Aerosol sprayers and methods of using the same

What is claimed is: 1. An aerosol sprayer, comprising: a base; a manifold; a cap received with the base; a sliding nozzle received within a guide channel in the cap and connected to the manifold; and a trigger pivotably attached to the base and operably engaged with the manifold and cap; and wherein the sliding nozzle is slidably movable along the guide channel between a retracted position and an extended position. 2. The aerosol sprayer of claim 1 , further comprising a trigger locking mechanism comprising: at least one groove on the sliding nozzle; a release notch at one end of the groove; and at least one latch arm on the trigger, wherein the at least one latch arm is seated in the at least one groove in a locked position and seated in the release notch in an unlocked position. 3. The aerosol sprayer of claim 1 , wherein the sliding nozzle further comprises an exit orifice adjacent the cap in a locked position and extended away from the cap in an unlocked position. 4. The aerosol sprayer of claim 1 , wherein the sliding nozzle is movable relative to the cap between a locked position and an unlocked position. 5. The aerosol sprayer of claim 1 , wherein the sliding nozzle is movable relative to the cap between a locked position preventing movement of the trigger and an unlocked position allowing movement of the trigger. 6. The aerosol sprayer of claim 1 , wherein the sliding nozzle further comprises: an exit orifice at a distal end; an inlet port at a proximal end; and a discharge path extending between the inlet port and the exit orifice. 7. The aerosol sprayer of claim 6 , wherein the inlet port is connected to the manifold. 8. The aerosol sprayer of claim 6 , further comprising a flexible hose connecting the inlet port to the manifold. 9. The aerosol sprayer of claim 1 , wherein the sliding nozzle further comprises opposed grooves on opposite sides of the nozzle. 10. The aerosol sprayer of claim 1 , further comprising: at least one groove in the guide channel in the cap; and at least one shoulder on the sliding nozzle seated in the at least one groove. 11. The aerosol sprayer of claim 1 , wherein the manifold further comprises a flexible manifold hose. 12. The aerosol sprayer of claim 1 , further comprising: an aerosol container attached to the base; a valve stem attached to the aerosol container, wherein the manifold is connected to the valve stem and comprises a manifold outlet; an inlet port in the sliding nozzle; and a manifold hose connected to the manifold outlet and the inlet port. 13. The aerosol sprayer of claim 1 , further comprising an aerosol container attached to the base. 14. The aerosol sprayer of claim 13 , further comprising a valve stem attached to the aerosol container, wherein the manifold is in communication with the valve stem. 15. An aerosol sprayer, comprising: a base; a cap received with the base; a sliding nozzle received within the cap, comprising: an exit orifice; an inlet port; a discharge path between the inlet port and the exit orifice; opposed grooves on side surfaces of the sliding nozzle; and opposed release notches at rearward ends of the opposed grooves; a trigger pivotably attached to the base, comprising opposed latch arms engaging the sliding nozzle; a manifold comprising a manifold outlet; and a hose connected to the manifold outlet and the inlet port of the sliding nozzle. 16. The aerosol sprayer of claim 15 , wherein the opposed latch arms of the trigger engage the opposed grooves of the sliding nozzle in a locked position and wherein the opposed latch arms of the trigger are seated in the opposed release notches of the sliding nozzle in an unlocked position. 17. The aerosol sprayer of claim 15 , wherein the exit orifice of the sliding nozzle is adjacent the cap in an unlocked position and wherein the exit orifice of the sliding nozzle extends away from the cap and trigger in an unlocked position. 18. An aerosol sprayer, comprising: an aerosol container; an aerosol valve attached to the aerosol container; a base attached to the aerosol container; a cap attached to the base; a sliding nozzle received in the cap, comprising: an exit orifice; an inlet port; a discharge path between the inlet port and the exit orifice; opposed grooves on side surfaces of the sliding nozzle; and opposed release notches at rearward ends of the opposed grooves; a trigger pivotably attached to the base, comprising opposed latch arms engaging the opposed grooves of the sliding nozzle, wherein engagement of the opposed latch arms with the opposed grooves prevents actuation of the aerosol sprayer and engagement of the opposed latch arms with the opposed release notches allows actuation of the aerosol sprayer. 19. The aerosol sprayer of claim 18 , wherein the sliding nozzle may be moved between a locked position and an extended unlocked position. 20. The aerosol sprayer of claim 18 , wherein extension of the sliding nozzle into a position in which the opposed latch arms engage the opposed release notches extends the exit orifice away from a finger of an operator actuating the trigger.