A device for preventing unwanted opening of a locked enclosure includes a lock bolt moveable between a locked position and an unlocked position. A face gear is meshable with and rotatable by the worm gear between locking and unlocking positions when the worm gear is driven in the first and second directions, respectively. A blocker member is rotatable between first and second positions. A biasing member is operatively coupled to the face gear and the blocker member to bias the blocker member in a biasing direction. A sliding member selectively disengages the blocker member to allow the blocker member to rotate in the biasing direction. A lever arm is operatively coupled to the sliding member such that the lever arm is in the disengaged and engageable positions when the sliding member engages the blocker member in the first and second positions, respectively.

A heating cooking apparatus includes a main body, a door, a latch head provided at the door, a holding member provided at the main body and that holds the latch head to cause the door to be in a locked state, a door opening button, a door unlock key, a displacement transmission mechanism that transmits a displacement of the door opening button to cause that displacement to release the locked state of the door by the holding member, a locking cam that is movable between a limiting position at which at least one of the displacement of the door opening button and the transmission by the displacement transmission mechanism is limited, and a non-limiting position at which neither is limited, and a driving unit that causes the locking cam to move to the non-limiting position in response to an operation of the door unlock key.

A lock can include a motor assembly, a gear assembly, and an unlocking assembly. The motor assembly can include a motor and a drive shaft. The gear assembly can include a cam, a pinion gear, and a pinion. The pinion gear can include a plurality of teeth disposed along only a portion of a perimeter of the pinion gear. The pinion gear can be configured to engage the pinion. The pinion can be configured to translate laterally to release a biasing member to unlock a door of a container.

A clutch engagement assembly for a door lock device includes a first shaft having at an end thereof an insertion end portion in which a channel is formed; a second drive shaft having a hollow engagement end portion into which the insertion end portion of the first shaft is inserted; a driving member which provides a driving force; and a pin member that is installed in a state of being elastically supported in the engagement end portion of the second shaft and is movable by the driving member so as to extending through (be inserted in) at least a part of the first shaft and at least a part of the second shaft, thereby causing a clutch engagement or a disengagement between a first shaft and a second shaft. The clutch engagement assembly may provide a relatively small size structure of the door lock device and a firm engagement force.

A driving force transmission mechanism is provided which includes an input switching clutch configured to selectively transmit, to the output shaft (output member), either one of the rotationally driving force applied to the electrically driven input gear (first input member) and the rotationally driving force applied to the manually driven input shaft (second input shaft). A speed reducer having a simple structure and having no self-locking function is attached to the input side of the electrically driven input gear so that the rotation torque necessary to rotate the electrically driven input gear through the input switching clutch from the manually driven input shaft is larger than the rotation torque necessary to rotate the output shaft through the input switching clutch from the manually driven input shaft.

A locking device for a top of a convertible vehicle having a locking support, a locking hook, which can be shifted in a translational and rotational manner so as to be displaced between a release position and a locked position, and a driving mechanism for the locking hook, the driving mechanism comprising a driving wheel, which is driven by a driving motor and which drives a slide movable on the locking support, the slide being connected to the locking hook in such a manner that the locking hook undergoes a displacing movement when the slide is moved. A securing pin is arranged on a first component movable relative to the locking support, the securing pin engaging into a corresponding recess of a second component moveable relative to the locking support when the locking hook is in the locked position.

An electric lock includes a base, a driving module, a handle and a clutch member. The base has a first inclined surface. The driving module includes a driving member rotatable relative to the base and having a second inclined surface abutting against the first inclined surface, and a motor configured to drive the driving member to rotate. The handle is rotatably mounted to the base, and has a plurality of pushing structures. The clutch member includes a main body abutting against the driving member, and a pushed structure formed on the main body. Wherein, when the motor drives the driving member to rotate relative to the base along a first rotating direction, the driving member pushes the clutch member to move toward the handle, such that the pushing structure is configured to abut against the pushed structure to push the clutch member to rotate when the handle is rotated.

A device for preventing unwanted opening of a locked enclosure includes a lock bolt moveable between a locked position and an unlocked position. A face gear is meshable with and rotatable by the worm gear between locking and unlocking positions when the worm gear is driven in the first and second directions, respectively. A blocker member is rotatable between first and second positions. A biasing member is operatively coupled to the face gear and the blocker member to bias the blocker member in a biasing direction. A sliding member selectively disengages the blocker member to allow the blocker member to rotate in the biasing direction. A lever arm is operatively coupled to the sliding member such that the lever arm is in the disengaged and engageable positions when the sliding member engages the blocker member in the first and second positions, respectively.

Embodiments described herein relate to a motorized door lock detection system. Some embodiments of the device include a sensor gear that meshes directly with the gear system of the motorized door lock. As the sensor gear rotates, it drives the rotating contact of a potentiometer, varying the voltage in a reference circuit that corresponds directly with an angular position of the thumb-drive used to drive the deadbolt. In some embodiments, a conducting member that rotates with the output shaft of the deadbolt contacts a plurality of electrical contacts positioned such that they are contacted when the deadbolt is in a position range that requires more precise position monitoring. When the conducting member is in contact with a deadbolt, power is supplied such the output from the potentiometer can be determined. In this way, power to the potentiometer and/or controller driving the potentiometer can be limited.

An electronic device configured to communicate with a portable apparatus to selectively engage a security member includes a housing having an opening formed therein. The opening is configured to receive at least a portion of the security member. The electronic device also includes a latch mechanism positioned within the housing adjacent the opening. The latch mechanism is configured to selectively engage the security member when the at least a portion of the security member is received in the opening. The electronic device further includes a transceiver positioned within the housing. The transceiver is operable to receive a wireless signal from the portable apparatus. The electronic device also includes a processor positioned within the housing and coupled to the latch mechanism and the transceiver. The processor is operable to move the latch mechanism out of engagement with the security member in response to the wireless signal.