A garage door status monitoring and control system for a jackshaft operator may include a control module comprising a programmable platform configured to: receive a change-door-status command to change a position of a door; in response to the change-door-status command, generate and communicate a light or sound command to a wireless controller; delay a period of time after communicating the light or sound command to the wireless controller; and only after the delay, generate a door command corresponding to said change-door-status command to change the position of the door.

A garage door status monitoring and control system for a jackshaft operator may include a control module comprising a programmable platform configured to: receive a change-door-status command to change a position of a door; in response to the change-door-status command, generate and communicate a light or sound command to a wireless controller; delay a period of time after communicating the light or sound command to the wireless controller; and only after the delay, generate a door command corresponding to said change-door-status command to change the position of the door.

During operation of the door system one or more sensors may be utilized in order to monitor the operation of the door assembly (e.g., door system, door, frame, etc.), review the operating parameters, troubleshoot potential issues, schedule and monitor service requests, review and take actions for potential security threats, and/or the like. Consequently, users may determine if the door system operates the door in accordance with the desired operating parameters by reviewing the movement, vibration, speed, acceleration, force, or the like based on the sensor information captured and use the information to adjust the door assembly. Notifications regarding the operation of the door systems may be sent automatically and/or in response to requests from users. The users may utilize one or more applications and interfaces thereof to remotely connect to the door systems in order to review and analyze the sensor information and take the desired actions.

A vehicular electric charging system includes a power charge flap disposed at a vehicle. The power charge flap conceals a charging connector when the power charge flap is in a closed position and reveals a charging connector when the power charge flap is in an open position. A transmitter is disposed at the power charge flap and wirelessly communicates with a receiver disposed within an electric charging wand of a charging station. The charging system, based on communications between the transmitter and the receiver, determines when the electric charging wand enters a flap detection zone. The charging system, based on communications between the transmitter and the receiver, determines when the electric charging wand enters a flap activation zone from the flap detection zone, and, responsive to determining that the electric charging wand enters the flap activation zone, adjusts the power charge flap from the closed position to the open position.

An emergency door closing device that can be installed upon existing doors and hinges to automatically close doors in the response to smoke and fire. The improvements incorporated therein include a hinge cam pivot member that attaches to an existing hinge member of a door and produces a moment force about the existing hinge member allowing a reduced force necessary to pivot the door into a closed position. Further, a novel spring, cam, and lever system is incorporated to activate the moment force to close the door.

An apparatus comprising a baseplate configured to be coupled to an interior side of an inswing door adjacent a pivot edge of the door; a rotatable closing arm with a first end and a second end, the second end coupled to a motor, the motor configured to be engaged in response to receipt of a signal from a remote electronic device; and circuitry electrically coupled between a power supply and the motor, the circuitry configured to wirelessly send and receive information to and from the remote electronic device.

A protection and/or charging assembly includes a power apparatus, a protection housing, a charging apparatus and/or a locking assembly. The power apparatus provides electrical power to components of the protection and/or charging assembly. The protection housing houses one or more personal belongings and/or electronic devices. The charging apparatus receives power from the power apparatus and charges the one or more electronic devices. The locking assembly locks and/or unlocks the protection housing and allows the one or more personal belongings to be stored in an interior of the protection housing.

An emergency door closing device that can be installed upon existing doors and hinges to automatically close doors in the response to smoke and fire. The improvements incorporated therein include a hinge cam pivot member that attaches to an existing hinge member of a door and produces a moment force about the existing hinge member allowing a reduced force necessary to pivot the door into a closed position. Further, a novel spring, cam, and lever system is incorporated to activate the moment force to close the door.

A sunroof panel and sunshade assembly system includes a moveable sunroof panel operable to selectively move to a first closed position within a sunroof opening of a vehicle and a sunshade operable to selectively move to a second closed position within the sunroof opening. The sunshade includes a leading-edge portion and a spring force displacement member within the leading-edge portion of the sunshade, wherein the spring force displacement member is operable to deform when the sunshade contacts an obstruction while the sunshade is moving. The system further includes an electric machine providing motive force to the sunshade and a computerized sunroof panel and sunshade controller. The controller operates programming to monitor operation of the electric machine, determine a presence of the obstruction based upon the monitored operation, and command the electric machine to stop and reverse the sunshade based upon the determined presence.

In example implementations, an apparatus is provided. The apparatus includes a connection interface, a local area network (LAN) interface, a wide area network (WAN) interface, and a processor. The connection interface is to connect to a printed circuit board (PCB) of a door controller. The LAN interface is to communicate with a plurality of door sensors, wherein each one of the plurality door sensors is to monitor operation of a respective door of a plurality of doors. The WAN interface is to communicate with a remote server of a service provider. The processor is communicatively coupled to the connection interface, the LAN interface, and the WAN interface. The processor is to receive door data from the plurality of door sensors via the LAN interface, transmit the door data to the remote server for analysis via the WAN interface, receive a correction action from the remote server over the WAN interface in response to the door data, and execute the corrective action on a door of the plurality of doors via the LAN interface.