A media applicator includes an airbrush body couplable to a reservoir and defining a passage for conducting a gas, and a spray head couplable to the airbrush body. The spray head has a nozzle portion in fluid communication with a media tube extending into the reservoir, the nozzle portion defining a
A media applicator includes an airbrush body couplable to a reservoir and defining a passage for conducting a gas, and a spray head couplable to the airbrush body. The spray head has a nozzle portion in fluid communication with a media tube extending into the reservoir, the nozzle portion defining a lumen in fluid communication with the passage when the spray head is coupled to the airbrush body. The nozzle portion further includes a discharge tube in fluid communication with the media tube, and situated such that gas flow from the passage through the lumen draws a media contained in the reservoir through the media tube into the discharge tube, and from the discharge tube into a flow of gas exiting the lumen of the nozzle portion. The spray head is detachable from the airbrush body to allow the nozzle portion to be carried away with the spray head.
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1. A media applicator, comprising: an airbrush body couplable to a media reservoir and defining a first passage for conducting a pressurized gas;a spray head couplable to the airbrush body, the spray head comprising a nozzle portion in fluid communication with a media tube configured to extend into
1. A media applicator, comprising: an airbrush body couplable to a media reservoir and defining a first passage for conducting a pressurized gas;a spray head couplable to the airbrush body, the spray head comprising a nozzle portion in fluid communication with a media tube configured to extend into a media reservoir when the airbrush body is coupled to a media reservoir, the nozzle portion defining a lumen configured to be in fluid communication with the first passage when the spray head is coupled to the airbrush body, the nozzle portion further including a discharge tube in fluid communication with the media tube and situated such that when the airbrush body is coupled to a media reservoir, pressurized gas flow from the first passage through the lumen draws a media contained in the media reservoir through the media tube into the discharge tube, and from the discharge tube into a flow of pressurized gas exiting the lumen of the nozzle portion;wherein the spray head is detachable from the airbrush body by pulling the spray head in a direction along a longitudinal axis of the media tube to allow the portion spray head to be carried away from the airbrush body. 2. The media applicator of claim 1, wherein an outlet of the discharge tube is located adjacent and at an angle to an outlet of the lumen of the nozzle portion. 3. The media applicator of claim 2, wherein the outlet of the discharge tube is perpendicular to the outlet of the lumen of the nozzle portion. 4. The media applicator of claim 1, wherein the discharge tube is coaxial with the lumen of the nozzle portion. 5. A media applicator, comprising: an airbrush body couplable to a media reservoir and defining a first passage for conducting a pressurized gas;a spray head couplable to the airbrush body, the spray head comprising a nozzle portion in fluid communication with a media tube configured to extend into a media reservoir when the airbrush body is coupled to a media reservoir, the nozzle portion defining a lumen configured to be in fluid communication with the first passage when the spray head is coupled to the airbrush body, the nozzle portion further including a discharge tube in fluid communication with the media tube and situated such that when the airbrush body is coupled to a media reservoir, pressurized gas flow from the first passage through the lumen draws a media contained in the media reservoir through the media tube into the discharge tube, and from the discharge tube into a flow of pressurized gas exiting the lumen of the nozzle portion;wherein the spray head is detachable from the airbrush body to allow the spray head to be carried away from the airbrush body without detaching the airbrush body from the media reservoir; andwherein the media tube is integrally formed with the spray head such that the media tube is carried away with the spray head when the spray head is detached from the airbrush body. 6. The media applicator of claim 1, wherein: the airbrush body comprises a mounting portion having a surface configured to receive the spray head, the surface being perpendicular to the longitudinal axis of the media tube; andthe surface of the mounting portion defines an opening configured to receive the media tube. 7. The media applicator of claim 1, wherein the nozzle portion of the spray head comprises a base portion and a head portion, the lumen of the nozzle portion being defined by the head portion. 8. The media applicator of claim 7, wherein the discharge tube is adjacent an outlet of the lumen and offset from the outlet of the lumen in a direction of flow of pressurized gas exiting the lumen. 9. The media applicator of claim 7, wherein the discharge tube is at least partially located within the lumen of the nozzle portion. 10. The media applicator of claim 9, wherein a diameter of the lumen decreases in a direction toward an outlet of the lumen. 11. The media applicator of claim 7, wherein the base portion comprises at least one tab portion extending radially outwardly relative to the longitudinal axis of the media tube and configured to be gripped by a user. 12. The media applicator of claim 1, wherein the spray head comprises a coupling mechanism to secure the spray head to the airbrush body when the spray head is coupled to the airbrush body. 13. The media applicator of claim 12, wherein the coupling mechanism comprises a protuberance defined on the spray head and configured to be received in a corresponding recess defined in the airbrush body. 14. The media applicator of claim 1, wherein the media applicator is configured to discharge a liquid media or a dry media. 15. The media applicator of claim 1, further comprising a second passage intermediate the first passage and the lumen of the nozzle portion of the spray head. 16. The media applicator of claim 1, wherein the airbrush body further comprises an inlet port in fluid communication with the first passage, the inlet port being connectable to a source of pressurized gas. 17. The media applicator of claim 1, wherein the airbrush body further comprises a trigger portion. 18. A method, comprising: coupling a spray head to an airbrush body, the airbrush body being coupled to a media reservoir and defining a first passage for conducting a pressurized gas, the spray head comprising a nozzle portion defining a lumen configured to be in fluid communication with the first passage when the spray head is coupled to the airbrush body, the nozzle portion further including a discharge tube in fluid communication with a media tube extending into the media reservoir, the discharge tube being situated such that pressurized gas flow from the first passage through the lumen draws a media contained in the media reservoir through the media tube into the discharge tube, and from the discharge tube into a flow of pressurized gas exiting the lumen of the nozzle portion, the spray head being detachable from the airbrush body by pulling the spray head in a direction along a longitudinal axis of the media tube to allow the spray head to be carried away from the airbrush body without detaching the airbrush body from the media reservoir; andactivating a trigger portion of the airbrush body such that pressurized gas flows from the first passage into the lumen of the nozzle portion and media from the media reservoir is introduced from the discharge tube into a flow of pressurized gas exiting the lumen of the nozzle portion and directed outwardly from the nozzle portion. 19. The method of claim 18, wherein the media tube is integrally formed with the spray head, and coupling the spray head to the airbrush body further comprises inserting the media tube into the media reservoir through an opening defined in the airbrush body, and positioning the nozzle portion on a mounting portion of the airbrush body such that the lumen of the nozzle portion and the first passage are in fluid communication with each other. 20. The method of claim 18, further comprising uncoupling the spray head from the airbrush body by pulling the spray head in a direction along the longitudinal axis of the media tube such that the spray head is carried away from the airbrush body without detaching the airbrush body from the media reservoir.
Goldfarb Adolph E. (Tarzana CA) Benkoe Erwin (Encino CA) Everitt Delmar K. (Woodland Hills CA) Chesley Ronald F. (La Crescenta CA) Frierdich Richard D. (Canoga Park CA), Toy spray painting system.
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