Inertia locking device for vehicle latch

What is claimed is: 1 . A vehicle latch, comprising: a claw rotationally mounted to the latch for movement about an axis; a pawl rotationally mounted to the latch for movement about an axis between a first position and a second position, wherein the pawl restricts movement of the claw when it is in the first position and wherein the pawl does not restrict movement of the claw when it is in the second position; and an inertia locking device for limiting movement of the pawl towards the second position, wherein the inertia locking device includes a mass-spring damper system configured to react to acceleration forces applied to the pawl in order to limit the movement of the pawl. 2 . The vehicle latch as in claim 1 , wherein the inertia locking device further comprises a first member rotatably mounted to the latch for movement about an axis between a first position and a second position. 3 . The vehicle latch as in claim 2 , wherein the inertia locking device further comprises a blocking member rotatably mounted to the first member for movement about an axis. 4 . The vehicle latch as in claim 3 , wherein when the first member is in the first position, an engagement surface of the first member is positioned to contact a surface of the pawl such that rotation of the pawl towards its second position is prohibited. 5 . The vehicle latch as in claim 4 , wherein the blocking member is configured to contact a protrusion of the latch such that rotation of the first member towards the second position is prohibited. 6 . The vehicle latch as in claim 5 , wherein the blocking member has a first arm member and a second arm member, the first arm member being configured to contact the protrusion when the blocking member is in the first position and wherein the second arm member is operably coupled to the mass-spring damper system. 7 . The vehicle latch as in claim 2 , wherein the mass-spring damper system is secured to a portion of the first member such that as first member rotates the axis the mass-spring damper system also moves. 8 . The vehicle latch as in claim 7 , further comprising a spring configured to provide a biasing force to first member such that first member is spring biased into its first position. 9 . The vehicle latch as in claim 2 , further comprising a spring configured to provide a biasing force to first member such that first member is spring biased into its first position. 10 . The vehicle latch as in claim 3 , wherein the blocking member has a first arm member and a second arm member, the first arm member being configured to contact a protrusion when the blocking member is in the first position and wherein the second arm member is operably coupled to the mass-spring damper system. 11 . The vehicle latch as in claim 10 , wherein the mass-spring damper system has an arm that is rotatably coupled to arm at one end and is received in a housing of the mass-spring damper system at the other end. 12 . The vehicle latch as in claim 12 , wherein an end of the arm that is received in housing is coupled to a piston slidably received within housing and a fluid is disposed between piston and an end of an internal cavity of housing wherein the fluid provides a resistive force to the piston as it slides within housing. 13 . The vehicle latch as in claim 1 , further comprising a release lever configured to apply rotational forces to the pawl and the inertia locking device. 14 . The vehicle latch as in claim 12 , wherein the release lever is operatively coupled to a release handle. 15 . The vehicle latch as in claim 1 , wherein the mass-spring damper system prevents movement of the pawl when an acceleration force greater than a predetermined valve is applied to the pawl. 16 . The vehicle latch as in claim 2 , wherein the first member is spring biased into the first position. 17 . A method of limiting movement of a pawl of a vehicle latch, comprising: rotationally mounting a claw to the latch for movement about an axis; rotationally mounting a pawl to the latch for movement about an axis between a first position and a second position, wherein the pawl restricts movement of the claw when it is in the first position and wherein the pawl does not restrict movement of the claw when it is in the second position; and limiting movement of the pawl towards the second position with an inertia locking device, wherein the inertia locking device includes a mass-spring damper system configured to react to acceleration forces applied to the pawl in order to limit the movement of the pawl. 18 . The method as in claim 17 , wherein the inertia locking device further comprises a first member rotatably mounted to the latch for movement about an axis between a first position and a second position. 19 . The method as in claim 18 , wherein the inertia locking device further comprises a blocking member rotatably mounted to the first member for movement about an axis. 20 . The method as in claim 19 , wherein when the first member is in the first position, an engagement surface of the first member is positioned to contact a surface of the pawl such that rotation of the pawl towards its second position is prohibited.