Patent ID: 6685115
Filing Date: 2004-02-03
Classification: B05B,B08B

Abstract:
A spray nozzle mechanism comprising:a) a hollow cylindrical conduit body having (1) a proximal end, (2) a distal end, (3) a longitudinal axis extending between the proximal end and the distal end of the conduit body, (4) a fluid conducting bore defined through said conduit body from the distal end of said conduit body to the proximal end of said conduit body, and (5) an outer surface on said conduit body; b) a hose connection unit on the proximal end of said conduit body and which includes an internally threaded coupling rotatably mounted on the proximal end of said conduit body; c) a stop unit fixed to the distal end of said conduit body and including (1) a cylindrical body fixedly mounted on the outer surface of said conduit body, (2) an outer surface on the cylindrical body of said stop unit, (3) the outer surface of the cylindrical body of said stop unit being spaced apart from the outer surface of said conduit body, (4) a first end on the cylindrical body of said stop unit, (5) the first end of the cylindrical body of said stop unit being located adjacent to the outer surface of said conduit body, (6) a second end of the cylindrical body of said stop unit which is spaced apart from the first end of the cylindrical body of said stop unit, (7) a longitudinal axis extending between the first and second ends of the cylindrical body of said stop unit and being oriented at a right angle with respect to the longitudinal axis of said conduit body, (8) a first stop element on the outer surface of the cylindrical body of said stop unit, (9) a second stop element on the outer surface of the cylindrical body of said stop element, and (10) the first and second stop elements of said stop unit being spaced apart from each other along the outer surface of the cylindrical body of said stop element; d) a handle mount unit which includes (1) a first semicircular mounting plate having (A) a linear base fixedly mounted on the outer surface of said conduit body adjacent to the proximal end of said conduit body and extending in the direction of the longitudinal axis of said conduit body, (B) an arcuate perimeter extending away from the outer surface of said conduit body, (C) an outer surface, and (D) an inner surface, (2) a second semicircular mounting plate having (A) a linear base fixedly mounted on the outer surface of said conduit body adjacent to the proximal end of said conduit body and extending in the direction of the longitudinal axis of said conduit body, (B) the linear bases of the first and second semicircular mounting plates being spaced apart from each other on the outer surface of said conduit body and extending parallel to each other, (C) an arcuate perimeter extending away from the outer surface of said conduit body, (D) an outer surface, (E) an inner surface, (F) the inner surfaces of the first and second semicircular mounting plates being spaced apart from each other on the outer surface of said conduit body and extending parallel to each other and defining a gap therebetween, and (G) the inner surfaces of the first and second mounting plates being located between the outer surfaces of the first and second semicircular mounting plates; e) a nozzle unit rotatably mounted on said conduit body adjacent to said stop unit and including (1) a cylindrical base having (A) a first end located adjacent to the first end of the cylindrical body of said stop unit and being superimposed therewith, (B) a second end, (C) a longitudinal axis extending between the first and second ends of the cylindrical base of said nozzle unit and being linearly aligned with the longitudinal axis of the cylindrical body of said stop unit, (D) an outer surface extending between the first and second ends of the cylindrical base of said nozzle unit, (E) the cylindrical base of said nozzle unit being hollow and defining a fluid chamber which is fluidically connected to the fluid conducting bore of said conduit body, (F) a face plate fixedly mounted on the second end of the cylindrical base of said nozzle unit and fixedly connected to the outer surface of the cylindrical base of said nozzle unit, (G) the first end of the cylindrical base of said nozzle unit being open, (H) a pivot pin mounted on said conduit body adjacent to the distal end of said conduit body, and (I) the face plate of the cylindrical body of said nozzle unit being mounted on the pivot pin of said nozzle unit for rotation about the pivot pin with the outer surface of the cylindrical base of said nozzle unit rotating with the face plate of the cylindrical base of said spray nozzle unit, (2) a spray nozzle mounted on the outer surface of the cylindrical base of said spray nozzle unit for rotation therewith and having (A) a hollow body, (B) a proximal end of the hollow body of the spray nozzle fixedly mounted on the outer surface of the cylindrical base of said spray nozzle unit, (C) a distal end of the hollow body of the spray nozzle of said spray nozzle unit, (D) a longitudinal axis extending between the proximal and the distal ends of the hollow body of the spray nozzle of said spray nozzle unit, (E) a bore extending along the longitudinal axis of the spray nozzle from the proximal end of the spray nozzle to the distal end of the spray nozzle, and (F) the bore of the spray nozzle being fluidically connected to the fluid chamber defined in the cylindrical base of said spray nozzle unit, and (3) a linkage connecting element fixedly mounted on the outer surface of the cylindrical base of said spray nozzle unit for rotation therewith and at a location spaced apart from the spray nozzle of said spray nozzle unit and between the first and second stop elements of said stop unit and which includes (A) a linear base on the outer surface of the cylindrical base of said spray nozzle unit and extending in the direction of the longitudinal axis of the cylindrical base of said spray nozzle unit and over the outer surface of the cylindrical body said stop unit from the first end of the cylindrical body of said stop unit to the second end of the cylindrical body of said stop unit to be adjacent to the outer surface of the cylindrical body of said stop unit, (B) a distal end spaced from the base of the linkage connecting element of said nozzle unit and which extends in the direction of the linear base of the linkage connecting element, and (C) a cylindrical housing fixed to the distal end of the linkage connecting element of said nozzle unit and which includes a hollow bore; f) a linkage pivot pin (1) having a first end fixedly mounted on the first semicircular mounting plate of said handle mount unit, (2) having a second end fixedly mounted on the second semicircular mounting plate of said handle mount unit, and (3) spanning the gap defined between the inner surfaces of the first and second semicircular mounting plates of said handle mount unit; g) a control handle element which includes (1) a body, (2) a distal end of the body of said control handle element, (3) a proximal end of the body of said control handle element, (4) a longitudinal axis extending between the distal and proximal ends of the body of said control handle element, (5) a pivotal connection located between the distal and proximal ends of the body of said control handle element and which is pivotally connected to said linkage pivot pin, (6) the proximal end of the body of said control handle element being located between said linkage pivot pin and the outer surface of said conduit body, and the arcuate perimeters of the first and second semicircular mounting plates of said handle mount unit being located between the distal end on the body of said control handle element and said pivot pin, and (7) the body of said control handle element pivotally moving about said linkage pivot pin when force is applied to the distal end of the body of said control handle element; and h) a linkage arm which includes (1) a proximal end fixedly connected to the proximal end on the body of said control handle element for movement therewith, (2) a distal end, (3) a cylindrical bearing element fixedly connected to the distal end of said linkage arm, (4) the cylindrical bearing element of said linkage arm being rotatably mounted in the cylindrical housing of said linkage connecting element of said nozzle unit, and (5) said linkage arm transferring movement of the proximal end of said linkage arm to said spray nozzle unit via the cylindrical bearing element on the distal end of said linkage arm and the cylindrical housing of the linkage connecting element of said nozzle unit to rotate said nozzle unit about the pivot pin of the cylindrical base of said nozzle unit when force is applied to the distal end of the body of said control handle element.