A spray head (10) for a spraying device operated by pressing down an actuating cap (70) against the initial tension of a spring (30) allowing to atomize and focus-spray a sprayable and preferably liquid product by compressed air. The spray head is provided with a spray nozzle (58) wherein the compressed air and the product, up to here transported in two different canals, through an ascending tube (50) immersed into a product container, are mixed, atomized and focus-sprayed. Spray head (10) shows two separate valves with initial tension in closing position (22; 24) of which the first valve (22) is positioned in a passage canal of the air pressure canal forwarding the compressed air to the spray nozzle (58) and the container interior, and the second valve (24) is positioned inside the product canal by which the product is transported through the ascending tube (50) from the container to the spray nozzle (58). The actuating cap (70) includes two actuating taggets (72; 74) each of which are allocated to one of the valves which unlock when pressing down the actuation elements. The actuating taggets (72; 74) are dimensioned to allow the actuating tagget (72) allocated to the first valve (22) to contact the relevant valve closing part (26; 28) when pressing down the actuation element (70) before the relevant actuating tagget (74) allocated to the second valve (24).
A spray assembly including a venturi type spray nozzle, a valve attached to the spray nozzle, a reservoir adapter that can engage a reservoir containing a liquid coating material to be sprayed, and a flexible hose between tile reservoir adapter and the valve. The outer surface texture of material being coated can be adjusted using the valve which is useful in matching the surface texture of chip resistant coatings and undercoatings on an automobile, and the hose allows the operator to spray material onto a substrate from any orientation of the spray nozzle which facilitates coating locations such as the lower portions of panels or in wheel wells and trunks. A valve passageways is shaped to facilitate fine adjustment of the air/coating material ratio when small amounts of material are being delivered, and the valve includes an air purge to remove material from the valve and nozzle when the valve is shut off.
A holder for securing an extension tube to a side of an aerosol container. The inventive device includes a center member having a slot for receiving the extension tube. A pair of arcuate arms extend from the center member and can be resiliently positioned about the container to secure the center member and associated extension tube thereto.
A precompression pump for the spraying of a liquid includes a pumping chamber (2) containing a first piston (7) associated with a manipulating element (6), this piston bearing against a first spring (9). A precompression chamber (5) is provided with a second piston (10) bearing against a second spring (11), the precompression chamber communicating with the pumping chamber, their axes of symmetry being offset. A feeder duct (4) is provided with a valve (4a, 15) leading into the pumping chamber. A dispensing element (17) is provided with a nozzle (20) and with a dispensing duct (18) connecting the nozzle and the precompression chamber. The connection between the nozzle and the precompression chamber is interrupted in the rest position of the pump and is established under the action of the manipulating element.
A fluid dispensing tube with fluid deflection surface that attenuates accumulation of solidified sprayed fluid. The fluid deflection surfaces can be used for mechanically breaking-up a fluid to enhance sprayability and uniformity or to create a fan spray, or both. The inlet end of the fluid dispensing tube can be fluidly connected to a container of fluid.
