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電源端子から電力の供給を受けて直流電力を蓄積するコンデンサと、コイルの通電状態に応じて可動鉄心と固定鉄心とを互いに接触または離間させる電磁石と、前記コンデンサと前記電磁石のコイルとを結ぶ通電回路を投入ボタンの投入動作に応答して閉成する制御基板と、前記可動鉄心に連結されて前記電磁石から発生した電磁力に伴う駆動力をリンク機構に伝達するシャフトと、前記リンク機構の駆動力に応じて可動接点と固定接点とを互いに接触または離間させる開閉器とを備え、前記通電回路の閉成に伴って前記電磁石から発生した電磁力に従って前記開閉器の可動接点と固定接点が互いに接触してなる電磁操作式開閉装置を投入動作させるに際して、直流電力を出力する投入用電源を前記電源端子に接続するとともに、前記投入ボタンを投入動作することを特徴とする電磁操作式開閉装置の投入方法。
A capacitor that receives DC power from the power supply terminal and stores DC power, an electromagnet that contacts or separates the movable iron core and the fixed iron core according to the energization state of the coil, and energization that connects the capacitor and the coil of the electromagnet A control board that closes a circuit in response to a closing operation of a closing button, a shaft that is connected to the movable iron core and transmits a driving force accompanying an electromagnetic force generated from the electromagnet to the link mechanism, and a drive of the link mechanism A switch that contacts or separates the movable contact and the fixed contact according to force, and the movable contact and the fixed contact of the switch are mutually connected according to the electromagnetic force generated from the electromagnet as the energization circuit is closed. When turning on the electromagnetically operated switchgear that comes into contact, a turning-on power supply that outputs DC power is connected to the power supply terminal, and The method of the input solenoid-operated switching devices, characterized in that the closing operation of the emissions.
電源端子又は補助電源端子から電力の供給を受けて直流電力を蓄積するコンデンサと、コイルの通電状態に応じて可動鉄心と固定鉄心とを互いに接触または離間させる電磁石と、前記コンデンサと前記電磁石のコイルとを結ぶ通電回路を投入ボタンの投入動作に応答して閉成する制御基板と、前記可動鉄心に連結されて前記電磁石から発生した電磁力に伴う駆動力をリンク機構に伝達するシャフトと、前記リンク機構の駆動力に応じて可動接点と固定接点とを互いに接触または離間させる開閉器とを備え、前記通電回路の閉成に伴って前記電磁石から発生した電磁力に従って前記開閉器の可動接点と固定接点が互いに接触してなる電磁操作式開閉装置を投入動作させるに際して、直流電力を出力する投入用電源を前記電源端子又は補助電源端子に接続するとともに、前記投入ボタンを投入動作することを特徴とする電磁操作式開閉装置の投入方法。
A capacitor that receives DC power from a power supply terminal or an auxiliary power supply terminal and stores DC power; an electromagnet that contacts or separates the movable iron core and the fixed iron core according to the energized state of the coil; and the coil of the capacitor and the electromagnet A control board that closes an energization circuit that connects to a closing operation in response to a closing operation of a closing button, a shaft that is connected to the movable iron core and transmits a driving force accompanying an electromagnetic force generated from the electromagnet to a link mechanism, and A switch that contacts or separates the movable contact and the fixed contact according to the driving force of the link mechanism, and the movable contact of the switch according to the electromagnetic force generated from the electromagnet when the energization circuit is closed When the electromagnetically operated switchgear in which the fixed contacts are in contact with each other is turned on, the power supply for output that outputs DC power is connected to the power supply terminal or the auxiliary power supply terminal. The method of the input solenoid-operated on-off device as well as connecting, characterized in that the closing operation of the closing button.
電源端子から電力の供給を受けて直流電力を蓄積するコンデンサと、コイルの通電状態に応じて可動鉄心と固定鉄心とを互いに接触または離間させる電磁石と、前記コンデンサと前記電磁石のコイルとを結ぶ通電回路を投入ボタンの投入動作に応答して閉成する制御基板と、前記可動鉄心に連結されて前記電磁石から発生した電磁力に伴う駆動力をリンク機構に伝達するシャフトと、前記リンク機構の駆動力に応じて可動接点と固定接点とを互いに接触または離間させる開閉器とを備え、前記通電回路の閉成に伴って前記電磁石から発生した電磁力に従って前記開閉器の可動接点と固定接点が互いに接触してなる電磁操作式開閉装置を複数台投入動作させるに際して、直流電力を出力する投入用電源を前記各電磁操作式開閉装置の電源端子に順次接続するとともに、前記各電磁操作式開閉装置の投入ボタンを順次投入動作することを特徴とする電磁操作式開閉装置の投入方法。
A capacitor that receives DC power from the power supply terminal and stores DC power, an electromagnet that contacts or separates the movable iron core and the fixed iron core according to the energization state of the coil, and energization that connects the capacitor and the coil of the electromagnet A control board that closes a circuit in response to a closing operation of a closing button, a shaft that is connected to the movable iron core and transmits a driving force accompanying an electromagnetic force generated from the electromagnet to the link mechanism, and a drive of the link mechanism A switch that contacts or separates the movable contact and the fixed contact according to force, and the movable contact and the fixed contact of the switch are mutually connected according to the electromagnetic force generated from the electromagnet as the energization circuit is closed. When a plurality of electromagnetically operated switchgears that are in contact with each other are turned on, a power supply for supplying DC power is supplied to the power supply terminal of each electromagnetically operated switchgear. As well as next connection method of the input solenoid-operated switching devices, characterized in that said sequential closing operation poured button for each solenoid-operated switching devices.
請求項1〜3のうちいずれか1項に記載の電磁操作式開閉装置の投入方法において、前記投入用電源は、直流電力を発生する電池と、前記電池の出力電力を交流電力に変換する電力変換器と、前記電力変換器の出力を整流する整流器と、前記整流器の出力を平滑化するフィルタとを備えてなることを特徴とする電磁操作式開閉装置の投入方法。
4. The method for turning on an electromagnetically operated switchgear according to any one of claims 1 to 3, wherein the turning-on power supply includes a battery that generates DC power and power that converts output power of the battery into AC power. An electromagnetically operated switchgear charging method comprising: a converter; a rectifier that rectifies the output of the power converter; and a filter that smoothes the output of the rectifier.
JP2004003255A2004-01-082004-01-08
Portable power supply for electromagnetically operated switchgear
Expired - LifetimeJP4492127B2
(en)
Direct current and alternating current contactor for remote telephone control system, has retaining coil connected to micro switch contact, that replaces magnetic coil to attract movable iron core, when magnetic coil is disconnected