A hood latch device for a vehicle is provided. The hood latch device includes a base that is secured to a vehicle body member. In addition, the hood latch device further includes a safety hook, a pawl and a claw, each of which is rotatably coupled to the base. Further, a first spring is coupled to a safety hook and to one end of a pawl that protrudes forward from the base. A second spring is coupled to the base and to the claw.

A motor vehicle door lock, particularly a motor vehicle bonnet lock, includes a ratchet mechanism which substantially consists of a rotary latch and a pawl. The ratchet mechanism interacts with a lock retainer pin on a vehicle bonnet. A retention element is additionally provided which holds the pawl in a retention position, raised from the rotary latch, during unlocking of the bonnet. The lock retainer pin continues to engage in the rotary latch when in said retention position. During a first opening process which proceeds from the retention position, the lock retainer pin transfers the retention element into a release position that releases the pawl. During a subsequent bonnet closing process, the pawl can thus engage in the rotary latch, which can be pivoted without exertion of force by the lock retainer pin at least into the hold position.

A motor vehicle door lock, particularly a motor vehicle bonnet lock, includes a ratchet mechanism which substantially consists of a rotary latch and a pawl. The ratchet mechanism interacts with a lock retainer pin on a vehicle bonnet. A retention element is additionally provided which holds the pawl in a retention position, raised from the rotary latch, during unlocking of the bonnet. The lock retainer pin continues to engage in the rotary latch when in said retention position. During a first opening process which proceeds from the retention position, the lock retainer pin transfers the retention element into a release position that releases the pawl. During a subsequent bonnet closing process, the pawl can thus engage in the rotary latch, which can be pivoted without exertion of force by the lock retainer pin at least into the hold position.

A motor vehicle door lock, more particularly a hood lock. The basic structure of the hood lock is composed of a raising mechanism, for a locking bolt or another stop part, on a hood. An actuating spring acting on the raising mechanism is also provided, in addition to a sensor for sensing the position of the hood. According to the invention, an additional spring is provided which raises the hood if the actuating spring breaks down and/or malfunctions.

A motor vehicle door lock, more particularly a hood lock. The basic structure of the hood lock is composed of a raising mechanism, for a locking bolt or another stop part, on a hood. An actuating spring acting on the raising mechanism is also provided, in addition to a sensor for sensing the position of the hood. According to the invention, an additional spring is provided which raises the hood if the actuating spring breaks down and/or malfunctions.

A closure latch assembly for a decklid configured to provide a power release operation and a power cinch operation. The power cinch operation is a dual-stage cinch operation having a first non-driven cinching stage and a second driven cinching stage. The first cinching stage utilizes the weight of the decklid to drive the decklid from a pop-up position to a cinched position. The second cinching stage utilizes a cinch mechanism to drive the decklid from its cinched position into a fully-closed position.

A closure latch assembly for a decklid configured to provide a power release operation and a power cinch operation. The power cinch operation is a dual-stage cinch operation having a first non-driven cinching stage and a second driven cinching stage. The first cinching stage utilizes the weight of the decklid to drive the decklid from a pop-up position to a cinched position. The second cinching stage utilizes a cinch mechanism to drive the decklid from its cinched position into a fully-closed position.

Various disclosed embodiments include illustrative devices, systems, and methods. In an illustrative embodiment, a device includes a latch motor configured to generate a power value, a position sensor configured to generate a striker pin position signal, a processor configured to communicate with the latch motor and the position sensor, and a memory configured to store computer-executable instructions. The computer-executable instructions are configured to cause the processor to determine the striker pin position in response to the generated striker pin position signal, detect an obstruction in response to the striker pin position and the power value, and perform an anti-pinch function in response to the detected obstruction.

A vehicle hood lock device includes a base including a groove for entry of a striker, a latch that pivots between a restraining position and a release position, a locking lever engaging the latch, a torsion spring causing the latch to pivot in a direction toward the release position, and a sub-plate fixed to the base by a latch pin supporting the latch and a locking pin supporting the locking lever. The torsion spring includes a cylindrical portion. The sub-plate integrally includes a basal portion, a circumferential wall portion rising up from the basal portion in a pivot axis direction of the latch, facing the cylindrical portion in a radial direction thereof and restricting movement of the torsion spring in the radial direction, and a brim portion protruding outward in the radial direction from the circumferential wall portion and restricting movement of the torsion spring in the pivot axis direction.

A vehicle hood lock device includes a base including a groove for entry of a striker, a latch that pivots between a restraining position and a release position, a locking lever engaging the latch, a torsion spring causing the latch to pivot in a direction toward the release position, and a sub-plate fixed to the base by a latch pin supporting the latch and a locking pin supporting the locking lever. The torsion spring includes a cylindrical portion. The sub-plate integrally includes a basal portion, a circumferential wall portion rising up from the basal portion in a pivot axis direction of the latch, facing the cylindrical portion in a radial direction thereof and restricting movement of the torsion spring in the radial direction, and a brim portion protruding outward in the radial direction from the circumferential wall portion and restricting movement of the torsion spring in the pivot axis direction.