
被制御機器への制御信号に対して応動待ちとし、系統監
視盤上にはフリッカ無しとする。In the distributed monitoring and control system according to the eighth aspect of the present invention, in addition to the effect of the seventh aspect of the present invention, the monitoring and control console device is configured to receive a selection signal from the upper central monitoring and control device to the remote monitoring and control master station device. The selected controlled device is stored in advance, and is responsive to a control signal from the higher-level centralized monitoring and control device to the controlled device, and there is no flicker on the system monitoring panel.

【0022】[0022]

【発明の実施の形態】以下、図面を参照して本発明の実
施の形態を説明する。図1は、本発明の第1の実施の形
態に係わる分散形監視制御システムの構成図である。Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a configuration diagram of a distributed monitoring and control system according to a first embodiment of the present invention.

【0023】図1において、電力系統の各々の制御所に
はそれぞれ遠方監視制御親局1a〜1nが設けられ、そ
れぞれの被制御所2には子局が設けられている。そし
て、遠方監視制御親局装置1a〜1nと被制御所2a〜
2nとの間でデータをサイクリック伝送し、電力系統設
備の監視制御に必要な情報を伝送し合って被制御所2の
被制御機器を監視制御するようにしている。In FIG. 1, remote control stations 1a to 1n are provided at control stations of the power system, and slave stations are provided at each controlled station 2. Then, the remote monitoring control master station devices 1a to 1n and the controlled sites 2a to
2n is cyclically transmitted, and information necessary for monitoring and controlling the power system equipment is transmitted to each other to monitor and control the controlled equipment of the controlled place 2.

【0024】遠方監視制御親局装置1を介して得られた
情報は、ネットワーク3を介して上位装置4に伝送され
る。上位装置4は上位集中監視制御装置5と監視制御卓
装置6とからなり、上位集中監視制御装置5は遠方監視
制御親局装置1a〜1nを介して得られた情報を用いて
被制御所2a〜2nの被制御機器全体を監視制御する。
一方、監視制御卓装置6は上位集中監視制御装置5のバ
ックアップ機能を持ち、遠方監視制御親局装置1a〜1
nを介して得られた情報を系統監視盤7へ表示する機能
も備えている。つまり、監視制御卓装置5からは系統監
視盤7へ分散形監視制御システム全体を把握するための
情報が出力される。Information obtained through the remote monitoring control master station device 1 is transmitted to the host device 4 via the network 3. The higher-level device 4 includes a higher-level centralized monitoring and control device 5 and a monitoring and control console device 6, and the higher-level centralized monitoring and control device 5 uses the information obtained through the remote monitoring and control master stations 1a to 1n to control the controlled station 2a. 2n are monitored and controlled as a whole.
On the other hand, the monitoring and control console device 6 has a backup function of the upper centralized monitoring and control device 5, and the remote monitoring and control master station devices 1a to 1
It also has a function of displaying the information obtained through n on the system monitoring panel 7. That is, information for grasping the entire distributed monitoring and control system is output from the monitoring and control console device 5 to the system monitoring panel 7.

【0025】このように、分散形監視制御システムは、
一定の伝送手順にしたがって伝送プロトコル処理をする
ネットワーク3を介して上位装置4と遠方監視制御親局
装置1a〜1nとを結合し、上位装置4の上位集中監視
制御装置5又は監視制御卓装置6からは、下り送信信号
として選択制御信号部を設定したデータを送信する。As described above, the distributed monitoring and control system includes:
The higher-level device 4 and the remote monitoring control master station devices 1a to 1n are connected via the network 3 that performs a transmission protocol process according to a certain transmission procedure, and the higher-level centralized monitoring control device 5 or the monitoring control console device 6 of the higher-level device 4 is connected. Thereafter, data in which the selection control signal section is set is transmitted as a downlink transmission signal.

【0026】遠方監視制御親局装置1a〜1nでは、ネ
ットワーク3を介して上位装置4からのデータを入力す
ると、そのデータのうちの選択制御信号部を受信データ
として認識する。そして、その受信データのうち選択信
号を受信後に上位装置4が何等かの異常発生により選択
信号を送り続けることが不可能となった場合は、被制御
所2a〜2nの被制御機器への選択信号を無選択信号へ
変化させて送信する。In the remote monitoring control master station devices 1a to 1n, when data from the host device 4 is input via the network 3, the selection control signal portion of the data is recognized as received data. When the host device 4 cannot receive the selection signal due to some abnormality after receiving the selection signal from the received data, the selection of the controlled devices 2a to 2n to the controlled devices is performed. The signal is changed to an unselected signal and transmitted.

【0027】図2(a)は、上位装置4である上位集中
監視制御装置5あるいは監視制御卓装置6から遠方監視
制御親局装置1a〜1nへ送信される下り送信信号につ
いての伝送フォーマットの説明図であり、図2(b)
は、遠方監視制御親局装置1a〜1nから上位集中監視
制御装置5あるいは監視制御卓装置6へ送信される上り
送信信号についての伝送フォーマットの説明図である。FIG. 2A illustrates the transmission format of the downlink transmission signal transmitted from the higher-level central monitoring and control device 5 or the monitoring and control console device 6 as the higher-level device 4 to the remote monitoring and control master stations 1a to 1n. FIG. 2B
FIG. 4 is an explanatory diagram of a transmission format for an uplink transmission signal transmitted from the remote monitoring control master station devices 1a to 1n to the upper centralized monitoring control device 5 or the monitoring control console device 6.

【0028】図2(a)において、下り送信信号の伝送
フォーマットは大きく分けてステータス信号部88aと
選択制御信号部9から構成される。ステータス信号部8
aには上位装置4の状態や制御権情報等が含まれる。ま
た、選択制御信号部9には、選択信号及び制御信号が含
まれる。選択信号は制御対象機器を選択するものであ
り、制御信号はその選択した被制御機器の動作指令であ
る。例えば、被制御機器が遮断器や断路器である場合に
は、入/切指令などの2挙動のうちのいずれかの動作指
令信号である。つまり、まず選択信号を出力し当該被制
御機器の選択確認後に制御信号を出力する。選択制御信
号部9にはこのような情報が含まれる。In FIG. 2A, the transmission format of the downlink transmission signal is roughly composed of a status signal section 88a and a selection control signal section 9. Status signal section 8
“a” includes the status of the higher-level device 4 and control right information. Further, the selection control signal section 9 includes a selection signal and a control signal. The selection signal is for selecting a device to be controlled, and the control signal is an operation command for the selected controlled device. For example, when the controlled device is a circuit breaker or a disconnecting switch, it is one of two operation commands such as an on / off command. That is, first, a selection signal is output, and a control signal is output after confirming the selection of the controlled device. The selection control signal section 9 includes such information.

【0029】一方、図2(b)に示すように、上り送信
信号の伝送フォーマットは大きく分けてステータス信号
部8bと上り情報部10とから構成される。ステータス
信号部8bは遠方監視制御親局装置1の状態や上位装置
4からの制御権指令に対する切替異常等のステータスを
現す表示信号である。また、上り情報部10は被制御所
2よりサイクリック伝送を介して送信されてくる電力系
統設備の監視制御に必要な上り情報信号である。On the other hand, as shown in FIG. 2B, the transmission format of the uplink transmission signal is roughly divided into a status signal section 8b and an uplink information section 10. The status signal portion 8b is a display signal indicating the status of the remote monitoring control master station device 1 and a status such as a switching abnormality in response to a control right command from the host device 4. The upstream information section 10 is an upstream information signal transmitted from the controlled station 2 via cyclic transmission and necessary for monitoring and controlling power system equipment.

【0030】なお、図2(a)及び図2(b)中のPは
プリアンブル、SDはスタートデリミッタ、FCはフレ
ームコントロール、DAはディスティネーションアドレ
ス、SAはソースアドレス、FCSはフレームチェック
シーケンス、EDはエンドデリミッタである。In FIG. 2A and FIG. 2B, P is a preamble, SD is a start delimiter, FC is a frame control, DA is a destination address, SA is a source address, FCS is a frame check sequence, ED is an end delimiter.

【0031】次に、図3は、遠方監視制御親局装置1が
選択返送信号S2を送信した後に上位装置4が異常とな
った場合の動作説明図である。図3において、上位装置
4から遠方監視制御親局装置1に対して選択信号S1が
出力されると、遠方監視制御親局装置1は被制御所2に
対して選択信号S2を出力すると共に、上位装置4に対
し選択返送信号S3を出力する。Next, FIG. 3 is an explanatory diagram of the operation when the host device 4 becomes abnormal after the remote monitoring control master device 1 transmits the selective return signal S2. In FIG. 3, when the selection signal S1 is output from the higher-level device 4 to the remote monitoring control master device 1, the remote monitoring control master device 1 outputs the selection signal S2 to the controlled station 2, and It outputs a selective return signal S3 to the host device 4.

【0032】この状態で、いま、上位装置4の監視制御
卓装置6において異常発生ポイントxが発生したとする
と、遠方監視制御親局装置1はネットワーク3上のやり
とりが監視制御卓装置6と不可になったことをポイント
x´にて認識する。これにより、直ちに被制御所へ無選
択信号Oを送信する。In this state, assuming that an abnormality occurrence point x has occurred in the monitoring control console device 6 of the host device 4, the remote monitoring control master station device 1 cannot exchange data with the monitoring control console device 6 on the network 3. Is recognized at the point x '. Thereby, the non-selection signal O is immediately transmitted to the controlled station.

【0033】従って、被制御所2の被制御機器に対する
フェイルセーフ動作を実現することができる。また遠方
監視制御親局装置1は、自分自身のモードを無選択状態
へ移行することが可能となり、中途半端な選択状態ある
いは制御状態のままにモードが陥ることがなくなる。Therefore, a fail-safe operation of the controlled device 2 for the controlled device can be realized. Further, the remote monitoring control master station device 1 can shift its own mode to the non-selection state, and the mode does not fall in the halfway selection state or control state.

【0034】図4は、遠方監視制御親局装置1が選択返
送信号S2を送信した後に上位装置4が制御信号Cを送
信している最中に上位装置4が異常となった場合の動作
説明図である。図4において、上位装置4から遠方監視
制御親局装置1に対して選択信号S1が出力されると、
遠方監視制御親局装置1は被制御所2に対して選択信号
S2を出力すると共に、上位装置4に対し選択返送信号
S3を出力する。上位装置4は遠方監視制御親局装置1
からの選択返送信号S3を受信すると、制御信号C1を
遠方監視制御親局装置1に送信する。遠方監視制御親局
装置1は制御信号C1を受信すると、被制御所2に制御
信号C2を出力する。FIG. 4 is a diagram for explaining the operation in the case where the host device 4 becomes abnormal while the host device 4 is transmitting the control signal C after the remote monitoring control master station device 1 has transmitted the selective return signal S2. FIG. In FIG. 4, when the selection signal S1 is output from the higher-level device 4 to the remote monitoring control master device 1,
The remote monitoring control master station device 1 outputs a selection signal S2 to the controlled site 2 and outputs a selection return signal S3 to the host device 4. The host device 4 is the remote monitoring control master station device 1
When receiving the selective return signal S3 from the remote control device 1, the control signal C1 is transmitted to the remote monitoring control master station device 1. When receiving the control signal C1, the remote monitoring control master station device 1 outputs a control signal C2 to the controlled site 2.

【0035】この状態で、上位装置4の監視制御卓装置
6において異常発生ポイントxが発生すると、遠方監視
制御親局装置1はネットワーク3上のやりとりが監視制
御卓装置6と不可になったことをポイントx´にて認識
する。これにより、直ちに被制御所2へ無選択信号Oを
送信する。In this state, when an abnormality occurrence point x occurs in the monitoring control console device 6 of the host device 4, the remote monitoring control master station device 1 cannot communicate with the monitoring control console device 6 on the network 3. At the point x ′. As a result, the non-selection signal O is immediately transmitted to the controlled site 2.

【0036】これによって被制御所2の被制御機器に対
するフェイルセーフ動作を実現することが可能となる。
また、遠方監視制御親局1自身もこの様な動作をするこ
とにより自分自身のモードを無選択状態へ移行可能と
し、中途半端な選択状態あるいは制御状態のままにモー
ドが陥ることのないようにしている。As a result, it is possible to realize a fail-safe operation of the controlled device 2 for the controlled device.
In addition, the remote monitoring control master station 1 itself can shift its own mode to the non-selection state by performing such an operation, so that the mode does not fall in the halfway selection state or the control state. ing.

【0037】このように、上位装置4と遠方監視制御親
局装置1との間のネットワーク3を介しての選択信号や
制御信号のやりとりにおいて、上位装置4に何等かの異
常が発生した場合には、積極的に遠方監視制御親局装置
1が被制御所2の被制御機器へ無選択信号Oを積極的に
出力するので、フェイルセーフを実現できる。As described above, when some sort of abnormality occurs in the host device 4 in the exchange of the selection signal and the control signal between the host device 4 and the remote monitoring control master device 1 via the network 3, Since the remote monitoring control master station apparatus 1 actively outputs the non-selection signal O to the controlled device of the controlled place 2, fail-safe can be realized.

【0038】次に、図5は、上位装置4からの選択信号
Sが予め定められた一定時間以上継続した場合の動作説
明図である。図5において、上位装置4から遠方監視制
御親局装置1に対して選択信号S1が出力されると、遠
方監視制御親局装置1は被制御所2に対して選択信号S
2を出力すると共に、上位装置4に対し選択返送信号S
3を出力する。Next, FIG. 5 is an operation explanatory diagram in the case where the selection signal S from the host device 4 has continued for a predetermined time or more. In FIG. 5, when the selection signal S1 is output from the higher-level device 4 to the remote monitoring control master device 1, the remote monitoring control master device 1 sends the selection signal S to the controlled station 2.
2 and outputs a selective return signal S
3 is output.

【0039】この状態において、本来ならば上位装置4
から制御信号Cが送信された来るはずであるが、その制
御信号Cの送信がないとする。この場合、遠方監視制御
親局装置1は予め定められた一定時間T以上の選択信号
の継続に対して被制御所2へ無選択信号Oを送信する。In this state, the host device 4
Suppose that a control signal C has been transmitted from the controller, but the control signal C is not transmitted. In this case, the remote monitoring control master station device 1 transmits the non-selection signal O to the controlled station 2 in response to the continuation of the selection signal for a predetermined time T or more.

【0040】これによってフェイルセーフ動作を実現す
ることが可能となり、分散形監視制御システムのシステ
ム的には選択し忘れによる選択状態の残りっぱなしや調
整制御における制御の永久継続を防ぐことができる。As a result, a fail-safe operation can be realized, and in the system of the distributed monitoring and control system, it is possible to prevent the selection state from being left unselected and the control from being continued in the adjustment control forever.

【0041】図6は、上位装置4からの制御信号Cが予
め定められた一定時間以上継続した場合の動作説明図で
ある。図6において、上位装置4から遠方監視制御親局
装置1に対して選択信号S1が出力されると、遠方監視
制御親局装置1は被制御所2に対して選択信号S2を出
力すると共に、上位装置4に対し選択返送信号S3を出
力する。上位装置4は遠方監視制御親局装置1からの選
択返送信号S3を受信すると、制御信号C1を遠方監視
制御親局装置1に送信する。遠方監視制御親局装置1は
制御信号C1を受信すると、被制御所2に制御信号C2
を出力する。FIG. 6 is an operation explanatory diagram when the control signal C from the host device 4 has continued for a predetermined time or more. In FIG. 6, when the selection signal S1 is output from the higher-level device 4 to the remote monitoring control master device 1, the remote monitoring control master device 1 outputs the selection signal S2 to the controlled station 2, It outputs a selective return signal S3 to the host device 4. Upon receiving the selective return signal S3 from the remote monitoring control master station device 1, the host device 4 transmits a control signal C1 to the remote monitoring control master station device 1. When receiving the control signal C1, the remote monitoring control master station device 1 sends the control signal C2
Is output.

【0042】この状態で、制御信号Cnが継続し続けて
いたとすると、遠方監視制御親局装置1は予め定められ
た一定時間上の制御信号Cnの継続に対して被制御所2
へ無選択信号Oを送信する。これによってフェイルセー
フ動作を実現でき、システム的には選択し忘れによる選
択状態の残りっぱなしや調整制御における制御の永久継
続を防げる。In this state, assuming that the control signal Cn continues to be maintained, the remote monitoring control master device 1 responds to the continuation of the control signal Cn for a predetermined period of time by the controlled station 2.
The non-selection signal O is transmitted to As a result, a fail-safe operation can be realized, and a system can be prevented from remaining in a selected state due to forgetting to select or permanently continuing control in adjustment control.

【0043】このように、選択の忘れや調整制御等にお
ける選択信号Sや制御信号Cの継続に対しても分散形制
御システムの遠方監視制御親局装置1においてロックで
きるので、フェールセーフを実現できる。As described above, since the remote monitoring control master station device 1 of the distributed control system can lock the selection signal S and the continuation of the control signal C in the case of forgetting the selection or the adjustment control, fail-safe can be realized. .

【0044】ここで、図2に示したネットワーク3の伝
送フォーマットにおいて、上位集中監視制御装置5から
の下り送信信号のうち選択時においては、当該選択状態
を監視制御卓装置6がネットワーク3を介して傍受する
ことによって認識し、系統監視盤7へ当該被制御機器の
選択フリッカを行うようにする。Here, in the transmission format of the network 3 shown in FIG. 2, when a downlink transmission signal from the centralized supervisory control device 5 is selected, the monitoring control console device 6 determines the selected state via the network 3. In this way, the system monitoring panel 7 performs selection flicker of the controlled device.

【0045】また、制御信号Sに対しては、監視制御卓
装置6が同様に選択時における当該被制御機器の選択を
記憶することにより、被制御所2よりの上り送信信号の
うち当該被制御機器の応動状変の認識をする。そして、
状変フリッカを無しとする。In response to the control signal S, the monitoring control console device 6 similarly stores the selection of the controlled device at the time of selection, so that the controlled device Recognize the response of equipment. And
There is no state change flicker.

【0046】このように、上位装置4の上位集中監視制
御装置5のバックアップを行う監視制御卓装置6を設け
ている点に着目し、選択フリッカや応動状変の認識によ
るフリッカ無し条件を実現する。Focusing on the fact that the monitoring console device 6 that backs up the centralized supervisory control device 5 of the higher-level device 4 is provided, a flicker-free condition is realized by recognizing a selected flicker or a response change. .

【0047】次に、本発明の第2の実施の形態を説明す
る。図7は、本発明の第2の実施の形態を示す構成図で
ある。図1に示した第1の実施の形態と異なる点は、各
々の遠方監視制御親局装置1a〜1nにおいて、外部
(他の配電盤)からのプロセス入出力装置(PIO)を
介しての制御信号Ca〜Cnを取り込むようにした点で
ある。その他の構成は、図1に示した第1の実施の形態
と同一であるので、同一要素には同一符号を付しその説
明は省略する。Next, a second embodiment of the present invention will be described. FIG. 7 is a configuration diagram showing a second embodiment of the present invention. The difference from the first embodiment shown in FIG. 1 is that in each of the remote monitoring control master stations 1a to 1n, a control signal from the outside (another switchboard) via a process input / output device (PIO) is provided. The point is that Ca to Cn are taken in. Other configurations are the same as those of the first embodiment shown in FIG. 1, and therefore, the same components are denoted by the same reference symbols and description thereof will be omitted.

【0048】一般に、水力発電システム等で想定される
緊急時のゲート降下あるいは発電機の出力停止といった
ロック条件に対しては、分散形制御システムにおいては
遠方監視制御親局装置1に対してPIO入力することに
より構築する。そして、通常の上位装置4からの選択信
号や制御信号に対するインターロックを明確にすること
によりシステムとしてのフェールセーフを実現する。In general, in a distributed control system, a PIO input to the remote monitoring control master station device 1 is performed in response to a lock condition such as an emergency gate descent or a generator output stop in a hydroelectric power generation system or the like. Build by doing. Then, a fail-safe as a system is realized by clarifying an interlock with respect to a selection signal and a control signal from a normal higher-level device 4.

【0049】図8は、上位装置からの選択信号の受信中
にプロセス入出力装置からの制御信号を入力した場合の
動作説明図である。図8において、上位装置4から遠方
監視制御親局装置1に対して選択信号S1が出力される
と、遠方監視制御親局装置1は被制御所2に対して選択
信号S2を出力すると共に、上位装置4に対し選択返送
信号S3を出力する。FIG. 8 is a diagram for explaining the operation when a control signal is input from the process input / output device while the selection signal is being received from the host device. 8, when the selection signal S1 is output from the host device 4 to the remote monitoring control master device 1, the remote monitoring control master device 1 outputs the selection signal S2 to the controlled station 2, It outputs a selective return signal S3 to the host device 4.

【0050】この状態で、遠方監視制御親局装置1への
PIO入力による制御信号C0があると、上位装置4か
らの制御信号に優先して遠方監視制御親局装置1は被制
御所2に制御信号を出力することになる。すなわち、遠
方監視制御親局装置1は被制御所2に対し無選択信号O
1を送信すると共に無信号返送信号O2を上位装置4に
送信する。そして、遠方監視制御親局装置1はプロセス
入出力装置からの選択信号S4を被制御所2に送信し、
その後にプロセス入出力装置からの制御信号C4を被制
御所2に送信する。In this state, if there is a control signal C0 from the PIO input to the remote monitoring control master station device 1, the remote monitoring control master station device 1 is sent to the controlled station 2 in preference to the control signal from the host device 4. A control signal will be output. That is, the remote monitoring control master device 1 sends the non-selection signal O
1 and a no-signal return signal O2 to the host device 4. Then, the remote monitoring control master station device 1 transmits a selection signal S4 from the process input / output device to the controlled place 2,
Thereafter, a control signal C4 from the process input / output device is transmitted to the controlled plant 2.

【0051】このように、遠方監視制御親局装置1への
PIO入力による制御信号C0に対して優先的に動くこ
とを可能とし、システム的には緊急時の制御信号を遠方
監視制御親局装置1に入力する。従って、他の一般の選
択制御より優先度を上げることが可能となる。As described above, it is possible to preferentially move to the control signal C0 by the PIO input to the remote monitoring control master device 1, and to systematically transmit the emergency control signal to the remote monitoring control master device. Enter 1 Therefore, it is possible to raise the priority over other general selection control.

【0052】図9は、プロセス入出力装置からの制御信
号に対して予め決められた選択制御信号を被制御機器へ
送信中に上位装置からの選択信号を受信した場合の動作
説明図である。図9において、遠方監視制御親局装置1
へのPIO入力による制御信号C0があると、上位装置
4からの制御信号に優先して遠方監視制御親局装置1は
被制御所2に制御信号を出力する。すなわち、遠方監視
制御親局装置1がプロセス入出力装置からの選択信号S
4を被制御所2に送信した後に、上位装置4から選択信
号S1があったとすると、遠方監視制御親局装置1はそ
のままプロセス入出力装置からの制御信号C4を優先し
て実行する。FIG. 9 is an operation explanatory diagram when a selection signal from a higher-level device is received while a predetermined selection control signal is being transmitted to a controlled device in response to a control signal from a process input / output device. In FIG. 9, the remote monitoring control master station device 1
When there is a control signal C0 due to the PIO input to the remote control unit 1, the remote monitoring control master station device 1 outputs a control signal to the controlled place 2 in preference to the control signal from the host device 4. That is, the remote monitoring control master station device 1 receives the selection signal S from the process input / output device.
Assuming that there is a selection signal S1 from the higher-level device 4 after the transmission of the control signal 4 to the controlled station 2, the remote supervisory control master station device 1 directly executes the control signal C4 from the process input / output device.

【0053】そして、プロセス入出力装置からの制御信
号C4の処理が終了すると、無選択信号O2を被制御所
2に出力し、その後に上位装置4からの選択信号S2を
被制御所2に出力すると共に、上位装置4に対し選択返
送信号S3を出力する。上位装置4は遠方監視制御親局
装置1からの選択返送信号S3を受信すると、制御信号
C1を遠方監視制御親局装置1に送信する。遠方監視制
御親局装置1は制御信号C1を受信すると、被制御所2
に制御信号C2を出力する。When the processing of the control signal C4 from the process input / output device is completed, the non-selection signal O2 is output to the controlled place 2, and then the selection signal S2 from the host apparatus 4 is output to the controlled place 2. At the same time, a selective return signal S3 is output to the host device 4. Upon receiving the selective return signal S3 from the remote monitoring control master station device 1, the host device 4 transmits a control signal C1 to the remote monitoring control master station device 1. When receiving the control signal C1, the remote monitoring control master station device 1
To output the control signal C2.

【0054】このように、遠方監視制御親局装置1は、
プロセス入出力装置からの制御信号に基づく予め決めら
れた選択制御信号が終了後に上位装置4からの選択信号
を有効とし被制御機器へ送信する。従って、システム的
には緊急時の制御信号を遠方監視制御親局装置1に入力
することにより他の一般の選択制御より優先度を上げる
ことが可能となる。As described above, the remote monitoring control master station device 1
After a predetermined selection control signal based on a control signal from the process input / output device ends, the selection signal from the host device 4 is validated and transmitted to the controlled device. Therefore, systematically, by inputting an emergency control signal to the remote monitoring control master station device 1, it is possible to raise the priority over other general selection control.

【0055】[0055]

【発明の効果】以上述べたように、本発明によれば、上
位装置と遠方監視制御親局装置との間のネットワークを
介しての選択信号や制御信号のやりとりにおいて、上位
装置に何等かの異常が発生した場合であっても、フェイ
ルセーフを実現できる。また、選択の忘れや調整制御等
における選択信号や制御信号の継続に対してもフェール
セーフを実現できる。As described above, according to the present invention, when a selection signal or a control signal is exchanged between a higher-level device and a remote monitoring control master station device via a network, the higher-level device has some sort of information. Even if an abnormality occurs, fail-safe can be realized. Further, fail-safe can be realized even when the selection signal or the control signal is continued in the case where the selection is forgotten or the adjustment control is performed.

【0056】また、遠方監視制御親局装置へのプロセス
入出力装置からの制御信号を上位装置からの制御信号に
優先して取り扱うので、一般の選択制御より優先度を上
げることが可能となる。Further, since the control signal from the process input / output device to the remote monitoring control master station device is handled prior to the control signal from the higher-level device, it is possible to raise the priority over the general selection control.

【図面の簡単な説明】[Brief description of the drawings]

【図1】本発明の第1の実施の形態に係わる分散形監視
制御システムの構成図。FIG. 1 is a configuration diagram of a distributed monitoring and control system according to a first embodiment of the present invention.

【図2】本発明の第1の実施の形態における分散形監視
制御システムのネットワークに送信される伝送フォーマ
ットの説明図。FIG. 2 is an explanatory diagram of a transmission format transmitted to a network of the distributed monitoring and control system according to the first embodiment of the present invention.

【図3】本発明の第1の実施の形態における分散形監視
制御システムの遠方監視制御親局装置が選択返送した後
に上位装置が異常となった場合の動作説明図。FIG. 3 is an operation explanatory diagram of the distributed monitoring and control system according to the first embodiment of the present invention in a case where a higher-level device becomes abnormal after a remote monitoring and control master station device has selectively returned.

【図4】本発明の第1の実施の形態における分散形監視
制御システムの遠方監視制御親局装置が選択返送した後
に上位装置が制御信号を送信している最中に上位装置が
異常となった場合の動作説明図。FIG. 4 shows a state in which a higher-level device becomes abnormal while a higher-level device is transmitting a control signal after a remote monitoring and control master station device of the distributed monitoring and control system according to the first embodiment of the present invention selectively returns. FIG.

【図5】本発明の第1の実施の形態における分散形監視
制御システムの上位装置からの選択信号が予め定められ
た一定時間以上継続した場合の動作説明図。FIG. 5 is an operation explanatory diagram when a selection signal from a higher-level device of the distributed monitoring and control system according to the first embodiment of the present invention continues for a predetermined time or more;

【図6】本発明の第1の実施の形態における分散形監視
制御システムの上位装置からの制御信号が予め定められ
た一定時間以上継続した場合の動作説明図。FIG. 6 is an operation explanatory diagram when a control signal from a higher-level device of the distributed monitoring and control system according to the first embodiment of the present invention has continued for a predetermined time or more;

【図7】本発明の第2の実施の形態における分散形監視
制御システムの構成図。FIG. 7 is a configuration diagram of a distributed monitoring and control system according to a second embodiment of the present invention.

【図8】本発明の第2の実施の形態における分散形監視
制御システムの上位装置からの選択信号の受信中にプロ
セス入出力装置からの制御信号を入力した場合の動作説
明図。FIG. 8 is an operation explanatory diagram when a control signal is input from a process input / output device during reception of a selection signal from a higher-level device of the distributed monitoring and control system according to the second embodiment of the present invention.

【図9】本発明の第2の実施の形態における分散形監視
制御システムのプロセス入出力装置からの制御信号に対
して予め決められた選択制御信号を被制御機器へ送信中
に上位装置からの選択信号を受信した場合の動作説明
図。FIG. 9 is a flowchart illustrating a process of transmitting a control signal from a process input / output device of a distributed monitoring and control system according to a second embodiment of the present invention to a controlled device. FIG. 4 is an operation explanatory diagram when a selection signal is received.

【符号の説明】[Explanation of symbols]

1 遠方監視制御親局装置 2 被制御所(子局) 3 ネットワーク 4 上位装置 5 上位集中監視制御装置 6 監視制御卓装置 7 系統監視盤 8 ステータス信号部 9 選択制御信号部 10 上り情報部 REFERENCE SIGNS LIST 1 remote monitoring control master station device 2 controlled station (slave station) 3 network 4 host device 5 host centralized monitoring control device 6 monitoring control console device 7 system monitoring panel 8 status signal section 9 selection control signal section 10 uplink information section

Claims (8)

【特許請求の範囲】[Claims] 【請求項1】 上位装置からの選択制御信号に基づき制
御所と被制御所との間で電力系統設備の監視制御に必要
な情報を伝送し合って前記被制御所の被制御機器を分散
して監視制御するようにした分散形監視制御システムに
おいて、下り送信信号として選択制御信号部を設定しネ
ットワークを介して前記制御所に設けられた遠方監視制
御親局装置へ送信する上位装置と、前記上位装置からの
前記選択制御信号部を受信データとして認識し前記受信
データのうち選択信号を受信後に前記上位装置が何等か
の異常発生により選択信号を送り続けることが不可能と
なった場合は前記被制御所の被制御機器への選択信号を
無選択信号へ変化させ送信する遠方監視制御親局装置と
を備えたことを特徴とする分散形監視制御システム。An information necessary for monitoring and controlling power system equipment is transmitted between a control station and a controlled station based on a selection control signal from a higher-level device to disperse controlled equipment of the controlled station. In a distributed monitoring and control system configured to perform monitoring and control, a higher-level device that sets a selection control signal unit as a downlink transmission signal and transmits the selected control signal unit to a remote monitoring and control master station device provided in the control center via a network, When the selection control signal portion from the host device is recognized as received data and the host device cannot continue to send the selection signal due to some abnormality after receiving the selection signal among the received data, A remote monitoring and control system comprising: a remote monitoring and control master station device that changes a selection signal to a controlled device of a controlled site to a non-selection signal and transmits the signal. 【請求項2】 前記遠方監視制御親局装置は、前記上位
装置からの前記選択制御信号部を受信データとして認識
し、前記受信データのうち制御信号を受信後に前記上位
装置が何等かの異常発生により制御信号を送り続けるこ
とが不可能となった場合は、前記被制御所の被制御機器
への選択信号を無選択信号へ変化させ送信するようにし
たことを特徴とする請求項1に記載の分散形監視制御シ
ステム。2. The remote monitoring control master station device recognizes the selection control signal section from the higher-level device as received data, and the higher-level device generates some abnormality after receiving a control signal from the received data. The method according to claim 1, wherein when it becomes impossible to continue sending the control signal, the selection signal to the controlled device of the controlled place is changed to a non-selection signal and transmitted. Distributed monitoring and control system. 【請求項3】 他の配電盤からの制御信号を前記遠方監
視制御装置に入力するためのプロセス入出力装置を設
け、前記遠方監視制御親局装置は、前記上位装置からの
選択信号の受信中に前記配電盤からの制御信号を入力し
た場合は、直ちに前記被制御所の被制御機器への選択信
号を無選択信号へ変化させ、前記プロセス入出力装置か
らの制御信号に対して予め決められた選択制御信号を前
記被制御機器へ送信するようにしたことを特徴とする請
求項1に記載の分散形監視制御システム。3. A process input / output device for inputting a control signal from another switchboard to the remote monitoring control device, wherein the remote monitoring control master station device receives a selection signal from the host device. When a control signal from the switchboard is input, the selection signal to the controlled device of the controlled place is immediately changed to a non-selection signal, and a predetermined selection is made for the control signal from the process input / output device. 2. The distributed monitoring and control system according to claim 1, wherein a control signal is transmitted to the controlled device. 【請求項4】 前記遠方監視制御親局装置は、前記プロ
セス入出力装置からの制御信号に対して予め決められた
選択制御信号を前記被制御機器へ送信中に、前記上位装
置からの選択信号を受信した場合は前記プロセス入出力
装置からの制御信号に基づく予め決められた選択制御信
号が終了後に前記上位装置からの選択信号を有効とし、
前記被制御機器へ送信するようにしたことを特徴とする
請求項3に記載の分散形監視制御システム。4. The remote monitoring control master station device, while transmitting a predetermined selection control signal to the controlled device in response to a control signal from the process input / output device, selects a selection signal from the higher-level device. When receiving a predetermined selection control signal based on the control signal from the process input and output device after the end of the selection signal from the upper device is valid,
4. The distributed monitoring and control system according to claim 3, wherein the data is transmitted to the controlled device. 【請求項5】 前記遠方監視制御親局装置は、前記上位
装置からの選択信号が予め定められた一定時間以上継続
した場合は、前記被制御所の被制御機器への選択信号を
無選択信号へ変化させ送信するようにしたことを特徴と
する請求項1に記載の分散形監視制御システム。5. The remote monitoring control master station device, when the selection signal from the higher-level device continues for a predetermined time or more, sends a selection signal to the controlled device of the controlled station to a non-selection signal. 2. The distributed monitoring and control system according to claim 1, wherein the distributed monitoring and control system is configured to transmit the data. 【請求項6】 前記遠方監視制御親局装置は、前記上位
装置からの制御信号が予め定められた一定時間以上継続
した場合は前記被制御所の被制御機器への制御信号を無
選択信号へ変化させ、再度上位装置からの選択信号を認
識するまでは前記被制御機器への制御出力をロックする
ようにしたことを特徴とする請求項1に記載の分散形監
視制御システム。6. The remote monitoring control master station device converts a control signal to a controlled device of the controlled station into a non-selection signal when a control signal from the higher-level device continues for a predetermined time or more. 2. The distributed monitoring and control system according to claim 1, wherein the control output to the controlled device is locked until the control signal is changed and the selection signal from the host device is recognized again. 【請求項7】 前記上位装置は、前記遠方監視制御親局
装置への制御選択信号を出力する上位集中監視制御装置
とそのバックアップ機能を持つ監視制御卓装置とを有
し、前記監視制御卓装置にはネットワークを介して系統
監視盤を接続し、前記監視制御卓装置は、前記上位集中
監視制御装置から前記遠方監視制御親局装置へ選択信号
の送信中は、前記ネットワーク中の当該選択信号を傍受
し、前記系統監視盤上に当該選択信号により選択された
被制御機器の選択フリッカを行うようにしたことを特徴
とする請求項1に記載の分散形監視制御システム。7. The supervisory control device having a centralized supervisory control device for outputting a control selection signal to the remote supervisory control master station device and a supervisory control console device having a backup function thereof. Connect a system monitoring panel via a network to the monitoring control console device, while transmitting a selection signal from the upper centralized monitoring control device to the remote monitoring control master station device, the selection signal in the network 2. The distributed monitoring and control system according to claim 1, wherein the interception is performed, and a selected flicker of the controlled device selected by the selection signal is performed on the system monitoring panel. 【請求項8】 前記監視制御卓装置は、前記上位集中監
視制御装置から前記遠方監視制御親局装置への選択信号
により選択された被制御機器を予め記憶し、その後の前
記上位集中監視制御装置からの当該被制御機器への制御
信号に対して応動待ちとし、前記系統監視盤上にはフリ
ッカ無しとすることを特徴とする請求項7に記載の分散
形監視制御システム。8. The monitoring and control console device stores in advance a controlled device selected by a selection signal from the higher-level centralized monitoring and control device to the remote monitoring and control master station device, and thereafter stores the controlled device. 8. The distributed monitoring and control system according to claim 7, wherein the system waits for a control signal to be transmitted to the controlled device from the system, and does not flicker on the system monitoring panel.
JP13580097A 1997-05-12 1997-05-12 Distributed monitor control system Pending JPH10312210A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP13580097A JPH10312210A (en) 1997-05-12 1997-05-12 Distributed monitor control system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP13580097A JPH10312210A (en) 1997-05-12 1997-05-12 Distributed monitor control system

Publications (1)

Publication Number Publication Date
JPH10312210A true JPH10312210A (en) 1998-11-24

Family

ID=15160124

Family Applications (1)

Application Number Title Priority Date Filing Date
JP13580097A Pending JPH10312210A (en) 1997-05-12 1997-05-12 Distributed monitor control system

Country Status (1)

Country Link
JP (1) JPH10312210A (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2011165186A (en) * 2006-11-08 2011-08-25 Chugoku Electric Power Co Inc:The Monitoring control method
CN106532939A (en) * 2016-11-10 2017-03-22 国网江西省电力公司检修分公司 Main-sub-machine heterogeneous in-situ measurement control device applied on intelligent transformer substation

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2011165186A (en) * 2006-11-08 2011-08-25 Chugoku Electric Power Co Inc:The Monitoring control method
CN106532939A (en) * 2016-11-10 2017-03-22 国网江西省电力公司检修分公司 Main-sub-machine heterogeneous in-situ measurement control device applied on intelligent transformer substation

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