Push actuated positional adjustment of strength machines

What is claimed is: 1. An exercise machine, comprising: a user contact feature; an adjustable joint including a first part and a second part, wherein the first part is shaped to rotate relative to the second part such that when an orientation between the first part and the second part changes, a position of the user contact feature changes; and a securing mechanism positioned to selectively secure the first part and the second part together; wherein the securing mechanism is positioned to secure the first part and the second part in an axially securing direction and to release the first part from the second part in an axially releasing direction; wherein when the first part and the second part are secured, at least two first part features are interlocked with at least two second part features simultaneously; wherein the securing mechanism is arranged to release the first part in response to a pushing action on a mechanical linkage extending radially from opposing sides of the second part. 2. The exercise machine of claim 1 , wherein the first part and the second part are connected with a central pivot shaft shaped to allow the first part and the second part to rotate about a central axis with respect to each other. 3. The exercise machine of claim 2 , wherein the securing mechanism is incorporated into the central pivot shaft. 4. The exercise machine of claim 1 , wherein the securing mechanism comprises a spring that forms a spring force in the axially securing direction. 5. The exercise machine of claim 1 , wherein the at least two first part features are protrusions and the at least two second part features are receptacles that are spaced to receive the protrusions. 6. The exercise machine of claim 5 , wherein the receptacles are formed in a periphery of the second part. 7. The exercise machine of claim 5 , wherein the receptacles are formed in a face of the second part. 8. The exercise machine of claim 5 , wherein the receptacles are formed in a substantially circular arrangement. 9. The exercise machine of claim 1 , wherein the first part and the second part are plates that face one another. 10. The exercise machine of claim 1 , wherein the securing mechanism incorporates a cam assembly. 11. The exercise machine of claim 1 , wherein the at least two second part features are grooves that are formed along a width of the second part. 12. The exercise machine of claim 1 , wherein the adjustable joint is formed in the mechanical linkage that connects a resistance mechanism to the user contact feature. 13. The exercise machine of claim 12 , wherein the mechanical linkage that connects the resistance mechanism to the user contact feature is connected with a cable that is routed through the adjustable joint. 14. The exercise machine of claim 12 , wherein the axially securing direction is aligned with a pull force generated when a user pulls against the resistance mechanism. 15. The exercise machine of claim 1 , wherein the first part and the second part are restricted from rotating with respect to each other when secured and wherein the first part and the second part are free to move axially with respect to each other when not secured. 16. A pull exercise machine, comprising: a mechanical linkage that connects a resistance mechanism to handles; the mechanical linkage comprising an adjustable joint; the adjustable joint comprising a first plate and a second plate that are connected with a central pivot shaft shaped to allow the first plate and the second plate to rotate with respect to each other such that when an orientation between the first plate and the second plate changes a position of the handles also changes; a locking mechanism positioned to move at least one of the first plate and the second plate; and the locking mechanism being positioned to secure the first plate and the second plate in an axially locking direction and to release the first plate from the second plate in an axially releasing direction; wherein when the first plate and the second plate are secured at least two protrusions of the first plate are inserted into at least two receptacles of the second plate simultaneously; wherein the mechanical linkage extends radially from opposing sides of the second plate, and the locking mechanism is arranged to release the first plate in response to a pushing force on the mechanical linkage. 17. The pull exercise machine of claim 16 , wherein the mechanical linkage that connects the resistance mechanism to the handles is connected with a cable that is routed through the adjustable joint. 18. The pull exercise machine of claim 16 , wherein the locking mechanism comprises a spring that forms a spring force in the axially locking direction. 19. A pull exercise machine, comprising: a mechanical linkage that connects a resistance mechanism to at least one handle; the mechanical linkage including a cable that is routed through an adjustable joint; the adjustable joint comprising a first plate and a second plate that are connected with a central pivot shaft shaped to allow the first plate and the second plate to rotate with respect to each other such that when an orientation between the first plate and the second plate changes, a position of the at least one handle also changes; a locking mechanism that is arranged to move at least one of the first plate and the second plate; the locking mechanism being positioned to secured the first plate and the second plate in an axially locking direction and to release the first plate from the second plate in an axially releasing direction; and the locking mechanism comprising a spring that forms a spring force in the axially locking direction; wherein when the first plate and the second plate are secured at least two protrusions of the first plate are inserted into at least two receptacles of the second plate simultaneously; wherein the mechanical linkage extends radially from opposing sides of the second plate, and the locking mechanism is arranged to release the first plate in response to a pushing force on the mechanical linkage.