A tie bar and guide assembly for casement windows having a roll form tie bar that snaps on to the tie bar guide without extending through it. The tie bar has locating openings that engage tabs on the tie bar guide to locate and secure the guide prior to installation. The tabs are depressed and disengaged when fasteners are used to secure the tie bar assembly to the window frame. The tie bar can include rivet locking points located close to the top and bottom of the tie bar to provide better security and increased stability for preventing water and air infiltration. The rivet locking points can be adjustable to optimize the fit of the window sash within the frame. The snap-on design reduces the overall height of the tie bar assembly thereby enabling a closer fit of the sash within the frame and reducing the required width of the window frame needed to accommodate the locking mechanism.

A low profile actuating window lock for casement windows having a longitudinal slot in a sidewall of the casing for the lock, wherein an actuator including a fork component translates within the slot in a direction opposite movement of the handle, the handle pivotable about a restrictor arm that pivots relative to the casing, allowing the handle to rotate from the locked position to the unlocked position with low clearance from the window frame. The pivot points of the handle and restrictor arm configuration allow for an over center linkage that prevents back driving the casement window lock.

A vehicle interior component is disclosed. The component may comprise a cover movable relative to a base between closed and open positions and a latch mechanism comprising a magnet arrangement for movement within the cover for engaged and disengaged states. The magnet arrangement may maintain the disengaged state after the cover is released from the base. A magnet of the base may retain the engaged state, a magnet may retain the disengaged state. The magnet arrangement may be concealed within the cover; a magnet arrangement may be concealed within the base. The base may comprise a first magnet on a sidewall and a second magnet on another sidewall; the cover may comprise a first magnet to engage the first magnet of the base and a second magnet to engage the second magnet of the base. The component may comprise a trim component, console, floor console, center console, or compartment.

A gate is provided and includes a gate body, a hinge assembly attached to a first side of the gate body, and a support bracket. The hinge assembly includes a pin assembly and an actuating assembly capable of moving a pin of the pin assembly between a retracted position and an extended position. The support bracket engages the pin in the extended position and is disengaged from the pin in the retracted position. The gate body has an axis of rotation extending through the pin when the pin engages the support bracket and is freely movable with respect to the support bracket when the pin is disengaged from the support bracket.

Various aspects of the present disclosure are directed toward apparatuses, systems, and methods that include a multipoint lock. The multipoint lock may include a horizontally translating lock bolt and at least one vertical translating lock bolt. In addition, the multipoint lock includes a linkage coupled to and configured to translate the horizontally translating lock bolt and the at least one vertical translating lock bolt. Further, the multipoint lock includes a gear mechanism configured to actuate the linkage and to effect translation of the horizontally translating lock bolt and the at least one vertical translating lock bolt.

An electronic drive for a lock assembly includes a housing, a motor disposed within the housing, and at least one link bar coupled to the motor. The at least one link bar at least partially extends out of the housing. The electronic drive also includes a driven disk coupled to a first end of the at least one link bar and rotatable about a rotational axis. The driven disk is adapted to couple to the lock assembly, and upon rotation, extend and retract at least one locking element. In operation, the motor selectively drives substantially linear movement of the at least one link bar to rotate the driven disk about the rotational axis.

A low profile actuating window lock for casement windows having a longitudinal slot in a sidewall of the casing for the lock, wherein a fork component translates within the slot in a direction perpendicular to an axis of rotation of the handle and the handle rotates along a plane perpendicular to the fork component, the handle pivotable about a restrictor arm that pivots relative to the casing, allowing the handle to rotate fully from the locked position to the unlocked position with low clearance from the window frame. The pivot points of the handle and restrictor arm configuration allow for an over center linkage that prevents back driving the casement window lock.

A bar lock assembly including a lock rod defining a rotational axis for the bar lock assembly. The lock rod includes a first elongated lock rod portion and a second lock rod portion. A lengthwise section of the second lock rod portion telescopically extends from a first end of said first lock rod portion when the bar lock assembly is in a first condition. The second lock rod portion is substantially retracted within the first lock rod portion when the bar lock assembly is in a second condition. An elongated handle with opposed ends extends from the lock rod. One end of the handle is pivotally connected to the first lock rod portion to effect rotational movements of the bar lock assembly about the rotational axis. The handle moves in a fixed arc about a fixed pivot point whereat the handle is connected to the first lock rod portion. Linkage connected between the handle and the second lock rod portion telescopically moves the second lock rod portion relative to the first lock rod portion in response to pivotal movement of the handle about the first pivot point. To enhance the ergonomics of this bar lock assembly, the linkage and handle are configured such that an included acute angle ranging between about 35 and about 50 is defined between the handle and the longitudinal axis of the bar lock assembly when the bar lock assembly is in the first or locked condition.

A spring assembly for a handle set assembly includes a housing and a gear rotatably positioned within the housing. The gear has a default position and at least one actuated rotated position. The spring assembly includes at least one rack positioned within the housing. The at least one rack is movable in a rack displacement direction that is normal to the axis of rotation of the gear in response to rotation of the gear between a neutral position and a displaced position. The spring assembly includes a slider positioned at a first end of the at least one rack, the slider being slidable along the rack displacement direction. The spring assembly includes at least one spring captured between the housing and slider. The at least one spring is positioned to apply a spring force to the at least one rack toward the neutral position when the at least one rack is in the displaced position.

A latch device is disposed between a first member and a second member that are pivotally combined. The latch device includes a main body, a hook member, and a moving member. The main body has one side fixed to the first member and a containing groove opening toward an outer side. The hook member is fixed to the second member. The moving member is in the containing groove and slides between a first and a second position. When the moving member is at the first position, the moving member is engaged with the hook member, such that the first member and the second member close. When the moving member is at the second position, the moving member retracts with respect to the main body, such that the moving member is parted from the hook member, whereby the first member and the second member open.