JP4641287B2 - Commutation type DC circuit breaker - Google Patents

Commutation type DC circuit breaker Download PDF

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JP4641287B2
JP4641287B2 JP2006172467A JP2006172467A JP4641287B2 JP 4641287 B2 JP4641287 B2 JP 4641287B2 JP 2006172467 A JP2006172467 A JP 2006172467A JP 2006172467 A JP2006172467 A JP 2006172467A JP 4641287 B2 JP4641287 B2 JP 4641287B2
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commutation
circuit
main
capacitor
terminal
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JP2008004373A (en
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真聡 鈴木
佳彦 松田
明彦 渡邉
直輝 川村
勝 芳賀
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Hitachi Ltd
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Description

本発明は主開閉器を開極後、転流スイッチを投入して振動転流電流を主回路電流に重畳して遮断する転流式直流遮断器に関するものである。   The present invention relates to a commutation type DC circuit breaker in which a commutation switch is turned on after a main switch is opened to interrupt a vibrational commutation current by superimposing it on a main circuit current.

従来の転流式直流遮断器は、例えば特許文献1(特開2000−50431号公報)に開示されるように、収納箱の前面下方に主開閉器を設置し、その背後に可飽和リアクトルや非直線抵抗器を、その上部に転流コンデンサを、転流コンデンサの前方には制御操作機器を配置し、残る空間を利用して各種母線や接続導体を配置している。   A conventional commutation type DC circuit breaker has a main switch installed below the front of a storage box and a saturable reactor behind the storage box as disclosed in, for example, Patent Document 1 (Japanese Patent Laid-Open No. 2000-50431). A non-linear resistor, a commutation capacitor above it, a control operation device in front of the commutation capacitor, and various buses and connecting conductors are arranged using the remaining space.

そして、主回路に過大な電流が流れた場合、主開閉器が開極した後、転流スイッチを投入することで、転流コンデンサからの放電に伴う高周波交流電流、即ち振動転流電流が主開閉器に供給される。この振動転流電流が主回路を流れる主回路電流に重畳され、主回路電流に電流零点が発生することで、過大な主回路電流を遮断するようにしている。   When an excessive current flows in the main circuit, the high frequency alternating current accompanying the discharge from the commutation capacitor, that is, the oscillating commutation current, is main by turning on the commutation switch after the main switch is opened. Supplied to the switch. This oscillating commutation current is superimposed on the main circuit current flowing through the main circuit, and a current zero point is generated in the main circuit current, so that the excessive main circuit current is cut off.

特開2000−50431号公報JP 2000-50431 A

上述のように、主回路電流を遮断する場合には、電流零点を生じさせて速やかに遮断する必要があるために、主回路電流よりも大きな振動転流電流を供給する必要がある。しかし、大きな振動転流電流を供給しようとしても、主開閉器に接続される転流回路に含まれるインダクタンス成分が振動転流電流を抑制するために、主回路電流に零点を生じさせるためには、転流コンデンサの容量及び充電電圧を増加させなければならず、これが転流コンデンサを大型化させることになり、結果的に、転流式直流遮断器全体を大型化させる問題がある。   As described above, when the main circuit current is interrupted, it is necessary to generate a current zero point and immediately interrupt the current, so that it is necessary to supply an oscillating commutation current larger than the main circuit current. However, to supply a large oscillating commutation current, the inductance component included in the commutation circuit connected to the main switch suppresses the oscillating commutation current. The capacity and charging voltage of the commutation capacitor must be increased, which increases the size of the commutation capacitor, resulting in a problem of increasing the size of the entire commutation type DC circuit breaker.

本発明の目的は、転流コンデンサの容量及び充電電圧を増加させることなく、電流零点を発生させて主回路電流を速やかに遮断できる転流式直流遮断器を提供することにある。   An object of the present invention is to provide a commutation type DC circuit breaker capable of generating a current zero point and quickly cutting off a main circuit current without increasing the capacity and charging voltage of the commutation capacitor.

本発明は上記目的を達成するために、転流コンデンサの端子を転流コンデンサの頂部よりも下方に設け、この端子の一方に主回路の端子を近接させて接続するようにしたのである。   In order to achieve the above object, according to the present invention, the terminal of the commutation capacitor is provided below the top of the commutation capacitor, and the terminal of the main circuit is connected close to one of the terminals.

このように、転流コンデンサの端子を転流コンデンサの頂部よりも下方に設け、この端子に対して主回路の端子を近接させて接続するようにしたので、転流コンデンサと主回路を繋ぐ接続導体長を短縮することができる。したがって、接続導体を短縮した分、転流コンデンサから主回路までのインダクタンス成分を減少させることができ、結果的に、転流コンデンサの容量及び充電電圧を増加させることなく、電流零点を速やかに発生させて主回路電流を速やかに遮断できる転流式直流遮断器を得ることができる。   In this way, the terminal of the commutation capacitor is provided below the top of the commutation capacitor, and the terminal of the main circuit is connected close to this terminal, so the connection that connects the commutation capacitor and the main circuit The conductor length can be shortened. Therefore, the inductance component from the commutation capacitor to the main circuit can be reduced by shortening the connection conductor, and as a result, the current zero point can be generated quickly without increasing the capacity and charging voltage of the commutation capacitor. Thus, it is possible to obtain a commutation type DC circuit breaker that can quickly cut off the main circuit current.

以下、本発明による転流式直流遮断器の実施の形態を図1及び図2に基づいて説明する。   Hereinafter, an embodiment of a commutation type DC circuit breaker according to the present invention will be described with reference to FIGS.

キュービクルを構成する収納箱1内には、中間支持梁F1や上部支持梁F2等複数の支持梁が固定されている。このような収納箱1の前面側上半分には引込み端子台2が設けられている。この引込み端子台2の下部には、主開閉器3と主開閉器駆動装置4が設置されている。主開閉器3の上部には、転流スイッチ5が近接配置されており、主開閉器駆動装置4の背後には、可飽和リアクトル6が配置されている。そして、可飽和リアクトル6の上方で転流スイッチ5の背後となる位置には非直線抵抗器7が配置されている。   A plurality of support beams such as the intermediate support beam F1 and the upper support beam F2 are fixed in the storage box 1 constituting the cubicle. A lead-in terminal block 2 is provided in the upper half of the front side of the storage box 1. A main switch 3 and a main switch driving device 4 are installed at the lower part of the lead-in terminal block 2. A commutation switch 5 is arranged close to the upper part of the main switch 3, and a saturable reactor 6 is arranged behind the main switch driving device 4. A non-linear resistor 7 is disposed at a position behind the commutation switch 5 above the saturable reactor 6.

一方、前記引込み端子台2の背後には、複数の制御操作機器8が設置され、これら制御操作機器8の背後で前記転流スイッチ5や非直線抵抗器7の上方となる位置に転流コンデンサ9が設置され、この転流コンデンサ9は、端子10A,10Bを下端部に向けて配置している。   On the other hand, a plurality of control operation devices 8 are installed behind the lead-in terminal block 2, and the commutation capacitors are located behind the control operation devices 8 and above the commutation switch 5 and the non-linear resistor 7. 9, the commutation capacitor 9 is arranged with the terminals 10A and 10B facing the lower end.

尚、これらが配置された以外の収納箱1内の空間を利用して各種母線や接続導体が配置されている。そして、主開閉器3及び転流スイッチ5は、断路部11A〜11Cを介して上記各機器や母線及び接続導体に連結されている。そして、主開閉器駆動装置4を収納箱1外に向かって引き出すことで、前記断路部11A〜11Cは切り離され、主開閉器3の上部の転流スイッチ5も引き出されて保守点検を行うことができる。   Various bus bars and connection conductors are arranged using the space in the storage box 1 other than those where these are arranged. And the main switch 3 and the commutation switch 5 are connected with said each apparatus, a bus-bar, and a connection conductor via disconnection part 11A-11C. Then, by pulling out the main switch driving device 4 toward the outside of the storage box 1, the disconnecting portions 11A to 11C are disconnected, and the commutation switch 5 at the upper part of the main switch 3 is also pulled out for maintenance inspection. Can do.

ところで、図1に示すように構成された転流式直流遮断器の回路は、図2に示すような回路図を構成しており、収納箱1外には、直流電源12と負荷13とが接続されている。主開閉器3には操作部である主開閉器駆動装置4が接続されている。また、直流電源12から主開閉器3と可飽和リアクトル6を経由して負荷13に接続される主回路において、これら主開閉器3と可飽和リアクトル6とは前後逆に接続されていてもよく、さらに、この主回路と並列に接続された転流スイッチ5と転流コンデンサ9とからなる転流回路において、これら転流スイッチ5と転流コンデンサ9とは前後逆に接続されていてもよい。   By the way, the circuit of the commutation type DC circuit breaker configured as shown in FIG. 1 has a circuit diagram as shown in FIG. 2, and a DC power source 12 and a load 13 are provided outside the storage box 1. It is connected. The main switch 3 is connected to a main switch driving device 4 as an operation unit. Further, in the main circuit connected to the load 13 from the DC power source 12 via the main switch 3 and the saturable reactor 6, the main switch 3 and the saturable reactor 6 may be connected in the reverse direction. Furthermore, in the commutation circuit including the commutation switch 5 and the commutation capacitor 9 connected in parallel with the main circuit, the commutation switch 5 and the commutation capacitor 9 may be connected in the reverse direction. .

上記のように転流コンデンサ9の端子10A,10Bを下部に設けることで、端子10Aに対して前記主回路の端子14及び非直線抵抗器7の端子を近接させて接続させることができると共に、端子10Bに転流スイッチ5の端子15を近接させて接続することができる。その結果、これら端子10A,10Bに接続される接続導体の長さが少なくとも転流コンデンサ9の高さ寸法分だけ短縮させることができ、その結果、転流回路に含まれるインダクタンス成分が小さくなる。これにより、転流回路に流れる振動転流電流の抑制はなくなるので、転流コンデンサ9の容量や充電電圧を増加させることなく主回路を流れる主回路電流に速やかに零点を生じさせることができ、主回路電流を速やかに遮断することができる。以上から、従来と同じ仕様の転流式直流遮断器に較べて、遮断性能を向上させることができる。   By providing the terminals 10A and 10B of the commutation capacitor 9 at the lower portion as described above, the terminal 14 of the main circuit and the terminal of the non-linear resistor 7 can be brought close to and connected to the terminal 10A. The terminal 15 of the commutation switch 5 can be connected close to the terminal 10B. As a result, the length of the connecting conductor connected to these terminals 10A and 10B can be reduced by at least the height dimension of the commutation capacitor 9, and as a result, the inductance component included in the commutation circuit is reduced. This eliminates the suppression of the oscillating commutation current flowing in the commutation circuit, so that a zero point can be quickly generated in the main circuit current flowing through the main circuit without increasing the capacity or charging voltage of the commutation capacitor 9. The main circuit current can be cut off quickly. From the above, the breaking performance can be improved as compared with the commutation type DC breaker having the same specifications as the conventional one.

ところで以上の実施の形態では、転流コンデンサ9の端子10A,10Bを転流コンデンサ9の下方に設けたものである。しかし、転流コンデンサ9を横置きにして端子10A,10Bを横方向に突出するように設けてもよく、また、例えば、端子10Aを転流コンデンサ9の下部に設け、端子10Bを転流コンデンサ9の横方向に設けるなど、他機器の配置や接続導体に引き回しを考慮して端子10A,10Bの引き出し方向を適宜変更することは妨げない。ただ、いずれにしても、コンデンサ9の頂部よりも下方に端子10A,10Bを設けることは必須である。   By the way, in the above embodiment, the terminals 10 </ b> A and 10 </ b> B of the commutation capacitor 9 are provided below the commutation capacitor 9. However, the commutation capacitor 9 may be placed horizontally and the terminals 10A and 10B may be provided so as to protrude laterally. For example, the terminal 10A is provided below the commutation capacitor 9, and the terminal 10B is provided as the commutation capacitor. For example, it is not hindered to appropriately change the direction in which the terminals 10A and 10B are drawn in consideration of the arrangement of other devices and the routing of the connecting conductors. However, in any case, it is essential to provide the terminals 10 </ b> A and 10 </ b> B below the top of the capacitor 9.

本発明による転流式直流遮断器の位置実施の形態を示す実装図。The mounting diagram which shows position embodiment of the commutation type DC circuit breaker by this invention. 図1に示す転流式直流遮断器の回路図。The circuit diagram of the commutation type DC circuit breaker shown in FIG.

符号の説明Explanation of symbols

1…収納箱、2…引込み端子台、3…主開閉器、4…主開閉器駆動装置、5…転流スイッチ、6…可飽和リアクトル、7…非直線抵抗器、8…制御操作機器、9…転流コンデンサ、10A,10B,14,15…端子、11A〜11C…断路部、12…直流電源、13…負荷、F1…中間支持梁、F2…上部支持梁。   DESCRIPTION OF SYMBOLS 1 ... Storage box, 2 ... Retraction terminal block, 3 ... Main switch, 4 ... Main switch drive device, 5 ... Commutation switch, 6 ... Saturable reactor, 7 ... Non-linear resistor, 8 ... Control operation equipment, DESCRIPTION OF SYMBOLS 9 ... Commutation capacitor | condenser, 10A, 10B, 14, 15 ... Terminal, 11A-11C ... Disconnection part, 12 ... DC power supply, 13 ... Load, F1 ... Intermediate support beam, F2 ... Upper support beam

Claims (5)

直流電源と負荷との間に接続され主回路電流を入り切りする主開閉器を含む主回路と、この主回路に対し並列に転流コンデンサと転流スイッチとからなる転流回路を接続して構成される転流式直流遮断器において、前記転流コンデンサの頂部よりも下方に端子を設け、かつ、この端子の一方に前記主回路の端子を近接させて接続したことを特徴とする転流式直流遮断器。   Consists of a main circuit that includes a main switch connected between the DC power supply and the load and switches the main circuit current on and off, and a commutation circuit comprising a commutation capacitor and a commutation switch connected in parallel to the main circuit. The commutation type DC circuit breaker is characterized in that a terminal is provided below the top of the commutation capacitor, and the terminal of the main circuit is connected in close proximity to one of the terminals. DC circuit breaker. 直流電源と負荷との間に接続され主回路電流を入り切りする主開閉器を含む主回路と、この主回路に対し並列に転流コンデンサと転流スイッチとからなる転流回路を接続して構成される転流式直流遮断器において、前記転流コンデンサの下部に端子を設け、かつ、この端子の一方に前記主回路の端子を近接させて接続したことを特徴とする転流式直流遮断器。   Consists of a main circuit that includes a main switch connected between the DC power supply and the load and switches the main circuit current on and off, and a commutation circuit comprising a commutation capacitor and a commutation switch connected in parallel to the main circuit. The commutation type DC circuit breaker is characterized in that a terminal is provided below the commutation capacitor, and the terminal of the main circuit is connected to one of the terminals in close proximity. . 直流電源と負荷との間に接続され主回路電流を入り切りする主開閉器と可飽和リアクトルを含む主回路と、この主回路に並列に接続された転流コンデンサと転流スイッチとからなる転流回路と、前記転流回路に並列に接続された非直線抵抗器とを備えた転流式直流遮断器において、前記転流コンデンサの下部に端子を設け、かつ、この端子の一方に前記主回路の端子を近接させて接続し、前記転流コンデンサの他方の端子に前記転流回路の転流スイッチを接近させて接続したことを特徴とする転流式直流遮断器。   A commutation circuit comprising a main switch including a saturable reactor connected to a DC power source and a load, and a commutation capacitor and a commutation switch connected in parallel to the main circuit. In a commutation type DC circuit breaker comprising a circuit and a non-linear resistor connected in parallel to the commutation circuit, a terminal is provided below the commutation capacitor, and the main circuit is provided at one of the terminals. The commutation type DC circuit breaker is characterized in that a commutation switch of the commutation circuit is brought close to and connected to the other terminal of the commutation capacitor. 直流電源と負荷との間に接続され主回路電流を入り切りする主開閉器を含む主回路と、この主回路に対し並列に転流コンデンサと転流スイッチとからなる転流回路を接続して構成される転流式直流遮断器において、前記転流コンデンサの端子を転流コンデンサの頂部より下方で前記主回路側に接近する方向に設け、この端子の一方に前記主回路の端子を近接させて接続したことを特徴とする転流式直流遮断器。   Consists of a main circuit that includes a main switch connected between the DC power supply and the load and switches the main circuit current on and off, and a commutation circuit comprising a commutation capacitor and a commutation switch connected in parallel to the main circuit. In the commutation type DC circuit breaker, the terminal of the commutation capacitor is provided in a direction approaching the main circuit side below the top of the commutation capacitor, and the terminal of the main circuit is brought close to one of the terminals. A commutation type DC circuit breaker characterized by being connected. 収納箱の前面下方に主開閉器を設置し、その背後に可飽和リアクトルや非直線抵抗器を設置し、これら可飽和リアクトルや非直線抵抗器の上方に転流コンデンサを設置し、この転流コンデンサの前方に制御操作機器を配置し、かつ残る空間を利用して各種母線や接続線を配置した転流式直流遮断器において、前記転流コンデンサの下部に端子を設け、かつ、この端子の一方に前記主開閉器からの接続導体を接続したことを特徴とする転流式直流遮断器。   A main switch is installed below the front of the storage box, a saturable reactor or a non-linear resistor is installed behind it, and a commutation capacitor is installed above the saturable reactor or non-linear resistor. In the commutation type DC circuit breaker in which the control operation device is arranged in front of the capacitor and various buses and connection wires are arranged using the remaining space, a terminal is provided below the commutation capacitor, and the terminal A commutation type DC circuit breaker characterized in that a connection conductor from the main switch is connected to one side.
JP2006172467A 2006-06-22 2006-06-22 Commutation type DC circuit breaker Expired - Fee Related JP4641287B2 (en)

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Cited By (1)

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Publication number Priority date Publication date Assignee Title
CN107947106A (en) * 2017-11-27 2018-04-20 武汉船用电力推进装置研究所(中国船舶重工集团公司第七二研究所) A kind of direct current cutting system major loop topological structure

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TW200835105A (en) * 2007-02-08 2008-08-16 Hitachi Ltd DC switchgear provided with a commutation-type DC circuit breaker
KR102167948B1 (en) 2014-12-31 2020-10-20 엘에스일렉트릭(주) Dc circuit breaker and method for breaking of dc circuit breaker
CN109326984B (en) * 2017-07-31 2020-11-24 平高集团有限公司 Direct current fast switch handcart and direct current breaker cabinet using same

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JP2006014500A (en) * 2004-06-25 2006-01-12 Kawamura Electric Inc Cubicle

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Publication number Priority date Publication date Assignee Title
JPS5736733A (en) * 1980-08-14 1982-02-27 Tokyo Shibaura Electric Co
JPH01152909A (en) * 1987-12-09 1989-06-15 Hitachi Ltd Enclosed switchboard
JPH0367429A (en) * 1989-08-04 1991-03-22 Hitachi Ltd High-speed dc vacuum breaker
JP2000050431A (en) * 1998-07-30 2000-02-18 Hitachi Ltd Distribution board for dc circuit
JP2003259512A (en) * 2002-03-01 2003-09-12 Mitsubishi Electric Corp Switch gear
JP2004288478A (en) * 2003-03-24 2004-10-14 Toshiba Corp Direct current circuit breaker
JP2006014500A (en) * 2004-06-25 2006-01-12 Kawamura Electric Inc Cubicle

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN107947106A (en) * 2017-11-27 2018-04-20 武汉船用电力推进装置研究所(中国船舶重工集团公司第七二研究所) A kind of direct current cutting system major loop topological structure

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