Spray head for a paint sprayer, and paint sprayer

The invention claimed is: 1. A spray head for a paint sprayer, for generating a paint jet, wherein the spray head comprises an air gate, an air cap and a needle, wherein the air cap is arranged downstream from the air gate in an air flow direction, wherein the needle is arranged upstream from the air gate in the air flow direction, wherein the air gate comprises a centrally arranged paint outlet opening and air outlet openings, wherein a paint nozzle is formed by the paint outlet opening and, with the needle, forms a needle valve, wherein the air cap has a centrally arranged through-opening of elongate cross section for the passage of the paint jet or of the paint nozzle and for the passage of a stream of sheathing air surrounding the paint jet or the paint nozzle, wherein the through-opening is oriented with a substantially longitudinal axis and a substantially horizontal axis, each of the substantially longitudinal axis and the substantially horizontal axis being transverse to a central axis of the spray head running in the air flow direction, wherein the air cap comprises two air horns, each air horn protruding past the through-opening in the air flow direction and being defined spaced apart from each other on opposite sides of the through-opening along the substantially horizontal axis, wherein the air horns each comprise at least one horn air channel directed toward the paint jet emerging from the paint outlet opening, wherein each at least one horn air channel receives air via at least one of the air outlet openings of the air gate, wherein the air cap comprises two curtain air channels, each curtain air channel having an outlet arranged between the air horns, the outlets being defined opposite each other on opposite sides of the through-opening along the substantially horizontal axis, wherein the outlets of each of the curtain air channels have an outlet length substantially parallel to the substantially longitudinal axis of between 70% and 90% of a length of the through-opening of the air cap, and wherein the outlets of each of the curtain air channels have an outlet width substantially parallel to the substantially horizontal axis of at most 50% of the respective outlet length of the outlet of each of the curtain air channels. 2. The spray head as claimed in claim 1 , wherein the spray head further comprises a control disk, wherein the control disk is arranged between the air gate and the air cap and is one of rotatable about the central axis of the spray head with respect to the air gate and the air cap, or is rotatable together with the air cap with respect to the air gate through an approximately 90° rotation of the air cap about the central axis of the spray head. 3. The spray head as claimed in claim 2 , wherein the control disk comprises at least one aperture for sheathing air, wherein the aperture for sheathing air is arranged centrally in the control disk, and/or the control disk comprises at least one aperture for horn air, wherein the at least one aperture for horn air is arranged eccentrically in the control disk, and/or the control disk comprises at least one aperture for curtain air, wherein the aperture for curtain air is either arranged one of centrally in the control disk, or eccentrically in the control disk, and, in the case of an eccentric arrangement of the aperture for curtain air, an inlet of at least one of the curtain air channels is arranged radially farther away from the central axis of the spray head than an outlet of the at least one of the curtain air channels is arranged from the central axis of the spray head, or the control disk comprises at least one aperture for compensating air arranged eccentrically at the control disc. 4. The spray head as claimed in claim 2 , wherein two of the apertures of the control disk are dimensioned such that one of the horn air channels and one of the relief bores can be supplied through these, respectively. 5. The spray head as claimed in claim 1 , wherein the outlets of each of the curtain air channels is arranged with mirror symmetry to the substantially longitudinal axis of the through-opening of the air cap. 6. The spray head as claimed in claim 1 , wherein the outlets of each of the curtain air channels, are curved about the central axis of the spray head. 7. The spray head as claimed in claim 1 , wherein each of the curtain air channels are configured to generate streams of curtain air oriented substantially parallel to the central axis of the spray head, and wherein each of the curtain air channels have, proximate each respective outlet thereof, at least one side wall portion oriented substantially parallel to the central axis of the spray head. 8. The spray head as claimed in claim 1 , wherein the curtain air channels generate streams of curtain air directed toward the central axis, wherein the curtain air channels each have, toward their outlet, at least one side wall portion which is tilted in the air flow direction toward the central axis of the spray head. 9. The spray head as claimed in claim 1 , wherein the curtain air channels generate streams of curtain air directed away from the central axis, wherein the curtain air channels each have, toward their outlet, at least one side wall portion which is tilted in the air flow direction away from the central axis of the spray head. 10. The spray head as claimed in claim 1 , wherein at least one aperture for horn air, at least one aperture for compensating air, and at least one aperture for curtain air are arranged on the control disk in such a way that one of, in a first rotation position adopted by the control disk relative to the air cap, air flows out of the horn air channels, relief bores for compensating air present in the air cap are cut off from an air stream, and air flows out of the curtain air channels, in a second rotation position adopted by the control disk relative to the air cap, air flows out of the horn air channels, air flows out of relief bores for compensating air that is present in the air cap, and the curtain air channels are cut off from the air stream, or in a third rotation position adopted by the control disk relative to the air cap, the horn air channels are cut off from the air stream, air flows out of relief bores for compensating air that is present in the air cap, and air flows out of the curtain air channels. 11. The spray head as claimed in claim 1 , wherein a length of the substantially longitudinal axis of the centrally arranged through-opening of the air cap is at least 30% longer than a width, measured in a direction of the substantially horizontal axis, of the centrally arranged through-opening of the air cap. 12. The spray head as claimed in claim 1 , wherein the spray head comprises a body and a union nut, wherein the needle is guided longitudinally displaceably in the body, wherein the body comprises a seat for the air gate, wherein the body comprises, in a region of the seat, an attachment securing the union nut in such a way that at least one of the air horns and a control disk and the air gate are held on the body, wherein the spray head comprises a rotary actuator by which the air cap is rotatable, and wherein the spray head comprises a slide guided on the rotary actuator and by which the control disk is rotatable. 13. A paint sprayer comprising a spray head according to claim 1 , a paint supply and an air supply. 14. The paint sprayer as claimed in claim 13 , wherein a body of the spray head comprises a first attachment attaching the paint supply thereto, a second attachment attaching the air supply thereto, and a trigger controlling spray of the