US3144583A - Lightining arrester - Google Patents

Lightining arrester Download PDF

Info

Publication number: US3144583A
Authority: US; United States
Prior art keywords: arrester; current; diaphragm; sensitive element; housing
Prior art date: 1960-11-14
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

US69090A

Other languages

English (en)

Inventor

Billy B Sorrow

Ned T Kunkle

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.)

Westinghouse Electric Corp

Original Assignee

Westinghouse Electric Corp

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.)

1960-11-14

Filing date

1960-11-14

Publication date

1964-08-11

1960-11-14 Application filed by Westinghouse Electric Corp filed Critical Westinghouse Electric Corp

1960-11-14 Priority to US69090A priority Critical patent/US3144583A/en

1961-09-25 Priority to GB3418661A priority patent/GB928566A/en

1961-11-06 Priority to CH1283461A priority patent/CH391860A/de

1961-11-13 Priority to BE610242A priority patent/BE610242A/fr

1964-08-11 Application granted granted Critical

1964-08-11 Publication of US3144583A publication Critical patent/US3144583A/en

1981-08-11 Anticipated expiration legal-status Critical

Status Expired - Lifetime legal-status Critical Current

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Classifications

- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01T—SPARK GAPS; OVERVOLTAGE ARRESTERS USING SPARK GAPS; SPARKING PLUGS; CORONA DEVICES; GENERATING IONS TO BE INTRODUCED INTO NON-ENCLOSED GASES
- H01T1/00—Details of spark gaps
- H01T1/15—Details of spark gaps for protection against excessive pressure

Definitions

This invention relates to lightning arresters and, more particularly, to a high voltage lightning arrester having an improved arc transfer device.
Lightning arresters of the valve type consist essentially of a plurality of spark gap devices and aplurality of valve type resistance elements or blocks, disposed in series relation in a housing.
the are transfer device of the present invention is especially adapted for use in high voltage, station-type lightning arresters, although it may be used in other types of lightning arresters as, for example, distribution arresters.
the arc transfer device of this invention is illustrated as embodied in a lightning arrester of the type disclosed and claimed in Patent No. 2,858,476, issued October 28, 1958, by Edward F. W. Beck and Otto Ackermann, and assigned to the assignee of the present invention. This is a compact, high voltage lightning arrester having columns of arrester elements disposed side by side in an insulating housing and connected in series.
Lightning arresters of the valve type consist essentially of a plurality of spark gap devices and a plurality of valvetype resistance elements or blocks, disposed in series relation in the housing.
the spark gaps normally isolate the arrester from the line to which it is connected but break down under excess voltage conditions, such as lightning surges, to permit the surge to be discharged to ground through the non-linear resistance blocks, which have low resistance under surge voltage conditions. After discharge of the surge, the blocks because of the valve characteristics, reduce the power-follow current to a small value which can readily be interrupted by the series gap.
Lightning arresters of this type are usually tightly sealed to exclude moisture, which may have a very detrimental eifect on the electrical characteristics of the blocks and of the series gaps.
the arrester may fail to interrupt the power current.
the full short-circuit current of the system to which the arrester is connected flows through it to ground.
the semiconductor blocks or non-linear resistance blocks are punctured creating a short circuit from the line to ground.
the system fault current will flow through this short circuit, generating a large quantity of gas from the block material.
the arrester short circuit occurs when the resistance elements or blocks become damaged.
a relatively low resistance path through the resistance blocks allows system fault current to flow almost unrestricted.
the continued flow of fault current through the block causes the resistance material to sublimate. This sublimation generates most of the internal gas resulting in excessive pressure.
the arrester will explode even though pressure relief diaphragms are open. So great is the volume of gas generated by the blocks sublimation that if allowed to continue beyond the first half cycle of fault current flow, an arrester with completely open ends may explode.
the principal object of the present invention is to provide a Valve-type lightning arrester in which the danger of shattering or explosion of the outer housing is minimized in case of failure of the arrester.
Another object of the invention is to provide a valvetype lightning arrester having an arc transfer device within the housing which will transfer fault current from the arrester elements and gas-generating material to another path where little or no gas is generated and which will effect rapid opening of the sealed arrester housing without shattering the housing.
a further and more specific object of the invention is to provide a valve type lightning arrester having an arc transfer device within the housing which will transfer fault current from the arrester elements and gas generating material to another path where little or no gas is generated and which will propel a hammer device with suflicient force to open the end closures of the arrester.
FIGURE 1 is a side elevational view partly in section of a lightning arrester embodying the invention
FIG. 2 is a perspective view of a lightning arrester embodying the invention with the outer housing omitted;
FIG. 3 is an enlarged partial sectional view of the arrester showing the arc transfer device of this invention in enlarged detail;
FIG. 4 is a top plan view of a lower end cap of a lightning arrester unit.
FIG. 5 is a top plan view showing the mounting of the hammer device on the upper end of the arrester.
the arc transfor device is embodied in a lightning arrester of the type disclosed and claimed in a Patent No. 2,858,476 by E. F. W. Beck and O. Ackermann, issued October 28, 1958, and assigned to the assignee of the present invention.
the arrester comprises a generally cylindrical housing 1 which is preferably made of porcelain although any suitable weatherresistant insulating material might be used.
the housing 1 is provided at each end with metal end fittings 2 of any suitable design which are secured to the housing 1 by cement as indicated at 3, or in any other desired manner.
the ends of the housing 1 are closed by metal diaphragms 4 which are secured to the end fittings 2 in any desired manner, as by bolts (not shown), a gasket 5 being interposed between each or" the diaphragms 4 and the housing to seal the interior of the housing.
a gasket 5 being interposed between each or" the diaphragms 4 and the housing to seal the interior of the housing.
any suitable construction may be used for the end-fitting and closure means for the housing, the end fittings providing for electrical and mechanical connection of the unit in a column of similar units in the usual manner.
Each end fitting is provided with a directional vent port 2. with the openings directed toward each other for a purpose hereafter explained.
the arrester unit as disclosed includes an upper arrester assembly 6 and a lower arrester assembly 8 stacked thereon.
the arrester assemblies 6 and 8 are identical in construction and only one such assembly will be described, and similar reference numerals will be applied to like parts in the two assemblies 6 and 8.
Each arrester assembly which is contained in the housing ll, consists of three columns 10, 12 and 14 of lightning arrester elements connected in series and disposed side by side in the housing in a triangular arrangement.
the ends of the tube 20 are closed by metal end caps 22 which are sealed to the tube 26 in any suitable manner as by soldering as at 19.
the end plates 22 serve as contact means for the .gap assembly 16.
valve blocks 18 may be any suitable type of valve element or non-linear resistor, and are preferably made of granular silicon carbide molded to the desired size and shape with a binder of sodium silicate and baked to provide valve elements of the usual type.
Each column 10, 12 or 14 may, by Way of example, consist of a spark gap assembly 16 and valve blocks 18 disposed in a series column in a tube 24 of any suitable rigid insulating material.
any suitable arrangement of blocks and gap assemblies may be employed, such as all gap assemblies or all valve blocks.
a different arrangement may be employed in each column.
the three columns 10, 12 and 14 of arrester elements are disposed side by side in the housing 1 in a triangular arrangement as shown in FIGS. 1 and 4. They are supported in insulating end members 26 and 349.
the end members 26 and 363 may be formed of any suitable insulat ing material, and, as shown in FIG. 2, each of the end members is generally clover-leaf-shaped with a flange portion 32.
Ribs 34 are provided which, together with the flange 32, provide three relatively deep recesses 36 of circular outline equidistantly spaced from each other to receive the columns of arrester elements.
Lugs 38 are formed on the end caps 26 and 30 having openings 40 which are provided for receiving tie rods 43 of insulating material.
Contact means are provided in the end members 26 and 30 for making electrical connection to the columns of arrester elements for connecting them in series.
the end member 30 has a copper strap connector 42 disposed on the bottom of two of the recesses 36, and having its end disposed in position to engage the contact means of the arrester column received in the respective recesses 26 so as to connect these two columns together in series.
the third recess 36 has a copper contact member 46 in the bottom of the recess in position to engage the contact means of the arrester column placed in that recess, and the contact member 46 has a strap portion 48 extendingout of the end member through a slot 50.
the upper end member 26 may be identical to the lower end member, and when assembled, the upper end member is inverted in position with respect to the lower end member so that the three arrester columns received in the corresponding recesses 36 of the upper and lower end members are electrically connected in series.
the circuit extends from the strap portion 48 and contact member 46 of the lower end member 30 through the arrester column to the connector 42 of the upper end member 26 and through this connector and the adjacent arrester column 12 to the connector 42 of the lower end member 30 which connects the arrester column 12 to the arrester column 14.
the upper end of the column 14 is in contact with the contact member 46 of the upper end member 26 to complete the series circuit.
the arrester assemblies 6 and 8 are stacked one above the other respectively with a spring ring 54 therebetween. Lugs 38 on the end caps 26 and 3t) serve to space the assemblies 6 and 8 from each other.
the arrester columns are placed in the proper recesses in the two end members 26 and 3t), and the tie rods 42 are inserted through openings 53 in the spring rings 54 and openings 44) in the lugs 36 to secure the assembly together.
the complete arrester is preferably supported in the outer housing 1 by spring means to protect the assembly from mechanical shock to which the arrester may be subjected during shipment and handling.
the diaphragms 4 which close the ends of the housing 1 have a plurality of integral projections 60 extending inwardly and they are provided with reduced end portions 62 forming annular shoulders 63.
An annular metal spring ring 56a and 56b is supported on the shoulders 63 of the projections 60 on the upper and lower diaphragms 4, respectively.
the spring rings 56a and 5612 have openings 57 which fit over the reduced portion 62 of the projections 6!).
Conducting bushings 58 are threaded on the ends of the tie rods 42 to clamp the arrester assembly itself together into a unitary assembly and to make electrical contact between rings 54a and 56, and between 54b and the lower spring ring 56.
the ends of the tie rod are received in openings of the spring ring 56 positioned between the openings 57 which receive the projections 61 so that the arrester assembly is resiliently supported on the spring ring 56.
the conducting bushings 58 are held in tight engagement with and between the spring rings 54a and 56a; 54b and 56b, respectively, to effect electrical connection.
each arc transfer assembly includes a pair of upper and lower current sensitive elements 62 and 64 and an intermediate current sensitive element 66.
the upper and lower elements 62 and 64 are identical, and only the upper element 62'will be described in detail herein.
the current sensitive element 62 comprises a hollow insulating tube 6-8 having a pair of substantially cylindrical electrodes 76 and 72 at its ends. These electrodes 70 and 72 have central openings therein. The electrodes are disposed within the hollow center portion of the in sulating tube 68. The electrodes may be of brass or any other suitable conducting material. Connecting th electrodes 70 and 72 is an electrical conductor wire 74 of relatively small diameter.
the insulating tube 68 has a reduced diameter end portion 76 which receives a metal conducting bushing 78 having a central opening in alignment with the opening of the electrode 72.
the electrode 70 extends outwardly from the hollow tube and is received in the opening and its associated end cap 26 or 36. Ashoulder 85 is formed by the electrode 70 and insulating tube 68. This shoulder rests on the outer surface of the end cap 26.
the bushing 78 Received on the bushing 78 is a hammer having a conical-shaped outer end which comes to a sharp point.
the hammer has a recess 79 received on the bushing 78.
the hammer 80 may be of metal.
the current sensitive element 64 is identical to element 62 but is disposed at the opposite end of the arrester assembly.
the spring rings 56a and 56b each have secured thereto across a diameter a conducting strap 84.
the conducting strap 84 may be secured to the spring ring 56a in any suitable manner as by the screws and nuts 86 as shown.
the strap 84 has a central opening which receives the bushing 73 and is in electrical contact therewith.
a pair of Opposing spring fingers 88 and 90 Disposed and secured in any suitable manner to the strap 84 is a pair of Opposing spring fingers 88 and 90 which may be secured to the strap 84 in any suitable manner as, for example, spot welds at 92, as shown.
the spring fingers 88 and 90 have their free ends spaced apart to receive therebetween a portion of the conical nose of hammer 80 to retain it in position and to provide a good electrical connection.
the current sensitive elements 62 and 64 each have a connecting terminal 102 which extends outwardly from the electrode adjacent the arrester unit through the insulating tube 76.
the contact 46 in the end cap 26 has a strap 48 extending through an opening 50 in the cap. This strap 48 is connected to the connector 102 of the current sensitive element 62.
the intermediate current sensitive element 66 comprises a hollow cylindrical tube 94. At its ends the hollow tube 94 has an enlarged inner diameter to receive the upper and lower electrodes 96 and 98, respectively.
the electrodes 96 and 98 are substantially hollow cylinders having enlarged diameter ends to fit closely within the hollow cylinder 94.
the electrodes 96 and 98 may be of brass or any desirable or suitable conducting material.
the electrodes 96 and 98 are electrically connected by a small electrical conductor of relatively small diameter wire 100.
the projecting ends 96 of the electrodes 96 and 98 are received in the openings of the adjacent end caps 26 and 30 of adjacent arrester units.
the intermediate current sensitive element 66 has a pair of connectors 1M and 106 which extend from the upper and lower electrodes 96 and 98, respectively, through the insulating tube 94 to the exterior of the current sensitive element.
Each of the contacts 48 in the adjacent end caps 26 and 30 of adjacent arrester units have projections 48 extending outwardly through the end caps 26 and 3t) connected, respectively, to the connectors 104 and 196 of the current sensitive element 66.
the upper and lower assemblies 6 and 8 are connected in series through the intermediate current sensitive element 66.
the straps 48 extending through slots 50 in adjacent end caps 26 and 30 are connected to the electrodes 96 and 98 which in turn are connected by conductor 190.
the internal circuit of the arrester extends from upper end cap 2 through upper diaphragm spring ring 56a, bushing 58 to spring ring 54a and then through strap 84 and spring fingers 88 and 90 to the upper electrode 72 of current sensitive element 62.
the circuit then extends through conductor 74 and electrode 70 to the strap 48 and then through the arrester elements and intermediate current sensitive element 66 to the lower current sensitive element 64. From electrode 74 of lower current sensitive element 64 the circuit follows a path similar to the path described through the upper end of the arrester to the lower end fitting 2.
the electrical conductors 74 and 100 When the arrester current starts to rise upon failure, the electrical conductors 74 and 100, being in series with the arrester elements, will vaporize and arcing will occur between the electrodes of the current sensitive elements thereby generating ionized gases which are blown through the center of the arrester from end to end. These ionized gases provide an easy path for the are through the center of the arrester, causing the current to be transferred away from the resistor blocks.
the hammer 80 is provided.
the hammers are fitted over the ends of the current sensitive elements 62 and 64 adjacent the diaphragms 4 at the ends of the arrester assembly.
the hammers 80 are accelerated from one end of the current sensitive elements 62 and 64 while the gas is blown from the other end.
the hammer is shot toward the diaphragm and strikes it within a predetermined time after the current sensitive element operates.
the force of the hammer 80 breaks the diaphragm thus allowing rapid relief of the internal pressure.
a second arc transfer may be accomplished from the inside to the outside.
the directional vent ports 2 in the end fittings 2 will direct the escaping ionized gases axially along the outer housing external thereto, threeby eifectng an external are between the end fittings.
the use of the hammer in this manner is an automatic compensating factor for fault current increases. As the fault current goes up, the current sensitive element operates sooner, thereby firing the hammer sooner. Therefore, the time at which the hammer is fired is directly dependent on the amount of fault current.
a unique and effective are transfer system for lightning arresters which provides positive protection against explosion of damaged units and which permits an increased fault current rating, has been provided.
the semiconductor blocks are punctured creating a short circuit from line to ground.
the system fault current will flow through this short circuit, generating almost instantaneously tremendous volumes of gas. Unless the resulting pressure is properly relieved and further gas generation is stoppd or slowed, the arrester may explode. In cases of high system fault current, if the current is allowed to continue flowing through the damaged arrester blocks, the arrester will explode even though pressure relief diaphragms are open.
Halting gas generation is accomplished in the present invention by transferring the fault current away from the semiconductor blocks.
the current sensitive elements 62, 64 and 66 fire expelled gases toward each other.
Each gas jet travels toward the gas jet of the opposing current sensitive device.
the fault current transfers from the arrester blocks to this path where little additional gas is generated.
the current sensitive element is adjusted to fire the hammer during the first quarter cycle of fault current.
the hammers are fired into the end diaphragms 4 breaking them open before the actual gas pressure front arrives.
the pressure front inside the arrester unit travels at approximately the speed of sound, whereas the hammer has an average velocity approximately twice the speed of sound.
the new arrester provides positive arc transfer and prevents explosion of damaged arresters. If required, the arc will transfer a second time from the inside to the outside of the arrester. Positive means are provided for rupturing the diaphragm by energy generated within the arrester housing.
a lightning arrester including a plurality of lightning arrester elements connected in series within an insulating outer housing closed at each end by a rupturable diaphragm, a current sensitive element capable of evolving gas when exposed to excessive current for a predetermined length of time disposed within the outer housing adjacent each diaphragm, said current sensitive element disposed within a tubular element closed at its end adjacent said diaphragm by a hammer adapted to be propelled toward said diaphragm by gas pressure generated by said current sensitive element thereby rupturing said diaphragm.
a lightning arrester including a plurality of lightning arrester elements connected in series within an insulating outer housing closed at each end by a rupturable diaphragm, a current sensitive element capable of evolving gas when exposed to excessive current for a predetermined length of time disposed within the outer housing adjacent'each diaphragm, said current sensitive element disposed within a tubular element closed at its end adjacent said diaphragm by a hammer adapted to be propelled toward said diaphragm by gas pressure generated by said current sensitive element thereby rupturing said diaphragm and baflle means for directing the gases escaping through said diaphragm, when'ruptured, longitudinally along and external to said outer housing thereby initiating an external are whereby the internal current path through the arrester is transferred to the exterior of said outer housing.
an arc transfer assembly comprising a plurality of current sensitive elements each including a conductor connected in series with the arrester elements which sublimates when subjected to excessive current for a predetermined length of time, said element located Within the outer housing of the arrester, means for directing gases longituidnally in the arrester housing in a path parallel to the current path through the arrester elements, a
said conductors being disposed within said gas directing means, a hammer mounted on said gas directing means adjacent each of said diaphragms and adapted to be propelled against the adjacent diaphragm by gases resulting from the sublimation of said current sensitive means to thereby rupture said diaphragms upon the flow of exces sive current through the arrester for a predetermined length of time.

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Thermistors And Varistors (AREA)

US69090A 1960-11-14 1960-11-14 Lightining arrester Expired - Lifetime US3144583A (en)

Priority Applications (4)

Application Number	Priority Date	Filing Date	Title
US69090A US3144583A (en)	1960-11-14	1960-11-14	Lightining arrester
GB3418661A GB928566A (en)	1960-11-14	1961-09-25	Lightning arrester
CH1283461A CH391860A (de)	1960-11-14	1961-11-06	Uberspannungsableiter
BE610242A BE610242A (fr)	1960-11-14	1961-11-13	Parafoudre.

Applications Claiming Priority (1)

Application Number	Priority Date	Filing Date	Title
US69090A US3144583A (en)	1960-11-14	1960-11-14	Lightining arrester

Publications (1)

Publication Number	Publication Date
US3144583A true US3144583A (en)	1964-08-11

Family

ID=22086694

Family Applications (1)

Application Number	Title	Priority Date	Filing Date
US69090A Expired - Lifetime US3144583A (en)	1960-11-14	1960-11-14	Lightining arrester

Country Status (3)

Country	Link
US (1)	US3144583A (fr)
BE (1)	BE610242A (fr)
CH (1)	CH391860A (fr)

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
US3366831A (en) *	1964-04-17	1968-01-30	Siemens Ag	Overvoltage arrester having stacked arrays of arc gap and grading resistor units
US3560794A (en) *	1968-06-12	1971-02-02	Bbc Brown Boveri & Cie	Lightning arrester with a rupturable diaphragm for gas pressure release
US3702419A (en) *	1971-09-28	1972-11-07	Westinghouse Electric Corp	Lightning arrester with pressure relief means
EP0037363A1 (fr) *	1980-03-28	1981-10-07	Siemens Aktiengesellschaft	Dispositif de protection contre les surtensions
EP0059078A1 (fr) *	1981-02-19	1982-09-01	Electric Power Research Institute, Inc	Limiteur de surtension

Citations (1)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
US2593955A (en) *	1950-08-19	1952-04-22	Westinghouse Electric Corp	Lightning arrester

1960
- 1960-11-14 US US69090A patent/US3144583A/en not_active Expired - Lifetime
1961
- 1961-11-06 CH CH1283461A patent/CH391860A/de unknown
- 1961-11-13 BE BE610242A patent/BE610242A/fr unknown

Patent Citations (1)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
US2593955A (en) *	1950-08-19	1952-04-22	Westinghouse Electric Corp	Lightning arrester

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
US3366831A (en) *	1964-04-17	1968-01-30	Siemens Ag	Overvoltage arrester having stacked arrays of arc gap and grading resistor units
US3560794A (en) *	1968-06-12	1971-02-02	Bbc Brown Boveri & Cie	Lightning arrester with a rupturable diaphragm for gas pressure release
US3702419A (en) *	1971-09-28	1972-11-07	Westinghouse Electric Corp	Lightning arrester with pressure relief means
EP0037363A1 (fr) *	1980-03-28	1981-10-07	Siemens Aktiengesellschaft	Dispositif de protection contre les surtensions
DE3012744A1 (de) *	1980-03-28	1981-10-22	Siemens AG, 1000 Berlin und 8000 München	Ueberspannungsableiter mit anordnung der ableiterelemente an einem saeulen aufweisenden geruest
EP0059078A1 (fr) *	1981-02-19	1982-09-01	Electric Power Research Institute, Inc	Limiteur de surtension

Also Published As

Publication number	Publication date
CH391860A (de)	1965-05-15
BE610242A (fr)	1962-03-01

Publication	Publication Date	Title
US5113306A (en)	1992-05-12	Non-fragmenting arrester with staged pressure relief mechanism
US4734823A (en)	1988-03-29	Fault current interrupter and explosive disconnector for surge arrester
US4989115A (en)	1991-01-29	Surge arrester
US3869650A (en)	1975-03-04	Disconnector
US2586285A (en)	1952-02-19	Lightning arrester
JPH0719636B2 (ja)	1995-03-06	避雷器
US2315320A (en)	1943-03-30	Automatic circuit-interrupting device
US2593955A (en)	1952-04-22	Lightning arrester
US3291937A (en)	1966-12-13	Explosive disconnect having the explosive means thermally and electrically isolated from resistance ignition means
US4001651A (en)	1977-01-04	Station lightning arrester with dual rupture diaphragms for gas pressure release
US3702419A (en)	1972-11-07	Lightning arrester with pressure relief means
US3017539A (en)	1962-01-16	Electrical disconnector for lightning arresters
US3144583A (en)	1964-08-11	Lightining arrester
US4866562A (en)	1989-09-12	Self-contained air gap assembly
US3626237A (en)	1971-12-07	Line electrical surge arrestor
US3155874A (en)	1964-11-03	Lightning arrester
US3400301A (en)	1968-09-03	Lightning arrester in combination with an arrester disconnector containing explosivemeans
US3179851A (en)	1965-04-20	Electrical protective apparatus
US3144582A (en)	1964-08-11	Lightining arrester
US2422978A (en)	1947-06-24	Lightning arrester
US2777095A (en)	1957-01-08	Lightning arrester
US3448343A (en)	1969-06-03	Combined overvoltage protective device and conductor support
US3290547A (en)	1966-12-06	Pressure relief and failure indicating means for arrester
US3654520A (en)	1972-04-04	High voltage surge diverter
US3518483A (en)	1970-06-30	Fused pressure relief means for overvoltage protective device