US2324150A - Liquid dispensing nozzle - Google Patents

Liquid dispensing nozzle Download PDF

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US2324150A
US2324150A US362014A US36201440A US2324150A US 2324150 A US2324150 A US 2324150A US 362014 A US362014 A US 362014A US 36201440 A US36201440 A US 36201440A US 2324150 A US2324150 A US 2324150A
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valve
valve stem
chamber
nozzle
liquid
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US362014A
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Harry M Groomes
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B67OPENING, CLOSING OR CLEANING BOTTLES, JARS OR SIMILAR CONTAINERS; LIQUID HANDLING
    • B67DDISPENSING, DELIVERING OR TRANSFERRING LIQUIDS, NOT OTHERWISE PROVIDED FOR
    • B67D7/00Apparatus or devices for transferring liquids from bulk storage containers or reservoirs into vehicles or into portable containers, e.g. for retail sale purposes
    • B67D7/06Details or accessories
    • B67D7/42Filling nozzles

Definitions

  • This invention relates to nozzle and in particular to liquid dispensing nozzles, such as for the dispensing of fuels.
  • One object of this invention is to provide a liquid dispensing nozzle having the valve mechanism wholly internal, without the necessity for external protruding valve stems, and therefore eliminating external packing and consequent friction and binding.
  • Another object is to provide a liquid dispensing nozzle having a positive actuation of the valve stem substantially without lost motion, thereby giving a positive control over the tapering off of the flow as the container into which the liquid is being dispensed becomes full.
  • Another object is to provide a liquid dispensing nozzle wherein the inlet and outlet conduits are substantially in line with the valve aperture, thereby giving a substantially straight line flow to the liquid and reducing edd current and other interferences with free flow.
  • Another object is to provide a liquid dispensing nozzle wherein the valve stem is actuated by a cam mechanism directly and positively connected to the control handle, so that lost motion is substantially absent.
  • Another object is to provide a liquid dispensing nozzle wherein the valve stem is guided positively on opposite sides of the valve seat and wherein the valve stem is free from the necessity of engaging packings, so that when the control handle is released by the operator, the valve stem follows it immediately without sticking or binding due to packing friction, and consequently without the pressure kick common in nozzles requiring packings around the valve stems.
  • Another object is to provide a liquid dispensing nozzle composed of easily manufactured parts and adapted to be assembled and disassembled with speed and facility.
  • Figure 1 is a central longitudinal section through a preferred embodiment of the liquid dispensing nozzle of this invention.
  • Figure 2 is an irregular but substantially longitudinal section taken along the irregular line 2-2 in Figure 1.
  • Figure 3 i a cross section taken along the irregular line 33 in Figure 1.
  • Figure 4 is the right-hand side elevation of the portion of the nozzle shown in Figure 3.
  • valve stems protruding from the casing through packings, these valve stems being actuated by control handles through lost motion or double pivoting connections.
  • the necessity for these external packing around the valve stem has caused the valve stem to bind and to delay its return to its seat when the control handle was released.
  • valve stem lie entirely within the nozzle and is engaged by the valve lifting mechanism within the nozzle.
  • valve stem does not stick because there are no packings through which the valve stem reciprocates.
  • a light spring is all that is necessary for returning the valve to its closed position.
  • the valve stem is lifted by a rotary cam mechanism Within the nozzle, hence a direct actuation without lost motion is accomplished.
  • the only packing necessary is a packing around the rotatable shaft but the rotary friction is of little consequence and has no effect upon the return of the valve stem as compared with the heavy friction drag of a packing around a reciprocating valve stem.
  • the operator can accurately control the tapering off of the liquid flow by gradually releasing the handle because the valve stem immediately and accurately follows the motion of the cam, due to the substantial absence of friction in the valve stem, which is guided or piloted above and below the valve seat.
  • the intake and outlet portions of the nozzle are substantially in a straight line with the valve seat aperture, hence a substantially straight line flow of the liquid is accomplished, thus reducing eddy currents and other influences interfering with the free flow of the liquid.
  • Figure 1 shows a preferred embodiment of the liquid dispensing nozzle of the invention as consisting of a nozzle casing l6 having an inlet chamber ll, an outlet chamber [2, and a valve chamber l3 disposed therebetween. Threaded as at M into the outlet chamber I2 is a nozzle extension I5 customarily inserted into the gasoline tank of the automobile or other container for the liquid being dispensed.
  • the valve chamber I3 has its axis somewhat at an angle to the axes of the inlet and outlet chambers II and I2 and is provided at its lower end with an aperture I6 into which is inserted a valve seat member I'l, preferably of bronze or other suitable material.
  • the valve seat member I"! is provided with a substantially conical valve seat I8 and a downwardly extending bracket portion I9 having a bore 26 at the lower end thereof.
  • the upper end of the valve chamber I3 is closed by a hollow cap 2
  • valve stem 25 Reciprocably mounted within the bores 29 and 24 is a valve stem 25 provided with an enlargement 26 and a washer 21 upon which is supported a valve head 28, backed by a Washer 29 and a nut 30 threaded upon the threaded portion SI of the valve stem 25.
  • the valve head 28 is pro-- vided with a conical annular surface 32 mating with the conical valve seat I8 and is urged into engagement therewith by the coil spring 33 extending between the valve head washer 29 and the hollow cap 2
  • the lower or inner end of the valve stem 25 is rounded as at 34 and is engaged by a cam portion 35 upon a cam shaft 35.
  • the latter has a hollow tubular portion 31 at one end ( Figure 3) rotatable in a bore 38 within a hollow cap 33 threaded as at 40 into the walls of the outlet chamber I2.
  • extending between the end of the cam shaft 36 and the inner end wall of the cap 39 urges the cam shaft 35 to the right ( Figure 3) against a packing 42, the opposite side of which engages the inner wall of the outlet chamber I2, and is seated by annular cutting ridges maintained at a constant pressure by the spring 4 I.
  • the cam shaft 33 terminates in a stem 43, which passes outward through a bore 44 in the outlet chamber I2 immediately adjacent the packing 42.
  • a control handle 4-5 Secured to the outer end of the stem 43, as by the pin 45, is a control handle 4-5 in the form of a bent arm.
  • the casing ill is provided with a shield portion 41 extending thereover and provided with an arcuate aperture 48 ( Figure 4) for the play of the control handle 46 as it is moved to and fro by the operator.
  • the nozzle casing I E] is provided with an extension 49 having a bore 58. Secured to this extension, as by the rivet i passing through the bore 50, is the lower end 52 of a handle guard 53, the upper end 54 of which is similarly secured to the upper casing extension 56.
  • This construction enables the easy replacement of a guard 53, such guards being frequently broken when the nozzle is dropped.
  • the operator gradually releases the handle 46, swinging the cam portion 35 downward and permitting the spring 33 to urge the valve head 28 toward its seat I8.
  • the guide bores 20 and 24 serve to guide the valve stem and to reduce the danger of binding.
  • the absence of packings around the valve stem substantially frees it from friction, so that the valve stem follows the release of the handle 46 Without lag or delay. This immediate follow-up of the valve stem with the control handle 46 eliminates the pressure kick in prior valves where it was necessary to provide a packing around the valve stem.
  • valve head 28 moves completely into engagement with the valve seat I8 and entirely cuts 01f communication between the inlet chamber I I and the outlet chamber I2.
  • the liquid such as gasoline, immediately stops flowing and dispensing ceases. Since the inlet chamber II, outlet chamber I2, and nozzle extension I5 are subsantially in line with the aperture or port formed by the valve seat I8, the liquid flows through the nozzle in substantially a straight line, thereby greatly reducing eddy currents and other interference with the flow of the liquid.
  • the handle 46 accurately controls the motion of the valve stem 25 throughout the opening and closing operations because there is no lost motion between these members.
  • a light spring 33 is sufficient to close the valve because of the absence of packings around the valve stem and because the valve stem is wholly internal rather than extending through the wall of the casing, as in prior art nozzles.
  • a nozzle casing structure having a valve chamber with a valve port therein, a valve stem reoiprocable within said valve chamber, a valve mounted on said valve stem and engageable with said valve port, a cam shaft structure having a cam there on engageable with said valve stem, a packing isposed between said cam shaft structure and said casing structure, and yielding means for urging said cam shaft structure against said packing at a substantially constant pressure, at least one of said structures having a ridge thereon projecting into said packing whereby to prevent leakage past said packing.
  • a nozzle casing having an aligned inlet chamber and an outlet chamber, defining a liquid flow chamber, a valve chamber having a valve port diagonally disposed relative to the inlet and outlet chambers, a removable valve seat located in said valve port, a valve stem reciprocably mounted in the valve chamber, a valve carried by the valve stem for closing said valve port, a valve stem guide mounted in one end of the valve chamber, a valve stem guide dependent from said valve seat for the opposite end of said valve stem, a cam for operating the valve stem mounted in one end of said valve chamber, said dependent valve stem guide and cam being offset with respect to the liquid flow chamber and out of the path of liquid flow therein.
  • a casing having an inlet chamber defining a liquid flow channel, an outlet chamber and a valve chamber therebetween with a valve port therein, a valve stem reciprocable within said valve chamber and having its opposite ends terminating within said nozzle casing, a valve mounted on said valve stem between its ends and engageable with said valve port, valve stem guides disposed on opposite sides of said valve port and out of said liquid flow channel for guiding said valve stem in its reciprocation, cam means within said casing also removed from said liquid flow channel for reciproeating said valve stem and an external cam op erating lever for the cam means.
  • a casing having an inlet chamber defining a liquid flow channel, an outlet chamber and a valve chamber therebetween with a valve port wall having a valve port therein, said valve chamber having a pair of recesses extending laterally outward relatively to said inlet chamber on opposite sides thereof, a valve stem reciprocable within said valve chamber and having its opposite ends terminating within said casing, a valve mounted on said valve stem between its ends and engageable with said valve port, a pair of valve stem guides disposed on opposite sides of said valve port, a pair of valve stem guides disposed on opposite sides of said valve port for guiding said valve stem in its reciprocation, one of said valve stem guides being disposed in one of said recesses for receiving one of the valve stem ends, and the other valve stem guide being disposed in the other recess for receiving the opposite end of the valve stem whereby said valve stem guides are out of said liquid flow channel, one Of said guides depending from said valve port Wall and means for reciprocating said valve stem.
  • a nozzle casing having an inlet chamber and an outlet chamber defining a liquid flow chamber, a valve chamber having a valve port between the inlet and outlet chambers, a removable valve seat located in the valve port, a valve stem guide depending from the valve seat, a spring-loaded valve for said valve seat, a valve stem carried by the valve and supported at one end by the guide, a cam operator beneath said valve stem guide and within said casing for operating said valve stem, said valve stem guide and cam operator being ofiset from the liquid flow chamber and out of the path of liquid flow therein.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Loading And Unloading Of Fuel Tanks Or Ships (AREA)

Description

July 13, 1943. v H. M. GROOMES 2,324,150
' LIQUID DISPENSING NOZZLE Filed 001;. 21, 1940 flgz. A
I go V 1/ 1 a 46 .95? M L Y :16 Aim; i? j' z 45 47 48 3nventor /g ornegs Patented July 13, 1943 UNITED STATES PATENT OFFICE LIQUID DISPENSING NOZZLE Harry M. Groomes, Whitmore Lake, Mich.
Application October 21, 1940, Serial No. 362,014
Claims. (01. 251-134) This invention relates to nozzle and in particular to liquid dispensing nozzles, such as for the dispensing of fuels.
One object of this invention is to provide a liquid dispensing nozzle having the valve mechanism wholly internal, without the necessity for external protruding valve stems, and therefore eliminating external packing and consequent friction and binding.
Another object is to provide a liquid dispensing nozzle having a positive actuation of the valve stem substantially without lost motion, thereby giving a positive control over the tapering off of the flow as the container into which the liquid is being dispensed becomes full.
Another object is to provide a liquid dispensing nozzle wherein the inlet and outlet conduits are substantially in line with the valve aperture, thereby giving a substantially straight line flow to the liquid and reducing edd current and other interferences with free flow.
Another object is to provide a liquid dispensing nozzle wherein the valve stem is actuated by a cam mechanism directly and positively connected to the control handle, so that lost motion is substantially absent.
Another object is to provide a liquid dispensing nozzle wherein the valve stem is guided positively on opposite sides of the valve seat and wherein the valve stem is free from the necessity of engaging packings, so that when the control handle is released by the operator, the valve stem follows it immediately without sticking or binding due to packing friction, and consequently without the pressure kick common in nozzles requiring packings around the valve stems.
Another object is to provide a liquid dispensing nozzle composed of easily manufactured parts and adapted to be assembled and disassembled with speed and facility.
In the drawing:
Figure 1 is a central longitudinal section through a preferred embodiment of the liquid dispensing nozzle of this invention.
Figure 2 is an irregular but substantially longitudinal section taken along the irregular line 2-2 in Figure 1.
Figure 3 i a cross section taken along the irregular line 33 in Figure 1.
Figure 4 is the right-hand side elevation of the portion of the nozzle shown in Figure 3.
Hitherto, liquid dispensing nozzles, particularly for gasoline, have been provided with valve stems protruding from the casing through packings, these valve stems being actuated by control handles through lost motion or double pivoting connections. The necessity for these external packing around the valve stem, however, has caused the valve stem to bind and to delay its return to its seat when the control handle was released.
As a consequence, due to this delay, followed by a sudden closing of the valve, a pressure kick arose as the result of the pressure in the line being suddenly cut oil. Furthermore, in such prior art nozzles, it has been very difficult for the operator to taper off the flow gradually as the tank which he is filling becomes full. Moreover, in order to overcome the friction in the external packing around the valve stem of a prior art nozzle, it has been necessary to provide a very heavy spring to overcome this friction. The sudden release of this spring has been a large factor in causing this pressure kick.
In the nozzle of the present invention, the valve stem lie entirely within the nozzle and is engaged by the valve lifting mechanism within the nozzle. As a consequence, the valve stem does not stick because there are no packings through which the valve stem reciprocates. A light spring is all that is necessary for returning the valve to its closed position. The valve stem is lifted by a rotary cam mechanism Within the nozzle, hence a direct actuation without lost motion is accomplished. The only packing necessary is a packing around the rotatable shaft but the rotary friction is of little consequence and has no effect upon the return of the valve stem as compared with the heavy friction drag of a packing around a reciprocating valve stem. Consequently, the operator can accurately control the tapering off of the liquid flow by gradually releasing the handle because the valve stem immediately and accurately follows the motion of the cam, due to the substantial absence of friction in the valve stem, which is guided or piloted above and below the valve seat. The intake and outlet portions of the nozzle are substantially in a straight line with the valve seat aperture, hence a substantially straight line flow of the liquid is accomplished, thus reducing eddy currents and other influences interfering with the free flow of the liquid.
Referring to the drawing, in detail, Figure 1 shows a preferred embodiment of the liquid dispensing nozzle of the invention as consisting of a nozzle casing l6 having an inlet chamber ll, an outlet chamber [2, and a valve chamber l3 disposed therebetween. Threaded as at M into the outlet chamber I2 is a nozzle extension I5 customarily inserted into the gasoline tank of the automobile or other container for the liquid being dispensed.
The valve chamber I3 has its axis somewhat at an angle to the axes of the inlet and outlet chambers II and I2 and is provided at its lower end with an aperture I6 into which is inserted a valve seat member I'l, preferably of bronze or other suitable material. The valve seat member I"! is provided with a substantially conical valve seat I8 and a downwardly extending bracket portion I9 having a bore 26 at the lower end thereof. The upper end of the valve chamber I3 is closed by a hollow cap 2| or bull nut threaded therein as at 22 and containing an internally extending boss 23 having a bore 24 therein aligned with the bore 26.
Reciprocably mounted within the bores 29 and 24 is a valve stem 25 provided with an enlargement 26 and a washer 21 upon which is supported a valve head 28, backed by a Washer 29 and a nut 30 threaded upon the threaded portion SI of the valve stem 25. The valve head 28 is pro-- vided with a conical annular surface 32 mating with the conical valve seat I8 and is urged into engagement therewith by the coil spring 33 extending between the valve head washer 29 and the hollow cap 2|.
The lower or inner end of the valve stem 25 is rounded as at 34 and is engaged by a cam portion 35 upon a cam shaft 35. The latter has a hollow tubular portion 31 at one end (Figure 3) rotatable in a bore 38 within a hollow cap 33 threaded as at 40 into the walls of the outlet chamber I2. A coil spring 4| extending between the end of the cam shaft 36 and the inner end wall of the cap 39 urges the cam shaft 35 to the right (Figure 3) against a packing 42, the opposite side of which engages the inner wall of the outlet chamber I2, and is seated by annular cutting ridges maintained at a constant pressure by the spring 4 I.
The cam shaft 33 terminates in a stem 43, which passes outward through a bore 44 in the outlet chamber I2 immediately adjacent the packing 42. Secured to the outer end of the stem 43, as by the pin 45, is a control handle 4-5 in the form of a bent arm. To protect this connection, the casing ill is provided with a shield portion 41 extending thereover and provided with an arcuate aperture 48 (Figure 4) for the play of the control handle 46 as it is moved to and fro by the operator.
The nozzle casing I E] is provided with an extension 49 having a bore 58. Secured to this extension, as by the rivet i passing through the bore 50, is the lower end 52 of a handle guard 53, the upper end 54 of which is similarly secured to the upper casing extension 56. This construction enables the easy replacement of a guard 53, such guards being frequently broken when the nozzle is dropped.
In the operation of the, nozzle to discharge liquid; the operator pulls the handle 46 upward, rotating the cam shaft 35 and swinging the cam portion 35 and the valve stem 25 upward. This positively forces the valve head 28 off the valve seat I8 and permits liquid to flow directly from the inlet chamber II into the outlet chamber I2 and thence through the nozzle extension I5 into the tank.
As the tank becomes full, the operator gradually releases the handle 46, swinging the cam portion 35 downward and permitting the spring 33 to urge the valve head 28 toward its seat I8. The guide bores 20 and 24 serve to guide the valve stem and to reduce the danger of binding. The absence of packings around the valve stem substantially frees it from friction, so that the valve stem follows the release of the handle 46 Without lag or delay. This immediate follow-up of the valve stem with the control handle 46 eliminates the pressure kick in prior valves where it was necessary to provide a packing around the valve stem.
Before the operator completely releases the control handle 46, the valve head 28 moves completely into engagement with the valve seat I8 and entirely cuts 01f communication between the inlet chamber I I and the outlet chamber I2. The liquid, such as gasoline, immediately stops flowing and dispensing ceases. Since the inlet chamber II, outlet chamber I2, and nozzle extension I5 are subsantially in line with the aperture or port formed by the valve seat I8, the liquid flows through the nozzle in substantially a straight line, thereby greatly reducing eddy currents and other interference with the flow of the liquid. The handle 46 accurately controls the motion of the valve stem 25 throughout the opening and closing operations because there is no lost motion between these members. A light spring 33 is sufficient to close the valve because of the absence of packings around the valve stem and because the valve stem is wholly internal rather than extending through the wall of the casing, as in prior art nozzles.
While a specific embodiment of the invention has been described and illustrated, it will be understood that various modifications may be made within the scope of the appended claims without departing from the spirit of the invention.
What I claim is:
1. In a liquid dispensing nozzle, a nozzle casing structure having a valve chamber with a valve port therein, a valve stem reoiprocable within said valve chamber, a valve mounted on said valve stem and engageable with said valve port, a cam shaft structure having a cam there on engageable with said valve stem, a packing isposed between said cam shaft structure and said casing structure, and yielding means for urging said cam shaft structure against said packing at a substantially constant pressure, at least one of said structures having a ridge thereon projecting into said packing whereby to prevent leakage past said packing.
2. In a valved liquid-dispensing nozzle, a nozzle casing having an aligned inlet chamber and an outlet chamber, defining a liquid flow chamber, a valve chamber having a valve port diagonally disposed relative to the inlet and outlet chambers, a removable valve seat located in said valve port, a valve stem reciprocably mounted in the valve chamber, a valve carried by the valve stem for closing said valve port, a valve stem guide mounted in one end of the valve chamber, a valve stem guide dependent from said valve seat for the opposite end of said valve stem, a cam for operating the valve stem mounted in one end of said valve chamber, said dependent valve stem guide and cam being offset with respect to the liquid flow chamber and out of the path of liquid flow therein.
3. In a liquid dispensing nozzle, a casing having an inlet chamber defining a liquid flow channel, an outlet chamber and a valve chamber therebetween with a valve port therein, a valve stem reciprocable within said valve chamber and having its opposite ends terminating within said nozzle casing, a valve mounted on said valve stem between its ends and engageable with said valve port, valve stem guides disposed on opposite sides of said valve port and out of said liquid flow channel for guiding said valve stem in its reciprocation, cam means within said casing also removed from said liquid flow channel for reciproeating said valve stem and an external cam op erating lever for the cam means.
4.. In a liquid dispensing nozzle, a casing having an inlet chamber defining a liquid flow channel, an outlet chamber and a valve chamber therebetween with a valve port wall having a valve port therein, said valve chamber having a pair of recesses extending laterally outward relatively to said inlet chamber on opposite sides thereof, a valve stem reciprocable within said valve chamber and having its opposite ends terminating within said casing, a valve mounted on said valve stem between its ends and engageable with said valve port, a pair of valve stem guides disposed on opposite sides of said valve port, a pair of valve stem guides disposed on opposite sides of said valve port for guiding said valve stem in its reciprocation, one of said valve stem guides being disposed in one of said recesses for receiving one of the valve stem ends, and the other valve stem guide being disposed in the other recess for receiving the opposite end of the valve stem whereby said valve stem guides are out of said liquid flow channel, one Of said guides depending from said valve port Wall and means for reciprocating said valve stem.
5. In a liquid-dispensing nozzle, a nozzle casing having an inlet chamber and an outlet chamber defining a liquid flow chamber, a valve chamber having a valve port between the inlet and outlet chambers, a removable valve seat located in the valve port, a valve stem guide depending from the valve seat, a spring-loaded valve for said valve seat, a valve stem carried by the valve and supported at one end by the guide, a cam operator beneath said valve stem guide and within said casing for operating said valve stem, said valve stem guide and cam operator being ofiset from the liquid flow chamber and out of the path of liquid flow therein.
HARRY M. GROOMES.
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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2494228A (en) * 1945-11-08 1950-01-10 Cederholm Carl Ingve Valve construction
US2558103A (en) * 1949-05-28 1951-06-26 Westinghouse Electric Corp Mechanical linkage with liquid sealing means
US2578544A (en) * 1948-07-10 1951-12-11 Harr Jesse Multiple liquid dispensing valve
US20130292594A1 (en) * 2012-05-01 2013-11-07 Hamilton Sundstrand Corporation Wear combination for starter air valve
EP3090982A1 (en) * 2015-05-06 2016-11-09 Husky Corporation Fuel nozzle with flow enhancing gasket and automatic shut-off

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2494228A (en) * 1945-11-08 1950-01-10 Cederholm Carl Ingve Valve construction
US2578544A (en) * 1948-07-10 1951-12-11 Harr Jesse Multiple liquid dispensing valve
US2558103A (en) * 1949-05-28 1951-06-26 Westinghouse Electric Corp Mechanical linkage with liquid sealing means
US20130292594A1 (en) * 2012-05-01 2013-11-07 Hamilton Sundstrand Corporation Wear combination for starter air valve
EP3090982A1 (en) * 2015-05-06 2016-11-09 Husky Corporation Fuel nozzle with flow enhancing gasket and automatic shut-off

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