US1638322A - Electromagnetic time-element device - Google Patents

Electromagnetic time-element device Download PDF

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Publication number
US1638322A
US1638322A US126468A US12646826A US1638322A US 1638322 A US1638322 A US 1638322A US 126468 A US126468 A US 126468A US 12646826 A US12646826 A US 12646826A US 1638322 A US1638322 A US 1638322A
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relay
core
winding
electromagnet
magnetic
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Expired - Lifetime
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US126468A
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Charles H Chapman
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General Electric Co
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General Electric Co
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Priority to US126468A priority Critical patent/US1638322A/en
Priority to FR33941D priority patent/FR33941E/en
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H71/00Details of the protective switches or relays covered by groups H01H73/00 - H01H83/00
    • H01H71/10Operating or release mechanisms
    • H01H71/12Automatic release mechanisms with or without manual release
    • H01H71/44Automatic release mechanisms with or without manual release having means for introducing a predetermined time delay

Definitions

  • My invention relates to improvements in electromagnetic time element devices Whereby a substantially definite time interval will always be obtained in the operation of a device and whereby the desired time interval of operation may be readily adjusted.
  • My invention is directed primarily to an improvement of the electromagnetic time element device for' which George E. Stack filed an application on May 3, 1923, Serial No.
  • the particular form of electromagnetic devices selected by Stack for the purpose of illustrating the broad principle of his invention is entirely operative and practical for certain conditions, but leaves something to be desired in the adjustment of the device for obtaining various time intervals.
  • the object of my invention is to provide a simple and eifective'device intended for cooperation with the Stack electromagnetic time element device whereby adjustments of the time interval of operation may be very easily effected.
  • I provide a relatively low reluctance path for the flux of theelectromagnet and provide means wherebyjan adjustment is had between the path of relatively low reluctance and the magnetic movable element of the Stack device.
  • I provide a laminated core on which the winding of the electromagnet is mounted.
  • the effect of residual magnetism in causing the magnetic movable element to be arrested at low frequencies is thus practically obviated.
  • Fig. shows a three-pole electromagnetic switch or contactor and an electromagnetic time element relay intended for operation in a definite interval of time after the operation of the contactor.
  • Fig. 2 is a detail in perspective of a portion of the assembly shown in Fig. 1 for the purposes of more clearly showing the time element relay and my improvement incorporated therewith.
  • Fig. 3 is a detail showing the winding spool of the time element relay mounted on a core of magnetic material and the adjust able part of magnetic material which forms the low reluctance path for the flux set up by the winding.
  • FIG. 4 is a perspective view of the strap of magnetic material which forms the low reluctance magnetic return path for the flux of the electromagnet of the time element relay and the adjustable part whereby the time interval of operation of the relay may be adjusted.
  • Fig. 5 is a detail showing the adjustable part of the low reluctance magnetic return path of the electromagnet of the time interval relay.
  • the three-pole contactor and the time interval relay are mounted on a base 10 of suitable insulating material.
  • the three-pole contactor comprises an operating electromagnet having an armature 11 and a winding spool 12.
  • the armature 11 is secured to the shaft 13, which is supported on the base 10 by means of brackets 14 and 15 at each end thereof.
  • the switchcontacts 16, 17 and 18 are also suitably secured to the shaft 13 so as to be operated thereby, and the magneticblow-out devices 19, 20 and 21 cooperate respectively with the contacts 16, 17 and 18 to interrupt the arcs formed at these contacts. 1
  • the time interval device is shown on the left end of the supporting base 10. This device is shown in more detail in Fig. 2.
  • the switch contacts 16, 17 and 18 will be operated to their closed positions and the movable contact 22 of the time element relay will be placed under a bias to the closed position by means of the shaft 13 acting through the spring 23.
  • the closing movement of the relay contact 22 will be delayed by means of the relay electromagnet, which comprises the winding spool 24, the core 25 of magnetic material, and the movable armature 26.
  • the armature 26 When the winding of the time element relay is energized by a current such as an alternating current, and the armature 14 is in its attracted position, the armature 26 will be periodically magnetically held and released to move counter-clockwise with reference to the core 25 of the relay electromagnet. A step by step advance of the arm 27 and the armature .26 is thereby effected, the spring 23 acting to effect a continuous advance of these parts andthe relay electromagnet acting to periodically retard this advance. As the armature 26 and the arm 27, which carries and supports the armature,
  • This strap comprises a main body portion 29 and a split ring-shaped end portion 30 which is intended to vfit over the right hand end of the core 25 of the electromagnet of the relay.
  • This'strap is of good magnetic material so as to provide a relatively low reluctance magnetic return for the flux set up;by the winding 24 of the relay.
  • the adjustable member 3 1 is shown more in detail in Fig. 5.
  • This member has an upwardly projectin portion and a slotted base portion, the base portion cooperating with the main portion of the strap and arranged to be secured thereto by means of the machine screw 32.
  • the left hand end ofthe strap is provided with a screw threaded opening for receiving the adjusting screw 33 for determining the initial position of the armature 26 an the suppqrtin arm 27.
  • the pro'ecting portion 31 exten s upwardly towar the core 25 of the relay electromagnet and is in terposed between the armature 26 and the left-hand end of the winding spool 24.
  • the armature 26 is intended to move step by step with reference to the axis of the core 25 of the relay electromagnet, the armature being alternately restrained and released in a periodicity bearing a definite relation to the alternations, pulsations, or variations in terval device shown in Fig. 2 is used to delay the interruption of the local circuit in which the field winding of the motor is included when the motor is initially connected to its source of supply and the connection of the field winding to a direct current source of supply when the speed of the motor has approached closely to the synchronous speed.
  • the coil 24 is included in the local circuit in which the motor field wlnding is connected at starting.
  • the frequency of the current in the coil 24 is thus line frequency with the motor at stand-still,
  • the core 25 is made of laminated magnetic material, thus keeping down the effect residual magnetism plays in cans ing the armature 26 to stick to core 25 when the frequency of. the current incoil 24 is nearly zero.
  • the relay switch member 22 locks open definitely when the induced voltage of the motor field is high, as at standstill, and to not reach an operating condltlon until the induced voltage of the fie'ld windin corresponds to a frequency of approximate y that corresponding to o synchronous speed.
  • the nventlon provides means whereby the openmg of the local circuit in which the motor field winding is included is arrested at values of induced field voltage which correspond to low motor speeds and a definite tlming action when the motor speed has in creased to a. predetermined value.
  • an ,electromagnet having a core and a winding disposed thereon, a magnetic movable element cooperating with said core and arranged to be alternately magnetically attracted and released when the said winding is energized by a periodically varying current, the said element being arranged to move step by step with reference to a position of minimum reluctance between said core and element as the ele ment is released, and a member of magnetic material cooperating with the core and said element to provide a low reluctance path for Val the magnetic flux set up by said winding, and an adjustable air, gap between said member and said element to adjust the time taken by said step by step movement of said sition of minimum reluctance between said core and element as the element is released, and a member of magnetic material cooperating with ,said core and element to provide a low reluctance path for the magnetic flux set up by the winding, the said member hav ing a part arranged to be adjusted to provide an adjustable air gap between said member and element
  • an electromagnet having a core of laminated magnetic material, a- Winding disposed thereon. and' a magnetic movable element cooperating with said core and arranged to be magnetically attracted and released when the said winding is energized by anfalternating current, the said element being arranged to move step by step toward a position of minimum reluctance with reference to said core as the, element is released,
  • an electro-magnetic time element device havin a core, a winding thereon, and a movable magnetic member which is alternately restrained and released by the magnetic pull of the electromagnet and which is caused to advance step by step with reference to the coreof the electromagnet from one, definite position to another, a magnetic member forming a return path of relatively low reluctance for the flux set up by the said electromagnet, the said magnetic return member having a split ring arranged to cooperate with one end of the core of the electromagnet and an adjustable element of magnetic material arranged to be adjusted with reference to the said magnetic movable member for the purpose of adjusting the time interval of operation of said magnetic movable member from oneof its definite positions to anotherthereof.

Description

C. H. CHAPMAN ELECTROMAGNETIC TIME ELEMENT DEVICE Aug. 9 1927.
Inventor: Charles H. Chapman,
Hls Attorney.
a M m 0 Q Q0 @5 6 CG 1 0 HH j a@ g M: d m W 7 .1 0 I. F 2 we x 2 n H: p d o -M. I 4 My a w 5 Patented Aug. 9, 19272 UNITED STATES PATENT OFFICE;-
CHARLES H. CHAPMAN, E SCOTIA, NEW YORK, ASSIGNOR TO GENERAL ELECTRIC COMPANY, A CORPORATION OF NEW YORK.
ELECTROMAGNETIC TIME-ELEMENT DEVICE.
Application fled August 2, 1826. Serial No. 126,468.
My invention relates to improvements in electromagnetic time element devices Whereby a substantially definite time interval will always be obtained in the operation of a device and whereby the desired time interval of operation may be readily adjusted.
My invention is directed primarily to an improvement of the electromagnetic time element device for' which George E. Stack filed an application on May 3, 1923, Serial No.
636,456, and assigned the same to the same assignee to whom this invention is assigned.
The particular form of electromagnetic devices selected by Stack for the purpose of illustrating the broad principle of his invention is entirely operative and practical for certain conditions, but leaves something to be desired in the adjustment of the device for obtaining various time intervals. The object of my invention is to provide a simple and eifective'device intended for cooperation with the Stack electromagnetic time element device whereby adjustments of the time interval of operation may be very easily effected.
In carrying the invention into effect in the form which I now regard as the preferred form, I provide a relatively low reluctance path for the flux of theelectromagnet and provide means wherebyjan adjustment is had between the path of relatively low reluctance and the magnetic movable element of the Stack device.
Inorder to insure satisfactory operation of the device at low frequencies, I provide a laminated core on which the winding of the electromagnet is mounted. The effect of residual magnetism in causing the magnetic movable element to be arrested at low frequencies is thus practically obviated.
For a better understanding of the invention, reference is had to the accompanying drawing, wherein Fig. shows a three-pole electromagnetic switch or contactor and an electromagnetic time element relay intended for operation in a definite interval of time after the operation of the contactor. Fig. 2 is a detail in perspective of a portion of the assembly shown in Fig. 1 for the purposes of more clearly showing the time element relay and my improvement incorporated therewith. Fig. 3 is a detail showing the winding spool of the time element relay mounted on a core of magnetic material and the adjust able part of magnetic material which forms the low reluctance path for the flux set up by the winding. Fig. 4 is a perspective view of the strap of magnetic material which forms the low reluctance magnetic return path for the flux of the electromagnet of the time element relay and the adjustable part whereby the time interval of operation of the relay may be adjusted. Fig. 5 is a detail showing the adjustable part of the low reluctance magnetic return path of the electromagnet of the time interval relay.
Referring to Fig. 1, the three-pole contactor and the time interval relay are mounted on a base 10 of suitable insulating material. The three-pole contactor comprises an operating electromagnet having an armature 11 and a winding spool 12. The armature 11 is secured to the shaft 13, which is supported on the base 10 by means of brackets 14 and 15 at each end thereof. The switchcontacts 16, 17 and 18 are also suitably secured to the shaft 13 so as to be operated thereby, and the magneticblow-out devices 19, 20 and 21 cooperate respectively with the contacts 16, 17 and 18 to interrupt the arcs formed at these contacts. 1
The time interval device is shown on the left end of the supporting base 10. This device is shown in more detail in Fig. 2. In general, it may be said that when the winding 12'0f the operating electromagnet is energized, the switch contacts 16, 17 and 18 will be operated to their closed positions and the movable contact 22 of the time element relay will be placed under a bias to the closed position by means of the shaft 13 acting through the spring 23. The closing movement of the relay contact 22 will be delayed by means of the relay electromagnet, which comprises the winding spool 24, the core 25 of magnetic material, and the movable armature 26. When the winding of the time element relay is energized by a current such as an alternating current, and the armature 14 is in its attracted position, the armature 26 will be periodically magnetically held and released to move counter-clockwise with reference to the core 25 of the relay electromagnet. A step by step advance of the arm 27 and the armature .26 is thereby effected, the spring 23 acting to effect a continuous advance of these parts andthe relay electromagnet acting to periodically retard this advance. As the armature 26 and the arm 27, which carries and supports the armature,
Ill
- the pivot provide are permitted to eriodically rotate about by the support 28, the contact 22 is correspondin 1y periodically permitted to advance towar its cooperating stationary contact. 1 The time element device so far explained is the invention of George E. Stack, for which he filed hisgaforesaid patent application. c
In order to provide a simple and efiective means whereby the time interval of operation of the relay may be readily adjusted over a greater period of time interval of operation than is the casein the ordinary form of the Stack relay, I have provided the strap.
of magnetic material shown in detail in Fig.
4. This strap comprises a main body portion 29 and a split ring-shaped end portion 30 which is intended to vfit over the right hand end of the core 25 of the electromagnet of the relay. This'strap is of good magnetic material so as to providea relatively low reluctance magnetic return for the flux set up;by the winding 24 of the relay. The adjustable member 3 1 is shown more in detail in Fig. 5. This member has an upwardly projectin portion and a slotted base portion, the base portion cooperating with the main portion of the strap and arranged to be secured thereto by means of the machine screw 32. The left hand end ofthe strap is provided with a screw threaded opening for receiving the adjusting screw 33 for determining the initial position of the armature 26 an the suppqrtin arm 27. The pro'ecting portion 31 exten s upwardly towar the core 25 of the relay electromagnet and is in terposed between the armature 26 and the left-hand end of the winding spool 24.
By providing this relatively low reluctance magnetic return path for the electromagnet, I am able'to secure a eater hold ing effect on the armature 26 or the same number of ampere turns in the winding of the relay electroma et, and I am thus able to secure a greater" time interval of operation of the device. The time interval of operation maybe adjusted by sliding the projection 31 back and forth inthe slot cut in the strap 29. When the projection 31 is moved nearer the armature 26 'a greater percentage of the flux of the relay electromagnet will be caused to pass through the armature 26 and thus produce a greater holding efi'ect. When the projection 31 is movedto the right, nearer the winding spool 24, a greater percentage of the flux of the relay electromagnet is shunted from the armature 26 and the time interval of operation of the device is thereby shortened.
The armature 26 is intended to move step by step with reference to the axis of the core 25 of the relay electromagnet, the armature being alternately restrained and released in a periodicity bearing a definite relation to the alternations, pulsations, or variations in terval device shown in Fig. 2 is used to delay the interruption of the local circuit in which the field winding of the motor is included when the motor is initially connected to its source of supply and the connection of the field winding to a direct current source of supply when the speed of the motor has approached closely to the synchronous speed.
or such application, the coil 24 is included in the local circuit in which the motor field wlnding is connected at starting. The frequency of the current in the coil 24 is thus line frequency with the motor at stand-still,
and gradually decreases relatively to a very low value as the motor speed approaches synchronism. The core 25 is made of laminated magnetic material, thus keeping down the effect residual magnetism plays in cans ing the armature 26 to stick to core 25 when the frequency of. the current incoil 24 is nearly zero. By using a coil 24 of a definite number of turns and the device of Fig. 4 to provide a low reluctance return path for the flux which passes through the core 25, an'adjustment is enabled whereby the relay switch member 22 locks open definitely when the induced voltage of the motor field is high, as at standstill, and to not reach an operating condltlon until the induced voltage of the fie'ld windin corresponds to a frequency of approximate y that corresponding to o synchronous speed. In other words, the nventlon provides means whereby the openmg of the local circuit in which the motor field winding is included is arrested at values of induced field voltage which correspond to low motor speeds and a definite tlming action when the motor speed has in creased to a. predetermined value.
What I claim as new and desire to secure by Letters Patent of the United States is:
1. In combination, an ,electromagnet having a core and a winding disposed thereon, a magnetic movable element cooperating with said core and arranged to be alternately magnetically attracted and released when the said winding is energized by a periodically varying current, the said element being arranged to move step by step with reference to a position of minimum reluctance between said core and element as the ele ment is released, and a member of magnetic material cooperating with the core and said element to provide a low reluctance path for Val the magnetic flux set up by said winding, and an adjustable air, gap between said member and said element to adjust the time taken by said step by step movement of said sition of minimum reluctance between said core and element as the element is released, and a member of magnetic material cooperating with ,said core and element to provide a low reluctance path for the magnetic flux set up by the winding, the said member hav ing a part arranged to be adjusted to provide an adjustable air gap between said member and element to adjust the time interval of operation of the device.
3. In combination in a time element device, an electromagnet having a core of laminated magnetic material, a- Winding disposed thereon. and' a magnetic movable element cooperating with said core and arranged to be magnetically attracted and released when the said winding is energized by anfalternating current, the said element being arranged to move step by step toward a position of minimum reluctance with reference to said core as the, element is released,
and a. member of magnetic material cooperating with said core and said element to provide a low\reluctance path for the magnetic flux set up by said winding and an adjustable air gap between said member and element, whereby the time taken by said step by ste movement is adjusted and the device is a justable to delay the timing action thereof until the frequency of the energizing current of said winding has reduced A to a predetermined value. a
4. As an element of an electro-magnetic time element device havin a core, a winding thereon, and a movable magnetic member which is alternately restrained and released by the magnetic pull of the electromagnet and which is caused to advance step by step with reference to the coreof the electromagnet from one, definite position to another, a magnetic member forming a return path of relatively low reluctance for the flux set up by the said electromagnet, the said magnetic return member having a split ring arranged to cooperate with one end of the core of the electromagnet and an adjustable element of magnetic material arranged to be adjusted with reference to the said magnetic movable member for the purpose of adjusting the time interval of operation of said magnetic movable member from oneof its definite positions to anotherthereof.
In witness whereof, I have hereunto set my hand this 28th day of July. 1926.
CHARLES H. CHAPMAN.
US126468A 1926-08-02 1926-08-02 Electromagnetic time-element device Expired - Lifetime US1638322A (en)

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US126468A US1638322A (en) 1926-08-02 1926-08-02 Electromagnetic time-element device
FR33941D FR33941E (en) 1926-08-02 1927-07-28 Improvements to modes and devices for controlling timed devices

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2773524A (en) * 1953-09-21 1956-12-11 Rockwell Mfg Co Safety lock for radial arm saws and the like
US20120097812A1 (en) * 2010-10-21 2012-04-26 Zampelli Nathan G Magnetically placeable strap
US20210070218A1 (en) * 2019-09-05 2021-03-11 Ford Global Technologies, Llc Magnetic tie-down systems for securing cargo within vehicle cargo spaces

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2773524A (en) * 1953-09-21 1956-12-11 Rockwell Mfg Co Safety lock for radial arm saws and the like
US20120097812A1 (en) * 2010-10-21 2012-04-26 Zampelli Nathan G Magnetically placeable strap
US8167263B1 (en) * 2010-10-21 2012-05-01 Zampelli Nathan G Magnetically placeable strap
US20210070218A1 (en) * 2019-09-05 2021-03-11 Ford Global Technologies, Llc Magnetic tie-down systems for securing cargo within vehicle cargo spaces
US11203280B2 (en) * 2019-09-05 2021-12-21 Ford Global Technologies, Llc Magnetic tie-down systems for securing cargo within vehicle cargo spaces

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FR33941E (en) 1929-03-27

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