Trunk lid stopper mechanism and method for controlling rotational speed of a trunk lid to slow down and halt its movement, and to hold the trunk lid at the halted position. The stopper mechanism comprises hinge arms for supporting the lid, torsion bars for applying biasing force to the lid, and link arms for transmitting biasing force from torsion bars to the hinge arms. Either each hinge arm or link arm is equipped with a stopper member that brakes the rotation movement of the trunk lid and halts the trunk lid fully-open. The stopper member has tapered surfaces for reducing relative rotational speed between the hinge and link arms by being forced therebetween during their relative rotational movement, and a stopper surface(s) for abutting against the other arm and halting the arms' relative rotational movement at the fully open position of the trunk lid.

In accordance with one aspect of the present development, an adjustable receiver for an associated appliance hinge includes a base adapted to be secured to an associated appliance body. A first cross-member is connected to the base and is movable relative to the base. The first cross-member provides a first hinge mounting structure for an associated appliance hinge. A second cross-member is connected to the base and is movable relative to the base. At least one link extends between and interconnects the first and second cross-members. The first and second cross-members and the at least one link define an adjustable hinge mount that is selectively movable relative to the base along an adjustment axis. The adjustable receiver further includes an adjustment system for selectively altering a position of the adjustable hinge mount relative to the base along the adjustment axis.

An adjustable hinge assembly includes a first hinge leaf, a second hinge leaf hinge-coupled to the first hinge leaf, and a hinge pin. The first hinge leaf defines a first knuckle hole corresponding to the hinge pin, and the second hinge leaf defines a second knuckle hole corresponding to the hinge pin. The first hinge leaf is hinge-coupled to the second hinge leaf by the hinge pin, the first knuckle hole, and the second knuckle hole. The hinge pin is movable within the first knuckle hole to adjust a position of the first hinge leaf relative to the second hinge leaf.

A sliding door mechanism includes a track that is fixed in position relative to a door opening, a post fixed in position relative to the track, and a member that is moveable longitudinally with respect to the track, the member being configured to be guided by the track. The mechanism further includes an arm mounted to the member, the arm rotatable about a vertical axis and configured to be pivotably attached to the sliding door. The arm defines a slot that is configured to receive the post as the door is moved from an open position toward a closed position such that the post urges the arm to rotate relative to the carriage such that the arm transmits a force to the door to urge the door to move laterally into the door opening.

A large diameter portion is provided on one side of a closing side drum in an axial direction, a small diameter portion having a diameter gradually decreasing from the large diameter portion to the other side of the closing side drum is provided on the other side of the closing side drum, a partition wall disposed between adjacent small diameter cable grooves in the axial direction of the closing side drum to prevent a closing side cable from slipping out of the small diameter cable grooves is provided in the small diameter portion. Accordingly, the thick partition wall provided in the small diameter portion can reliably prevent the closing side cable from slipping out (derailing) from the small diameter cable grooves even when a winding position of the closing side cable on the closing side drum is changed and transferred from the large diameter portion to the small diameter portion.

In a position adjustment mechanism of a hinge device, operability of an adjustment screw is assured, and rickety movement is prevented while enhancing load bearing property. An adjustment screw 40 of a hinge device 3 is screwed to a body member 10. A locked part 34 of the intervention member 30 is sandwiched between a pair of sandwiching faces 44a of the adjustment screw 40 each other. To both lateral faces of the locked part 34, a contact part 35e having a ridge shape and a clearance part 35b continuous to a lateral side of a contact part 35e for avoiding contact with a sandwiching face 44a are each formed.

A hinge to removably mount a tailgate to a vehicle is provided. The hinge comprises a tailgate leaf connected to a tailgate and a body leaf connected to the box of the vehicle. The tailgate leaf is attached to the slider through a hinge pivot. The body leaf has a first chamber in which a slider can be locked and unlocked through a locking mechanism in the second chamber. The locking mechanism comprises a locking wedge, a threaded shaft, and a cam lever to operate the locking wedge without the requirement of a tool.

An adjustable hinge assembly includes a first hinge leaf, a second hinge leaf hinge-coupled to the first hinge leaf, and a hinge pin. The first hinge leaf defines a first knuckle hole corresponding to the hinge pin, and the second hinge leaf defines a second knuckle hole corresponding to the hinge pin. The first hinge leaf is hinge-coupled to the second hinge leaf by the hinge pin, the first knuckle hole, and the second knuckle hole. The hinge pin is movable within the first knuckle hole to adjust a position of the first hinge leaf relative to the second hinge leaf.

In a position adjustment mechanism of a hinge device, operability of an adjustment screw is assured, and rickety movement is prevented while enhancing load bearing property. An adjustment screw 40 of a hinge device 3 is screwed to a body member 10. A locked part 34 of the intervention member 30 is sandwiched between a pair of sandwiching faces 44a of the adjustment screw 40 each other. To both lateral faces of the locked part 34, a contact part 35e having a ridge shape and a clearance part 35b continuous to a lateral side of a contact part 35e for avoiding contact with a sandwiching face 44a are each formed.

A door hinge assembly includes a first part with a first knuckle, a second part with a second knuckle, and a pin. The pin pivotably extends through the first knuckle and fixedly extends through the second knuckle. A first adjustment member threadedly connected to the first inner threaded portion in the first knuckle to move the pin and the second part up and down. A sleeve is mounted to the second knuckle and has a slot in which the second leaf is inserted. The first part has an index area which is located corresponding to the lower end of the sleeve to indicate the axial distance that the door hinge assembly is made. A cover unit is connected to the second leaf. A second adjustment member threadedly extends through the second leaf and adjusts the door hinge assembly back and forth.