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 connector, an actuation member configured to have a first end portion and a second end portion. The cover member 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 vehicle slide door apparatus includes: a bracket fixed in a slide door; a lever operation mechanism supported on the bracket, and causing a release lever connected to a door lock part to perform an opening operation in accordance with manipulation of an inner handle in an opening direction, the door lock part bringing the slide door into an openable state upon the opening operation of the release lever; a child protect lever movably supported on the bracket, and making, by its movement to one side, manipulation force of the inner handle not be transmitted to the release lever; and a slider supported, in the bracket, on a side of an outer panel of the slide door slidably to a vehicle compartment interior side, and when being pushed to the vehicle compartment interior side, moving the child protect lever to the one side.

An actuator mechanism of a vehicle latch assembly includes an electric motor having an output shaft. Also included is a worm coupled to the output shaft. Further included is a worm gear driven by the worm. Yet further included is a spring operatively coupled to the worm gear and to a latch housing, the spring having a first leg extending through an aperture defined by the worm gear and a second leg extending into a receiving hole defined by the housing, the first leg including a first segment extending along a first leg axis and a second segment oriented at a non-parallel angle to the first leg axis, the second segment contacting a face of the worm gear to prevent removal of the spring.

An adapter configured to convert a rotary motion of a drive shaft for a door lock actuating mechanism into a translational motion for actuating a door latch. The adapter includes a housing with a compartment and a first lever inside the compartment, enables retrofitting of US-style doors with a European style door handle by providing a first bearing that rotatably supports the first lever relative to the housing, wherein the first bearing has a first axis of rotation, wherein the housing has a channel, the channel has a first opening facing the lever and a second opening facing away from the lever, wherein a first channel axis extends through the centers of the first and second openings. The first lever has a hole, configured for receiving the drive shaft, wherein the longitudinal axis of the drive shaft correlates with the first axis of rotation. The first lever further has first coupling means for providing a torque proof coupling with the drive shaft. A second bearing pivotably attaches the lever to a connecting rod, where-in the second bearing has a second axis of rotation, wherein the connecting rod has a first connecting element at the end of the connecting rod opposite to the lever. The first connecting element is moveably supported inside the first channel, wherein the channel walls limit a translation of the first connecting element in directions perpendicular to the first channel axis and enable a translation along the first channel axis.

A sliding door latch system and method is disclosed herein. The sliding door latch system is used to prevent movement of a sliding door between a closed position and an open position relative to a fixed door frame. The device may be installed as a secondary safety latch on a sliding door having a primary latch that is located at an elevation within the reach of the child. The device may be installed at an elevation above the reach of the child, but readily within the reach of an adult user. The sliding door latch includes a latch arm located outside the sliding door to simplify installation. The latch arm is user-locatable in a latched position, a momentarily released position, and a held-in-release position.

A latch having: a fork bolt movably mounted thereto; a detent lever movably mounted thereto, wherein the detent lever prevents the fork bolt from moving from a closed position to an open position when the detent lever is in a latched position; a bell crank lever movably mounted to the latch for movement between a first position and a second position, wherein the bell crank lever moves the detent lever from the latched position to the released position as the bell crank lever moves from the first position to the second position; a release lever movably mounted to the latch for movement between a first position and a second position; and an intermittent pin operatively coupled to bell crank lever and the release lever, wherein movement of the release lever is not transferred to the bell crank lever when the intermittent pin is in the second position.

The invention relates to a securing device (1; 101) for a motor vehicle, having a front hood (2, 102) and a hood lock (3, 103) with a lock holder (10, 110). The hood lock (3, 103) has a rotary latch (4, 104) with a pre-locking position and a main locking position and an electric drive (5, 105) which causes a switchover of the rotary latch (4, 104) from the main locking position into the pre-locking position. In the main locking position, a release of the lock holder (10, 110) is blocked, and the front hood (2, 102) is closed. In the pre-locking position, the lock holder (10, 110) can be manually moved between a closed position, in which the lock holder (10, 110) is engaged with the rotary latch (4, 104) and the front hood (2, 102) is locked, and an open position, in which the lock holder (10, 110) is released from the rotary latch (4, 104) and the front hood (2, 102) is unlocked.

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).

The object of the invention is a motor vehicle door lock, comprising a lock case (1) connected to a motor vehicle door (5, 6, 7) and a lock housing (2) connected to the lock case (1). In addition, a fastening element (11) for additional fixing of the lock housing (2) on the motor vehicle door (5, 6, 7), is provided. According to the invention, the fastening element (11) is designed so as to be removable both from the lock case (1) and the lug (11) coupling with the lock housing (2).

A linkage system for vehicle door latch is provided. The system having: a sill button; a latch; a cable operatively coupled to the latch and the sill button; and a sill button interface directly secured to an end of the cable at one end and the sill button at another end, wherein the cable extends directly from the sill button interface to the latch.