Touchpad guided by a linear bearing

What is claimed is: 1. A button assembly comprising: a touchpad having an upper surface and being movable between a first position and a second position displaced from said first position in response to the application of a pressing force perpendicular to said upper surface, wherein the touchpad includes a base portion defining a bottom surface opposite said upper surface and a rod extending generally perpendicularly from said bottom surface for engaging a first switch and for biasing said touchpad into said first position; a sub-bezel including a housing defining a top side adjacent said touchpad and defining a cavity extending into said housing from said top side; and a linear bearing disposed in said cavity of said sub-bezel for guiding said touchpad in a linear path perpendicular to said upper surface between said first position and said second position and for limiting displacement of said touchpad outside of said linear path and including a plurality of first ball bearings and a plurality of second ball bearings separated from said first ball bearings by a first distance perpendicular to said upper surface with said ball bearings sandwiched between a bearing outer member and a bearing inner member, wherein said bearing inner member defines a bore therethrough with said rod extending from said touchpad through said bore to engage said first switch. 2. The button assembly according to claim 1 wherein at least one of said bearing outer member or said bearing inner member defines a plurality of first troughs extending perpendicular to said upper surface and with each of said first troughs holding and guiding a corresponding one of said first ball bearings to guide said touchpad in said linear path. 3. The button assembly according to claim 2 wherein at least one of said bearing outer member or said bearing inner member defines a plurality of second troughs extending perpendicular to said upper surface and with each of said second troughs holding and guiding a corresponding one of said second ball bearings to guide said touchpad in said linear path. 4. The button assembly according to claim 1 wherein said bearing outer member includes a tubular side wall extending about an axis. 5. The button assembly of claim 1 wherein said bearing outer member includes a first flange with a plurality of first ears each extending outwardly to a first peripheral side, and wherein said sub-bezel includes a plurality of first L-shaped members extending axially and circumferentially and each configured to hold a corresponding one of said first ears of said bearing outer member; and wherein said first ears of said bearing outer member and said first L-shaped members of said sub-bezel together function as a bayonet-type fitting to secure said linear bearing within said sub-bezel with relative rotation therebetween to engage said first ears within corresponding ones of said first L-shaped members. 6. The button assembly according to claim 1 wherein said bearing inner member an inner-top member being generally cup-shaped and extending between an open upper end and a closed lower end; and wherein said bearing inner member includes an inner-bottom member being generally cup-shaped and extending between an open lower end and a closed upper end secured to said closed lower end of said inner-top member. 7. The button assembly according to claim 6 wherein said inner-top member includes an upper lip extending radially outwardly about said open upper end for retaining said first ball bearings within said linear bearing. 8. The button assembly according to claim 6 wherein said open lower end of said inner-bottom member includes a bottom lip extending radially outwardly thereabout for retaining said second ball bearings within said linear bearing. 9. The button assembly of claim 6 wherein said inner-top member of said linear bearing defines a plurality of latching tabs extending away from said closed lower end to define a trapezoidal end including a first ledge for engaging a corresponding second ledge on said touchpad and for holding said touchpad onto said linear bearing. 10. The button assembly of claim 6 wherein said inner-top member of said linear bearing further includes a plurality of second ears each extending and radially outwardly adjacent said open upper end for each nesting within a corresponding second L-shaped member in said bottom surface of said touchpad; and said closed lower end of said inner-top member defining a tooling receptacle for receiving a tool to rotate said bearing inner member and to cause said second ears to engage said second L-shaped members with a bayonet-style fitting. 11. The button assembly according to claim 1 wherein at least one of said bearing outer member or said bearing inner member comprises Polyoxymethylene (POM). 12. The button assembly according to claim 1 further including a bearing carrier disposed between said bearing outer member and said bearing inner member for holding said ball bearings, the bearing carrier including a top end and a bottom end, wherein the bearing carrier defines a plurality of cutouts disposed adjacent each of the top end and the bottom end of the bearing carrier, wherein each of said cutouts having a U-shape for holding a corresponding one of said ball bearings. 13. The button assembly of claim 1 wherein said within said cavity of said sub-bezel includes a generally cylindrical collar defining an internal thread and said bearing outer member defines an external thread thereabout for engaging said internal thread to secure said linear bearing within said cavity of said sub-bezel. 14. A button assembly comprising: a touchpad having an upper surface and being movable between a first position and a second position displaced from said first position in response to the application of a pressing force perpendicular to said upper surface; a linear bearing for guiding said touchpad in a linear path perpendicular to said upper surface between said first position and said second position and for limiting displacement of said touchpad outside of said linear path and including a plurality of first ball bearings and a plurality of second ball bearings separated from said first ball bearings by a first distance perpendicular to said upper surface with said ball bearings sandwiched between a bearing outer member and a bearing inner member; said bearing inner member including an inner-top member secured to an inner-bottom member; said bearing inner member including an inner-top member being generally cup-shaped and extending between a closed lower end and an open upper end; said inner-bottom member being generally cup-shaped and extending between an open lower end and a closed upper end secured to said closed lower end of said inner-top member. 15. The button assembly of claim 14 wherein said inner-top member defines an upper lip extending radially outwardly about said open upper end for retaining said first ball bearings within said linear bearing. 16. The button assembly of claim 14 wherein said within inner-bottom member defines a bottom lip extending radially outwardly about said open lower end for retaining said second ball bearings within said linear bearing. 17. A button assembly comprising: a touchpad having an upper surface and being movable between a first position and a second position displaced from said first position in response to the application of a pressing force perpendicular to said upper surface; and a linear bearing for guiding said touchpad in a linear path perpendicular to said upper surface between said first posit