Assembly of door and doorframe, the door at a back vertical edge is hinged to a doorframe hinge side of the doorframe using door hinges at the upper and lower end of the door. The doorframe hinge side is designed with a cavity while a cover is rigidly attached to the door hinges up and down. The cover has a bore pivotally attached to cover hinges with vertical pivotal axis at the doorframe hinge side having a dimension adapted to be received within said cavity in the doorframe hinge side when the door is shut The cover has a curvature with a convex outer surface having the shape of a cylinder surface of a vertical imaginary cylinder, while the bore is so positioned that it forms a center axis in the imaginary cylinder and that this center axis is positioned externally in relation to the cavity.

Disclosed is a security device for securing a deadbolt door lock having an interior face plate and a lever movable between a locked position and an unlocked position. The security device includes a base member configured to be secured to the interior face plate of the deadbolt lock, and a lock member pivotably secured to the base member so that the lock member pivots between an open position and a closed position. The lock member is configured to prevent movement of the lever from the locked position to the unlocked position when the lock member is in the closed position and to permit movement of the lever from the locked position to the unlocked position when the lock member is in the open position.

A tailgate control system for a vehicle includes a spindle and a coupling member fixedly coupled to a tailgate of the vehicle, the coupling member having a slot formed therein. A portion of the spindle is coupled to the coupling member along the slot so as to enable relative movement between the portion of the spindle and the coupling member along the slot, and such that extension of the spindle causes a force on the coupling member which causes a closing motion of the tailgate. The portion of the spindle is also coupled to the coupling member such that a manually-generated closing motion of the tailgate causes a change in a position of the portion of the spindle along the slot, in a first direction along the slot.

Cabinets, methods for making cabinets, and aircraft including cabinets are provided. In one example, a cabinet includes a cabinet body that at least partially surrounds a cabinet space and that defines a cabinet opening that allows access to the cabinet space. A cabinet door at least partially covers the cabinet opening when in a closed position and extends upward from a lower edge portion to an upper edge portion. The cabinet door has an outer exposed surface facing generally in a first direction away from the cabinet space when in the closed position. The cabinet door is operatively coupled to the cabinet body for opening from the closed position to an open position including the lower edge portion moving generally upward and the upper edge portion moving generally upward and towards the first direction to expose the cabinet opening.

A locking structure can be used for a rectilinear center rail for opposite sliding doors. A rectilinear center rail mounted in a longitudinal direction on a sliding door, a center roller unit rollably connected to the center rail, and a swing bracket rotatably connected to the center roller unit and a vehicle body. The center roller unit includes a first rotating member and a second rotating member, a first catcher formed on the center rail to hinder a movement of the center roller unit, a second catcher formed on the swing bracket to assist a movement of the center roller unit, and a first lever configured to be locked by or unlocked from the first catcher and a second lever configured to be locked by or unlocked from the second catcher are connected to the second rotating member.

An actuating arm drive for a pivotably mounted actuating arm, in particular for driving a flap of a piece of furniture, includes a plurality of articulatedly interconnected levers. A first lever and a second lever of the actuating arm drive are arranged parallel to one another with a lateral spacing, and the levers each have two axial bores with a first standard spacing, through each of which bores an axial pin projects. A third lever has receptacles for the axial pins with a second standard spacing, and the second standard spacing is different than the first standard spacing. The axial pins each project through the axial bores of the first and second lever and are at least partially received in the receptacles of the third lever.

This disclosure is directed to hinge assemblies for securing closure members to a vehicle body. Exemplary hinge assemblies may include icebreaker features for breaking through ice formations that can form on the closure members. The icebreaker features are configured to break through the ice formations as the closure members are moved.

A door opening assembly is provided for moving a door of a vehicle between an open position and a closed position. The assembly includes a frame member coupled to the vehicle, a link is coupled to the frame member, and a link arm pivotally coupled to the link. A pivot arm is pivotally coupled to the frame member and a pivot bracket is pivotally coupled to the door and the pivot arm. The pivot bracket includes a slot such that a pin on the link arm slides therethrough. The assembly includes a gear rack and a gear operably coupled to the gear rack. The gear is driven by a motor as the door moves between its open and closed positions. The assembly further includes a guide track coupled to the vehicle and a roller rotatably driven along the guide track as the door moves between its open and closed positions.

A hinge includes a first part disposed in a first member and a second part disposed on a second member. The first part includes a first curved part with an arc shape protruding to outside in a radial direction of a rotational center, and a second curved part disposed outside the first curved part in the radial direction of the rotational center with spacing from the first curved part with an arc shape along the first curved part. The second part includes a connection disposed between the first curved part and the second curved part, wherein the connection moves smoothly along the first curved part and the second curved part about the rotational center. The second part couples, with the first part, the first member and the second member together to allow the first member and the second member to relatively rotate about the rotational center.

A refrigerator includes a cabinet, a door, and a door opening device. The door opening device includes a motor and a pushing member configured to be withdrawn out by the motor to open the door. The pushing member includes a first rack configured to be driven by the motor and to push one of the cabinet or the door, and a second rack configured to be driven by the motor and slidably coupled to the first rack in which the second rack at least partially overlaps with the first rack. The first rack is configured to move relative to the second rack in a first direction to open the door to a first angle, and to move together with the second rack in the first direction to move the door to a second angle greater than the first angle.