US3040774A - Fluid dispenser - Google Patents

Fluid dispenser Download PDF

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Publication number
US3040774A
US3040774A US694220A US69422057A US3040774A US 3040774 A US3040774 A US 3040774A US 694220 A US694220 A US 694220A US 69422057 A US69422057 A US 69422057A US 3040774 A US3040774 A US 3040774A
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passage
fluid
diaphragm
plug
dispenser
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US694220A
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Nyyrikki K Stenberg
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Fischer and Porter Co
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Fischer and Porter Co
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    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F1/00Treatment of water, waste water, or sewage
    • C02F1/68Treatment of water, waste water, or sewage by addition of specified substances, e.g. trace elements, for ameliorating potable water
    • C02F1/685Devices for dosing the additives
    • C02F1/686Devices for dosing liquid additives
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T137/00Fluid handling
    • Y10T137/8593Systems
    • Y10T137/8597Main line as motive fluid for follower-type feeder

Definitions

  • This invention relates to a fluid dispenser. More particularly, it relates to a device for admixing an additive fluid to a main stream of fluid.
  • the device in accordance with this invention can be used, for example, to add relatively small quantities. of a chlorine solution such as sodium hypochlorite to a water supply line.
  • a chlorine solution such as sodium hypochlorite
  • a water supply line There is great need for such a device in the field of home water supply systems where there is a possibility that the source of water may be contaminated.
  • other additives such as fluorides can readily be introduced to a water supply line by the structure provided by this invention.
  • the dispenser of this invention is particularly advantageous due to the simplicity of its construction and the simplicity and effectiveness of its operation.
  • the additive fluid can readily be introduced to the dispenser without the necessity for any disassembly. As the flow of the main stream of fluid increases, the rate of introduction of the additive fluid increases. Effective operation is achieved without the danger of the dispenser becoming plugged.
  • FIGURE 1 is a vertical section through a dispenser in accordance with this invention.
  • FIGURE 2 is a top plan view of the dispenser of FIG- URE 1;
  • FIGURE 3 is a horizontal section taken on the plane indicated by the lines 33 in FIGURE 1.
  • a dispenser 2 in accordance with this invention has a body 4 having a passage 6 adapted to carry a stream of fluid such as, for example, water.
  • An inlet pipe 7 and a discharge pipe 8 are threadably connected to body 4 for the introduction and withdrawal of fluid, respectively, to and from passage 6.
  • a diagonal gate partition 9 extends upwardly from the bottom of passage 6 to a point above pipes 7 and 8.
  • gate 19 has a downwardly extending pin 12 which engages a corresponding opening 14- in partition 9.
  • Base 16 of gate rests on the top of partition 9 and has a cutaway portion indicated at 13 which, when spanning partition 9, permits the flow of fluid through passage 6.
  • Gate 14 ⁇ has a head 20 with a key slot 22 to facilitate the turning of gate 10 so as to adjust the cutaway portion 18 to vary the rate of flow of fluid through passage 6.
  • a cap 24- has an opening 26 which embraces head 20 and is secured to body 4 by means of screws 28.
  • the joint between cap 24 and body 4 is made fluid tight by means of a ring gasket 30.
  • ring gaskets 32 and sheet gasket 34 are assured by ring gaskets 32 and sheet gasket 34.
  • Body 4 is additionally provided with an aspirator passage 40 having a passage portion 42 leading from passage 6, a throat portion 44 and a flared portion 46. Aspirator passage it; is controlled by a valve structure indicated at 47.
  • Valve structure 47 has a valve seat member 48 which provides a valve seat at 50 which has overlying it a valve gasket 52 against which a valve 54 is seated.
  • a ring gasket 56 seals valve seat member 48 to body 4- and the seat member is held in position by means of screws 58.
  • Valve 54 is attached to a stem 69 which, in turn, is secured to a knob 62 by means of a screw 64.
  • a compression coil spring 66 surrounds stem 60 and has its ends abutting against knob 62 and a gasket 68 which is seated against valve seat member 48. Spring 66 acts to bias valve 54 into the closed position.
  • knob 62 is pushed inwardly against spring 66, fluid can discharge through aspirator passage 4i into passage 76 in valve seat member 48 and thence into passage 72 formed in body 4 and out to the atmosphere.
  • a casing member '76 is bolted to body 4 through flange 78 by means of bolts indicated at 30 and together with body 4- forms a chamber.
  • a gasket 82 is employed to make the connection between member '76 and body 4 fluid tight.
  • Flange 78 at its inner edge, engages an enlarged annular rim 82 of an expandible and contractible diaphragm 84 of, for example, resilient material such as rubber or polyethylene and which, as shown in FIGURE 1, is in the form of a bellows.
  • diaphragm 84 is in fluid communication with passage 6 by means of a cutout portion 86 at the inner edge of flange 78 and a passage indicated at 83 in body 4 connecting the throat 44 of aspirator passage 40 to the lower face of body 4.
  • the diaphragm 84 separates the chamber formed by casing member '76 and body 4 into two separate portions, one of which portions, as will be evident, acts as a reservoir for the additive fluid.
  • Body 4 has a downwardly extending partial ring mem ber 92 which lies within diaphragm 84 and acts to limit the upward travel of the diaphragm 84.
  • Member 92 surrounds a thirnble-shaped porous plug 94 and is secured by a pressed fit in an opening 96 in body 4.
  • the plug 94 may be any porous material having pores capillary in nature and being suitably resistant to corrosion by the fluids employed, for example, porous ceramic ware such as of unglazed porcelain, aluminum oxide, silicon dioxide, other porous stones and carborundum.
  • a passage 98 in body 4 connects the downstream side of passage 6 to opening and the interior of plug 94.
  • diaphragm 84 In order to fill the interior of diaphragm 84 with the additive fluid, for example, sodium hypochlorite, body! is provided with a passage me which runs through an upper extension member 104- Which is adapted to receive a hose 196.
  • the hose 1% leads downwardly to a non-transparent open topped container 10% containing the desired fluid, the hose 106 being immersed in the fluid.
  • container 108 has been reduced in size disproportionately in order to permit it being shown.
  • body 4 Adjacent the lower end of passage 102, body 4 has concentric sealing rings 110, 112 and 114. Sealing ring 112 extends downwardly beyond ring 114 and, in turn, ring extends downwardly beyond ring 112.
  • a check Patented June 26, 1962 3 valve 116 of a resilient material such as rubber is seated on a flange 118 which is provided with openings 12% for the passage of a fluid. After filling, the fluid Within diaphragm 84 forces check valve 116 upwardly first against ring 110 and then successively against rings 112 and 114 as the pressure increases.
  • body 4 is provided with a vent opening 124 which leads downwardly to the interior of diaphragm 84.
  • a removable plug 126 is used to block opening 124.
  • the bulk of the dispenser can be formed of synthetic resins such as suitably rigid polyviuylchloride, phenolic or rubber base styrene resins. Similarly, metals such as stainless steel can be employed. The materials will, as a practical matter, be selected for convenience of manufacture and depending on the fluids to be used.
  • valve 54 With a stream of fluid, for example water, flowing into passage 6 from pipe 7, knob 62 is forced inwardly to move valve 54 off its seat and permit fluid to flow through aspirator passage 40 and to the atmosphere through passages 70 and '72.
  • the flow of fluid through aspirator passage 40 causes a reduction in pressure at the exterior surface of diaphragm 84 incident to the fluid connection provided by cutout portion 86 in flange '78 and passage 88.
  • This results in the expansion of diaphragm 84 which, in turn, causes a reduction of pressure within diaphragm 84 and fluid to flow from container 108 through tube 106, passage 1G2, openings 120 and into the interior of diaphragm S4.
  • porous plug 94 prevents any appreciable amount of liquid from passing from passages 6 and 98 into the interior of diaphragm 84.
  • a dispenser for supplying an additive fluid to a main stream of fluid which comprises: a body having a passage for carrying a main stream of fluid and means in said passage for providing a pressure drop, a chamber adjacent said body, a diaphragm separating said chamber into a reservoir portion for containing an additive fluid and a second portion, said reservoir portion being in fluid communication with said passage on the downstream side of said means, and a porous plug having pores capillary in 'nature separating said reservoir portion and said passage,
  • said second portion being in fluid communication with the passage on the upstream side of said means.
  • a dispenser for supplying an additive fluid to a main stream of fluid which comprises: a body having a passage for carrying a main stream of fluid and gate means in said passage for providing a pressure drop, a diaphragm having aninterior side and an exterior side, the interior side forming with the body a reservoir for an additive fluid which is in fluid communication with said passage on the downstream side of the gate means, a porous plug having pores capillary in nature positioned between the said reservoir and the passage and a casing surrounding the diaphragm, the exterior side of the diaphragm being in fluid communication with said passage on the upstream side of the gate.
  • a dispenser for supplying an additive fluid to a main stream of fluid which comprises: a body having a passage for carrying a main stream of fluid and a gate in said passage for providing a pressure drop, means forming a chamber adjacent said body, a diaphragm separating said chamber into a reservoir portion for containing an additive fluid and a second portion, said reservoir portion being in fluid communication with said passage on the downstream side of the gate, and a porous plug having pores capillary in nature separating said reservoir portion and said passage, said body having an aspirator passage having a throat and having its inlet end connected to the first mentioned passage upstream of said gate, a valve in said aspirator passage downstream of said throat, a third passage leading from said throat to the second portion of said chamber, a fourth passage for the admission of said additive fluid into the reservoir portion of said chamber responsive to a reduction in pressure produced by the flow of fluid said aspirator passage and a valve controlling said fourth passage to prevent the discharge of fluid therethrough.
  • a dispenser in accordance with claim 5 in which the plug is thimble-shaped having its open end in communication with the passage adapted to carry a main stream of fluid.
  • a dispenser forsupplying an additive fluid to a main stream of fluid which comprises: a body having a passage for carrying a main stream of fluid and a gate in said passage for providing a pressure drop, :1 diaphragm having an interior side and an exterior side, said interior side forming with the body a reservoir for an additive fluid which is influid communication with said passage on the'downstream side of the gate, a porous plug having pores capillary in nature between the interior of the diaphragm and the passage and a casing surrounding the diaphragm, said body having an aspirator passage having a throat and having its inlet end connected to the first mentioned passage upstream of said gate, a valve in said aspirator passage downstream of said throat and a third passage leading from said throat to the exterior side of said diaphragm, a fourth passage for the admission of said additive fluid into said reservoir responsive to a reduction in pressure produced by the flow of fluid in said aspirator passage and a valve controlling said fourth passage to prevent the discharge of fluid therethrough.

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  • Chemical & Material Sciences (AREA)
  • Health & Medical Sciences (AREA)
  • Medicinal Chemistry (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Hydrology & Water Resources (AREA)
  • Engineering & Computer Science (AREA)
  • Environmental & Geological Engineering (AREA)
  • Water Supply & Treatment (AREA)
  • Organic Chemistry (AREA)
  • Feeding, Discharge, Calcimining, Fusing, And Gas-Generation Devices (AREA)

Description

June 26, 1962 Filed Nov. 4, 1957 N. K. STENBERG 3,040,774
FLUID DISPENSER 2 Sheets-Sheet 1 FIG. I.
INVENTOR.
NYYRIKKI K. STENBERG BZWMYW ATTORNEYS June 26, 1962 N. K. STENBERG 3,040,774
FLUID DISPENSER Filed Nov. 4, 1957 2 Sheets-Sheet 2 FIG. 3
INVENTOR.
NE YRIKKI K. STENBERG ATTORNEYS 3,040,774 FLUID DTSPENSER Nyyriidd K. Stenberg, Roslyn, Pa, assignor to Fischer & Porter Company, Hatboro, Pa, a corporation oi Pennsylvania Filed Nov. 4, 1%7, Ser. No. 694,229 12 (Ilaims. (Cl. 137564.5)
This invention relates to a fluid dispenser. More particularly, it relates to a device for admixing an additive fluid to a main stream of fluid.
The device in accordance with this invention can be used, for example, to add relatively small quantities. of a chlorine solution such as sodium hypochlorite to a water supply line. There is great need for such a device in the field of home water supply systems where there is a possibility that the source of water may be contaminated. Similarly, other additives such as fluorides can readily be introduced to a water supply line by the structure provided by this invention.
The dispenser of this invention is particularly advantageous due to the simplicity of its construction and the simplicity and effectiveness of its operation. The additive fluid can readily be introduced to the dispenser without the necessity for any disassembly. As the flow of the main stream of fluid increases, the rate of introduction of the additive fluid increases. Effective operation is achieved without the danger of the dispenser becoming plugged.
These and other advantages of the dispenser in accordance with this invention will become obvious from a reading of the following description in conjunction with the drawings in which:
FIGURE 1 is a vertical section through a dispenser in accordance with this invention;
FIGURE 2 is a top plan view of the dispenser of FIG- URE 1;
FIGURE 3 is a horizontal section taken on the plane indicated by the lines 33 in FIGURE 1.
Referring to FIGURES 1 through 3, a dispenser 2 in accordance with this invention has a body 4 having a passage 6 adapted to carry a stream of fluid such as, for example, water. An inlet pipe 7 and a discharge pipe 8 are threadably connected to body 4 for the introduction and withdrawal of fluid, respectively, to and from passage 6.
A diagonal gate partition 9 extends upwardly from the bottom of passage 6 to a point above pipes 7 and 8. A
gate 19 has a downwardly extending pin 12 which engages a corresponding opening 14- in partition 9. Base 16 of gate rests on the top of partition 9 and has a cutaway portion indicated at 13 which, when spanning partition 9, permits the flow of fluid through passage 6.
Gate 14} has a head 20 with a key slot 22 to facilitate the turning of gate 10 so as to adjust the cutaway portion 18 to vary the rate of flow of fluid through passage 6.
A cap 24- has an opening 26 which embraces head 20 and is secured to body 4 by means of screws 28. The joint between cap 24 and body 4 is made fluid tight by means of a ring gasket 30. Similarly, fluid tightness between cap 24 and gate 10 is assured by ring gaskets 32 and sheet gasket 34.
It will be appreciated that the rate of flow of fluid through chamber '6 is readily controlled by means of the proper positioning of gate 10. It will further be noted r e- EC that gate 16 causes a pressure drop which will vary as the square of the flow.
Body 4 is additionally provided with an aspirator passage 40 having a passage portion 42 leading from passage 6, a throat portion 44 and a flared portion 46. Aspirator passage it; is controlled by a valve structure indicated at 47. Valve structure 47 has a valve seat member 48 which provides a valve seat at 50 which has overlying it a valve gasket 52 against which a valve 54 is seated. A ring gasket 56 seals valve seat member 48 to body 4- and the seat member is held in position by means of screws 58.
Valve 54 is attached to a stem 69 which, in turn, is secured to a knob 62 by means of a screw 64. A compression coil spring 66 surrounds stem 60 and has its ends abutting against knob 62 and a gasket 68 which is seated against valve seat member 48. Spring 66 acts to bias valve 54 into the closed position. When knob 62 is pushed inwardly against spring 66, fluid can discharge through aspirator passage 4i into passage 76 in valve seat member 48 and thence into passage 72 formed in body 4 and out to the atmosphere.
A casing member '76 is bolted to body 4 through flange 78 by means of bolts indicated at 30 and together with body 4- forms a chamber. A gasket 82 is employed to make the connection between member '76 and body 4 fluid tight. Flange 78, at its inner edge, engages an enlarged annular rim 82 of an expandible and contractible diaphragm 84 of, for example, resilient material such as rubber or polyethylene and which, as shown in FIGURE 1, is in the form of a bellows. The exterior of diaphragm 84 is in fluid communication with passage 6 by means of a cutout portion 86 at the inner edge of flange 78 and a passage indicated at 83 in body 4 connecting the throat 44 of aspirator passage 40 to the lower face of body 4. The diaphragm 84 separates the chamber formed by casing member '76 and body 4 into two separate portions, one of which portions, as will be evident, acts as a reservoir for the additive fluid.
Body 4 has a downwardly extending partial ring mem ber 92 which lies within diaphragm 84 and acts to limit the upward travel of the diaphragm 84. Member 92 surrounds a thirnble-shaped porous plug 94 and is secured by a pressed fit in an opening 96 in body 4. The plug 94 may be any porous material having pores capillary in nature and being suitably resistant to corrosion by the fluids employed, for example, porous ceramic ware such as of unglazed porcelain, aluminum oxide, silicon dioxide, other porous stones and carborundum. A passage 98 in body 4 connects the downstream side of passage 6 to opening and the interior of plug 94.
In order to fill the interior of diaphragm 84 with the additive fluid, for example, sodium hypochlorite, body! is provided with a passage me which runs through an upper extension member 104- Which is adapted to receive a hose 196. As shown, the hose 1% leads downwardly to a non-transparent open topped container 10% containing the desired fluid, the hose 106 being immersed in the fluid. As shown in FIGURE 1, container 108 has been reduced in size disproportionately in order to permit it being shown.
Adjacent the lower end of passage 102, body 4 has concentric sealing rings 110, 112 and 114. Sealing ring 112 extends downwardly beyond ring 114 and, in turn, ring extends downwardly beyond ring 112. A check Patented June 26, 1962 3 valve 116 of a resilient material such as rubber is seated on a flange 118 which is provided with openings 12% for the passage of a fluid. After filling, the fluid Within diaphragm 84 forces check valve 116 upwardly first against ring 110 and then successively against rings 112 and 114 as the pressure increases.
As shown in FIGURE 2, body 4 is provided with a vent opening 124 which leads downwardly to the interior of diaphragm 84. A removable plug 126 is used to block opening 124.
As shown in FIGURE 1, the bulk of the dispenser can be formed of synthetic resins such as suitably rigid polyviuylchloride, phenolic or rubber base styrene resins. Similarly, metals such as stainless steel can be employed. The materials will, as a practical matter, be selected for convenience of manufacture and depending on the fluids to be used.
Operation:
With a stream of fluid, for example water, flowing into passage 6 from pipe 7, knob 62 is forced inwardly to move valve 54 off its seat and permit fluid to flow through aspirator passage 40 and to the atmosphere through passages 70 and '72. The flow of fluid through aspirator passage 40 causes a reduction in pressure at the exterior surface of diaphragm 84 incident to the fluid connection provided by cutout portion 86 in flange '78 and passage 88. This results in the expansion of diaphragm 84 which, in turn, causes a reduction of pressure within diaphragm 84 and fluid to flow from container 108 through tube 106, passage 1G2, openings 120 and into the interior of diaphragm S4. During this operation porous plug 94 prevents any appreciable amount of liquid from passing from passages 6 and 98 into the interior of diaphragm 84.
7 It is to be understood that the time required for filling diaphragm 84 is in the order of minutes, whereas, it takes several weeks for the additive to flow through plug 94 by capillary action and itno passage 6. When the interior of diaphragm S4 is adequately filled, knob 62 is released permittingspring 66 to seat valve 54. .The pressure of the fluid within diaphragm 8'4 exerted against check valve 116 causes it to be urged against one or more of rings 110, 112 and '114. After the filling operation, it is desirable to vent airfrom the upper portion of the interior of diaphragm 84 by loosening plug 126.
As fluid flows through passage 6 at a rate con-trolled by gate 10, there is, as previously pointed out, a pressure drop across gate 10. The higher pressure of the upstream side of gate'lll is exerted through passage 49, passage 88 and cutout portion'86 against the outer surface of diaphragm 84. This causes diaphragm 84 to force fluid through plug 94 and into the downstream side of passage 6 against the lower pressure of the downstream side of passage 6. Since the pressure drop across gate 10 varies as the square of the flow while the flow through plug 94 is more nearly linear with the pressure drop, the additive fluid will be supplied at a slightly higher dosage for large rates of flow than for small rates of flow. This is advantageous since a higher rate of flow of the main stream of fluid results in the fluid remaining in the system for a shorter period of time.
It is not desired to be limited except as set forth in the following claims.
What is claimed is:
l. A dispenser for supplying an additive fluid to a main stream of fluid which comprises: a body having a passage for carrying a main stream of fluid and means in said passage for providing a pressure drop, a chamber adjacent said body, a diaphragm separating said chamber into a reservoir portion for containing an additive fluid and a second portion, said reservoir portion being in fluid communication with said passage on the downstream side of said means, and a porous plug having pores capillary in 'nature separating said reservoir portion and said passage,
said second portion being in fluid communication with the passage on the upstream side of said means.
2. A dispenser in accordance with claim 1 in which the plug is a porcelain plug.
3. A dispenser for supplying an additive fluid to a main stream of fluid which comprises: a body having a passage for carrying a main stream of fluid and gate means in said passage for providing a pressure drop, a diaphragm having aninterior side and an exterior side, the interior side forming with the body a reservoir for an additive fluid which is in fluid communication with said passage on the downstream side of the gate means, a porous plug having pores capillary in nature positioned between the said reservoir and the passage and a casing surrounding the diaphragm, the exterior side of the diaphragm being in fluid communication with said passage on the upstream side of the gate.
4. A dispenser in accordance with claim 3 in which the plug is a porcelain plug.
5. A dispenser for supplying an additive fluid to a main stream of fluid which comprises: a body having a passage for carrying a main stream of fluid and a gate in said passage for providing a pressure drop, means forming a chamber adjacent said body, a diaphragm separating said chamber into a reservoir portion for containing an additive fluid and a second portion, said reservoir portion being in fluid communication with said passage on the downstream side of the gate, and a porous plug having pores capillary in nature separating said reservoir portion and said passage, said body having an aspirator passage having a throat and having its inlet end connected to the first mentioned passage upstream of said gate, a valve in said aspirator passage downstream of said throat, a third passage leading from said throat to the second portion of said chamber, a fourth passage for the admission of said additive fluid into the reservoir portion of said chamber responsive to a reduction in pressure produced by the flow of fluid said aspirator passage and a valve controlling said fourth passage to prevent the discharge of fluid therethrough.
6. A dispenser in accordance with claim 5 in which the plug is a porcelain plug.
7. A dispenser in accordance with claim 5 in which the plug is thimble-shaped having its open end in communication with the passage adapted to carry a main stream of fluid.
8. A dispenser in accordance with claim 7 in which the plug is a porcelain plug.
9. A dispenser forsupplying an additive fluid to a main stream of fluid which comprises: a body having a passage for carrying a main stream of fluid and a gate in said passage for providing a pressure drop, :1 diaphragm having an interior side and an exterior side, said interior side forming with the body a reservoir for an additive fluid which is influid communication with said passage on the'downstream side of the gate, a porous plug having pores capillary in nature between the interior of the diaphragm and the passage and a casing surrounding the diaphragm, said body having an aspirator passage having a throat and having its inlet end connected to the first mentioned passage upstream of said gate, a valve in said aspirator passage downstream of said throat and a third passage leading from said throat to the exterior side of said diaphragm, a fourth passage for the admission of said additive fluid into said reservoir responsive to a reduction in pressure produced by the flow of fluid in said aspirator passage and a valve controlling said fourth passage to prevent the discharge of fluid therethrough.
10. A dispenser in accordance with claim 9 in which the plug is a porcelain'plug.
, 11. A dispenser in accordancewith claim 9 in which the plug is thimble-shaped having its open end in communication with the passage adapted to carry a main stream of fluid.
12. A dispenser in accordance with claim 11 in which the plug is a porcelain plug.
References Cited in the file of this patent UNITED STATES PATENTS Paine Dec. 15, 1936 6 McGill July 9, 1943 Sheets Mar. 25, 1947 Clarkson July 18, 1950 White et a1. June 17, 1952 Mills Nov. 18, 1952 Klosse Apr. 12,1960
FOREIGN PATENTS Great Britain July 29, 1953
US694220A 1957-11-04 1957-11-04 Fluid dispenser Expired - Lifetime US3040774A (en)

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Cited By (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3095892A (en) * 1959-03-24 1963-07-02 Laing David Harkness Fluid metering device
US3166096A (en) * 1961-10-03 1965-01-19 Lang Helmut Dispenser for liquid additives to fluid streams
US3187769A (en) * 1961-05-19 1965-06-08 Diversey Corp Mixing apparatus
US3779261A (en) * 1972-03-10 1973-12-18 A Zygiel Method and apparatus for mixing fluids
US3867290A (en) * 1973-06-04 1975-02-18 Charles A Mackey Apparatus for chemical treatment of swimming pools
US3901629A (en) * 1972-10-18 1975-08-26 Andre Robert Chancholle Aspirator-ejector adapted to aspirate and to supply two fluids without mixing them
USRE30301E (en) * 1972-03-10 1980-06-10 The Cornelius Company Beverage mixing and dispensing apparatus
US4240465A (en) * 1979-05-08 1980-12-23 Interfarm Corporation Medicator construction
US5957153A (en) * 1998-09-18 1999-09-28 Frey Turbodynamics, Ltd. Oscillating dual bladder balanced pressure proportioning pump system
US6056013A (en) * 1994-07-25 2000-05-02 Nok Corporation Accumulator, process and apparatus for making the same
WO2010030227A1 (en) * 2008-09-12 2010-03-18 3R Innovations Teknik Handelsbolag Method and apparatus for adding a liquid additive to a pressurized liquid flowing in a conduit
US20140360606A1 (en) * 2013-06-10 2014-12-11 Robert James Law Passive Injection of a Chemical Solution into a Process Stream

Citations (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1037824A (en) * 1909-07-14 1912-09-03 Smidth & Co As F L Apparatus for filling bags with cement, &c.
US1202050A (en) * 1914-07-31 1916-10-24 Harrison Safety Boiler Works Suction-meter.
US2064627A (en) * 1934-02-02 1936-12-15 Nat Aluminate Corp Liquid feeder
US2323341A (en) * 1938-10-17 1943-07-06 Elgin Softener Corp Proportional chemical feeder
US2417994A (en) * 1942-09-14 1947-03-25 St Paul Foundry Company Valve
US2515394A (en) * 1946-02-28 1950-07-18 Clarkson Alick Pressure gauge stabilizer
US2601216A (en) * 1948-12-18 1952-06-17 Taco Heaters Inc Automatic air valve
US2618510A (en) * 1946-05-25 1952-11-18 Lindley E Mills Fluid proportioning apparatus
GB694946A (en) * 1949-08-25 1953-07-29 Nat Coal Board A new or improved liquid proportioner
US2932317A (en) * 1954-05-06 1960-04-12 Klosse Ernst Devices for admixing liquids

Patent Citations (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1037824A (en) * 1909-07-14 1912-09-03 Smidth & Co As F L Apparatus for filling bags with cement, &c.
US1202050A (en) * 1914-07-31 1916-10-24 Harrison Safety Boiler Works Suction-meter.
US2064627A (en) * 1934-02-02 1936-12-15 Nat Aluminate Corp Liquid feeder
US2323341A (en) * 1938-10-17 1943-07-06 Elgin Softener Corp Proportional chemical feeder
US2417994A (en) * 1942-09-14 1947-03-25 St Paul Foundry Company Valve
US2515394A (en) * 1946-02-28 1950-07-18 Clarkson Alick Pressure gauge stabilizer
US2618510A (en) * 1946-05-25 1952-11-18 Lindley E Mills Fluid proportioning apparatus
US2601216A (en) * 1948-12-18 1952-06-17 Taco Heaters Inc Automatic air valve
GB694946A (en) * 1949-08-25 1953-07-29 Nat Coal Board A new or improved liquid proportioner
US2932317A (en) * 1954-05-06 1960-04-12 Klosse Ernst Devices for admixing liquids

Cited By (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3095892A (en) * 1959-03-24 1963-07-02 Laing David Harkness Fluid metering device
US3187769A (en) * 1961-05-19 1965-06-08 Diversey Corp Mixing apparatus
US3166096A (en) * 1961-10-03 1965-01-19 Lang Helmut Dispenser for liquid additives to fluid streams
USRE30301E (en) * 1972-03-10 1980-06-10 The Cornelius Company Beverage mixing and dispensing apparatus
US3779261A (en) * 1972-03-10 1973-12-18 A Zygiel Method and apparatus for mixing fluids
US3901629A (en) * 1972-10-18 1975-08-26 Andre Robert Chancholle Aspirator-ejector adapted to aspirate and to supply two fluids without mixing them
US3867290A (en) * 1973-06-04 1975-02-18 Charles A Mackey Apparatus for chemical treatment of swimming pools
US4240465A (en) * 1979-05-08 1980-12-23 Interfarm Corporation Medicator construction
US6056013A (en) * 1994-07-25 2000-05-02 Nok Corporation Accumulator, process and apparatus for making the same
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WO2010030227A1 (en) * 2008-09-12 2010-03-18 3R Innovations Teknik Handelsbolag Method and apparatus for adding a liquid additive to a pressurized liquid flowing in a conduit
US20140360606A1 (en) * 2013-06-10 2014-12-11 Robert James Law Passive Injection of a Chemical Solution into a Process Stream
US9533270B2 (en) * 2013-06-10 2017-01-03 Robert James Law Passive injection of a chemical solution into a process stream

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