A furniture drive for moving a furniture part movably-supported relative to a furniture carcass includes a carrier configured to be fixed within or to a sidewall of the furniture carcass, and the carrier has a front face and a longitudinal side protruding substantially at a right angle from the front face. A pivotally supported actuating arm is provided for moving the movable furniture part, and fastening device can fasten a furniture panel of the furniture carcass. The furniture panel extends substantially horizontally in a mounted position, and a fastening device includes a movably-supported locking element for fastening the furniture panel. The locking element is configured to be accessible for a manual or for a tool-assisted actuation from a longitudinal side of the carrier, and the longitudinal side of the carrier faces towards the outside.

The present disclosure may be embodied as a rotary actuator for lifting a load against gravity. The actuator includes a housing and a drive motor attached to the housing. The drive motor has a drive shaft. The drive shaft may be configured to be manually operated. A rotatable output shaft is attached to the housing and in mechanical communication with drive shaft. The actuator includes at least one spring which is configured to act on the output shaft to at least partially offset a weight of the load. The at least one spring may be a torsion spring. The at least one spring may be configured to unwind when the motor is driven to lift the load, and may be configured to be wound when the motor is driven to lower the load. The at least one spring may comprise a plurality of springs, such as torsion springs.

Mechanism for the movement of a wing of furniture with a downward folding opening, designed to be placed on one side of the furniture item, the mechanism being contained in a box consisting of two half-shells, and including a hinge including a plurality of levers, articulated one in relation to the other, to the box and to the wing for the movement of the latter, one of the levers being able to slide in a track formed in the box, another of the levers being able to rotate around a fulcrum point provided on the box and acting with one of its ends on the front side of a linear slider, the rear side of which acts on one end of a rocker lever, whose other end acts on.

An apparatus for automatically opening and closing a trunk lid includes an actuator having a first end configured to be coupled to a vehicle body and a second end configured to be coupled to a hinge arm coupled to the trunk lid, a closing trigger link having a first end rotatably coupled to the actuator, an opening trigger link rotatably coupled to the closing trigger link, a spring assembling pin having a first end coupled to the closing trigger link and the opening trigger link, and a spring having a first end coupled to a second end of the spring assembling pin, and a second end configured to be coupled to the vehicle body or a panel configured to be mounted on the vehicle body.

A lid counterbalance assembly for a grill, the grill including a lid and a base, the lid counterbalance assembly including a pulley assembly including at least one pulley, the pulley assembly rotatably connected to the base, a spring connected to the pulley assembly via a first line, and a second line including a first end connected to the pulley assembly and a second end connected to the lid, wherein the second end is rotatable and translatable with respect to the lid.

Mechanism for the movement of a wing of furniture with a downward folding opening, designed to be placed on one side of the furniture item, the mechanism being contained in a box consisting of two half-shells, and including a hinge including a plurality of levers, articulated one in relation to the other, to the box and to the wing for the movement of the latter, one of the levers being able to slide in a track formed in the box, another of the levers being able to rotate around a fulcrum point provided on the box and acting with one of its ends on the front side of a linear slider, the rear side of which acts on one end of a rocker lever, whose other end acts on.

An overhead door system is disclosed, which includes a first track and a second track mounted on opposite sides of an opening. Each track has a vertical portion, a transition portion, and a horizontal portion, with the transition portion being between the vertical portion and the horizontal portion. An overhead door engages the first and second tracks on opposite sides of the overhead door and is movable along the first and second tracks between a closed, vertical position and a raised, horizontal position. A motor unit has a motor that is mounted above the horizontal portions of the first and second tracks. A rail is parallel to and disposed between the horizontal portions of the first and second tracks. The rail carries a carriage configured to move in a first direction to raise the overhead door and in a second, opposite direction to lower the overhead door. A connecting member is pivotally attached at one end near a top edge of the overhead door and attached at an opposite end to the carriage. A one-way bearing is disposed between the motor and the carriage. The motor, as it rotates in a first rotational direction, applies force to the carriage to move the carriage in the first direction to raise the overhead door. Nevertheless, owing to the one-way bearing, the motor, as it rotates in a second, opposite rotational direction, does not apply force to the carriage to move the carriage in the second direction to lower the overhead door. A kit to retrofit an overhead door system with a one-way bearing is also disclosed.

An inverted constant force window balance system has a carrier assembly including a housing with a first and a second housing wall, a coil spring with a free end, and a shoe assembly slidably coupled to the housing. The shoe assembly includes a first and a second shoe face. The housing slides between a first and a second position relative to the shoe assembly. When in the first position, the first and second housing walls are substantially non-coplanar with the first shoe face, and when in the second position, the first housing wall is substantially coplanar with the first shoe face and substantially non-coplanar with the second shoe face. The shoe assembly receives a pivot bar from a window sash and extends a brake upon rotation thereof. The balance system also includes a mounting bracket releasably coupled to the housing and coupled to the free end of the coil spring.

An apparatus for automatically opening and closing a trunk lid includes an actuator having a first end configured to be coupled to a vehicle body and a second end configured to be coupled to a hinge arm coupled to the trunk lid, a closing trigger link having a first end rotatably coupled to the actuator, an opening trigger link rotatably coupled to the closing trigger link, a spring assembling pin having a first end coupled to the closing trigger link and the opening trigger link, and a spring having a first end coupled to a second end of the spring assembling pin, and a second end configured to be coupled to the vehicle body or a panel configured to be mounted on the vehicle body.

First (3) and second (5) elements are mutually connected by a hinge pin (7). A transmission element (44) is interposed between the second element (5) and a cradle (53) end and includes elastic means (27) having an end connected to the cradle (53) end opposite to transmission element (44). An elongated first box member (41) contains, at least partially, the transmission element (44), the connected cradle (53) and the elastic means (27) whose end opposite to the cradle (53) is fixed to the first box member (41) transmitting the elastic closing force of the elastic means (27) to the second element (5). The cradle (53) contains a damper (57), each end of which has a respective transverse pin (58) whose ends slide in respective slots (54) formed in the cradle (53) and in respective slots (42) formed in the first box member (41).