US2241732A - Apparatus for making proporational liquid additions to measured quantities of liquid - Google Patents

Apparatus for making proporational liquid additions to measured quantities of liquid Download PDF

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US2241732A
US2241732A US297774A US29777439A US2241732A US 2241732 A US2241732 A US 2241732A US 297774 A US297774 A US 297774A US 29777439 A US29777439 A US 29777439A US 2241732 A US2241732 A US 2241732A
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liquid
pump
tank
conduit
meter
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US297774A
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Frederick E Olson
Peter G Mcara
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    • CCHEMISTRY; METALLURGY
    • C10PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
    • C10LFUELS NOT OTHERWISE PROVIDED FOR; NATURAL GAS; SYNTHETIC NATURAL GAS OBTAINED BY PROCESSES NOT COVERED BY SUBCLASSES C10G, C10K; LIQUEFIED PETROLEUM GAS; ADDING MATERIALS TO FUELS OR FIRES TO REDUCE SMOKE OR UNDESIRABLE DEPOSITS OR TO FACILITATE SOOT REMOVAL; FIRELIGHTERS
    • C10L1/00Liquid carbonaceous fuels
    • C10L1/003Marking, e.g. coloration by addition of pigments
    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05DSYSTEMS FOR CONTROLLING OR REGULATING NON-ELECTRIC VARIABLES
    • G05D11/00Control of flow ratio
    • G05D11/02Controlling ratio of two or more flows of fluid or fluent material
    • G05D11/13Controlling ratio of two or more flows of fluid or fluent material characterised by the use of electric means
    • G05D11/131Controlling ratio of two or more flows of fluid or fluent material characterised by the use of electric means by measuring the values related to the quantity of the individual components
    • G05D11/132Controlling ratio of two or more flows of fluid or fluent material characterised by the use of electric means by measuring the values related to the quantity of the individual components by controlling the flow of the individual components
    • 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
    • Y10T137/2496Self-proportioning or correlating systems
    • Y10T137/2514Self-proportioning flow systems
    • Y10T137/2516Interconnected flow displacement elements
    • 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
    • Y10T137/85978With pump
    • Y10T137/86035Combined with fluid receiver

Definitions

  • the present invention relates to an apparatus for making proportional liquid additions tomeasured quantities of combustible liquid-petroleum products such as gasoline, kerosene, distillate and fuel oil, and may be particularly employed in the dyeing of these products. It has particular utility in the dyeing of these products Where dyed products are used as a means of control in taxation methods.
  • combustible liquid-petroleum products such as gasoline, kerosene, distillate and fuel oil
  • the second objection is that the dyeing proposal would require additional storage space; forinstance, a petroleum distributor who usually distributes six kinds of petroleum products, of which three can be used for taxable as well as tax exempt purposes, would have to increase his storage space by 50%.
  • the object of the present invention is to overcome these difiiculties by providing an apparatus which dyes the products completely automatically, so that it is impossible to tamper with the dyeing mechanism and so that it isinsured that every gallon of product measured is recorded and dyed automatically.
  • Figure 2 is an enlarged section of part of the apparatus taken along the line 22 of. Figured and showing the pump mechanism in elevation, Figure 3 is a section taken along the line 3-3 showing the pump mechanism in plan,
  • Figure 4 isa sectional elevation of the pump itself.
  • I indicates a meter such. as is used commonly in petroleum refineries and storage yards for measuring the liquid in gallons as it is removed from a tank. It has an inlet and an inlet conduit 2 as Well as an outlet and outlet conduit 3.
  • a recording mechanism i carried'ina housingb isdriven by a vertical shaft 6 which has a worm gear 1 at its upper end.
  • the wormgear l meshes with a gear on the recording mechanism. Flow of liquid through themeter causes the shaft 6 to rotate andits revolutions are recorded on the recording mechanism.
  • Meters of this kind are well known. They all have at least one vertical shaftcorresponding tothe shaft 5 which transmits the motion of the measuring mechanism of the meter to the recording mechanism.
  • the vertical shaft 6 is operatively connected with a pump 9 enclosed in tank 8 which surrounds a length of the outlet conduit 3.
  • the pump is shown in Figures 2 and 3 and in detail in Figure 4.
  • the operative connection of the vertical shaft with the pump is efiected by means of a horizontal gear wheel Iii rigidly mounted on the shaft 6 and rotating with it.
  • Gear wheel Iii meshes with a vertical toothed wheel II which is fixed on the end of shaft I2.
  • the shaft I2 is supported at one end by the bearing bracket I3 which is mounted on the meter and at the other by a bearing and packing gland arrangement I4 in one wall of the tank 8.
  • the shaft I2 for convenience in assembling the apparatus can be formed in two sections joined by a coupling I5.
  • a solid wheel I6 is mounted on the end of the shaft I2 within the tank 8. It consists of a rim I1 and a solid central portion Iii which has a diametrical slot IS.
  • a threaded rod 20 extends through the rim within the slot and to the opposite side of the rim. It carries a lug 2I which is threaded on the rod. The lug 2! is movable in the slot by rotation of the rod 25).
  • the rod 2% is, in turn, kept from rotation when the lug has been adjusted to the desired position by means of a spring 22 which has one end fixed by a rivet or stud, 23. The other end bears against the nut-like formation 24 on the end of the rod 20.
  • a piston rod 25 is connected to the lug 2
  • liquid entering the meter I by the inlet conduit 2 drives the measuring mechanism of the meter and the motion of the measuring mechanism is transmitted by the vertical shaft 6 to the recording mechanism.
  • Rotation of the vertical shaft 6 causes, by means of the horizontal gear wheel IE! and vertical toothed Wheel I I,the rotation of the shaft I2.
  • the shaft I2 in turning carries with it the solid wheel IS and the lug 2
  • the piston rod 25 is connected to wrist pin 25' in a collar 55 which is clamped to the piston 48 by two set screws i! one of which engages the rounded surface of the piston and the other oppositely disposed, bears against the surface 5! formed by a small cut out portion 52 on the piston.
  • This pump construction is of a type which is common- 1y used as an injection pump. For purposes of this invention its essential feature is that it must be of simple construction and easy operation. The power required to operate it and overcome the friction of the various parts of the pump must by reason of the pump construction be such that the driving of the pump will not interfere with the accuracy of the recording mechanism by causing wear and undue strain upon the parts of the latter.
  • the pump 9 has an inlet 3
  • the outlet 32 has connecting means consisting of coupling 33, elbow 3d and pipe 35 which connect itwith the conduit 3.
  • the pipe 35 in Figure 2 is partially broken away in order to illustrate the drive mechanism for the pump. It extends into a packing gland 36 which leads to the inside of conduit 3 where it is connected with a nozzle 31 whose opening 38 opens down stream of the outlet from the meter.
  • the pump or injector is of simple construction being composed of a base portion SI, a cylinder portion in its action.
  • the base portion is carried by a bracket 63 ( Figures 2 and 3) which is welded or otherwise secured to the inside of the tank 8.
  • the central part of the base portion is formed with a cylindrical cup shaped space 64 whose bottom has a hole 65 and provides a seat for the ball valve 43.
  • the hole 65 opens into a smaller cylindrical space 66 whose bottom provides a seat for the ball valve 61 over the inlet opening 3I of the pump.
  • An annular ring 68 is secured around the inlet opening and holds the screen 6
  • the cylindrical space 64 has an outwardly flared opening 69 in its vertical wall and the cylinder it fits into the wider end of it.
  • the cylinder is tightly held over the opening by the collar I0 which engages a flange II on the cylinder.
  • the upper end of the space 64 is threaded to receive the outlet valve portion 62 which consists of three successive cylindrical portions the uppermost being of greatest diameter and the lowermost of least diameter.
  • the bottom of the uppermost portion 'EI forms a valve seat for the ball valve 45 over the mouth of the intermediate one I2.
  • the bottom of the latter is the valve seat for the ball valve id.
  • the upper wall of the cylindrical portion II is threaded to accommodate the outlet coupling 33.
  • the tank 3 completely encloses the pump and that portion of the shaft I2 which carries a solid wheel I5. It also encloses a length of the outlet conduit 3 from the meter as well as the conduit 35 from the outlet of the pump to the outlet of the meter.
  • the tank has an inlet opening 53 which is connected by a pipe 54 with a dye reservoir 55.
  • the tank is kept filled with dye from the reservoir and the dye in the tank is injected into the conduit 3 by the action of the pump through its inlet 3
  • the tank 8 is formed with opposed openings 55 and 55 to accommodate the conduit 3.
  • the connection between the walls of the tank and the conduit 3 are fluid-tight. They can be made so by welding or as shown in Figure 1 by means of packing glands 5'; which. are threaded into the openings 55 and 56.
  • conduit 3 is connected to the outlet meter by a flange 59 which is coupled to a corresponding flange to on the meter itself.
  • shaft I2 is formed in two sections one of which carries the toothed wheel I I and the other being connected to the pump 9. Accordingly, a known meter can be easily adapted to form part of the apparatus of this invention. The only additions which are necessary are the horizontal gear wheel I! and the bearing bracket I3 both of which can be easily attached to the meter mechanism.
  • the reservoir 55 can be dispensed with and the openings 53 on the tank 8 can be formed through its top wall in such a manner that when closed it can be sealed with a tamper-proof seal.
  • the complete apparatus including the recording mechanism of the meter is then small and compact and can be enclosed in a casing which in turn can be sealed with a tamper-proof seal so that access to the coupling 15 and the tank 3 is possible only by authorized persons.
  • Apparatus for making measured additions of a secondary liquid to measured quantities of a primary liquid comprising a meter for the primary liquid provided with an outlet and a conduit leading therefrom, a closed tank ffor the secondary liquid enclosing a portion of said conduit, a pump mounted and wholly contained in said tank, a non-slipping drive from said meter to said pump, whereby flow of the primary liquid through said meter operates said pump, means provided in said drive and wholly within said tank for adjusting the ratio between the speed of said pump and that of said drive, and a connection Wholly within said tank between the outlet of said pump and the portion of said conduit enclosed by said tank.

Description

F. E. OLSON ET AL 2,241,732 2 ADDITIONS May 13, 1941.
APPARATUS FOR MAKING PROPORTIONAL LIQUI TO MEASURED QUANTITIES OF LIQUID Filed OCT. 3, 1939 59 la 25' 7T ll- 295 1 in. m Illlifllll w m m M E FF l In W\\\\\\\ A% Patented May 13, 1 941 APPARATUS FOR MAKENG PROPGRTIONAL LIQUIDADDITIONS TO MEASURED QUAN- TETIES 0F LIQUID Frederick E. Olson and Peter G. Moria-a, Regina, Saskatchewan, Canada Application October 3, 1939, Serial No. 297,774 In Canada July 14, 1939 '1- Claim. (Q1. l37165) The present invention relates to an apparatus for making proportional liquid additions tomeasured quantities of combustible liquid-petroleum products such as gasoline, kerosene, distillate and fuel oil, and may be particularly employed in the dyeing of these products. It has particular utility in the dyeing of these products Where dyed products are used as a means of control in taxation methods.
It has been proposed to dye petroleum products as a means of establishing a more efiicient meth- 001 of control over the problem of tax exemption where these products are used for specified purposes notably agricultural purposes.
Various methods havebeen proposed for dealing with the problem hitherto resulting from the exemption from taxation of petroleum products which are to be used for certain purposes, notably agricultural purposes. For instance, it'has been proposed that persons using gasoline for the purposes in question, be given .a rebate thereon according to the amount used for the specified purposes. Such a method has proven unsatisfactory because of the obvious difiiculty in obtainingreliable information onthe amounts so used. The only available information is that provided by the person who is buying and using the products. A further method involving'the useof coupons, permits and the like, by which anestimate is made of the amount of the products which could be used b-y'a' given person forthe'tax exempt purposes, and coupons are issued entitling that person to the exemption. In this case similar uncontrollable and substantial abuses have arisen, the coupons being usedfor the purchase of other articles sold bythe vendors of petroleum 'products.
The most-recent proposal to overcome these disadvantages is to dyethe products. Up to the present dyeing has been used solely for distinguishing one grade of product from another. Rigid control has not been necessary and, for example, it hasbeen satisfactory if a given qua-m tity of dye is added to a given quantity of gasoline by an operator or by means of a machine controlled by an operator.
This has given rise to two serious 'main objections insofar as dyeing for taxation is concerned. According to the taxation method using dyed petroleum products the authorities are empowered to inspect the fuel being used for any internal combustion engine or other purpose to determine if it is dyed or not. They, can punish a person who uses coloured fuel for non-permitted purposes. It will be appreciated that accordingto this system it is possible for an operator to dispose of the dye for a given quantity of product without dyeing it and sell the product tax-free in the uncoloured state. It can then be used for any desired purpose.
The second objection is that the dyeing proposal would require additional storage space; forinstance, a petroleum distributor who usually distributes six kinds of petroleum products, of which three can be used for taxable as well as tax exempt purposes, would have to increase his storage space by 50%. I
The object of the present invention is to overcome these difiiculties by providing an apparatus which dyes the products completely automatically, so that it is impossible to tamper with the dyeing mechanism and so that it isinsured that every gallon of product measured is recorded and dyed automatically.
It is a further object of the invention to provide an apparatus which can be attached tot-he outflow of any of the existing storagetanks and can even be-appliedconveniently to retail gasoline pumps so that the dyeing of the gasoline or similar products does not require the provision of any extra storage space.
The invention is illustrated in the accompanying drawing, which shows an embodiment thereof in which Figure 1 is an elevation of the whole apparatus with the dye reservoir partially broken away,
Figure 2 is an enlarged section of part of the apparatus taken along the line 22 of. Figured and showing the pump mechanism in elevation, Figure 3 is a section taken along the line 3-3 showing the pump mechanism in plan,
' Figure 4 isa sectional elevation of the pump itself.
Referring to the drawing, I indicates a meter such. as is used commonly in petroleum refineries and storage yards for measuring the liquid in gallons as it is removed from a tank. It has an inlet and an inlet conduit 2 as Well as an outlet and outlet conduit 3. A recording mechanism i carried'ina housingb isdriven by a vertical shaft 6 which has a worm gear 1 at its upper end. The wormgear l meshes with a gear on the recording mechanism. Flow of liquid through themeter causes the shaft 6 to rotate andits revolutions are recorded on the recording mechanism. Meters of this kind are well known. They all have at least one vertical shaftcorresponding tothe shaft 5 which transmits the motion of the measuring mechanism of the meter to the recording mechanism.
The vertical shaft 6 is operatively connected with a pump 9 enclosed in tank 8 which surrounds a length of the outlet conduit 3. The pump is shown in Figures 2 and 3 and in detail in Figure 4. The operative connection of the vertical shaft with the pump is efiected by means of a horizontal gear wheel Iii rigidly mounted on the shaft 6 and rotating with it. Gear wheel Iii meshes with a vertical toothed wheel II which is fixed on the end of shaft I2. The shaft I2 is supported at one end by the bearing bracket I3 which is mounted on the meter and at the other by a bearing and packing gland arrangement I4 in one wall of the tank 8. The shaft I2 for convenience in assembling the apparatus can be formed in two sections joined by a coupling I5.
Referring to Figures 2 and 3 a solid wheel I6 is mounted on the end of the shaft I2 within the tank 8. It consists of a rim I1 and a solid central portion Iii which has a diametrical slot IS. A threaded rod 20 extends through the rim within the slot and to the opposite side of the rim. It carries a lug 2I which is threaded on the rod. The lug 2! is movable in the slot by rotation of the rod 25). The rod 2% is, in turn, kept from rotation when the lug has been adjusted to the desired position by means of a spring 22 which has one end fixed by a rivet or stud, 23. The other end bears against the nut-like formation 24 on the end of the rod 20. A piston rod 25 is connected to the lug 2| by means of a nut and bolt connection 26. The piston rod is pivotally connected at its other end to the piston 39 of the pump 9.
In operation liquid entering the meter I by the inlet conduit 2 drives the measuring mechanism of the meter and the motion of the measuring mechanism is transmitted by the vertical shaft 6 to the recording mechanism. Rotation of the vertical shaft 6 causes, by means of the horizontal gear wheel IE! and vertical toothed Wheel I I,the rotation of the shaft I2. The shaft I2 in turning carries with it the solid wheel IS and the lug 2| being eccentric of the solid wheel moves the pis ton rod 25 which reciprocates the piston 39.
The piston rod 25 is connected to wrist pin 25' in a collar 55 which is clamped to the piston 48 by two set screws i! one of which engages the rounded surface of the piston and the other oppositely disposed, bears against the surface 5! formed by a small cut out portion 52 on the piston. This pump construction is of a type which is common- 1y used as an injection pump. For purposes of this invention its essential feature is that it must be of simple construction and easy operation. The power required to operate it and overcome the friction of the various parts of the pump must by reason of the pump construction be such that the driving of the pump will not interfere with the accuracy of the recording mechanism by causing wear and undue strain upon the parts of the latter.
The pump 9 has an inlet 3| and an outlet 32. The outlet 32 has connecting means consisting of coupling 33, elbow 3d and pipe 35 which connect itwith the conduit 3. The pipe 35 in Figure 2 is partially broken away in order to illustrate the drive mechanism for the pump. It extends into a packing gland 36 which leads to the inside of conduit 3 where it is connected with a nozzle 31 whose opening 38 opens down stream of the outlet from the meter.
Referring to Figure 4 it will be seen that the pump or injector is of simple construction being composed of a base portion SI, a cylinder portion in its action.
40 and an outlet valve portion 62. The base portion is carried by a bracket 63 (Figures 2 and 3) which is welded or otherwise secured to the inside of the tank 8. The central part of the base portion is formed with a cylindrical cup shaped space 64 whose bottom has a hole 65 and provides a seat for the ball valve 43. The hole 65 opens into a smaller cylindrical space 66 whose bottom provides a seat for the ball valve 61 over the inlet opening 3I of the pump. An annular ring 68 is secured around the inlet opening and holds the screen 6| over it.
The cylindrical space 64 has an outwardly flared opening 69 in its vertical wall and the cylinder it fits into the wider end of it. The cylinder is tightly held over the opening by the collar I0 which engages a flange II on the cylinder.
The upper end of the space 64 is threaded to receive the outlet valve portion 62 which consists of three successive cylindrical portions the uppermost being of greatest diameter and the lowermost of least diameter. The bottom of the uppermost portion 'EI forms a valve seat for the ball valve 45 over the mouth of the intermediate one I2. The bottom of the latter is the valve seat for the ball valve id. The upper wall of the cylindrical portion II is threaded to accommodate the outlet coupling 33.
The tank 3 completely encloses the pump and that portion of the shaft I2 which carries a solid wheel I5. It also encloses a length of the outlet conduit 3 from the meter as well as the conduit 35 from the outlet of the pump to the outlet of the meter. The tank has an inlet opening 53 which is connected by a pipe 54 with a dye reservoir 55. The tank is kept filled with dye from the reservoir and the dye in the tank is injected into the conduit 3 by the action of the pump through its inlet 3|, its outlet 32 and pipe 35. Because the nozzle 3'? on the pipe 35 is directed so that the opening 38 faces down stream of the fluid flowing through the conduit 3, it aids the pump By this arrangement the fluid flowing through the conduit 3 has a venturi action at the opening 33 and thus lessens the power which is required to drive the pump.
The tank 8 is formed with opposed openings 55 and 55 to accommodate the conduit 3. The connection between the walls of the tank and the conduit 3 are fluid-tight. They can be made so by welding or as shown in Figure 1 by means of packing glands 5'; which. are threaded into the openings 55 and 56.
Referring to Figure 1 it will be seen that the conduit 3 is connected to the outlet meter by a flange 59 which is coupled to a corresponding flange to on the meter itself. Likewise, the shaft I2 is formed in two sections one of which carries the toothed wheel I I and the other being connected to the pump 9. Accordingly, a known meter can be easily adapted to form part of the apparatus of this invention. The only additions which are necessary are the horizontal gear wheel I!) and the bearing bracket I3 both of which can be easily attached to the meter mechanism.
In small installations the reservoir 55 can be dispensed with and the openings 53 on the tank 8 can be formed through its top wall in such a manner that when closed it can be sealed with a tamper-proof seal. The complete apparatus including the recording mechanism of the meter is then small and compact and can be enclosed in a casing which in turn can be sealed with a tamper-proof seal so that access to the coupling 15 and the tank 3 is possible only by authorized persons.
We claim:
Apparatus for making measured additions of a secondary liquid to measured quantities of a primary liquid comprising a meter for the primary liquid provided with an outlet and a conduit leading therefrom, a closed tank ffor the secondary liquid enclosing a portion of said conduit, a pump mounted and wholly contained in said tank, a non-slipping drive from said meter to said pump, whereby flow of the primary liquid through said meter operates said pump, means provided in said drive and wholly within said tank for adjusting the ratio between the speed of said pump and that of said drive, and a connection Wholly within said tank between the outlet of said pump and the portion of said conduit enclosed by said tank.
F. E. OLSON. PETER G. NDCARA.
US297774A 1939-07-14 1939-10-03 Apparatus for making proporational liquid additions to measured quantities of liquid Expired - Lifetime US2241732A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2596943A (en) * 1946-03-13 1952-05-13 Milton Roy Co Proportional feed system

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2596943A (en) * 1946-03-13 1952-05-13 Milton Roy Co Proportional feed system

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