A force adjustment mechanism configured for use with an exit device including a pushbar having an extended position and a retracted position. With the pushbar in the extended position, the pushbar resists movement toward the retracted position with a net resistive force. The force adjustment mechanism is operable to adjust the net resistive force.

A latch having an adjustable primary/final position includes mounting plate with a plurality of mounting holes or mounting locations to which a primary pawl can be selectively attached. The latch also includes a latch cam that is rotatable between an open position and a primary, fully engaged position. When in the primary, fully engaged position, the latch cam secures a striker within a receiving slot of the mounting plate. The position of the striker within the receiving slot when the latch cam is in the fully engaged position can be adjusted by selectively attaching the primary pawl to a different one of the plurality of mounting holes or mounting locations.

A force adjustment mechanism configured for use with an exit device including a pushbar having an extended position and a retracted position. With the pushbar in the extended position, the pushbar resists movement toward the retracted position with a net resistive force. The force adjustment mechanism is operable to adjust the net resistive force.

A force adjustment mechanism configured for use with an exit device including a pushbar having an extended position and a retracted position. With the pushbar in the extended position, the pushbar resists movement toward the retracted position with a net resistive force. The force adjustment mechanism is operable to adjust the net resistive force.

An inertial system for a vehicle door handle of a door includes an inertial mass driven by inertia from a rest position in which opening of the door is permitted to a blocking position in which opening of the door is not permitted, a blocking means that prevents opening of the door when the inertial mass is in the blocking position. The inertial system also includes an elastic means being in a minimal tensile stress state when the inertial mass is in rest position and applies a force on the inertial mass to bring the inertial mass from the blocking position to the rest position and a preloading mechanism that cooperates with the elastic means and includes at least two preloading states for enabling the elastic means to have different minimal tensile stress states.

The aim of the invention is to design a door lock or flap lock which can be easily and reliably opened with little effort. Said aim is achieved by a door lock or flap lock comprising a locking mechanism that consists of a latch and at least one pawl for locking the latch. The lock further comprises a triggering lever which, upon being actuated allows the locked locking mechanism to be unlocked. The lock also comprises a spring for moving the pawl in the direction of the locking position. When the triggering lever is actuated, the triggering lever rests against the spring to push the spring away from the pawl and decrease or cancel the spring force. Using the triggering lever, functions, the number of parts can be kept to a minimum. Advantageously, the lock therefore is not complex to produce and is compact and lightweight.

The present invention relates to a dishwasher (1) wherein the stiffness level of the stress means (7) is provided to be kept at different values by means of the adjustment means (8) during the washing cycle, the locking mechanism (4) is provided to remain locked completely by adjusting the stiffness level of the stress means (7) by means of the adjustment means (8) depending on the requirement at the respective stage of the washing cycle, the stiffness level is adjusted to the lowest value before or after the washing process for easily opening the door (3) and the locking mechanism (4) is provided not to open easily in order to prevent escape of steam from inside the body (2) during the washing process by adjusting the stiffness level of the stress means (7) by means of the adjustment means (8).