CA1066334A - Vacuum-type circuit interrupter with two sets of contacts electrically in parallel - Google Patents
Vacuum-type circuit interrupter with two sets of contacts electrically in parallelInfo
- Publication number
- CA1066334A CA1066334A CA256,645A CA256645A CA1066334A CA 1066334 A CA1066334 A CA 1066334A CA 256645 A CA256645 A CA 256645A CA 1066334 A CA1066334 A CA 1066334A
- Authority
- CA
- Canada
- Prior art keywords
- electrodes
- rod
- rod electrodes
- contacts
- contact
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired
Links
Landscapes
- High-Tension Arc-Extinguishing Switches Without Spraying Means (AREA)
Abstract
ABSTRACT OF THE DISCLOSURE
A vacuum-type circuit interrupter comprises two pluralities of rod electrodes positioned to form a ring of electrodes in which the electrodes of the first plurality interleave with those of the second plurality. The rod electrodes of the first plurality and the second plurality are respectively mounted on and electrically connected to a respective first and second conductive end cap of the interrupter. First conductive support structure extends transversely of the rod electrodes and is attached to the distal ends of predetermined rod electrodes of said second plurality. A first generally stationary contact is supported on said first support structure in a position intermediate the locations at which the first support structure is attached to said predetermined rod electrodes of said second plurality. Second conductive support structure extends transversely of the rod electrodes and is attached to the distal ends of predetermined rod electrodes of said first plurality. A second generally stationary contact is supported on said second support structure in a position intermediate the locations at which the second support structure is attached to said predetermined rod electrodes of said second plurality.
First and second movable contacts are provided for respectively engaging the first and second generally stationary contacted.
The two pairs of engageable contacts are electrically contacted in parallel with each other while the interrupter is closed.
A vacuum-type circuit interrupter comprises two pluralities of rod electrodes positioned to form a ring of electrodes in which the electrodes of the first plurality interleave with those of the second plurality. The rod electrodes of the first plurality and the second plurality are respectively mounted on and electrically connected to a respective first and second conductive end cap of the interrupter. First conductive support structure extends transversely of the rod electrodes and is attached to the distal ends of predetermined rod electrodes of said second plurality. A first generally stationary contact is supported on said first support structure in a position intermediate the locations at which the first support structure is attached to said predetermined rod electrodes of said second plurality. Second conductive support structure extends transversely of the rod electrodes and is attached to the distal ends of predetermined rod electrodes of said first plurality. A second generally stationary contact is supported on said second support structure in a position intermediate the locations at which the second support structure is attached to said predetermined rod electrodes of said second plurality.
First and second movable contacts are provided for respectively engaging the first and second generally stationary contacted.
The two pairs of engageable contacts are electrically contacted in parallel with each other while the interrupter is closed.
Description
llVI-04044 ~;33~ :
This invention relates to an electric circuit interrupter .
of the vacuum type and, more particularly, to a circuit interrupter of this type which comprises two sets of relatively movable contacts electrically connected in parallel for carrying continuous current through the interrupter.
In most vacuum interrupters, the force required to hold a pair of separable contacts in engagement during the passage of high current therethxough varies directly with the square of the current. It has been recognized that this force can be reduced by providing a plurality of se~s of contacts electrically connected in parallel for sharing the total current through the interrupter~ One way of constructing such an interrupter is to mount the~
movable contact of each pair on the usual long slander~ .
movable contact rod and to arrange these movable contacts rods in close side-by-side relationship. A problem involved in such an arrangement is that the high magnetic forces developed between the movable contalct rods when high currents ..
flow therethrough tend to ~orce the rods together, making it difficult to properly guide and operate the contact ;
ro~s. ~-One solution to this pro~lem is disclosed and claimed in Canadian Patent No. 1,046,115 - Kurtz and Sofianek .
issued January 9, 1979, and assigned to.the assignee of the present invention~ In that application/ the two electrically-parallel pairs of contacts are located at .. :
opposite ends of the envelope of the interrupter, and current is carried physically.past each contact pair via an .- .
electricall~-parallel conductive path extending through the ; .
, ......... .
? 30 other pair. Each of these parallel conduGtive paths is .. ~-. constituted, in part, by a single one of the rod electrodes ,~ .
, . .
,-; b~
..,,.
.. . .. . . .. . . . . ..
~6~3~ llVI-04044 of a rod-array type of electrode arrangement of the general type disclosed and claimed in U.S. Patent No. 3,679,474 dated July 25, 1972 - Rich, assigned to the assignee of the present invention. On the distal end of this single rod electrode, means i5 provided for mounting the stationary contact of the pair of relatively movable contacts in the parallel path.
A problem involved in such a design is that high magnetic forces of attraction can be developed between the movable contact rod and the parallel single rod electrode in the region where these parts are in proximity. In the aforesaid Kurtz and Sofianek Patent, this problem is solved by providing around each movable contact rod a conductive tube that is electrically connected in series with the aforesaid single rod electrode. This tube distributes , the current flowing through the single rod electrode circum- -.. .
ferentially above the movable contact rod surrounded by the ` tube, thereby providing a coaxial conductor arrangement wherein relatively low forces are present between the con-ductors.
An object of our invention is to provide an interrupter , design of generally the type disclosed in the aforesaid Kurtz and Sofianek Paten~ wherein a conductive tube i~
not required around the movable contact rod in order to ., : .
limit the transversely-directed forces acting on the movable contact rod during high momentary currents.
~i ' .
As pointed out hereinabovet in the Kurtz and Sofianek , Patent the stationary contact of each contact pair is ;lf mounted on the distal end of a single rod electrode of a l 30 rod array type of electrode arrangement~ It may be necessary -, to locate the stationary contact in a location radially off-~' set from the longitudinal axis of the single rod electrode .. , :
This invention relates to an electric circuit interrupter .
of the vacuum type and, more particularly, to a circuit interrupter of this type which comprises two sets of relatively movable contacts electrically connected in parallel for carrying continuous current through the interrupter.
In most vacuum interrupters, the force required to hold a pair of separable contacts in engagement during the passage of high current therethxough varies directly with the square of the current. It has been recognized that this force can be reduced by providing a plurality of se~s of contacts electrically connected in parallel for sharing the total current through the interrupter~ One way of constructing such an interrupter is to mount the~
movable contact of each pair on the usual long slander~ .
movable contact rod and to arrange these movable contacts rods in close side-by-side relationship. A problem involved in such an arrangement is that the high magnetic forces developed between the movable contalct rods when high currents ..
flow therethrough tend to ~orce the rods together, making it difficult to properly guide and operate the contact ;
ro~s. ~-One solution to this pro~lem is disclosed and claimed in Canadian Patent No. 1,046,115 - Kurtz and Sofianek .
issued January 9, 1979, and assigned to.the assignee of the present invention~ In that application/ the two electrically-parallel pairs of contacts are located at .. :
opposite ends of the envelope of the interrupter, and current is carried physically.past each contact pair via an .- .
electricall~-parallel conductive path extending through the ; .
, ......... .
? 30 other pair. Each of these parallel conduGtive paths is .. ~-. constituted, in part, by a single one of the rod electrodes ,~ .
, . .
,-; b~
..,,.
.. . .. . . .. . . . . ..
~6~3~ llVI-04044 of a rod-array type of electrode arrangement of the general type disclosed and claimed in U.S. Patent No. 3,679,474 dated July 25, 1972 - Rich, assigned to the assignee of the present invention. On the distal end of this single rod electrode, means i5 provided for mounting the stationary contact of the pair of relatively movable contacts in the parallel path.
A problem involved in such a design is that high magnetic forces of attraction can be developed between the movable contact rod and the parallel single rod electrode in the region where these parts are in proximity. In the aforesaid Kurtz and Sofianek Patent, this problem is solved by providing around each movable contact rod a conductive tube that is electrically connected in series with the aforesaid single rod electrode. This tube distributes , the current flowing through the single rod electrode circum- -.. .
ferentially above the movable contact rod surrounded by the ` tube, thereby providing a coaxial conductor arrangement wherein relatively low forces are present between the con-ductors.
An object of our invention is to provide an interrupter , design of generally the type disclosed in the aforesaid Kurtz and Sofianek Paten~ wherein a conductive tube i~
not required around the movable contact rod in order to ., : .
limit the transversely-directed forces acting on the movable contact rod during high momentary currents.
~i ' .
As pointed out hereinabovet in the Kurtz and Sofianek , Patent the stationary contact of each contact pair is ;lf mounted on the distal end of a single rod electrode of a l 30 rod array type of electrode arrangement~ It may be necessary -, to locate the stationary contact in a location radially off-~' set from the longitudinal axis of the single rod electrode .. , :
- 2 - ;
~ ~663~ llVI-04044 by a relatively great distance. Such radially-offset mounting on the distal end of a single rod electrode is not an ideal arrangement from a mechanical strength viewpoint. More specifically, closing forces on such contacts heavily load the single supporting rod electrode in cantilever bending and also subject the mounting element between the contacts and the supporting rod electrode to relatively serve cantilever bending stresses.
Accordingly, another o~ject is to provide, for a rod-array type of vacuum interrupter having parallel connected sets of contacts near opposite ends of the interrupter, means for mount-~ .
ing the contacts on the rods in such a way that the rods and the ~ contact mounting can easily withstand high closing forces on the `~ contacts.
~ Another object is to mount the stationary contact structure -`1 of each set of relatively-movable contacts in such a manner that the closing forces on each set are distributed between a ! plurality of the rod electrodes.
In carrying out the invention in one form, we provide a -::
vacuum interrupter comprising a highly evacuated envelope that has metal end caps at its opposite ends. A first plurality of `! rod electrodes within the envelope are mounted on the first end cap and are electrically connected thereto. A second plurality . . .
of rod electrodes within the envelope are mounted on the second end cap and are electrically connected to the second end cap.
The first and second~pluralities of electrodes are positioned so ~, as to form a ring of electrodes within the envelope. The ~li electrodes of the first plurality interleave with those of the -'~ second plurality. The electrodes of the first plurality have a ~i 30 polarity opposite to the polarit~ of the electrodes of the second ~ ~ .
~, ~
. .,
~ ~663~ llVI-04044 by a relatively great distance. Such radially-offset mounting on the distal end of a single rod electrode is not an ideal arrangement from a mechanical strength viewpoint. More specifically, closing forces on such contacts heavily load the single supporting rod electrode in cantilever bending and also subject the mounting element between the contacts and the supporting rod electrode to relatively serve cantilever bending stresses.
Accordingly, another o~ject is to provide, for a rod-array type of vacuum interrupter having parallel connected sets of contacts near opposite ends of the interrupter, means for mount-~ .
ing the contacts on the rods in such a way that the rods and the ~ contact mounting can easily withstand high closing forces on the `~ contacts.
~ Another object is to mount the stationary contact structure -`1 of each set of relatively-movable contacts in such a manner that the closing forces on each set are distributed between a ! plurality of the rod electrodes.
In carrying out the invention in one form, we provide a -::
vacuum interrupter comprising a highly evacuated envelope that has metal end caps at its opposite ends. A first plurality of `! rod electrodes within the envelope are mounted on the first end cap and are electrically connected thereto. A second plurality . . .
of rod electrodes within the envelope are mounted on the second end cap and are electrically connected to the second end cap.
The first and second~pluralities of electrodes are positioned so ~, as to form a ring of electrodes within the envelope. The ~li electrodes of the first plurality interleave with those of the -'~ second plurality. The electrodes of the first plurality have a ~i 30 polarity opposite to the polarit~ of the electrodes of the second ~ ~ .
~, ~
. .,
- 3 -~66334 llVI-^04044 plurality, whereby inter-electrods gaps are defined between juxtaposed interleaving electrodes of said ring. Extending transversely of the rod electrodes and attached to the distal ends of predetermined rod electrodes of said second plurality, we provide ~irst conductive support structure on which a first generally stationary contact is supported in a position intermediate the locations at which said first support structure is attached to said predetermined rod electrodes of said second plurality. Extending transversely of the rod electrodes and attached to the distal ends of predetermined rod electrodes of said first plurality, we :
provide second conductive support s~ructure on which a second generally stationary contact is supported in a position `
intermediate the locations at which said second support structuer is attached to said predetermined rod electrodes of the first plurality The first and second stationary :
contacts are disposed in positions spaced longitudinally o~ the longitudinal aXis of the ring. First and second movable contacts are provided within the envelope ~or re- -1 20 spectively engaging the irst and second yenerally stationary contacts A first movable contact rod on which said first contact rod on which said ~irst contact rod is mounted ex- .:
tends in sealed relationship through the first end cap. :
A second movable contact rod on which said second contact is mounted extends in sealed relationship through said second metal end cap. The t~o pairs of engageable contacts are electrically connected in parallel with each other . -. . .
while the interrupter is closed. ; :
For a better understanding of the invention7 re~erenc~ ~ ;
may be had to the accompanying drawings, wherein~
FIG 1 is a side-elevational view, mostly in section~
showing a vacuum interrupter embodying one form of the in-i, , .
_ 4 -.
, ~ . , . , . . .. , . .. , : ~ " . .. - ..
1~633 ~ llVI-04044 vention.
Fig. 2 is a sectional view along the line 2-2 of Fig. 1 .
Fig, 3 is a sectional view of a portion of an interrupter embodying a modified form of the invention.
Referring now to Fig. 1, the illustrated vacuum inter-rupter comprises a highly evacuated envelope 10 that comprises a tubular housing 11 of insulating material and a pair of metal end caps 12 and 13 disposed at opposite ends of the housing and sealed thereto by conventional scals 14~
'.:
m e interrupter comprises two pairs 20 and 22 of separable contacts electrically connected in ~ with each other in a manner that will soon become apparent. Con-. tact pair 20 is located near the upper end cap 12, and con-o tact pair 22 is located near the lower end cap 13. Each :
contact pair comprises a generally stationary con~act 25 suppoxted in a manner soon to be described, and a movable contact 26 vertically movable into and out of engagement with stationary contact 25~ The movable contact 26 of each pair is brazed to the inner end of a vertically-movable 2 0 conductive contact rod 28 that extends through the adjacent end cap.
` Por providing a ~eal b~tween each contact rod 28 andthe envelope, an elongated metal bellows 30 is provided for -l each contact rod~ Each of thase bellows has one end joined ' to the contact rod by a suitable vacuum-tight joint and its `1 opposite end joined to the adjacent end cap by anothçr suit- :
~ able vacuum-tight joint. The bellows allows the contact `-~, rod to be move~ vertically without impairing the vacuumI in~ide the envelope. :
To assist in guiding each contact rod 28 for substan-tially straight-line motion along its longitudinal axis, a ~I tubular guide 32, preferably o~ non-magnetic material, is : -- 5 -- .
.' '' :. , , " v . .,,, , ~ ,., ,;;" , " ~ , llVI-04044 ~6~3~
provided around each contact rod. This quide 32 has a radially extending flange that is fixed to the adjacent ; end cap. At the inner end of guide 32, there is a sleeYe bearing 34~ preferably of polytetrafluorethyleneg fixed to the guide and slidably receiving contact rod 28.
~ Each movable contact rod 28 is electrically connected ; to the end cap th~ough which is extends ~y suitable flexible conductive braid. Such braid is schematically shown at 36 and at 37. The purpose of this braid will soon appear 10 more clearly.
me interrupter also includes an interleaving rod elec~
~; trode arrangement of the general type disclosed and claimed - in the aforesaid Rich U.S. patent ~o. 3,6799474 dated July 251 1972. This arrangement compxises a ~irst plurality of rod electrodes 40 mounted on and electrically connected to lower end cap 13 and a second plurality of rod electrodes 42 mounted on and electrically conmected to upeer end cap 12. The rod electrodes 40 and 42 are positioned so as to form a generally circular ring of electrodes concentrically ~urrounding the ce~tral longitudinal axis 45 of the in-. . .
terrupter. The upwardly_projecting electrodes 40 inter-leave with and longitudinally overlap the downwardly-project-ing electrodes 42 and are spaced circumferentially o the ring from the immediately-adjacent electrodes 42. Since ., ~.. - .. ..
alternate electrodes are connected to opposite end caps, the juxtaposed electrodes are considered to alternate in ' ~ ~c}~ai~y polarity when the interrupter is open.
For supporting the stationaxy contact 25 o~ the lower pair 22 of contacts, a spider 56 of highly conductive metal i~ provided at the lower9 or distal9 ends of the downwardly projecting rod electxodes 42. As shown in Fig, 2, this spider compri~es a central portion 57 and ~our arms 58 _ ~ _ ' , .
.", : . .
llVI-04044 radiating outwaxdly therefrom. Contact 25 is suitably brazed to the central portion 57 of the spider, and the outer ends of arms 58 are suitably brazed to the lower ends of the downwardly projecting rod electrodes 42 The stationary contact 25 is an annular meimber having a hole through its center, and the central portion 57 of the spider has a hole therein aligned with the hole in the ~` annular contact~ the two holes forming a centrally-disposed passage 60, the purpose of which will soon appear more clearly. -The stationary contact 25 of the upper pair 20 of --contacts is supported on the upper ends of the upwardly-projecting rod electrodes 40 in substantially the same way as the lower stationary contact is supported on the downwardly_projecting rod electrodlss 42. The spider 66 of this upper support is o~ the same configuration as the lower spider 56. A passage 70, corresponding to passage 60 in the lower spider, axtends through the upper spider and stationary contact 25 supported thereon.
It should be noted that the upwardly-projecting rod electrodes 40 extend pask the lower spider 56 through large indentations 59 in the periphery of the spider and are su~fi-ciently spaced ~rom the spider, as shown in Fig. 2, to provide ample electrical clearance between these parts~ which are at opposite polarities when the interrupter is open.
Similarly, the downwardly-projecting rod electrodes 42 ;~
extends past the upper spider 66 with sufficient electxical ' clearance to withstand the voltage present between these ; parts.
The outer ends 28a o~ the two movable contact rods 38 may be thought of as the terminals of the interrupter. When the interrupter is closed, current entering through lower . . .
.' ,. ~. .
633~ llVI 04044 terminal 28a flows upwardly through th~ interrupter via either o~ two electrically parallel paths One path is through the series combination of: lower contact rod 28, lower contact pair 22, spider 56, the four rod electrodes 42 in parallel, and partæ 12, and 37. The obher path is through the series combination of: parts 36 and 13, the ~-four rod electrodes 40 in parallel, spider 66, upper contact pair 20, and the upper contact rod 28. ~hose two parallel paths are constituted by substantially identical parts, as a result of whlch their impedances are substantially equal, thus forcing the total current to divide substantially equally between them. Since only about half the total current pas~es through each pair of contacts as compared to an interrupter where there is only a single pair of contacts, the force required to hold each of our sets of contacts clo ed against the magnetic forces developed by ;i a given total current through the interrupter is only about .
`~ one-fourth that required in the case of the interrupter with a single pair o contacts. m is means the total force required on our t~o sets of contacts is only about one-half ~ that required in an interrupter with a single set o~ contacts.
; This substantial reduction in for~e requiremen$s is a dis-tance advantage in that it permits a substantial reduction ~!, in the size o~ ths required closing mechani~ma For effecting opening of the interrupter, the two movable contact rods 28 are drivan substantially simultaneously outwardly of the interrupter rom their illustrated closed positions to ef~ect ~ubstantially simultaneous contact-; separation at the two sets o contact~ 20 and 22 Closing 30 is effected after such an opening operation by simultaneouslyreturning the movable contact rods 28 to their illustrated positions to produce substantially simultaneou~ contact-, : ' llVI-04044 " ~16633~
engagement at the two contact pairs 20 and 22. The linkage for effecting such contact-rod motion is not shown since it can be of any suitable conventional design, e.g., that illustrated in Fig. 2 of Canadian Application Serial No.
228,770 dated June 5, 1975 - Crouch et al, and assigned to the assignee of the present invention.
During a circuit-interrupting operation, the substantially simultaneous contact-separation occurring at the two contact pairs 20 and 22 normally results in an arc being established between - 10 the contacts 25, 26 of each pair. Ionized arciny products from these arcs are quickly propogated into the gaps between the adjacent rod electrodes 40 and 42, causing these inter-electrode ` gaps to break down electrically, thus forming diffuse arcs between juxtaposed pairs of rod electrodes. These di~fuse arcs extend circumferentially o~ the envelope and are capable of --carrying relatively high currents ~ithout the formation of anode spots, as is explained in the aforesaid Rich U.S. Patent No. 3,679,474 dated July 25, 1972. Although current may sometimes continue to flow through the inter-contact gaps af~er arcs are established between the rod electrodes, this inter-contact current is only a small percentage of the total current and does not prevent interruption at an early current , . - .
- zero.
-j To assure prompt breakdown of the inter-electrode gaps following arc-initiation at the contact pairs 20 and 22, it , is important that there be good communication between the .;., . ~, inter-contact gaps and the inter-electrode gaps so that ionized arcing products from the inter-contact arcs can be -~uickly propogated into the inter-electrode gaps. The passageways 60 and 69 extending through the stationary con-tact structures into the central region o~ the interrupter ;. : .
contribute to such good communication. In this respect, ~
:. ~ 9 --.; , .
~ .
: . :: , . ~ ... :: . . . . - :,.:, . : . . :
~ ~ llVI-04044 arcing products from arc~ between the contacts 25, 26 can flow inwardly through these passage and diffuse radially outwardly into the inter-electrode gaps, It should also be apparent from Fig. 2 that the large indentations in the peripheries of spiders 56 and 66 provide relatîvely un-restricted passages through which arcing products can flow between the intar-contact gap and the inter-electrode gaps to promote the desired prompt breakdwon of the inter-electrode gaps.
For protecting the insulating housing 11 from being coa~ed by arc-generated metallic particles, a plurality of tubular metal shields 70, 71, and 72 are provided. Central shield 70 is electrically isolated from the end caps 12 and 13, and shields 71 and 72 are end shields electrically con-nected to the end caps. m ese shields act in a known manner to intercept and condense arc-generated metallic vapors be~ore they can reach the insulating housing 11.
Each o~ the rod 40 and 42 is preferably a composite member comprising a tubular shell of vacuum-melted ~teel and a copper core filling the ~hell. me stoel shell is relied upon or high mechanical strength and high dielectric strength and the copper core, which ha~ high electrical and tharmal conductivity, is relied upon primarily for carry-.. . . .
; ing continuous currents through the rod and for heat dis-~ sipation purposes, A suitable steel is one of those dis--~ closed and claimed in U,S. Patent Nv, 3,769,538 dated .~ .' .
October 30, 1973 - Harris, assignsd to the assignee of the present invention. In anothsr form of the invention, each rod electrode comprises a copper shell and a core of stesl.
The material o~ the shell, in either ~orm, should be re-latively gas-ree so as to substantially prevent the . ., :, evolution of gases therefrom when exposed to arcingO
: . ':
_ 1~ - :
.~ . ' , , . . . : . . . . ~ .. . .:. " , :
llvI-04044 3~
As pointed out hereinabove, an interrupter having side~
by-side parallel connected movable contact rods is subject to the problem that under high current conditions~ high magnetic forces are developed between the adjacent movable contact rods, ~ending to force the xods together and deform them making it difficult to guide and properly operate the movable contact rods. In the aforesaid Kurtz and Sofianek application~ this problem is overcome by locating the two i~ contact pairs at opposite ends of the interrupter and by carrying current to one contact pair past the other contact pair via a conductive tube surrounding the movable csntact rod, We are able to dispense with such a tube because we carry the current past each contact pair via a plurality of rod electrodes distributed generally symmetrically about the periphery of the movable contact rod. ~or example, the current flowing past the lower contact pair 22 flows through the rod electrodes 40 in the region of the movable contact rod 28, Since these rod electrodes 40 are generally symmetrically located about the periphery of the contact rod ~, .
~, 20 28, as will be e~pecially apparent from Fig, 2~ and since the contact rods ~arry subst~ntially equal currents, there will normally be little net transversely-acting force on the movable contact rod. The magnetic attraction between the ~ movable conta~t rod 28 and each rod electrode 40 is balanced .. i :. . ..
'~! by a substantially equal and opposite magnetic attraction i' between the contact rod and a rod electrode 40 in a location ', diametrically oppo~ed to that of the first rod electrode.
~he net transversely-acting magnetic force present on the upper movable contact rod 28 is correspondingly limited to a low value since rod electrodes 42 carrying substantially equal currents symmetrically surrounded this upper movable contact rod.
~3~ llVI~04044 In the reyion where the rod electrodes 40 and 42 over-lap, the current paths through adjacent rod electrodes are in close proximity~ but the magnetic attraction force between adjacent rods is not very great because each of these current paths is carrying only one-eight o the total current. There isj~ however, an azimuthal magnetic field encircling the whole rod assembly which interacts with t~e current flow in the rods to produce a radially inward force on the rods. This radially inward force, which can be termed a magnetic wrap-around force, can be substantial at high currents. The rod electrodes 42 and 40 are able to e~fectively resist these magnetic forces because each of the - ~ --spiders 56 and 66 across their distal ends acts as a brace opposing displacement of the rod ell_ctrodes by these attrac-tive forces and also because each of the rods, as mentioned hereinabove, includes a shallj~ or a core, of high strength ~-steel that is highly resistant to d~s~ormation.
When the interrupter is in its closed position shown, relatively high hold-closed forces must be exerted on the two movable contacts 26 in oxder to hold the contacts closed against high currents, e.g., momentary currents, These hold- -closed forces are, o~ course, transmitted to the stationary . . . .
contacts and their supporting structure. The presence of the spiders 56 and 66 imparts a desirably high amount of rigidity to this supporting structure. These spiders tie ` :~
the rod electrodes together$ eliminating the cantilever-i ~ . ..
beam type construction of the a~oresaid Kurtz and Sofianek application and providing, in effect~ a box-like framework.
Since each spLder is supported on the rods at its four, diametrically-opposed ends, it too is rigidified as compared to the cantilever~beam type contact suppoxts o~ the afore-said Kurtz and Sofianek application.
,': ' ' ~ 12 _ , .
1066~i34 llVI-04044 While we no longer need a conductive tube around the movable contact rod for force-reduction purposes as in the aforesaid Kurtz and Sofianek application, it is sometimes desirable to include such a tube for another purpose. More specifically, such a tube, if it surrounds the contacts~ can advantageously be used to intercept th~ relatively large molten particles generated by arcing at the con-tacts, there-by pro~ecting the rest of the interrupter from such particles.
Fig. 3 shows an embodiment of the invention that in cludes such a tube around each set of contacts. The lower tube is designated 75 and the upper tube 80. The upwardly-~ projecting rod electrodes 40, instead of being mounted ; directly on the lower end cap~ are moun~ed on the lower tube 75 through an annular flange 76 at the top o the tube. The downwardly-projecting rod electrodes 42 are similarly mounted on the upper tube~ 80 through a ~lange 81.
; To aid in locating the contact: pairs within their res-pective tubes 75 and 80, the stationary contact 25 of each pair is mounted on a short conducti.ve rod lO0 that extends between the stationary contact and the spider 56 and 66 on which it is mounted. This rod 100 projects from the ~pider into its associated tube 75 or 80 and is brazed to the spidex at one end and to ~he end.
~he inner end of each of the tubes 75 and 80 is open ~-80 that sufficient communication is present between each inter-contact gap and the inter-electrQde g~aps to force ; prompt initiation o~ arces acro~s tha inter_electrode gaps following contact-separation. To facilitate such communi-cation, passa~eways 60 and 70 are respectively provided in the stationary rods 100 and 102.
The lower ends of the rod electrodes 42 are inter-connected by a conductive spider 56 corresponding to the , :
.:
- . : : , . . :: . -.~ llVI-040~4 ~1~663;~
spider 56 of Fig. 1. The upper ends of the rod electrodes 40 are interconnec~ed by a conductive spider 66 corresponding to the spider 66 of Fig. 1. These spiders of Fig. 3 impart rigidity of their associatQd rod structures in the same manner as their counterparts function in Fig. 1.
The overall operation of the interrupter of Fig. 3 is generally the same as that of Fig. 1, and further description of such operation is therefore considered unnecessary.
One noteworthy point with respect to the interrupter of Fig. 3 is that since all the rods 43 carry current, the current in the upper tube 80 distributed more uniformly ;. . . -. -:
about the circumference of the tube with less non-uniformity at its ends than is the case when only one rod electrode normally carries current, as in the aforesaid Kurtz and Sofianek application. This greater uniformity o~ current distribution further reduces any transversely-acting magnetic forces on the surrounded movable contact rod 28.
The same conditions as described above with respect to upper tube 80 are present with reY~pect to the lower tube 75 since all of the rod electrodes 4~ carry current, thus contributing to more uniform distribution of current in i, . .
~ the lower tube 75.
. 1 ;~l Th~ use of a metal tube around the contacts of an ~'l interleaving rod-electrode vacuum interrupter for in-tercepting and condensing large molten particles generated by intercontact arcing before the particles can deposit : . .
' on the rod electrodes is disclosed and claimed more broadly -~, in United States Patent No. 4,041,261 to Rich, issued ~ 30 August 9, 1977. The invention of said Rich patent was f made prior to the present invention.
:~ ; :
~ - 14 -. " :, .
, . .
~ llVI-04044 It is to be understood that the drawings have been somewha~ simplified to facilitate an understanding of the invention. For example, certain details have been omitted which are needed to facilitate assembly of the disclosed interrupters. More specifically, each of the end caps 12 and 13, though shown as a single part, will typically be made from two or more con~entric parts suitably joined together after the internal parts of interrupter have been assembled and located.
While we have shown and described a particular embodi- -ment of our inv~ntion, it will be obvious to those sXilled --in the art that various changes and modifications may be made without departing from our invention in its broader ` aspects; and we, therefore, intend in the appended claims to cover all such changes and modifications as fall within the true spirit and scope of our invention.
. .:
. . . .
. ' .' -. ... ~ .
"' . '~ ' ' ":
.'~' ~ .
:.' .: . .
., ~ ~ . .
_ 15 -' :~
"'.'':~., :' , ... ,,, . .... . . . . .. . .. .. ....... :
provide second conductive support s~ructure on which a second generally stationary contact is supported in a position `
intermediate the locations at which said second support structuer is attached to said predetermined rod electrodes of the first plurality The first and second stationary :
contacts are disposed in positions spaced longitudinally o~ the longitudinal aXis of the ring. First and second movable contacts are provided within the envelope ~or re- -1 20 spectively engaging the irst and second yenerally stationary contacts A first movable contact rod on which said first contact rod on which said ~irst contact rod is mounted ex- .:
tends in sealed relationship through the first end cap. :
A second movable contact rod on which said second contact is mounted extends in sealed relationship through said second metal end cap. The t~o pairs of engageable contacts are electrically connected in parallel with each other . -. . .
while the interrupter is closed. ; :
For a better understanding of the invention7 re~erenc~ ~ ;
may be had to the accompanying drawings, wherein~
FIG 1 is a side-elevational view, mostly in section~
showing a vacuum interrupter embodying one form of the in-i, , .
_ 4 -.
, ~ . , . , . . .. , . .. , : ~ " . .. - ..
1~633 ~ llVI-04044 vention.
Fig. 2 is a sectional view along the line 2-2 of Fig. 1 .
Fig, 3 is a sectional view of a portion of an interrupter embodying a modified form of the invention.
Referring now to Fig. 1, the illustrated vacuum inter-rupter comprises a highly evacuated envelope 10 that comprises a tubular housing 11 of insulating material and a pair of metal end caps 12 and 13 disposed at opposite ends of the housing and sealed thereto by conventional scals 14~
'.:
m e interrupter comprises two pairs 20 and 22 of separable contacts electrically connected in ~ with each other in a manner that will soon become apparent. Con-. tact pair 20 is located near the upper end cap 12, and con-o tact pair 22 is located near the lower end cap 13. Each :
contact pair comprises a generally stationary con~act 25 suppoxted in a manner soon to be described, and a movable contact 26 vertically movable into and out of engagement with stationary contact 25~ The movable contact 26 of each pair is brazed to the inner end of a vertically-movable 2 0 conductive contact rod 28 that extends through the adjacent end cap.
` Por providing a ~eal b~tween each contact rod 28 andthe envelope, an elongated metal bellows 30 is provided for -l each contact rod~ Each of thase bellows has one end joined ' to the contact rod by a suitable vacuum-tight joint and its `1 opposite end joined to the adjacent end cap by anothçr suit- :
~ able vacuum-tight joint. The bellows allows the contact `-~, rod to be move~ vertically without impairing the vacuumI in~ide the envelope. :
To assist in guiding each contact rod 28 for substan-tially straight-line motion along its longitudinal axis, a ~I tubular guide 32, preferably o~ non-magnetic material, is : -- 5 -- .
.' '' :. , , " v . .,,, , ~ ,., ,;;" , " ~ , llVI-04044 ~6~3~
provided around each contact rod. This quide 32 has a radially extending flange that is fixed to the adjacent ; end cap. At the inner end of guide 32, there is a sleeYe bearing 34~ preferably of polytetrafluorethyleneg fixed to the guide and slidably receiving contact rod 28.
~ Each movable contact rod 28 is electrically connected ; to the end cap th~ough which is extends ~y suitable flexible conductive braid. Such braid is schematically shown at 36 and at 37. The purpose of this braid will soon appear 10 more clearly.
me interrupter also includes an interleaving rod elec~
~; trode arrangement of the general type disclosed and claimed - in the aforesaid Rich U.S. patent ~o. 3,6799474 dated July 251 1972. This arrangement compxises a ~irst plurality of rod electrodes 40 mounted on and electrically connected to lower end cap 13 and a second plurality of rod electrodes 42 mounted on and electrically conmected to upeer end cap 12. The rod electrodes 40 and 42 are positioned so as to form a generally circular ring of electrodes concentrically ~urrounding the ce~tral longitudinal axis 45 of the in-. . .
terrupter. The upwardly_projecting electrodes 40 inter-leave with and longitudinally overlap the downwardly-project-ing electrodes 42 and are spaced circumferentially o the ring from the immediately-adjacent electrodes 42. Since ., ~.. - .. ..
alternate electrodes are connected to opposite end caps, the juxtaposed electrodes are considered to alternate in ' ~ ~c}~ai~y polarity when the interrupter is open.
For supporting the stationaxy contact 25 o~ the lower pair 22 of contacts, a spider 56 of highly conductive metal i~ provided at the lower9 or distal9 ends of the downwardly projecting rod electxodes 42. As shown in Fig, 2, this spider compri~es a central portion 57 and ~our arms 58 _ ~ _ ' , .
.", : . .
llVI-04044 radiating outwaxdly therefrom. Contact 25 is suitably brazed to the central portion 57 of the spider, and the outer ends of arms 58 are suitably brazed to the lower ends of the downwardly projecting rod electrodes 42 The stationary contact 25 is an annular meimber having a hole through its center, and the central portion 57 of the spider has a hole therein aligned with the hole in the ~` annular contact~ the two holes forming a centrally-disposed passage 60, the purpose of which will soon appear more clearly. -The stationary contact 25 of the upper pair 20 of --contacts is supported on the upper ends of the upwardly-projecting rod electrodes 40 in substantially the same way as the lower stationary contact is supported on the downwardly_projecting rod electrodlss 42. The spider 66 of this upper support is o~ the same configuration as the lower spider 56. A passage 70, corresponding to passage 60 in the lower spider, axtends through the upper spider and stationary contact 25 supported thereon.
It should be noted that the upwardly-projecting rod electrodes 40 extend pask the lower spider 56 through large indentations 59 in the periphery of the spider and are su~fi-ciently spaced ~rom the spider, as shown in Fig. 2, to provide ample electrical clearance between these parts~ which are at opposite polarities when the interrupter is open.
Similarly, the downwardly-projecting rod electrodes 42 ;~
extends past the upper spider 66 with sufficient electxical ' clearance to withstand the voltage present between these ; parts.
The outer ends 28a o~ the two movable contact rods 38 may be thought of as the terminals of the interrupter. When the interrupter is closed, current entering through lower . . .
.' ,. ~. .
633~ llVI 04044 terminal 28a flows upwardly through th~ interrupter via either o~ two electrically parallel paths One path is through the series combination of: lower contact rod 28, lower contact pair 22, spider 56, the four rod electrodes 42 in parallel, and partæ 12, and 37. The obher path is through the series combination of: parts 36 and 13, the ~-four rod electrodes 40 in parallel, spider 66, upper contact pair 20, and the upper contact rod 28. ~hose two parallel paths are constituted by substantially identical parts, as a result of whlch their impedances are substantially equal, thus forcing the total current to divide substantially equally between them. Since only about half the total current pas~es through each pair of contacts as compared to an interrupter where there is only a single pair of contacts, the force required to hold each of our sets of contacts clo ed against the magnetic forces developed by ;i a given total current through the interrupter is only about .
`~ one-fourth that required in the case of the interrupter with a single pair o contacts. m is means the total force required on our t~o sets of contacts is only about one-half ~ that required in an interrupter with a single set o~ contacts.
; This substantial reduction in for~e requiremen$s is a dis-tance advantage in that it permits a substantial reduction ~!, in the size o~ ths required closing mechani~ma For effecting opening of the interrupter, the two movable contact rods 28 are drivan substantially simultaneously outwardly of the interrupter rom their illustrated closed positions to ef~ect ~ubstantially simultaneous contact-; separation at the two sets o contact~ 20 and 22 Closing 30 is effected after such an opening operation by simultaneouslyreturning the movable contact rods 28 to their illustrated positions to produce substantially simultaneou~ contact-, : ' llVI-04044 " ~16633~
engagement at the two contact pairs 20 and 22. The linkage for effecting such contact-rod motion is not shown since it can be of any suitable conventional design, e.g., that illustrated in Fig. 2 of Canadian Application Serial No.
228,770 dated June 5, 1975 - Crouch et al, and assigned to the assignee of the present invention.
During a circuit-interrupting operation, the substantially simultaneous contact-separation occurring at the two contact pairs 20 and 22 normally results in an arc being established between - 10 the contacts 25, 26 of each pair. Ionized arciny products from these arcs are quickly propogated into the gaps between the adjacent rod electrodes 40 and 42, causing these inter-electrode ` gaps to break down electrically, thus forming diffuse arcs between juxtaposed pairs of rod electrodes. These di~fuse arcs extend circumferentially o~ the envelope and are capable of --carrying relatively high currents ~ithout the formation of anode spots, as is explained in the aforesaid Rich U.S. Patent No. 3,679,474 dated July 25, 1972. Although current may sometimes continue to flow through the inter-contact gaps af~er arcs are established between the rod electrodes, this inter-contact current is only a small percentage of the total current and does not prevent interruption at an early current , . - .
- zero.
-j To assure prompt breakdown of the inter-electrode gaps following arc-initiation at the contact pairs 20 and 22, it , is important that there be good communication between the .;., . ~, inter-contact gaps and the inter-electrode gaps so that ionized arcing products from the inter-contact arcs can be -~uickly propogated into the inter-electrode gaps. The passageways 60 and 69 extending through the stationary con-tact structures into the central region o~ the interrupter ;. : .
contribute to such good communication. In this respect, ~
:. ~ 9 --.; , .
~ .
: . :: , . ~ ... :: . . . . - :,.:, . : . . :
~ ~ llVI-04044 arcing products from arc~ between the contacts 25, 26 can flow inwardly through these passage and diffuse radially outwardly into the inter-electrode gaps, It should also be apparent from Fig. 2 that the large indentations in the peripheries of spiders 56 and 66 provide relatîvely un-restricted passages through which arcing products can flow between the intar-contact gap and the inter-electrode gaps to promote the desired prompt breakdwon of the inter-electrode gaps.
For protecting the insulating housing 11 from being coa~ed by arc-generated metallic particles, a plurality of tubular metal shields 70, 71, and 72 are provided. Central shield 70 is electrically isolated from the end caps 12 and 13, and shields 71 and 72 are end shields electrically con-nected to the end caps. m ese shields act in a known manner to intercept and condense arc-generated metallic vapors be~ore they can reach the insulating housing 11.
Each o~ the rod 40 and 42 is preferably a composite member comprising a tubular shell of vacuum-melted ~teel and a copper core filling the ~hell. me stoel shell is relied upon or high mechanical strength and high dielectric strength and the copper core, which ha~ high electrical and tharmal conductivity, is relied upon primarily for carry-.. . . .
; ing continuous currents through the rod and for heat dis-~ sipation purposes, A suitable steel is one of those dis--~ closed and claimed in U,S. Patent Nv, 3,769,538 dated .~ .' .
October 30, 1973 - Harris, assignsd to the assignee of the present invention. In anothsr form of the invention, each rod electrode comprises a copper shell and a core of stesl.
The material o~ the shell, in either ~orm, should be re-latively gas-ree so as to substantially prevent the . ., :, evolution of gases therefrom when exposed to arcingO
: . ':
_ 1~ - :
.~ . ' , , . . . : . . . . ~ .. . .:. " , :
llvI-04044 3~
As pointed out hereinabove, an interrupter having side~
by-side parallel connected movable contact rods is subject to the problem that under high current conditions~ high magnetic forces are developed between the adjacent movable contact rods, ~ending to force the xods together and deform them making it difficult to guide and properly operate the movable contact rods. In the aforesaid Kurtz and Sofianek application~ this problem is overcome by locating the two i~ contact pairs at opposite ends of the interrupter and by carrying current to one contact pair past the other contact pair via a conductive tube surrounding the movable csntact rod, We are able to dispense with such a tube because we carry the current past each contact pair via a plurality of rod electrodes distributed generally symmetrically about the periphery of the movable contact rod. ~or example, the current flowing past the lower contact pair 22 flows through the rod electrodes 40 in the region of the movable contact rod 28, Since these rod electrodes 40 are generally symmetrically located about the periphery of the contact rod ~, .
~, 20 28, as will be e~pecially apparent from Fig, 2~ and since the contact rods ~arry subst~ntially equal currents, there will normally be little net transversely-acting force on the movable contact rod. The magnetic attraction between the ~ movable conta~t rod 28 and each rod electrode 40 is balanced .. i :. . ..
'~! by a substantially equal and opposite magnetic attraction i' between the contact rod and a rod electrode 40 in a location ', diametrically oppo~ed to that of the first rod electrode.
~he net transversely-acting magnetic force present on the upper movable contact rod 28 is correspondingly limited to a low value since rod electrodes 42 carrying substantially equal currents symmetrically surrounded this upper movable contact rod.
~3~ llVI~04044 In the reyion where the rod electrodes 40 and 42 over-lap, the current paths through adjacent rod electrodes are in close proximity~ but the magnetic attraction force between adjacent rods is not very great because each of these current paths is carrying only one-eight o the total current. There isj~ however, an azimuthal magnetic field encircling the whole rod assembly which interacts with t~e current flow in the rods to produce a radially inward force on the rods. This radially inward force, which can be termed a magnetic wrap-around force, can be substantial at high currents. The rod electrodes 42 and 40 are able to e~fectively resist these magnetic forces because each of the - ~ --spiders 56 and 66 across their distal ends acts as a brace opposing displacement of the rod ell_ctrodes by these attrac-tive forces and also because each of the rods, as mentioned hereinabove, includes a shallj~ or a core, of high strength ~-steel that is highly resistant to d~s~ormation.
When the interrupter is in its closed position shown, relatively high hold-closed forces must be exerted on the two movable contacts 26 in oxder to hold the contacts closed against high currents, e.g., momentary currents, These hold- -closed forces are, o~ course, transmitted to the stationary . . . .
contacts and their supporting structure. The presence of the spiders 56 and 66 imparts a desirably high amount of rigidity to this supporting structure. These spiders tie ` :~
the rod electrodes together$ eliminating the cantilever-i ~ . ..
beam type construction of the a~oresaid Kurtz and Sofianek application and providing, in effect~ a box-like framework.
Since each spLder is supported on the rods at its four, diametrically-opposed ends, it too is rigidified as compared to the cantilever~beam type contact suppoxts o~ the afore-said Kurtz and Sofianek application.
,': ' ' ~ 12 _ , .
1066~i34 llVI-04044 While we no longer need a conductive tube around the movable contact rod for force-reduction purposes as in the aforesaid Kurtz and Sofianek application, it is sometimes desirable to include such a tube for another purpose. More specifically, such a tube, if it surrounds the contacts~ can advantageously be used to intercept th~ relatively large molten particles generated by arcing at the con-tacts, there-by pro~ecting the rest of the interrupter from such particles.
Fig. 3 shows an embodiment of the invention that in cludes such a tube around each set of contacts. The lower tube is designated 75 and the upper tube 80. The upwardly-~ projecting rod electrodes 40, instead of being mounted ; directly on the lower end cap~ are moun~ed on the lower tube 75 through an annular flange 76 at the top o the tube. The downwardly-projecting rod electrodes 42 are similarly mounted on the upper tube~ 80 through a ~lange 81.
; To aid in locating the contact: pairs within their res-pective tubes 75 and 80, the stationary contact 25 of each pair is mounted on a short conducti.ve rod lO0 that extends between the stationary contact and the spider 56 and 66 on which it is mounted. This rod 100 projects from the ~pider into its associated tube 75 or 80 and is brazed to the spidex at one end and to ~he end.
~he inner end of each of the tubes 75 and 80 is open ~-80 that sufficient communication is present between each inter-contact gap and the inter-electrQde g~aps to force ; prompt initiation o~ arces acro~s tha inter_electrode gaps following contact-separation. To facilitate such communi-cation, passa~eways 60 and 70 are respectively provided in the stationary rods 100 and 102.
The lower ends of the rod electrodes 42 are inter-connected by a conductive spider 56 corresponding to the , :
.:
- . : : , . . :: . -.~ llVI-040~4 ~1~663;~
spider 56 of Fig. 1. The upper ends of the rod electrodes 40 are interconnec~ed by a conductive spider 66 corresponding to the spider 66 of Fig. 1. These spiders of Fig. 3 impart rigidity of their associatQd rod structures in the same manner as their counterparts function in Fig. 1.
The overall operation of the interrupter of Fig. 3 is generally the same as that of Fig. 1, and further description of such operation is therefore considered unnecessary.
One noteworthy point with respect to the interrupter of Fig. 3 is that since all the rods 43 carry current, the current in the upper tube 80 distributed more uniformly ;. . . -. -:
about the circumference of the tube with less non-uniformity at its ends than is the case when only one rod electrode normally carries current, as in the aforesaid Kurtz and Sofianek application. This greater uniformity o~ current distribution further reduces any transversely-acting magnetic forces on the surrounded movable contact rod 28.
The same conditions as described above with respect to upper tube 80 are present with reY~pect to the lower tube 75 since all of the rod electrodes 4~ carry current, thus contributing to more uniform distribution of current in i, . .
~ the lower tube 75.
. 1 ;~l Th~ use of a metal tube around the contacts of an ~'l interleaving rod-electrode vacuum interrupter for in-tercepting and condensing large molten particles generated by intercontact arcing before the particles can deposit : . .
' on the rod electrodes is disclosed and claimed more broadly -~, in United States Patent No. 4,041,261 to Rich, issued ~ 30 August 9, 1977. The invention of said Rich patent was f made prior to the present invention.
:~ ; :
~ - 14 -. " :, .
, . .
~ llVI-04044 It is to be understood that the drawings have been somewha~ simplified to facilitate an understanding of the invention. For example, certain details have been omitted which are needed to facilitate assembly of the disclosed interrupters. More specifically, each of the end caps 12 and 13, though shown as a single part, will typically be made from two or more con~entric parts suitably joined together after the internal parts of interrupter have been assembled and located.
While we have shown and described a particular embodi- -ment of our inv~ntion, it will be obvious to those sXilled --in the art that various changes and modifications may be made without departing from our invention in its broader ` aspects; and we, therefore, intend in the appended claims to cover all such changes and modifications as fall within the true spirit and scope of our invention.
. .:
. . . .
. ' .' -. ... ~ .
"' . '~ ' ' ":
.'~' ~ .
:.' .: . .
., ~ ~ . .
_ 15 -' :~
"'.'':~., :' , ... ,,, . .... . . . . .. . .. .. ....... :
Claims (10)
1. In a vacuum-type circuit interrupter;
(a) a highly evacuated envelope comprising an insulating housing and first and second metal end caps at opposite ends of said housing, (b) a first plurality of rod electrodes within said envelope mounted on said first end cap and electrically connected to said first end cap, (c) a second plurality of rod electrodes within said envelope mounted on said second end cap and electrically connected to said second end cap, (d) said first and second pluralities of electrodes being positioned so as to form a ring of electrodes within said envelope, the electrodes of said first plurality inter-leaving with and longitudinally overlapping the electrodes of said second plurality, said first plurality of electrodes having a polarity opposite to the polarity of said second plurality of electrodes, whereby inter-electrode gaps are defined between the juxtaposed interleaving electrodes of said ring, (e) a first generally stationary contact, first conductive support structure extending transversely of said rod electrodes and attached to the distal ends of predetermined rod electrodes of said second plurality, and means for supporting said first generally stationary contact on said first support structure in a position intermediate the locations at which said first support structure is attached to said predetermined rod electrodes of said second plural-ity, (f) a second generally stationary contact, second conductive support structure extending transversely of said rod electrodes and attached to the distal ends of predetermined rod electrodes of said first plurality, and means for supporting said second generally stationary con-tact on said second support structure in a position inter-mediate the location at which said second support structure is attached to said predetermined rod electrodes of said first plurality, (g) said first and second stationary contacts being disposed in positions spaced longitudinally of the longitudinal axis of said ring, (h) first and second movable contacts within said envelope for respectively engaging said first and second generally stationary contacts, (i) a first movable contact rod on which said first contact is mounted extending in sealed relationship through said first metal end cap, (j) a second movable contact rod on which said second contact is mounted extending in sealed relationship through said second metal end cap, (k) said two pairs of engageable contacts being electrically connected in parallel with each other while said interrupter is closed.
(a) a highly evacuated envelope comprising an insulating housing and first and second metal end caps at opposite ends of said housing, (b) a first plurality of rod electrodes within said envelope mounted on said first end cap and electrically connected to said first end cap, (c) a second plurality of rod electrodes within said envelope mounted on said second end cap and electrically connected to said second end cap, (d) said first and second pluralities of electrodes being positioned so as to form a ring of electrodes within said envelope, the electrodes of said first plurality inter-leaving with and longitudinally overlapping the electrodes of said second plurality, said first plurality of electrodes having a polarity opposite to the polarity of said second plurality of electrodes, whereby inter-electrode gaps are defined between the juxtaposed interleaving electrodes of said ring, (e) a first generally stationary contact, first conductive support structure extending transversely of said rod electrodes and attached to the distal ends of predetermined rod electrodes of said second plurality, and means for supporting said first generally stationary contact on said first support structure in a position intermediate the locations at which said first support structure is attached to said predetermined rod electrodes of said second plural-ity, (f) a second generally stationary contact, second conductive support structure extending transversely of said rod electrodes and attached to the distal ends of predetermined rod electrodes of said first plurality, and means for supporting said second generally stationary con-tact on said second support structure in a position inter-mediate the location at which said second support structure is attached to said predetermined rod electrodes of said first plurality, (g) said first and second stationary contacts being disposed in positions spaced longitudinally of the longitudinal axis of said ring, (h) first and second movable contacts within said envelope for respectively engaging said first and second generally stationary contacts, (i) a first movable contact rod on which said first contact is mounted extending in sealed relationship through said first metal end cap, (j) a second movable contact rod on which said second contact is mounted extending in sealed relationship through said second metal end cap, (k) said two pairs of engageable contacts being electrically connected in parallel with each other while said interrupter is closed.
2. The vacuum interrupter of claim 1 in which:
(a) said first conductive support structure comprises a first spider having a central portion and arms extending radially outwardly from said central portion, the outer ends of said arms being attached to said pre-determined rod electrodes of said second plurality, said first stationary contact being attached to said central portion of said first spider, and (b) said second conductive support structure comprises a second spider having a central portion and arms extending radially outwardly from said central portion, the outer ends of the arms of said second spider being attached to said predetermined rod electrodes of said first plurality, said second stationary contact being attached to said central portion of said second spider,
(a) said first conductive support structure comprises a first spider having a central portion and arms extending radially outwardly from said central portion, the outer ends of said arms being attached to said pre-determined rod electrodes of said second plurality, said first stationary contact being attached to said central portion of said first spider, and (b) said second conductive support structure comprises a second spider having a central portion and arms extending radially outwardly from said central portion, the outer ends of the arms of said second spider being attached to said predetermined rod electrodes of said first plurality, said second stationary contact being attached to said central portion of said second spider,
3. The vacuum interrupter of claim 2 in which (a) said first spider has indentations in its periphery through which the rod electrodes of first plurality of rod electrodes respectively extend with clearance, and (b) said second spider has indentations in its periphery through which the rod electrodes of said second plurality of rod electrodes respectively extend with clearance.
4. The vacuum interrupter of claim 1 in which:
(a) said predetermined rod electrodes of said second plurality are located generally symmetrically about the periphery of said second movable contact rod, and (b) said predetermined rod electrodes of said first plurality are located generally symmetrically about the periphery of said first movable contact rod.
(a) said predetermined rod electrodes of said second plurality are located generally symmetrically about the periphery of said second movable contact rod, and (b) said predetermined rod electrodes of said first plurality are located generally symmetrically about the periphery of said first movable contact rod.
5. The vacuum interrupter of claim 1 in which:
(a) a first conductive tube surrounds said first contact rod, is disposed between said first plurality of rod electrodes and said first end cap, and is electri-cally in series with said predetermined rod electrodes of first plurality of rod electrodes when the interrupter is closed, and (b) a second conductive tube surrounds said second contact rod, is disposed between said second plurality of rod electrodes and said second end cap, and is electrically in series with said predetermined rod electrodes of said second plurality when the interrupter is closed,
(a) a first conductive tube surrounds said first contact rod, is disposed between said first plurality of rod electrodes and said first end cap, and is electri-cally in series with said predetermined rod electrodes of first plurality of rod electrodes when the interrupter is closed, and (b) a second conductive tube surrounds said second contact rod, is disposed between said second plurality of rod electrodes and said second end cap, and is electrically in series with said predetermined rod electrodes of said second plurality when the interrupter is closed,
6. The interrupter of claim 5 in which:
(a) said first conductive tube surrounds said first stationary and movable contacts and acts to inter-cept the relatively large molten particles generated by arcing at said first pair of contacts. and (b) said second conductive tube surrounds said second stationary and movable contacts and acts to in-tercept the relatively large molten particles generated by arcing at said second pair of contacts,
(a) said first conductive tube surrounds said first stationary and movable contacts and acts to inter-cept the relatively large molten particles generated by arcing at said first pair of contacts. and (b) said second conductive tube surrounds said second stationary and movable contacts and acts to in-tercept the relatively large molten particles generated by arcing at said second pair of contacts,
7. The vacuum interrupter of claim 1 in which a con-ductive tube surrounds said first contact rod, is disposed between said first plurality of rod electrodes and said first end cap, and is electrically connected in series with said predetermined rod electrodes of said first plurality of rod electrodes when the interrupter is closed,
8. The interrupter of claim 7 in which said conductive tube surrounds said first stationary and movable contacts and acts to intercept the relatively large molten particles generated by arcing at said first pair of contacts,
9. The vacuum interrupter of claim 1 in which a con-ductive tube electrically connected to said first end cap surrounds said first pair of contacts for intercepting the relatively large molten particles generated by arcing at said first pair of contacts, 10. The vacuum interrupter of claim 9 in which a conductive tube electrically connected to said second end
Claim 10 continued:
cap surrounds said second pair of contacts of intercepting the relatively large molten particles generated by arcing at said second pair of contacts.
cap surrounds said second pair of contacts of intercepting the relatively large molten particles generated by arcing at said second pair of contacts.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CA256,645A CA1066334A (en) | 1976-07-09 | 1976-07-09 | Vacuum-type circuit interrupter with two sets of contacts electrically in parallel |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CA256,645A CA1066334A (en) | 1976-07-09 | 1976-07-09 | Vacuum-type circuit interrupter with two sets of contacts electrically in parallel |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CA1066334A true CA1066334A (en) | 1979-11-13 |
Family
ID=4106397
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CA256,645A Expired CA1066334A (en) | 1976-07-09 | 1976-07-09 | Vacuum-type circuit interrupter with two sets of contacts electrically in parallel |
Country Status (1)
| Country | Link |
|---|---|
| CA (1) | CA1066334A (en) |
-
1976
- 1976-07-09 CA CA256,645A patent/CA1066334A/en not_active Expired
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| US5373130A (en) | Self-extinguishing expansion switch or circuit breaker | |
| US4473731A (en) | Vacuum circuit interrupter | |
| EP0597434B1 (en) | Vacuum interrupter | |
| RU2309478C2 (en) | High-voltage power switch disconnecting unit | |
| KR20000008930A (en) | Electrode construct body for vacuum interrupt | |
| US3980850A (en) | Vacuum interrupter with cup-shaped contact having an inner arc controlling electrode | |
| US20130220977A1 (en) | Electrical contact arrangement for vacuum interrupter arrangement | |
| US3211866A (en) | Vacuum type electric circuit interrupter with plural parallel-connected contact points | |
| US6479778B1 (en) | Vacuum switch including windmill-shaped electrodes | |
| US3845263A (en) | Circuit breaker with spring charged operating mechanism | |
| US3836740A (en) | Vacuum type circuit interrupter having improved contacts | |
| US6740838B2 (en) | Contact for vacuum interrupter and vacuum interrupter using the contact | |
| US3792214A (en) | Vacuum interrupter for high voltage application | |
| KR20030023515A (en) | Contact for vacuum interrupter, and vacuum interrupter using same | |
| US4629839A (en) | High current switch contacts | |
| CN111480212B (en) | High-voltage power switch and method for electromagnetically shielding a vacuum interrupter in an insulator | |
| EP0088442B1 (en) | Puffer type gas-blast circuit breaker | |
| US3969598A (en) | Vacuum-type circuit interrupter with a plurality of sets of contacts in parallel | |
| US3185798A (en) | Electric circuit interrupter of the vacuum type with series-related arcing gaps | |
| US4029921A (en) | Vacuum-type circuit interrupter with two sets of contacts electrically in parallel | |
| CA1066334A (en) | Vacuum-type circuit interrupter with two sets of contacts electrically in parallel | |
| US5726406A (en) | Electrical vacuum switch | |
| CA1046115A (en) | Vacuum-type circuit interrupter with two sets of contacts electrically in parallel | |
| US4086459A (en) | Rod array vacuum switch for high voltage operation | |
| US4617434A (en) | Contact arrangement for a vacuum interrupter |