US2072442A - Method of and apparatus for controlling the flow of fluids - Google Patents

Method of and apparatus for controlling the flow of fluids Download PDF

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Publication number
US2072442A
US2072442A US5520535A US2072442A US 2072442 A US2072442 A US 2072442A US 5520535 A US5520535 A US 5520535A US 2072442 A US2072442 A US 2072442A
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motor
galvanometer
flow
contacts
fluid
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Collins Ernest Victor
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Delaware Lackawanna & Western
Delaware Lackawanna & Western Coal Co
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Delaware Lackawanna & Western
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Priority to US5520535 priority Critical patent/US2072442A/en
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    • 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
    • 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
    • Y10T137/2531Flow displacement element actuates electrical controller

Definitions

  • This invention relates to flow regulation for fluids and particularly to a method and apparatus adapted to vary the amount of fluid supplied in proportion to the amount required for the treatment of a varying bulk or mass of traveling material.
  • the invention has numerous applications in the practical control of manufacturing operaticns. For the purpose of clarity, it will be described particularly with respect to only one such operation, as an example of its utility and advantages.
  • the surface of the coal is colored, for example by the application of a suitable dyestuif.
  • the familiar blue coal of commerce is thus colored with a solution of ultramarine.
  • a convenient method of application is to supply the solution to the coal as it is delivered from the storage pocket to the car or other means of transportation.
  • the coal as delivered from the pocket varies in quantity as it travels toward the car. It is, therefore, dificult to regulate the supply of liquid so as to properly color the coal Attempted manual operation of the valve controlling the flow of liquid results usually in a considerable loss of relatively expensive material.
  • the invention as hereinafter described aifords a simple solution of the problem of regulating the supply of liquid in accordance with the bulk of the coal which is treated.
  • I utilize a closed electrical circuit including in series two resistance elements of known value.
  • the resistance elements are indicated on the drawing at 5 and 6 and are connected by conductors and 8.
  • Movable contacts preferably in the form of pivoted arms 9 and ill are adapted to engage the resistance elements 5 and 6.
  • the devices embodying the resistance elements and the movable contacts are generally referred to as potentiometers.
  • the movable contact 9 is connected by a conductor i l through a source of low voltage current, preferably a battery l2, and a conductor 53, to one terminal l4 of a galvanometer It.
  • the other ter minal it of the galvanometer is connected by a conductor ll to the movable contact it.
  • Two contacts I 9 and it are provided in the galvanometer and are adapted to be engaged by the needle Ill when the resistances are unbalanced.
  • the particular contact which is engaged at such time depends upon the condition of the circuit.
  • the contact I9 is connected by a conductor ill to one terminal of a relay 22.
  • the contact 2?; of the galvanometer is connected by a conductor 23 with a terminal of a relay 24.
  • the needle it of the galvanometer is connected by a conductor through a source of current of low voltage, preferably a battery 26 and a conductor 2'5 to a common terminal 23 of the relays 22 and it.
  • the relays 22 and 24 are adapted to actuate a three-pole switch 29, one arm 3% of which is adapted to engage either of the contacts .il or 32. Arms 33 and 34 of the switch are adapted to engage contacts 35 and 36.
  • the arm 29 is connected by a conductor 31 to a motor 38 of the reversible type, and the arms 33 and 34 are connected to the motor by a conductor 39.
  • the direction of rotation of the motor depends upon the position of the arms 29, 33 and 34 that is to say, when the contacts 3
  • the shaft 42 of the motor is connected to a valve 43 in a pipe 44 through which the fluid is supplied. Consequently when the motor turns in either direction, the valve 43 is adjusted accordingly.
  • the opposite end of the motor shaft 42 is provided with a worm 45 which engages a worm segment 46 which is secured to the pivoted arm l0, so that the resistance in the circuit is modified as the motor operates to adjust the position of the valve 43.
  • the pivoted arm 9 is connected by a link 41 to a plate 48 pivoted at 49 and adapted to rest upon the material, for example coal, flowing through a chute 59. As the coal passes beneath the plate 48, the position of the pivoted arm 9 is adjusted with respect to the resistance element 5, thus modifying the conditions in the circuit. Movement of the needle l8 of the galvanometer to engage one or the other of the contacts H! or 26 will cause either of the relays 22 or 24 to close the corresponding circuit to the motor 38, thus causing the valve 43 to be adjusted to supply more or less fluid. As the motor rotates, the pivoted arm Ii! is moved until balance is restored in the circuit, whereupon the power circuit is broken by the return of the galvanometer needle 13 to its neutral position. The flow of fluid will then continue at the adjusted rate until the circuit is again disturbed.
  • the coal in the particular application of the invention described flows from the chute 50 onto a shaker 5!, and the fluid from the pipe 44 is discharged thereon, the dye solution for example.
  • the liquid flowing over the coal colors it, and the coal is discharged through a chute 52.
  • the fluid in the pipe 44 is a liquid dye solution, but obviously other liquids and gases may be employed in various applications of the invention, and the flow thereof may be controlled in the manner hereinbefore described.
  • a conduit for the fluid for the fluid, a valve therein, a reversible electric motor to actuate the valve in two directions, circuits adapted to supply current to the motor, a relay controlling the motor circuits and means for actuating the relay comprising resistance elements in series in a closed circuit, a galvanometer, movable arms engaging the resistance elements and connected to the galvanometer and a source of electric current, contacts in the galvanometer and connections between the contacts and the relay including a source of electric current, means adapted to be actuated by variations in quantity of the material to be treated and connected to one of the movable arms, and a connection between the electric motor and the other movable arm, one
  • a conduit for the fluid for the fluid, a valve therein, electrically actuated means for adjusting the valve and means for selectively controlling the electrically actuated means including a galvanometer having means for closing a circuit including said electrically-actuated means, a circuit including variable resistances connected to the galvanometer, means for varying one of the resistances in proportion to variations in the quantity of material and means for varying the other resistance in proportion to the adjustment of the valve, said circuit-closing means of the galvanometer being responsive to movement of the means for varying said one of the resistances.
  • a conduit for the fluid a valve therein, a. reversible electric motor to actuate the valve in two directions, circuits adapted to supply current to the,
  • a relay controlling the motor circuits and means for actuating the relay comprising resistance elements in series in a closed circuit
  • aswitch including a. pair of stationary contacts and a contact movable into engaging position with either of said stationary contacts, movable arms engaging the resistance elements, connections between said stationary contacts of the switch and the relay, means adapted to be actuated by variations in quantity of the material to be treated and connected to one of said movable arms, a connection between the motor and the other movable arm, the movable contact of said switch being actuated in response to variations in the position of the movable arm connected to the means actuated by variations in quantity of the material to be treated to engage one or" said stationary contacts to close a circuit through said" relay, to operate the motor to actuate said valve, and to move the arm connected thereto to vary the resistance with which it engages to create a balanced condition in the circuit including said resistance.

Description

March 2, 1937.
E. v. COLLINS 7 2,072,442
METHOD OF AND APPARATUS FOR CONTROLLING THE FLOW OF FLUIDS Filed Dec. 19. 1955 BY gawk 21w, )o-M I ATTORNEY and yet avoid wastage.
Patented Mar. 2, 1937 warren srarss rarsnr orrice METHQD OF AND APPARATUS FOR CON- TRGLLING THE FLOW OF FLUIDS New Jersey Application December 19, 1935, Serial No. 55,205
3 Claims.
This invention relates to flow regulation for fluids and particularly to a method and apparatus adapted to vary the amount of fluid supplied in proportion to the amount required for the treatment of a varying bulk or mass of traveling material.
The invention has numerous applications in the practical control of manufacturing operaticns. For the purpose of clarity, it will be described particularly with respect to only one such operation, as an example of its utility and advantages.
To preserve the identity of coal derived from a particular source, the surface of the coal is colored, for example by the application of a suitable dyestuif. The familiar blue coal of commerce is thus colored with a solution of ultramarine. A convenient method of application is to supply the solution to the coal as it is delivered from the storage pocket to the car or other means of transportation. The coal as delivered from the pocket varies in quantity as it travels toward the car. It is, therefore, dificult to regulate the supply of liquid so as to properly color the coal Attempted manual operation of the valve controlling the flow of liquid results usually in a considerable loss of relatively expensive material. The invention as hereinafter described aifords a simple solution of the problem of regulating the supply of liquid in accordance with the bulk of the coal which is treated.
It is the object of the invention to provide a method of and apparatus for positively and accurately controlling the flow of a fluid in accordance with the bulk or mass of traveling material to which the fluid is to be applied.
Other objects and advantages of the invention will be apparent as it is better understood by reference to the following specification and the accompanying drawing, which illustrates diagrammatically an apparatus adapted for the practice of the invention, it being understood that in so far as the diagram refers to the treatment of coal it is illustrative merely of an application to which the invention is adapted, and that obvious modifications can be made to permit utilization of the invention for other and analogous purposes.
In carrying out the invention, I utilize a closed electrical circuit including in series two resistance elements of known value. The resistance elements are indicated on the drawing at 5 and 6 and are connected by conductors and 8. Movable contacts, preferably in the form of pivoted arms 9 and ill are adapted to engage the resistance elements 5 and 6. The devices embodying the resistance elements and the movable contacts are generally referred to as potentiometers. The movable contact 9 is connected by a conductor i l through a source of low voltage current, preferably a battery l2, and a conductor 53, to one terminal l4 of a galvanometer It. The other ter minal it of the galvanometer is connected by a conductor ll to the movable contact it. When the resistances are properly balanced, the needle it of the galvanometer remains in neutral posi tion.
Two contacts I 9 and it are provided in the galvanometer and are adapted to be engaged by the needle Ill when the resistances are unbalanced. The particular contact which is engaged at such time depends upon the condition of the circuit.
The contact I9 is connected by a conductor ill to one terminal of a relay 22. The contact 2?; of the galvanometer is connected by a conductor 23 with a terminal of a relay 24. The needle it of the galvanometer is connected by a conductor through a source of current of low voltage, preferably a battery 26 and a conductor 2'5 to a common terminal 23 of the relays 22 and it.
The relays 22 and 24 are adapted to actuate a three-pole switch 29, one arm 3% of which is adapted to engage either of the contacts .il or 32. Arms 33 and 34 of the switch are adapted to engage contacts 35 and 36. The arm 29 is connected by a conductor 31 to a motor 38 of the reversible type, and the arms 33 and 34 are connected to the motor by a conductor 39. The direction of rotation of the motor depends upon the position of the arms 29, 33 and 34 that is to say, when the contacts 3| and 35 are engaged, the motor turns in one direction, and when the contacts 32 and 3B are engaged, it turns in the opposite direction. Power is supplied from any suitable source through conductors and at which are connected to the contacts 3! and 35, and 32 and 36 respectively, thus affording the necessary current to actuate the motor 38 as hereinbefore described.
The shaft 42 of the motor is connected to a valve 43 in a pipe 44 through which the fluid is supplied. Consequently when the motor turns in either direction, the valve 43 is adjusted accordingly. The opposite end of the motor shaft 42 is provided with a worm 45 which engages a worm segment 46 which is secured to the pivoted arm l0, so that the resistance in the circuit is modified as the motor operates to adjust the position of the valve 43.
The pivoted arm 9 is connected by a link 41 to a plate 48 pivoted at 49 and adapted to rest upon the material, for example coal, flowing through a chute 59. As the coal passes beneath the plate 48, the position of the pivoted arm 9 is adjusted with respect to the resistance element 5, thus modifying the conditions in the circuit. Movement of the needle l8 of the galvanometer to engage one or the other of the contacts H! or 26 will cause either of the relays 22 or 24 to close the corresponding circuit to the motor 38, thus causing the valve 43 to be adjusted to supply more or less fluid. As the motor rotates, the pivoted arm Ii! is moved until balance is restored in the circuit, whereupon the power circuit is broken by the return of the galvanometer needle 13 to its neutral position. The flow of fluid will then continue at the adjusted rate until the circuit is again disturbed.
The coal in the particular application of the invention described flows from the chute 50 onto a shaker 5!, and the fluid from the pipe 44 is discharged thereon, the dye solution for example. The liquid flowing over the coal colors it, and the coal is discharged through a chute 52.
In the particular example described, the fluid in the pipe 44 is a liquid dye solution, but obviously other liquids and gases may be employed in various applications of the invention, and the flow thereof may be controlled in the manner hereinbefore described.
Various changes may be made in the form, construction and arrangement of the parts of the apparatus without departing from the invention or sacrificing the advantages thereof.
I claim:
1. In an apparatus for automatically controlling the flow of fluid in proportion to the quantity of material to be treated therewith, a conduit for the fluid, a valve therein, a reversible electric motor to actuate the valve in two directions, circuits adapted to supply current to the motor, a relay controlling the motor circuits and means for actuating the relay comprising resistance elements in series in a closed circuit, a galvanometer, movable arms engaging the resistance elements and connected to the galvanometer and a source of electric current, contacts in the galvanometer and connections between the contacts and the relay including a source of electric current, means adapted to be actuated by variations in quantity of the material to be treated and connected to one of the movable arms, and a connection between the electric motor and the other movable arm, one
of said contacts in the galvanometer being movable in response to variations in the position of the movable arm connected to the means actuated by variations in quantity of the material to be treated to close a. circuit through said relay to operate the motor to actuate said valve and to move the arm connected thereto to vary the resistance with which it engages to create a balanced condition in the circuit including said resistances.
2. In an apparatus for automatically controlling the flow of fluid in proportion to the quan tity of material to be treated therewith, a conduit for the fluid, a valve therein, electrically actuated means for adjusting the valve and means for selectively controlling the electrically actuated means including a galvanometer having means for closing a circuit including said electrically-actuated means, a circuit including variable resistances connected to the galvanometer, means for varying one of the resistances in proportion to variations in the quantity of material and means for varying the other resistance in proportion to the adjustment of the valve, said circuit-closing means of the galvanometer being responsive to movement of the means for varying said one of the resistances.
8. In an apparatus for automatically controlling the flow of fluid in proportion to the quantity of material to be treated therewith, a conduit for the fluid, a valve therein, a. reversible electric motor to actuate the valve in two directions, circuits adapted to supply current to the,
motor, a relay controlling the motor circuits and means for actuating the relay comprising resistance elements in series in a closed circuit,aswitch including a. pair of stationary contacts and a contact movable into engaging position with either of said stationary contacts, movable arms engaging the resistance elements, connections between said stationary contacts of the switch and the relay, means adapted to be actuated by variations in quantity of the material to be treated and connected to one of said movable arms, a connection between the motor and the other movable arm, the movable contact of said switch being actuated in response to variations in the position of the movable arm connected to the means actuated by variations in quantity of the material to be treated to engage one or" said stationary contacts to close a circuit through said" relay, to operate the motor to actuate said valve, and to move the arm connected thereto to vary the resistance with which it engages to create a balanced condition in the circuit including said resistance.
ERNEST VICTOR COLLINS.
US5520535 1935-12-19 1935-12-19 Method of and apparatus for controlling the flow of fluids Expired - Lifetime US2072442A (en)

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2420415A (en) * 1942-10-17 1947-05-13 Leeds & Northrup Co Control system
US2626728A (en) * 1947-02-21 1953-01-27 Omega Machine Company Proportioning device
US2626787A (en) * 1947-02-21 1953-01-27 Omega Machine Company Proportioning device
US2925197A (en) * 1956-10-03 1960-02-16 Carl Schenck Machinenfabrik G Method of and apparatus for feeding liquid to flowing material
US3236605A (en) * 1961-12-18 1966-02-22 Norman A Pierson System for controlling the addition of liquids to refuse
US4187958A (en) * 1978-09-12 1980-02-12 Abex Corporation Flow proportional conveyor drive system

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2420415A (en) * 1942-10-17 1947-05-13 Leeds & Northrup Co Control system
US2626728A (en) * 1947-02-21 1953-01-27 Omega Machine Company Proportioning device
US2626787A (en) * 1947-02-21 1953-01-27 Omega Machine Company Proportioning device
US2925197A (en) * 1956-10-03 1960-02-16 Carl Schenck Machinenfabrik G Method of and apparatus for feeding liquid to flowing material
US3236605A (en) * 1961-12-18 1966-02-22 Norman A Pierson System for controlling the addition of liquids to refuse
US4187958A (en) * 1978-09-12 1980-02-12 Abex Corporation Flow proportional conveyor drive system

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