US1560724A - Regulating system - Google Patents

Regulating system Download PDF

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US1560724A
US1560724A US596941A US59694122A US1560724A US 1560724 A US1560724 A US 1560724A US 596941 A US596941 A US 596941A US 59694122 A US59694122 A US 59694122A US 1560724 A US1560724 A US 1560724A
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motor
speed
balance
shaft
wheel
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Expired - Lifetime
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US596941A
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Louis M Potts
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AT&T Corp
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Western Electric Co Inc
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    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02PCONTROL OR REGULATION OF ELECTRIC MOTORS, ELECTRIC GENERATORS OR DYNAMO-ELECTRIC CONVERTERS; CONTROLLING TRANSFORMERS, REACTORS OR CHOKE COILS
    • H02P5/00Arrangements specially adapted for regulating or controlling the speed or torque of two or more electric motors
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02PCONTROL OR REGULATION OF ELECTRIC MOTORS, ELECTRIC GENERATORS OR DYNAMO-ELECTRIC CONVERTERS; CONTROLLING TRANSFORMERS, REACTORS OR CHOKE COILS
    • H02P29/00Arrangements for regulating or controlling electric motors, appropriate for both AC and DC motors
    • H02P29/04Arrangements for regulating or controlling electric motors, appropriate for both AC and DC motors by means of a separate brake
    • H02P29/045Arrangements for regulating or controlling electric motors, appropriate for both AC and DC motors by means of a separate brake whereby the speed is regulated by measuring the motor speed and comparing it with a given physical value

Definitions

  • This invention relates to regulating systems and particularly to devices for governing the speed of electric motors.
  • the invention in its vides a device having riod oat preferred form proa definite natural peoperation such as'a balance and escapement mechanism driven by power fronr the motor to be regulated and means under the joint control of the motor and. the balance and escapeinent mechanism for increasing or decreasing the current supplied to the motor'whenever the motor starts to fall be-.
  • Fig. 1 shows one embodiment of this, invention
  • Fig. 2 is a view of the mechanism taken along the line 2-2 of Fig. 1
  • Fig. 3 is a sectional View taken along the broken line 33 of I" 1' l is a detail view showing the arrangement or t" e resistance with the motor circuit.
  • Fig. 5 illustrates modification of the arrangement shown in Fig. l.
  • an electric motor A whose speed it is desired to keep constant but which normally varies, and a balance and escapement mechanism B having normally a constant rate.
  • a rotary member 5 and an arm 8 adapted to be actuated by the member 5 provided for regulating a variable resistance in the motor circuit. ll ith any given passes beyond the desired normal arrangement there is some value of the ratio between the speed of the motor and the rate of the balance for which rotary sistance. the selection or" a suitable rate for the balance, and a proper gear arrangement, the motor A may be made to run at any chosen spec ln 1' a motor A is coup ed shaft 7 by a flexible coupling 8 commonly employed in printing telegraph apparatus.
  • the shaft '5" which is supported in suitable hearings, has securec thereto a @inion 9 w 'iich is meshed with the teeth of a wheel 19 secured to a shaft 11.
  • 's shalt 11 is journaled in the uprights lo and 16 and has secured thereto a brush arm 12 of the istiibutor
  • the distributor comprise segmented. l3 and a continuous rin; not shown), over which the brush or brushes carried by the brush arm 12 are arranged to sweep.
  • the balance and escapenient mechanism B in addition tlie escapenoent wheel 20" corn- ;orises an anchor 21 rotatabiy mounted on a shaft 22; an horre pin 23 secured a balance wheel 24, ich is mounted on a shaft 25 supported by uprights 26 2?, adapted to move in a manner whereby the pin 23 engages the fork of the anchor 21; and a helical spring 28 which one end fastened to the balance wheel 24, while the other end 13 secured to the sh 2
  • the escapeinent wheel 20 is provided six and also intervals of rest, the length of which are determined by the relation of the rate of the balance to the speed of the motor.
  • a gear wheel 31 which has its teeth meshed with those of a pinion 30, which in turn is carried by a projection mounted on the escapement wheel 20.
  • the pinion 30 is arranged to mesh with both the teeth of the gear wheel 31 and those formed on the inner surface of the drum 5.
  • the drum 5 has secured thereto, a pair of. pins 3 and 4 which are arranged on oppo- "site sides of regulating arm 6. Pin 4 is arranged to operate a pair of contacts 41 and 42 which are carried b the arm 6. Regulating arm 6 isfrictionally mounted on shaft 11 and arranged to be moved over a series of contacts 40 by the pins 3 and 4. The contacts 40 are arranged in a semi-circle below drum 5 and have connected thereto-- the sections of a resistance 39.
  • This resistance 39 is connected in the operating circuit of the motor A and serves to control the current passing therethrough.
  • a fly-wheel 35 is provided for dampening out slight fluctuations in the speed of the drivlng shaft. Due to the fact that the escapement wheel 20 and pinion 30 are alternately rotating and stopping due to the periodic action of the balance and escapeme'nt and shaft 11 is moved with a uniform motion, drum 5 will oscillate, and consequently pin 4 closes and openscontacts 41 and 42 for' each oscillation of the balance without disturbing the position of the regulating arm 6. These contacts serve to increase and decrease the resistance in the motor circuit whereby slight fluctuations in the speed of the motor are compensated for, thus causing the shaft 11 to be driven at a constant speed.
  • the pinion 30 which is secured to the escapement wheel 20 merely rolls around on the teeth of the gear wheel 31, and produces only the slight angular displacement or os cillation of the drum 5 referred to above.
  • the pinion 30, which, owing to t e control of the balance and escapement mechanism, makes the same number of revolutions each minute, rotates drum 5 in the direction of the arrow.
  • the rotation of the drum 5 in this direction causes a corresponding movement of the regulator arm 6 through the movement of pin 3 whereby the amount of resistance in circuit with the n1otor A is increased due to the passage of one end of the regulator arm 6 over the contact points 40.
  • the current through the motor A is decreased, whereby the increase in speed is automatically compensated for and the distributor I) will continue to be driven at the predetermined constant speed.
  • the reverse condition exists when the speed of the motor A decreases to a value below normal.
  • the combined efiect of the gear wheel 31 and the pinion 30 causes the drum 5 to be rotated in a direction opposite to the arrow, whereby the arm 6, whic is now engaged by pin 4, is caused to move in the reverse direction.
  • an escapement wheel 53 which as in the arrangement shown a in Fig. 1, is arranged to be controlled by an anchor 54, the movement of which is con trolled by a balance wheel 55.
  • the escapementwheel 53 has rigidly secured thereto a pair of projections, which have rotatably mounted thereon a corresponding number of pinions 56 and 57. These pinions are meshed with each other.
  • the former pinion engages the teethof the gear wheel 68 while the latter pinion engages the teeth of a gear wheel 69, which is mounted on a sleeve 70.
  • a pinion 71 is also mounted on sleeve and engages teeth on the brush rack 72.
  • the invention provides an arrangement whereby the speed of the motor A may be controlled through the action of a balance and escapement mechanism B, which has a constant and uniform motion.
  • a single source of motive power means having a natural period of oscillation operated by power derived from said source of motive power, an element driven mechanically by power communicated thereto from said source of motive power, and means controlled jointly by said source of motive power and said first recited means for controlling the speed of the driven element.
  • a single source of motive power means having a natural period of oscillation operated by power derived from said source of motive power, an element driven mechanically by power communicated thereto from said source of motive power, and means common to said source of motive power and said first-mentioned means and controlled thereby for causing said element to be driven within predetermined speed limits.
  • a device for controlling the speed of a member driven mechanically by a motor, the speed of which is variable including means acting to vary the current delivered to said motor for effecting changes in the speed thereof, means having a natural period of motion and operating at a constant rate by power derived from said motor, and means controlled conjointly by said motor and said second recited means for rendering said first mentioned means effective for changes in speed of said motor to maintain the speed of said member constant.
  • a motor a driven element directly and mechanically connected to said motor, means for regulating the speed of said motor whereby said element is driven at a constant and uniform speed
  • a speed control means operative directly on said motor, a balance and escapement mechanism operated by power derived from the said motor, and means common to said motor and said balance and escapment mechanism and controlled by variations in the Speed of said motor from the rate of said balance and escapement mechanism for operating said speed control means.
  • a motor an adjustable resistance operatively associated therewith, a balance and escapement mechanism having a constant and uniform rate, means for increasing and decreasing the amount of resistanceop'eratively associated with said motor, and means-substantially stationary when the speed of said motor and balance and escapement mechanism bear a predetermined relation to take care of slight changes in speed of said motor for operating said first recited means periodically.
  • Means for regulating the speed of a motor by the action of a balance and escapement mechanism comprising a resistance for the motor, means for increasing and decreasing the amount of resistance connected with said motor, and means controlled jointly by said motor and balance and escapement mechanism for periodically rendering a-portion of said resistance effective to take care of slight variations in the speed of said motor.
  • a motor a driven element directly and mechanically connected to said motor, means for regulating the speed of said motor whereby said element is driven at a constant and uniform speed
  • means for regulating the speed of said motor whereby said element is driven at a constant and uniform speed comprising a body capable of harmonic motion operated by power derived from said motor, means common to said motor and said body and rotated due to variations in the speed thereof from the rate of said body for operating said speed control means.

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  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Control Of Direct Current Motors (AREA)

Description

Nov. 10, 1925. 1,560,724
L. M. POTTS REGULATING SYSTEM Filed Oct. 26. 1922 2 Sheets-Sheet 1 Nbv.l0,1925- 156&724 'L.M.POTTS REGULATING SYSTEM Filed Oct. 26. 1922 2 Sheets-Sheet 2 Patented Nov. it); 1925.
UNITED STATES insane PATENT one o-E.
LOUIS M. POTTQ, "OF HIGHWGOD, NEW JERSEY, ASSIGNDR T0 WESTERN ELECTRIC COMPANY, INGGRPOEATED, 9F NEW YOR E, N. L, A CORlQBAT -IOIT OF NEW YORK.
EEG-ULATING S'YSiEhI.
Application filed October 2%, 1522. Serial No. 5.983%.
To all whom it may concern."
Be it known that l, Lows M. Porrs, a citizen or" the United States of America, residing at Highwood, in the county of 13ergen, State of New Jersey, have invented certain new and useful Improvements in Regulating Systems, of which the following is a full, clear, concise and exact description.
This invention relates to regulating systems and particularly to devices for governing the speed of electric motors.
its object is a regulating device suitable for use in connection with the driving metors of printing telegraph and lik apps ratus.
The invention in its vides a device having riod oat preferred form proa definite natural peoperation such as'a balance and escapement mechanism driven by power fronr the motor to be regulated and means under the joint control of the motor and. the balance and escapeinent mechanism for increasing or decreasing the current supplied to the motor'whenever the motor starts to fall be-.
low or speed. I
Referring to the drawings, Fig. 1 shows one embodiment of this, invention; Fig. 2 is a view of the mechanism taken along the line 2-2 of Fig. 1; Fig. 3 is a sectional View taken along the broken line 33 of I" 1' l is a detail view showing the arrangement or t" e resistance with the motor circuit. Fig. 5 illustrates modification of the arrangement shown in Fig. l.
in the drawing is shown an electric motor A, whose speed it is desired to keep constant but which normally varies, and a balance and escapement mechanism B having normally a constant rate. A rotary member 5 and an arm 8 adapted to be actuated by the member 5 provided for regulating a variable resistance in the motor circuit. ll ith any given passes beyond the desired normal arrangement there is some value of the ratio between the speed of the motor and the rate of the balance for which rotary sistance. the selection or" a suitable rate for the balance, and a proper gear arrangement, the motor A may be made to run at any chosen spec ln 1' a motor A is coup ed shaft 7 by a flexible coupling 8 commonly employed in printing telegraph apparatus. The shaft '5", which is supported in suitable hearings, has securec thereto a @inion 9 w 'iich is meshed with the teeth of a wheel 19 secured to a shaft 11. 's shalt 11 is journaled in the uprights lo and 16 and has secured thereto a brush arm 12 of the istiibutor The distributor comprise segmented. l3 and a continuous rin; not shown), over which the brush or brushes carried by the brush arm 12 are arranged to sweep.
The shaft 11 Les loosely mounted thereon the internally geared drum 5, drives through a suitable friction clutch an esca-pement whe l 20, which forms part of the balance and escapement mechanism B. The balance and escapenient mechanism B, in addition tlie escapenoent wheel 20" corn- ;orises an anchor 21 rotatabiy mounted on a shaft 22; an impuse pin 23 secured a balance wheel 24, ich is mounted on a shaft 25 supported by uprights 26 2?, adapted to move in a manner whereby the pin 23 engages the fork of the anchor 21; and a helical spring 28 which one end fastened to the balance wheel 24, while the other end 13 secured to the sh 2 The escapeinent wheel 20 is provided six and also intervals of rest, the length of which are determined by the relation of the rate of the balance to the speed of the motor.
Also secured to the shaft 11 is a gear wheel 31, which has its teeth meshed with those of a pinion 30, which in turn is carried by a projection mounted on the escapement wheel 20. As shown in Fig. 3, the pinion 30 is arranged to mesh with both the teeth of the gear wheel 31 and those formed on the inner surface of the drum 5. When the speedot the motor A and a correspond- 1 ing rate of the balance and escapement mechanism have a predetermined ratio, the
inion 30 will merely roll around on the teeth of the gear wheel 31, thereby producing no relative movement of the drum 5. The rate of the balance should be so chosen that the corresponding speed of the motor for a given condition is the speed desired. The drum 5 has secured thereto, a pair of. pins 3 and 4 which are arranged on oppo- "site sides of regulating arm 6. Pin 4 is arranged to operate a pair of contacts 41 and 42 which are carried b the arm 6. Regulating arm 6 isfrictionally mounted on shaft 11 and arranged to be moved over a series of contacts 40 by the pins 3 and 4. The contacts 40 are arranged in a semi-circle below drum 5 and have connected thereto-- the sections of a resistance 39. This resistance 39 is connected in the operating circuit of the motor A and serves to control the current passing therethrough. A fly-wheel 35 is provided for dampening out slight fluctuations in the speed of the drivlng shaft. Due to the fact that the escapement wheel 20 and pinion 30 are alternately rotating and stopping due to the periodic action of the balance and escapeme'nt and shaft 11 is moved with a uniform motion, drum 5 will oscillate, and consequently pin 4 closes and openscontacts 41 and 42 for' each oscillation of the balance without disturbing the position of the regulating arm 6. These contacts serve to increase and decrease the resistance in the motor circuit whereby slight fluctuations in the speed of the motor are compensated for, thus causing the shaft 11 to be driven at a constant speed.
As previously stated, when the desired speed relation exists between the motor A and the balance and'escapement mechanism B, the pinion 30 which is secured to the escapement wheel 20 merely rolls around on the teeth of the gear wheel 31, and produces only the slight angular displacement or os cillation of the drum 5 referred to above. However, should the speed of the motor A increaseto a point where the normal relation between the speed of the motor and that of the balance and esca ement mechanism B no lon r exists, the pinion 30, which, owing to t e control of the balance and escapement mechanism, makes the same number of revolutions each minute, rotates drum 5 in the direction of the arrow. The rotation of the drum 5 in this direction causes a corresponding movement of the regulator arm 6 through the movement of pin 3 whereby the amount of resistance in circuit with the n1otor A is increased due to the passage of one end of the regulator arm 6 over the contact points 40. In this way the current through the motor A is decreased, whereby the increase in speed is automatically compensated for and the distributor I) will continue to be driven at the predetermined constant speed. The reverse condition exists when the speed of the motor A decreases to a value below normal. In this case, the combined efiect of the gear wheel 31 and the pinion 30 causes the drum 5 to be rotated in a direction opposite to the arrow, whereby the arm 6, whic is now engaged by pin 4, is caused to move in the reverse direction. With the movement of the arm 6 in the reverse direction, the amount of resistance 39 connected in the motor circuit is decreased, whereby an increase in current to the motor A results so tkhat the speed of the motor is compensated or, driven at the predetermined constant speed. In the modification shown in Fig. 5, in place of controlling the motor circuit, mechanism is shown for changing the position of the brushes with respect to the commutator of the motor, thus causing the same eflect as in the case where a change in the field circuit was produced. In this modification, the shaft of the motor A has secured thereto a pinion 51, which drives a gear wheel 52, in turn mounted on a shaft 50. The shaft 50 also has secured thereto a gear wheel 68. Arranged to be driven through a suitable friction clutch by power communicated. from the shaft 50, is an escapement wheel 53, which as in the arrangement shown a in Fig. 1, is arranged to be controlled by an anchor 54, the movement of which is con trolled by a balance wheel 55. The escapementwheel 53 has rigidly secured thereto a pair of projections, which have rotatably mounted thereon a corresponding number of pinions 56 and 57. These pinions are meshed with each other. The former pinion engages the teethof the gear wheel 68 while the latter pinion engages the teeth of a gear wheel 69, which is mounted on a sleeve 70. A pinion 71 is also mounted on sleeve and engages teeth on the brush rack 72. For any given rate of the balance there will be a speed of the motor A for which the pinions 56 and 57 merely roll around on the teeth of the gear wheels 68 and 69, and gear wheel 69 remains stationary; However, when the speed of the motor A varies from this, a result is produced whereby the pinion 71 is rotated for causing which results in the distributor D being the corresponding rotation of the brush rack 72, upon which the brushes engaging the commutator 65 are secured. The 0 eration of the mechanism is similar to that escribed in connection with Fig. 1 and a further de-' scription of the mechanism shown in Fig. 5 is therefore considered unnecessary.
It is apparent from the previous description that the invention provides an arrangement whereby the speed of the motor A may be controlled through the action of a balance and escapement mechanism B, which has a constant and uniform motion.
Although the invention has been shown as applied to a particular type of apparatus, it is of course obvious that other variations may be made without departing from the spirit and scope of the present invention.
What is claimed is:
1. In combination, a single source of motive power, means having a natural period of oscillation operated by power derived from said source of motive power, an element driven mechanically by power communicated thereto from said source of motive power, and means controlled jointly by said source of motive power and said first recited means for controlling the speed of the driven element.
2. In combination, a single source of motive power, means having a natural period of oscillation operated by power derived from said source of motive power, an element driven mechanically by power communicated thereto from said source of motive power, and means common to said source of motive power and said first-mentioned means and controlled thereby for causing said element to be driven within predetermined speed limits.
3. A device for controlling the speed of a member driven mechanically by a motor, the speed of which is variable, including means acting to vary the current delivered to said motor for effecting changes in the speed thereof, means having a natural period of motion and operating at a constant rate by power derived from said motor, and means controlled conjointly by said motor and said second recited means for rendering said first mentioned means effective for changes in speed of said motor to maintain the speed of said member constant.
4. In combination, a motor, a driven element directly and mechanically connected to said motor, means for regulating the speed of said motor whereby said element is driven at a constant and uniform speed comprising a speed control means operative directly on said motor, a balance and escapement mechanism operated by power derived from the said motor, and means common to said motor and said balance and escapment mechanism and controlled by variations in the Speed of said motor from the rate of said balance and escapement mechanism for operating said speed control means.
5. In combination, a motor, an adjustable resistance operatively associated therewith, a balance and escapement mechanism having a constant and uniform rate, means for increasing and decreasing the amount of resistanceop'eratively associated with said motor, and means-substantially stationary when the speed of said motor and balance and escapement mechanism bear a predetermined relation to take care of slight changes in speed of said motor for operating said first recited means periodically.
6. Means for regulating the speed of a motor by the action of a balance and escapement mechanism comprising a resistance for the motor, means for increasing and decreasing the amount of resistance connected with said motor, and means controlled jointly by said motor and balance and escapement mechanism for periodically rendering a-portion of said resistance effective to take care of slight variations in the speed of said motor.
7. In combination, a motor, a driven element directly and mechanically connected to said motor, means for regulating the speed of said motor whereby said element is driven at a constant and uniform speed comprising a body capable of harmonic motion operated by power derived from said motor, means common to said motor and said body and rotated due to variations in the speed thereof from the rate of said body for operating said speed control means.
In witness whereof, I hereunto subscribe my name this 24th day of October, A. D., 1922.
LOUIS M. POTTS.
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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3118318A (en) * 1964-01-21 Arrangement for periodically varying the
US3903442A (en) * 1972-03-01 1975-09-02 Gen Electric Rotatable bus rings for collectors
US3942056A (en) * 1975-03-27 1976-03-02 General Electric Company Brush holder and rigging assembly for a dynamoelectric machine

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3118318A (en) * 1964-01-21 Arrangement for periodically varying the
US3903442A (en) * 1972-03-01 1975-09-02 Gen Electric Rotatable bus rings for collectors
US3942056A (en) * 1975-03-27 1976-03-02 General Electric Company Brush holder and rigging assembly for a dynamoelectric machine

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