Liquid material ejection device

The invention claimed is: 1. A liquid material ejection device comprising: a liquid chamber communicating with an ejection port and being supplied with a liquid material; a plunger including a tip portion that has a smaller diameter than the liquid chamber and is moved back and forth in the liquid chamber; an elastic member urging the plunger upward; an arm disposed in a state extending in a horizontal direction; an arm driver serving as a driving source to operate the arm; a base member on which the arm driver is disposed; and a fastener rockingly supporting the arm to the base member, wherein the liquid material ejection device further comprises a rocker connected to the arm driver and rockingly supporting the arm, the arm driver includes a plurality of actuators disposed in a juxtaposed relation in a longitudinal direction of the arm, each of the actuators being extended and contracted in a direction perpendicular to the longitudinal direction of the arm to cause a rocking motion of the arm, the arm includes a presser pressing the plunger downward, the plunger includes a contact portion pressed by the presser, the plunger is linearly reciprocated with the rocking motion of the arm, and wherein the contact portion of the plunger and the presser are not interlocked with each other such that the presser slides in the horizontal direction of the extending direction of the arm relative to the contact portion of the plunger during the rocking motion of the arm, wherein the plurality of actuators comprises a first and a second actuators, wherein the rocker includes a first connection portion connected to one end of the first actuator, a second connection portion connected to one end of the second actuator, a first support portion rockingly supporting the first connection portion and a second support portion rockingly supporting the second connection portion, and wherein the fastener is a rod-like shaped and is disposed to have a longitudinal axis parallel to a longitudinal direction of the first and second actuators. 2. The liquid material ejection device according to claim 1 , wherein the plurality of actuators are each constituted by a multilayered piezoelectric element, a side of the arm where the presser is disposed is moved upward when one of the plurality of actuators disposed on a side thereof, nearer to the presser, is brought into an extended state and an other of the plurality of actuators disposed on the side thereof, farther away from the presser, is kept in a non-extended state or brought into a contracted state, and the side of the arm where the presser is disposed is moved downward when the one of the plurality of actuators disposed on the side thereof, nearer to the presser, is kept in the non-extended state or brought into the contracted state and the other of the plurality of actuators disposed on the side thereof, farther away from the presser, is brought into the extended state. 3. The liquid material ejection device according to claim 2 , wherein the plurality of actuators are constituted by an even number of the actuators. 4. The liquid material ejection device according to claim 3 , wherein the even number of the actuators are constituted by a first piezoelectric actuator and a second piezoelectric actuator. 5. The liquid material ejection device according to claim 1 , wherein the presser has a protruding curved surface which protrudes toward the contact portion and which faces and contacts an end surface of the contact portion to allow a contact state between the presser and the contact portion to be maintained following the rocking motion of the arm, or the contact portion has a protruding curved surface which protrudes toward the presser and which faces and contacts an end surface of the presser to allow a contact state between the presser and the contact portion to be maintained following the rocking motion of the arm. 6. The liquid material ejection device according to claim 1 , wherein the fastener detachably and rockingly supports the arm to the base member. 7. The liquid material ejection device according to claim 6 , wherein the fastener is disposed between the plurality of actuators, and the plurality of actuators are sandwiched between the arm and the base member by the fastener. 8. The liquid material ejection device according to claim 1 , further comprising a guide supporting the plunger movably in a vertical direction, wherein the elastic member is a compressed coil spring urging the plunger upward at all times, and the plunger is detachably inserted through the elastic member and the guide. 9. The liquid material ejection device according to claim 1 , wherein the rocker is connected to a lower end of the arm driver, or connected to an upper end of the arm driver. 10. The liquid material ejection device according to claim 1 , wherein the rocker includes a first rocker connected to a lower end of the arm driver and a second rocker connected to an upper end of the arm driver. 11. The liquid material ejection device according to claim 1 , wherein the first support portion has a convex or concave support surface that is formed by a smooth curved surface, and the first connection portion has a concave or convex sliding surface that slides along the support surface of the first support portion. 12. The liquid material ejection device according to claim 1 , wherein the second support portion has a convex or concave support surface that is formed by a smooth curved surface, and the second connection portion has a concave or convex sliding surface that slides along the support surface of the second support portion. 13. The liquid material ejection device according to claim 1 , wherein the presser is constituted by a pressing member detachably attached to the arm. 14. The liquid material ejection device according to claim 1 , wherein the plurality of actuators are all arranged under the arm. 15. An application apparatus comprising the liquid material ejection device according to claim 1 , a worktable on which an application target is placed, a relatively moving device that moves the liquid material ejection device and the application target relatively to each other, and a liquid material supply source that supplies a liquid material to the liquid material ejection device. 16. The application apparatus according to claim 15 , wherein the liquid material ejection device is constituted by a plurality of the liquid material ejection devices. 17. The liquid material ejection device according to claim 1 , wherein the arm driver is disposed between the arm and the base member, and the rocker is disposed between the arm driver and the base member. 18. The liquid material ejection device according to claim 1 , wherein the arm presses the plunger downward but does not press the plunger upward. 19. The liquid material ejection device according to claim 1 , wherein a contact position and a contact angle of the presser relative to the contact portion of the plunger vary depending on a vertical position of the presser during the rocking motion of the arm.