US2670106A

US2670106A - Multipurpose pressurized container valve

Info

Publication number: US2670106A
Application number: US189779A
Authority: US
Inventors: John E Ayres
Original assignee: OIL EQUIPMENT LAB Inc
Current assignee: OIL EQUIPMENT LAB Inc; OIL EQUIPMENT LABORATORIES Inc
Priority date: 1950-10-12
Filing date: 1950-10-12
Publication date: 1954-02-23
Anticipated expiration: 1971-02-23

Description

Feb. 23, 1 J. E. AYRES MULTIPURPOSE PRESSURIZED CONTAINER VALVE 2 Sheets-Sheet 1 Filed Oct. 12, 1950 5 INVENTOR.

John L. A v/"ew BY ATTOR/VEVJ' Feb. 23, 1954 AYRES 2,670,106

MULTIPURPOSE PRESSURIZED CONTAINER VALVE Filed Oct. 12, 1950 2 Sheets-Sheet 2 IN VEN TOR.

Jofin E. Ayres /M;MMM

ATTORNEYS Patented Feb. 23, 1954 VALV John; E. Ayres, Eli abeth, J as isnon -mesn i nmen w. 1 ui ment late ess Incorporated, Elizabeth, N. I., a corporation of New J crsey Application October 12, 1950, Serial No. 189,779

7 claims, (01. 222-394) This invention relates to valve structures suit;- able for dispensing liquid and semi-liquid. Products from pressurized containers. Among the products now being marketed in such form may be mentioned whipped cream and brushless shaving cream.

One of the objects of the invention is an improved valve capable of convenient assembly at low cost. 1

Another object of the invention is a valve of that character which can be readily, adapted to effectthe spray discharge of free flowing products, such as insecticides and fumigants.

' The invention .will be readily understood from the following description of the accompanying drawings, in which: I

Fig. 1 is a vertical section of a pressurized container equipped with a preferred embodiment of the invention, suitable for spray dispensing liquid products. r

Fig. 2 is an enlarged vertical section of the valve of Fig. 1 and the container cap before application to the container;

' Fig. 3 is an enlarged :vertical section of the same valve and associated parts adapted for dispensing semi-liquid products.

Referring first to. the valve construction of Figs. 1 and 2, a container 1 is shown provided with a closure cap 2, This cap is formed up ,as shown in Fig. 2 and then is applied to the container to seal it, as shown in Fig. l, with the cap flange '3 crimped around the bead l which surrounds the mouth of the container. The dispenser valve, generally designated 5 in Fig. 1, is carried by the container cap to which it may be preassembled as a unit. The valve comprises a body 6 of tubular form which maybe produced cheaply on an automatic eyelet machine, the tube being centered in an'opening in the cap and protruding above and below it. The body is secured tothe capas by soldering, as indicated at. .I. This general arrangement forms part of the subject matter of copending application, Serial No. 170,163, filed June 24, 1950.

One end of the valve body (in the illustrated embodiment the upper end) has an integralvalve :mAs disclosed in .ithe above-mentioned ap let.- l

tion, the tight closure; of the valve seat aperture may be efiected by a. sealin r g 1. of r bber o the like, encircling and gripping the lower end of the plunger adjacent its head 9 and, as also dis,- closed in said application; the plunger may be formed with small flanges; I2 to aiford the seal; ing ring a better grip on the plunger andinsure its moving with the plunger when the; lattercis de pressed to open the valve. The sealing. ring may be further locked to the plunger by means of a cup 13 crimped against the rubber to pinch the ring into close engagement with the plunge! stem. I a

The valve plunger is held in valve closing posi; tion by a spring 1 Hocated within the valve body with its upper end abutting the plunger head and having its lower end supported by the valve body. For the latter purpose and for another purpose to be mentioned below, the lower end of the valve body tube is also necked in to forman inwardly and downwardly projecting flange l5, terminat ing in a reduced diameter section IS. The flange serves to sustain the valve spring and, by so forming the lower end of .the valve body tube, there is provided a convenient sub-assembly of valve body, valve plunger and valve closing spring.

' Telescoping over the upwardly protruding por tion of the valve body is tubular valve chamber shell "which extends above't-hat portion of the valve body which it engages and is provided with a small discharge opening l8 in the upper part of its wall. This shell is preferably secured to the valve body simply by press-fitting. The upper end of the valve chamber shell is formed .with a re-entrant flange I9 to form part of the means by which the top of the shell is sealed.

Telescoped over the shell I! is aspout member 20 which may be of molded plastic and provided with a flange 2| to, finish off and form a closure for the depression in the ,closure cap 2. The hub ortubular portion of spout member 20 is suitably apertured to provide for the'lateral discharge of the product issuing through holel8 in the valve chamber shell ll. Inthe form illustrated, over: lapping slots or grooves 22, 23, are formed re;- spectively in the outer and inner surfaces of the spout member wall. By this arrangement the spout membercan be rotated to seal off hole l8 1 ii. I 2,670,106

closed. To open the valve and discharge the contents of the container, the nut is backed off slightly and then depressed. As disclosed in the said copending application, the section I of the valve stem which extends through the center opening o'f thew-awe seat is slightly. tapered, such arrangement having been found to afford" close and effective control of the discharge through such opening.

To complete the sealing of theupper end of shell [1, the nut member 25 is provided" with 35. depending flange 26 which is a snug fit within the shell flange IS. The pressure within shell I], when the valve is open, serves tohold thejfianges in sealing engagement. In this connection'it may be mentioned that the nut member may be formed of flexible molded plastic or rubberand its depending flange of quite thin section.

As in the above-mentioned prior ap ncaaon;

a siphon tube 2'! depends from the dispenser valveto the bottom'of the container, the tube preferably being flexible and attached to the valve'body simply by its snug fit. Tubes of polyethylene are found to be suitable for the purpose. By reason of the "necked-in form of the lower 'end' ofthe valve body, a smaller siphon tube may be utilized'in those cases where it is desirable. As will be recognized, a smaller tube of appropriate diameter can be fitted over or within the reduced diameter section 16. Fig.3 illustrates 'the'a'da'ptability of the construction to the dis'pensingof semi-liquid products such as whipped cream. In this figure the components of thevalve itself are precisely the same'asthose already described, as also is the manner of mounting the valve body in the contain'er' cap. Accordingly, all of the identical parts are correspondingly numbered.

In this instance, the shell 11, spout member and nut member are omitted and in place of the shell and spout member, there is telescoped directly onto the valve body 6 a spout member of the general form disclosed in the above-mentioned application. This spout member consists of a hub portion 28 having a flange 29 similar to flange 2| and a laterally directed spout element 30 through which the product issuing through-the valve aperture is discharged when the valve is open. As in the said prior application, the upper end of the spout member hub 28 is sealed by means of an upstanding flange 3|, telescoped with a recess 32 in nut member 33.

Without any change whatsoever in the structure of the valve body, plunger and spring, or in the manner of assembling this unit with the container cap, there is thus provided a valve structure whichis adaptable to the spray discharge of liquids or to the discharge of semiliquids, thereby holding to a minimum the total number of different parts required for these two purposes and achieving maximum economy.

In the light-of the foregoing description, the following is claimed:

1. In a dispenser valve mechanism for a pressurized container having a closure cap, the combination of a tubular valve body extending through and having portions protruding above :and below the cap and secured thereto; a centrally apertured,-downwardly facing valve seat :at one end of the valve body; a tubular valve chamber shell teles'coped over the portion of the valve body protruding above the closure cap, said :shell having a wall portion extending above the yal ve body portion engaged by the shell and having a discharge'opening in such wall portion;

a plunger having its upper end extending through the valve seat aperture and beyond the upper end of the valve chamber shell and having its lower end located beneath the valve seat, the upper end of said plunger being threaded, sealing means carried by thelovver end of the plunger, a; closure" spring engaging with the plunger and urging the sealing means carried thereby into engagement with the valve seat, and a member threadedon the upper end of the plunger, said member 'b'eihg'engageable with the top of the valve chamber shell to bring the sealing means on the plunger into engagement with the valve seatindependently of the closure spring.

2. Ina dispenser unit for a pressurized container having a closure cap with an aperture therein, the-combination of a tubular valve body of sheet metal centered in the cap aperture and sealed to the cap with portions of the valve body protruding above and below the cap, an internal valve seat carried by the valve body, saidvalve'seat comprising a centrally apertured flange extending-inwardly and upwardly from the end of the valve body protruding above the cap,- a valve plunger extending through the aperture in said fiange with its lower end located within the valve body, said plunger having a tapered section adjacent its lower end and an operating stem projecting beyond the valve body, said tapered section sloping outwardly toward the lower end of the plunger and engaging .with the edges of the flange defining the aperture at a point-intermediate its ends, said operating stem being of a smaller diameter than the diameter of the aperture in the flange, sealing means of compressible material carried by the plunger at its lower end and a valve closing spring having one end engaging with the lower end of the valve plunger and its other end engaging with the valve body, said spring urging the valve plunger in a direction to engage the sealing means on the plunger with the valve seat and the tapered section with the edges of the flange defining the aperture in the valve seat.

3. In a dispenser valve mechanism for a pressurized container having a closure cap, the combination of a valve body of sheet metal having tubular side walls and being open at its ends, said valve body having portions protruding above and below the cap, a centrally apertured, downwardly facing valve seat at one end of the valve body, a plunger extending through the valve seat aperture with its lower end projecting beneath the valve seat, said plunger having a gradually tapered section extending through the aperture in the valve seat and an operating stem projecting beyond the valve body, said tapered section sloping outwardly toward the lower end of theplunger, sealing means of compressible material carried by the plunger at the lower end thereof, a valve closing spring engaging with the plunger and urging the plunger in a direction to engage the sealing means with the valve seat, a tubular valve chamber shell having one end telescoped over the portion of the valve body protruding above the cap and having a discharge inturned flange carried by the valve chamber shell, said flange engaging with the plunger operating means and forming a seal therewith.

5. In a dispenser valve mechanism for a pressurized container, the combination of a valve body of sheet metal and having tubular side walls, a valve seat formed integrally with said body at its upper end; said valve seat consisting of an inwardly and upwardly directed flange having a central aperture therein; a valve operating plunger having its lower end located within the valve body and extending through said aperture in the valve seat; said plunger including an operating stem projecting beyond the valve body and a gradually tapered section extending through the aperture in the flange, said stem being of a diameter less than the diameter of the aperture; said tapered section sloping outwardly toward the lower end of a plunger and engaging with the edges of the flange defining the aperture therein at a point intermediate its ends, a sealing ring of compressible material carried by the plunger at its lower end, a retaining cap encircling and interlocking the sealing ring to the plunger, said sealing ring engaging with the lower surface of the said flange; and a valve closing spring engaging with the headed end of the plunger, said spring being biased to urge the plunger upwardly to engage the sealing ring with the valve seat flange and the tapered portion of the plunger with the edges of the flange defining the aperture in the valve seat.

6. In a dispenser valve mechanism for a pressurized container, the combination of a valve body of sheet metal and having tubular side Walls, said valve body being open at its upper and lower ends, a centrally apertured flange extending inwardly and upwardly from the upper end of the valve body, said flange defining the opening at the upper end of the valve body and having a lower surface forming a valve seat, a plunger extending through the aperture in said flange with its lower end inside of the valve body, said plunger having an operating stem projecting beyond the upper end of the valve body and a gradually tapered section fitting within the opening in the flange, said operating stem being of a smaller diameter than the aperture in the flange, said tapered section sloping outwardly toward the lower end of the plunger to a diameter larger than the opening in the flange, sealing means carried by the plunger at the lower end thereof, and a valve closing spring engaging with the lower end of the plunger, said spring urging the plunger in a direction to engage the sealing means with the valve seat and the tapered section with the edges of the flange defining the opening therein.

7. In a dispenser valve mechanism for a pressurized container having a closure cap, the combination of a valve body of sheet metal having imperforate tubular side walls, said valve body having necked-in portions defining openings at its ends and being secured to the closure cap intermediate its ends with its lower end protruding below and its upper end protruding above the cap, a valve seat the inner surface of the necked-in portion at the upper end of the valve body, said valve seat comprising a substantially conoidal surface extending inwardly and upwardly at the upper end of the valve body, a valve operating plunger extending through the opening in the upper end of the body, said plunger having an actuating stem projecting beyond the upper end of the valve body and a headed end projecting beneath the valve seat, said plunger also having a gradually tapered section adjacent and slopingoutwardly toward the headed end thereof, said tapered section being centered within the opening in the upper end of the valve body and engaging with the edges of the necked-in portion defining said opening at a point intermediate the ends of said tapered section, sealing means secured to the lower end of the plunger and a valve-closing spring engaging with the headed end of the plunger and with the lower end of the valve body, said spring urging the plunger upwardly to engage the sealing means on the plunger with the valve seat and the tapered section of the plunger with the necked-in portion of the valve body defining the opening in the upper end thereof.

JOHN E. AYRES.

References Cited in the file of this patent UNITED STATES PATENTS Number Name Date 1,800,156 Rotheim Apr. 7, 1931 1,892,750 Rotheim Jan. 3, 1933 2,165,684 Strick July 11, 1939 2,199,947 -Behofsky May 7, 1940 2,372,392 Pletman Mar. 27, 1945 2,514,030 Coyle July 4, 1950 2,548,750 Stroop Apr. 10, 1951 2,550,840 Martin May 1, 1951 2,562,111 Michel July 24, 1951 2,565,050 Smith Aug. 21, 1951