Support structure for rotary sensor

We claim: 1. A support structure for a rotary sensor including a rotor and a housing, the support structure comprising: a shaft including a first end, a second end, and a shaft axis extending therebetween, the first end configured to be coupled to the rotor, the shaft supported for rotation about the shaft axis; a housing portion including a first bore and a second bore, the first bore extending along a first axis, the second bore extending along a second axis oriented at a non-zero angle relative to the first axis; a first member at least partially positioned in the first bore and movable relative to the housing portion in a direction parallel to the first axis, the first member coupled to the second end of the shaft; and a second member at least partially positioned in the second bore, at least one of the housing portion and the second member is movable relative to the other of the housing portion and the second member in a direction parallel to the second axis. 2. The support structure of claim 1 , wherein the first axis and the second axis are substantially coplanar and oriented perpendicular to one another. 3. The support structure of claim 1 , wherein the housing portion is a first housing portion, the support structure further comprising a second housing portion, wherein an end of the second member is secured to the second housing portion. 4. The support structure of claim 1 , wherein the shaft includes a universal joint positioned between the first end and the second end of the shaft, wherein the universal joint permits a portion of the shaft proximate the second end of the shaft to form an acute angle about the universal joint relative to a portion of the shaft proximate the first end of the shaft. 5. The support structure of claim 4 , wherein the acute angle is between approximately 0 degrees and approximately 20 degrees. 6. The support structure of claim 1 , wherein the shaft axis is oriented perpendicular to the first axis. 7. The support structure of claim 6 , wherein the first axis and the second axis are substantially coplanar, wherein the shaft axis is oriented substantially perpendicular to both the first axis and the second axis. 8. The support structure of claim 1 , further comprising at least one first bushing positioned in the first bore to support relative movement of the first member and the housing portion, and at least one second bushing positioned in the second bore to support relative movement of the second member and the housing portion. 9. A rotary sensor assembly comprising: a sensor including a sensor housing and a rotor, the sensor housing having an interior chamber, the rotor positioned within the interior chamber and rotatable relative to the sensor housing about a rotor axis, the sensor detecting the angular position of the rotor relative to the sensor housing about the rotor axis; a shaft including a first end and a second end, the first end coupled to the rotor, the shaft supported for rotation relative to the sensor housing about the rotor axis; a support housing portion including a bore extending along a support axis; and a member at least partially positioned in the bore, the member coupled to the second end of the shaft, the member movable relative to the support housing portion in a direction parallel to the support axis in response to deflection of the second end of the shaft relative to the rotor axis. 10. The rotary sensor assembly of claim 9 , wherein the bore is a first bore, the spport axis is a first support axis, and the member is a first member, wherein the support housing portion further includes a second bore extending along a second support axis oriented at a non-zero angle relative to the first support axis, the sensor assembly further comprising a second member at least partially positioned in the second bore, at least one of the support housing portion and the second member is movable relative to the other of the support housing portion and the second member in a direction parallel to the second support axis and in response to deflection of the second end of the shaft away from the rotor axis. 11. The rotary sensor assembly of claim 10 , wherein the first support axis and the second support axis are substantially coplanar and oriented perpendicular to one another. 12. The rotary sensor assembly of claim 10 , wherein the support housing portion is a first support housing portion, the support structure further comprising a second support housing portion, wherein an end of the second member is secured to the second support housing portion. 13. The rotary sensor assembly of claim 12 , wherein the acute angle is between approximately 0 degrees and approximately 20 degrees. 14. The rotary sensor assembly of claim 10 , wherein the first support axis and the second support axis are substantially coplanar, wherein the rotor axis is oriented substantially perpendicular to both the first support axis and the second support axis. 15. The rotary sensor assembly of claim 9 , wherein the shaft includes a universal joint positioned between the first end and the second end of the shaft, wherein the universal joint permits a portion of the shaft proximate the second end of the shaft to form an acute angle about the universal joint relative to a portion of the shaft proximate the first end of the shaft. 16. A mining machine comprising: a chassis including a drive mechanism for moving the chassis relative to a mine surface; at least one cutting assembly including an arm and a cutting mechanism, the arm pivotably coupled to the chassis and pivotable about an arm axis, the cutting mechanism supported for rotation on the arm and including a plurality of cutting bits for engaging a mine face; a sensor assembly coupled to one of the chassis and the arm, the sensor assembly including a sensor housing and a rotor, the sensor housing having an interior chamber, the rotor positioned within the interior chamber and rotatable relative to the sensor housing about a rotor axis, the sensor assembly detecting angular displacement of the rotor relative to the sensor housing about the rotor axis when the arm pivots relative to the chassis about the arm axis; a shaft including a first end and a second end, the first end coupled to the rotor, the shaft supported for rotation relative to the sensor housing about the rotor axis; a support housing portion including a first bore and a second bore, the first bore extending along a first axis, the second bore extending along a second axis oriented at a non-zero angle relative to the first axis; a first member at least partially positioned in the first bore, the first member coupled to the second end of the shaft, the first member movable relative to the support housing portion in a direction parallel to the first axis in response to deflection of the second end of the shaft away from the rotor axis; and a second member coupled to the other of the chassis and the arm, the second member at least partially positioned in the second bore, at least one of the support housing portion and the second member is movable relative to the other of the support housing portion and the second member in a direction parallel to the second axis and in response to deflection of the second end of the shaft away from the rotor axis. 17. The mining machine of claim 16 , wherein the first axis and the second axis are substantially coplanar and oriented perpendicular to one another. 18. The mining machine of claim 16 , wherein the support housing portion is a first support housing portion, the support structure furthe