A method of forming a motor vehicle door lock includes arranging a lever, providing an electric drive that pivots the lever to place the motor vehicle door lock in an open state and includes a motor and a wheel gear that is driven by the motor and has a circumferential face, forming at least one damping stop on the wheel gear that protrudes axially from the circumferential face of the wheel gear and extends from the circumferential face toward a stop plane that is spaced from and parallel to an actuating plane in which the wheel gear and the lever are rotatable, providing a housing stop surface that is engageable by the damping stop along the stop plane in a rotational direction of the wheel gear, and forming the damping stop and the wheel gear as a single piece using a two-component injection molding process.

The object of the invention is a seal (10) for an inlet opening (120) of a latch (100), in particular a motor vehicle latch, having at least a partially flexible sealing element (11) with at least an insertion slot (12), whereby a first seal wing (11.1) and a second seal wing (11.2) are formed on the sealing element (11), whereby a striker can at least be partially arranged in the inlet slot (11).

A locking mechanism (1), in a motor vehicle, includes two elements (2, 4) that abut one another along a contact region (10). At least one element (2, 4) has a coating (9) at least in the contact region. The coating alters under stress during an accident, such that the contact region (10) between the two elements becomes larger and/or a coefficient of friction between the two elements increases.

A locking mechanism (1), in a motor vehicle, includes two elements (2, 4) that abut one another along a contact region (10). At least one element (2, 4) has a coating (9) at least in the contact region. The coating alters under stress during an accident, such that the contact region (10) between the two elements becomes larger and/or a coefficient of friction between the two elements increases.

A compact vehicle side door latch apparatus has a latch that is rotated from an unlatched position to a fully-latched position, a ratchet that engages the latch in order to prevent the latch from being rotated in a releasing direction, a door opening link that is moved in a door opening direction in order to allow the ratchet to be disengaged from the latch, a motor that moves the door opening link in the door opening direction by motor power, and a door key lever that moves the door opening link in the door opening direction by an operation of a key plate. The door key lever is connected to the door opening link with play, and the motor power is transmitted to the door opening link without passing through disconnecting means of the power transmission path.

A motor vehicle door lock having a locking mechanism substantially comprising a rotary latch and pawl as locking mechanism components. In addition, at least one lever is implemented as a constituent part of an actuating and/or locking lever chain. The motor vehicle door lock also has at least one bearing pin for supporting the relevant locking mechanism component and/or the lever in a housing. Also provided is a bearing sleeve, which can be inserted into an opening in the locking mechanism component and/or the lever and is built up from at least two sleeve elements for the bearing pin. According to the invention, one sleeve element has a socket reaching through the opening. The socket engages in a substantially dimensionally stable manner in a plug receptacle of the other sleeve element.

A motor vehicle door lock having a locking mechanism substantially comprising a rotary latch and pawl as locking mechanism components. In addition, at least one lever is implemented as a constituent part of an actuating and/or locking lever chain. The motor vehicle door lock also has at least one bearing pin for supporting the relevant locking mechanism component and/or the lever in a housing. Also provided is a bearing sleeve, which can be inserted into an opening in the locking mechanism component and/or the lever and is built up from at least two sleeve elements for the bearing pin. According to the invention, one sleeve element has a socket reaching through the opening. The socket engages in a substantially dimensionally stable manner in a plug receptacle of the other sleeve element.

A striker unit for a motor vehicle includes a base plate that can be connected to a body part of the motor vehicle, a retaining bracket, a bracket plate for mounting the retaining bracket, and an elastic element that is arranged between the base plate and the bracket plate. The base plate and the bracket plate can additionally be connected to one another through a second and/or third positive locking and/or frictional connection.

A striker unit for a motor vehicle includes a base plate that can be connected to a body part of the motor vehicle, a retaining bracket, a bracket plate for mounting the retaining bracket, and an elastic element that is arranged between the base plate and the bracket plate. The base plate and the bracket plate can additionally be connected to one another through a second and/or third positive locking and/or frictional connection.

A motor vehicle door latch device which comprises a body, a latch and a pawl. The pawl engages with the latch to prevent the latch from turning. The pawl comprises a core and a synthetic-resin portion. A releasing portion is disposed on a basic axial portion of a core. The releasing portion is formed together with the core or the synthetic-resin portion in order to reduce the associated manufacturing costs and weight of the device.