US3313459A - Quantitative jetting means for a pressured injector-reservoir - Google Patents

Quantitative jetting means for a pressured injector-reservoir Download PDF

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US3313459A
US3313459A US500039A US50003965A US3313459A US 3313459 A US3313459 A US 3313459A US 500039 A US500039 A US 500039A US 50003965 A US50003965 A US 50003965A US 3313459 A US3313459 A US 3313459A
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quantitative
valve rod
quantitative chamber
reservoir
tubular valve
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US500039A
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Mizuguchi Ryuichi
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Mitani Valve Co Ltd
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Mitani Valve Co Ltd
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65DCONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
    • B65D83/00Containers or packages with special means for dispensing contents
    • B65D83/14Containers or packages with special means for dispensing contents for delivery of liquid or semi-liquid contents by internal gaseous pressure, i.e. aerosol containers comprising propellant for a product delivered by a propellant
    • B65D83/44Valves specially adapted therefor; Regulating devices
    • B65D83/52Valves specially adapted therefor; Regulating devices for metering
    • B65D83/54Metering valves ; Metering valve assemblies

Definitions

  • This invention relates to improvements in a quantitative jetting means for a pressured injector-reservoir and has as an object the provision of a quantitative jetting means of the kind described having a simple structure, which may be cheap to produce and reliable in use.
  • a quantitative jetting means for a pressured injector-reservoir comprising a reservoir, a quantitative chamber, a deformable semi-spherical member, and a jetting member.
  • the reservoir is adapted to contain a pressured uid and closed fluid-tightly by a lid.
  • the quantitative chamber is formed in the central part of and downwards protruded from the lid.
  • the deformable semi-spherical member is made of an elastic material, placed on a single and opened bottom of the quantitative chamber and provided with a central perforation for communicating the interior of the quantitative cham ber with the reservoir through a suction pipe.
  • the jett-ing member is fixed on a tubular valve rod having a bottom end adapted to move vertically inside the quantitative chamber.
  • the valve rod is adapted to be held by the lid duid-tightly and to communicate the interior of the quantitative chamber with the atmosphere through the tubular valve rod and the jetting member when the tubular valve rod is lowered in the quantitative chamber.
  • the perforation is adapted to be closed by the bottom end of the lowered tubular valve end and at the same time with the last-named communication so as to make the quantitative chamber incommunicable from the reservoir.
  • FIG. l is a vertical sectional view of a quantitative jetting means with parts removed, embodying this invention.
  • FIG. 2 shows the same in the jetting position
  • FIGS. 3, 4, and 5 similar views t0 FIG. l, but showing modifications of the quantitative jetting means in accordance with this invention, respectively.
  • FIGS. l and 2 the preferred embodiment of this invention will now be described; however, this description Will be understood to be illustrative of the invention and not as limiting it to the particular structure shown and described.
  • a reservoir 8 having a top opening.
  • a top ange 9 of a lid On the top end 11 of the reservoir 8 is placed a top ange 9 of a lid.
  • a fluidtight gasket 10 is inserted therebetween.
  • a downwards protruded cylinder 4 is formed in the center of the lid integrally with the top flange 9.
  • a suction pipe 7 is attached inside a downward bore extended downwards from an opened bottom of the cylinder 4.
  • the inside space of the cylinder 4 constitutes a quantitative chamber 5 which is communicated with the inside of the reservoir 8 through a central hole 6 of the bottom of the cylinder 4 and the suction pipe 7.
  • a semi-spherical member 1 having an annular ange 2 and a central perforation 3 and made of an elastic material such as a natural or artificial rubber or a synthetic resin is placed on the bottom of the cylinder 4.
  • a retaining sleeve 25 is fitted inside the cylinder 4 so as to keep the ange 2 on the bottom of the cylinder 4, and serves to adjust the volume of the quantitative chamber S.
  • a valve rod 13 is formed with a top open 3,313,459 Patented Apr. 11, 1967 cylindrical passage 18, a valve body 14, and an invertedly frustro-conical bottom 15.
  • the cylindrical passage 18 is provided with a lateral perforation 19.
  • the valve body 14 is adapted to slide vertically on the inner surface of the retaining sleeve 25.
  • the invertedly frustro-conical bottom 15 is adapted to bear down the semi-Spherical member 1 when the valve rod 13 is lowered.
  • a gasket ⁇ 17 is placed around the valve rod 13 and on the top ange 9 so as to keep the quantitative chamber 5 tluidntight.
  • the gasket 17, the top liange 9 and the gasket 10 are covered and kept in place by a retaining member 12 having a central hole and a skirt adapted to anchor the retaining member 12 in an annular neck groove 24 formed in the outer surface of the reservoir 8.
  • the Valve rod 13 is adapted to pass through the central hole of the retaining member 12 vertically slidably and the lateral perforation 19 of the cylindrical passage 1S of the tubular valve rod 13 is arranged to be shiftable between an upper position or inactive position where the cylindrical passage 18 is communicated with the atmosphere through the lateral perforation 19 and a lower position or a active position where the cylindrical passage 1S is communicated with the interior of the quantitative chamber 5 through the lateral perforation 19.
  • a jetting member 20 is fixed on a central block 22 protruded from an elastic covering member 21. The skirt of the covering member 21 is engaged with the retaining member 12 also around the neck ⁇ groove 24.
  • the central block 22 is fixed on the top of the tubular valve rod 13 in such a manner that the cylindrical passage 1S is always communicated with the jetting member 20.
  • the jetting member 20 In operation, the jetting member 20 usually kept in the upper position by virtue of the elasticity of the covering member 21 is manually pushed down so as to shift the lateral perforation 19 from the upper inactive position to the lower active position and bear down the semi-spherical member 1 by the invertedly frustro-conical bottom 15 as shown in FIG. 2.
  • the valve rod 13 When the valve rod 13 is thus lowered and the cylindrical passage 18 is brought into communication with the quantitative chamber 5 through the lateral perforation 19, a predetermined quantity of a pressured liquid or a gas confined in the quantitative chamber 5 is je'tted through the jetting member 20 by the action of the pressure preliminarily given thereto.
  • the jetting member 20 When the jetting member 20 is released, it is restored to the original upper position by the elastic action of the covering member 21 so as to lift the tubular valve rod 13 from the lower position to the upper position. Accordingly the lateral perforation 19 is shifted above the retaining member 12 and the invertedly frustro-conical bottom I16 is disengaged from the semi-spherical member 1 so that the quantitative chamber 5 is made incommunicable with the cylindrical passage 18 but instead thereof communicated with the inside of the reservoir 8.
  • the covering member 21 is omitted, the elastic action for resto-ring the jetting member 20 being left to a spiral spring 23 arranged between the jetting member 20 and the retaining member 12.
  • the retaining sleeve 25 is also omitted.
  • an annular groove 28 is provided -along the bottom end of the peripheral wall of the quantitative chamber 5 in which the flange 2 of the semi-spherical member 1 is inserted.
  • a coil spring 23 is arranged below the retaining member 12 pce in lieu of the spiral spring 23 used in the preceding ernbodiment.
  • an outward ilange is formed integrally with the valve rod 13.
  • the coil spring 23 is compressed between the outward ange and an inward flange formed in the inside wall of the quantitative chamber 5.
  • FIG. 4 is prein case Where it is necessary that the volume of the quantitative chamber 5 is small in which, for example, a perfume is to be contained.
  • a concave bottom end 16' of the valve rod 13 In the modification shown in FIG. 5, the top flange 9 of the cylinder 4 is provided with a central shoulder, on which the gasket 17 is accommodated.
  • the coil spring 23 is compresed between the outward flange and an inner lid placed on the gasket 17.
  • a quantitative jetting means for a pressured injectorreservoir comprising a reservoir adapted to contain a pressured fluid and closed duid-tightly by a lid, a quantitative chamber formed in the central part of and downwards protruded from said lid, a deformable semi-spherical member made of an elastic material, placed on a single and opened bottom of said quantitative chamber and provided with a central perforation for communicating the interior of said quantitative chamber with said reservoir through a suction pipe, and a jetting member ⁇ fixed on a tubular valve rod having a bottom end adapted to move vertically inside said quantitative chamber, said tubular valve rod being adapted to be held by said lid duid-tightly and to communicate said interior of said quantitative chamber with the atmosphere through said tubular valve rod and said jetting member when said tubular valve rod is lowered ⁇ in said quantitative chamber, and said perforation being adapted to be closed, at the same time, by said bottom end of said lowered tubular valve rod so as to make the quantitative chamber incommunicable

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  • Chemical & Material Sciences (AREA)
  • Dispersion Chemistry (AREA)
  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Containers And Packaging Bodies Having A Special Means To Remove Contents (AREA)

Description

APM M, w67 RYUHCH: MIZUGUCHI 3,3%,459
QUANTITATIVE JETTING MEANS FOR A PRESSURED lNJECTOR-RESERVOIR 2 Sheets-Sheet l Filed Oct. 2l,
ERE
Ei l f 4 f l r INVENTOR:
RYUICHI MIZUGUCIH yi M B95? RYUICH! wzuGUcHi 3,333,635@
QUANTITATIVE JETTING MEANS FOR A PRESSURED INJECTOR-RESERVOIR 2 Sheets-Shea?d 2 n@ w M M w INVEN TOR:
RYUICI'II MIZUGUCHI by: v
A ttorney United States Patent O 3,313,459 QUANTITATIVE JE'ITING MEANS FOR A PRESSURED INJECTORRESERVOIR Ryuich Mizuguchi, Tokyo, Japan, assigner to Mitaui Valve Co., Ltd., Tokyo, Japan Filed Oct. 21, 1965, Ser. No. 500,039 4 Ciaims. (Cl. Z22-402.20)
This invention relates to improvements in a quantitative jetting means for a pressured injector-reservoir and has as an object the provision of a quantitative jetting means of the kind described having a simple structure, which may be cheap to produce and reliable in use.
Briefly stated in accordance with one aspect of this invention, there is provided a quantitative jetting means for a pressured injector-reservoir, comprising a reservoir, a quantitative chamber, a deformable semi-spherical member, and a jetting member. The reservoir is adapted to contain a pressured uid and closed fluid-tightly by a lid. The quantitative chamber is formed in the central part of and downwards protruded from the lid. The deformable semi-spherical member is made of an elastic material, placed on a single and opened bottom of the quantitative chamber and provided with a central perforation for communicating the interior of the quantitative cham ber with the reservoir through a suction pipe. The jett-ing member is fixed on a tubular valve rod having a bottom end adapted to move vertically inside the quantitative chamber. The valve rod is adapted to be held by the lid duid-tightly and to communicate the interior of the quantitative chamber with the atmosphere through the tubular valve rod and the jetting member when the tubular valve rod is lowered in the quantitative chamber. The perforation is adapted to be closed by the bottom end of the lowered tubular valve end and at the same time with the last-named communication so as to make the quantitative chamber incommunicable from the reservoir.
The invention will be better understood and other objects and additional advantages of the invention will become apparent upon perusal of the following description taken in conjunction with the drawings, in which:
FIG. l is a vertical sectional view of a quantitative jetting means with parts removed, embodying this invention;
FIG. 2 shows the same in the jetting position; and
FIGS. 3, 4, and 5 similar views t0 FIG. l, but showing modifications of the quantitative jetting means in accordance with this invention, respectively.
Referring more particularly to FIGS. l and 2, the preferred embodiment of this invention will now be described; however, this description Will be understood to be illustrative of the invention and not as limiting it to the particular structure shown and described. There is a reservoir 8 having a top opening. `On the top end 11 of the reservoir 8 is placed a top ange 9 of a lid. A fluidtight gasket 10 is inserted therebetween. A downwards protruded cylinder 4 is formed in the center of the lid integrally with the top flange 9. A suction pipe 7 is attached inside a downward bore extended downwards from an opened bottom of the cylinder 4. The inside space of the cylinder 4 constitutes a quantitative chamber 5 which is communicated with the inside of the reservoir 8 through a central hole 6 of the bottom of the cylinder 4 and the suction pipe 7. A semi-spherical member 1 having an annular ange 2 and a central perforation 3 and made of an elastic material such as a natural or artificial rubber or a synthetic resin is placed on the bottom of the cylinder 4. A retaining sleeve 25 is fitted inside the cylinder 4 so as to keep the ange 2 on the bottom of the cylinder 4, and serves to adjust the volume of the quantitative chamber S. A valve rod 13 is formed with a top open 3,313,459 Patented Apr. 11, 1967 cylindrical passage 18, a valve body 14, and an invertedly frustro-conical bottom 15. The cylindrical passage 18 is provided with a lateral perforation 19. The valve body 14 is adapted to slide vertically on the inner surface of the retaining sleeve 25. The invertedly frustro-conical bottom 15 is adapted to bear down the semi-Spherical member 1 when the valve rod 13 is lowered. A gasket `17 is placed around the valve rod 13 and on the top ange 9 so as to keep the quantitative chamber 5 tluidntight. The gasket 17, the top liange 9 and the gasket 10 are covered and kept in place by a retaining member 12 having a central hole and a skirt adapted to anchor the retaining member 12 in an annular neck groove 24 formed in the outer surface of the reservoir 8. The Valve rod 13 is adapted to pass through the central hole of the retaining member 12 vertically slidably and the lateral perforation 19 of the cylindrical passage 1S of the tubular valve rod 13 is arranged to be shiftable between an upper position or inactive position where the cylindrical passage 18 is communicated with the atmosphere through the lateral perforation 19 and a lower position or a active position where the cylindrical passage 1S is communicated with the interior of the quantitative chamber 5 through the lateral perforation 19. A jetting member 20 is fixed on a central block 22 protruded from an elastic covering member 21. The skirt of the covering member 21 is engaged with the retaining member 12 also around the neck `groove 24. The central block 22 is fixed on the top of the tubular valve rod 13 in such a manner that the cylindrical passage 1S is always communicated with the jetting member 20.
In operation, the jetting member 20 usually kept in the upper position by virtue of the elasticity of the covering member 21 is manually pushed down so as to shift the lateral perforation 19 from the upper inactive position to the lower active position and bear down the semi-spherical member 1 by the invertedly frustro-conical bottom 15 as shown in FIG. 2. When the valve rod 13 is thus lowered and the cylindrical passage 18 is brought into communication with the quantitative chamber 5 through the lateral perforation 19, a predetermined quantity of a pressured liquid or a gas confined in the quantitative chamber 5 is je'tted through the jetting member 20 by the action of the pressure preliminarily given thereto. In this position, the semi-spherical member 1 is deformed by the invertedly frustro-conical bottom 16 of the Valve rod 13 and the central perforation 3 of the former is perfectly closed by the latter so that the quantitative chamber 5 is made completely incommunicable from the inside of the reservoir 8.
When the jetting member 20 is released, it is restored to the original upper position by the elastic action of the covering member 21 so as to lift the tubular valve rod 13 from the lower position to the upper position. Accordingly the lateral perforation 19 is shifted above the retaining member 12 and the invertedly frustro-conical bottom I16 is disengaged from the semi-spherical member 1 so that the quantitative chamber 5 is made incommunicable with the cylindrical passage 18 but instead thereof communicated with the inside of the reservoir 8.
In another embodiment shown in FIG. 3, the covering member 21 is omitted, the elastic action for resto-ring the jetting member 20 being left to a spiral spring 23 arranged between the jetting member 20 and the retaining member 12. In this embodiment, the retaining sleeve 25 is also omitted. Meantime, an annular groove 28 is provided -along the bottom end of the peripheral wall of the quantitative chamber 5 in which the flange 2 of the semi-spherical member 1 is inserted.
In the modications shown in FIGS. 4 and 5, a coil spring 23 is arranged below the retaining member 12 pce in lieu of the spiral spring 23 used in the preceding ernbodiment. To this end, an outward ilange is formed integrally with the valve rod 13. The coil spring 23 is compressed between the outward ange and an inward flange formed in the inside wall of the quantitative chamber 5. Such an arrangement as shown in FIG. 4 is prein case Where it is necessary that the volume of the quantitative chamber 5 is small in which, for example, a perfume is to be contained. There is shown, in addition, a concave bottom end 16' of the valve rod 13. In the modification shown in FIG. 5, the top flange 9 of the cylinder 4 is provided with a central shoulder, on which the gasket 17 is accommodated. The coil spring 23 is compresed between the outward flange and an inner lid placed on the gasket 17.
Although the invention has been particularly shown and described, it is contemplated that various changes and modifications may be made without departing from the scope thereof as indicated by the following claims.
What is claimed as new and desired to be secured by Letters Patent of the United States is:
1. A quantitative jetting means for a pressured injectorreservoir, comprising a reservoir adapted to contain a pressured fluid and closed duid-tightly by a lid, a quantitative chamber formed in the central part of and downwards protruded from said lid, a deformable semi-spherical member made of an elastic material, placed on a single and opened bottom of said quantitative chamber and provided with a central perforation for communicating the interior of said quantitative chamber with said reservoir through a suction pipe, and a jetting member `fixed on a tubular valve rod having a bottom end adapted to move vertically inside said quantitative chamber, said tubular valve rod being adapted to be held by said lid duid-tightly and to communicate said interior of said quantitative chamber with the atmosphere through said tubular valve rod and said jetting member when said tubular valve rod is lowered `in said quantitative chamber, and said perforation being adapted to be closed, at the same time, by said bottom end of said lowered tubular valve rod so as to make the quantitative chamber incommunicable from said reservoir.
2. A quantitative jetting means for a pressured injectorreservoir as claimed in claim 1, in which a retaining sleeve is arranged along the inside peripheral wall of said quantitative chamber for retaining a ange of said semi-spherical member in place and for adjusting the volume of said quantitative chamber.
3. A quantitative jetting means for a pressured injectorreservoir as claimed in claim 1, in which said bottom end of said vertically movable valve rod is invertedly frustroconical in shape and adapted to engage with said semispherieal member to such an extent that the central part of the latter becomes reversely concave elastically so as to more completely close said perforation.
4, A quantitative jetting means for a pressured injectorreservoir as claimed in claim 1, in which said bottom end of said vertically movable valve rod is concave in shape so as to more completely close said perforation.
References Cited by the Examiner UNITED STATES PATENTS 289,447 12/'1883 Rich 222--511r 2,725,161 11/1955 Browning 222--514 X 2,973,123 2/1961 Rousset. 3,019,947 2/*1962 Gorman. 3,123,261 3/1964 Gorman.
3,178,078 4/1965 Wittke 239-579 X RAPHAEL M. LUPO, Primary Examiner.

Claims (1)

1. A QUANTITATIVE JETTING MEANS FOR A PRESSURIZED INJECTORRESERVOIR, COMPRISING A RESERVOIR ADAPTED TO CONTAIN A PRESSURED FLUID AND CLOSED FLUID-TIGHTLY BY A LID, A QUANTITATIVE CHAMBER FORMED IN THE CENTRAL PART OF AND DOWNWARDS PROTRUDED FROM SAID LID, A DEFORMABLE SEMI-SPHERICAL MEMBER MADE OF AN ELASTIC MATERIAL, PLACED ON A SINGLE AND OPENED BOTTOM OF SAID QUANTITATIVE CHAMBER AND PROVIDED WITH A CENTRAL PERFORATION FOR COMMUNICATING THE INTERIOR OF SAID QUANTITATIVE CHAMBER WITH SAID RESERVOIR THROUGH A SUCTION PIPE, AND A JETTING MEMBER FIXED ON A TUBULAR VALVE ROD HAVING A BOTTOM END ADAPTED TO MOVE VERTICALLY INSIDE SAID QUANTITATIVE CHAMBER, SAID TUBULAR VALVE ROD BEING ADAPTED TO BE HELD BY SAID LID FLUID-TIGHTLY AND TO COMMUNICATE SAID INTERIOR OF SAID QUANTITATIVE CHAMBER WITH THE ATMOSPHERE THROUGH SAID TUBULAR VALVE ROD AND SAID JETTING MEMBER WHEN SAID TUBULAR VALVE ROD IS LOWERED IN SAID QUANTITATIVE CHAMBER, AND SAID PERFORATION BEING ADAPTED TO BE CLOSED, AT THE SAME TIME, BY SAID BOTTOM END OF SAID LOWERED TUBULAR VALVE ROD SO AS TO MAKE THE QUANTITATIVE CHAMBER INCOMMUNICABLE FROM SAID RESERVOIR.
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Cited By (19)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3596800A (en) * 1968-02-13 1971-08-03 Taisho Iketani Device for automatically and periodically spraying pressurized fluid
US3613728A (en) * 1969-09-29 1971-10-19 Valve Corp Of America Diaphragm-actuated aerosol valve
US3684185A (en) * 1970-11-13 1972-08-15 Avon Prod Inc Valve actuator
US3813013A (en) * 1972-06-27 1974-05-28 Risdon Mfg Co Aerosol metering valve
US4187963A (en) * 1978-09-22 1980-02-12 The Continental Group, Inc. Adapter ring for dispensing overcap
US6039306A (en) * 1998-01-07 2000-03-21 Precision Valve Corporation Aerosol valve
US6089256A (en) * 1997-09-03 2000-07-18 Bespak Plc. Metering valves for pressurized dispensing containers
US6517009B2 (en) 1997-12-25 2003-02-11 Gotit Ltd. Automatic spray dispenser
US20030101993A1 (en) * 1998-02-23 2003-06-05 Warby Richard John Drug delivery devices
US20030230603A1 (en) * 2002-06-17 2003-12-18 Smith Jeremy P. Metering valve for aerosol container
US20080135584A1 (en) * 2003-02-07 2008-06-12 Bio-Del Limited Metering Valves for Dispensers
US20080173835A1 (en) * 2007-01-23 2008-07-24 Tomassetti Louis D Flow regulator in a compressed gas container
US20080265198A1 (en) * 2004-08-11 2008-10-30 Warby Richard J Metering Valves for Dispensers
JP2010208675A (en) * 2009-03-11 2010-09-24 Maruichi Valve Co Ltd Quantitative valve for aerosol
US20130270294A1 (en) * 2010-12-02 2013-10-17 Toyo Aerosol Industry Co., Ltd. Aerosol Container For Dispensing Plural Kinds Of Liquids
US20140131396A1 (en) * 2012-11-09 2014-05-15 The Procter & Gamble Company Spray Devices
US20170305645A1 (en) * 2010-08-23 2017-10-26 Silgan Dispensing Systems Corporation Aerosol actuators
US20190185250A1 (en) * 2016-06-20 2019-06-20 Kind Consumer Limited A pressurised container
US11466815B2 (en) 2017-10-06 2022-10-11 Black & Decker Inc. Hydrogen fuel canister

Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US289447A (en) * 1883-12-04 Device for emptying bottles
US2725161A (en) * 1951-08-16 1955-11-29 Browning John Powder can and dispenser therefor
US2973123A (en) * 1957-04-18 1961-02-28 Sparklets Ltd Fluid dispensing means
US3019947A (en) * 1959-11-05 1962-02-06 Sterling Drug Inc Metered valve construction
US3123261A (en) * 1964-03-03 gorman
US3178078A (en) * 1961-12-29 1965-04-13 Sterling Drug Inc Metered valve construction

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US289447A (en) * 1883-12-04 Device for emptying bottles
US3123261A (en) * 1964-03-03 gorman
US2725161A (en) * 1951-08-16 1955-11-29 Browning John Powder can and dispenser therefor
US2973123A (en) * 1957-04-18 1961-02-28 Sparklets Ltd Fluid dispensing means
US3019947A (en) * 1959-11-05 1962-02-06 Sterling Drug Inc Metered valve construction
US3178078A (en) * 1961-12-29 1965-04-13 Sterling Drug Inc Metered valve construction

Cited By (29)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3596800A (en) * 1968-02-13 1971-08-03 Taisho Iketani Device for automatically and periodically spraying pressurized fluid
US3613728A (en) * 1969-09-29 1971-10-19 Valve Corp Of America Diaphragm-actuated aerosol valve
US3684185A (en) * 1970-11-13 1972-08-15 Avon Prod Inc Valve actuator
US3813013A (en) * 1972-06-27 1974-05-28 Risdon Mfg Co Aerosol metering valve
US4187963A (en) * 1978-09-22 1980-02-12 The Continental Group, Inc. Adapter ring for dispensing overcap
US6089256A (en) * 1997-09-03 2000-07-18 Bespak Plc. Metering valves for pressurized dispensing containers
US6095182A (en) * 1997-09-03 2000-08-01 Bespak Plc Metering valves for pressurised dispensing containers
US6517009B2 (en) 1997-12-25 2003-02-11 Gotit Ltd. Automatic spray dispenser
US6540155B1 (en) 1997-12-25 2003-04-01 Gotit Ltd. Automatic spray dispenser
US6039306A (en) * 1998-01-07 2000-03-21 Precision Valve Corporation Aerosol valve
US20030101993A1 (en) * 1998-02-23 2003-06-05 Warby Richard John Drug delivery devices
US20110010939A1 (en) * 1998-02-23 2011-01-20 Richard John Warby Drug Delivery Devices
US6978916B2 (en) * 2002-06-17 2005-12-27 Summit Packaging Systems, Inc. Metering valve for aerosol container
US20030230603A1 (en) * 2002-06-17 2003-12-18 Smith Jeremy P. Metering valve for aerosol container
US20030230602A1 (en) * 2002-06-17 2003-12-18 Smith Jeremy P. Metering valve for aerosol container
US6832704B2 (en) * 2002-06-17 2004-12-21 Summit Packaging Systems, Inc. Metering valve for aerosol container
US20080135584A1 (en) * 2003-02-07 2008-06-12 Bio-Del Limited Metering Valves for Dispensers
US7997458B2 (en) * 2003-02-07 2011-08-16 Consort Medical Plc Metering valves for dispensers
US7997459B2 (en) 2004-08-11 2011-08-16 Consort Medical Plc Metering valves for dispensers
US20080265198A1 (en) * 2004-08-11 2008-10-30 Warby Richard J Metering Valves for Dispensers
US20080173835A1 (en) * 2007-01-23 2008-07-24 Tomassetti Louis D Flow regulator in a compressed gas container
JP2010208675A (en) * 2009-03-11 2010-09-24 Maruichi Valve Co Ltd Quantitative valve for aerosol
US20170305645A1 (en) * 2010-08-23 2017-10-26 Silgan Dispensing Systems Corporation Aerosol actuators
US10421598B2 (en) * 2010-08-23 2019-09-24 Silgan Dispensing Systems Corporation Aerosol actuators
US20130270294A1 (en) * 2010-12-02 2013-10-17 Toyo Aerosol Industry Co., Ltd. Aerosol Container For Dispensing Plural Kinds Of Liquids
US9469468B2 (en) * 2010-12-02 2016-10-18 Toyo Aerosol Industry Co., Ltd. Aerosol container for dispensing plural kinds of liquids
US20140131396A1 (en) * 2012-11-09 2014-05-15 The Procter & Gamble Company Spray Devices
US20190185250A1 (en) * 2016-06-20 2019-06-20 Kind Consumer Limited A pressurised container
US11466815B2 (en) 2017-10-06 2022-10-11 Black & Decker Inc. Hydrogen fuel canister

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