IV membrane attachment systems and methods

We claim: 1. An intravenous delivery system comprising: a drip unit comprising: an exterior wall shaped to at least partially define a drip chamber that receives a liquid from a liquid source, the exterior wall comprising a seat; an anti-run-dry membrane comprising a plurality of pores that are permeable to the liquid, wherein the anti-run-dry membrane is formed of a hydrophilic material configured to resist passage of air through the pores, the anti-run-dry membrane comprising an attachment surface; and an attachment component that secures the attachment surface to the exterior wall, proximate the seat, wherein the attachment component comprises a washer positioned such that the anti-run-dry membrane is between the washer and the seat, wherein the washer is secured to the exterior wall to hold the attachment surface in engagement with the seat. 2. The intravenous delivery system of claim 1 , wherein the attachment component comprises the washer positioned such that the anti-run-dry membrane is between the washer and the seat, wherein the washer is secured to the exterior wall to hold the attachment surface in engagement with the seat. 3. The intravenous delivery system of claim 1 , wherein the washer comprises a membrane facing surface with a plurality of anchoring elements that protrude through the anti-run-dry membrane, wherein each of the anchoring elements comprises a distal end butt welded to the seat. 4. The intravenous delivery system of claim 1 , further comprising: tubing comprising a first end connectable to the drip unit and a second end; and an intravenous access unit connectable to the second end of the tubing to deliver the liquid intravenously to a patient. 5. A method for manufacturing an intravenous delivery system, the method comprising: providing a drip unit by: providing an anti-run-dry membrane comprising a plurality of pores that are permeable to a liquid to be delivered to a patient, wherein the anti-run-dry membrane is formed of a hydrophilic material configured to resist passage of air through the pores, the anti-run-dry membrane comprising an attachment surface; positioning an attachment component, wherein the attachment component comprises a washer, wherein positioning the attachment component comprises positioning the washer such that the anti-run-dry membrane is between the washer and the seat; and securing the attachment component to an exterior wall to keep the anti-run-dry membrane in place with the attachment surface abutting a seat of the exterior wall, wherein the exterior wall is shaped to at least partially define a drip chamber that receives the liquid from a liquid source. 6. The method of claim 5 , wherein the washer comprises a membrane facing surface with a plurality of anchoring elements; wherein positioning the washer such that the anti-run-dry membrane is between the washer and the seat comprises causing the anchoring elements to protrude through the anti-run-dry membrane; wherein securing the washer to the exterior wall comprises butt welding a distal end of each of the anchoring elements to the seat. 7. The method of claim 5 , further comprising: providing tubing comprising a first end connectable to the drip unit and a second end; and providing an intravenous access unit connectable to the second end of the tubing to deliver the liquid intravenously to a patient.