US1996423A - Oil insulated electrical apparatus - Google Patents
Oil insulated electrical apparatus Download PDFInfo
- Publication number
- US1996423A US1996423A US518727A US51872731A US1996423A US 1996423 A US1996423 A US 1996423A US 518727 A US518727 A US 518727A US 51872731 A US51872731 A US 51872731A US 1996423 A US1996423 A US 1996423A
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- United States
- Prior art keywords
- oil
- insulating
- receptacle
- cover
- shell
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01F—MAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
- H01F27/00—Details of transformers or inductances, in general
- H01F27/02—Casings
- H01F27/04—Leading of conductors or axles through casings, e.g. for tap-changing arrangements
Definitions
- This invention relates to high tension electrical apparatus, as electric switches and transformers, which are enclosed in oil containing casings and have elevated oil storage or conservator tanks for a keeping the casings full of oil; and to insulating bushings for the high tension terminal leads oi such apparatus.
- An oil fllled insulating bushing as usually constructed, consists of a tubular'shell oi insulating material through which a conducting stud extends, and an intermediate metal sleeve having an attaching flange for supporting the bushing on the tank wall.
- the tubular shell due to its great lengthisusually madewithaplurality otaligned sections having their juxtaposed ends connected together, usually detachably.
- this type considerable difllculty has been experienced in retaining the oil in the bushing'due to its inherent tendency to seep through the joints between the sections.
- the presence of the insulating oil is essential to the sale operation of the bushing and frequent failures have occurred due to gradual and often almost imperceptible seepage of oil through the Joints.
- -It is an-object oi the present invention to cheapen the cost of high tension bushings when applied to 011 containing casings having elevated conservator tanks associated therewith and to provide a bushing having a reduced number of oil tight joints, by providing a bushing that upstands above the top of the apparatus casing but mainly under the oil level in the conservator tank, and
- Another object of the invention is generally to improve the construction and performance oi oil immersed electrical apparatus and insulating bushings therefor.
- Fig.1 isasideelevationoianoilimmersed electrical apparatus embodying the present invention.
- Fig. 2 is a sectional elevation bushing of Fig. l.
- Fig.3 is a section taken on line 4-4 of Fig. 2.
- the invention is illustrated in connection with a single phase transformer comprising an oil cmtaining casing receptacle I I having a cover I! which provides a fluid tight closureatthetopthereoi.
- Saidcover alsoconoianinsulating stitutes the support for a pair of upstanding spaced insulating bushings ll, one oi which is shown in Fig. i, which are secured to said cover I! over openings ll therein and which upstand above and extend downwardly below said cover into the casing ll.
- Said cover i2 is also provided with an upstanding. fluid conduit I!
- Said tank is adapted to contain oil to some level o-a andthus maintains the casing completely fllled with oil, or other suitable insulating liquid, that is under a small head or pressure.
- the tank is usually vented to the atmosphere through the vent pipe 2
- Each oi said insulating bushings It includes the outer tubular insulating shell 22 having external capes 24 and which upstands above the cover I! and is secured in a fluid tight manner thereto about an opening I.
- an annular metal sleeve 2 is secured externally to the lower end of said shell by means of a body of cement 20.
- Said sleeve 28 is provided with an annular outstanding attaching flange 30 which overlies an annular ring 12 carried by the cover It about the periphery oi the passage I.
- Said rin 3! is preferably aflixed to the casing by welding although in some cases it may be formed integral therewith.
- Attaching bolts 34 extend through the flange I. and are screw-threaded into said ring a and serve to clamp said flange against the ring 82, a packing a being employed between the confronting faces of the flange and ring whereby to provide a fluid tight seal thereat.
- annular metal collar 38 is secured to the upperendoisaidsheliflby meansoiabody of cement a.
- Said collar 88 is termed with an integral outstanding annular flange 40 to which a cover 42 is secured by means oi clamping bolts 44 whichextend through an annular peripheral flange 40 of said cover and the flange l0 oi said sleeve.
- a packing 48 may be interposed between the flanges ll and 44, if desired, although an oil tight joint at this point is not essential.
- Said cover 42 is provided with a central upstandingneckllhavinganaxialpassag ii therethrough.
- a flexible high tension" conductor '4 which is electrically connected at its lower end to the electrical apparatus in the receptacle extends upwardly through said shell 22 and has the screw-threaded stem 56 of a hexagonal terminal connector 58 which is soldered to its free end passed loosely through said passage 52.
- a nut 60 which is screw-threaded on said stem above the neck 50 serves to hold the terminal connector 58 in position in said neck. As shown most clearly.
- the cover 42 is pr ⁇ ided with a hexagonal recess 62 in the lower face thereof aligned with the passage 52 in said neck in which the hexagonal connector 58 is closely received and consequently held against rotation relative to the cover.
- a terminal member 64 is provided at the upper end of said connector 58 having a screw threaded passage 66 therein to receive the stem 58 of said connector.
- Said terminal member 64 has an annular depending apron 68 which surrounds the upstanding neck 50 and constitutes a weatherproof closure for the passage 52 therein and is also provided with an upper integral lug I0 for the attachment of'a suitable conductor.
- the metal cap 42 is further provided with an annular depending flange 12 which is concentric with and is spaced apart a substantial distance from the inner surface of the insulating shell 22 and surrounds and is spaced from the conductor 54.
- Said flange constitutes means to support one or more concentrically spaced insulating tubes which subdivide the annular space between the shell 22 and the conductor 54.
- Two tubes I4 and I8 are here shown although a greater number may be employed if desired.
- the inner tube 14 is composed of strips of bakelized paper, or the like, wound on a relatively thin metal supporting tube which depends from and is electrically connected with the flange 12 of the cap 'and which is secured in any suitable manner as by being screw threaded thereto.
- the outer tube 18 is located in the vicinity of the attaching sleeve 26, extending axially above and below said sleeve, and is supported inposition by means of an annular insulating ring 84 which is aflixed at its inner and outer peripheries to the confronting surfaces of said inner and outer insulating tubes 14 and 18 by means of cement, or by other suitable means.
- Said ring as shown most clearly in Fig. 4 is provided with a plurality of spaced vertical passages 86 to permit free fluid communication between the spaces above and below said ring..
- a second insulating ring 88 is cemented to said outer tube 18 externally thereof adjacent the attaching sleeve 26 and occupies the space be-.
- Said insulating ring 88 is preferably free from positive connection with the shell 22 so that, upon dropping the conductor 54 and removing the cover attaching bolts 44, the insulating tubes 14 and 18 may be removed bodily with the cap 42 through the top of the insulating shell 22.
- the ring 88 is provided with a plurality of spaced, vertical arcuate slots 90 in its external periphery which permit the free passage of fluid along the annular space occupied just below the top of the bushing so that oil leakage through the joint between the bushing and the top cap 42 is eliminated and, in any event, the height of oil is intended to be such as to provide adequate insulation for the bushing.
- the top cap of the bushing is provided with a vent 94 so that the gas space above the oil in the bushing can expand and contract without changing the oil level.
- the gas space within the innermost tube 80 also has a vent passage 96 for the same purpose.
- the conservator tank maintains a body of oil in the bushing at a pressure or head not less than that of the atmosphere.
- the conservatortank preferably is arranged to have a large horizontal cross-section so that the oil in the casing can expand into the tank without harmfully changing the oil level in the tank and the bushings.
- oil is used herein to denote any fluid that is electrically insulating and can be used satisfactorily in the presentapparatus.
- Electrical apparatus comprising an oil containing enclosing casing, an insulating bushing extended through said casing and having its interior open to the oil beneath the oil level therein and having a part that upstands above the top oi the oil, and means including an elevated oil tank in communication with the oil in said casing to maintain the oil in said casing at a pressure above that oi the atmosphere and oil in the upstanding part oi said bushing at pressure at least not less than the atmosphere.
- Electrical apparatus comprising an oil containing enclosing casing, an insulating bushing extended through said casing and having its interior open to the oil beneath the oil level therein and having a part that upstands above the top oi the oil, and means including an elevated oil tank in communication with the oil in said casing to maintain the oil in said casing at a pressure above that oi the atmosphere and oil in the upstanding part of said bushing at pressure at least not less than the atmosphere, the interior oi the busl-lng above the oil level therein being vented to the atmosphere.
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- Engineering & Computer Science (AREA)
- Power Engineering (AREA)
- Transformer Cooling (AREA)
Description
April 2, 1935. cs, E. JANSSON OIL INSULATED ELECTRICAL APPARATUS Filed Feb. 27, 1931 ,Trzveni'ar'.
Patented Apr. 2, 1935 UNITED STATES OIL INSULATED PATENT OFFICE 1mm EIEC'IRICAL APPARATUS Application February :1, 1931, Serial no. 518,721
' '0 Claims- .(Cl. 173-418) This invention relates to high tension electrical apparatus, as electric switches and transformers, which are enclosed in oil containing casings and have elevated oil storage or conservator tanks for a keeping the casings full of oil; and to insulating bushings for the high tension terminal leads oi such apparatus.
An oil fllled insulating bushing, as usually constructed, consists of a tubular'shell oi insulating material through which a conducting stud extends, and an intermediate metal sleeve having an attaching flange for supporting the bushing on the tank wall. When the voltage to be insulated is high, the tubular shell due to its great lengthisusually madewithaplurality otaligned sections having their juxtaposed ends connected together, usually detachably. In bushings 01 this type considerable difllculty has been experienced in retaining the oil in the bushing'due to its inherent tendency to seep through the joints between the sections. The presence of the insulating oil is essential to the sale operation of the bushing and frequent failures have occurred due to gradual and often almost imperceptible seepage of oil through the Joints.
-It is an-object oi the present invention to cheapen the cost of high tension bushings when applied to 011 containing casings having elevated conservator tanks associated therewith and to provide a bushing having a reduced number of oil tight joints, by providing a bushing that upstands above the top of the apparatus casing but mainly under the oil level in the conservator tank, and
which is freely open at its lower endtotheinterior oi the casing, and utilizing the elevated head 01' oil in the conservator tank to maintain thebushlngfllledwithoilat leastuptoalevel that is suitably above the top of the apparatus Another object of the invention is generally to improve the construction and performance oi oil immersed electrical apparatus and insulating bushings therefor.
Fig.1isasideelevationoianoilimmersed electrical apparatus embodying the present invention.
Fig. 2 is a sectional elevation bushing of Fig. l.
Fig.3isasectiontabenonlinel-4oil'lg2. Fig. 4 is a section taken on line 4-4 of Fig. 2. As here shown, the invention is illustrated in connection with a single phase transformer comprising an oil cmtaining casing receptacle I I having a cover I! which provides a fluid tight closureatthetopthereoi. Saidcoveralsoconoianinsulating stitutes the support for a pair of upstanding spaced insulating bushings ll, one oi which is shown in Fig. i, which are secured to said cover I! over openings ll therein and which upstand above and extend downwardly below said cover into the casing ll. Said cover i2 is also provided with an upstanding. fluid conduit I! which is freely in communication with the interior of the receptacle and which is also ireely in communication with an elevated conservator tank 20 which is suitably supported above the cover l2. Said tank is adapted to contain oil to some level o-a andthus maintains the casing completely fllled with oil, or other suitable insulating liquid, that is under a small head or pressure. The tank is usually vented to the atmosphere through the vent pipe 2| sothattheoil'inthecasing andtankcan expand and contract freely, due to temperature variation thereoi, without an excessive variation oi pressure.
Each oi said insulating bushings It includes the outer tubular insulating shell 22 having external capes 24 and which upstands above the cover I! and is secured in a fluid tight manner thereto about an opening I. To this end an annular metal sleeve 2 is secured externally to the lower end of said shell by means of a body of cement 20. Said sleeve 28 is provided with an annular outstanding attaching flange 30 which overlies an annular ring 12 carried by the cover It about the periphery oi the passage I. Said rin 3! is preferably aflixed to the casing by welding although in some cases it may be formed integral therewith. Attaching bolts 34 extend through the flange I. and are screw-threaded into said ring a and serve to clamp said flange against the ring 82, a packing a being employed between the confronting faces of the flange and ring whereby to provide a fluid tight seal thereat.
An annular metal collar 38 is secured to the upperendoisaidsheliflby meansoiabody of cement a. Said collar 88 is termed with an integral outstanding annular flange 40 to which a cover 42 is secured by means oi clamping bolts 44 whichextend through an annular peripheral flange 40 of said cover and the flange l0 oi said sleeve. A packing 48 may be interposed between the flanges ll and 44, if desired, although an oil tight joint at this point is not essential.
Said cover 42 is provided with a central upstandingneckllhavinganaxialpassag ii therethrough. A flexible high tension" conductor '4 which is electrically connected at its lower end to the electrical apparatus in the receptacle extends upwardly through said shell 22 and has the screw-threaded stem 56 of a hexagonal terminal connector 58 which is soldered to its free end passed loosely through said passage 52. A nut 60 which is screw-threaded on said stem above the neck 50 serves to hold the terminal connector 58 in position in said neck. As shown most clearly.
in Fig. 3, the cover 42 is pr\ ided with a hexagonal recess 62 in the lower face thereof aligned with the passage 52 in said neck in which the hexagonal connector 58 is closely received and consequently held against rotation relative to the cover. A terminal member 64 is provided at the upper end of said connector 58 having a screw threaded passage 66 therein to receive the stem 58 of said connector. Said terminal member 64 has an annular depending apron 68 which surrounds the upstanding neck 50 and constitutes a weatherproof closure for the passage 52 therein and is also provided with an upper integral lug I0 for the attachment of'a suitable conductor.
The metal cap 42 is further provided with an annular depending flange 12 which is concentric with and is spaced apart a substantial distance from the inner surface of the insulating shell 22 and surrounds and is spaced from the conductor 54. Said flange constitutes means to support one or more concentrically spaced insulating tubes which subdivide the annular space between the shell 22 and the conductor 54. Two tubes I4 and I8 are here shown although a greater number may be employed if desired. The inner tube 14 is composed of strips of bakelized paper, or the like, wound on a relatively thin metal supporting tube which depends from and is electrically connected with the flange 12 of the cap 'and which is secured in any suitable manner as by being screw threaded thereto. The outer tube 18 is located in the vicinity of the attaching sleeve 26, extending axially above and below said sleeve, and is supported inposition by means of an annular insulating ring 84 which is aflixed at its inner and outer peripheries to the confronting surfaces of said inner and outer insulating tubes 14 and 18 by means of cement, or by other suitable means. Said ring as shown most clearly in Fig. 4 is provided with a plurality of spaced vertical passages 86 to permit free fluid communication between the spaces above and below said ring..
A second insulating ring 88 is cemented to said outer tube 18 externally thereof adjacent the attaching sleeve 26 and occupies the space be-.
tween said tube 18 and the shell 22 thus to support the inner tubes against lateral movement at the lower ends thereof during transportation. Said insulating ring 88 is preferably free from positive connection with the shell 22 so that, upon dropping the conductor 54 and removing the cover attaching bolts 44, the insulating tubes 14 and 18 may be removed bodily with the cap 42 through the top of the insulating shell 22. By this provision a punctured insulating tube can be replaced without breaking the oil tight joint between the flange 30 and the casing cover l2.
. As best shown in Fig. 4 the ring 88 is provided with a plurality of spaced, vertical arcuate slots 90 in its external periphery which permit the free passage of fluid along the annular space occupied just below the top of the bushing so that oil leakage through the joint between the bushing and the top cap 42 is eliminated and, in any event, the height of oil is intended to be such as to provide adequate insulation for the bushing. The top cap of the bushing is provided with a vent 94 so that the gas space above the oil in the bushing can expand and contract without changing the oil level. The gas space within the innermost tube 80 also has a vent passage 96 for the same purpose. Thus the conservator tank maintains a body of oil in the bushing at a pressure or head not less than that of the atmosphere.
The conservatortank preferably is arranged to have a large horizontal cross-section so that the oil in the casing can expand into the tank without harmfully changing the oil level in the tank and the bushings.
By the use of the conservator tank in the manner above described the bushings and the casing both are maintained full of oil from the same source, and the bushings can be made more.
economically and perform better than heretofore.
The term oil is used herein to denote any fluid that is electrically insulating and can be used satisfactorily in the presentapparatus.
Various changes may be made in the construction and arrangement of the parts and in the type of bushing employed without departing from the scope of the invention.
I claim:
1. The combination of electrical apparatus having an oil containing receptacle, a cover for the open top of said receptacle having a passage therethrough, a conductor extended through and spaced apart from the periphery of said passage, an insulating bushing comprising a tubular insulating shell upstanding above the cover of said receptacle, said shell having an annular outstanding attaching flange at its lower end by which it is secured in fluid tight relation to the cover of said receptacle, whereby to form a closure for the passage therein, a cap forming a closure for the open top of said shell having means providing free fluid communication between said receptacle and the atmosphere, and means to maintain the level of the body of oil in said receptacle and insulating shell above the closure for the top of said receptacle having a passage therethrough, an insulating bushing upstanding above said receptacle cover including a tubular insulating shell having an external attaching flange which is secured in fluid tight relation to said receptacle cover about the passage therein, a cap forming a closure .for the open top of said shell having a vent passage therein, a plurality of spaced concentric insulating tubes located within said shell adjacent the attaching flange thereof, and means to maintain the body of insulating oil in said receptacle and bushing at some level above the attaching flange of said bushing and below said cap including an elevated conservator tank adapted to contain a body of oil which is in communication with the oil in said receptacle and the normal oil level of which oil body is below said cap.
3. The combination of electrical apparatus having an oil containing receptacle, acover providing a fluid tight closure for said receptacle having an opening therein, a conductor extended through and spaced apart irom the periphery of said opening, an insulating shell which is open at the top and bottom surrounding said conductor and upstanding above said receptacle cover, said shell having an external flange which is secured in a fluid tight manner to said cover about said opening, a cap forming a closure for the open top said shell having a vent opening therein, an inner insulating tube surrounding said conductor having its upper end ilxed to said cap and having its lower end extended below said cover into said receptacle, means providing lateral su'pport ior said inner tube intermediate its ends, and an elevated conservator tank which is in fluid communication with said receptacle adapted to contain oil to a level which is above the top oi said receptacle cover so as to maintain said receptacle completely fllled with oil at a pressure above the atmosphere and also to maintain a column oi oil in said upstanding conductor insulating shell at a pressure not less than that oi the atmosphere.
4. The combination of electrical apparatus having an open top oil receptacle, a cover iorming a fluid tight closure thereior having an opening therein, a tubular insulating shell upstanding above said cover and having an open bottom end which encloses the opening in said cover and has a fluid tight connection with said cover about said opening, a cap forming a closure (or the top of said receptacle having a vent therein, a conductor extended through said shell and the opening in said receptacle having an electrical connection with said cap, an elevated conservator tank which is, in tree fluid communication with said receptacle, said tank adapted to contain a body of oil at a level which is intermediate the ends oi said shell so as to maintain said receptacle completely iuli of oil at a pressure greater than that oi the atmosphere and also to maintain a column oi oil in said shell at a pressure not less than that 0! the atmosphere, and means located above the level of oil in said tank to vent said tank ireely to the atmosphere so as to maintain a common level of oil in said tank and in said shell.
5. Electrical apparatus comprising an oil containing enclosing casing, an insulating bushing extended through said casing and having its interior open to the oil beneath the oil level therein and having a part that upstands above the top oi the oil, and means including an elevated oil tank in communication with the oil in said casing to maintain the oil in said casing at a pressure above that oi the atmosphere and oil in the upstanding part oi said bushing at pressure at least not less than the atmosphere.
6. Electrical apparatus comprising an oil containing enclosing casing, an insulating bushing extended through said casing and having its interior open to the oil beneath the oil level therein and having a part that upstands above the top oi the oil, and means including an elevated oil tank in communication with the oil in said casing to maintain the oil in said casing at a pressure above that oi the atmosphere and oil in the upstanding part of said bushing at pressure at least not less than the atmosphere, the interior oi the busl-lng above the oil level therein being vented to the atmosphere.
GUSTAV E. JANSSON.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US518727A US1996423A (en) | 1931-02-27 | 1931-02-27 | Oil insulated electrical apparatus |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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US518727A US1996423A (en) | 1931-02-27 | 1931-02-27 | Oil insulated electrical apparatus |
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US1996423A true US1996423A (en) | 1935-04-02 |
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US518727A Expired - Lifetime US1996423A (en) | 1931-02-27 | 1931-02-27 | Oil insulated electrical apparatus |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2600979A (en) * | 1947-07-28 | 1952-06-17 | Gen Electric | Insulating bushing with pressurelimiting means |
US2692297A (en) * | 1952-01-02 | 1954-10-19 | Harvey M Owren | High-voltage bushing |
US3878314A (en) * | 1973-10-26 | 1975-04-15 | Rte Corp | Protective apparatus for underground high voltage electrical devices |
US6624736B1 (en) | 2000-05-19 | 2003-09-23 | Abb Inc. | Fuse housing with rate release control plug |
-
1931
- 1931-02-27 US US518727A patent/US1996423A/en not_active Expired - Lifetime
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2600979A (en) * | 1947-07-28 | 1952-06-17 | Gen Electric | Insulating bushing with pressurelimiting means |
US2692297A (en) * | 1952-01-02 | 1954-10-19 | Harvey M Owren | High-voltage bushing |
US3878314A (en) * | 1973-10-26 | 1975-04-15 | Rte Corp | Protective apparatus for underground high voltage electrical devices |
US6624736B1 (en) | 2000-05-19 | 2003-09-23 | Abb Inc. | Fuse housing with rate release control plug |
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