High-volume low-pressure end effector

What is claimed is: 1. A high-volume low-pressure end effector comprising: a connection arm comprising a housing with flexible conduits running through the housing; a spray head connected to the connection arm, the spray head comprising: integral channels connected to the flexible conduits and comprising a first air channel, a second air channel, and a fluid channel; and a number of outlets in fluid communication with the integral channels, wherein the spray head, the number of outlets, and the integral channels form a substantially monolithic structure, and wherein the integral channels are configured to: connect the flexible conduits to the number of outlets; receive air and a fluid from the flexible conduits; and deliver the air and the fluid to the number of outlets; a quick-change connector configured to removably connect the high-volume low-pressure end effector to a robotic arm; an attachment bracket configured to attach the connection arm to the connector, the attachment bracket having a first end attached to the connection arm and a second opposite end attached to the connector; and valves positioned within the attachment bracket and configured to control a flow of the air and the fluid through the flexible conduits. 2. The high-volume low-pressure end effector of claim 1 wherein the number of outlets comprises a first outlet and a second outlet connected to the integral channels. 3. The high-volume low-pressure end effector of claim 2 further comprising: a respective nozzle and aircap for each of the first outlet and the second outlet. 4. The high-volume low-pressure end effector of claim 2 , wherein the first outlet and the second outlet are pointed ninety degrees relative to each other. 5. The high-volume low-pressure end effector of claim 1 , wherein the housing has a circular cross-section. 6. The high-volume low-pressure end effector of claim 1 further comprising: fittings connecting the flexible conduits in the connection arm to the integral channels of the spray head. 7. The high-volume low-pressure end effector of claim 6 , wherein the fittings comprise a number of air fittings and a number of fluid fittings. 8. The high-volume low-pressure end effector of claim 7 , wherein the number of air fittings comprises two air fittings per outlet, and wherein the number of fluid fittings comprises one fluid fitting per outlet. 9. The high-volume low-pressure end effector of claim 1 , wherein the housing is a hollow metal housing. 10. A method comprises: providing a spray head having integral channels in fluid communication with a number of outlets disposed therein, wherein the spray head, the integral channels, and the number of outlets form a substantially monolithic structure; supplying a fluid and air through flexible conduits running through a housing of a connection arm connected to the spray head, wherein: the integral channels are configured to receive the air and the fluid from the flexible conduits, and deliver the air and the fluid to the number of outlets of the spray head, wherein the integral channels comprise a first air channel, a second air channel, and a fluid channel; and the connection arm and the spray head are components of a high-volume low-pressure end effector; a quick-change connector is configured to removably connect the high-volume low-pressure end effector to a robotic arm; an attachment bracket is configured to attach the connection arm to the connector, the attachment bracket having a first end attached to the connection arm and a second opposite end attached to the connector; and valves are positioned within the attachment bracket and configured to control a flow of the air and the fluid through the flexible conduits; and spraying the fluid from at least one outlet of the number of outlets and onto surfaces of an enclosure of a structure. 11. The method of claim 10 , wherein the fluid is sprayed from the at least one outlet of the number of outlets onto the surfaces of the enclosure of the structure with a coverage of at least 90 percent. 12. The method of claim 10 further comprising: controlling a flow of the fluid and the air using the valves within the attachment bracket of the high-volume low-pressure end effector. 13. The method of claim 10 further comprising: performing maintenance on the high-volume low-pressure end effector by removing the flexible conduits from the connection arm and placing replacement flexible conduits within the connection arm. 14. The method of claim 10 further comprising: performing maintenance on the high-volume low-pressure end effector by disconnecting the flexible conduits from fittings of the spray head, removing the spray head, and connecting a replacement spray head to the connection arm. 15. A high-volume low-pressure end effector comprising: an attachment bracket containing valves for air and fluid; a connection arm comprising a hollow metal housing with flexible conduits running through the hollow metal housing, the flexible conduits carrying the air and the fluid; fittings connecting the flexible conduits to integral channels within a spray head, the integral channels comprising a first air channel, a second air channel, and a fluid channel; the spray head comprising a number of outlets in fluid communication with the integral channels, wherein the integral channels are configured to deliver the fluid and the air to the number of outlets; the spray head, the number of outlets, and the integral channels form a substantially monolithic structure; a quick-change connector configured to removably connect the high-volume low-pressure end effector to a robotic arm; the attachment bracket configured to attach the connection arm to the connector, the attachment bracket having a first end attached to the connection arm and a second opposite end attached to the connector; and the valves positioned within the attachment bracket and configured to control a flow of the air and the fluid through the flexible conduits. 16. The high-volume low-pressure end effector of claim 15 further comprising: a respective aircap threaded on to each of the number of outlets, wherein each respective aircap encloses a respective nozzle within each of the number of outlets. 17. The high-volume low-pressure end effector of claim 16 , wherein the number of outlets comprises a first outlet and a second outlet facing 90 degrees from each other. 18. The high-volume low-pressure end effector of claim 15 , wherein the hollow metal housing has a circular cross-section. 19. A high-volume low-pressure end effector comprising: a connection arm comprising a housing with flexible conduits running through the housing; and a spray head comprising integral channels and a number of outlets in fluid communication with the integral channels, wherein the integral channels are connected to the flexible conduits and comprise a first air channel, a second air channel, and a fluid channel, and wherein the spray head, the number of outlets, and the integral channels form a substantially monolithic structure; the integral channels are configured to: receive air and a fluid from the flexible conduits; and deliver the air and the fluid to the number of outlets; the number of outlets comprises a first outlet and a second outlet connected to the integral channels of the spray head; the first outlet and the second outlet have a respective nozzle and aircap; the first outlet and the second outlet are pointed ninety degrees relative to each other; a q