Piezoelectric dispenser and method of calibrating stroke of the same

What is claimed is: 1. A method of dispensing liquid, the method comprising: providing a liquid dispenser that comprises a nozzle comprising a valve seat; a valve rod comprising a tip; at least one piezoelectric actuator configured to expand and shrink in response to electric signals, a lever operably connected to the at least one piezoelectric actuator and operably connected to the valve rod such that expansion and shrinkage of the at least one piezoelectric actuator cause pivotal movement of the lever about a pivot axis, which in turn causes reciprocation of the valve rod along a first axis, wherein the reciprocation of the valve rod involves repeated impacts by the tip of the valve rod on the valve seat of the nozzle, which causes wearing out of at least one of the valve seat and the tip of the valve rod over time, wherein wearing out of the at least one of the valve seat and the tip of the valve rod makes a stroke distance of the reciprocation longer; applying a voltage signal to the at least one piezoelectric actuator for its expansion and shrinkage along a second axis being identical to or different from the first axis, which causes pivotal movement of the lever, which in turn causes the reciprocation of the valve rod along the first axis between a top end and a bottom end of the reciprocation for dispensing of liquid through the nozzle, wherein the tip of the valve rod contacts the valve seat and applies an impact onto the valve seat when the valve rod is at the bottom end of the reciprocation; determining if the stroke distance has become longer; in response to determining that the stroke distance has become longer, making the top end of the reciprocation lower in the first axis and decreasing the stroke distance by changing the voltage signal applied to the at least one piezoelectric actuator to compensate the wearing out of the at least one of the valve seat and the tip of the valve rod. 2. The method of claim 1 , wherein determining comprises computing the stroke distance and then comparing the stroke distance to a reference value. 3. The method of claim 2 , wherein it is determined that the stroke distance has become longer than before when the stroke distance has become longer than the reference value. 4. The method of claim 1 , wherein the voltage signal operates the at least one piezoelectric actuator such that the valve rod would move to a preset position beyond the bottom end of the reciprocation if the nozzle does not stop the valve rod's movement, wherein an over-stroke distance defined by a distance between the bottom end and the preset position becomes shorter than a reference distance when the stroke distance becomes longer than a reference value, wherein the liquid dispenser generates a control signal that is to change the preset position for increasing the over-stroke distance to be greater than the reference distance. 5. The method of claim 1 , wherein the liquid dispenser further comprises at least one processor and a lever-position detector that is a displacement sensor which senses the lever's position indicative of the tip's position relative to the top end or the bottom end of the reciprocation and provides information indicative of the lever's position to the at least one processor. 6. The method of claim 1 , wherein the at least one piezoelectric actuator comprises a first piezoelectric actuator and the liquid dispenser further comprises a second piezoelectric actuator, wherein the first piezoelectric actuator expands and the second piezoelectric actuator shrinks to place the valve rod to the top end of the reciprocation, wherein when the stroke distance becomes longer than a reference value, the liquid dispenser generates a control signal that is to reduce the amount of the expansion of the first piezoelectric actuator and the amount of the shrinkage of the second piezoelectric actuator for changing the top end of the reciprocation.