US2274327A - Condenser construction - Google Patents

Condenser construction Download PDF

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US2274327A
US2274327A US264886A US26488639A US2274327A US 2274327 A US2274327 A US 2274327A US 264886 A US264886 A US 264886A US 26488639 A US26488639 A US 26488639A US 2274327 A US2274327 A US 2274327A
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electrode
casing
condenser
section
strip
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US264886A
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Alexander M Georgiev
William G Pontis
Paul F Koehly
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Motors Liquidation Co
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Motors Liquidation Co
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01GCAPACITORS; CAPACITORS, RECTIFIERS, DETECTORS, SWITCHING DEVICES, LIGHT-SENSITIVE OR TEMPERATURE-SENSITIVE DEVICES OF THE ELECTROLYTIC TYPE
    • H01G9/00Electrolytic capacitors, rectifiers, detectors, switching devices, light-sensitive or temperature-sensitive devices; Processes of their manufacture
    • H01G9/004Details
    • H01G9/08Housing; Encapsulation
    • H01G9/12Vents or other means allowing expansion

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  • Another object is to provide a blow out vent for a condenser casing that is normally hermetically sealed, but that will become operative should excessive pressures develop within the casing.
  • Another object of the invention is to construct a multielectrode condenser of compact arrangement with avsmall mass.
  • Another object is to simplify the formation of electrode tabs, and work a saving of material, by which they are formed.
  • Another object is to provide an eillcient and dependable connection between a terminal member and an electrode tab, whereby corrosion or deterioration of the connections will be eliminated.
  • Another object is to provide a simple means and method for anchoring terminal members in a casing closure of molded material.
  • condenser sections to the desired capacity through winding strips of electrode material and intervening spacers in generally centered relation upon a mandrel of comparatively large diameter until the desired capacity is obtained.
  • condenser sections thus wound are removed from the mandrel and the finishing end of the electrode strips partially unwound for folding or formation of the electrode tabs, after which the finish end of the condenser sections are rerolled, and the section flattened. and then folded or otherwise compacted to form a composite bundle of small dimension, which is inserted in an enclosing casing.
  • the assembled sections are disposed within a closely embracing casing that is somewhat longer than the bundle of condenser sections, the sections being spaced from either end of the casing.
  • the casing ls hermetically sealed by a terminal block carrying terminals, to one end of which are fixed terminal lugs and on the other end of which there are provided sockets for receiving the ends of electrode tabs.
  • the terminal lugs and the electrode tabs are secured in place, by staking or otherwise deforming so as to provide a good electrical contact between the engaging parts.
  • Fig. 1 is an elevational view of the improved electrolytlc condenser herein disclosed.
  • Fig. 2 is a longitudinal sectional view of the same.
  • Fig. 3 is an elevational view of the condenser sections or bundle of electrode elements.
  • Fig. 4 is a top plan view substantially as indicated by the arrow 4 of Fig. 1.
  • Fig. 5 is an enlarged view in section, showing details of electrical connections between the terminallug and electrode tab, the view comprising a sectional view substantially as indicated by the line and arrows 5 5 of Fig. 2.
  • Fig. 6 is a plan view of the condenser section substantially as illustrated by the arrow 6 of Fig. 3.
  • Fig. 7 is an enlarged view in section showing a detail of the construction of casing vent means.
  • Fig. 8 is a transverse sectional view substantially as indicated by the line and arrows 8-8 of Fig. 2.
  • Figs. 9 to 13 inclusive illustrate the method and succession of steps followed in formation of the electrode connectors.
  • Fig. 14 is a view of a condenser section partially unrolled at the finish end, and with parts broken away to illustrate the arrangement of electrode elements.
  • Fig. 15 is a schematic view indicating generally the arrangement and relation of the electrode elements in a completely assembled condenser.
  • Il indicates a deep drawn or extended metallic casing having a closed end vwall I2, and whose cylindrical wall is rolled, spun, or othenvise ldeformed 'to provide an inwardly directed rib Il,
  • venting means 22 embracing a circular area formed by means of gral connection with the main body of the end member I2.
  • venting means has been illustrated as providing the scoring 24 entering from the outside surface of the metal casing, it is contemplated that the scoring may be effected on the inside surface of the end wall, whereupon the contiguous surface and integral connection at 24 would thence be located on the exterior surface of the end wall. Under the latter con ⁇ ditions the groove 24 would thence be filled, or substantially filled, with the insulating paint with which condenser casings of this type are customarily lined. In either instance of construction the venting means 24 responds to excessive pressures developed within the casing, and tears away from the body of the metal in the end wall I2, thereby affording an exit or relief passage for the excessive pressure developed. In the instance where the scoring 24 is within the casing, the insulating paint filling the groove would tend to reduce any minute leaking thru the pores of the metal at the thinned wall section 24.
  • condenser body 44 that may be comprised of one or more condenser sections, as will hereinafter be described.
  • the condenser body 44 embraces an assemblage of electrode members and spacers eventually grouped into a cylindrical bundle and provided with tabs extending from one end of the bundle by which electrical connection is made to an outside circuit.
  • the bundle 40 is embraced by a wrapper 42 of insulating material which when the body 44 is inserted within the casing rests against the side wall thereof substantially engaging the coating of insulating paint hereinbefore mentioned.
  • the side wall of the casing i4 is provided with a second inwardly directed rib 44 Just at the end of the bundle near the open end of the casing.
  • the depression in the side wall operates to position the body 44 within the casing i4 and prevent its shifting longitudinally thereof.
  • the wrapper 32 of an overall dimension greater than the length of the bundle 34, so that when both are resting on the insulator i4 the wrapper 42 will extend beyond the end of the body 44 toward the open end of the casing, substantially as indicated at 36.
  • the rib or depression 34 engages the extended portion of the wrapper instead of the body 44.
  • the casing i4 is hermetically sealed by means of a terminal block or terminal head 44, that is peripherally -grooved to receive a sealing ring such as a rubber band 44, that engages a third inwardly directed rib 42, where it is held in compressed relation by the turned over flange or rim 44 against the outside surface of the terminal head 44.
  • a sealing ring such as a rubber band 44
  • the terminal members 44 are particularly designed to afford electrical connections between the electrode members of the condenser sections and parts of the circuit exterior oi' the condenser.
  • terminal lugs 44 which are formed from T blanks, the stem of which is apertured at 42 to provide for anchorage of an exterior wire or conductor. while the arms of the T are wrapped around to provide an open or split cylinder, whose internal diameter is slightly less than the cross sectional diameter of the terminal member 44.
  • the open cylinder of the terminal lugs is illustrated at 44, and when crowded over the end of the terminal member 44 is staked at 44 as shown in Pig.
  • the condenser body 44 from which extend the electrode tabs 44 here comprise a pair of condenser sections 14 and 14, and which as an entity are fashioned into a cylindrical bundle each electrically isolated from the'other and in fact segregated by an insulating spacer 14 as will be observed upon reference to Figs. 8 and 15.
  • Both of the condenser sections 14 and 14 are constructed by centering the start ends of the necessary electrode strips 44 and 42 with a selected number of spacers or paper insulators 44, 44 upon a rotatable mandrel oi' substantial diameter, and thence winding to a desired number of turns to provide condenser sections of prescribed capacity.
  • electrode connectors are formed integrally with a convenient end of each electrode strip, each of the electrode connectors comprising an extension 99 projecting transversely from the electrode strips and from the end of the respective condenser sections. to end in a generally rounded electrode tab 99.
  • the electrode strips are folded in a manner comprehended by Figs. .9 to i3 of the drawings, and the general arrangement of the completely folded connectors with respect to the condenser section 19 is illustrated in Fig. 14.
  • a short section of the electrode strip is folded obliquely with respect to the length of the strip, such as along the line 99, thence a second fold 99 is effected that is also oblique with respect to the length of the strip, but which is of a lesser angle than that of the fold 99..
  • This step is illustrated in Fig. 10 of the drawings, and is followed by a third fold
  • the electrode strips are recentered with respect to their associated electrode strips and spac'ers so that the electrode connectors extend from one end of the condenser section.
  • This procedure is generally indicated in Fig. 14, and is followed by folding a paper insulator of suillcient thickness and lateral extent, such as that indicated at
  • Fig. 14 there has been illustrated the shorter electrode strip 92 as extending in the opposite direction from the electrode connector, from which the electrode strip 99 extends from its electrode connector.
  • the terminating end of the electrode strip 92 may be insulated by successive folds of the ends of the spacer 99 which are bentback over the end
  • the papers or spacers 99 may be doubled back and folded as along the line
  • An electrolytic condenser comprising in combination, a condenser section including a plurality of electrode members with exposed connectors and loosely compacted into a bundle. a metallic casing surrounding the bundle, and a terminal 'block closing oi! one end of the casing, said casing being of substantially greater length than the condenser section, means including a part of the casing for retaining the condenser section substantially centrally of its length, whereby an expansion chamber of substantially equal volume is provided by the casing at each end oi' the condenser section.
  • An electrolytic condenser comprising in combination, a tubular metallic casing having inwardly directed rings spaced from each end thereof, a. condenser section enclosed within the casing and disposed between the spaced rings so as to be engaged at each end thereof. and a terminal member hermetically sealed to the open end of the casing, whereby an expansion chamber is provided at each end of the casing between the ends of the condenser and the end members of the casing.
  • An electrolytlc condenser comprising in combination, a deep tubular casing having an inwardly directed ring spaced from the closed end thereof, aperforated insulator supported by the ring within the casing, a loosely compacted condenser section wrapped with an' insulator being disposedwithinthecasingsoasto restuponthe insulator disc, said condenser section when so positioned ending remote from the open end of the casing and providing electrode tabs exposed thereto, said casing providing means engaging the end of the section at the open end of the casing for restraining the section from longitudinal movement within the casing, and a terminal block spaced from the end of the condenser section and secured in sealing relation in the open end of the casing.
  • each electrode member having successive folds to form a nat laminated connector of uniform cross section extending from one end thereof and gathered at the free ends into a compact rounded tab, the electrode tab formation including a ilrst and second fold of the electrode material obliquely with respect to the longitudinal dimension oi the electrode, and subsequent folds of the electrode material substantially at right angles to the longitudinal dimension thereof.

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  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Microelectronics & Electronic Packaging (AREA)
  • Fixed Capacitors And Capacitor Manufacturing Machines (AREA)

Description

Febi- 24, 1942- A. M. GEoRGlEv ET AL 2,274,327
CONDENSER CONSTRUCTION Filed March 30, 1959 2 Sheets-Sheet l IMM@ U R m m A INVENTOR H/ex an der/*15e orgz'ev Wzl/1772 5. F2772 Zis- Feb. 24, 1942. Il A. M. GEoRGlEv ETAL. 2,274,327
CONDENSER CONSTRUCTION Filed March 50, 1939 2 Sheets-Sheet 2 fly-14 Patented Feb. 24, 1942 UNITED STATES PATENT oFFlcE 2,214,327 v coNDENsEa coNsTaUc'rroN Alexander M. Georglev, William G. Pontis, and
Paul F. Koehly, Dayton, Ohio, assignors to General Motors Corporation, Detroit, Mich., a corporation of Delaware Application March 30, 1939, Serial No. 264,886
7 claims. (c1. 11s-,315)
or at least reduce the probability of bursting under conditions of service.
Another object is to provide a blow out vent for a condenser casing that is normally hermetically sealed, but that will become operative should excessive pressures develop within the casing.
Another object of the invention is to construct a multielectrode condenser of compact arrangement with avsmall mass.
Another object is to simplify the formation of electrode tabs, and work a saving of material, by which they are formed.
Another object is to provide an eillcient and dependable connection between a terminal member and an electrode tab, whereby corrosion or deterioration of the connections will be eliminated.
. Another object is to provide a simple means and method for anchoring terminal members in a casing closure of molded material.
Further objects and advantages of the present invention will be apparent from the following description, reference being had to the accompanying drawings wherein a. preferred embodiment of the present invention is clearly shown.
The stated objects and advantages are accomplished by forming condenser sections to the desired capacity through winding strips of electrode material and intervening spacers in generally centered relation upon a mandrel of comparatively large diameter until the desired capacity is obtained. 'I'he condenser sections thus wound are removed from the mandrel and the finishing end of the electrode strips partially unwound for folding or formation of the electrode tabs, after which the finish end of the condenser sections are rerolled, and the section flattened. and then folded or otherwise compacted to form a composite bundle of small dimension, which is inserted in an enclosing casing. The assembled sections are disposed within a closely embracing casing that is somewhat longer than the bundle of condenser sections, the sections being spaced from either end of the casing. The casing ls hermetically sealed by a terminal block carrying terminals, to one end of which are fixed terminal lugs and on the other end of which there are provided sockets for receiving the ends of electrode tabs. Before sealing the terminal block in the open end of the casing, the terminal lugs and the electrode tabs are secured in place, by staking or otherwise deforming so as to provide a good electrical contact between the engaging parts. A more detailed and specific description of the invention resides in the followy ing specification, that refers particularly to. the
drawings, wherein;
Fig. 1 is an elevational view of the improved electrolytlc condenser herein disclosed.
Fig. 2 is a longitudinal sectional view of the same.
Fig. 3 is an elevational view of the condenser sections or bundle of electrode elements.
Fig. 4 is a top plan view substantially as indicated by the arrow 4 of Fig. 1.
Fig. 5 is an enlarged view in section, showing details of electrical connections between the terminallug and electrode tab, the view comprising a sectional view substantially as indicated by the line and arrows 5 5 of Fig. 2.
Fig. 6 is a plan view of the condenser section substantially as illustrated by the arrow 6 of Fig. 3.
Fig. 7 is an enlarged view in section showing a detail of the construction of casing vent means.
Fig. 8 is a transverse sectional view substantially as indicated by the line and arrows 8-8 of Fig. 2.
Figs. 9 to 13 inclusive, illustrate the method and succession of steps followed in formation of the electrode connectors.
Fig. 14 is a view of a condenser section partially unrolled at the finish end, and with parts broken away to illustrate the arrangement of electrode elements. n
Fig. 15 is a schematic view indicating generally the arrangement and relation of the electrode elements in a completely assembled condenser.
With particular reference to the drawings, Il indicates a deep drawn or extended metallic casing having a closed end vwall I2, and whose cylindrical wall is rolled, spun, or othenvise ldeformed 'to provide an inwardly directed rib Il,
spaced somewlnt from the closed end I2 and adapted to seat a rigid disc of insulating material I6, having perforations Il. kThis disc when in place provides a chamber 20 that is bounded by the disc I6, the end wall I2 of the casing and the cylindrical walls thereof. In the bottom wall l2 there may be provided venting means 22, embracing a circular area formed by means of gral connection with the main body of the end member I2.
While the venting means has been illustrated as providing the scoring 24 entering from the outside surface of the metal casing, it is contemplated that the scoring may be effected on the inside surface of the end wall, whereupon the contiguous surface and integral connection at 24 would thence be located on the exterior surface of the end wall. Under the latter con` ditions the groove 24 would thence be filled, or substantially filled, with the insulating paint with which condenser casings of this type are customarily lined. In either instance of construction the venting means 24 responds to excessive pressures developed within the casing, and tears away from the body of the metal in the end wall I2, thereby affording an exit or relief passage for the excessive pressure developed. In the instance where the scoring 24 is within the casing, the insulating paint filling the groove would tend to reduce any minute leaking thru the pores of the metal at the thinned wall section 24.
Within the casing I4, and resting upon the insulating disc i4 there is a condenser body 44 that may be comprised of one or more condenser sections, as will hereinafter be described. Sufllce it here to say that the condenser body 44 embraces an assemblage of electrode members and spacers eventually grouped into a cylindrical bundle and provided with tabs extending from one end of the bundle by which electrical connection is made to an outside circuit. The bundle 40 is embraced by a wrapper 42 of insulating material which when the body 44 is inserted within the casing rests against the side wall thereof substantially engaging the coating of insulating paint hereinbefore mentioned. After inserting the condenser body 44 within the casing, so that it rests upon the insulating disc I4, the side wall of the casing i4 is provided with a second inwardly directed rib 44 Just at the end of the bundle near the open end of the casing. The depression in the side wall operates to position the body 44 within the casing i4 and prevent its shifting longitudinally thereof. In this respectit is desirable to have the wrapper 32 of an overall dimension greater than the length of the bundle 34, so that when both are resting on the insulator i4 the wrapper 42 will extend beyond the end of the body 44 toward the open end of the casing, substantially as indicated at 36. Thus, the rib or depression 34 engages the extended portion of the wrapper instead of the body 44.
The casing i4 is hermetically sealed by means of a terminal block or terminal head 44, that is peripherally -grooved to receive a sealing ring such as a rubber band 44, that engages a third inwardly directed rib 42, where it is held in compressed relation by the turned over flange or rim 44 against the outside surface of the terminal head 44.
As to the speoino formation of the terminan nal member 44, such as of aluminum and of a few thousandths of an inch in cross section larger than the bore of the hole, and which upon cooling of the casting are nrmly held within the casting in a seal-tight relation, due to the shrinkage oi the material of the casting. The terminal members 44 are particularly designed to afford electrical connections between the electrode members of the condenser sections and parts of the circuit exterior oi' the condenser.
kTo accomplishthis, the ends of the terminal members 44 on the exterior surface of the terminal block are closely embraced by terminal lugs 44 which are formed from T blanks, the stem of which is apertured at 42 to provide for anchorage of an exterior wire or conductor. while the arms of the T are wrapped around to provide an open or split cylinder, whose internal diameter is slightly less than the cross sectional diameter of the terminal member 44. The open cylinder of the terminal lugs is illustrated at 44, and when crowded over the end of the terminal member 44 is staked at 44 as shown in Pig.
5. This staking resina in .portion u of o rminal lug being depressed into the body of the terminal member 44 as indicated at 44. The end of the terminal member 44 extending from the inside surface of the terminal block is provided with a straight bore substantially cylindrical recess 42, and is adapted to snugly receive the compacted end 44 oi electrode tab. where it is secured as by staking at 44. It will be observed from Fig. 5 that this staking deforms the wall of the socketed end of the terminal member 44 and presses it into bighting engagement with the deformed tab 44. In Fig. 5 this is illustrated by the recurved bowed portions 44, 1l and 12.
The condenser body 44 from which extend the electrode tabs 44 here comprise a pair of condenser sections 14 and 14, and which as an entity are fashioned into a cylindrical bundle each electrically isolated from the'other and in fact segregated by an insulating spacer 14 as will be observed upon reference to Figs. 8 and 15. Both of the condenser sections 14 and 14 are constructed by centering the start ends of the necessary electrode strips 44 and 42 with a selected number of spacers or paper insulators 44, 44 upon a rotatable mandrel oi' substantial diameter, and thence winding to a desired number of turns to provide condenser sections of prescribed capacity. By so doing, the result is a generally cylindrical body of convoluted and interleaved electrode members and spacers, in which the active areas of the electrode members are substantially coextensive and lie along a longitudinal center relative to the center of the spacers. The spacers or insulators as they are sometimes called, are of a width greater than the electrode strips and project beyond each side thereof. 'Ihe condenser section 14, as illustrated, comprises one having a pair of electrodes, and is formed generally as has been set out with the exceptionthat after sufficient of the electrode members 44 and 42 has been wound to provide the desired active area, one of the electrode members is severed from the supply roll while the other electrode member is wound one or more times completely about the section, so as to provide an electrostatic shield, which is graphically illustrated in Fig. 15 by the dashed line 44 forming a continuation of the electrode strip 42. In the instance of the condenser section 14, while following the general idea set out hereinabove, we deviate therefrom and from the procedure followed in the formation of section I9 at the finish end of the winding, by severing at a definite point the electrode member 99. and thence complete the prescribed winding by leaving the supply end of the severed electrode strip in its centered relation, and ilnally cut oi! all electrodestrips and all insulators. By so doing there is provided a condenser section in which there are three electrode members one of which is substantally coextenslve with the other two. This -in substance is illustrated in Figs. 14 and 15, where the third electrode member resulting from the severing` of the electrode strip is indicated at 92.
In order to effect a direct and compact connection between the electrode strips and the terminall members 99, electrode connectors are formed integrally with a convenient end of each electrode strip, each of the electrode connectors comprising an extension 99 projecting transversely from the electrode strips and from the end of the respective condenser sections. to end in a generally rounded electrode tab 99. To ellect the formation of the electrode connectors 99 the electrode strips are folded in a manner comprehended by Figs. .9 to i3 of the drawings, and the general arrangement of the completely folded connectors with respect to the condenser section 19 is illustrated in Fig. 14.
Referring to Figs. 9 to 13 as illustrative of the method of forming the electrode connectors 99 for the electrode strip 99, it will be observed that a short section of the electrode strip is folded obliquely with respect to the length of the strip, such as along the line 99, thence a second fold 99 is effected that is also oblique with respect to the length of the strip, but which is of a lesser angle than that of the fold 99.. This step is illustrated in Fig. 10 of the drawings, and is followed by a third fold |99 which is substantially perpendicular to the length of the strip as illustrated in Fig. 11, after which two successive folds |92 and |99 are made parallel to the third fold as illustrated in Figs. 12 and 13, that result in the narrow, compact, laterally extending electrode connector 99, the end of which may be snipped oiI to provide the desired length as indicated at |99, and thence rounded or otherwise compacted to provide the electrode tab 99. As a result, an electrode connector is provided that is something like 32 thicknesses of electrode material at a section taken thru the portion 99 and provides a very firm substantial connector that is integrally joined to the electrode member. Where the electrode material is extremely thin, and it is desired to have an electrode connector 99 of greater mass, it is contemplated that a short section of the finish end of an electrode strip, such as |I9 of the electrode 92 in Fig. i4, may be folded back. From that point on the successive steps of folding the electrode connector are substantially as set out hereinabove.
Practice demonstrates that satisfactory electrode connectors may beformed by use of a comparatively short length of the electrode strip material. As an example with an electrode strip of 2% inches wide something like 3 inches ofi' of the length of the strip is all that is necessary in forming a compact and satisfactory electrode connector. In forming the connector from that length of electrode material the first fold 99 extends from one comer ||2 of the electrode strip diagonally across the strip to the opposite edge thereof to a point ||9 about 4 inches from the ilnished end. This folding results in an overlapping portion of triangular shape designated by H2, ||9 and ||9, which extends beyond the edge of the electrode strip as at ||9 which is about 3 inches remote from the severed end of the electrode strip. The second fold 99 manlfests in bringing the fold 99 in registry with the point ||9 or such as to lay alongthe 3 inch line, the repositioned fold 99 thence extending transverse and at right angles to the length of the strip and forming a guide to which the subsequent third, fourth and fifth steps of folding are made parallel'to. This manner of folding saves a considerable amount of electrode material in the construction of electrolytic condenser, as compared with the older methods where something like 20 to 26 inches in length of electrode material was used in forming the electrode connectors. Substantially all of the electrode material. all except the threeinch strip used in folding the connectors, is available for its function as a capacitative element.
After the folding of the electrode connectors,
the electrode strips are recentered with respect to their associated electrode strips and spac'ers so that the electrode connectors extend from one end of the condenser section. This procedure is generally indicated in Fig. 14, and is followed by folding a paper insulator of suillcient thickness and lateral extent, such as that indicated at |29, one each of which is placed over the finished end of each electrode element, as indicator for the electrodes 99 and 92. In Fig. 14 there has been illustrated the shorter electrode strip 92 as extending in the opposite direction from the electrode connector, from which the electrode strip 99 extends from its electrode connector. Where that practice is followed the terminating end of the electrode strip 92 may be insulated by successive folds of the ends of the spacer 99 which are bentback over the end |22 of the strip 92 as illustrated at |29. Similarly the papers or spacers 99 may be doubled back and folded as along the line |29 so as to lay over the electrode connector for the electrode strip 92. Folding of vthe electrode connectors being completed, and the insulators therefor properly adjusted, the end of the condenser section is rewound after which it may be doubled, folded or rolled or otherwise compacted into the body 99 with the separator I9 and wrapper 32 as has been hereinbefore described. In this last mentioned folding or compacting and assembling of the condenser section 19 and 19, that is done-with a view to leaving a firm but yet loosely compacted bundle, thru which impregnation of the sections may be effected and which will afford one or more voids or passages |99, that will extend thruout the length oi' the condenser section such that when assembled within the casing |9 there will be ready communication between the chamber 29 at the bottom ofthe casing and the chamber |92 at the upper end of the casing between the body 39 and the terminal head 99. That makes for equalization of pressure thruout the interior of the casing should there develop an increase of pressure at some localized point. 'I'hus the whole void of the casing outside of the condenser body is available as an expansion chamber, which in the majority of cases, 'or in the range of contemplated service, will obviate the necessity for a condenser vent, inasmuch as the expansion chamber or chambers will permit a considerable increase of pressure within the casing without resulting in a burst of casing.
While the embodiment of the present invention as herein disclosed, constitutes a preferred form, it is to be understood that other forms might be adopted, all coming within the scope of the claims which follow.
What is claimed is as follows:
1. An electrolytic condenser comprising in combination, a condenser section including a plurality of electrode members with exposed connectors and loosely compacted into a bundle. a metallic casing surrounding the bundle, and a terminal 'block closing oi! one end of the casing, said casing being of substantially greater length than the condenser section, means including a part of the casing for retaining the condenser section substantially centrally of its length, whereby an expansion chamber of substantially equal volume is provided by the casing at each end oi' the condenser section.
2. The combination set forth in claim 1, wherein the means for positioning the condenser section centrally of the casing comprises indented portions of the casing immediately adjacent each end of the condenser section and projecting over the edge of the section.
3. An electrolytic condenser comprising in combination, a tubular metallic casing having inwardly directed rings spaced from each end thereof, a. condenser section enclosed within the casing and disposed between the spaced rings so as to be engaged at each end thereof. and a terminal member hermetically sealed to the open end of the casing, whereby an expansion chamber is provided at each end of the casing between the ends of the condenser and the end members of the casing.
4. 'I'he combination set forth in claim 3, wherein the expansion chambers at each end of the casing are in communication along the folds of the section. and wherein the volumetric content of the expansion chambers is in the order of if; of the total volumetric content of the casing.
5. An electrolytlc condenser comprising in combination, a deep tubular casing having an inwardly directed ring spaced from the closed end thereof, aperforated insulator supported by the ring within the casing, a loosely compacted condenser section wrapped with an' insulator being disposedwithinthecasingsoasto restuponthe insulator disc, said condenser section when so positioned ending remote from the open end of the casing and providing electrode tabs exposed thereto, said casing providing means engaging the end of the section at the open end of the casing for restraining the section from longitudinal movement within the casing, and a terminal block spaced from the end of the condenser section and secured in sealing relation in the open end of the casing.
6. The combination set forth in claim 5, wherein the chambers within the casing at each end of the condenser section are in fluid communication through the voids between the folds of the condenser section, whereby the pressure developed in one chamber is readily communicated to the other chamber, and wherein the closed end wall of the casing provides a weakened area operable. as a pressure relief vent upon the occurrence of excessive pressures within the casing.
7. In an electrolytic condenser having electrode members of thin metallic section, the combination of each electrode member having successive folds to form a nat laminated connector of uniform cross section extending from one end thereof and gathered at the free ends into a compact rounded tab, the electrode tab formation including a ilrst and second fold of the electrode material obliquely with respect to the longitudinal dimension oi the electrode, and subsequent folds of the electrode material substantially at right angles to the longitudinal dimension thereof.
ALEXANDER M GEORGIEV. WILLIAM G. PON'I'IS. PAUL F. KOEHLY.
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Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2623101A (en) * 1951-05-12 1952-12-23 Jerome J Kurland Hermetically sealed electrical device
US2869052A (en) * 1954-03-01 1959-01-13 Sprague Electric Co Molded capacitors
DE1103467B (en) * 1957-12-24 1961-03-30 Kondensatorenwerk Gera Veb Method of attaching the lead wires to electrolytic capacitors
US3221217A (en) * 1962-04-12 1965-11-30 Don R Hucke Electrolytic capacitor
DE1207009B (en) * 1953-03-14 1965-12-16 Draegerwerk Ag Safety valve for electrolytic capacitors
US3878440A (en) * 1973-07-23 1975-04-15 Nichicon Capacitor Ltd Electrolytic capacitor vent
US4175166A (en) * 1978-05-02 1979-11-20 Power Conversion, Inc. Sealed container construction capable of safely venting internal pressure
US4987518A (en) * 1988-04-11 1991-01-22 Sprague Electric Company Metal-cased electrolytic capacitor
US6307734B1 (en) 1998-12-31 2001-10-23 General Electric Company Electrolytic capacitor
US20080043403A1 (en) * 2006-01-12 2008-02-21 Akira Ueda Capacitor and manufacturing method of the same
US20170372838A1 (en) * 2016-06-28 2017-12-28 Cornell Dubilier Electronics, Inc. Capacitor with pressure interrupter

Cited By (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2623101A (en) * 1951-05-12 1952-12-23 Jerome J Kurland Hermetically sealed electrical device
DE1207009B (en) * 1953-03-14 1965-12-16 Draegerwerk Ag Safety valve for electrolytic capacitors
US2869052A (en) * 1954-03-01 1959-01-13 Sprague Electric Co Molded capacitors
DE1103467B (en) * 1957-12-24 1961-03-30 Kondensatorenwerk Gera Veb Method of attaching the lead wires to electrolytic capacitors
US3221217A (en) * 1962-04-12 1965-11-30 Don R Hucke Electrolytic capacitor
US3878440A (en) * 1973-07-23 1975-04-15 Nichicon Capacitor Ltd Electrolytic capacitor vent
US4175166A (en) * 1978-05-02 1979-11-20 Power Conversion, Inc. Sealed container construction capable of safely venting internal pressure
US4987518A (en) * 1988-04-11 1991-01-22 Sprague Electric Company Metal-cased electrolytic capacitor
US6307734B1 (en) 1998-12-31 2001-10-23 General Electric Company Electrolytic capacitor
US20080043403A1 (en) * 2006-01-12 2008-02-21 Akira Ueda Capacitor and manufacturing method of the same
US7548410B2 (en) * 2006-01-12 2009-06-16 Nichicon Corporation Capacitor and manufacturing method of the same
US20170372838A1 (en) * 2016-06-28 2017-12-28 Cornell Dubilier Electronics, Inc. Capacitor with pressure interrupter
US9911533B2 (en) * 2016-06-28 2018-03-06 Cornell Dubilier Electronics, Inc. Capacitor with pressure interrupter

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