Work vehicle sprayer system and method with pinching nozzle apparatus

What is claimed is: 1. A nozzle apparatus configured to distribute a primary fluid, the nozzle apparatus comprising: a support plate; a fluid manifold mounted to the support plate and configured to receive the primary fluid; a spray nozzle coupled to the fluid manifold and configured to receive the primary fluid from the fluid manifold and spray the primary fluid in a spray pattern; an actuator gear assembly mounted to the support plate; a pincher gear assembly having a first pincher gear and a second pincher gear mounted on the support plate, wherein the first pincher gear is engaged with the second pincher gear and the second pincher gear is engaged with the actuator gear assembly; a first pincher mounted on the first pincher gear; and a second pincher mounted on the second pincher gear, wherein the first and second pinchers are positioned on opposite sides of the spray nozzle, wherein the actuator gear assembly is configured to drive the pincher gear assembly between a first position in which the first and second pinchers are positioned relative to each other and relative to the spray nozzle such that the spray nozzle has a first cross-sectional shape and a second position in which the first and second pinchers are positioned relative to each other and relative to the spray nozzle such that the spray nozzle has a second cross-sectional shape, and wherein the first cross-sectional shape is different than the second cross-sectional shape. 2. The nozzle apparatus of claim 1 , wherein the spray nozzle includes an outlet portion that is deformable in response to a pinch of the first and second pinchers. 3. The nozzle apparatus of claim 2 , wherein the outlet portion has an oval shape in cross-section. 4. The nozzle apparatus of claim 1 , further comprising an actuator coupled to drive the actuator gear assembly between the first position and the second position. 5. The nozzle apparatus of claim 4 , wherein the support plate is formed by a first side and a second side and defines an actuator aperture, wherein the actuator includes a drive shaft extending to engage the actuator gear assembly, and wherein the spray nozzle, the actuator gear assembly, and the pincher gear assembly are mounted on the first side of the support plate and the actuator is mounted on the second side of the support plate such that the drive shaft extends through the actuator aperture to the actuator gear assembly. 6. The nozzle apparatus of claim 1 , wherein the first pincher gear includes a first ring portion on which a first row of teeth extends about at least a portion of an outer periphery about the first ring portion and a first pinching mounting portion extending from the first ring portion to support the first pincher, and wherein the second pincher gear includes a second ring portion on which a second row of teeth extends about at least a portion of an outer periphery about the second ring portion and a second pinching mounting portion extending from the second ring portion to support the second pincher. 7. The nozzle apparatus of claim 6 , wherein, during a transition between the first position and the second position, the actuator gear assembly rotates in a first direction to drive the second pincher gear in a second direction, and the second pincher gear drives the first pincher gear in the first direction. 8. The nozzle apparatus of claim 1 , wherein the first pincher includes a first pair of teeth that form a first concave mouth, and the second pincher includes a second pair of teeth that form a second concave mouth, and wherein the first pincher and the second pincher are positioned such that the first concave mouth faces the second concave mouth. 9. The nozzle apparatus of claim 1 , wherein the fluid manifold includes a base defining a manifold passage fluidly coupled to the spray nozzle, and wherein the fluid manifold further includes a manifold passage element with a first end extending within the manifold passage and a second end that supports the nozzle fluid element such that the manifold passage element fluidly couples the manifold passage to the spray nozzle. 10. A sprayer system, comprising: a fluid source configured to supply a primary fluid; and at least one nozzle apparatus fluidly coupled to the fluid source and configured to disperse the primary fluid over an area; wherein the at least one nozzle apparatus comprises: a support plate; a fluid manifold mounted on the support plate defining a fluid passage to receive the primary fluid; a spray nozzle coupled to the fluid manifold and configured to receive the primary fluid from the fluid passage and spray the primary fluid in a spray pattern; an actuator gear assembly mounted on the support plate; an actuator configured to drive the actuator gear assembly; a pincher gear assembly having a first pincher gear and a second pincher gear mounted to the support plate, wherein the first pincher gear is engaged with the second pincher gear and the second pincher gear is engaged with the actuator gear assembly; a first pincher mounted on the first pincher gear; and a second pincher mounted on the second pincher gear, wherein the first and second pinchers are positioned on opposite sides of the spray nozzle, wherein the actuator gear assembly is configured to drive the pincher gear assembly between a first position in which the first and second pinchers are positioned relative to each other and relative to the spray nozzle such that the spray nozzle has a first cross-sectional shape and a second position in which the first and second pinchers are positioned relative to each other and relative to the spray nozzle such that the spray nozzle has a second-cross-sectional shape, and wherein the first cross-sectional shape is different than the second cross-sectional shape. 11. The sprayer system of claim 10 , wherein the spray nozzle includes an outlet portion that is deformable in response to a pinch of the first and second pinchers in the second position. 12. The sprayer system of claim 11 , wherein the outlet portion has an oval shape in cross-section. 13. The sprayer system of claim 12 , wherein the oval shape of the outlet portion has a long axis that is perpendicular to the support plate. 14. The sprayer system of claim 10 , further comprising the actuator coupled to drive the actuator gear assembly between the first position and the second position. 15. The sprayer system of claim 14 , wherein the support plate is formed by a first side and a second side and defines an actuator aperture, wherein the actuator includes a drive shaft extending to engage the actuator gear assembly, and wherein the spray nozzle, the actuator gear assembly, and the pincher gear assembly are mounted on the first side of the support plate and the actuator is mounted on the second side of the support plate such that the drive shaft extends through the actuator aperture to the actuator gear assembly. 16. The sprayer system of claim 10 , wherein the first pincher gear includes a first ring portion on which a first row of teeth extends about at least a portion of an outer periphery about the first ring portion and a first pinching mounting portion extending from the first ring portion to support the first pincher, and wherein the second pincher gear includes a second ring portion on which a second row of teeth extends about at least a portion of an outer periphery about the second ring portion and a second pinching mounting portion extending from the second ring portion to support the second pincher. 17. The sprayer system of