Precision roller clamp

What is claimed is: 1. A roller clamp assembly comprising: a housing configured to receive a portion of a connector tube of an infusion set, the housing comprising: two opposing side walls spaced apart from each other, each side wall having an opposing guide groove longitudinally positioned in an interior surface; a front wall disposed at one end of the side walls; and a guide wall disposed between the side walls, the guide wall converging along its length toward the position of the guide grooves; a roller wheel having two axial projections slidingly seated in the guide grooves, the roller configured to move along a longitudinal axis of the housing as the projections slide in the guide grooves, wherein spacing between the guide wall and the roller wheel decreases over a length of the guide wall; and a plate configured to slideably engage with a portion of the housing, the plate comprising: a grip member; and a tube engagement member configured to compress the connector tube a varying amount as the plate is moved in relation to the housing. 2. The roller clamp assembly of claim 1 , wherein sliding of the roller wheel in a direction of lesser spacing between the guide wall and the roller wheel causes the roller wheel to impinge on the connector tube to a gradually increasing extent, wherein the increased impingement of the roller wheel on the connector tube is configured to reduce a fluid flow rate through the connector tube. 3. The roller clamp assembly of claim 1 , wherein the front wall comprises two grooves, wherein each is configured to slidingly receive a portion of the plate. 4. The roller clamp assembly of claim 1 , wherein the tube engagement member is a channel centrally disposed on a leading edge of the plate. 5. The roller clamp assembly of claim 4 , wherein the channel comprises a first portion having a first uniform width, a second portion having a varying width that decreases as a distance from the leading edge of the plate increases, and a third portion having a second uniform width that is less than the first uniform width. 6. The roller clamp assembly of claim 4 , wherein the channel comprises a first portion having a varying width that decreases as a distance from the leading edge of the plate increases and a second portion having a uniform width. 7. The roller clamp assembly of claim 4 , wherein at least a portion of the channel comprises a linearly decreasing width as a distance from the leading edge of the plate increases. 8. The roller clamp assembly of claim 1 , wherein the tube engagement member is a channel disposed in an offset from central position on a leading edge of the plate. 9. The roller clamp assembly of claim 8 , wherein the channel comprises a first portion having a varying width that decreases as a distance from the leading edge of the plate increases and a second portion having a uniform width. 10. The roller clamp assembly of claim 8 , wherein the channel comprises a first straight side extending from the leading edge of the plate and a second opposing side having an angled portion extending from the leading edge of the plate. 11. The roller clamp assembly of claim 1 , wherein the housing has an open-ended boxlike construction. 12. The roller clamp assembly of claim 1 , wherein the plate is configured to provide a first amount of compression to the connector tube and the roller wheel is configured to provide a second amount of compression to the connector tube. 13. The roller clamp assembly of claim 12 , wherein the first amount of compression comprises a rapid impingement to the connector tube and the second amount of compression comprises a gradual impingement to the connector tube. 14. The roller clamp assembly of claim 1 , wherein each side wall comprises an opposing guide channel disposed on a longitudinal axis of the housing, each guide channel having one or more retention sections. 15. The roller clamp assembly of claim 14 , wherein the tube engagement member is a wall comprising a varying thickness. 16. The roller clamp assembly of claim 15 , further comprising a retention pin coupled to the wall, the retention pin configured to be received by a pair of opposing retention sections. 17. The roller clamp assembly of claim 15 , wherein the wall is configured to be slidably moveable along the guide wall to provide a shim force on the connector tube. 18. A gravity infusion set comprising: a piercing spike; a drop chamber; a connector tube; a fitting; and a roller clamp assembly, the roller clamp assembly comprising: a housing configured to receive a portion of a connector tube of an infusion set, the housing comprising: two opposing side walls spaced apart from each other, each side wall having an opposing guide groove longitudinally positioned in an interior surface; a front wall disposed at one end of the side walls; and a guide wall disposed between the side walls, the guide wall converging along its length toward the position of the guide grooves; a roller wheel having two axial projections slidingly seated in the guide grooves, the roller configured to move along a longitudinal axis of the housing as the projections slide in the guide grooves, wherein spacing between the guide wall and the roller wheel decreases over a length of the guide wall; and a plate configured to slideably engage with a portion of the housing, the plate comprising: a grip member; and a tube engagement member configured to compress the connector tube a varying amount as the plate is moved in relation to the housing.