Infusion pump systems and methods for administration sets

What is claimed is: 1. A large volume pump (LVP) that provides peristaltic pumping to supply medical infusate, comprising: a pump housing including an assembly receptacle, a drive-train assembly configured for providing mechanical peristaltic movement, including: a stepper motor, located within the pump housing; and a camshaft assembly, driven by the stepper motor, including: a unitary camshaft; and a plurality of tube engaging members that cooperatively move according to rotation of the unitary camshaft, wherein a portion of each tube engaging member extends at least partially into the assembly receptacle; a controller located within the pump housing that controls operation of the stepper motor and the camshaft assembly to move the plurality of tube engaging members in a peristaltic manner; and a receptacle door coupled to the pump housing and including a door lever linked to a pusher, the receptacle door movable between an open position to allow access to the assembly receptacle and a closed position to block access to the assembly receptacle, wherein, when an administration set tubing assembly is removably coupled in the assembly receptacle and the receptacle door in the closed position, the door lever is configured to be movable to a latched position such that the pusher mechanically contacts a free-flow protection arm of the administration set tubing assembly to move the free-flow protection arm to a flow-allowing position. 2. The LVP of claim 1 , wherein the administration set tubing assembly that the assembly receptacle is configured to receive, includes: a peristaltic tube suitable for compression by the drive-train assembly; a first tube coupler and a second tube coupler, each attached at opposing ends of the peristaltic tube and each having a lumen in fluidic communication with the peristaltic tube; a frame coupled to the first tube coupler and the second tube coupler at spaced-apart locations, the frame configured for releasable attachment to the LVP in which the peristaltic tube is positioned for engagement with the plurality of tube engaging members, the frame further including a latching receiver projecting from the frame having a finger press surface; and wherein the free-flow protection arm hingedly is coupled to the frame and includes a latching structure sized to cooperate with the latching receiver. 3. The LVP of claim 1 , wherein the pump housing includes a touch screen that permits operator interaction with the LVP. 4. The LVP of claim 1 , wherein a suspended rigid pressure plate for tube compression is located on the receptacle door that is hinged to the pump housing adjacent the assembly receptacle. 5. The LVP of claim 4 , wherein the assembly receptacle includes a set of horizontally-disposed guide rails located above and below the tube-engaging members to prevent vertical tube walk. 6. The LVP of claim 5 , wherein the set of horizontally-disposed guide rails includes three projection features to define planar contact with the suspended rigid pressure plate. 7. The LVP of claim 1 , wherein a second internal housing is included within the pump housing that largely surrounds the plurality of tube-engaging members, with only ends of the plurality of tube-engaging members extending out from the second internal housing through an opening into the assembly receptacle. 8. The LVP of claim 7 , wherein the second internal housing is sealed at locations rearward of the tube engaging members to restrict possible fluid leakage from reaching further into the pump housing. 9. The LVP of claim 8 , wherein weep hole apertures, that are connected to interior locations of the second internal housing, are located in the assembly receptacle at a front of the LVP pump. 10. The LVP of claim 1 , wherein the controller controls the stepper motor to manipulate the camshaft assembly such that a relatively constant flow of medical infusate is provided by continuously changing rotational speeds of the camshaft assembly to compensate for the inconsistent flow profile of the drive-train assembly. 11. The LVP of claim 10 , wherein the controller repeats the rotational speeds for the camshaft assembly within each revolution of the unitary camshaft. 12. The LVP of claim 1 , wherein the camshaft has uniformly distributed lobes around a circumference of the camshaft. 13. The LVP of claim 1 , wherein the plurality of tube-engaging members are of identical shape. 14. The LVP of claim 13 , wherein the plurality of tube-engaging members each include shaft wear plates that protrude from each side of a front shaft portion to aid in spacing and prevent wear between adjacent tube engaging members. 15. The LVP of claim 14 , wherein the plurality of tube-engaging members each include blocks providing top and bottom wear surfaces that protrude from each side at upper and lower locations to aid in spacing and prevent wear between adjacent tube engaging members. 16. The LVP of claim 15 , wherein the plurality of tube-engaging members include twelve tube-engaging members. 17. The LVP of claim 1 , wherein the pump housing of the LVP includes tube guides of C-shaped tubing capture structure at the periphery of the pump housing for retaining tubing of a coupled administration set beyond either side of the assembly receptacle. 18. The LVP of claim 1 , wherein the assembly receptacle includes a ramp feature configured to cooperate with the free-flow protection arm of the administration set tubing assembly coupled in the assembly receptacle to prevent the free-flow protection arm from latching in the flow-allowing position. 19. A large volume pump (LVP) system that provides peristaltic pumping to supply medical infusate, comprising: a pump housing including an assembly receptacle; a drive-train assembly providing mechanical peristaltic movement, including: a stepper motor, located within the pump housing; and a camshaft assembly, driven by the stepper motor and at least partially extending into the assembly receptacle, including: a unitary camshaft; and a plurality of tube engaging members that cooperatively move according to rotation of the unitary camshaft, wherein a portion of each tube engaging member extends at least partially into the assembly receptacle; a controller located within the pump housing that controls operation of the stepper motor and the camshaft assembly to move the plurality of tube engaging members in a peristaltic manner; an administration set tubing assembly that is removably couplable with the assembly receptacle, including: a peristaltic tube suitable for compression by the drive-train assembly; a first tube coupler and a second tube coupler, each attached at opposing ends of the peristaltic tube and each having a lumen in fluidic communication with the peristaltic tube; and a frame coupled to the first tube coupler and the second tube coupler at spaced-apart locations, the frame configured for releasable attachment to the assembly receptacle in which the peristaltic tube is positioned for engagement with the plurality of tube engaging members; and a receptacle door coupled to the pump housing and including a door lever linked to a pusher, the receptacle door movable between an open position to allow access to the assembly receptacle and a closed position to block access to the assembly receptacle, wherein, when the administration set tubing assembly is removably coupled in the assembly receptacle and the receptacle door in the closed position, the door lever is configured to be movable to a latched position suc