A casement window operator includes a linear input mechanism configured to be mounted to a stationary frame of a casement window, a linear to rotary motion converter operably coupled to an output of the linear input mechanism, a gear reducer operably coupled to an output of the rotary motion converter, and a sash arm operably coupled to an output of the gear reducer to rotate in conjunction with the output of the gear reducer. The sash arm is configured to extend from the stationary frame of the casement window to a rotatable window sash of the casement window.

A casement window operator includes a linear input mechanism configured to be mounted to a stationary frame of a casement window, a linear to rotary motion converter operably coupled to an output of the linear input mechanism, a gear reducer operably coupled to an output of the rotary motion converter, and a sash arm operably coupled to an output of the gear reducer to rotate in conjunction with the output of the gear reducer. The sash arm is configured to extend from the stationary frame of the casement window to a rotatable window sash of the casement window.

Fenestration units that include slide mechanisms that operate the unit through linear motion. Slide mechanism designs include a handle, a slide member coupled to the handle, and a linear rail along which the slide member is slidably received such that the slide member is operable to slide in a linear motion. The slide member includes an attachment structure for operatively coupling with a drive belt to transfer linear motion through a transfer mechanism to a drive mechanism of the unit. The attachment structure is attached to the drive belt such that a position of the attachment mechanism along the length of the drive belt may be adjusted by a user.

Fenestration units that include slide mechanisms that operate the unit through linear motion. Slide mechanism designs include a handle, a slide member coupled to the handle, and a linear rail along which the slide member is slidably received such that the slide member is operable to slide in a linear motion. The slide member includes an attachment structure for operatively coupling with a drive belt to transfer linear motion through a transfer mechanism to a drive mechanism of the unit. The attachment structure is attached to the drive belt such that a position of the attachment mechanism along the length of the drive belt may be adjusted by a user.

A vent for mobile living quarters has a base and a cover coupled to the base. The cover is connected to the base and pivots about a hinge by a mechanism that is coupled to a moving bar. The moving bar is attached to the cover by fasteners on one end and an alignment tab on the opposite end. The cover is user-replaceable from the top side without having to move or disconnect the mechanism. To replace the cover, fasteners are removed and the cover is pivoted away from the moving bar, where the alignment tab disengages from the cover. The cover is then slidable along the hinge to completely remove the cover from the base. A new replacement cover is slid along the hinge and the alignment tab is engaged with the replacement cover. The cover is pivoted down to a closed position and the fasteners are reinstalled.

A vent for mobile living quarters has a base and a cover coupled to the base. The cover is connected to the base and pivots about a hinge by a mechanism that is coupled to a moving bar. The moving bar is attached to the cover by fasteners on one end and an alignment tab on the opposite end. The cover is user-replaceable from the top side without having to move or disconnect the mechanism. To replace the cover, fasteners are removed and the cover is pivoted away from the moving bar, where the alignment tab disengages from the cover. The cover is then slidable along the hinge to completely remove the cover from the base. A new replacement cover is slid along the hinge and the alignment tab is engaged with the replacement cover. The cover is pivoted down to a closed position and the fasteners are reinstalled.

A casement window operator, including: a first arm; a second arm, the first arm and the second arm each being rotatably mounted to the casement window operator and the first arm and the second arm each having a toothed peripheral portion for meshingly engaging a worm rotatably received in the casement window operator, such that rotation of the worm about its axis of rotation will cause the first arm and the second arm to rotate with respect to the casement window operator; and a damper located between the worm and a housing of the casement window operator, wherein the damper has a pair of anti-rotation features each being located about an exterior peripheral portion of the damper, the pair of anti-rotation features extending outwardly from the exterior peripheral portion of the damper and wherein the pair of anti-rotation features are configured to be received within a corresponding pair of openings of the housing of the casement window operator.

A casement window operator, including: a first arm; a second arm, the first arm and the second arm each being rotatably mounted to the casement window operator and the first arm and the second arm each having a toothed peripheral portion for meshingly engaging a worm rotatably received in the casement window operator, such that rotation of the worm about its axis of rotation will cause the first arm and the second arm to rotate with respect to the casement window operator; and a damper located between the worm and a housing of the casement window operator, wherein the damper has a pair of anti-rotation features each being located about an exterior peripheral portion of the damper, the pair of anti-rotation features extending outwardly from the exterior peripheral portion of the damper and wherein the pair of anti-rotation features are configured to be received within a corresponding pair of openings of the housing of the casement window operator.

A refrigerator includes a refrigerator body having an interior storage space. A door is coupled to the refrigerator body to open and close the interior storage space. A door handle is coupled to the door in a pivotally rotatable manner and an opening actuator is coupled to the door handle where the opening actuator applies a force to the refrigerator body to open the interior storage space. The opening actuator includes a front bezel, a handle pivot plate coupled to the door handle, a casing enclosing an actuator mechanism, and one or more pushers that extend and retract against a front wrapper edge of the refrigerator body. An intermediate attachment couples the handle pivot plate to the casing and a back bezel.

A tensioner for a fenestration unit operator includes a base and a guide including a track, the track slidably receiving the base such that the base is restricted to sliding in a first direction with respect to the guide along a sliding axis and a second direction with respect to the guide along the sliding axis that is opposite to the first direction. The tensioner includes a pawl and a ratchet each being a part of one of the sled and the guide, respectively, the pawl being in biased engagement with the ratchet to permit sliding in the first direction and restrict sliding in the second direction, the pawl being configured to be manually disengaged from the ratchet to permit sliding in the second direction. The tensioner includes a pulley coupled to the sled such that the pulley is free to rotate about a rotational axis that is transverse to the sliding axis.