Locking mechanism for an articulating oscillating power tool

What is claimed is: 1. An articulating power tool comprising: a housing; a motor located in the housing, the motor including a drive shaft configured for rotation about a first axis; an actuator operatively coupled to the drive shaft configured to convert the rotation of the drive shaft to a reversing angular displacement; a tool holder coupled to the actuator and configured to move in response to movement of the actuator; an articulator operatively coupled to the housing and to the tool holder, the articulator configured to adjust the tool holder through a range of angular positions relative to the housing; and a locking mechanism operatively coupled between the articulator and the housing for locking the articulator in a user-selected one of said range of angular positions, wherein the articulator includes a barrel element with a clamping surface facing the locking mechanism; and wherein the locking mechanism is provided with a mating clamping surface, the clamping surfaces configured to prevent relative rotation when the surfaces are pressed together. 2. The articulating power tool of claim 1 , wherein: the locking mechanism includes; a friction plate pack disposed between said clamping surface and said housing said friction plate pack including said mating clamping surface; and a pressure element that is manually tightenable to press the friction plate pack and the articulator together to prevent relative rotation. 3. The articulating power tool of claim 2 , wherein said pressure element is a screw threaded through said housing to bear against said barrel of said articulator and press the friction plate pack and articulator together. 4. The articulating power tool of claim 2 , wherein the pressure element includes an eccentric lever with an eccentric cam element, the lever pivotably mounted on said housing with said eccentric cam element bearing on said housing, the lever configured to apply pressure to said barrel of the articulator upon rotation of the eccentric cam element relative to the housing. 5. The articulating power tool of claim 4 , wherein the pressure element includes a pressure pin coupled to said eccentric cam element and to said articulator so that rotation of said eccentric cam element relative to the housing pulls the pressure pin to thereby pull the articulator toward the friction plate pack. 6. The articulating power tool of claim 1 , wherein: the locking mechanism includes; spring pack disposed between said clamping surface and said housing, said spring pack including the mating clamping surface; and a pressure element that is manually tightenable to press the spring pack and the articulator together to prevent relative rotation. 7. The articulating power tool of claim 6 , wherein said pressure element is a screw threaded through said housing to bear against said barrel of said articulator and press the spring pack and articulator together. 8. The articulating power tool of claim 6 , wherein the pressure element includes an eccentric lever with an eccentric cam element, the lever pivotably mounted on said housing with said eccentric cam element bearing on said housing, the lever configured to apply pressure to said barrel of the articulator upon rotation of the eccentric cam element relative to the housing. 9. An articulating power tool comprising: a housing; a motor located in the housing, the motor including a drive shaft configured for rotation about a first axis; an actuator operatively coupled to the drive shaft configured to convert the rotation of the drive shaft to a reversing angular displacement; a tool holder coupled to the actuator and configured to move in response to movement of the actuator; an articulator operatively coupled to the housing and to the tool holder, the articulator configured to adjust the tool holder through a range of angular positions relative to the housing; and a locking mechanism operatively coupled between the articulator and the housing for locking the articulator in a user-selected one of said range of angular positions, wherein the articulator includes a clamping surface; and wherein the locking mechanism includes a ball-in-ramp mechanism having an input plate, a locking plate opposite said input plate and at least one rolling element disposed between said input plate and said locking plate, said input plate and said locking plate configured to convert movement of said input plate to a force pressing said locking plate into said clamping surface by way of said at least one rolling element. 10. The articulating power tool of claim 9 , wherein said input plate and said locking plate each include at least one opposing annular channel corresponding to the at least one rolling element, each of said annular channels configured to receive one of said at least one rolling element for rolling movement therein and each of said annular channels including a ramp surface configured to reduce the distance between the ramp surface of opposing annular channels upon rotation of said input plate. 11. The articulating power tool of claim 10 , wherein said movement of said input plate is a rotation of said input plate to produce the rolling movement of said at least one rolling element between said opposing annular channels. 12. The articulating power tool of claim 9 , wherein: the articulator includes a barrel element with said clamping surface facing the locking mechanism; and said output plate of the locking mechanism is provided with a mating clamping surface facing said clamping surface of the barrel element, the clamping surfaces configured to prevent relative rotation when the surfaces are pressed together. 13. The articulating power tool of claim 12 , wherein said clamping surface and said mating clamping surface include a surface treatment configured for enhanced engagement. 14. The articulating power tool of claim 13 , wherein the surface treatment includes mating radial splines defined on the clamping surfaces. 15. The articulating power tool of claim 9 , wherein said input plate is a carrier within which said at least one rolling element is mounted and said movement of said input plate is a linear movement.