US998647A - Electromagnetic control system. - Google Patents

Electromagnetic control system. Download PDF

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Publication number
US998647A
US998647A US52492509A US1909524925A US998647A US 998647 A US998647 A US 998647A US 52492509 A US52492509 A US 52492509A US 1909524925 A US1909524925 A US 1909524925A US 998647 A US998647 A US 998647A
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electromagnet
pump
tank
circuit
core
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US52492509A
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Henry L Smith
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General Electric Co
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General Electric Co
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F02COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
    • F02BINTERNAL-COMBUSTION PISTON ENGINES; COMBUSTION ENGINES IN GENERAL
    • F02B1/00Engines characterised by fuel-air mixture compression
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F04POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
    • F04BPOSITIVE-DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS
    • F04B49/00Control, e.g. of pump delivery, or pump pressure of, or safety measures for, machines, pumps, or pumping installations, not otherwise provided for, or of interest apart from, groups F04B1/00 - F04B47/00
    • F04B49/04Regulating by means of floats

Definitions

  • My invention relates to means for controlling electromagnets energized by alternating current, and although capable of wide application relates more particularly to control systems in which the flow of current through an electromagnet must be frequently object of my "invention is to provide a simv Ele and reliable control system in which the ow of current in an electromagnet' may be controlled to the desired extent without using contacts and Without opening the circuit through the electromagnet, which is particularly useful Where an electromagnet must be frequently operated, and which when used in conjunction with a pump for supplying fluid to a tank and with an electromagnet for controlling the action of the pump furnishes a system of control which is particularly desirable where the amount of fluid in .the tank is subjected to frequent and Wide variations.
  • my invention is capable of general application and-may be embodied in many forms of control systems in which the flow of alternating current through an electromagnet is to be controlled, it is of particular value where the flow of current must be frequently varied and for purposesof illustration Ihave shown my invention embodied in a system for automatically controlling the level of Water or other liquid in a tank 1, to 4which the liquid is" supplied through a delivery pipe 2 of a centrifugal pump 3.
  • the impeller ofthe pump may be driven from any suitable source of power Patented July 25, 1911.
  • a continuously running synchronous motor 4 supplied from any suit-able circuit, is connected to the impeller of the pump 3 through gearing, such as the pinion 5 in mesh with a pinion on a bevel gear 6 mounted coaxially with a corresponding bevel gear 7 Vkeyed to the impeller of the pump 3, theV two bevel gears being in meshwith pinions 8, which are rotatably mounted on a cross bar 9 supported on one end of a shaft 10.
  • the gear 6 and pinions 8 will rotate Without producing' any rotation of the impeller of the lpump 3 as long y as the friction disk Ik11 is 'free to turn, but if by any suitable means the friction disk 11. is held stationary, the pinions 8 are also held stationary and transmit the rotation of the gear 6 to the gear 7 and consequently ⁇ the impeller of the pump 3 is driven by the motor 4 whenever the friction disk 11 is held stationary.
  • the motor and gearing constitute a driving mechanism in which holdin-g or releasing the friction disk 11 will Astart and stop the pump.
  • the pump 3 is started and stopped by means of any suitable holding device for the friction disk 11, such as a band brake 12 mounted in. position to engage the friction disk and actuated to grip the disk by 4the core 13 of a Icontrolling electromagnet 14, which is supplied with alternating current through the leads 15 and 16, by which it is connected to any suitable source of alternating current.
  • the pump is started by energizing the electromagnet 111, Whichlifts the core 13 and thereby causes the band brake to grip the friction disk 11, while the pump is stopped' by decreasing the current through the electromagnet to such a point that the magnet is denergized and the core drops,
  • the circuit through the electromagnet 14 is highly inductive, andthere are objections to controlling the electromagnet by opening and closing the circuit, consequently the amount of current which Hows' through the electromagnet 14 is varied to the extent necessary to secure the required control by varying the amount of impedance in the circuit of the electromagnet, the impedance being so proportioned that the current can be cut down to such an amount that the core 13 drops and opens the band brake, thereby leaving the friction disk free to rotate, or
  • Vthe current can be increased to such an amount that the core 13 and brake shoe 12y are lifted into engagement with the disk 11 and hold it with adequate force to enable the motor 4 to drive the pump, this variation being thereby obtained without opening or closing the circuit of the electromagnet.
  • the impedance of the circuit of the electromagnet 14 may be varied in any suitable way and by any suitable form of-variable p inductance, sach as a coil 17 connected in series with the electromagnet 14 in thelead 16 of the supply lcircuit and having an iron core 18 in inductive relation to the coil 17, the coil and core being relatively movable and so proportioned that when in one eX- treme position the inductance of the circuit 'of the electromagnet 14 is so greatthat the current is cut down to such an amount culty is experienced by arcing at separable contacts, the system of control embodying my invention is particularly applicable tor automatic operation, and this result is easily obtained by automatically controlling the position of the core18 with relation to the coil 17.
  • the coil 17 and electromagnet 14 are connected in series and may be energized from any suitable source of valternating current, and in order to make a complete diagram of the connections I have shown diagrammatically an alternator 22 for supplying alternating current to the leads 15 and 1G, the electromagnet- 14 being connected to the alternator 22 to form a closed circuit which contains -a variable inductance formed by the winding17 and core 18.
  • the normal position of the core -18 in relation' tothe coil 17 may be adjusted in any suitable way, such as a turnbuckle or similar device 23 in the connection between the core 18 and the lever 20, by means ol which the relation of the core 18 to the iioat 21 may be varied at will.
  • the core 18 is in such relation to the winding 17 that the impedance ofthe circuit containing the electromagnet 14'is the maximum, and there is not enough lcurrent flowing through the electromagnet 14 to maintain the brake shoe 12in engagement with the friction disk 11, consequently the impeller of the pump 3 is stationary and the driving mechanism is running free.
  • the core 18 is lifted out of the, winding 17, whereupon the impedance in the circuit of the electromagnet 14 is gradually decreased, while at the same time the amount of current flowing through the electromagnet is 'gradually increased.
  • the electromagnet 14 may be energized from the same circuit which supplies the synchronous motor 4.
  • the continuously running synchronous motor is-not a disadvantage, because such a motor acts as a rotary condenser and improves the power factor of the system of distribution.
  • my invention is applicable to any control system in which an alternating current electromagnet is to be ener ized and denergized at Will, and is partlcularly applicable to an automatically controlled system in which the driven member, such as the impeller of the pump 3, is to Abe automatically started and stopped, and

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Structures Of Non-Positive Displacement Pumps (AREA)
  • Control Of Non-Positive-Displacement Pumps (AREA)

Description

H. L. SMITH.
ELEGTROMAGNBTIG CONTROL SYSTEM.
APPLICATION PIL'BD 001227, 1909.
Witnesses:
), il'w Q Inventor:
x Henry l... mitj, QM f b5 9" His oqttorne.
- 'UNITED STATES PATENT OFFICE.
HENRY L. SMITH, OF SCHENECTADY, NEW YORK, ASSIGNOR TO GENERAL ELECTRIC COMPANY, CORPORATION OF NEW YORX.
ELECTROMAG'NETIC CONTROL SYSTEM.
Specification of Letters Patent.
Application filed October 27,1909. Serial No. 524,925. v
To all whom 'it may concern:
Be it known that I, HENRY L.- SMITH, a
' citizen of the United. States, residing at Schenectady, `in the county of Schenectady,
' State of New York, have invented certain new and useful Improvements in Electromagnetic Control Systems, of which the following is a specification.
My invention relates to means for controlling electromagnets energized by alternating current, and although capable of wide application relates more particularly to control systems in which the flow of current through an electromagnet must be frequently object of my "invention is to provide a simv Ele and reliable control system in which the ow of current in an electromagnet' may be controlled to the desired extent without using contacts and Without opening the circuit through the electromagnet, which is particularly useful Where an electromagnet must be frequently operated, and which when used in conjunction with a pump for supplying fluid to a tank and with an electromagnet for controlling the action of the pump furnishes a system of control which is particularly desirable where the amount of fluid in .the tank is subjected to frequent and Wide variations.
My invention will best lbe understood tin connection with the accompanying drawing,
which shows one ofthe various forms in which itmay be embodied and which shows a", mechanism for automatically maintaining a predetermined amount of liquid in the tank, parts of the mechanism being shown in section, and part ofthe electrical connections being diagrammatic. y
Although my invention is capable of general application and-may be embodied in many forms of control systems in which the flow of alternating current through an electromagnet is to be controlled, it is of particular value where the flow of current must be frequently varied and for purposesof illustration Ihave shown my invention embodied in a system for automatically controlling the level of Water or other liquid in a tank 1, to 4which the liquid is" supplied through a delivery pipe 2 of a centrifugal pump 3. The impeller ofthe pump may be driven from any suitable source of power Patented July 25, 1911.
and through any suitable driving mechanism, but in the preferred construction a continuously running synchronous motor 4, supplied from any suit-able circuit, is connected to the impeller of the pump 3 through gearing, such as the pinion 5 in mesh with a pinion on a bevel gear 6 mounted coaxially with a corresponding bevel gear 7 Vkeyed to the impeller of the pump 3, theV two bevel gears being in meshwith pinions 8, which are rotatably mounted on a cross bar 9 supported on one end of a shaft 10.
which extends through the gear 6 and carries on the other end a friction disk 11. In this formof gearing, the gear 6 and pinions 8 will rotate Without producing' any rotation of the impeller of the lpump 3 as long y as the friction disk Ik11 is 'free to turn, but if by any suitable means the friction disk 11. is held stationary, the pinions 8 are also held stationary and transmit the rotation of the gear 6 to the gear 7 and consequently `the impeller of the pump 3 is driven by the motor 4 whenever the friction disk 11 is held stationary. The motor and gearing constitute a driving mechanism in which holdin-g or releasing the friction disk 11 will Astart and stop the pump.
In accordance with my invention, the pump 3 is started and stopped by means of any suitable holding device for the friction disk 11, such as a band brake 12 mounted in. position to engage the friction disk and actuated to grip the disk by 4the core 13 of a Icontrolling electromagnet 14, which is supplied with alternating current through the leads 15 and 16, by which it is connected to any suitable source of alternating current. The pump is started by energizing the electromagnet 111, Whichlifts the core 13 and thereby causes the band brake to grip the friction disk 11, while the pump is stopped' by decreasing the current through the electromagnet to such a point that the magnet is denergized and the core drops,
of engagement -with thefriction disk, thereby permitting the drivin@` mechanism to run free while the impeller orf the pump remains stationary.
The circuit through the electromagnet 14 is highly inductive, andthere are objections to controlling the electromagnet by opening and closing the circuit, consequently the amount of current which Hows' through the electromagnet 14 is varied to the extent necessary to secure the required control by varying the amount of impedance in the circuit of the electromagnet, the impedance being so proportioned that the current can be cut down to such an amount that the core 13 drops and opens the band brake, thereby leaving the friction disk free to rotate, or
Vthe current can be increased to such an amount that the core 13 and brake shoe 12y are lifted into engagement with the disk 11 and hold it with suficient force to enable the motor 4 to drive the pump, this variation being thereby obtained without opening or closing the circuit of the electromagnet.
lThe impedance of the circuit of the electromagnet 14 may be varied in any suitable way and by any suitable form of-variable p inductance, sach as a coil 17 connected in series with the electromagnet 14 in thelead 16 of the supply lcircuit and having an iron core 18 in inductive relation to the coil 17, the coil and core being relatively movable and so proportioned that when in one eX- treme position the inductance of the circuit 'of the electromagnet 14 is so greatthat the current is cut down to such an amount culty is experienced by arcing at separable contacts, the system of control embodying my invention is particularly applicable tor automatic operation, and this result is easily obtained by automatically controlling the position of the core18 with relation to the coil 17. Merely for purposes of illustration, I have shown in the drawingsmeans con-l trolled' by the level ofthe'liquid in the tank 1 tor automatically controlling the amount of inductance in the circuit 'of the electromagnet 14, and in thespecic form of mech'- anism shown the core 18 is Inova-bly mounted in the winding 17, and sudden variations in its position are prevented by means of some suitable damping device, such as a Clash pot 19. The core is connected to one end of a lever 20, which is pivoted to the tank 1 and has the other end connected to a float 21, which moves up and down with changes in the level'of the liquid in the tank l. The float 21 is large enough to move the vcore 18 and the amount of inductance in the circuit of the electromagnet 14 depends upon the level of the liquid in the tank 1, which in turn is dependent on the driven member or impeller ot the pump 3.
The coil 17 and electromagnet 14 are connected in series and may be energized from any suitable source of valternating current, and in order to make a complete diagram of the connections I have shown diagrammatically an alternator 22 for supplying alternating current to the leads 15 and 1G, the electromagnet- 14 being connected to the alternator 22 to form a closed circuit which contains -a variable inductance formed by the winding17 and core 18. i
The normal position of the core -18 in relation' tothe coil 17 may be adjusted in any suitable way, such as a turnbuckle or similar device 23 in the connection between the core 18 and the lever 20, by means ol which the relation of the core 18 to the iioat 21 may be varied at will. c
The operation of the device is as follows:
`With the parts in the position shown in the drawing, the liquid in the tank 1 is at the desired level, the core 18 is in such relation to the winding 17 that the impedance ofthe circuit containing the electromagnet 14'is the maximum, and there is not enough lcurrent flowing through the electromagnet 14 to maintain the brake shoe 12in engagement with the friction disk 11, consequently the impeller of the pump 3 is stationary and the driving mechanism is running free. As the level of 'the liquid in the tank 1 falls, the core 18 is lifted out of the, winding 17, whereupon the impedance in the circuit of the electromagnet 14 is gradually decreased, while at the same time the amount of current flowing through the electromagnet is 'gradually increased. Eventually' a point is reached where the amount of current flowing through the electromagnet 14 is suliicient to lift the core 13, thereby ycausing the band brake to grip the friction disk 11 and prevent further movement of Athe disk 11, whereupon the motor 4 begins to drive the impellerof the pump 3 and more liquid is pumped into the tank 1. As the level of the liquid in the tank rises, and the core 18 returns to the position shown in full lines, the impedance of the circuit increases until the electromagnet 14 is nolonger able to hold the band brake 12 in position to grip the friction disk 11 and the band brake opens up, whereupon the pump stops. This action may be repeated -very rapidly and very frequently without injury to any part of the control circuit, since the circuit of the electromagnet 14 is never opened and there are no contacts to be destroyed by severe arcing.
By properly proportioning the parts` the electromagnet 14 may be energized from the same circuit which supplies the synchronous motor 4. The continuously running synchronous motor is-not a disadvantage, because such a motor acts as a rotary condenser and improves the power factor of the system of distribution.
In its broadest aspect my invention is applicable to any control system in which an alternating current electromagnet is to be ener ized and denergized at Will, and is partlcularly applicable to an automatically controlled system in which the driven member, such as the impeller of the pump 3, is to Abe automatically started and stopped, and
vsince the invention may be embodied in many other forms than that shown and described, I do not desire to limit myself thereto, as various modifications thereof will suggest themselves to those skilled in the art without departing from the spirit and scope of my invention as set forth in the annexed claims.
What I claim as new and desire to secure by Letters Patent of the United States, is-
1. The combination with4 a tank, of a pump for delivering fiuid to said tank, a continuously running motor normally disconnected from the pump, an electromagnet arranged to effect a driving connection between the motor and the pump, an alternating current circuit connected to said electromagnet, and means controlled by the fluid in said tank for automatically varying the impedance of said circuit and thereby controlling said electromagnet.
2. The combination with a tank, a pump for delivering fluid to said tank, a motor, and gearing between said motor and said start and stop said pump, an alternating Y current circuit connected to said electromagnet, a winding connected in series with said electromagnet, an iron core movably mounted in inductive relation to said winding, and means actuated by the fluid in said tank to movesaid core and thereby control said electromagnet.
4. The combination with a tank, a pump for delivering liquid to said tank, and driving mechanism for said pump, of an electromagnet coperating with said mechanism to start and stop said pump, an alternating current circuit connected to said electromagnet, a winding connected in series with said electromagnet, an iron core movably conne'cted in inductive relation `to said winding, and a float in said tank connected to said core to move it relatively to said winding and thereby vary the impedance of said circuit to energize and denergize said electromagnet.
In witness whereof, I have hereunto set my hand this 22nd day of October, 1909.
HENRY L. SMITH.
Witnesses:
HELEN ORFoRn, BENJAMIN B. HULL.
US52492509A 1909-10-27 1909-10-27 Electromagnetic control system. Expired - Lifetime US998647A (en)

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2504174A (en) * 1943-12-17 1950-04-18 Missouri Automatic Contr Corp High-low control for pot-type burners
US2636642A (en) * 1950-03-04 1953-04-28 Consolidation Coal Co Device for controlling flow of finely divided solids
US2733660A (en) * 1956-02-07 Automatic variable speed control
US2754736A (en) * 1951-12-03 1956-07-17 Patrick A Lynn Tractor drawn wheeled implement for destroying wild growth
US3131636A (en) * 1962-06-08 1964-05-05 Western Electric Co Liquid transferring system
US3963376A (en) * 1974-07-12 1976-06-15 Miskin David M Automatic water powered sump drainer

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2733660A (en) * 1956-02-07 Automatic variable speed control
US2504174A (en) * 1943-12-17 1950-04-18 Missouri Automatic Contr Corp High-low control for pot-type burners
US2636642A (en) * 1950-03-04 1953-04-28 Consolidation Coal Co Device for controlling flow of finely divided solids
US2754736A (en) * 1951-12-03 1956-07-17 Patrick A Lynn Tractor drawn wheeled implement for destroying wild growth
US3131636A (en) * 1962-06-08 1964-05-05 Western Electric Co Liquid transferring system
US3963376A (en) * 1974-07-12 1976-06-15 Miskin David M Automatic water powered sump drainer

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