Heat exchange system for patient temperature control with easy loading high performance peristaltic pump

What is claimed is: 1. Pump, comprising: an arcuate raceway having a concave inner surface extending through an arc of at least one hundred eighty degrees, the arc defining a midpoint; a rotor facing the inner surface of the raceway, the rotor being rotatable relative to the raceway, the rotor being translationally mounted relative to the raceway between a pump position, wherein the rotor is spaced from the midpoint a first distance, and a tube load position, wherein the rotor is spaced from the midpoint a second distance greater than the first distance; a motor coupled to the rotor to rotate the rotor; plural rollers arranged on the rotor to contact tubing disposed between the rotor and the raceway at least when the rotor is in the pump position; a motor mount supporting the motor and rotor; and a positioning mechanism coupled to the motor mount and including a handle manipulable by a person to move the motor mount to thereby move the rotor between the pump position and the tube load position, the positioning mechanism including a rod coupled to the motor mount, the handle being coupled to the rod such that the handle is movable to a first orientation to move the rod and move the motor mount and hence the rotor toward the inner surface of the raceway, moving the rotor to the pump position, the handle being movable to a second orientation to move the rod and move the rotor toward the tube load position. 2. The pump of claim 1 , wherein the concave inner surface of the raceway extends through an arc of between one hundred eighty degrees and two hundred degrees. 3. The pump of claim 1 , wherein the rollers comprise: at least one drive roller on the rotor, the drive roller having a cylindrical outer surface, the entire outer surface being configured to urge against a tube disposed between the rotor and the raceway when the rotor is in the pump position and is rotated, the drive roller having no flanges with peripheries extending beyond the cylindrical outer surface; and at least one guide roller on the rotor, the guide roller having a cylindrical outer surface and top and bottom flanges defining respective peripheries extending beyond the cylindrical outer surface of the guide roller such that a tube disposed between the rotor and the raceway is received on the cylindrical outer surface of the guide roller between the flanges when the rotor is in the pump position and is rotated. 4. The pump of claim 3 , comprising plural drive rollers and plural guide rollers. 5. The pump of claim 3 , comprising two and only two drive rollers and two and only two guide rollers. 6. The pump of claim 1 , wherein the motor mount is parallel to the raceway when the rotor is in the pump position, the motor mount being obliquely angled relative to the raceway when the rotor is in the tube load position. 7. The pump of claim 1 , wherein the motor is prevented from stopping at at least one angular position in which at least one roller is in a predetermined location, wherein the arc defines opposed arc ends, and the predetermined location of the roller corresponding to the angular position at which the motor is prevented from stopping is at an arc end. 8. The pump of claim 1 , comprising a controller configured for controlling the motor and an angular position sensor configured for sensing angular position of the motor and generating a signal indicative thereof to the controller, the controller configured to use the signal to prevent the motor from stopping at an angular position in which at least one roller is in a predetermined location.