Liquid material discharge device and discharge method

The invention claimed is: 1. A liquid material discharge device comprising: a liquid chamber communicating with a discharge port, the liquid chamber being to be supplied with a liquid material; a plunger coupled to a piston, the plunger having a plunger tip advancing and retreating within the liquid chamber such that the plunger tip never contacts the lateral surface of the liquid chamber; a resilient member that applies a biasing force to the plunger; a main body including a piston chamber in which the piston is disposed; a solenoid valve assembly that supplies a pressurized gas, supplied from a pressurized gas source, to the piston chamber, or that exhausts the pressurized gas from the piston chamber; and a controller that controls operation of the solenoid valve assembly, wherein the solenoid valve assembly comprises a plurality of solenoid valves that are connected to a same space of the piston chamber in parallel, and each of the plural solenoid valves comprising a selector valve that switches between a first position at which the pressurized gas source communicates with the piston chamber and a second position at which the piston chamber is fluidly connected to the atmosphere. 2. The liquid material discharge device according to claim 1 , wherein each of the plural solenoid valves has the same valve opening/closing speed and the same flow rate. 3. The liquid material discharge device according to claim 1 , further comprising a holder including a holding member that holds the plural solenoid valves, and a relay member having an inner flow passage communicating the plural solenoid valves with the piston chamber, wherein the holding member has a supply port communicating with the pressurized gas source and has a plurality of delivery ports that distribute the pressurized gas, supplied to the supply port, to the plural solenoid valves, and the relay member has an inner flow passage that communicates the plural solenoid valves with the piston chamber. 4. The liquid material discharge device according to claim 3 , wherein the relay member has a plurality of inner flow passages that communicate the plural solenoid valves individually with the piston chamber. 5. The liquid material discharge device according to claim 3 , wherein the holder is detachably fixed to the main body. 6. The liquid material discharge device according to claim 1 , wherein the solenoid valve assembly comprises three or four solenoid valves. 7. The liquid material discharge device according to claim 1 , wherein the controller establishes communication between the pressurized gas source and the piston chamber by the individual solenoid valves actuating at different times from one another. 8. The liquid material discharge device according to claim 1 , wherein the liquid material discharge device is a desk-top device. 9. The liquid material discharge device according to claim 3 , wherein the relay member has an inner flow passage that merges plural streams of air together after passing through the solenoid valves. 10. The liquid material discharge device according to claim 1 , wherein the piston chamber is partitioned by the piston into a front piston chamber and a rear piston chamber, and all the solenoid valves of the solenoid valve assembly are connected to either the front piston chamber or the rear piston chamber in parallel. 11. The liquid material discharge device according to claim 1 , wherein the resilient member is arranged so as to bias the plunger rearward and the pressurized gas is supplied to the piston chamber so as to advance the plunger. 12. A liquid material discharge method comprising: a step of preparing a liquid material discharge device including: a liquid chamber communicating with a discharge port, the liquid chamber being supplied with a liquid material, a plunger coupled to a piston, the plunger having a plunger tip advancing and retreating within the liquid chamber such that the plunger tip never contacts the lateral surface of the liquid chamber, a resilient member that applies a biasing force to the plunger, a main body including a piston chamber in which the piston is disposed, a solenoid valve assembly that supplies a pressurized gas, supplied from a pressurized gas source, to the piston chamber, or that exhausts the pressurized gas from the piston chamber, and a controller that controls operation of the solenoid valve assembly; a step of providing a plurality of solenoid valves connected to a same space of the piston chamber in parallel, each of the plural solenoid valves comprising a selector valve that switches between a first position at which the pressurized gas source communicates with the piston chamber and a second position at which the piston chamber is fluidly connected to the atmosphere; a first step of operating the plural solenoid valves to communicate the pressurized gas source with the piston chamber at desired timings; a second step of operating the plural solenoid valves to communicate the piston chamber with the atmosphere at the same timing; and a third step of continuously discharging droplets by repeating the first and second steps. 13. The liquid material discharge method according to claim 12 , wherein each of the plural solenoid valves has the same valve opening/closing speed and the same flow rate. 14. The liquid material discharge method according to claim 12 , wherein, in the first step, the plural solenoid valves communicate the pressurized gas source with the piston chamber at the same timing. 15. The liquid material discharge method according to claim 12 , wherein, in the first step, the plural solenoid valves successively communicate the pressurized gas source with the piston chamber. 16. The liquid material discharge method according to claim 12 , wherein the pressurized gas distributively supplied to the plural solenoid valves from one pressurized gas source is supplied to the piston chamber through one flow passage communicating with each of the plural solenoid valves. 17. The liquid material discharge method according to claim 12 , wherein the pressurized gas distributively supplied to the plural solenoid valves from one pressurized gas source is supplied to the piston chamber through a plurality of flow passages communicating with the plural solenoid valves in one-to-one relation. 18. The liquid material discharge method according to claim 12 , wherein the solenoid valve assembly comprises three or four solenoid valves. 19. The liquid material discharge method according to claim 12 , wherein, in the second step, the plunger is advanced and stopped such that the plunger tip never contacts the inner wall of the liquid chamber, the inner wall being present in an advancing direction of the plunger, thereby applying an inertial force to the liquid material and discharging the liquid material in form of a droplet. 20. The liquid material discharge method according to claim 12 , wherein, in the third step, the droplets are continuously discharged at a rate of 300 shots or more per second. 21. The liquid material discharge method according to claim 12 , wherein the liquid material discharge device further comprising: a holder including a holding member that holds the plural solenoid valves, and a relay member that has an inner flow passage communicating the plural solenoid valves with the piston chamber, wherein the holding member has a supply port communicating with the pressurized gas source and has a plurality of delivery ports that distribute the