A door blocker for a vehicle includes a rotation platform positioned between first and second lateral drive members. The rotation platform is operably coupled to the first and second lateral drive members. An actuator has a first end operably coupled to the rotation platform. A reaction block has a slot that receives a second end of the actuator. The door blocker may be transformable to a power running board.

A cover for attachment to a header of a door system. The cover may have a motor compartment, a pulley compartment, and a first window. The motor compartment may be configured to at least partially enclose a motor and the pulley compartment may be configured to at least partially enclose a pulley, where the motor is operably attached to the pulley to drive a drive member. The first window may be configured to receive a portion of the drive member extending through an exterior wall of the cover.

A cover for attachment to a header of a door system. The cover may have a motor compartment, a pulley compartment, and a first window. The motor compartment may be configured to at least partially enclose a motor and the pulley compartment may be configured to at least partially enclose a pulley, where the motor is operably attached to the pulley to drive a drive member. The first window may be configured to receive a portion of the drive member extending through an exterior wall of the cover.

A door closer device for driving a door to a predetermined closed position includes an adjustment mechanism and a door closer which is integrated with the door. The adjustment mechanism includes a base, an adjusting plate and at least one fixing element, wherein the adjusting plate is stacked with the base and coupled with the door closer. The adjusting plate and the base respectively include at least one adjusting bore, and the adjusting bores are corresponding with each other. One of the adjusting bores includes a first limiting end and a second limiting end, and a first moving path is defined between the first and second limiting ends. The fixing element is disposed in the adjusting bores and can move along the first moving path to fix the adjusting plate on the base.

The present invention discloses a method for automatically detecting door or window faults, comprising the following steps: mounting a displacement sensor at at least one monitoring position of the door or window frame and leaf and/or door or window hardware to monitor a relative position change of the door or window frame and leaf and/or relative displacement of the hardware at said at least one monitoring position; and connecting the displacement sensor to a. controller which judges whether the relative position change of the door or window frame and leaf and/or relative displacement of the hardware at said at least one monitoring position exceeds a displacement threshold, and thereby perform combined judgment for door or window faults. The present invention further discloses a mechanism for automatically detecting door or window faults. The present invention can automatically detect possible faults occurring during use of the door or window, and thereby eliminate hidden risks endangering the user and other persons' personal safety, and exhibit important social significance.

The present invention discloses a method for automatically detecting door or window faults, comprising the following steps: mounting a displacement sensor at at least one monitoring position of the door or window frame and leaf and/or door or window hardware to monitor a relative position change of the door or window frame and leaf and/or relative displacement of the hardware at said at least one monitoring position; and connecting the displacement sensor to a. controller which judges whether the relative position change of the door or window frame and leaf and/or relative displacement of the hardware at said at least one monitoring position exceeds a displacement threshold, and thereby perform combined judgment for door or window faults. The present invention further discloses a mechanism for automatically detecting door or window faults. The present invention can automatically detect possible faults occurring during use of the door or window, and thereby eliminate hidden risks endangering the user and other persons' personal safety, and exhibit important social significance.

A latch assembly includes coplanar pairs of magnets that engage each other when the latch assembly is in a closed position in order to secure the latch assembly in the closed position. A related appliance with features for selectively securing a door of the appliance in a closed position is also provided.

The invention relates to an arrangement comprising a first drive device for moving a movable furniture part, a second drive device for moving the same movable furniture part, a synchronization device for synchronizing the two drive devices, wherein the two drive devices can assume different positions during the movement of the movable furniture part, and a correction device, by which both drive devices can be brought into the same position.

A wedge system includes a receiver and a wedge that is received within the receiver when a moveable vehicle panel is in a closed position. The wedge stabilizes movement of the moveable vehicle panel along a first axis, along a second axis that is different than the first axis, and along a third axis that is different than the first axis and the second axis.

A powered garage door pivots about a fixed pivot axis extending between side edges beneath the top edge of the door panel, such that when moving from the closed position to an opened position the top edge moves rearwardly while the bottom edge moves forwardly. A front top header finishing plate is fixed so as to extend downwardly from the header in front of and beneath the top edge of the door panel. An inclinometer sensor is secured to the door panel, sensing the angle of the door panel as it pivots between closed and opened positions. Hydraulic cylinders, which can be housed within uprights defining the door opening, are controlled by the electronic controller based on the inclinometer signal, and a graphical user interface allows the user to set both zone sizes (based on inclination angle) and zone speeds, independently for opening and closing.