EP 1090404 B1 20030820 - MULTI-POLE LOW VOLTAGE CIRCUIT BREAKER WITH HIGH ELECTRODYNAMIC STRENGTH, WHEREBY THE SHAFT OF THE POLES IS ARRANGED WITHIN THE POLE CONTAINER COMPARTMENT
Title (en)
MULTI-POLE LOW VOLTAGE CIRCUIT BREAKER WITH HIGH ELECTRODYNAMIC STRENGTH, WHEREBY THE SHAFT OF THE POLES IS ARRANGED WITHIN THE POLE CONTAINER COMPARTMENT
Title (de)
MEHRPOLIGER NIEDERSPANNUNGSLEISTUNGSCHALTER MIT HOHER ELEKTRODYNAMISCHER FESTIGKEIT, DEREN POLSCHAFT IN DEM AUFNAHMERAUM DER POLE ANGEORDNET IST
Title (fr)
DISJONCTEUR MULTIPOLAIRE BASSE TENSION DE TENUE ELECTRODYNAMIQUE ELEVEE, DONT L'ARBRE DES POLES EST DISPOSE DANS LE COMPARTIMENT DE LOGEMENT DES POLES
Publication
Application
Priority
- FR 9901329 W 19990607
- FR 9808174 A 19980624
Abstract (en)
[origin: US6317019B1] A low-voltage multipole circuit breaker with high electrodynamic strength comprises a case made of insulating material, subdivided into a front compartment housing an operating mechanism commanding opening and closing of the circuit breaker and a rear compartment separated from the front compartment by an intermediate wall. The rear compartment is itself subdivided into individual compartments by separating partitions, each individual compartment housing one of the poles of the circuit breaker. The operating mechanism is linked to a pole shaft common to all the poles. The pole shaft is located in the rear compartment and supported by bearings passing through the separating partitions.
IPC 1-7
IPC 8 full level
H01H 33/42 (2006.01); H01H 71/10 (2006.01); H01H 1/22 (2006.01); H01H 3/30 (2006.01)
CPC (source: EP KR US)
H01H 71/10 (2013.01 - KR); H01H 71/1009 (2013.01 - EP US); H01H 1/226 (2013.01 - EP US); H01H 3/30 (2013.01 - EP US); H01H 2009/0088 (2013.01 - EP US)
Designated contracting state (EPC)
AT BE CH CY DE DK ES FI FR GB GR IE IT LI LU MC NL PT SE
DOCDB simple family (publication)
US 6317019 B1 20011113; AR 019704 A1 20020313; AT E247863 T1 20030915; AU 4045799 A 20000110; AU 741762 B2 20011206; BR 9909406 A 20001212; BR 9909406 B1 20121002; CA 2331013 A1 19991229; CA 2331013 C 20080805; CN 1153238 C 20040609; CN 1298547 A 20010606; DE 69910575 D1 20030925; DE 69910575 T2 20040624; DK 1090404 T3 20031208; EA 002504 B1 20020627; EA 200001051 A1 20010625; EP 1090404 A1 20010411; EP 1090404 B1 20030820; ES 2207221 T3 20040516; FR 2780549 A1 19991231; FR 2780549 B1 20000908; HU 223295 B1 20040528; HU P0101665 A2 20010928; HU P0101665 A3 20011029; ID 27612 A 20010412; IL 138743 A0 20011031; IL 138743 A 20031210; JP 2002519813 A 20020702; JP 4137380 B2 20080820; KR 100557263 B1 20060307; KR 20010043240 A 20010525; MY 122376 A 20060429; NO 20005626 D0 20001107; NO 20005626 L 20001107; NO 319127 B1 20050620; NZ 509024 A 20020828; OA 11638 A 20041122; PL 190921 B1 20060228; PL 343929 A1 20010910; PT 1090404 E 20040130; TR 200003327 T2 20010321; TW 501156 B 20020901; UA 54596 C2 20030317; WO 9967800 A1 19991229
DOCDB simple family (application)
US 71987600 A 20001219; AR P990103013 A 19990623; AT 99923677 T 19990607; AU 4045799 A 19990607; BR 9909406 A 19990607; CA 2331013 A 19990607; CN 99805429 A 19990607; DE 69910575 T 19990607; DK 99923677 T 19990607; EA 200001051 A 19990607; EP 99923677 A 19990607; ES 99923677 T 19990607; FR 9808174 A 19980624; FR 9901329 W 19990607; HU P0101665 A 19990607; ID 20002242 A 19990607; IL 13874399 A 19990607; JP 2000556383 A 19990607; KR 20007012184 A 20001102; MY PI9902283 A 19990607; NO 20005626 A 20001107; NZ 50902499 A 19990607; OA 1200000357 A 19990607; PL 34392999 A 19990607; PT 99923677 T 19990607; TR 200003327 T 19990607; TW 88109025 A 19990601; UA 00116342 A 19990607