US2279230A - Bushing - Google Patents

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Publication number
US2279230A
US2279230A US309003A US30900339A US2279230A US 2279230 A US2279230 A US 2279230A US 309003 A US309003 A US 309003A US 30900339 A US30900339 A US 30900339A US 2279230 A US2279230 A US 2279230A
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Prior art keywords
bushing
casing
moisture
dielectric
indicator
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Expired - Lifetime
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US309003A
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Leslie E Frost
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CBS Corp
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Westinghouse Electric and Manufacturing Co
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Priority to US309003A priority Critical patent/US2279230A/en
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01BCABLES; CONDUCTORS; INSULATORS; SELECTION OF MATERIALS FOR THEIR CONDUCTIVE, INSULATING OR DIELECTRIC PROPERTIES
    • H01B17/00Insulators or insulating bodies characterised by their form
    • H01B17/34Insulators containing liquid, e.g. oil

Definitions

  • Patented Apr. 7 1942 RUSHING Leslie E. Frost, Wlikinsburg,
  • This invention relates to high tension electrical bushings. and particularly to bushings having a visible indicator therein for indicating the presence of moisture.
  • An object of this invention is to provide a bushing having a sensitive detector or indicator for visually indicating the presence of moisture within the bushing.
  • Another object of this invention is to provide a bushing having a sensitive indicator composed oi a carrier and a material responsive to moisture conditions for its color, disposed within the bushing whereby the presence oi moisture within the casing is indicated by the color of the material.
  • the electrical apparatus with which the bushing is to be associated i includes a tubular conductor iii which is wrapped with alternate layers of conducting and insulating material to constitute a condenser'type of bushing i2.
  • the lower part of the condenser bushing i2 and the tank of the immersed apparatus with which the bushing is to be employed are not illustrated since they do not form a part oi this invention. and the mechanism of the lower part of such bushing structures ⁇ are well known.
  • a dielectric tube member or weather casing It of some suitable material such as porcelain is disposed in spaced relation thereto as illustrated in the drawing.
  • the tubular dielectric member i4 is provided with a plurality of radial creepage flanges i8 as is usual practice.
  • a casing 20 of a character that the level of the dielectric medium il may be observed therethrough is disposed in spaced relation thereto.
  • a transparent material such as glass as the casing 2li, the casing being so proportioned with respect to the upper end of the tubular dielectric member il that it seats thereon in and-to-end relation when disposed about the conductor.
  • a hollow chamber or cap 24 is disposed about the end oi' the conductor and secured thereto to seaton the end of the casing 2li.
  • a gasket ZB of any suitable material is disposed between the end of the casing 2li and the cap 24 for sealing the joint therebetween, while a nut cap 2B in threaded engagement with the end o! the conductor I0 retains the different elements in assembled posi-- tion.
  • Speciiic details oir the cap structure and the manner of securing it to the conductor aren'o't illustrated. since any 0f the well known expgg..
  • sion chamber structures and method of securing them to maintain the casing elements under coinpression may be employed. 4
  • an indicator lli is disposed in the bushing in the gas space I! which is nor-,
  • the indicator 30 is carried by the lower portion of the hollow chamber 2l by means of the pins Il, although any other suitable means for positioning the indicator in the gas space is satisfactory as long as it is visible through the transparent member 20.
  • the indicator 30 comprises any suitable carrier capable of carrying other materials as will be explained more fully hereinafter.
  • Fibrous material such as filter paper. blotting paper. cloth or the like, 4and which ls substantially unaffected by exposure to or immersion in the dielectric medium is suitable as the body or carrier of the indicator lll.
  • the carrier is at least coated and preferably is impregnated with a chemical compound or salt which is very sensitive to the presence oi' moisture for its color and is unaected by immersion in the dielectric medium in the bushing.
  • the detector or inindicator 30 is ready for use and is positioned in the gas space above the oil level in the bushing as referred to hereinbeore.
  • the indicator can be placed in the bushing either during the initial assembly of the elements of the bushing or in the ileld.
  • cobalt chloride As a specific example of a chemical compound suitable for use as the color indicator, cobalt chloride (CoClzl is found to be very effective, the hydrates of' the cobalt chloride having different colors depending upon the amount of moisture encountered.
  • a solution is prepared ranging from 15 to 45 parts by weight of cobalt chloride and preferably 30 parts by 'weight to 100 parts by weight of vvs- ⁇ ter.
  • the carrier is then impregnated with the solution after 'which it is dried at a temperature of about 100 C. for a period of time of about one hour to ensure that the indicator contains the dehydrated form of the chemical compound.
  • the indicator When the carrier carries the dehydrated cobalt chloride. the indicator has a very deep blue color which is characteristic of the dehydrated Ircobalt chloride. As the indicator is exposed moisture, a denite change inthe color of the indicator is noticed. the change of color ranging from a deep blue for -the dehydrated form to red for the completely hydrated form of the cobalt chloride. In'changing from the deep blue color to the red color, it is first noticed that in the presence of suiilcient moisture to form the monohydrate of cobalt chloride.
  • the color is violet, whereas in the presence of sufficient moisture to form the dihydrate of cobalt chloride, the color is rose-red, and upon exposure to suiiicient moistureto form the hexahydrate of cobalt chloride the indicator has a definite red color. Thus it is apparent that the indicator visible through the transparent member 20 gives a definite color .
  • the indicator is quite sensitive and, since it is readily visible through the member 20, functions to warn the operator when moisture is admitted to the bushing so that the bushing can be removed from service and the moisture removed from the bushing before the dielectric properties of the bushing are impaired.
  • a sealed bushing structure provided with a casing and a liquid dielectric in the casing, the casing being of a character that the level of the liquid dielectric may be observed therethrough, in combination.
  • a carrier disposed in the casing adjacent the level of the dielectric. and a material which is stable in the presence of the liquid di electric but responsive to moisture conditions for its color carried by the carrier and also normally visible above the level of the liquid dielectric through the casing.
  • a sealed bushing structure provided with a casing and a liquid dielectric in the casing, the casing being of a character that the level of the liquid dielectric may be observed therethrough, in combination, a carrier disposed in the casing adjacent the level of the dielectric. and a chemical compound which is stable in the presence of the liquid dielectric but responsive to moisture conditions ior its color carried by the carrier and also normally visible above the level oi the liquid di electric through the casing.
  • a sealed bushing structure provided with a casing and a liquid dielectric in the casing, the casing being of a character that the level of the liquid dielectric may be observed therethrough, in combination, a carrier formed of fibrous material disposed in the casing adjacent the level of the dielectric, and a chemical compound which is stable in the presence of the liquid dielectric but responsive to moisture conditions for its color carried by the nbrous materialand also normally visible above the level of the liquid dielectric through the casing.
  • a carrier formed of brous material disposed in the casing adjacent the level of the dielectric, and a chemical compound which is stable in the presence of the liquid dielectric but responsive to moisture conditions for its color carried by the fibrous material and also normally visible above the level of the liquid dielectric through the casing, the chemical compound being cobalt chloride.

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  • Chemical & Material Sciences (AREA)
  • Oil, Petroleum & Natural Gas (AREA)
  • Investigating Or Analysing Materials By The Use Of Chemical Reactions (AREA)

Description

Patented Apr. 7 1942 RUSHING Leslie E. Frost, Wlikinsburg,
Pa., assigner to Westinghouse Electric Jr Manufacturing Com- Dany. East Pittsburgh Pennsylvania Pa.. a corporation of Application December 13. 1939, Serial No. 309,003
Claims.
This invention relates to high tension electrical bushings. and particularly to bushings having a visible indicator therein for indicating the presence of moisture.
In condenser bushings used on circuit breakers and transformers, a sealed structure is desired te prevent access oi moisture to the condenser or dielectric medium within the bushing. In service. it is found that the seals between the elements of the bushing sometimes become imperfect with the result that the bushing breathes" and moisture is admitted. In time this moisture in the form of water works its way through the dielectric medium and penetrates the condenser impairing the dielectric properties of the bushing. In order to prevent damage to the bushing occasioned by moisture which may be admitted thereto, it is desired to provide a detector or indicator within the bushing which will indicate the presence of moisture before it causes serious damage to the assembly.
An obiect of this invention is to provide a bushing having a sensitive detector or indicator for visually indicating the presence of moisture within the bushing.
Another object of this invention is to provide a bushing having a sensitive indicator composed oi a carrier and a material responsive to moisture conditions for its color, disposed within the bushing whereby the presence oi moisture within the casing is indicated by the color of the material.
Other objects of this invention will become ap parent from the following description when taken in conjunction with the accompanying drawing, the single ligure of which is a view in elevation and partly in section of a portion oi a bushing embodying the teachings of this invention. Referring to the drawing. the electrical apparatus with which the bushing is to be associated i includes a tubular conductor iii which is wrapped with alternate layers of conducting and insulating material to constitute a condenser'type of bushing i2. The lower part of the condenser bushing i2 and the tank of the immersed apparatus with which the bushing is to be employed are not illustrated since they do not form a part oi this invention. and the mechanism of the lower part of such bushing structures `are well known.
In order to provide a casing about the conductor s Il and condenser bushing i2. a dielectric tube member or weather casing It of some suitable material such as porcelain is disposed in spaced relation thereto as illustrated in the drawing. The tubular dielectric member i4 is provided with a plurality of radial creepage flanges i8 as is usual practice. i
Since the space between the condenser and the weather casing is to be iilled with a dielectric medium Il such as oil or other insulating fluids, a casing 20 of a character that the level of the dielectric medium il may be observed therethrough is disposed in spaced relation thereto. In practice it is preferred to utilize a transparent material such as glass as the casing 2li, the casing being so proportioned with respect to the upper end of the tubular dielectric member il that it seats thereon in and-to-end relation when disposed about the conductor.
In assembling the tubular dielectric member It and the transparent casing 2li about the conductor il and condenser bushing i2, the joint between the abutting ends of the members. it and 2li is sealed with any suitable gasket 22 which is resistant tothe conditions encountered in service. Although many diiierent compositions can be used as the gasket 22. in order to ensure a sealed joint between the elements It and 2li it is preferred to employ the bushing structure embodying the seal of thermoplastic material for sealing the members il and 2li as disclosed and claimed in copending applications, Serial Nos. 184,832 and 184.830, iiled January 13, 1938, of James G. Ford and Edwin E. Arnold and granted as Patent Nos` 2,189,632 and 2,189,621, respectively, in practicing this invention.
As is'usual practice, in order to provide an expansion chamber for the dielectric mediumV i8 and to maintain the members il and 20 in assembled position with respect to the conductor l0, a hollow chamber or cap 24 is disposed about the end oi' the conductor and secured thereto to seaton the end of the casing 2li. A gasket ZB of any suitable material is disposed between the end of the casing 2li and the cap 24 for sealing the joint therebetween, while a nut cap 2B in threaded engagement with the end o! the conductor I0 retains the different elements in assembled posi-- tion. Speciiic details oir the cap structure and the manner of securing it to the conductor aren'o't illustrated. since any 0f the well known expgg..
sion chamber structures and method of securing them to maintain the casing elements under coinpression may be employed. 4 In order to provide a visible detector or indicator responsive to moisture conditions within the bushing for indicating the presence oi any moisture in the bushing admitted through faulty joints or otherwise. an indicator lli is disposed in the bushing in the gas space I! which is nor-,
mally present above the level of the dielectric medium IB in such manner that it is visible through the transparent casing 20. As illustrated, the indicator 30 is carried by the lower portion of the hollow chamber 2l by means of the pins Il, although any other suitable means for positioning the indicator in the gas space is satisfactory as long as it is visible through the transparent member 20.
In practice, the indicator 30 comprises any suitable carrier capable of carrying other materials as will be explained more fully hereinafter. Fibrous material such as filter paper. blotting paper. cloth or the like, 4and which ls substantially unaffected by exposure to or immersion in the dielectric medium is suitable as the body or carrier of the indicator lll.
In order that the indicator will show the presence oi moisture within the bushing, a material which is responsive to moisture conditions for its color is employed in conjunction with the carrier. As specific examples of such materials, cobalt chloride (CoClz). cobalt bromide (CoBrz), cobalt iodide (Cola), copper sulphate (CuSO-i), nickel sulphate iNiSOi) and others are satisfactory, Thus the carrier is at least coated and preferably is impregnated with a chemical compound or salt which is very sensitive to the presence oi' moisture for its color and is unaected by immersion in the dielectric medium in the bushing.
In order to utilize such chemical compounds in the indicator, they are formed into a water solution and the carrier is impregnated with a solution after which it is dried to leave the chemical compound in the carrier in an anhydrous or de hydrated form. In this form. the detector or inindicator 30 is ready for use and is positioned in the gas space above the oil level in the bushing as referred to hereinbeore. The indicator can be placed in the bushing either during the initial assembly of the elements of the bushing or in the ileld.
As a specific example of a chemical compound suitable for use as the color indicator, cobalt chloride (CoClzl is found to be very effective, the hydrates of' the cobalt chloride having different colors depending upon the amount of moisture encountered. In employing the cobalt chloride, a solution is prepared ranging from 15 to 45 parts by weight of cobalt chloride and preferably 30 parts by 'weight to 100 parts by weight of vvs-` ter. The carrier is then impregnated with the solution after 'which it is dried at a temperature of about 100 C. for a period of time of about one hour to ensure that the indicator contains the dehydrated form of the chemical compound.
When the carrier carries the dehydrated cobalt chloride. the indicator has a very deep blue color which is characteristic of the dehydrated Ircobalt chloride. As the indicator is exposed moisture, a denite change inthe color of the indicator is noticed. the change of color ranging from a deep blue for -the dehydrated form to red for the completely hydrated form of the cobalt chloride. In'changing from the deep blue color to the red color, it is first noticed that in the presence of suiilcient moisture to form the monohydrate of cobalt chloride. the color is violet, whereas in the presence of sufficient moisture to form the dihydrate of cobalt chloride, the color is rose-red, and upon exposure to suiiicient moistureto form the hexahydrate of cobalt chloride the indicator has a definite red color. Thus it is apparent that the indicator visible through the transparent member 20 gives a definite color .all
rango depending upon the degree of moisture within the bushing. The indicator is quite sensitive and, since it is readily visible through the member 20, functions to warn the operator when moisture is admitted to the bushing so that the bushing can be removed from service and the moisture removed from the bushing before the dielectric properties of the bushing are impaired.
The advantages of the apparatus of this invention are quite apparent. it being readily appreciated that such a visible detector or indicator is very sensitive to the presence oi moisture and possesses no complicated mechanical parts which can get out of order when the bushing is in service in the field. Further, where moisture is detected and the bushing is removed from service to remove the moisture, fresh indicators containing the chemical compound in its dehydrated form can ba.. substituted for those detectors which have changed their color due to the presence of the moisture. Where desired, the detectors which `.ave changed color can be replaced after they have been given a simple heat treatment to completely dehydrate the chemical compound with which the carrier is impregnated. Further, the indicator utilized in this invention is unaffected by exposure to or immersion in the dielectric medium IB. the indicator remaining quite stable and unaffected except by the presence of moisture.
Although this invention has been described with reference to a particular embodiment thereof. it is, of course, not to be limited thereto except insofar as is necessitated by the disclosed subject matter and the appended claims.
I claim. as my invention: l
l. In a sealed bushing structure provided with a casing and a liquid dielectric in the casing, the casing being of a character that the level of the liquid dielectric may be observed therethrough, in combination. a carrier disposed in the casing adjacent the level of the dielectric. and a material which is stable in the presence of the liquid di electric but responsive to moisture conditions for its color carried by the carrier and also normally visible above the level of the liquid dielectric through the casing.
2. In a sealed bushing structure provided with a casing and a liquid dielectric in the casing, the casing being of a character that the level of the liquid dielectric may be observed therethrough, in combination, a carrier disposed in the casing adjacent the level of the dielectric. and a chemical compound which is stable in the presence of the liquid dielectric but responsive to moisture conditions ior its color carried by the carrier and also normally visible above the level oi the liquid di electric through the casing.
3. In a sealed bushing structure provided with a casing and a liquid dielectric in the casing, the casing being of a character that the level of the liquid dielectric may be observed therethrough, in combination, a carrier formed of fibrous material disposed in the casing adjacent the level of the dielectric, and a chemical compound which is stable in the presence of the liquid dielectric but responsive to moisture conditions for its color carried by the nbrous materialand also normally visible above the level of the liquid dielectric through the casing.
4. In a sealed bushing structure provided with a casing and a liquid dielectric in the casing, the casing being of a character that the level of the liquid dielectric may be observed therethrough,
in combination, a carrier formed of brous material disposed in the casing adjacent the level of the dielectric, and a chemical compound which is stable in the presence of the liquid dielectric but responsive to moisture conditions for its color carried by the fibrous material and also normally visible above the level of the liquid dielectric through the casing, the chemical compound being cobalt chloride.
5. In a sealed bushing structure provided with a casing and a liquid dielectric in the casing, the casing being of a character that the level of the liquid dielectric may be observed therethrough, in combination, a carrier formed of fibrous material disposed in the casing adjacent the level ol the dielectric, the fibrous material being impregnated with a material which is stable in the presence of the liquid dielectric but responsive to moisture conditions for its color, the impregnated brous material being normally visble above the level of the liquid dielectric through the casing for visually ascertaining the color of the impregnating material.
LESLIE E. FROST.
US309003A 1939-12-13 1939-12-13 Bushing Expired - Lifetime US2279230A (en)

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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2505581A (en) * 1945-03-26 1950-04-25 Gen Electric Means for drying gas in electrical apparatus
US2537124A (en) * 1946-01-23 1951-01-09 Union Bay State Co Inc Latex adhesive containing phenolphthalein and method of using the same
US2760368A (en) * 1952-10-21 1956-08-28 Gen Electric Apparatus for measuring the content of water and similar compounds in insulating liquids
US2836974A (en) * 1956-11-26 1958-06-03 Ansul Chemical Co Indicator for water content of liquids
DE1059524B (en) * 1957-04-18 1959-06-18 Bbc Brown Boveri & Cie Device for continuous optical observation of the ventilation process of high-voltage insulators
US3445805A (en) * 1967-05-18 1969-05-20 Schlumberger Technology Corp Electrical connector
US4359908A (en) * 1980-12-29 1982-11-23 General Electric Company Electrical bushing gas sampling apparatus and method

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2505581A (en) * 1945-03-26 1950-04-25 Gen Electric Means for drying gas in electrical apparatus
US2537124A (en) * 1946-01-23 1951-01-09 Union Bay State Co Inc Latex adhesive containing phenolphthalein and method of using the same
US2760368A (en) * 1952-10-21 1956-08-28 Gen Electric Apparatus for measuring the content of water and similar compounds in insulating liquids
US2836974A (en) * 1956-11-26 1958-06-03 Ansul Chemical Co Indicator for water content of liquids
DE1059524B (en) * 1957-04-18 1959-06-18 Bbc Brown Boveri & Cie Device for continuous optical observation of the ventilation process of high-voltage insulators
US3445805A (en) * 1967-05-18 1969-05-20 Schlumberger Technology Corp Electrical connector
US4359908A (en) * 1980-12-29 1982-11-23 General Electric Company Electrical bushing gas sampling apparatus and method

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