The invention relates to a vehicle door handle (1), comprising a handle frame (5) to be attached on a vehicle door panel (100), handle lever (3) with a total length L movable with respect to the handle frame (5) between at least one rest position (F, R) and an opening position (O) in rotation around a handle lever axis (A) at one of its longitudinal ends, said handle lever (3) having an axially protruding axial finger (35), characterized in that it further comprises a kinematic lever (37), rotatively mobile with respect to the handle frame (5) around a kinematic lever axis (B) between a rest position and an active position, said kinematic lever (37) comprising a first radial arm (39), adapted to interact with a latch mechanism, configured to unlatch the door when the kinematic lever (37) reaches its active position, and a second radial arm (41), intersecting a path of the axial finger (35) of the handle lever (3) and being pushed by said axial finger (35) during rotation of the handle lever (3), so that when the handle lever (3) reaches the opening (O) position, the kinematic lever (37) reaches its active position, wherein the kinematic lever (37) is set in the handle frame (5) in a position axially above the handle lever (3) and with its rotational kinematic lever axis (B) positioned in a middle section of the handle lever (3), radially apart from the handle lever axis (A) at a distance d, verifying 0.9L≥d≥0.1L.

An improved tilt latch bolt for a double-hung window with a groove or channel formed in either the biased or planar portion of the bolt nose for engaging a portion of the window frame when the window is under duress is disclosed herein. The grooves and channels define a depth of at least five thousandths of an inch (0.127 cm). The deformable cantilever, by virtue of being formed above, and extending over the channel, is resilient such that were a portion of the window jamb to clear the width of channel, the deformable cantilever provides a small degree of tolerance to capture the wayward window jamb before it inadvertently rotates out of the sash, for example in inclement weather conditions.

A vehicle door lock device includes: a remote control device that is provided in the middle of an operation transmitting system between a lock device, which binds a door of a vehicle such that the door becomes not able to move, and a door handle, in which a connection member that absorbs an excessive operation force by being elastically deformed in a direction in which the operation force is transmitted is interposed between a transmitting member that transmits an operation force input to the door handle and an input lever on the remote control device side to which the operation force is input via the transmitting member.

A clutch engagement assembly for a door lock device includes a first shaft having at an end thereof an insertion end portion in which a channel is formed; a second drive shaft having a hollow engagement end portion into which the insertion end portion of the first shaft is inserted; a driving member which provides a driving force; and a pin member that is installed in a state of being elastically supported in the engagement end portion of the second shaft and is movable by the driving member so as to extending through (be inserted in) at least a part of the first shaft and at least a part of the second shaft, thereby causing a clutch engagement or a disengagement between a first shaft and a second shaft. The clutch engagement assembly may provide a relatively small size structure of the door lock device and a firm engagement force.

A locking device for a movable part of a vehicle, in particular for a bonnet of a vehicle, having a locking mechanism which can be mounted on the body side and intended for receiving a lock holder arranged on the movable part, and also having a raising mechanism which can be brought into contact with the lock holder and intended for moving the movable part into at least one protection position, wherein the raising mechanism has at least a first overload protector, with the result that, in a load situation, the movable part is movable from the protection position into an impact position.

A motor vehicle latch, in particular a motor vehicle side-door latch, comprising a latch plate and comprising a locking mechanism which is mounted on the latch plate and consists substantially of a catch and pawl. The latch plate has an inlet jaw for a latch holder that enters therein and interacts with the locking mechanism. The inlet jaw is reinforced by a circumferential flange. According to the invention, the flange has at least one interruption which completely or partially reduces its installation height in order to compensate for deformations of the latch plate caused by tensile forces.

A motor vehicle latch, in particular a motor vehicle side-door latch, comprising a latch plate and comprising a locking mechanism which is mounted on the latch plate and consists substantially of a catch and pawl. The latch plate has an inlet jaw for a latch holder that enters therein and interacts with the locking mechanism. The inlet jaw is reinforced by a circumferential flange. According to the invention, the flange has at least one interruption which completely or partially reduces its installation height in order to compensate for deformations of the latch plate caused by tensile forces.

The invention relates to a vehicle door handle (1), comprising a handle frame (5) to be attached on a vehicle door panel (100), handle lever (3) with a total length L movable with respect to the handle frame (5) between at least one rest position (F, R) and an opening position (O) in rotation around a handle lever axis (A) at one of its longitudinal ends, said handle lever (3) having an axially protruding axial finger (35), characterized in that it further comprises a kinematic lever (37), rotatively mobile with respect to the handle frame (5) around a kinematic lever axis (B) between a rest position and an active position, said kinematic lever (37) comprising a first radial arm (39), adapted to interact with a latch mechanism, configured to unlatch the door when the kinematic lever (37) reaches its active position, and a second radial arm (41), intersecting a path of the axial finger (35) of the handle lever (3) and being pushed by said axial finger (35) during rotation of the handle lever (3), so that when the handle lever (3) reaches the opening (O) position, the kinematic lever (37) reaches its active position, wherein the kinematic lever (37) is set in the handle frame (5) in a position axially above the handle lever (3) and with its rotational kinematic lever axis (B) positioned in a middle section of the handle lever (3), radially apart from the handle lever axis (A) at a distance d, verifying 0.9L≥d≥0.1L.

A delayed return mechanism, such as for a door latch, including a housing having a hole with an axis, a cavity in the housing at least partially filled with a fluid media, a hub disposed in the cavity including a spindle hole coaxial with the hole in the housing including teeth within the spindle hole to engage a spindle, the hub being rotatable about the axis and having a fin extending radially outward in the cavity, and a channel through which the fluid media passes during rotation of the hub to control flow of the fluid media about the cavity.

A locking device for a movable part of a vehicle, in particular for a bonnet of a vehicle, having a locking mechanism which can be mounted on the body side and intended for receiving a lock holder arranged on the movable part, and also having a raising mechanism which can be brought into contact with the lock holder and intended for moving the movable part into at least one protection position, wherein the raising mechanism has at least a first overload protector, with the result that, in a load situation, the movable part is movable from the protection position into an impact position.