Reversible nozzle in ultrasonic atomizer for clog prevention

What is claimed is: 1. A nozzle for an atomizer comprising: a plate defining an aperture; a piezoelectric actuator configured to oscillate the plate; a body supporting the plate perpendicular to an axis of the body; and a connector including threads disposed on the body and configured to removably and reversibly threadably mount the body to mating threads of a mating connector of the atomizer such that the body can be selectively switched between being mounted in a first orientation wherein fluid exits the nozzle along a first axial direction through the aperture, and a second orientation wherein fluid exits along an opposite axial direction through the aperture, wherein the body defines a plurality of first grip features and a plurality of second grip features, the first grip features being configured to be engaged by a tool to rotate the body relative to the base when the threads are threadably engaged with the mating threads in the first orientation and the second grip features being configured to be engaged by the tool to rotate the body relative to the base when the threads are threadably engaged with the mating threads in the second orientation, wherein the first grip features and the second grip features are recesses defined by the body at opposite axial ends of the axis and configured to be engaged by the tool to rotate the body relative to the base when the threads are threadably engaged with the mating threads. 2. The nozzle according to claim 1 , wherein the plate is approximately midway between opposite axial ends of the body. 3. The nozzle according to claim 1 , wherein the piezoelectric actuator is disposed about the plate. 4. The nozzle according to claim 1 , wherein the piezoelectric actuator is integrally formed with the plate. 5. The nozzle according to claim 1 , wherein the plate is one of a plurality of plates coupled to the body in an array, each plate defining at least one aperture. 6. The nozzle according to claim 1 , wherein the plate defines a plurality of apertures. 7. The nozzle according to claim 1 , wherein when the nozzle is in the first orientation, the atomizer, the body, and a first side of the plate cooperate to define a reservoir, and wherein when the nozzle is in the second orientation, the atomizer, the body, and an opposite side of the plate define the reservoir. 8. The nozzle according to claim 5 , wherein the piezoelectric actuator is one piezoelectric actuator of among a plurality of piezoelectric actuators, each piezoelectric actuator being supported by the body and configured to oscillate a corresponding one of the plates. 9. An atomizer comprising the nozzle according to claim 1 . 10. The nozzle according to claim 1 , wherein the threads are external threads and the mating threads are internal threads. 11. A nozzle for an atomizer comprising: a plate defining an aperture; a piezoelectric actuator configured to oscillate the plate; and a body disposed about an axis and supporting the plate perpendicular to the axis, the body including external threads configured to threadably engage internal threads on a base in a first orientation wherein fluid from the base exits the nozzle along a first direction through the aperture, and a second orientation wherein fluid from the base exits the nozzle along an opposite direction through the aperture, wherein the body defines a plurality of first grip features and a plurality of second grip features, the first grip features being configured to be engaged by a tool to rotate the body relative to the base when the internal and external threads are threadably engaged in the first orientation and the second grip features being configured to be engaged by the tool to rotate the body relative to the base when the internal and external threads are threadably engaged in the second orientation, wherein the first grip features and the second grip features are recesses defined by the body at opposite axial ends of the axis and configured to be engaged by the tool to rotate the body relative to the base when the internal and external threads are threadably engaged. 12. An atomizer comprising the nozzle according to claim 11 . 13. A nozzle for an atomizer comprising: a plate defining an aperture; a piezoelectric actuator configured to oscillate the plate; and a body disposed about an axis and supporting the plate perpendicular to the axis, the body including a reversible male quick-connect fitting configured to be releasably coupled to a female quick-connect fitting of a base in a first orientation wherein fluid from the base exits the nozzle along a first direction through the aperture, and a second orientation wherein fluid from the base exits the nozzle along an opposite direction through the aperture, wherein the reversible male quick-connect fitting includes a first sealing surface and a second sealing surface, wherein the female quick-connect fitting includes a mating sealing surface, wherein the mating sealing surface is configured to seal with the first sealing surface when the reversible male quick-connect fitting is in the first orientation to inhibit the fluid from exiting the nozzle between the first sealing surface and the mating sealing surface, and wherein the mating sealing surface is configured to seal with the second sealing surface when the reversible male quick-connect fitting is in the second orientation to inhibit the fluid from exiting the nozzle between the second sealing surface and the mating sealing surface, wherein the female quick-connect fitting includes a locking member that is movable between a locked position and an unlocked position that is radially outwards of the locked position, wherein when the reversible male quick-connect fitting is in the first orientation and the locking member is in the locked position, the locking member engages the reversible male quick-connect fitting to inhibit removal of the reversible male quick-connect fitting from the female quick-connect fitting, and wherein when the reversible male quick-connect fitting is in the first orientation and the locking member is in the locked position, the locking member engages the reversible male quick-connect fitting to inhibit removal of the reversible male quick-connect fitting from the female quick-connect fitting. 14. The nozzle according to claim 13 , wherein the reversible male quick-connect fitting includes a groove axially between the first and second sealing surfaces, wherein the locking member is configured to be received in the groove when the reversible male quick-connect fitting is in the first orientation and when the reversible male quick-connect fitting is in the second orientation. 15. The nozzle according to claim 13 , wherein the female quick-connect fitting includes a collar and a plurality of locking balls, the locking member being one locking ball of the plurality of locking balls, each locking ball being radially movable between a corresponding locked position and a corresponding unlocked position that is radially outward of the corresponding locked position, wherein the collar is movable between a first position in which the collar holds the locking balls in their corresponding locked positions and a second position in which the locking balls are permitted to move to their corresponding unlocked positions.