ELECTROSTATIC SPRAYER BACKGROUND This disclosure relates an electrostatic sprayer that can include an applicator rotatably attached to a shaft and a field consisting of charged air surrounding an outer surface of the applicator, wherein the field is generated by a plurality of electrodes radially spaced around the applicator in electrical communication with a power source. SUMMARY An electrostatic sprayer can include an applicator rotatably attached to a shaft and a field consisting of charged air surrounding an outer surface of the applicator, wherein the field is generated by a plurality of electrodes radially spaced around the applicator in electrical communication with a power source. BRIEF DESCRIPTION OF THE FIGURES FIG.1 is a view of the embodiments described herein. FIG.2 is a view of the embodiments described herein with a portion removed. FIG.3 is a view of the embodiments described herein with a portion removed. FIG.4 is a cutaway view of the embodiments described herein. FIG.5 is a cutaway view of the embodiments described herein. DETAILED DESCRIPTION In the following description of the various embodiments, reference is made to the accompanying drawings identified above which form a part hereof and in which is shown by

meant to encompass the items listed thereafter and equivalents thereof as well as additional items and equivalents thereof. As shown in FIG.1-FIG.5, in an embodiment, an electrostatic sprayer 10 can include an applicator 20 rotatably attached to a shaft 40 and a field 50 consisting of charged air surrounding an outer surface 22 of the applicator 20, wherein the field 50 is generated by a plurality of electrodes 60 radially spaced around the applicator 20 in electrical communication with a power source 30. According to certain embodiments, the electrostatic sprayer 10 can provide that the electrostatic sprayer 10 is configured to deliver a water based paint to a grounded 100 target. According to certain embodiments, the electrostatic sprayer 10 can provide that the electrostatic sprayer 10 is configured to charge the water based paint based on atomization of the water based paint by the applicator 20. In some embodiments, the electrostatic sprayer 10 can provide that the water based paint is configured to be at a ground potential before being charged by the field 50. In some embodiments, the electrostatic sprayer 10 can provide that the plurality of electrodes 60 are wires mounted on a circuit board 70. According to certain embodiments, the electrostatic sprayer 10 can provide that the plurality of electrodes 60 is electrically connected to a circuit board 70. According to an exemplary embodiment the electrostatic sprayer 10 can provide that the circuit board 70 is mounted axially behind the applicator 20. According to an exemplary embodiment the electrostatic sprayer 10 can provide that the electrostatic sprayer 10 comprises a high voltage ring 90, wherein the high voltage ring 90 comprises the circuit board 70. According to certain embodiments, the electrostatic sprayer 10 can provide that the high voltage ring 90 is removably attached to a robot arm by a quick disconnect interference fit 150. In some embodiments, the electrostatic sprayer 10 can provide that the applicator 20 is a bell cup. According to certain embodiments, the electrostatic sprayer 10 can provide that the bell cup

base 245 axially behind 85 the applicator 20 that narrows sharply leading into an upper shroud linear portion 246 circumscribing the shaft 40 that does not narrow. The electrostatic sprayer 10 of can include an applicator 20 rotatably attached to a shaft 40; and a high voltage ring 90 comprising a hollow disc 140 circumscribing the shaft 40, wherein the hollow disc 140 consists of a conductive material 110 in electrical communication with a power source 30. In some embodiments, the electrostatic sprayer 10 can provide that the hollow disc 140 is in electrical communication with a plurality of electrodes 60 radially evenly spaced around the hollow disc 140. According to certain embodiments, the electrostatic sprayer 10 can provide that the hollow disc 140 comprises a disc outer diameter 160 of between 3 inches (7.6 cm) and 6 inches (15.2 cm). According to certain embodiments, the electrostatic sprayer 10 can provide that the hollow disc 140 comprises a disc outer diameter 160 of between 4 inches (10.2 cm) and 6 inches (15.2 cm). According to an exemplary embodiment the electrostatic sprayer 10 can provide that the hollow disc 140 comprises a disc outer diameter 160 of between 5 inches (12.7 cm) and 6 inches (15.2 cm). According to an exemplary embodiment the electrostatic sprayer 10 can provide that the high voltage ring 90 comprises a high voltage ring outer diameter 170 of between 4 inches (10.2 cm) and 7 inches (17.8 cm). According to certain embodiments, the electrostatic sprayer 10 can provide that the high voltage ring outer diameter 170 is at least 5 inches (12.7 cm). According to certain embodiments, the electrostatic sprayer 10 can provide that the high voltage ring outer diameter 170 is at least 6 inches (15.2 cm). In some embodiments, the limited size of the planar circle 140 and high voltage ring 90 can provide that the electrostatic sprayer 10 can be used in tighter spaces to coat surfaces therein, such as wheel wells, door jambs, trunks, and engine compartments. In some embodiments, the electrostatic sprayer 10 can provide that each of the plurality of electrodes 60 comprises a base portion 180, wherein the base portion 180 of each electrode is held within a base insulative ring 190, wherein the base insulative ring 190 is immediately adjacent to the hollow disc 140. The electrostatic sprayer 10 of can include a high voltage electrical connection 200 that electrically connects the conductive material 110 to a power source 30. According to certain embodiments, the electrostatic sprayer 10 can provide that the power source 30 is an external high voltage connection or turbine. In some embodiments, the electrostatic sprayer 10 can provide that high voltage electrical connection 200 comprises a resistance 210, wherein the resistance 210 is between 40 and 80 megaohms. The electrostatic sprayer 10 of can provide that the resistance 210 is between 50 and 70 megaohms. According to certain embodiments, the electrostatic sprayer 10 can provide that the resistance 210 is between 55 and 65 megaohms. According to certain embodiments, the electrostatic sprayer 10 can provide that the power source 30 is configured to charge the hollow disc 140 to between 50 and 80 kilovolts. The electrostatic sprayer 10 of can provide that the power source 30 is configured to charge the hollow disc 140 to between 60 and 70 kilovolts. According to certain embodiments, the electrostatic sprayer 10 can provide that the hollow disc 140 comprises a forward surface, wherein the forward surface is covered by an insulative layer. The electrostatic sprayer 10 of can provide that the insulative layer is a two-part epoxy 230. According to certain embodiments, the electrostatic sprayer 10 can provide that the electrodes 60 protrude 220 between 0.5 mm and 1.5 mm from the insulative layer. While the presently disclosed concepts have been described with reference to one or more particular embodiments, those skilled in the art will recognize that many changes may be made thereto without departing from the spirit and scope of the presently disclosed concepts. Any combination and/or sub-combination of the examples, embodiments, aspects, claims, methods, acts, processes, claim elements, or components disclosed herein, however termed, are expressly contemplated as falling within the present concepts. For example, although various aspects of the present concepts are set forth in the appended claims, wherein the dependent claims relate back to selected preceding claims, including the independent claim, it is to be understood that each of the dependent claims may properly depend from any of the preceding claims, to the extent not logically excluded, in accord with aspects of the present concepts. Thus, for example, the present concepts expressly include every possible combination of dependent claims with their respective independent claim, regardless of stated dependency. Further, the presently disclosed concepts are considered to include, without limitation, any combination