Linearly actuated flow controller for intravenous (IV) fluid administration

What is claimed is: 1. A flow controller for intravenous (IV) tubing, the flow controller comprising: a first structural member comprising a linear first outer surface and a linear first inner surface disposed at an angle to the first outer surface; a second structural member comprising a linear second outer surface parallel to the first outer surface and a linear second continuous inner surface parallel to the first inner surface; and a third structural member disposed on one of the first or second structural member, the third structural member comprising a friction-reducing surface for at least a portion of a cavity disposed between the first and second structural members, wherein the first structural member is linearly slidable along a length of the IV tubing disposed in the cavity to compress a portion of the IV tubing to control flow of a medical fluid through the IV tubing. 2. The flow controller of claim 1 , wherein the first inner surface defines a portion of the cavity on a first side of the IV tubing, and the second continuous inner surface defines a portion of the cavity on a second side of the IV tubing. 3. The flow controller of claim 1 , wherein the first inner surface is a ramped first surface and the second continuous inner surface is a ramped second surface, and wherein the ramped first surface is parallel to the ramped second surface at all positions of the linearly slidable first structural member relative to the second structural member. 4. The flow controller of claim 3 , wherein the linearly slidable first structural member has an open position at which the IV tubing is uncompressed within the cavity and a closed position, linearly separated from the open position, in which the portion of the IV tubing is compressed between the ramped first surface and the ramped second surface to stop flow of the medical fluid through the IV tubing. 5. The flow controller of claim 3 , wherein the linearly slidable first structural member is continuously slidable between an open uncompressed position and a closed compressed position, and wherein each intermediate position of the linearly slidable first structural member between the open position and the closed position is associated with an intermediate compression of the portion of the IV tubing between the ramped first surface and the ramped second surface to set a corresponding intermediate flow rate through the IV tubing. 6. The flow controller of claim 1 , wherein the linearly slidable first structural member comprises first interlocking features configured to slide along second interlocking features of the second structural member in response to a pressure from a user's finger on an outer surface of the first structural member. 7. The flow controller of claim 1 , further comprising a rotary control member coupled to the first structural member such that rotation of the rotary control member causes first interlocking features of the first structural member to linearly slide along second interlocking features of the second structural member. 8. The flow controller of claim 7 , wherein the rotary control member comprises a wheel for a scotch yoke mechanism coupled to the first structural member. 9. The flow controller of claim 8 , wherein the wheel comprises a first wheel for the scotch yoke mechanism and has a first diameter, and wherein the flow controller further comprises a second wheel having a second diameter that is larger than the first diameter to provide both gross and fine linear control of the position of the first structural member. 10. The flow controller of claim 9 , further comprising an additional rotational actuator coupled to the first structural member. 11. The flow controller of claim 8 , further comprising a hard stop on at least one of the first structural member and the second structural member to provide a tactile indication that the first structural member is in a closed position. 12. The flow controller of claim 1 , further comprising a hard stop on the second structural member to provide a tactile indication that the first structural member is in a closed position. 13. The flow controller of claim 1 , further comprising a friction-increasing feature disposed on the other of the first or second structural member. 14. An intravenous (IV) set, comprising: an IV tube; and the flow controller of claim 1 coupled to the IV tube. 15. The flow controller of claim 1 , wherein the linear first outer surface extends across an entire length of the first structural member and the linear second outer surface extends across an entire length of the second structural member. 16. The flow controller of claim 1 , wherein the linear first inner surface extends across an entire length of the first structural member and the linear second inner surface extends across an entire length of the second structural member. 17. The flow controller of claim 1 , wherein each of the linear second inner surface and the linear second outer surface extend across an entire length of the second structural member.