A vehicle opening and closing body operating device includes: a full-open lock opening lever connected to a full-open lock configured to maintain an opening and closing body in a fully opened state, and configured to output release operating force to the full-open lock; an input lever connected to the full-open lock opening lever and an operating handle, and configured to rotate the full-open lock opening lever so as to output the release operating force; a release lever connected to the input lever through a connecting member, and configured to rotate the full-open lock opening lever through the connecting member and the input lever; an emergency input lever to which rotation operating force is inputted; and a cancel mechanism configured to move the connecting member from a connection position where the input and release levers are connected to a disconnection position where the input and release levers are disconnected.

The invention relates to a motor vehicle door lock (1) which comprises a locking mechanism having a rotary latch and at least one pawl, and a first actuating lever (8), the locking mechanism being at least indirectly unlockable by means of the actuating lever (8), and the locking mechanism further having a locking device (21). The actuating lever (8) can be disengaged from the locking mechanism by means of the locking device (21). An additional motor vehicle door lock (2) is provided, and said vehicle door lock (2) can be actuated by means of the actuating lever (8). The actuating lever chain to the additional motor vehicle lock (2) can be disengaged by means of the locking device (21).

In order to minimize the sliding friction between the locking parts, that is, between the pawl and the rotary latch of a motor vehicle door lock, it is advantageous if, during the production process, the different latch surfaces of both locking parts are provided with a stamped contour have straight grooves and also with a stamped contour, characterized in that the provided grooves are oblique. The grooves which are oblique to the latch surface on the pawl can be produced such that the entire pawl or also the rotary latch are connected in an oblique manner to the base of the lock case housing which can be produced in several ways. Between the straight grooves and the oblique grooves, at least two coverings are provided which ensure that both locking parts are in mutual contact reducing the friction.

A vehicle door lock apparatus includes a housing, a fork, a pawl, a first lever displaceably provided in the housing such that the first lever can act on the pawl, and a second lever pivotably provided in the housing. One end of the second lever has a linkage coupled to a lower end of a transmission rod, which is coupled to an exterior door handle. The second lever pivots in response to an opening operation being performed on the exterior door handle and acts on the first lever. A plane of rotation contains an arcuate trajectory traced by the linkage when it pivots in response to the opening operation being performed, and is located farther in a frontward direction of a vehicle frame than a fixing surface. The plane of rotation is inclined relative to a plane containing the fixing surface, and intersects this plane in the vehicle downward direction.

A low release effort eccentric double pawl vehicle latch includes a ratchet, primary pawl, auxiliary ratchet and secondary pawl in combination with a secure lock lever. The secure lock lever selectively inhibits movement of the secondary pawl to prevent premature or unintended opening of the latch. A drive mechanism sequences movement of the secure lock lever and secondary pawl to open the latch. Upon reset, the drive mechanism drives the auxiliary ratchet back to its closed state and in the process the auxiliary ratchet can engage and return the secondary pawl back to a closed state in the event of an insufficient bias force thereon.

A protective mechanism for use when gripping a medical device to a rack is provided. A related system and method are also provided. The protective mechanism includes a guide member, a connector, an actuation member configured to have a first end portion and a second end portion. The first end portion of the actuation member is pivotally coupled to the guide member. The cover member is pivotally coupled to the guide member and is configured to interact with the actuation member so as to pivot to uncover the connector when the actuation member pivots in a first direction and to pivot to cover the connector when the actuation member pivots in a second direction.

A latch has a displaceable latching element in a housing for engagement with a separate striker arm to be latched behind an engagement shoulder of the latching element. The housing mounts a cylinder lock to receive a key from the front. A rotor is mounted on the rear of cylinder lock and rotation of the key rotation the rotor to drive a locking element to engage and lock the latching element. The rotor may also be axial displaceable against spring biasing responsive to a rear unit pushing element whereby unlocking from a rear cylinder lock may rotate the rotor to unlock and pushing causes the latching element to be displaced against its biasing to release the striker arm. Embodiments include a gravity biased and manually opened latch and a spring biased self-locking embodiment.

The invention relates to a motor vehicle door locking system, comprising a motor vehicle door lock (1) on a motor vehicle door (2) and a lock retainer (3), interacting therewith, on a motor vehicle body (4), or vice versa, according to patent application DE 10 2014 007 119.7, characterized in that a hold-back element (5) is provided which keeps clear an inlet opening (6) for the lock retainer (3) in the motor vehicle door lock (1) even in the event of deformations of the motor vehicle door (2) caused by an accident, wherein the hold-back element (5) keeps the opening clear on account of a shaping of the hold-back element.

The invention relates to a motor vehicle door lock, comprising a lock case (1) and also comprising at least one locking mechanism (2, 3) supported in the lock case (1), which locking mechanism consists essentially of a rotary latch (2) and a pawl (3). In addition, a lock housing (5) connected to the lock case (1) is realized. The lock case (1) is mostly L-shaped in the cross-section. In addition, the lock case (1) describes a locking-mechanism plane (G) and an end-plate plane (S) different from the locking-mechanism plane. The end-plate plane (S) is equipped with a bridge part (7), which spans at least one inlet opening (E), and two side parts (6). According to the invention, the lock case (1) is equipped with merely the two side parts (6) bordering the inlet opening (E), without a bridge part. In contrast, the lock housing (5) acts completely or partially as a bridge part (7).

A lock is provided especially for a door (2) or flap of a motor vehicle. Said lock has a lock housing (3) and a locking mechanism having a rotary latch (4) and a pawl, wherein the rotary latch (4) is arranged pivotably about an axis (22) and interacts with a locking bow (9), which is assigned to the bodywork (8), during the opening and closing of the door (2). At least one spring plate (15) which is oriented substantially parallel to the rotary latch (4) and surrounds the locking bow (9) in the locking position of the lock is arranged in the lock inlet region of the lock housing (3).