A method of operating a door system includes receiving a signal from a pressure sensor disposed in a sill or a frame of the door system, authenticating the user after receiving the signal, shifting the lock from a locked configured to an unlocked configuration in response to receiving the signal after authenticating the user, and moving the door panel from a closed position to an ajar position in response to receiving the signal.

A lock release control device for an opening and closing body configured to control an opening and closing body that opens and closes an opening portion of a vehicle. The opening and closing body comes into contact with a sealing member provided on a vehicle body side of the vehicle in a fully closed state. The vehicle includes a locking device and an opening and closing actuator. The locking device restrains the opening and closing body in a fully closed position. The opening and closing actuator displaces the opening and closing body by rotation of a motor to change the opening and closing body from one of two states including an open state and a closed state to another of the states. The lock release control device is configured to execute an open command acquisition process, a pull-in process, and a lock release process.

An exemplary method involves operating a storm shutter system installed to a building adjacent an opening. The storm shutter system includes a panel, a motor operable to drive the panel between a first position and a second position, and a control assembly operable to control the motor. The method includes receiving, by the control assembly, information from an external device. The method further includes operating the motor to linearly drive the panel from the first position to the second position in response to receiving the information.

Disclosed is a panic bar with a door closer, the panic bar having a locking device installed at a front end of a case and a door closer provided at a rear end of the case. The locking device is released upon pushing of the push bar provided in the case. An air cylinder is installed inside the case. A guide member is installed in one side of the air cylinder and a cylinder sealing cap is installed in the other side of the air cylinder. One side of a piston rod having a piston for compressing and expanding air inside the air cylinder passes through the guide member. A spring disposed between the piston and the guide member is installed on the piston rod.

A profile learning system for cooperative control of a dual actuator applied to opposite sliding doors may include a first position sensor configured to detect a position of a door that operates in a first direction along a rail; a spindle assembly including a spindle that operates in a second direction with respect to the door to prevent the door from rattling; first and second motors engaged to the door and the spindle assembly and configured to provide driving power to the door and the spindle assembly, respectively; a memory unit configured to store the position of the door; and a control unit configured to adjust an output of the second motor configured for a predetermined time period and to determine learning success or learning failure for complete opening or closing of the door based on the position of the door when a stall state is detected due to a difference in stroke between the first motor and the second motor.

An aircraft door, an aircraft region and an aircraft with an aircraft door. The aircraft door through which passengers enter and leave the aircraft and is held towards the outer side by stops and is locked exclusively on a hinge side opposite the stops. Also, an aircraft region and an aircraft with such an aircraft door.

A system for controlling a vehicle power tailgate includes a latch structured to be movable to a latching position when the latch is engaged with a portion of a tailgate so as to maintain the tailgate in a closed position associated with the latching position of the latch. A latch actuator operably connected to the latch to control operation of the latch. A memory is communicably coupled to the processor and stores a tailgate control module including instructions that when executed by a processor cause the processor to, responsive to receipt of a tailgate opening command, control operation of the latch actuator to attempt move the latch to an over-stroke position of the latch and, responsive to a failure to move the latch to the over-stroke position within a predetermined time period, control operation of the latch actuator to move the latch to a fully-latched position of the latch.

A locking device for releasably locking two furniture parts that can move relative to one another against the force of a force accumulator, includes a heart-shaped locking contour with a heart-shaped depression and a locking element, and can move relative to the heart-shaped locking contour and, in a locking position, can be arranged in the heart-shaped depression of the heart-shaped locking contour. The locking element can be moved, by a motion out of the locking position into a further pushed position, out of the heart-shaped depression into a release position, and the locking device has a push-through depression separate from the heart-shaped depression, in which the at least one locking element can be arranged and at least one blocking contour which blocks movement of the at least one locking element out of the push-through depression into the heart-shaped depression.

Storage units include a housing defining a cavity and opening. A cover covers the opening. The units include a hinge that pivotally couples the cover and housing. The hinge includes a housing mount coupled with the housing. The housing mount has upper and lower portions and a longitudinal member that couples the lower and upper portions, which are spaced apart along the longitudinal member. The hinge includes a cover mount coupled with the cover. The cover mount has upper and lower portions and a longitudinal member that couples the lower and upper portions, which are spaced apart along the longitudinal member. The hinge includes a pivoting member that is coupled with the housing mount at a first pivot point and with the cover mount at a second pivot point. Longitudinal axes of the first pivot point and the second pivot point are offset and parallel to one another.

Loading, shifting, and staging objects in automated or semi-automated fashion including systems, methods, and apparatuses for the same. The embodiments hereof enable automated and/or semi-automated loading, shifting, organizing, staging, and accessing of objects in different environments, e.g., those associated with a logistics network operation. For example, one such environment is a vehicle. In one aspect, a loading mechanism is used to load objects into a storage space of the vehicle. In another aspect, a shifting mechanism is used to shift objects in a storage space of the vehicle. In another aspect, a door assembly allows for automated opening and closing of a door into a storage space of a vehicle. In addition, methods of manufacturing and using the same are provided.