Automatic shut-off and self-locking refueling nozzle
First Claim
1. An automatic shut-off refueling nozzle system characterized by its ability to fill a receptacle unattended wherein the receptacle includes an elongated inlet neck having an inlet port including connection means comprising, in combination, a nozzle connected to a pressurized fuel supply having a spout having an end and an exterior surface, a manually operated valve and a sensing conduit having an open end in communication with said spout exterior surface for automatically closing the nozzle valve upon said conduit open end sensing the presence of fuel adjacent said spout exterior surface, nozzle connection means defined upon said spout for complementary mating with the inlet port connection means when said spout is fully located within the inlet neck, and a diverger communicating with said spout end constituting an extension of said spout wherein said diverger is located within the receptacle inlet neck when said spout is located within the inlet neck, said diverger including an inner chamber in communication with said spout having an axis coaxial with the spout axis, an exterior surface, and at least one discharge orifice defined in said diverger communicating with said chamber and intersecting said diverger exterior surface, said at least one orifice having an axis and direction of discharge away from said spout and obliquely related to said chamber axis and the length of the receptacle inlet neck, said sensing conduit open end being axially located between said at least one diverger orifice and said nozzle connection means.
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Accused Products
Abstract
The invention pertains to an automatic shut-off refueling nozzle particularly suitable for use with military vehicles employing a nozzle having a liquid level sensor operating a flow valve, the nozzle includes a lug plate attachable to the inlet of the tank receptacle being filled wherein once attached to the tank inlet the presence of an operator is not required during refueling. A diverger on the nozzle spout improves flow characteristics within the tank inlet to prevent premature release of the nozzle flow valve and the nozzle prevents contamination during refueling and prevents spillage of volatile fuels even though unattended. An embodiment of the invention utilizes a secondary control valve preventing fluid flow until the nozzle has been fully connected to the tank inlet.
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Citations
13 Claims
- 1. An automatic shut-off refueling nozzle system characterized by its ability to fill a receptacle unattended wherein the receptacle includes an elongated inlet neck having an inlet port including connection means comprising, in combination, a nozzle connected to a pressurized fuel supply having a spout having an end and an exterior surface, a manually operated valve and a sensing conduit having an open end in communication with said spout exterior surface for automatically closing the nozzle valve upon said conduit open end sensing the presence of fuel adjacent said spout exterior surface, nozzle connection means defined upon said spout for complementary mating with the inlet port connection means when said spout is fully located within the inlet neck, and a diverger communicating with said spout end constituting an extension of said spout wherein said diverger is located within the receptacle inlet neck when said spout is located within the inlet neck, said diverger including an inner chamber in communication with said spout having an axis coaxial with the spout axis, an exterior surface, and at least one discharge orifice defined in said diverger communicating with said chamber and intersecting said diverger exterior surface, said at least one orifice having an axis and direction of discharge away from said spout and obliquely related to said chamber axis and the length of the receptacle inlet neck, said sensing conduit open end being axially located between said at least one diverger orifice and said nozzle connection means.
- 11. An automatic shut-off refueling nozzle system characterized by its ability to fill a receptacle unattended wherein the receptacle includes an elongated inlet neck having an inlet port including connection means comprising, in combination, a nozzle connected to a pressurized fuel supply having a spout having an end and an exterior surface, a manually operated valve and a sensing conduit having an open end in communication with said spout exterior surface for automatically closing the nozzle valve upon said conduit open end sensing the presence of fuel adjacent said spout exterior surface, a sleeve rotatably mounted on said spout having an inner end disposed toward said valve and an outer end disposed toward said spout end, a handle affixed to said sleeve inner end for rotating said sleeve, a lug plate mounted upon said sleeve outer end for rotation therewith and axially displaceable on said spout, lugs defined on said plate for cooperating with the inlet port connection means whereby rotation of said lug plate relative to the inlet port axially draws the lug plate into the inlet neck, an annular seal axially fixed on said spout adjacent said lug plate for engaging and sealing the inlet port, a hollow diverger affixed to said spout end having at least one orifice defined therein, a spout valve controlling flow through said at least one orifice and axially displaceable within said diverger between orifice open and closed positions, a spring biasing said spout valve toward said closed position and fuel flow through said spout displacing said spout valve to said open position, a detent defined on said diverger selectively locking said spout valve in said closed position, and detent release means operatively connected to said lug plate wherein axial displacement of said lug plate toward said spout end upon connection of said lug plate to the inlet port connection means releases said detent and spout valve to permit said spout valve to be displaced to said open position upon said nozzle valve being opened.
Specification
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- Resources
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Current AssigneeAeroquip Corporation (Eaton Corporation PLC.)
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Original AssigneeAeroquip Corporation (Eaton Corporation PLC.)
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InventorsKulikowski, Ernest F., Fournier, Paul J. E.
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Primary Examiner(s)Cusick, Ernest G.
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Application NumberUS07/160,270Time in Patent Office747 DaysField of Search141/382, 141/383, 141/384, 141/385, 141/386, 141/192, 141/198, 141/311 R, 141/312, 141/346, 141/347, 141/392, 141/206-210, 141/211, 141/217-219 , 141/225-229, 285/358, 285/360, 285/361, 285/362, 285/396, 220/85 R, 220/86 RUS Class Current141/384CPC Class CodesB64F 1/28 Liquid-handling installatio...B67D 7/46 when liquid in container to...
