US2422288A - Apparatus for testing electrical insulation - Google Patents

Apparatus for testing electrical insulation Download PDF

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Publication number
US2422288A
US2422288A US538403A US53840344A US2422288A US 2422288 A US2422288 A US 2422288A US 538403 A US538403 A US 538403A US 53840344 A US53840344 A US 53840344A US 2422288 A US2422288 A US 2422288A
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current
conductor
transformer
primary winding
contactor
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Expired - Lifetime
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US538403A
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Wentworth D Boynton
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AT&T Corp
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Western Electric Co Inc
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Priority to US538403A priority Critical patent/US2422288A/en
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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01RMEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
    • G01R31/00Arrangements for testing electric properties; Arrangements for locating electric faults; Arrangements for electrical testing characterised by what is being tested not provided for elsewhere
    • G01R31/50Testing of electric apparatus, lines, cables or components for short-circuits, continuity, leakage current or incorrect line connections
    • G01R31/58Testing of lines, cables or conductors
    • G01R31/59Testing of lines, cables or conductors while the cable continuously passes the testing apparatus, e.g. during manufacture

Definitions

  • This invention relates to electrical insulation testing apparatus and more particularly to apparatus for testing insulating jackets of cables, and has for its'object the provision of new and improved electrical insulation testing apparatus.
  • One apparatus embodying the invention includes a source of alternating current and a transformer whose primary winding i connected to the source of current.
  • High-sensitivity means associated with the transformer are operable by an increased flow of current through the transformer and means are provided which prevent the operation of the last-mentioned means from a surge of transient current occurring when the initially.
  • a power line I comprising conductors I I and I2 is connected to a source of 110 volt, 6O cycle alternating current (not shown).
  • the conductor II has a manually operable switch I5 positioned therein and leads to an end of I6 of a step-up transformer l1.
  • a transformer which has beenfound to be suitable is a closecoupled, low-leakage, 60 cycle, 100 volt-ampere, transformer and requires a current of not more than 50 milliampere at 110 volts to be magnetized.
  • aprimary winding Conductors I9 and 20 connect/the other end I of the primary winding I 6 to one end of a coil 2
  • -A relay which has been found to be satisfactory tive relay with milliamperes at 60 cycles.
  • is connected to the conductor I2.
  • a lamp 25 connected across the conductors II and I2 indicates when power is being supplied to the primary winding I6.
  • a condenser 26 whose capacity is about 2 microfarads, is connected to the conductors II, I9 and 20 in parallel with the primary winding.” of the transformer I1.
  • a test circuit 30 includes a secondary winding 3
  • the contactor 31 serves to contact the exterior portion of an insulating Jacket 38, which serves to enclose a conductor 40.
  • One end of the con-- ductor 40 is grounded by being connected to a supply reel 42 which is grounded and the-conductor 40 and the jacket 38 are contactor 31 by a capstan 4
  • Thecurrent-responsive relay 22 includes a conforced into engagement with contacts 46 and 41 when the relay 22 is actuated.
  • the contact 41 is connected by a conductor 4! to the conductor IS.
  • a conventional electric hell 5! is connected by conductors 5
  • the hell 5! is rung and the lamp 55 is lighted by a circuit including the conductors l I, 5i, 56, 51, 52!, the contact 46, the contactor 45, the contact 41, the conductors 49 and 20, the coil 2
  • transient magnetizing current of high frequency When power is supplied to the transformer I1 by closing the switch I 5, a transient magnetizing current of high frequency may occur which is superposed on the fundamental magnetizing current of the transformer, the value of which will depend upon the residual magnetism of the transformer core and the point on the voltage wave at which the switch I 5 is closed.
  • the transient magnetizing current is characterized by one or more harmonics of which the second is in general Consequently, the condenser 26 is turned with the primary winding l6 to form a parallel resonant circuit only when this transient high frequency magnetizing current occurs.
  • the resonating circuit composed of the primary winding I6 and the condenser 26 provides a sufliciently high impedance only to the flow of the transient high frequency magnetizing current from the source of power sothat the current-responsive relay 22 is not operated thereby. Since only'the transient high frequency magnetizing current is controlled by the resonant circuit during the condition that may exist when power is first supplied moved past the predominating.
  • the test circuit 30 is closed only when the contactor 31 encounters a fault in the jacket 88 and at that time the high potential induced in the test circuit by the transformer l1 causes a high current to flow through the fault to the conductor 40 and through that conductor to the grounded supply reel 42.
  • one end of the conductor 40 is grounded by securing one end thereof to the grounded supply reel 42.
  • the conductor 40 and the jacket 38 are then positioned with respect to the apparatus so that the contactor 31 engages the insulating jacket 38.
  • the switch I is then closed to energize the primary winding former 11, whereby a, high potential alternating current is induced in the secondary winding 3!, and the contactor 31 is maintained at a high potential.
  • the jacket 38 is drawn past the contactor 31 by the capstan 4i, and if no fault is present in the insulating jacket 38, current does not flow through the test circuit 30.
  • the con tactor 31 when a portion of the insulating jacket 38 having a fault therein is drawn past the contactor 37, high potential applied to the con tactor 31 will cause current to flow through the fault to the grounded conductor 40. This current will flow from ground through the secondary winding 3
  • the current flowing through the testing circuit 30 causes amuch increased current in the primary winding ii of the transformer H in accordance with accepted transformer theory. This increased current flows through the coil H, which draws the contactor 55 into engagement with the contacts 48 and 41', whereby the bell 50 is rung and the lamp is is lighted to indicate the presence of the fault.
  • the switch l5 then is opened to deenergize the bell 50 and the lamp 55.
  • the portion of the cable containing the fault then may be tagged and after reclosing the switch IS the test of the cable continued to locate any additional faults.
  • the above described apparatus serves to locate faults in insulating jackets of cables quickly and accurately and will not be operated falsely by a transient surge of high frequency current occurring when the transformer is energized initially and when there is no fault in an insulating jacket being tested.
  • the apparatus obviously may be used to locate faults in cables or in multil6' of the step-up transconductor insulated conductors as well as to locate faults in a single-conductor insulated conductor.
  • An apparatus for electrically testing the inof a conductor forming part of an electric cable which comprises a testing circuit energizeble to impress a high A. C. potential across the insulation and conductor of such a cable, a stepup transformer for energizing the testing circuit the windings of which are subject to transient magnetizing currents upon initial energization of the primary winding, means for connecting the primary winding of said transformer to a suitable A. 0.
  • a current-responsive rel y connected in series with the primary winding of said transformer and responsive to an increased current flow in the primary winding such as may be caused by the occurrence of a breakdown in the insulation of the conductor being tested, means operable by said current responsive relay to indicate when such a breakdown occurs, and a condenser connected in parallel with the primary winding of said transformen said condenser being of such capacity that the parallel circuit which it forms with the primary winding is tuned to such a frequency that it prevents the transient magnetizing current occurring upon the initial energization of the primary winding from operating said current responsive relay.
  • a step-up transformer having its secondary winding arranged to impress a high potential across the insulation and conductor of a cable to be tested and its primary winding connected to an A. C. supply in series with a relay operable when an increased current flows in said primary winding such as an increased primary current due to a breakdown in the insulation of the cable being tested, which transformer windings are subject to transient magnetizing currents upon initial energization of the primary winding, and means operable by said current relay for indicating when such a, breakdown occurs, a condenser connected in parallel with the primary winding of the transformer and tuned therewith to form a parallel resonant circuit for a predominant harmonic of the transient magnetizing current of the transformer, thereby preventing operation of the current responsive relay by said transient magnetizing currents, said parallel resonant circuit being ineffective to prevent operation of the current responsive relay with respect to said normal frequency increased current flow in the transformer windings.

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Testing Of Short-Circuits, Discontinuities, Leakage, Or Incorrect Line Connections (AREA)

Description

June 17, 1947. w, 0. BOYN roN APPARATUS FOR TESTING ELECTRICAL INSULATION Filed June 2, 1944 V VVV INVENTOR W. D. 80 YN TON BY A T TORNE Y transformer is energized Paramecium 17, 1941' APPARATUS Foa 'rzs'rmo moment. INSULATION Wentworth n. Boynton, Woodbrook. Md., assignor to Western Electric New York, N. Y., a co Company, Incorporated, rporation of New York.
Application June 2, 1944, Serial No. 538,403
20mm. (or 115-183l Q 1 i This invention relates to electrical insulation testing apparatus and more particularly to apparatus for testing insulating jackets of cables, and has for its'object the provision of new and improved electrical insulation testing apparatus.
One apparatus embodying the invention includes a source of alternating current and a transformer whose primary winding i connected to the source of current. High-sensitivity means associated with the transformer are operable by an increased flow of current through the transformer and means are provided which prevent the operation of the last-mentioned means from a surge of transient current occurring when the initially.
A complete understanding of the invention may be obtained from the following detailed description of a specific embodiment thereof, when read in conjunction with the appended drawing, in
which the single figure comprises a schematic view of a testing apparatus embodying the invention.
Referring more particularly to the drawing, a power line I comprising conductors I I and I2 is connected to a source of 110 volt, 6O cycle alternating current (not shown). The conductor II has a manually operable switch I5 positioned therein and leads to an end of I6 of a step-up transformer l1. A transformer which has beenfound to be suitable is a closecoupled, low-leakage, 60 cycle, 100 volt-ampere, transformer and requires a current of not more than 50 milliampere at 110 volts to be magnetized.
' contactor 61.
aprimary winding Conductors I9 and 20 connect/the other end I of the primary winding I 6 to one end of a coil 2| of a current-responsive relay 22. -A relay which has been found to be satisfactory tive relay with milliamperes at 60 cycles. The other end of the coil 2| is connected to the conductor I2. When the switch I 6 is closed, power is supplied to the primary winding I6 from the conductor II and from the conductor I2, the coil 2i and the conductors 20 and I9. A lamp 25 connected across the conductors II and I2 indicates when power is being supplied to the primary winding I6. A condenser 26 whose capacity is about 2 microfarads, is connected to the conductors II, I9 and 20 in parallel with the primary winding." of the transformer I1.
A test circuit 30 includes a secondary winding 3| of the transformer, I1. 'One end of the secondary winding 3| is grounded and the other end thereof is connected by a conductor 32 to one end of a resistance 36. The other end of the is a sensia coil to operate the relay on I08 tactor 45, which is 2 J resistance 35 is connected by a conductor 36 to a The contactor BIfmay be in the form of 'a chain electrode similar to the contactor shown in Patent No. 1,952,582, issued March 27, 1934. I
:'The contactor 31 serves to contact the exterior portion of an insulating Jacket 38, which serves to enclose a conductor 40. One end of the con-- ductor 40 is grounded by being connected to a supply reel 42 which is grounded and the-conductor 40 and the jacket 38 are contactor 31 by a capstan 4|.
Thecurrent-responsive relay 22 includes a conforced into engagement with contacts 46 and 41 when the relay 22 is actuated. The contact 41 is connected by a conductor 4! to the conductor IS. A conventional electric hell 5!! is connected by conductors 5| and 52 to the conductor II and the contact 46, respectively, and a lamp 55 is connected by conductors 56 and 51 to the conductors 5| and 52, respectively, in parallel with the bell 50. .When the contactor 45 is in engagement with the contacts 46 and 41, the hell 5!! is rung and the lamp 55 is lighted by a circuit including the conductors l I, 5i, 56, 51, 52!, the contact 46, the contactor 45, the contact 41, the conductors 49 and 20, the coil 2| and the conductor I 2.
When power is supplied to the transformer I1 by closing the switch I 5,a transient magnetizing current of high frequency may occur which is superposed on the fundamental magnetizing current of the transformer, the value of which will depend upon the residual magnetism of the transformer core and the point on the voltage wave at which the switch I 5 is closed. The transient magnetizing current is characterized by one or more harmonics of which the second is in general Consequently, the condenser 26 is turned with the primary winding l6 to form a parallel resonant circuit only when this transient high frequency magnetizing current occurs. The resonating circuit composed of the primary winding I6 and the condenser 26 provides a sufliciently high impedance only to the flow of the transient high frequency magnetizing current from the source of power sothat the current-responsive relay 22 is not operated thereby. Since only'the transient high frequency magnetizing current is controlled by the resonant circuit during the condition that may exist when power is first supplied moved past the predominating.
sulation 3 contactor 31, is not affected by the resonant circuit and the current-responsive relay will be operated by this fault current.
The test circuit 30 is closed only when the contactor 31 encounters a fault in the jacket 88 and at that time the high potential induced in the test circuit by the transformer l1 causes a high current to flow through the fault to the conductor 40 and through that conductor to the grounded supply reel 42.
In the operation of the above described apparatus, one end of the conductor 40 is grounded by securing one end thereof to the grounded supply reel 42. The conductor 40 and the jacket 38 are then positioned with respect to the apparatus so that the contactor 31 engages the insulating jacket 38. The switch I is then closed to energize the primary winding former 11, whereby a, high potential alternating current is induced in the secondary winding 3!, and the contactor 31 is maintained at a high potential. The jacket 38 is drawn past the contactor 31 by the capstan 4i, and if no fault is present in the insulating jacket 38, current does not flow through the test circuit 30.
However, when a portion of the insulating jacket 38 having a fault therein is drawn past the contactor 37, high potential applied to the con tactor 31 will cause current to flow through the fault to the grounded conductor 40. This current will flow from ground through the secondary winding 3|, the conductor 32, the resistance 85, the conductor 36, the contactor 31, the fault (not shown) in the jacket 38, and the conductor 40 to the grounded supply reel 42. The current flowing through the testing circuit 30 causes amuch increased current in the primary winding ii of the transformer H in accordance with accepted transformer theory. This increased current flows through the coil H, which draws the contactor 55 into engagement with the contacts 48 and 41', whereby the bell 50 is rung and the lamp is is lighted to indicate the presence of the fault. The switch l5 then is opened to deenergize the bell 50 and the lamp 55. The portion of the cable containing the fault then may be tagged and after reclosing the switch IS the test of the cable continued to locate any additional faults.
The above described apparatus serves to locate faults in insulating jackets of cables quickly and accurately and will not be operated falsely by a transient surge of high frequency current occurring when the transformer is energized initially and when there is no fault in an insulating jacket being tested. The apparatus obviously may be used to locate faults in cables or in multil6' of the step-up transconductor insulated conductors as well as to locate faults in a single-conductor insulated conductor.
What is claimed is:
1. An apparatus for electrically testing the inof a conductor forming part of an electric cable, which comprises a testing circuit energizeble to impress a high A. C. potential across the insulation and conductor of such a cable, a stepup transformer for energizing the testing circuit the windings of which are subject to transient magnetizing currents upon initial energization of the primary winding, means for connecting the primary winding of said transformer to a suitable A. 0. power supply, a current-responsive rel y connected in series with the primary winding of said transformer and responsive to an increased current flow in the primary winding such as may be caused by the occurrence of a breakdown in the insulation of the conductor being tested, means operable by said current responsive relay to indicate when such a breakdown occurs, and a condenser connected in parallel with the primary winding of said transformen said condenser being of such capacity that the parallel circuit which it forms with the primary winding is tuned to such a frequency that it prevents the transient magnetizing current occurring upon the initial energization of the primary winding from operating said current responsive relay.
2. In combination with a step-up transformer having its secondary winding arranged to impress a high potential across the insulation and conductor of a cable to be tested and its primary winding connected to an A. C. supply in series with a relay operable when an increased current flows in said primary winding such as an increased primary current due to a breakdown in the insulation of the cable being tested, which transformer windings are subject to transient magnetizing currents upon initial energization of the primary winding, and means operable by said current relay for indicating when such a, breakdown occurs, a condenser connected in parallel with the primary winding of the transformer and tuned therewith to form a parallel resonant circuit for a predominant harmonic of the transient magnetizing current of the transformer, thereby preventing operation of the current responsive relay by said transient magnetizing currents, said parallel resonant circuit being ineffective to prevent operation of the current responsive relay with respect to said normal frequency increased current flow in the transformer windings.
WENTWORTH D. BOYNTON.
REFERENCES CITED The following references are of record in the file of this patent:
UNITED STATES PATENTS
US538403A 1944-06-02 1944-06-02 Apparatus for testing electrical insulation Expired - Lifetime US2422288A (en)

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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2683242A (en) * 1949-02-16 1954-07-06 Jefferson Electric Co Control device and lighting system
US2728889A (en) * 1952-10-03 1955-12-27 Nelson Tester Company Inc Electrical leakage tester
US3099000A (en) * 1959-05-20 1963-07-23 Ibm Signal monitor
US4260566A (en) * 1979-10-24 1981-04-07 Aluminum Company Of America Strand shield defect detector
US4740756A (en) * 1986-05-30 1988-04-26 Essex Group, Inc. Continuity test method and apparatus
US4746911A (en) * 1983-12-08 1988-05-24 Rune Helmersson Alarm device for isolated pipe systems
US4786876A (en) * 1986-05-30 1988-11-22 Essex Group, Inc. Continuity test method and test card circuit

Citations (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1525282A (en) * 1921-10-15 1925-02-03 James L Entwistle Wire-insulation tester
US1787277A (en) * 1929-08-21 1930-12-30 Gen Electric Protective arrangement
US1919802A (en) * 1929-09-25 1933-07-25 Western Electric Co Apparatus for testing insulation
GB416308A (en) * 1932-12-05 1934-09-13 Gen Electric Improvements in and relating to methods of transmitting high frequency currents along conductors
US2145724A (en) * 1937-03-24 1939-01-31 Caperton B Horsley Contact welding
US2220489A (en) * 1936-12-01 1940-11-05 Ibm Sensing device
US2221323A (en) * 1938-08-22 1940-11-12 John R Gammeter Apparatus and method for testing and assorting thin rubber goods
US2276032A (en) * 1940-07-31 1942-03-10 Westinghouse Electric & Mfg Co Adjustable reactance transformer
US2280119A (en) * 1940-09-21 1942-04-21 Cons Edison Co New York Inc Method and apparatus for electrically testing protective coatings and the like

Patent Citations (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1525282A (en) * 1921-10-15 1925-02-03 James L Entwistle Wire-insulation tester
US1787277A (en) * 1929-08-21 1930-12-30 Gen Electric Protective arrangement
US1919802A (en) * 1929-09-25 1933-07-25 Western Electric Co Apparatus for testing insulation
GB416308A (en) * 1932-12-05 1934-09-13 Gen Electric Improvements in and relating to methods of transmitting high frequency currents along conductors
US2220489A (en) * 1936-12-01 1940-11-05 Ibm Sensing device
US2145724A (en) * 1937-03-24 1939-01-31 Caperton B Horsley Contact welding
US2221323A (en) * 1938-08-22 1940-11-12 John R Gammeter Apparatus and method for testing and assorting thin rubber goods
US2276032A (en) * 1940-07-31 1942-03-10 Westinghouse Electric & Mfg Co Adjustable reactance transformer
US2280119A (en) * 1940-09-21 1942-04-21 Cons Edison Co New York Inc Method and apparatus for electrically testing protective coatings and the like

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2683242A (en) * 1949-02-16 1954-07-06 Jefferson Electric Co Control device and lighting system
US2728889A (en) * 1952-10-03 1955-12-27 Nelson Tester Company Inc Electrical leakage tester
US3099000A (en) * 1959-05-20 1963-07-23 Ibm Signal monitor
US4260566A (en) * 1979-10-24 1981-04-07 Aluminum Company Of America Strand shield defect detector
US4746911A (en) * 1983-12-08 1988-05-24 Rune Helmersson Alarm device for isolated pipe systems
US4740756A (en) * 1986-05-30 1988-04-26 Essex Group, Inc. Continuity test method and apparatus
US4786876A (en) * 1986-05-30 1988-11-22 Essex Group, Inc. Continuity test method and test card circuit

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