US1253207A - Electrical protective device. - Google Patents

Electrical protective device. Download PDF

Info

Publication number
US1253207A
US1253207A US80771413A US1913807714A US1253207A US 1253207 A US1253207 A US 1253207A US 80771413 A US80771413 A US 80771413A US 1913807714 A US1913807714 A US 1913807714A US 1253207 A US1253207 A US 1253207A
Authority
US
United States
Prior art keywords
rod
movable
circuit
overload
core member
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US80771413A
Inventor
Harold W Brown
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
CBS Corp
Original Assignee
Westinghouse Electric and Manufacturing Co
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Westinghouse Electric and Manufacturing Co filed Critical Westinghouse Electric and Manufacturing Co
Priority to US80771413A priority Critical patent/US1253207A/en
Application granted granted Critical
Publication of US1253207A publication Critical patent/US1253207A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02HEMERGENCY PROTECTIVE CIRCUIT ARRANGEMENTS
    • H02H7/00Emergency protective circuit arrangements specially adapted for specific types of electric machines or apparatus or for sectionalised protection of cable or line systems, and effecting automatic switching in the event of an undesired change from normal working conditions
    • H02H7/22Emergency protective circuit arrangements specially adapted for specific types of electric machines or apparatus or for sectionalised protection of cable or line systems, and effecting automatic switching in the event of an undesired change from normal working conditions for distribution gear, e.g. bus-bar systems; for switching devices
    • H02H7/222Emergency protective circuit arrangements specially adapted for specific types of electric machines or apparatus or for sectionalised protection of cable or line systems, and effecting automatic switching in the event of an undesired change from normal working conditions for distribution gear, e.g. bus-bar systems; for switching devices for switches

Definitions

  • My invention relates to electrical protective devices and particularly to relays.
  • the object of my invention is to provide a relay which will operate on a relatively small overload but which will not operate on a relatively excessive overload.
  • a relay employing an electromagnet with a plunger system comprising a bellows-controlled rod having a plunger loosely mounted thereon and pressed down by a spring attachedto said rod and having a device attached to the plunger for either completing or preventing the completion of a circuit, according to the extent of the overload.
  • Figure 1 is a view of an electromagnet in which my invention is incorporated, shown partially in elevation and partially in sectlon;
  • Figs. 2, 3 and 4 are fragmentary views of re ays, all embodying modified forms of my invention, and
  • Fig. 5 is a diagrammatic view of a circuit showing the principal application of my invention.
  • myinvention is used in conjunction with a main hightension circuit 1 whichfeeds low-tension circuits 3, 4 and 5 through a transformer 2.
  • a circuit breaker 6 having a tripping electroma et 7 which is energized by a batis controlled by a relay 9 receiving current from a transformer 10 thatis a proportional to the current traversing the circuit to be interrupted.
  • Circuit 1 is provided with .
  • a circuit breaker 11 having a tripping electromagnet 12 which is energized by a battery 13 and is controlled by relays 14-and 15 which receive current from transformers 16 that is proportional to the current traversing circuit 1.
  • the circuitbreaker 11 is of such size that it will be operated by any excessive overload which the breaker 6 is not capable of interrupting without injury.
  • the relay 9 comprises a magneticcircuit 17, an energizing coil 18,
  • a rod 19 a plunger 20 loosely mounted on said rod 19 and limited in its travel on said rod 19 by collars 21 and 22, a spring 23 interposed between collar 21 and the plunger 20, an arm 24 having its respective ends pivotally connected to the plunger 20 and to a triangular-shaped member 25 which is pivotally mounted at a point- 26 on the rod 19 so that it either presses contact pieces 27 and 28 together or pivots around the point 26 and presses them apart, thereby either closing or preventing the closing of the circuit through the battery 8 and the electromagnet 7.
  • a contact piece 29 is attached to the lower end of the rod 19 which, when said rod operates, bridges contact members 30 and 31, thereby closing a circuit through the battery 8 and the electromagnet 7
  • a latch 32 is pivotally mounted at point 33 and bears against the plunger 20 by reasonof the pressure of a spring 34 to prevent the rod 19 from rising by engag ingga pin 35.
  • an arm 36 is ivotally connected to plunger 20 and to a Bell crank lever 37 which is pivotally mounted on the rod 19 and carries an insulating barrier 38.
  • the rod 19 also carries a movable contact piece 39 which, when it comes into contact with a stationary contact piece 40,-completes the circuit through the battery 8 and the coil of the electromagnet 7 to efiect ration of the circuit breaker 6.
  • a collar 41 is mounted on the end of the rod '19 which permits the end 42 of an arm 43 to ride over it.
  • the arm 43 is pivotally mounted at a stationary point 44 and carries I a contact piece 45, and 1s held against the plunger by a spring 46.
  • a stationary contact piece 47 coiiperates with the contact piece '45 to complete the circuit through the battery 8 and the coil of the electromagnet 7 to effect operation of the breakerfi.
  • the rod 19 should be provided with a bellows or dash pot 48 to permit of an inverse time limit in its action, and for reasons hereinafter explained.
  • the operation of my invention is as follows: When an excessive overload traverses the circuit 3, the coil 18 of the relay 9 is energized to raise the plunger 20 and cause the triangular piece to pivot around the point 26, until its upper and passes the lower end of the contact member 27. The rod 19 is prevented by the dash pot 48 from moving upwardly until after a predetermined interval of time.
  • the circuit breaker 11 will operate if the-breaker 6 does not, thus interrupting the whole'circuit;
  • the breaker 11 is of such capacity that interrupting an ex cessive overload will not injure any of its partseand is of any ordinary construction.
  • the plun er 20 and the rod 19 will rise simultaneous y and thus cause the triangular piece 25 to push the contact piece 27 into engagement with the contact piece 28, thereby completing the circuit through the battery 8 and the coil 7 to efi'ect operation of the breaker 6.
  • the plunger 20 moves upwardly against the action of the spring 23 until it reaches the collar 21; this permits the latch 32 to engage the pin 35 and prevent the bridging contact piece" 29 from completing the circuit of the reaker tripping coil.
  • the whole movable-structure rises and the pin 35 slides over, the outer face of the latch 32 and thus permits the bridging contact member 29 to complete the circuit of the breaker tripping coil.
  • a relay comprislng a movable core member, a movable rod, .a spring for operatively connecting the core member to the rod, an actuating winding, coiiperating contactmembers, and means dependent upon the relative movement of the rod and core member for efl'ecting engagement of the contact members only when a relatively small overload traverses the winding.
  • a relay comprising a magnetizable core member, a movable rod, resilient means for operatively connecting the sald core member and the rod together, an actuating winding "for the magnetizable core member, contact members, and means controlled by the relative movement of the rod and the movable core member for effecting the engagement of the contact members under predetermined conditions and for preventing the engagement thereof under other conditions.
  • a relay comprising a movable magnetizable core member, a relatively movable guiding member therefor, an actuating winding, contact members, and means controlled by the relative movement of the core member and the movable guiding member for effecting engagement of the contact members under predetermined conditions and for preventing engagement under other conditions.
  • a relay comprising an actuating winding, a movable core member, a movable rod, means for resiliently connecting the core member and the rod together, movable and stationary contact members and means pivotally connected to one of the movable memhers and actuated by the other movable membar for eiiecting or preventing the engagement of the contact'members.
  • a relay comprising an actuating winding, a movable core member, a movable rod, cooperating contact members, and means pivotally connected to one of the movable members and actuated by the other movable member for efi'ecting and preventing the engagement of the contact members.
  • a relay comprising a movable magnetizable core member, a relatively movable guiding member therefor, an actuating windin contact members, and means con- I trolled y the relative movement of the core member and the movable guiding member for efiecting engagement of the contact members when a normal overload traverses the actuating winding and for preventing the engagement when an excessive overload traverses the Winding.
  • a relay comprising an actuating Winding, a. movable core member, a movable rod,
  • a relay comprising a movable core member. a movable rod, a spring for operatively connecting them together, means for actuating the movable core member, contact members, and means controlled by the relative movement of the core member and the rod for effecting the engagement of the con; tact members under predetermined conditions and for preventing the engagement under other conditions.
  • Arelay comprising an actuating winding, a movable core member, a movable rod, cooperating contact members, and means connected to one of the movable members and actuated by the other for preventing engagement of the contact members when a relatively large overload traverses the wind- %n testimony whereof, I have hereunto subscribed my name this 28th day of November, 1913.

Description

APPLICATION FILED DEC.19, I913.
Patented Jan. 15,
m mos ATTORNEY -tery 8 an UNITED STATES PATENT OFFICE.
HAROLD W. BROWN, 01 ITHACA, NEW YORK, ASSIGNOR TO WESTINGHOUSE ELECTRIC AND MANUFACTURING COMPANY, CQRPOIRATION OF PENNSYLVANIA.
ELECTRICAL PROTECTIVE DEVICE.
Specification of Letters Patent.
Application filed December 19, 1913. Serial No. 807,714.
To all whom it may concern:
Be it known that I, HAROLD W."Bnown, a citizen of the United States, and a resident of Ithaca, in the county of Tompkins and State of New York, have invented a new and useful Improvement in Electrical Protective Devices, of which the following is a-specifi cation. I
My invention relates to electrical protective devices and particularly to relays.
The object of my invention is to provide a relay which will operate on a relatively small overload but which will not operate on a relatively excessive overload.
. Various relay systems have been provided for either inverse or definite time limit action on ordinary overload conditions, but frequently an overload is perceptible on a branch circuit which is much greater than the ultimate breakin capacity of the circuit interrupter employe and, should the overload be interrupted, it might cause the circuit interrupter to be injured. To protect against an ordinary overload on a branch circuit, and to cause the excessive overload to be taken care of by a larger circuit interr rupter in the main circuit, I have provided a relay employing an electromagnet with a plunger system comprising a bellows-controlled rod having a plunger loosely mounted thereon and pressed down by a spring attachedto said rod and having a device attached to the plunger for either completing or preventing the completion of a circuit, according to the extent of the overload.
Referrmg to the accompanying drawings of which Figure 1 is a view of an electromagnet in which my invention is incorporated, shown partially in elevation and partially in sectlon; Figs. 2, 3 and 4 are fragmentary views of re ays, all embodying modified forms of my invention, and Fig. 5 is a diagrammatic view of a circuit showing the principal application of my invention.
Referring to the drawings, myinvention is used in conjunction with a main hightension circuit 1 whichfeeds low-tension circuits 3, 4 and 5 through a transformer 2. Each of the circuits 3, 4 and 5 is protected by a circuit breaker 6 having a tripping electroma et 7 which is energized by a batis controlled by a relay 9 receiving current from a transformer 10 thatis a proportional to the current traversing the circuit to be interrupted. Circuit 1 is provided with .a circuit breaker 11 having a tripping electromagnet 12 which is energized by a battery 13 and is controlled by relays 14-and 15 which receive current from transformers 16 that is proportional to the current traversing circuit 1. The circuitbreaker 11 is of such size that it will be operated by any excessive overload which the breaker 6 is not capable of interrupting without injury.
Referring to Fig. 1, the relay 9 comprises a magneticcircuit 17, an energizing coil 18,
a rod 19, a plunger 20 loosely mounted on said rod 19 and limited in its travel on said rod 19 by collars 21 and 22, a spring 23 interposed between collar 21 and the plunger 20, an arm 24 having its respective ends pivotally connected to the plunger 20 and to a triangular-shaped member 25 which is pivotally mounted at a point- 26 on the rod 19 so that it either presses contact pieces 27 and 28 together or pivots around the point 26 and presses them apart, thereby either closing or preventing the closing of the circuit through the battery 8 and the electromagnet 7.
Referring particularly to Fig.2, a contact piece 29 is attached to the lower end of the rod 19 which, when said rod operates, bridges contact members 30 and 31, thereby closing a circuit through the battery 8 and the electromagnet 7 A latch 32 is pivotally mounted at point 33 and bears against the plunger 20 by reasonof the pressure of a spring 34 to prevent the rod 19 from rising by engag ingga pin 35.
eferring to the modification shown in Fig. 3, the respective ends of an arm 36 are ivotally connected to plunger 20 and to a Bell crank lever 37 which is pivotally mounted on the rod 19 and carries an insulating barrier 38. The rod 19 also carries a movable contact piece 39 which, when it comes into contact with a stationary contact piece 40,-completes the circuit through the battery 8 and the coil of the electromagnet 7 to efiect ration of the circuit breaker 6. eferring now particularly to Flg. 4, a collar 41 is mounted on the end of the rod '19 which permits the end 42 of an arm 43 to ride over it. The arm 43 is pivotally mounted at a stationary point 44 and carries I a contact piece 45, and 1s held against the plunger by a spring 46. A stationary contact piece 47 coiiperates with the contact piece '45 to complete the circuit through the battery 8 and the coil of the electromagnet 7 to effect operation of the breakerfi. In all the modifications, the rod 19 should be provided with a bellows or dash pot 48 to permit of an inverse time limit in its action, and for reasons hereinafter explained.
The operation of my invention is as follows: When an excessive overload traverses the circuit 3, the coil 18 of the relay 9 is energized to raise the plunger 20 and cause the triangular piece to pivot around the point 26, until its upper and passes the lower end of the contact member 27. The rod 19 is prevented by the dash pot 48 from moving upwardly until after a predetermined interval of time. The circuit breaker 11 will operate if the-breaker 6 does not, thus interrupting the whole'circuit; The breaker 11 is of such capacity that interrupting an ex cessive overload will not injure any of its partseand is of any ordinary construction. If, however, the overload on the circuit 3 is relatively small, the plun er 20 and the rod 19 will rise simultaneous y and thus cause the triangular piece 25 to push the contact piece 27 into engagement with the contact piece 28, thereby completing the circuit through the battery 8 and the coil 7 to efi'ect operation of the breaker 6.
With the modification shown in Fig. 2, the plunger 20 moves upwardly against the action of the spring 23 until it reaches the collar 21; this permits the latch 32 to engage the pin 35 and prevent the bridging contact piece" 29 from completing the circuit of the reaker tripping coil. However, if the load is relatively small, the whole movable-structure rises and the pin 35 slides over, the outer face of the latch 32 and thus permits the bridging contact member 29 to complete the circuit of the breaker tripping coil.
The operation of the modification as shown in Fig. 3 is such that insulatiompiece 38 is thrust between contact members 39 and 40 when a. heavy overload occurs, while a relatively small overload, causes contact members 39 and 40 to engage, and, as hereinbefore explained. operation of the breaker 6 is accordingly efi'ected.
The modification of my invention, as
shown in Fig. prevents the circuit from being opened on an excessive overload be cause the contact arm 43 is pulled back by the spring 46 until the point 42 is in vertical alinement with the point 44, thus preventing the rod 19 from moving upwardly. If a relatively small overload occurs, however, the movable structure rises and the bearing point 42 of the arm 43 is engaged bythee01lar41whichcauscsthearm43to effecting engagement of the contact members when a relatively small overload traverses the-winding and for preventing the engagement thereof when an excessive overload traverses the winding.
2. A relay comprislng a movable core member, a movable rod, .a spring for operatively connecting the core member to the rod, an actuating winding, coiiperating contactmembers, and means dependent upon the relative movement of the rod and core member for efl'ecting engagement of the contact members only when a relatively small overload traverses the winding.
3. A relay comprising a magnetizable core member, a movable rod, resilient means for operatively connecting the sald core member and the rod together, an actuating winding "for the magnetizable core member, contact members, and means controlled by the relative movement of the rod and the movable core member for effecting the engagement of the contact members under predetermined conditions and for preventing the engagement thereof under other conditions.
4. A relay comprising a movable magnetizable core member, a relatively movable guiding member therefor, an actuating winding, contact members, and means controlled by the relative movement of the core member and the movable guiding member for effecting engagement of the contact members under predetermined conditions and for preventing engagement under other conditions.
5. In an electrical relay, the combination with an actuating coil and a magnetic structure surrounding the said coil, of a rod, a movable core member adapted to surround the rod and to be actuated by the said coil means for limiting the relative movement OI the said rod and'the said core member, and
means 'for preventing the operation of the rod when an excessive overload traverses the coil and for causing the rod and movable core member to operate when a relatively smaller overload traverses the coil.
6. A relay comprising an actuating winding, a movable core member, a movable rod, means for resiliently connecting the core member and the rod together, movable and stationary contact members and means pivotally connected to one of the movable memhers and actuated by the other movable membar for eiiecting or preventing the engagement of the contact'members.
T, A relay comprising an actuating winding, a movable core member, a movable rod, cooperating contact members, and means pivotally connected to one of the movable members and actuated by the other movable member for efi'ecting and preventing the engagement of the contact members.
8. A relay comprising a movable magnetizable core member, a relatively movable guiding member therefor, an actuating windin contact members, and means con- I trolled y the relative movement of the core member and the movable guiding member for efiecting engagement of the contact members when a normal overload traverses the actuating winding and for preventing the engagement when an excessive overload traverses the Winding.
9. A relay comprising an actuating Winding, a. movable core member, a movable rod,
cooperating contact members, and means connected to one of the movable members and actuated by the other for efiecting en gagement of the contact members only when a relatively small overload traverses the Winding.
' 10. A relay comprising a movable core member. a movable rod, a spring for operatively connecting them together, means for actuating the movable core member, contact members, and means controlled by the relative movement of the core member and the rod for effecting the engagement of the con; tact members under predetermined conditions and for preventing the engagement under other conditions.
11. Arelay comprising an actuating winding, a movable core member, a movable rod, cooperating contact members, and means connected to one of the movable members and actuated by the other for preventing engagement of the contact members when a relatively large overload traverses the wind- %n testimony whereof, I have hereunto subscribed my name this 28th day of November, 1913.
- HAROLD W. BROWN.
Witnesses:
FRED L. CLOCK, D. V. PROCTOR.
US80771413A 1913-12-19 1913-12-19 Electrical protective device. Expired - Lifetime US1253207A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US80771413A US1253207A (en) 1913-12-19 1913-12-19 Electrical protective device.

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US80771413A US1253207A (en) 1913-12-19 1913-12-19 Electrical protective device.

Publications (1)

Publication Number Publication Date
US1253207A true US1253207A (en) 1918-01-15

Family

ID=3320920

Family Applications (1)

Application Number Title Priority Date Filing Date
US80771413A Expired - Lifetime US1253207A (en) 1913-12-19 1913-12-19 Electrical protective device.

Country Status (1)

Country Link
US (1) US1253207A (en)

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2572637A (en) * 1949-09-01 1951-10-23 Gen Electric Electrical protective device for distribution lines
US2648803A (en) * 1950-03-29 1953-08-11 Ite Circuit Breaker Ltd Cascaded breaker system
US2795671A (en) * 1952-07-17 1957-06-11 Westinghouse Electric Corp Circuit breakers
US2987656A (en) * 1958-03-06 1961-06-06 Handshuh Albert Remote controlled gear shift

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2572637A (en) * 1949-09-01 1951-10-23 Gen Electric Electrical protective device for distribution lines
US2648803A (en) * 1950-03-29 1953-08-11 Ite Circuit Breaker Ltd Cascaded breaker system
US2795671A (en) * 1952-07-17 1957-06-11 Westinghouse Electric Corp Circuit breakers
US2987656A (en) * 1958-03-06 1961-06-06 Handshuh Albert Remote controlled gear shift

Similar Documents

Publication Publication Date Title
US2387372A (en) Circuit disconnecting device
GB830018A (en) Protective device for electrical circuits and apparatus
US3539867A (en) Ground-fault protection systems
US1253207A (en) Electrical protective device.
US1684249A (en) Automatic circuit controller
US1768452A (en) Time-delay controlling device and system
US2550496A (en) Nonoscillating protective control system
US1705676A (en) Electrical protective device
US2606261A (en) Electrohydraulic trip device
US1813181A (en) High-speed circuit interrupter
US2524525A (en) Automatic reclosing circuit interrupter
US1204485A (en) Electrical protective device.
US1443583A (en) Electrical protective device
US975420A (en) System of electric-circuit protection.
US1676340A (en) Relay
US2587341A (en) Circuit opening device
US3483432A (en) Hybrid electromechanical-semiconductor circuit breaker
US1184844A (en) Electric-circuit interrupter.
US1274660A (en) Relay.
US1442289A (en) Tripping device
US1714940A (en) Protective apparatus
US1406267A (en) Circuit interrupter
US1365288A (en) Electrical protective device
US1637360A (en) Circuit-interrupting system
US1241533A (en) Circuit-interrupter.