Linear motion mechanism

The invention claimed is: 1. A linear stage assembly comprising: (1) a nut having a nut rotational axis and a wall which defines a bore, the bore having a nut helical thread which includes: (a) a nut crest which extends generally radially inwardly; (b) a nut root which extends generally radially outwardly; and (c) a contact nut flank between the nut crest and the nut root; (2) a screw having a screw rotational axis and a screw helical thread about an exterior which includes: (a) a screw crest which extends generally radially outwardly; (b) a screw root which extends generally radially inwardly; and (c) a contact screw flank between the screw crest and the screw root; wherein the nut and the screw are in a mating relationship so that the contact nut flank and the contact screw flank are in contact with one another defining a contact interface at least partially along a length of the screw and the nut; wherein the screw rotational axis and the nut rotational axis are a common rotational axis when the screw and the nut are in the mating relationship; wherein the contact interface imposes a frictional force which allows generally longitudinal movement in response to an actuation load of at least one of the screw or the nut relative to the other and which prevents back drive of at least one of the screw or the nut relative to the other after the actuation load is removed and in response to an opposing reaction force; wherein the contact screw flank includes a curved surface so that the contact screw flank is in two or more tangent angles to an opposing contact nut flank at the contact interface; wherein the contact nut flank, the contact screw flank, or both are generally arcuate with a plurality of linear surfaces, and wherein at least one individual linear surface of the plurality of linear surfaces is tangent to an opposing contact screw flank or an opposing contact nut flank at the contact interface. 2. The linear stage assembly of claim 1 , wherein the linear stage assembly does not include a ball screw. 3. The linear stage assembly of claim 2 , wherein the screw is a leadscrew. 4. A linear stage assembly comprising: (1) a nut having a nut rotational axis and a wall which defines a bore, the bore having a nut helical thread which includes: (a) a nut crest which extends generally radially inwardly; (b) a nut root which extends generally radially outwardly; and (c) a contact nut flank between the nut crest and the nut root; (2) a screw having a screw rotational axis and a screw helical thread about an exterior which includes: (a) a screw crest which extends generally radially outwardly; (b) a screw root which extends generally radially inwardly; and (c) a contact screw flank between the screw crest and the screw root; wherein the nut and the screw are in a mating relationship so that the contact nut flank and the contact screw flank are in contact with one another defining a contact interface at least partially along a length of the screw and the nut; wherein the screw rotational axis and the nut rotational axis are a common rotational axis when the screw and the nut are in the mating relationship; wherein the contact interface imposes a frictional force which allows generally longitudinal movement in response to an actuation load of at least one of the screw or the nut relative to the other and which prevents back drive of at least one of the screw or the nut relative to the other after the actuation load is removed and in response to an opposing reaction force; wherein the contact interface is along only a portion of the contact screw flank and the contact nut flank so that a variation in the actuation load is reduced by at least 50% as compared to a linear contact interface along an entire length of a linear contact screw flank and an entire length of a linear contact nut flank; wherein the linear stage assembly is a linear actuator assembly; wherein the linear stage assembly does not include a ball screw; wherein the screw is a leadscrew; and wherein the contact interface has a length which is less than about 25% of a length of the contact nut flank and less than about 25% of a length of the contact screw flank. 5. The linear stage assembly of claim 4 , wherein the contact nut flank, the contact screw flank, or both have a convex surface along at least a portion. 6. The linear stage assembly of claim 4 , wherein the contact interface is along only a portion of the contact screw flank and the contact nut flank so that a spindle efficiency is increased by at least 10% as compared to a linear contact interface along an entire length of a contact linear contact flank and an entire length of a linear contact nut flank. 7. The linear stage assembly of claim 4 , wherein the contact screw flank includes a convex surface; and wherein an opposing contact nut flank at the contact interface is tangential to the convex surface. 8. The linear stage assembly of claim 7 , wherein the convex surface has a radius from about 0.5 mm to about 15 mm. 9. The linear stage assembly of claim 8 , wherein the screw crest is free of contact with the nut in the mating relationship. 10. The linear stage assembly of claim 4 , wherein a motor is in communication with the linear stage assembly and applies the actuation load; and wherein the motor applies a release force opposite of the actuation load which results in retraction of at least one of the screw or the nut relative to the other. 11. A brake assembly including the linear stage assembly of claim 4 , wherein the linear stage assembly is an electromechanical actuator assembly. 12. The brake assembly of claim 11 , wherein the brake assembly is an automotive brake assembly which includes a drum brake, a caliper brake, or a drum-in-hat brake. 13. The brake assembly of claim 12 , wherein the nut and the screw in the mating relationship maintain application of a brake force in the automotive brake assembly after a brake apply force has been withdrawn. 14. The linear stage assembly of claim 4 , wherein the contact screw flank includes a convex surface; and wherein the convex surface is equal to or greater than about 10% of the length of the contact screw flank. 15. A linear stage assembly comprising: (1) a nut having a nut rotational axis and a wall which defines a bore, the bore having a nut helical thread which includes: (a) a nut crest which extends generally radially inwardly; (b) a nut root which extends generally radially outwardly; and (c) a contact nut flank between the nut crest and the nut root; (2) a screw having a screw rotational axis and a screw helical thread about an exterior which includes: (a) a screw crest which extends generally radially outwardly; (b) a screw root which extends generally radially inwardly; and (c) a contact screw flank between the screw crest and the screw root; wherein the nut and the screw are in a mating relationship so that the contact nut flank and the contact screw flank are in contact with one another defining a contact interface at least partially along a length of the screw and the nut; wherein the screw rotational axis and the nut rotational axis are a common rotational axis when the screw and the nut are in the mating relationship; wherein the contact interface imposes a frictional force which allows generally longitudinal movement in response to an actuation load of at least one of the screw or the nut relative to the other and which prevents back drive of at least one of the screw or the nut relative to the other after the actuation load is removed and in response to an opposing react