Method and assembly for preventing dripping of a liquid dispensing nozzle
First Claim
1. A non-drip assembly for use with a liquid dispensing nozzle, which comprises:
- (a) a conduit having opposed ends with a sidewall therebetween providing a channel along a longitudinal axis of the assembly, the sidewall having an aperture and one of the ends of the conduit having an opening and being configured to connect to a dispensing end of the liquid dispensing nozzle wherein an inner surface of the one end of the conduit has threads which mate with threads on an outer surface of a threaded connector which is mounted in the dispensing end of the nozzle;
(b) a valve means mounted in the channel of the conduit adjacent the aperture in the sidewall to control a flow of liquid into the assembly including;
(i) a stopper mounted adjacent to the opening in the one end of the conduit and configured to extend into the opening in the one end of the conduit to close the opening to prevent the flow of liquid into the assembly;
(ii) a biasing means mounted adjacent the stopper to move the stopper into the opening in the one end of the conduit wherein after deactivation of the nozzle, liquid pressure forcing the stopper in a direction away from the opening is less than a force of the biasing means tending to move the stopper toward the opening.
1 Assignment
0 Petitions
Accused Products
Abstract
A method and assembly (10) to prevent the dripping of a liquid dispensing nozzle (100) after deactivation of the nozzle and to automatically deactivate the nozzle when it is removed from the fuel tank (150), is described. The non-drip valve assembly is attached to the dispensing end (104B) of the nozzle and includes a housing (12) within which is mounted a valve (14) comprised of a stopper (16) and a spring (18). When the nozzle is activated, the liquid pressure on the extreme end (16D) of the stopper moves the stopper out of the opening (12E) in the proximal end (12A) of the housing which allows the liquid to flow into the housing around the stopper and out through the apertures (12G) in the sidewall (12C) of the housing. When the nozzle is deactivated, the spring biases the stopper into the opening which prevents liquid remaining in the spout from escaping. A shut-off sleeve (112) is mounted around the spout of the nozzle and has a spring and ball plunger (116) and a locating detent (124). In use, the sleeve slides along the spout of the nozzle exposing the venturi opening (110) as the nozzle is inserted into a fuel tank. Once the nozzle is removed from the tank, the return spring (114) biases the sleeve back along the spout to cover the venturi opening and deactivate the nozzle.
96 Citations
20 Claims
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1. A non-drip assembly for use with a liquid dispensing nozzle, which comprises:
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(a) a conduit having opposed ends with a sidewall therebetween providing a channel along a longitudinal axis of the assembly, the sidewall having an aperture and one of the ends of the conduit having an opening and being configured to connect to a dispensing end of the liquid dispensing nozzle wherein an inner surface of the one end of the conduit has threads which mate with threads on an outer surface of a threaded connector which is mounted in the dispensing end of the nozzle; (b) a valve means mounted in the channel of the conduit adjacent the aperture in the sidewall to control a flow of liquid into the assembly including; (i) a stopper mounted adjacent to the opening in the one end of the conduit and configured to extend into the opening in the one end of the conduit to close the opening to prevent the flow of liquid into the assembly; (ii) a biasing means mounted adjacent the stopper to move the stopper into the opening in the one end of the conduit wherein after deactivation of the nozzle, liquid pressure forcing the stopper in a direction away from the opening is less than a force of the biasing means tending to move the stopper toward the opening. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. In a liquid dispensing nozzle, the improvement which comprises:
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a conduit having a proximal end and an opposed distal end with a sidewall therebetween providing a channel through the conduit, the proximal end being connected to a handle of the nozzle and the sidewall having an aperture adjacent the distal end for dispensing a liquid; a valve means mounted in the channel at the distal end of the conduit adjacent the aperture in the sidewall and including; (i) a stopper to control a flow of the liquid through the aperture in the sidewall of the conduit; and (ii) a biasing means to move the stopper to close the channel of the conduit adjacent the aperture in the sidewall to prevent the liquid from exiting the conduit through the aperture in the sidewall after the nozzle has been deactivated; a venturi shut-off mechanism having a venturi tube extending along the channel of the conduit from the handle of the nozzle to a venturi opening in the sidewall of the conduit adjacent the aperture; an automatic shut-off sleeve slidably mounted around an outside surface of the conduit which acts to close off the venturi opening when the sleeve is fully forward in a closed position; and a plunger provided in the sleeve which extends into the venturi opening and seals the venturi opening so as to trigger the venturi shut-off mechanism to deactivate the nozzle and stop the flow of liquid in the nozzle. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19)
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20. In a liquid dispensing nozzle including a conduit having a proximal end and an opposed distal end with a sidewall therebetween providing a channel through the conduit, the proximal end being connected to a handle of the nozzle and the distal end having an opening for dispensing a liquid;
a venturi shut off mechanism for deactivating the nozzle, having a venturi tube extending along the channel of the conduit from the handle of the nozzle to a venturi opening in the sidewall of the conduit adjacent the distal end of the conduit, the improvement which comprises; a shut off sleeve slidably mounted around an outside surface of the conduit; a plunger mounted in the sleeve such that a ball of the plunger extends into the venturi opening when the sleeve is in the fully forward position and acts to close off the venturi opening such as to deactivate the nozzle; and a biasing means mounted around the outside surface of the conduit between the sleeve and the proximal end of the conduit to move the sleeve into the fully forward position when the nozzle is removed from a container.
Specification