JP2860740B2 - Grid connection protection detector - Google Patents
Grid connection protection detectorInfo
- Publication number
- JP2860740B2 JP2860740B2 JP5000233A JP23393A JP2860740B2 JP 2860740 B2 JP2860740 B2 JP 2860740B2 JP 5000233 A JP5000233 A JP 5000233A JP 23393 A JP23393 A JP 23393A JP 2860740 B2 JP2860740 B2 JP 2860740B2
- Authority
- JP
- Japan
- Prior art keywords
- reactive power
- system bus
- generator
- load
- circuit
- 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.)
- Expired - Fee Related
Links
Classifications
-
- Y—GENERAL 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E40/00—Technologies for an efficient electrical power generation, transmission or distribution
- Y02E40/30—Reactive power compensation
Landscapes
- Supply And Distribution Of Alternating Current (AREA)
Description
【0001】[0001]
【産業上の利用分野】本発明は、発電機と負荷が接続さ
れた構内系統を遮断器を介して逆潮流ありで系統母線と
接続する系統連系方式における系統事故時の系統連系保
護検出装置に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a system interconnection system for connecting a generator system and a load to a system bus with a reverse power flow via a circuit breaker via a circuit breaker. Related to the device.
【0002】[0002]
【従来の技術】一般に、高圧需要家がコージェネレーシ
ョン等の自家用発電設備(以下自家発電設備と記す)を
系統母線と系統連系するためには図2に示す様な系統連
系保護システムを構成する必要がある。図2において、
1は系統母線、2は発電機でエンジン(図示せず)によ
り駆動される。3は発電機2の電圧を制御する自動電圧
調整装置(以下AVRと略す)、4は発電機を構内系統
に接続する遮断器、5は系統母線と構内系統とを接続す
る遮断器、6および7は構内系統に接続された負荷、8
は不足電圧継電器、9は周波数低下継電器、10は過電
圧継電器、11は過電流継電器、12は方向地絡継電
器、13は逆電力継電器で,逆潮流なしの場合に適用す
る。14は配電用変電所、15は転送遮断装置で逆潮流
ありの場合の系統事故時の変電所からの信号により遮断
器5を解除するように構成されている。なお、16およ
び17は断路器である。2. Description of the Related Art Generally, in order for a high-voltage customer to interconnect a private power generation facility such as a cogeneration system (hereinafter referred to as a private power generation facility) with a system bus, a system interconnection protection system as shown in FIG. There is a need to. In FIG.
1 is a system bus, and 2 is a generator driven by an engine (not shown). 3 is an automatic voltage regulator (hereinafter abbreviated as AVR) for controlling the voltage of the generator 2; 4 is a circuit breaker for connecting the generator to the local system; 5 is a circuit breaker for connecting the system bus to the local system; 7 is a load connected to the premises system, 8
Is an undervoltage relay, 9 is a frequency lowering relay, 10 is an overvoltage relay, 11 is an overcurrent relay, 12 is a directional ground fault relay, 13 is a reverse power relay, and is applied when there is no reverse power flow. Reference numeral 14 denotes a distribution substation, and reference numeral 15 denotes a transfer cutoff device, which is configured to release the circuit breaker 5 by a signal from the substation at the time of a system failure in the presence of reverse power flow. In addition, 16 and 17 are disconnectors.
【0003】上記のように構成された自家発電設備の系
統連系システムにおいて、次のような異常が発生したと
きには、即時に自家発電設備を系統母線から解列する必
要がある。 (1)コージェネ設置需要家の構内事故時 (2)系統母線、即ち、電力系統事故時In the system for interconnecting private power generation facilities configured as described above, when the following abnormality occurs, it is necessary to immediately disconnect the private power generation facilities from the system bus. (1) In the event of an accident on the premises of a cogeneration customer (2) In the event of a system bus, that is, an electric power system accident
【0004】これらの事故時の事故状態を検出する方法
として通常図2に示す如く保護装置により検出されてい
る。すなわち、逆潮流なしの場合は過電流継電器11、
方向地絡継電器12、逆電力継電器13、周波数低下継
電器9等で自家発電設備あるいは構内系統の事故時の異
常を検出し、遮断器5を開とし系統から解列するように
している。一方、逆潮流ありの場合は、前述した継電器
等では系統の異常時の変電所遮断器の解列は検出できな
い場合があり、そのために専用線連系において転送遮断
装置15を設けて保護を行っている。逆潮流ありの場合
は、高圧配電系統を専用線連系するが、その場合に高価
な転送遮断装置15を設ける必要がある。As a method of detecting the state of an accident at the time of these accidents, it is usually detected by a protection device as shown in FIG. That is, when there is no reverse power flow, the overcurrent relay 11,
The directional ground fault relay 12, the reverse power relay 13, the frequency lowering relay 9 and the like detect an abnormality at the time of an accident in the private power generation facility or the premises system, open the circuit breaker 5, and disconnect from the system. On the other hand, when there is a reverse power flow, the above-described relays or the like may not be able to detect the disconnection of the substation circuit breaker when the system is abnormal, and therefore, the transfer interruption device 15 is provided in the dedicated line interconnection to provide protection. ing. If there is a reverse power flow, the high-voltage distribution system is connected to a dedicated line, but in that case, an expensive transfer cutoff device 15 must be provided.
【0005】[0005]
【発明が解決しようとする課題】本発明は上記事情に鑑
みてなされたもので、その目的は逆潮流ありの場合の専
用線連系において高価な転送遮断装置を設けることなく
構内設備内において系統側の事故時における発電機単独
運転を検出し、構内系統を系統母線から切り離す事がで
きる系統連系保護検出装置を提供することにある。SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a system in a premises without connecting an expensive transfer interruption device in a dedicated line connection in the case of reverse power flow. It is an object of the present invention to provide a system interconnection protection detection device capable of detecting a generator alone operation at the time of a side accident and disconnecting a premises system from a system bus.
【0006】[0006]
【課題を解決するための手段】上記目的を達成するため
に、本発明の系統連系保護検出装置は、系統母線から負
荷へあるいは発電機から系統母線へ流す無効電力を設定
する無効電力設定器と、発電機及び負荷の無効電力を検
出する無効電力検出回路と、無効電力設定器の設定信号
と無効電力検出回路の検出信号を入力し、系統母線から
負荷へあるいは発電機から系統母線へ常時前記無効電力
設定器で設定した設定値の無効電力が流れるように前記
発電機の自動電圧調整装置を制御する無効電力制御回路
と、系統母線が故障し、系統母線から負荷へあるいは発
電機から系統母線への無効電力が消失したときに、系統
母線から負荷へあるいは発電機から系統母線へ無効電力
を流し続けようとする発電機の制御変化量を判別して系
統母線の故障を検出し、系統母線と構内系統を接続する
遮断器を遮断する比較回路とから構成したものである。To achieve the above object, according to the solution to ## system interconnection protection detection apparatus of the present invention, reactive power setter for setting a reactive power flow from or generator to the load from the system bus to the system bus And a reactive power detection circuit for detecting the reactive power of the generator and the load, and a setting signal of the reactive power setting device and a detection signal of the reactive power detection circuit, which are always input from the system bus to the load or from the generator to the system bus. A reactive power control circuit for controlling the automatic voltage regulator of the generator so that the reactive power of the set value set by the reactive power setting device flows, and a system bus failure, and the system bus to the load or from the generator to the system. When the reactive power to the bus is lost, the control change amount of the generator that tries to keep the reactive power from flowing from the system bus to the load or from the generator to the system bus is determined and the failure of the system bus is detected. And, which is constituted from a comparison circuit for interrupting the circuit breaker for connecting the system bus and premises system.
【0007】[0007]
【作用】本発明の系統連系保護検出装置によると、系統
母線から負荷へ、あるいは、発電機から系統母線へ、無
効電力設定器で設定された無効電力、すなわち常時一定
の無効電力を供給しているため、系統母線が故障し、停
電した場合系統母線から負荷へ、あるいは、発電機から
系統母線へ供給している無効電力は零となり、発電機か
らの無効電力と負荷の無効電力が一致する。そのため、
発電機は、系統母線から負荷へ、あるいは、発電機から
系統母線へ無効電力を流し続けようと作用して発電機の
無効電力制御の偏差信号が大きくなり、その偏差信号を
検出することにより系統母線と構内系統を接続する遮断
器を速に切り離すことができる。According to the system interconnection protection detecting device of the present invention, the reactive power set by the reactive power setting device, that is, constant constant reactive power, is supplied from the system bus to the load or from the generator to the system bus. Therefore, if the system bus fails and a power outage occurs, the reactive power supplied from the system bus to the load or from the generator to the system bus becomes zero, and the reactive power from the generator matches the reactive power of the load. I do. for that reason,
The generator acts to keep the reactive power flowing from the system bus to the load or from the generator to the system bus, and the deviation signal of the reactive power control of the generator becomes large. The circuit breaker that connects the bus and the premises system can be quickly disconnected.
【0008】[0008]
【実施例】以下、本発明の実施例を図1の自家発電設備
の系統連系システムの系統図について説明する。なお、
図2の従来例と同一符号を記したものは同一機能を有す
るものであり、その説明は省略する。DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to a system diagram of a system interconnection system for private power generation equipment in FIG. In addition,
Those denoted by the same reference numerals as those in the conventional example of FIG. 2 have the same functions, and the description thereof will be omitted.
【0009】図1において、21は発電機の無効電力を
検出する無効電力検出回路、22および23は構内負荷
6および7の無効電力を検出する無効電力検出回路であ
る。24は系統母線から負荷6および7へ、あるいは、
発電機2から系統母線へ流す無効電力を設定する無効電
力設定器、25は無効電力検出回路21,22,23で
検出した発電機2および負荷6、7の無効電力の検出値
と前記無効電力設定器24の出力を入力とする無効電力
制御回路で、発電機2の電圧を制御するAVR3に制御
信号25aを出力し、系統母線から負荷6,7へ、ある
いは、発電機2から系統母線へ供給する無効電力が無効
電力設定器24で設定した無効電力量となるよう制御す
る。一方、無効電力制御回路25で演算した無効電力設
定信号と無効電力検出信号との偏差量に応じた偏差信号
25bは、比較回路26へ出力される。比較回路26で
は無効電力制御回路25からの偏差信号25bのレベル
を設定値と比較し、偏差信号25bが設定値より大きく
なると、構内系統と系統母線を接続する遮断器5を遮断
するように構成している。In FIG. 1, reference numeral 21 denotes a reactive power detection circuit for detecting the reactive power of the generator, and reference numerals 22 and 23 denote reactive power detection circuits for detecting the reactive power of the local loads 6 and 7. 24 from the system bus to loads 6 and 7, or
A reactive power setting unit 25 for setting reactive power flowing from the generator 2 to the system bus; and 25, a reactive power detection value of the generator 2 and the loads 6, 7 detected by the reactive power detection circuits 21, 22, 23, and the reactive power. A reactive power control circuit that receives the output of the setting unit 24 and outputs a control signal 25a to the AVR 3 that controls the voltage of the generator 2, and from the system bus to the loads 6, 7 or from the generator 2 to the system bus. The supplied reactive power is controlled to be the reactive power amount set by the reactive power setting unit 24. On the other hand, a deviation signal 25 b corresponding to the deviation between the reactive power setting signal calculated by the reactive power control circuit 25 and the reactive power detection signal is output to the comparison circuit 26. The comparison circuit 26 compares the level of the deviation signal 25b from the reactive power control circuit 25 with a set value, and when the deviation signal 25b becomes larger than the set value, shuts off the circuit breaker 5 that connects the local system and the system bus. doing.
【0010】次に、本実施例の動作について説明する。
図1の如く構成した系統連系システムにおいて、構内負
荷が大きい場合は、発電機2並びに系統母線1より負荷
に電力が供給され、構内負荷が軽い場合は発電機2の出
力は負荷6,7と系統母線1へ電力を供給するいわゆる
逆潮流が行われる。発電機2からの無効電力は無効電力
検出回路21で検出され、また構内負荷6および7の無
効電力は無効電力検出回路22および23にて検出さ
れ、無効電力制御回路25に入力される。無効電力制御
回路25には系統母線1から負荷6,7へ、あるいは、
発電機2から系統母線1へ供給する無効電力を設定する
無効電力設定器24の信号も入力されている。これらの
無効電力の検出値および設定値は無効電力制御回路25
で演算され、その出力は発電機2の励磁用のAVR3に
入力され、AVR3にて発電機2の励磁を制御し、系統
母線1から負荷6,7へ、あるいは、発電機2から系統
母線1へ供給される無効電力が無効電力設定器24で設
定された値になるように調整される。この時無効電力制
御回路25の偏差、即ち、無効電力検出器21,22,
23で検出された発電機2と負荷6,7の無効電力検出
信号と無効電力設定器24で設定された無効電力設定信
号との偏差量は常に零になる。Next, the operation of this embodiment will be described.
In the system interconnection system configured as shown in FIG. 1, when the premises load is large, power is supplied to the load from the generator 2 and the system bus 1, and when the premises load is light, the output of the generator 2 is the load 6, A so-called reverse power flow for supplying power to the system bus 1 is performed. The reactive power from the generator 2 is detected by the reactive power detection circuit 21, and the reactive power of the premises loads 6 and 7 is detected by the reactive power detection circuits 22 and 23 and input to the reactive power control circuit 25. The reactive power control circuit 25 has a connection from the system bus 1 to the loads 6 and 7, or
The signal of the reactive power setting unit 24 for setting the reactive power supplied from the generator 2 to the system bus 1 is also input. The detected and set values of these reactive powers are stored in the reactive power control circuit 25.
The output is input to the AVR 3 for excitation of the generator 2, and the excitation of the generator 2 is controlled by the AVR 3, and the system bus 1 to the loads 6 and 7, or the generator 2 to the system bus 1 Is adjusted so that the reactive power supplied to the reactive power setting unit 24 becomes a value set by the reactive power setting unit 24. At this time, the deviation of the reactive power control circuit 25, that is, the reactive power detectors 21, 22,
The deviation between the reactive power detection signals of the generator 2 and the loads 6 and 7 detected at 23 and the reactive power setting signal set at the reactive power setting unit 24 is always zero.
【0011】このように無効電力が制御されている系統
連系システムにおいて、系統母線1に事故が発生し電力
系統に停電が発生した場合に、系統母線1から負荷6,
7へ、あるいは、発電機2から系統母線1へ供給されて
いた無効電力は供給出来なくなる。系統母線1から負荷
6,7へ、あるいは、発電機2から系統母線1への無効
電力供給がされないと、構内負荷6、7が要求する無効
電力は全て発電機2から供給することになる。ここで、
系統母線1から負荷6,7へ供給している無効電流が消
失した場合を見ると無効電力制御回路25は系統母線1
からの無効電力を増加させる様に、すなわち発電機2の
電圧を減少させるように動作するが、系統母線から負荷
6,7への無効電力は供給されないため、無効電力制御
回路25の偏差信号25b即ち、無効電力検出器21,
22,23で検出された発電機2と負荷6,7の無効電
力検出信号と無効電力設定器24で設定された無効電力
設定信号との偏差量は+側に大きくなり、比較回路26
の動作レベルに達し、比較回路26は系統母線と構内系
統を接続する遮断器5にしゃ断信号を出力し、遮断器5
を切り離すことになる。また、発電機2から系統母線1
に供給している無効電流が消失した場合を見ると、無効
電力制御回路25は、発電機2から系統母線1への無効
電力を増加させる様に、すなわち、発電機2の電圧を増
加させるように動作するが、発電機2から系統母線1に
無効電力が供給できないため無効電力制御回路25の偏
差信号25bは一側に大きくなり、比較回路26の動作
レベルに達し、比較回路26は系統母線と構内系統を接
続する遮断器5にしゃ断信号を出力し、遮断器5を切り
離すことになる。In the system interconnection system in which the reactive power is controlled as described above, if an accident occurs in the system bus 1 and a power outage occurs in the power system, the load from the system bus 1 to the load 6,
7, or the reactive power supplied from the generator 2 to the system bus 1 cannot be supplied. If reactive power is not supplied from the system bus 1 to the loads 6 and 7 or from the generator 2 to the system bus 1, all the reactive power required by the local loads 6 and 7 is supplied from the generator 2. here,
Looking at the case where the reactive current supplied from the system bus 1 to the loads 6 and 7 disappears, the reactive power control circuit 25 determines that the system bus 1
However, since the reactive power is not supplied from the system bus to the loads 6 and 7, the deviation signal 25 b of the reactive power control circuit 25 is increased. That is, the reactive power detector 21,
The deviation between the reactive power detection signals of the generator 2 and the loads 6 and 7 detected at 22 and 23 and the reactive power setting signal set by the reactive power setting unit 24 increases to the + side, and the comparison circuit 26
, The comparison circuit 26 outputs a cutoff signal to the circuit breaker 5 connecting the system bus and the local system, and the circuit breaker 5
Will be separated. Also, from the generator 2 to the system bus 1
When the reactive current supplied to the power supply disappears, the reactive power control circuit 25 increases the reactive power from the generator 2 to the system bus 1, that is, increases the voltage of the generator 2. However, since reactive power cannot be supplied from the generator 2 to the system bus 1, the deviation signal 25b of the reactive power control circuit 25 increases to one side, reaches the operation level of the comparison circuit 26, and the comparison circuit 26 Then, a shutoff signal is output to the circuit breaker 5 that connects the local system and the circuit breaker 5 is disconnected.
【0012】[0012]
【発明の効果】以上説明したように、本発明は、系統母
線から負荷へ、あるいは、発電機から系統母線へ常時一
定の無効電力を流すように発電機の出力電圧を制御して
おき、系統母線の故障時に生じる系統母線から負荷へ、
あるいは、発電機から系統母線へ流れていた無効電流の
消失を回復しようとする発電機制御信号の変化量を判別
して系統母線の故障を検出するように構成したものであ
るので、電力系統停止時に配電用変電所からの信号を受
け無くても構内の電力情報を基に電力系統の停止を検出
することができるため、受電線送り出し遮断器と自家発
電設備需要家受電点遮断器との間に高価な転送遮断装置
を設けること無く、速やかに受電点遮断器を切り離すこ
とができる。As described above, according to the present invention, the output voltage of the generator is controlled so that constant reactive power always flows from the system bus to the load or from the generator to the system bus. From the system bus to the load that occurs when a bus failure occurs,
Alternatively, the system is configured to detect a change in the generator control signal for recovering the disappearance of the reactive current flowing from the generator to the system bus and to detect a failure of the system bus. Sometimes a power system stop can be detected based on the power information on the premises without receiving a signal from the distribution substation, so the power transmission circuit breaker between the receiving line sending circuit breaker and the private power generation facility customer receiving point circuit breaker can be detected. The power receiving point breaker can be quickly disconnected without providing an expensive transfer blocking device.
【図1】本発明の一実施例である自家発電設備の系統連
系システムの系統図。FIG. 1 is a system diagram of a system interconnection system for private power generation equipment according to an embodiment of the present invention.
【図2】従来の自家発電設備の系統連系システムの系統
図。FIG. 2 is a system diagram of a conventional interconnection system for private power generation equipment.
1…系統母線、2…交流発電機、3…自動電圧調整装
置、4,5…遮断器、6,7…構内負荷、8…不足電圧
継電器、9…過電圧継電器、10…過電圧継電器、11
…過電流継電器、12…方向地絡継電器、13…逆電力
継電器、14…配電用変電所、15…転送遮断装置、1
6,17…断路器、21,22,23…無効電力検出回
路、24…無効電力設定器、25…無効電力制御回路、
26…比較回路。DESCRIPTION OF SYMBOLS 1 ... System bus, 2 ... Alternator, 3 ... Automatic voltage regulator, 4, 5 ... Breaker, 6, 7 ... Premise load, 8 ... Undervoltage relay, 9 ... Overvoltage relay, 10 ... Overvoltage relay, 11
... overcurrent relay, 12 ... directional ground fault relay, 13 ... reverse power relay, 14 ... distribution substation, 15 ... transfer interruption device, 1
6, 17: disconnecting switch, 21, 22, 23: reactive power detection circuit, 24: reactive power setting device, 25: reactive power control circuit,
26 ... Comparison circuit.
Claims (1)
断器を介して系統母線と接続している系統連系の保護検
出装置において、前記系統母線から負荷へあるいは発電
機から系統母線へ流す無効電力を設定する無効電力設定
器と、前記発電機及び負荷の無効電力を検出する無効電
力検出回路と、前記無効電力設定器の設定信号と前記無
効電力検出回路の検出信号を入力し、系統母線から負荷
へあるいは発電機から系統母線へ常時前記無効電力設定
器で設定した設定値の無効電力を流すように前記発電機
の自動電圧調整装置を制御する無効電力制御回路と、系
統母線が故障し、系統母線から負荷へあるいは発電機か
ら系統母線への無効電力が消失したときに、系統母線か
ら負荷へあるいは発電機から系統母線へ無効電力を流し
続けようとする発電機の制御変化量を判別して系統母線
の故障を検出し、系統母線と構内系統を接続する遮断器
を遮断する比較回路とからなることを特徴とする系統連
系保護検出装置。1. A protection detection device for a system interconnection in which a premises system connected to a generator and a load is connected to a system bus via a circuit breaker, wherein the system bus to the load or the generator to the system bus. A reactive power setting device for setting reactive power to flow, a reactive power detection circuit for detecting reactive power of the generator and the load, and a setting signal of the reactive power setting device and a detection signal of the reactive power detection circuit, A reactive power control circuit that controls the automatic voltage regulator of the generator so that the reactive power of the set value set by the reactive power setting device always flows from the system bus to the load or from the generator to the system bus; When a fault occurs and the reactive power from the system bus to the load or from the generator to the system bus disappears, power generation that tries to keep the reactive power from flowing from the system bus to the load or from the generator to the system bus A system interconnection protection / detection device, comprising: a comparison circuit that determines a control change amount of a machine, detects a failure of a system bus, and shuts off a circuit breaker that connects the system bus and a local system.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP5000233A JP2860740B2 (en) | 1993-01-05 | 1993-01-05 | Grid connection protection detector |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP5000233A JP2860740B2 (en) | 1993-01-05 | 1993-01-05 | Grid connection protection detector |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH06209525A JPH06209525A (en) | 1994-07-26 |
JP2860740B2 true JP2860740B2 (en) | 1999-02-24 |
Family
ID=11468255
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP5000233A Expired - Fee Related JP2860740B2 (en) | 1993-01-05 | 1993-01-05 | Grid connection protection detector |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP2860740B2 (en) |
Families Citing this family (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPWO2004042883A1 (en) * | 2002-11-06 | 2006-03-09 | 三菱電機株式会社 | Protective relay |
CN102904268A (en) * | 2012-11-07 | 2013-01-30 | 山东电力集团公司莱芜供电公司 | Three-joint-regulation reactive power compensation system |
Family Cites Families (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS6046735A (en) * | 1983-08-24 | 1985-03-13 | 株式会社日立製作所 | Method of disassembling parallel power system |
-
1993
- 1993-01-05 JP JP5000233A patent/JP2860740B2/en not_active Expired - Fee Related
Also Published As
Publication number | Publication date |
---|---|
JPH06209525A (en) | 1994-07-26 |
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