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A platform for research: civil engineering, architecture and urbanism
LOW-POWER-CONSUMPTION INTELLIGENT ELECTRIC LOCK MECHANISM
The present invention discloses a low-power-consumption intelligent electric lock mechanism, which includes a lock case, a lock-cylinder housing, a motor, a strike plate, a first reset spring, a central rod, a spiral propulsion structure and a holding block. The lock case is fixed within a door frame, the lock case and a lock inner housing form a chamber for accommodating the lock-cylinder housing, two ends of the central rod are respectively fixed to two side walls of the lock-cylinder housing, one end of the first reset spring is fixed within the strike plate, another end of the first reset spring is held against an inner wall of the lock-cylinder housing, one end of the spiral propulsion structure is mechanically connected with the motor, another end of the spiral propulsion structure is connected with the holding block, a top portion of the holding block is held against a bottom portion of the strike plate. When the motor is started, the spiral propulsion structure pulls back the holding block, the first reset spring drives the strike plate to be inserted into the lock-cylinder housing; when the motor is switched off, the spiral propulsion structure pushes out the holding block, the holding block drives the strike plate to rise and protrude out of the lock-cylinder housing.
LOW-POWER-CONSUMPTION INTELLIGENT ELECTRIC LOCK MECHANISM
The present invention discloses a low-power-consumption intelligent electric lock mechanism, which includes a lock case, a lock-cylinder housing, a motor, a strike plate, a first reset spring, a central rod, a spiral propulsion structure and a holding block. The lock case is fixed within a door frame, the lock case and a lock inner housing form a chamber for accommodating the lock-cylinder housing, two ends of the central rod are respectively fixed to two side walls of the lock-cylinder housing, one end of the first reset spring is fixed within the strike plate, another end of the first reset spring is held against an inner wall of the lock-cylinder housing, one end of the spiral propulsion structure is mechanically connected with the motor, another end of the spiral propulsion structure is connected with the holding block, a top portion of the holding block is held against a bottom portion of the strike plate. When the motor is started, the spiral propulsion structure pulls back the holding block, the first reset spring drives the strike plate to be inserted into the lock-cylinder housing; when the motor is switched off, the spiral propulsion structure pushes out the holding block, the holding block drives the strike plate to rise and protrude out of the lock-cylinder housing.
LOW-POWER-CONSUMPTION INTELLIGENT ELECTRIC LOCK MECHANISM
MECHANISMUS FÜR INTELLIGENTES ELEKTRISCHES SCHLOSS MIT GERINGEM ENERGIEVERBRAUCH
MÉCANISME DE VERROUILLAGE ÉLECTRIQUE INTELLIGENT À FAIBLE CONSOMMATION D'ÉNERGIE
LEUNG LOK SHUN (author) / WONG PUI LING (author)
2022-07-06
Patent
Electronic Resource
English
LOW-POWER-CONSUMPTION INTELLIGENT ELECTRIC LOCK MECHANISM
| European Patent Office | 2021
Low-power-consumption intelligent electric lock mechanism
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