Liquid dispensing apparatus, coating apparatus for same, and liquid dispensing method

The invention claimed is: 1. A liquid dispensing apparatus that sucks a liquid into a measuring bore and ejects the liquid in the measuring bore by moving a piston reciprocally, the liquid dispensing apparatus comprising: a liquid contact member that has first and second measuring bores; a first piston sliding in the first measuring bore in close contact therewith and a second piston sliding in the second measuring bore in close contact therewith; a supply channel communicating with a storage unit; an ejection channel communicating with a nozzle; a switching valve that is disposed in an inner space of the liquid contact member, and that has a first position at which the first measuring bore is communicated with the supply channel and the second measuring bore is communicated with the ejection channel, and a second position at which the first measuring bore is communicated with the ejection channel and the second measuring bore is communicated with the supply channel; a valve driving mechanism that operates the switching valve; a connecting member for supply, which has the supply channel therein and which is detachably attached to an upper portion of the liquid contact member and to which a storage vessel is connected; a connecting member for ejection, which has the ejection channel therein and which is detachably attached to a lower portion of the liquid contact member and to which the nozzle is connected; and a piston driving mechanism that operates an arm connected to the first and second pistons, wherein the liquid contact member is detachably attached to the liquid dispensing apparatus, the first and second measuring bores are arranged to oppose to each other on both sides of the switching valve, and the supply channel and the ejection channel are arranged adjacent to the switching valve. 2. The liquid dispensing apparatus according to claim 1 , wherein the arm holds constant a distance between the first and second pistons. 3. The liquid dispensing apparatus according to claim 2 , wherein the liquid contact member including the switching valve disposed in an inner space thereof is detachably attached to the liquid dispensing apparatus. 4. The liquid dispensing apparatus according to claim 2 , wherein the liquid contact member is constituted as a single member. 5. The liquid dispensing apparatus according to claim 2 , wherein the switching valve includes a valve element that has two channels therein. 6. The liquid dispensing apparatus according to claim 1 , wherein the liquid contact member is constituted as a single member. 7. The liquid dispensing apparatus according to claim 1 , wherein the switching valve includes a valve element that has two channels therein. 8. The liquid dispensing apparatus according to claim 1 , wherein the valve driving mechanism and the piston driving mechanism are disposed at rear side of the liquid contact member adjacent to each other in a vertical direction. 9. The liquid dispensing apparatus according to claim 1 , wherein the valve driving mechanism is disposed above the piston driving mechanism and includes a power transmission member through which motive power is transmitted to the switching valve. 10. The liquid dispensing apparatus according to claim 1 , wherein the piston driving mechanism is disposed above the valve driving mechanism, and the valve driving mechanism and the switching valve are directly coupled to each other. 11. The liquid dispensing apparatus according to claim 1 , wherein the valve driving mechanism includes a connecting portion that has a concave or convex part formed at an end thereof, and a convex or concave part engageable with the concave or convex part of the connecting portion is provided at an end of the switching valve. 12. A coating apparatus comprising: the liquid dispensing apparatus according to claim 1 ; a compressed gas source that supplies compressed gas to apply pressure to a liquid that is stored in the storage vessel; a discharge controller that controls driving mechanisms of the liquid dispensing apparatus and gas pressure in the compressed gas source; a work table on which a coating target is placed; XYZ driving mechanisms that move the liquid dispensing apparatus and the work table relative to each other; and a driving controller that controls operations of the XYZ driving mechanisms. 13. The coating apparatus according to claim 12 , wherein the coating apparatus is of desktop type. 14. A liquid dispensing method of sucking a liquid into a measuring bore and ejecting the liquid in the measuring bore by moving a piston reciprocally in a liquid dispensing apparatus according to claim 1 , wherein the liquid dispensing method comprises: a first step of sucking the liquid into the first measuring bore and ejecting the liquid from the second measuring bore by operating the switching valve to the first position and moving the arm in one direction; a second step of ejecting the liquid from the first measuring bore and sucking the liquid into the second measuring bore by operating the switching valve to the second position and moving the arm in a direction opposite to the moving direction in the first step; and a third step of successively discharging the liquid in units of a constant amount by repeating the first and second steps. 15. The liquid dispensing apparatus according to claim 1 , wherein the first and second pistons are detachably connected to the arm, and extractably inserted in the first and second measuring bores. 16. A liquid dispensing apparatus that sucks a liquid into a measuring bore and ejects the liquid in the measuring bore by moving a piston reciprocally, the liquid dispensing apparatus comprising: a liquid contact member that has first and second measuring bores; a first piston sliding in the first measuring bore in close contact therewith and a second piston sliding in the second measuring bore in close contact therewith; a supply channel communicating with a storage unit; an ejection channel communicating with a nozzle; a switching valve that is disposed in an inner space of the liquid contact member, and that has a first position at which the first measuring bore is communicated with the supply channel and the second measuring bore is communicated with the ejection channel, and a second position at which the first measuring bore is communicated with the ejection channel and the second measuring bore is communicated with the supply channel; a valve driving mechanism that operates the switching valve; and a piston driving mechanism that operates an arm connected to the first and second pistons, wherein the first and second measuring bores are arranged to oppose to each other on both sides of the switching valve, and the supply channel and the ejection channel are arranged adjacent to the switching valve, and wherein the liquid contact member includes a first bubble mixing prevention mechanism including a first bore that is communicated with the first measuring bore and that allows the piston to move reciprocally in the first bore, and a second bore that is communicated with the first bore at a lateral surface thereof, and a second bubble mixing prevention mechanism including a first bore that is communicated with the second measuring bore and that allows the piston to move reciprocally in the first bore, and a second bore that is communicated with the first bore at a lateral surface thereof. 17. A coating apparatus comprising: a liquid dispensing apparatus that sucks a liquid into a measuring bore and ejects the liquid in the measuring bore