A vehicle latch is provided. The vehicle latch having: an inertia lever rotationally mounted to the latch for movement about an axis between a first position and a second position; and a lock link operatively coupled to the inertia lever such that movement of the inertia lever from the first position to the second position causes the lock link to move from a first position to a second position, wherein the latch is in a locked state when the lock link is in the second position.

An apparatus of a slide door for a vehicle may include a rail formed at a frame of a vehicle body and a striker formed at one side of the rail, a latch arm formed at the door and a roller that is connected to the latch arm to be slid along the rail to open/close the door, and a latch of a hook shape which is connected to the latch arm to be caught over or released from the striker.

A hood latch includes a base coupled to a frame or a panel of a vehicle, a fork having a first fork protrusion, a second fork protrusion and a third fork protrusion and is coupled to the base to fix a striker positioned on a vehicle hood, a trigger which has a first trigger protrusion, a second trigger protrusion, and a third trigger protrusion, the first trigger protrusion is configured to contact the second fork protrusion or the third fork protrusion, thus controlling a rotation of the fork, a trigger connecting link configured to contact the trigger to rotate the trigger, and a trigger varying link coupled to a first side of the trigger connecting link. A rotating angle of the trigger is based on a contact between the trigger connecting link and a third trigger protrusion or a contact between the trigger varying link and the second trigger protrusion.

A preload mechanism for an actuator is disclosed that includes a rotating element configured to rotate about a pivot. The preload mechanism also includes a bias element with a first end that is coupled to a second contact point of the rotating element and a second end configured to be pinned relative to the pivot. The bias element has a line of action extending from the second end through the first end. The line of action has an offset distance that is the minimum distance between the line of action and the pivot. The offset distance has a first value when the rotating element is in the first position and a second value when the rotating element is the second position, the second value being smaller than the first value.

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.