A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
ELECTROMECHANICAL LOCK UTILIZING MAGNETIC FIELD FORCES
Electromechanical lock utilizing magnetic field forces. An actuator (206) is moved (1202) between a locked position (300) and an unlocked position (400). In the locked position (300), a first permanent magnet (208) directs (1204) a first magnetic field exerting a pushing force to move a first permanent magnet pin (202) so that rotation of a first axle (200) is blocked, and a second permanent magnet (210) directs (1206) a second magnetic field exerting a pulling force to move a second permanent magnet pin (204) so that the first axle (200) is kept uncoupled with a second axle (212). In the unlocked position (400), the first permanent magnet (208) directs (1208) a reversed first magnetic field exerting a pulling force to move the first permanent magnet pin (202) so that the first axle (200) is released to rotate, and the second permanent magnet (210) directs (1210) a reversed second magnetic field exerting a pushing force to move the second permanent magnet pin (204) so that the first axle (200) becomes coupled with the second axle (212).
ELECTROMECHANICAL LOCK UTILIZING MAGNETIC FIELD FORCES
Electromechanical lock utilizing magnetic field forces. An actuator (206) is moved (1202) between a locked position (300) and an unlocked position (400). In the locked position (300), a first permanent magnet (208) directs (1204) a first magnetic field exerting a pushing force to move a first permanent magnet pin (202) so that rotation of a first axle (200) is blocked, and a second permanent magnet (210) directs (1206) a second magnetic field exerting a pulling force to move a second permanent magnet pin (204) so that the first axle (200) is kept uncoupled with a second axle (212). In the unlocked position (400), the first permanent magnet (208) directs (1208) a reversed first magnetic field exerting a pulling force to move the first permanent magnet pin (202) so that the first axle (200) is released to rotate, and the second permanent magnet (210) directs (1210) a reversed second magnetic field exerting a pushing force to move the second permanent magnet pin (204) so that the first axle (200) becomes coupled with the second axle (212).
ELECTROMECHANICAL LOCK UTILIZING MAGNETIC FIELD FORCES
ELEKTROMECHANISCHES SCHLOSS UNTER VERWENDUNG VON MAGNETFELDKRÄFTEN
SERRURE ÉLECTROMÉCANIQUE UTILISANT DES FORCES DE CHAMP MAGNÉTIQUE
PIIRAINEN MIKA (author) / PUKARI MIKA (author)
2019-06-26
Patent
Electronic Resource
English