Compact volumetric pump

The invention claimed is: 1 . A pump, comprising: a spring; a piston configured to receive the spring; a pump body including a cylindrical cavity configured to receive the spring; a cylindrical protrusion positioned within the cylindrical cavity, the cylindrical protrusion having outer sides that are straight and vertical along a longitudinal cross-section of the cylindrical protrusion and a top side with a flat surface, the outer straight vertical sides and the top side enclosing a second cylindrical cavity, the top side thicker than the outer straight vertical sides, the top side offset from a top of the cylindrical cavity so that the cylindrical protrusion is positioned entirely inside the spring except for a first gap at a first portion of the spring which is level with a top end of the spring and a second gap at a second portion of the spring which is level with a bottom end of the spring when the piston is seated in the pump body; and an outlet port positioned at the top side of the cylindrical protrusion; wherein the outer straight vertical sides of the cylindrical protrusion are parallel to inner straight vertical sides of a bore of the pump along a longitudinal cross-section of the bore. 2 . The pump of claim 1 , wherein the top side of the cylindrical protrusion is proximal a cam lobe. 3 . The pump of claim 1 , further comprising one or more inlet ports in the pump body. 4 . The pump of claim 3 , wherein the one or more inlet ports are located in a side wall of the pump body. 5 . The pump of claim 4 , wherein the one or more inlet ports extend through the side wall and into the cylindrical cavity. 6 . The pump of claim 1 , wherein the cylindrical protrusion forms a boundary of the cylindrical cavity. 7 . The pump of claim 1 , wherein the outlet port extends through the cylindrical protrusion to allow fluidic communication between the cylindrical cavity and the second cylindrical cavity. 8 . A method for a pump, comprising: rotating a cam lobe to move a piston and selectively extend and compress a spring according to a position of the cam lobe relative to the piston, wherein the spring and the piston are configured to slide over a cylindrical protrusion during operation of the pump, the cylindrical protrusion positioned within a cylindrical cavity of a pump body and having outer sides that are straight and vertical along a longitudinal dimension of the cylindrical protrusion and a top side with a flat surface, the outer straight vertical sides and the top side enclosing a second cylindrical cavity, the top side thicker than the outer straight vertical sides, the top side offset from a top of the cylindrical cavity so that the cylindrical protrusion is positioned entirely inside the spring except for a first gap at a first portion of the spring which is level with a top end of the spring and a second gap at a second portion of the spring which is level with a bottom end of the spring when the piston is seated in the pump body, and wherein an outlet port is positioned at the top side of the cylindrical protrusion; and pumping a liquid through the outlet port positioned at the top side of the cylindrical protrusion while blocking a flow of the liquid via the piston. 9 . The method of claim 8 , wherein blocking the flow of the liquid includes covering one or more inlet ports via the piston. 10 . The method of claim 9 , wherein the one or more inlet ports are in the pump body. 11 . The method of claim 8 , further comprising allowing the flow of the liquid into the pump via the spring pushing the piston at least partially out of the cylindrical cavity of the pump. 12 . The method of claim 8 , wherein the top side of the cylindrical protrusion is proximal the cam lobe. 13 . The method of claim 12 , wherein the outlet port extends through the cylindrical protrusion of the pump body. 14 . A self-priming pump, comprising: a cam lobe; a spring; a piston configured to receive the spring and interact with the cam lobe; a pump body including a cylindrical cavity configured to receive the spring; a cylindrical protrusion positioned within the cylindrical cavity and having outer sides that are straight and vertical along a longitudinal dimension of the cylindrical protrusion and a top side with a flat surface, the outer straight vertical sides and the top side enclosing a second cylindrical cavity, the top side thicker than the outer straight vertical sides, the top side offset from a top of the cylindrical cavity so that the cylindrical protrusion is positioned entirely inside the spring except for a first gap at a first portion of the spring which is level with a top end of the spring and a second gap at a second portion of the spring which is level with a bottom end of the spring when the piston is seated in the pump body; and an outlet port positioned at the top side of the cylindrical protrusion. 15 . The self-priming pump of claim 14 , wherein the self-priming pump is self-priming due to a ratio of a pump displacement volume to a pump clearance volume, and further comprising a drive source to rotate the cam lobe. 16 . The self-priming pump of claim 14 , wherein the top side is a side of the cylindrical protrusion proximal the cam lobe. 17 . The self-priming pump of claim 16 , further comprising a third gap between the cylindrical protrusion and an end of the pump body. 18 . The self-priming pump of claim 17 , wherein the third gap is substantially filled via the piston and the spring when the cam lobe fully compresses the spring.