USRE22092E - steinmayer - Google Patents

Description

May 5, 1942 A. G. sTElNMAYl-:R Re. 22,092

FUSE

Original Filed May 14. 1931 2 Sheets-Sheet 1 5 e a if /0 r O C 17291 1 I/ /Lsf INVENTOR /Z//k/ @fk/#Mawr @227M- f @M7445 ATTORNEY May 5, 1942- A. G. sTExNMAYER Re. 22,092

FUSE

original Filed' May 14. 19:51

2 Sheets-Sheet 2 'wlr INVENTOR B/f/)f fxf/r/)lmayv' M A /17/f ATTORNEY Reissued May 5, 1942 A FUSE Alwin G. Steinmnyer, Shorewood, Wis., nssignor to Line Material Co 20 Claims.

This invention relates to fuses and is particularLv directed to an expulsion type of fuse structure and fuse link therefor.

One of the many dimculties involved in the use of expulsion type fuses is due to the fact that these fuses are often called upon to interrupt currents which are not very large.' For instance, in farm line service the load is usually small and isoften a non-inductive load. Under these conditions the usual types of expulsion fuses do not give entirely satisfactory results, for frequently the current is only sufficient to rupture a small portion of the fuse without causing complete expulsion, thus causing subsequent leakage and carbonization which often results in complete destruction of the fuse structure. In addition, these leaks cause radio interference.

While this invention is not to be construed as limited to low capacity expulsion fuses, it nevertheless is eminently suitable for such use and overcomes the defects noted above.

Objects of this invention are to provide an expulsion fuse which will insure complete and adequate separation of the severed portions of the fuse, even if the fuse is only slowly melted; which will have in addition an expulsion action thus securing quick clearing of the fuse for large overloads; which insures clearing of the fuse for both small and large overloads, and renders this clearing of the fuse, or opening of the circuit, certain and Sure under all conditions of operation.

Further objects are to provide a fuse which closely conforms in dimensions to the standard type of expulsion fuses; which does not require an elaborate and expensive construction; which secures both the advantages of an expulsion action and also a spring action in insuring separation of the severed portions of the fuse; and in which the major parts, with the exception of the fusible section, are uninjured during operation, and may be used over and over.

Further objects are to provide an expulsion type of fuse which, in certain forms, is so constructed that a telltale or Visible indication is given upon blowing oi' the fuse; in which a portion projects downwardly from the lower end of the fuse tube; and in which the projecting portion, even if presenting conducting portions, is restrained from passing completely from the fuse tube and dangling therefrom in a dangerous manner, and which, therefore', prevents danger to the linemen and avoids the danger of short cirrnpany, South. Milwaukee, Wis., a corporation of Delaware .Original No. 1,952,835, dated March 27, 1934, Se-

rial No. 537,267, May 14, 1931. Application for reissue March 9, 1942, Serial No. 434,023

cuits or connecting with adjacent live wires or grounded parts.

Embodiments of the invention are shown in the accompanying drawings, in which:

Figure 1 is a view, partly in section, of one form of the invention,

Figure 2 is a fragmentary view showing the position of. the parts after the fuse has blown.

Figure 3 is an enlarged detail of the upper portion of the link.

Figure 4 is a plan view of the structure shown in Figure 3, with parts broken away.

Figure 5 is a modified form of attaching means for the upper end of the fuse link.

Figure 6 is a somewhat diagrammatic view showing how the upper end of the fuse link may be cut to cooperate with the type of fastening means shown in Figure 5.

,Figure 'I is a view, partly in section, showing a modiiied form of fuse.

Figure 8 is a sectional view showing a still furprises a fuse cartridge of insulatingmaterial which may comprise the insulating tube I, or which may be formed of a plurality of tubes in accordance with any of the standard constructions. This phase of the fuse construction forms no portion of the invention, and for the sake of clearness a single tube has been shown.

The expulsion fuse is provided with an upper contact 2 and a lower contact 3. 'I'he upper contact may consist of a sleeve threaded upon the upper end oi' the tube and is itself provided with a reduced externally threaded upper end I. A metallic cap 5 is screwed upon this reduced end and serves to clamp the upper end of the fuse link in place. The lower contact surrounds the tube and is locked thereto in any suitable manner. It is provided with a pair of spaced ears l between which the lower end of the fuse link is passed. A threaded, knurled thumb screw I is in threaded engagement with the ears 8, and serves to clamp the lower end of the fuse link in place.

The fuse link in the form shown in Figures 1 to 4 comprises a fusible section I which may comprise an upper and a lower ribbon or Wire of metal. preferably a high resistance alloy such as nickel-silver. It is also to be noted that the upper and lower ends 9 and III of the fusible section are larger than the intermediate portion of the fuse link. 'I'his intermediate portion has the two overlapping ribbons soldered together by a low melting point solder. The ribbons 'are in strong.

sama realiiwV members, and thev relaleaking.l as is wellknown, frequently destroys the tive Proportion ofthe' cross section is structure. However. this invention wholly under. small overloads the-low' sol-1 avoids such dfei'ect.v v der'is'fused. whereas under highoverloads itis' An additional advantage secured Iby .this infrequently the case that the -m'ajor portion of the ribbons themselves are fused. At the latter condition anexpulsi place. Somewhat of an expulsion place even under small overloads.

not secured. This defect, however, is cured and eliminated by the structure hereinafter described, which is associated with the fusible sectionandformsapartofthefuselink.

I'he enlarged upper portion ofthe fuse vlink is preferably provided with an upper reversely vention is that of a telltale action which indicates clearly when the Afuse has blown. For example. Figure 2 shows the position of the parts after blowing of the fuse, and it will be seen that therod or rigid member I3 is projected downwardly and extends-outwardly below the lower open end of thetube I. thus acting as a telltale.

. It is prevented from passing completely fromthe tube by means of the leader I 8. A comparison of folded portion II, which is clamped between the two plates I1 of an upper button or contact clip, the upper and lower portions ofthe clip being joined, as shown in Figure 4, and the lower portion being apertured to permit the passage therethrough of the upper end ofthe portion l,

see particularly Figures 3 and 4.

The vlower portion of the fusible ,section is joined to a relatively rigid section Il which may consist of a relatively rigid wire, as indicated in Figures l, 2 and 3. This wire may be attached.

tothe lower end of the fusible section in any suitable manner, as by means loi? the small screw il. Any other mode of attachment may, of

course, be used if it is found preferable. How,- i

ever, the use of the screw is desirable to permit ready substitution of new fusible sections. as it seldom occurs that any other portion of the fuse is damaged when rupture occurs.

The wire I3 or relatively rigid section, is elongated, and preferably at a point intermediate its end ahelical spring il is attached. This helical 3 spring is attached atits lower end to a relatively flexible copper leader Il, which is clamped by means of the screw I to the lower contact I. 'Ihe ends of the rod I3 and the leader i6 are joined by means a very flexible copper leader I'l located preferably within the helical spring I5. Electrically, the leaders Il and Il constitute the conducting means for carrying the current from the rod Il to the lower contact I. thereby preventing heating of the spring due to the passage of the current.

In view of the fact that these fuses are frcquently used on farm lines and similar locations where the load is relatively small and is usually' section, such action of the spring assisting in any expulsion action that takes place at this time. Obviously the spring and rod do not interfere with the expulsion action of the fuse structure under considerable overload. but rather assist in the adequate separation of the severed portion of the fusible section.

By means of this construction a very large gap is obtained. and consequently there is no leakage that taires place after the fuse has blown. This avoids the heretofore serious defect in certain types of fuses due to leaking of the current between relatively closely positioned severed sections of the fusible portion of the link. This Figures l and 2 will show the action of the fuse very clearly.

y 'Ihe partial retention of the rod or rigid member i3 within the tube is very desirable. Consider on the other hand, what would happen if the spring were not strengthened, or held or guided by the rod il. It would be projected outwardly from the tube. and would dangle loosely from the lower portion of the structure. In view of its relative flexibility, it mightvreadily be blown into other live portions of adjacent structures, or against a grounded section, or it might inadvertently contact with a lineman undertaking to renew the fuse. However; by means of the construction illustrated the' complete expulsion of the spring and adjacent parts is prevented.

It is to be noted from Figures 5 and 6 that the upper end 9 of the fusiblev section is preferably provided with a slot or opening I8. The purpose of this construction is to allow a customer to cut the upper end'of the fusible section olf,

as shown in dottedl lines in Figure 6,` and to thereafter slip the resulting prongs of the fusible section on opposite sides of a screw I! secured to a contact button 2l, or to any other support as the case may be. In other words, this type of construction of the fusible section permits its use with at least two different types of upper attaching-means.

Referring to Figure 7 where a modified form of the invention is disclosed, it will be seen that the same general inventive idea has been followed. 'I'he fusible section 2i may be of the same general type as that previously described and is tached'to a flexible copper leader 23 extending downwardly through the spring.

This spring is partiany housed and received by a nber or other-insulating tube 2l, which is attached to the spring adjacent the lower end of the tube Il and the spring 22, as clearly shown in the lower portion of Figure 7. The tube 2l acts' as the substantially rigid member corresponding roughly to the rod I3 previously described. The lower end of the spring 22. `the leader 23 and the tube 2l are attached by means of a relatively strong copper leader 25 to the lower contact 3.

The operation of this fuse is substantially the same as that previously described. Upon blowing of the fuse, the spring insures adequate sep aration of the severed portion of the fusible section and the rigid tube 2l projects partially from the lower end of the insulating cartridge or tube I.

Thefusiblesectiom II naybeofthesameor of a 'different type 'from that previously described.

In the form of the invention shown in Figure 8 fusible section is attached totheupperendofaspring!! andisallsoatfor illustration.

a relatively rigid rod 2l is attached to the lower leader 21, and intermediate the ends of the rod 2O a helical spring 2l is secured. A flexible copper leader 2l! extends from the upper end of the rod I. to the lowerend of the fusible section I.. 'I'his fusible section may be of the type previously described, or may consist of either low fusible alloy wire, or nickel-silver wire, the nickel-silver wire being preferred. As shown in ligure 8, a single strand of wire has been shown s1: uns point it is to be distincuy understood that any suitable type of fusible section may be employed. For example, in any forms of the invention any one of the several forms of fusible sections may be used in place of those specifically shown. or any other type of fusible section may be used.

It`r is to` be again noted that the fuse cartridge or tube may be of any suitable form, the simplest form having been chosen merely for the sake of simplicity of illustration. In actual construction, it is frequently desirable to surround the inner tube with an outer porcelain tube, although this specific phase of the construction forms no portion of the invention.

Further it is to be distinctly understood that while Figure 1 shows the preferred form of construction, that nevertheless other types of fusible.

sections may be employed, or other types of construction conforming to the general spirit of the invention herein discussed.

It will be seen that a novel form of expulsion fuse and fuse link therefor has been disclosed, in which adequate separation of the severed portion of -the fusible section is insured, irrespeci tive of whether the overload is small or large, and and it will be noted further that the action of the spring in no way interferes with the expulsion action of the fuse, but materially assection alone being renewed.

It will be seen further that a very simple type of construction has been provided by this invention which is eminently practical, which may be cheaply made, and which is easy to renew and care for.

Although this invention has been described in considerable detail, it is to be understood that such description is intended as illustrative rather than limiting, as the invention may be variously embodied and is to beY interpreted as claimed.

I claim:

l, A fuse link comprising a fusible section, a relatively rigid section, a flexible conducting section, and a helical spring coaxial with said relatively rigid section, said spring and said relatively rlgid section being coextensive for at least a portion of their respective lengths.

2. A fuse link comprising a fusible section. a relatively rigid section, a flexible conducting section, and a helical spring guided by said relatively rigid section and telescopically associated with said relatively rigid section.

3. A fuse comprising a non-extensible tube having an open lower end and having contacts adjacent each end; a fuse link carried within said tube and joining said contacts, said link comprising a fusible section, a relatively rigid elongated section. and a flexible section, and a spring secured to said relatively rigid section, said relatively rigid section being telescopically related to said spring.v

4. An expulsion fuse comprising a tube having an open lower end and having an upper contact and a lower contact; a fuse link in said tube and joining said contacts, said link having a fusible portion and a relatively rigid portion; and a spring for separating the severed portions of said fusible portion when said fuse blows, said relatively rigid portion of said link projecting downwardly from the open end of said tube when said fusible portion is ruptured.

5. An expulsion fuse comprising a tube having an open lower end and having an upper contact and a lower contact; a fuse link in said tube and joining said contacts. said link having a fusible portion and a relatively rigid portion; and a spring for separating the severed portions of said fusible portion when said fuse blows, said relatively rigid portion of said link projecting downwardly from the open end of said tube when said fusible portion is ruptured, and means for preventing said relatively rigid portion from passing completely from said tube.

6. An expulsion fuse comprising a tube having upper and lower contacts, a fuse link joining said contacts and having an upper fusible portion located in the upper portion of said tube, a spring for aiding, during the expulsion action of said fuse, in the separation of the severed portions of said link, and means for preventing the expulsion of the entire length of the spring from said tube.

7. A fuse link comprising a fusible section, a relatively rigid section, a flexible conducting section, and a helical spring coaxial with said relatively rigid section, said spring and said relatively rigid section being coextensive for at least a portion of their respective lengths, said relatively rigid section comprising an insulating tube and said helical spring having one end thereof anchored at one end of said tube.

8. A fuse link comprising a fusible section, a relatively rigid section, a flexible conducting section, and a helical spring coaxial with said relatively rigid section, said spring and said relatively rigid section being coextensive for at least a portion of their respective lengths, said relatively rigid section comprising an insulating tube and said helical spring being wholly carried by the link and with its lowermost end secured adjacent the lower end of the insulating tube.

9. A fuse link comprising a fusible section, a relatively rigid section, a flexible conducting section, and a helicalV spring coaxial with said relatively rigid section, said spring and said relatively rigid section being coextensive for at least a portion of their respective lengths, said relatively rigid section comprising an insulating tube and said fusible section being in electrical connection at one end with a terminal adjacent one end of said tube andvin electrical connection at itsother end with said 'exible section and with one end of said helical spring, said spring having its other end in electrical connection with said exible conducting section adjacent the other end of said insulating tube, and arranged to bias a portion of the fusible section away from said terminal.

l0. A fuse link comprising a fusible section, a relatively rigid section, a flexible conducting section, and a helical spring coaxial with said relatively rigid section, said spring and said relatively rigid section being coextensive for at least a portion of their respective lengths, said relatively rigid section comprising an insulating tube, and said springinterconnecting said tube and said fusible section and placing the latter in tension.

1l. A fuse link comprising a fusible section, a relatively rigid section, a flexible conductingl section, and a helical spring coaxial with said relatively rigid section, said spring and said relatively rigid section being coextensive for at le ta portion of their respective lengths, said relatively tube, the portion of said flexible conducting section inside said spring being slack, whereby when the link is inserted in an expulsion type fuse cartridge and upon a pull being applied to the flexif ble conducting section the force of said pull is initially applied to said fusible section only through said spring.

13. A fuse link comprising a fusible section, a relatively rigid section, a flexible conducting section, and a helical spring coaxial with said relatively rigid section, said spring and said relatively rigid section being coextensive for at least a portion of their respective lengths, said relal tively rigid section comprising an insulating tube of such diameter and length as to be insertable within an expulsion fuse cartridge closed at one end and open at the other and having spaced external terminals to be electrically connected by said link.

14. A fuse link comprising a fusible section, a relatively rigid section, a flexible conducting section, and a helical spring coaxial with said relatively rigid section, said spring and said relatively rigid section being coextensive for at least a portion of their respective lengths, said relatively rigid section comprising an insulating tube of such diameter and length as to interrelate and support the fusible section, the flexible conducting section and the helical spring in a unitary inexpensive readily replaceable device adapted to be inserted into a standard expulsion type fuse cartridge for electrically connecting the terminals of the fuse cartridge together, with the spring exerting a biasing force within the link whereby a quick separation of the parts of the fusible section will be obtained when said section is ruptured by reason of a relatively small overload.

l5. A fuse link comprising a fusible section, a relatively rigid section, a flexible conducting section, and a helical spring coaxial with said relatively rigid section, said spring and said relatively rigid section being coextensive for at least a portion of their respective lengths, said relatively rigid section comprising an insulating tube and said flexible conducting section extending through Vsaid spring and electrically connected at its upper end with said fusible section and having its lower portion extending out of the lower end of the tube.

16. A fuse link comprising a fusible section, a relatively rigid section, aexible conducting section, and a helical spring coaxial with said relativelyvrigid section, said spring and said relatively rigid section being coextensive for at least a portion oi' their respective lengths, said relatively rigid section comprising an insulating tube and said flexible conducting section being in the form of a wire electrically connected at nits upper end to said fusible section, a portion of said \wire inside said tube between said fusible section and the lower end of the tube being of a length greater than the distance between said fusible section and the lower end of the tube, and said spring being so arranged and connected with respect to said tube and wire that when the link is inserted in a standard expulsion type fuse cartridge and a pull is exerted on said conducting section in applying the link to said cartridge an end'of the spring may be pulled out of said insulating tube.

17. A fuse link comprising a fusible section, a relatively rigid section, a flexible conducting section, and a helical spring coaxial with said relatively rigid section, said spring and said relatively rigid section being coextensive for at least a portion of their respective lengths, said relatively rigid section comprising an insulating tubdgto guide the coils of said spring, and said flexible conducting section also being coextensive with said spring and in electrical connection with said lfusible section.

18. A fuse link comprising a fusible section, a

relatively rigid section. a exible conducting section, and a helical spring guided by said relatively rigid section and telescopicaliy associated with said relatively rigid section, said relatively rigid section comprising an insulating tube and l said spring and flexible conducting section being in electrical connection with the lower end of' saidfusible section, said flexible conducting sectionv being secured to said spring for applying the tension of said spring to said fusible section.

19. A fuse link comprising a fusible section, a relatively rigid section, a flexible conducting section, and a helical spring guided by said relatively rigid section and telescopicaliy associated with said relatively rigid section, said relatively rigid section comprising an insulating tube and said spring and flexible conducting section being in electrical connection with the lower end of said fusible section and electrically in parallel with one another.

20. A'fuse link comprising a fusible section, a relatively rigid section, a flexible conducting section, and a helical spring guided by said relatively rigid section and telescopicaliy associated with said relatively rigid section, said rigid section comprising an insulating tube of such diameter and length that said spring is guidable within and by said tube, and said spring being held under tension between said tube and said fusible section.

ALWIN G. STEINMAYER.

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