US2809257A - Composite fuse links of silver and copper - Google Patents

Composite fuse links of silver and copper Download PDF

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US2809257A
US2809257A US460177A US46017754A US2809257A US 2809257 A US2809257 A US 2809257A US 460177 A US460177 A US 460177A US 46017754 A US46017754 A US 46017754A US 2809257 A US2809257 A US 2809257A
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silver
copper
strip
strips
link
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US460177A
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Kenneth W Swain
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Chase Shawmut Co
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Chase Shawmut Co
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H85/00Protective devices in which the current flows through a part of fusible material and this current is interrupted by displacement of the fusible material when this current becomes excessive
    • H01H85/02Details
    • H01H85/04Fuses, i.e. expendable parts of the protective device, e.g. cartridges
    • H01H85/05Component parts thereof
    • H01H85/055Fusible members
    • H01H85/06Fusible members characterised by the fusible material
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H85/00Protective devices in which the current flows through a part of fusible material and this current is interrupted by displacement of the fusible material when this current becomes excessive
    • H01H85/02Details
    • H01H85/04Fuses, i.e. expendable parts of the protective device, e.g. cartridges
    • H01H85/05Component parts thereof
    • H01H85/055Fusible members
    • H01H85/08Fusible members characterised by the shape or form of the fusible member
    • H01H85/10Fusible members characterised by the shape or form of the fusible member with constriction for localised fusing

Definitions

  • Another object of the invention is to provide fuse links for so-called silver-sand fuses wherein a portion of the link silver heretofore needed in so-called silver-sand fuses of comparable rating is dispensed with, and replaced by, an amount of copper tending to increase the current rating of the fuse.
  • Another object of the invention is to provide composite fuse links of silver and copper having an uninterrupted current path of silver from one end or terminal of the link, to the other end or terminal thereof.
  • Still another object of the invention is to provide composite fuse links of silver and copper which lend themselves readily to the formation or multibreaks in series, and thus to producing high arc voltages, and in which fuse links each of the breaks is formed at a reduced crosssectional area consisting wholly of silver.
  • FIG. l is a side elevation of the material used for manufacturing fuse links embodying my invention
  • Fig. 2 is a section along 2 2 of Fig. l;
  • Fig. 3 is substantially a longitudinal section through a fuse including a fuse link embodying my invention
  • Fig. 4 is a transverse section along 4-4 of Fig. 3
  • Fig. 5 is in substance a longitudinal section through a fuse including a fusing link embodying my invention and designed to produce multibreaks resulting in relatively high arc voltages;
  • Fig. 6 is a section along 6 6 of Fig. 5.
  • the material shown in Figs. 1 and 2 comprises a strip of silver 2 and two spaced strips of copper 1 each arranged one side of the strip of silver 2. Strips 2 and 1 are bonded together to form a substantially unitary strip of sheet metal.
  • the process for producing such composite metals are well known in the art, and therefore do not need to be described here in detail.
  • the aggregate crosssectional area of the strips of copper 1 is larger than the cross-sectional area of the strip of silver 2. This tends to minimize the ⁇ cost of the composite strip per unit of current carrying ability thereof, and has additional advantages as will be readily apparent from the ensuing description of Figs. 3 6.
  • the fuse shown therein comprises a fuse link made of a composite metal of the kind shown in Figs. l and 2.
  • Strips 1 of copper ⁇ and strip 2 of silver bonded together along longitudinal edges thereof extend in a direction longitudinally of the fuse and conductively interconnect the two terminal caps or ferrules 5.
  • the two ferrules S are mounted on a tubular casing of an appropriate insulating material, e. g. a glasscloth-synthetic-resin laminate.
  • Each of the ferrules 5 is provided with a slot for insertion of one terminal of the fuse link 1, 2.
  • the terminals or axially outer ends of fuse link 1 2 may be slightly reduced in width compared to what may be called the overall width of the link 1, 2. Such a reduction in width may be desirable for manufacturing reasons but has no effect upon the performance characteristics of the fuse since the size reduction is effected at au inactive point of the fuse link.
  • Each slot in each of the caps or ferrules 5 is substantially closed by a washer S to preclude the silicious arc-quenching filler 7 within casing 3 to iiow through the slots in fcrrules S out of the casing 3.
  • Each ferrule S is soldered, as generally done in the art, to one of the axially outer ends of terminals of fuse link 1, 2 to minimize the resistance of the current-path through the fuse.
  • An axially outer cap or ferrule 6 is mounted under pressure on each of the axially inner caps or ferrules 5, and both the outer and the inner caps or ferrules are crimped at their axially inner ends to produce a firm and gas-tight connection with casing 3.
  • Each of the outer caps or ferrules 6 is provided with a blade Contact 4 extending away from the casing 3 of the fuse.
  • Fuse link 1, 2 is provided with a neck 2o, or reduced cross-section portion, the cross-sectional area of which determines the fault current which must fiow through the fuse to cause the neck to fuse and to vaporize, and thus to initiate the interrupting process, or to initiate arcing within the fuse.
  • Neck 2a is formed by punching two juxtaposed portions out of the link, and thus making two juxtaposed incisions into the link.
  • the transverse width of these incisions exceeds the width of each of the two copper strips resulting in a local complete interruption of the current-path through the copper strips 1, and a local reduction of the cross-sectional area of the current-path through the strip of silver 2,
  • the specific heat of silver is ⁇ 05S and the specific heat of copper is .092.
  • the specific heat of a metal is indicative ot the amount of energy required to cause fusion of a conductor having a predetermined geometry, and under comparable conditions silver is the metal which requires a minimum of fusing energy.
  • the neck 2a consisting wholly of silver is therefore conducive to limiting the peak of the letthrough current which may flow through the fuse on occurrence of a short-circuit current, or an equivalent major fault current.
  • the outer strips 1 of copper are effective heat abso-rbers and heat dissipators. lt will be apparent from the above iigure relative to the specific heat of copper that the heat absorbing and cooling action of the two strips, o1' fins, of copper is more effective than that of the lateral portions of a comparable ribbon type fuse link made entirely of silver, and consequently considerably more expensive than the fuse link 1, 2 shown in Fig. 2.
  • lt is important that all copper be removed from the region of arc initiation to limit as much as possible the amount of heat required to cause fusion and vaporization of the narrowest point of the link 1, 2.
  • the fuse link provided in the structure shown therein comprises a pair of spaced strips 16 of silver and an intermediate, substantially coextensive strip 9 of copper bonded at the longitudinal edges thereof to said pair of strips of silver to form a virtually unitary strip of sheet metal.
  • the pair of strips 10 of silver have one or more pairs of juxtaposed incisions 10b,
  • the copper strip 9 is provided with one or a plurality of punched out ⁇ portions 9a, each substantially in registry with one of said pair of juxtaposed incision 10b.
  • the punched out portion or portions 9a are wider thanand completely sever the copper strip 9 into parts solely held together by saidv pair of strips it? of silver.
  • the punched out portion or portions 9a effect a further reduction of the Cross-sectional area of the strips it) o silver, i. e. a reduction of the cross-sectionai area of strips ld beyond that eifected by juxtaposed incisions 10b.
  • each pair of necks 10a will result in the formation of two arclets or breaks in parallel, and serially related pairs of necks 10a will result in the formation of serially related pairs of arclets or breaks. Since each neck ida consists wholly of silver the instantaneous current required for initiating the interrupting process tends to be very low, yet the current ⁇ carrying capacity of the link tends to be high on account of the heat dissipating action of the portions or section of copl er situated to both sides of each perforation 9a.
  • Fuse link 10, 9, It@ is conductively connected to terminal blocks 1l which are disc shaped and provided with radial grooves i2, for accommodating the axially outer ends of link 10, 9, 10.
  • Each terminal block 11 is provided with a blade contact le forming an integral part thereof, and the tubular casing 13 of insulating material is mounted on, and supported by, terminal blocks 11.
  • Transverse pins l of steel establish a firm mechanical connection between casing 1S and terminal blocks ll.
  • the inside of casing 13 is iilled with a pulverulent arc extinguishing iiller lo, preferably clean quartz sand, i. e. quartz sand from which iron and other impurities have been carefully removed.
  • the aggregate crosssectional area of the pair of spaced strips of silver ought to be relatively small compared to the cross-sectional area of the intermediate substantially coextensive strip 9 of copper.
  • cross-sectional area refers to the points of the fuse link where the silver strips 1t)- ⁇ and the copper strip 9 have their normal width rather than to the points of the link where the cross-sectional area of the silver strips 10 has been reduced and Where the 4copper strip 9 has been severed.
  • the incisions 10b and the perforations 9a which may both be produced by simultaneously performed punching operations subdivide link l0, 9, i@ into a plurality of serially related current paths of relatively large crosssectional area formed jointly by copper and silver alternating with current paths of relatively small cross-sectional area formed by silver only.
  • the current path is formed by silver :as well as copper the current flows preponderantly in silver sections rather than in copper sections. This is mainly due to the geometrical configuration of the link causing the copper sections to operate mainly as heat dissipators ,rather than as conductors of current.
  • the transverse punched out portions 9a do not necessarily need to be square in shape. This shape has been found to be particularly desirable, but the punched out portions 9a may be even circular, if desired.
  • Cil i derating means may be added to the fuse link to increase the time lagr thereof.
  • Such a derating means has been shown in Fig. 3 in the form of a tin rivet 2b inserted into the strip of silver 2 immediately adjacent to neck Za.
  • silver as used in this context is intended to include alloys of silver which have substantially the same low melting energy as silver
  • copper as being used in this context is intended to include alloys of copper which have thermal properties comparable to those of copper.
  • a composite ribbon-type fuse link for current-limiting fuses comprising at least one strip of copper and at least one strip of silver bonded together along the longitudinal edges thereof to form a virtually unitary strip of sheet metal, said strip of copper projecting laterally from at least one of the longitudinal edges of said strip of silver to operate as a lateral cooling iin for said strip of silver, and said strip of copper and said strip of silver having at least one punched out portion of larger width than the width of said strip of copper resulting in a local interruption of the current-path through said strip of copper and a local reduction of tl e cross-sectional area of the current-path through said strip of silver.
  • a composite ribbon-type fuse link for current-limiting fuses comprising at least one strip of copper and at least one strip of silver bonded together along the longitudinal edges thereof to form a. substantially unitary strip of sheet metal, said copper strip and said silver strip being generally coextensive from one terminal of said link to the other terminal thereof, said copper strip and said silver strip having a punched out portion at least at one point thereof situated between the terminals of said link, and the width of said punched out portion exceeding the width of said copper strip.
  • a composite ribbon-type fuse link for current-limiting fuses comprising strips of copper and of silver, including a pair of parallel strips of the same meta1 and a strip of a different metal arranged between and bonded to said pair of strips of the same metal to form a virtually unitary strip of sheet metal, said pair of strips of the same metal projecting laterally from the longitudinal edges of said strip of a different metal, and said link having at least one punched out portion situated between the ends thereof larger in width than the width of the ⁇ constituent copper of said link at the point thereof where said portion is situated to cause a local interruption of the current-path through copper and a local reduction of the cross-sectional area of the current-path through silver.
  • a composite ribbon-type fuse link for current-limiting fuses comprising substantially coextensive strips of copper andof silver bonded together at the longitudinal edges thereof to form a virtually unitary strip of sheet metal, the cross-sectional area of copper in said link generally exceeding the ycross-sectional area of silver therein, and said link having between the ends thereof at least one pair of lateral incisions each larger in width than the width of each of said strips of copper.
  • a composite ribbon-type fuse link for current-limiting fuses comprising a pair of substantially coextensive spaced strips of copper and an intermediate strip of silver bonded together at the longitudinal edges thereof to form a virtually unitary strip of sheet metal, the cross-sectional area of copper in said link generally exceeding the cross sectional area of silver therein, and said link having substantially midway between the ends thereof one point of generally reduced cross-sectional area formed by a pair of perforations each of larger width than the width of each of saidpair of strips of copper.
  • a composite ribbon-type fuse link for current-limiting fuses comprising strips of copper and of silver including a pair of parallel spaced strips of the same metal extending in a direction longitudinally of said link and a strip of a different metal arranged between and bonded to said pair of strips of the same metal at the longitudinal edges thereof to form a virtually unitary strip of sheet metal, and said link having a substantially transverse punched out portion substantially midway between the ends thereof, the width of said punched out portion bein-g less than the total width of said link but exceeding the total width of said strips of copper.
  • a composite fuse link for current-limiting fuses comprising a pair of spaced strips of copper and an intermediate generally coextensive strip of silver extending in a direction longitudinally of said link and bonded at the longitudinal edges thereof to said pair of strips of copper to form a virtually unitary strip of sheet metal, said link having at least one pair of juxtaposed substantially V- shaped incisions each of greater depth than the width of one of said pair of copper strips and each completely severing one of said pair of copper strips at a predetermined point between the ends thereof, and said pair of incisions reducing the cross-sectional area of said silver strip without interrupting the current-path therethrough.
  • a composite fuse link for current-limiting fuses comprising a pair of spaced strips of silver having a relatively small aggregate cross-sectional area and an intermediate substantially coextensive strip of copper having a relatively large cross-sectional area bonded at the longitudinal edges thereof to said pair of strips of silver to form a virtually unitary strip of sheet metal, said link having at least one pair of neck portions wholly consisting of silver adapted to lie in parallel in an electric circuit into which said link is inserted.
  • a composite ribbon-type fuse link for current-lirniting fuses comprising at least one strip of copper and at least one strip of silver bonded together at the longitudinal edges thereof to form a virtually unitary strip of sheet metal, said link having between the ends thereof at least one substantially transverse incision of larger width than said strip of copper totally severing said one strip of copper.
  • a composite ribbon-type fuse link for currentlimiting fuses comprising at least one strip of copper and at least one strip of silver bonded together at the longitudinal edges thereof to form a virtualy unitary strip of sheet metal, said link having a plurality of serially arranged punchings subdividing said link into a plurality of serially related current-paths of relatively large crosssectional area formed jointly by copper and silver alternating with current-paths of relatively small cross-sectional area formed by silver alone.
  • a composite ribbon-type fuse link for currentlimiting fuses comprising at least one strip of copper and at least one strip of silver bonded together at the longitudinal edges thereof to form a virtually unitary strip of sheet metal, the cross-sectional area of copper in said virtually unitary strip being large compared to the cross-sectional area of silver therein, and a plurality of punched out portions spaced in a direction longitudinally of said virtually unitary strip, the width of each of said punched out portions exceeding the width of said strip of copper and each of said punched out portions constituting a complete break of the current-path througth copper and a reduction of the cross-sectional area of the current-path through silver.
  • a composite ribbon-type fuse link for current-limiting fuses comprising a pair of spaced strips of silver and a strip of copper arranged between and bonded at the longitudinal edges thereof to said pair of strips of silver to form a virtually unitary strip of sheet metal, the crosssectional area of said strip of copper exceeding the aggregate cross-sectional areas of said pair of strips of silver, and a plurality of spaced punched out portions in said virtually unitary strip extending substantially in transversal direction thereof, each of said punched out portions exceeding in width the width of said strip of copper and each of said punched out portions constituting a complete local break of the current path through copper and a local reduction of the cross-sectional area of the current-path through silver.
  • a composite ribbon-type fuse link for currentlimiting fuses comprising a pair of spaced strips of silver and a strip of copper arranged between and bonded at the longitudinal edges thereof to said pair of strips of silver to form a virtually unitary strip of sheet metal, the crosssectional area of said strip of c'opper exceeding the aggregate cross-sectional areas of said pair of strips of silver, a punched out portion in said virtually unitary strip extending substantially in transverse direction thereof and being of larger width than the width of said strip of copper to locally completely break the current-path through ⁇ Said strip of copper and to locally reduce the crosssectional area of the current-path through each of said pair of strips of silver, and a pair of lateral incisions in each of said pair of strips of silver locally reducing the cross-sectional area of the current-path through each of said pair of strips of silver to a larger extent than effected by said punched out portion.

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Description

Oct. 8, 1957 K. w. swAlN COMPOSITE FUSE LINKS 0E slm/ER AND COPPER Filed Oct. 4, 1954 nite r1 Kenneth W. Swain, Hampton Falls, N. H., assigner to The Chasehawmut Company, Newburyport,
Application October 4, 1954, Serial No. 460,177
13 Claims. (Cl. 20D- 435) This invention relates to the protection of electric circuits, electric apparatus and electric machinery by electric fuses.
It is one object of this invention to take advantage of the difference of the properties of silver and copper, respectively, to produce fuse links for current-limiting fuses capable of etecting rapid initiation of the interrupting process, i. e. rapid arc initiation, at the occurrence of major fault currents, which fuse links have a relatively high heat absorbing capacity and heat dissipating ability conducive to time lag in the small overload range, and conducive to a relatively high current-carrying ability.
Another object of the invention is to provide fuse links for so-called silver-sand fuses wherein a portion of the link silver heretofore needed in so-called silver-sand fuses of comparable rating is dispensed with, and replaced by, an amount of copper tending to increase the current rating of the fuse.
Another object of the invention is to provide composite fuse links of silver and copper having an uninterrupted current path of silver from one end or terminal of the link, to the other end or terminal thereof.
Still another object of the invention is to provide composite fuse links of silver and copper which lend themselves readily to the formation or multibreaks in series, and thus to producing high arc voltages, and in which fuse links each of the breaks is formed at a reduced crosssectional area consisting wholly of silver.
Further objects and advantages of the invention will become more apparent as the following description proceeds, and the features of novelty characterising the invention will be pointed out with particularity in the claims annexed to, and forming part of, this specification.
For a better understanding of the invention reference may be had to the accompanying drawing in which Fig. l is a side elevation of the material used for manufacturing fuse links embodying my invention;
Fig. 2 is a section along 2 2 of Fig. l;
Fig. 3 is substantially a longitudinal section through a fuse including a fuse link embodying my invention;
Fig. 4 is a transverse section along 4-4 of Fig. 3
Fig. 5 is in substance a longitudinal section through a fuse including a fusing link embodying my invention and designed to produce multibreaks resulting in relatively high arc voltages; and
Fig. 6 is a section along 6 6 of Fig. 5.
The material shown in Figs. 1 and 2 comprises a strip of silver 2 and two spaced strips of copper 1 each arranged one side of the strip of silver 2. Strips 2 and 1 are bonded together to form a substantially unitary strip of sheet metal. The process for producing such composite metals are well known in the art, and therefore do not need to be described here in detail. The aggregate crosssectional area of the strips of copper 1 is larger than the cross-sectional area of the strip of silver 2. This tends to minimize the` cost of the composite strip per unit of current carrying ability thereof, and has additional advantages as will be readily apparent from the ensuing description of Figs. 3 6.
States Patent() f' 2,809,257 Patented Oct. 8, 1957 ICC Referring now to Figs. 3 and 4, the fuse shown therein comprises a fuse link made of a composite metal of the kind shown in Figs. l and 2. Strips 1 of copper `and strip 2 of silver bonded together along longitudinal edges thereof extend in a direction longitudinally of the fuse and conductively interconnect the two terminal caps or ferrules 5. The two ferrules S are mounted on a tubular casing of an appropriate insulating material, e. g. a glasscloth-synthetic-resin laminate. Each of the ferrules 5 is provided with a slot for insertion of one terminal of the fuse link 1, 2. The terminals or axially outer ends of fuse link 1 2 may be slightly reduced in width compared to what may be called the overall width of the link 1, 2. Such a reduction in width may be desirable for manufacturing reasons but has no effect upon the performance characteristics of the fuse since the size reduction is effected at au inactive point of the fuse link. Each slot in each of the caps or ferrules 5 is substantially closed by a washer S to preclude the silicious arc-quenching filler 7 within casing 3 to iiow through the slots in fcrrules S out of the casing 3. Each ferrule S is soldered, as generally done in the art, to one of the axially outer ends of terminals of fuse link 1, 2 to minimize the resistance of the current-path through the fuse. An axially outer cap or ferrule 6 is mounted under pressure on each of the axially inner caps or ferrules 5, and both the outer and the inner caps or ferrules are crimped at their axially inner ends to produce a firm and gas-tight connection with casing 3. Each of the outer caps or ferrules 6 is provided with a blade Contact 4 extending away from the casing 3 of the fuse. Fuse link 1, 2 is provided with a neck 2o, or reduced cross-section portion, the cross-sectional area of which determines the fault current which must fiow through the fuse to cause the neck to fuse and to vaporize, and thus to initiate the interrupting process, or to initiate arcing within the fuse. Neck 2a is formed by punching two juxtaposed portions out of the link, and thus making two juxtaposed incisions into the link. The transverse width of these incisions exceeds the width of each of the two copper strips resulting in a local complete interruption of the current-path through the copper strips 1, and a local reduction of the cross-sectional area of the current-path through the strip of silver 2, The specific heat of silver is `05S and the specific heat of copper is .092. The specific heat of a metal is indicative ot the amount of energy required to cause fusion of a conductor having a predetermined geometry, and under comparable conditions silver is the metal which requires a minimum of fusing energy. The neck 2a consisting wholly of silver is therefore conducive to limiting the peak of the letthrough current which may flow through the fuse on occurrence of a short-circuit current, or an equivalent major fault current. The outer strips 1 of copper are effective heat abso-rbers and heat dissipators. lt will be apparent from the above iigure relative to the specific heat of copper that the heat absorbing and cooling action of the two strips, o1' fins, of copper is more effective than that of the lateral portions of a comparable ribbon type fuse link made entirely of silver, and consequently considerably more expensive than the fuse link 1, 2 shown in Fig. 2.
lt is important that all copper be removed from the region of arc initiation to limit as much as possible the amount of heat required to cause fusion and vaporization of the narrowest point of the link 1, 2.
Referring now to Figs. 5 and 6, the fuse link provided in the structure shown therein comprises a pair of spaced strips 16 of silver and an intermediate, substantially coextensive strip 9 of copper bonded at the longitudinal edges thereof to said pair of strips of silver to form a virtually unitary strip of sheet metal. The pair of strips 10 of silver have one or more pairs of juxtaposed incisions 10b,
each reducing the cross-sectional area of one of the pair of strips it) of silver without interrupting the continuity thereof. The copper strip 9 is provided with one or a plurality of punched out `portions 9a, each substantially in registry with one of said pair of juxtaposed incision 10b. The punched out portion or portions 9a are wider thanand completely sever the copper strip 9 into parts solely held together by saidv pair of strips it? of silver. In addition thereto, the punched out portion or portions 9a effect a further reduction of the Cross-sectional area of the strips it) o silver, i. e. a reduction of the cross-sectionai area of strips ld beyond that eifected by juxtaposed incisions 10b. As a result of incisions 10b in silver strips l@ and of the punched out portions or perforations 9b in copper strip which extend into silver strips l@ a plurality of pairs of necks, or reduced cross-section portions ida are formed in silver strips l0. Each of these pairs of necks or reduced cross-section portions i051 in silver strips 1t? is adapted to form a pair of parallel current paths. Since these current paths are zones of minimum cross-sectional area, initial fusion and arc initiation will occur at these particular' points on the occurrence of short-'circuit currents, or iike major fault currents. Each pair of necks 10a will result in the formation of two arclets or breaks in parallel, and serially related pairs of necks 10a will result in the formation of serially related pairs of arclets or breaks. Since each neck ida consists wholly of silver the instantaneous current required for initiating the interrupting process tends to be very low, yet the current `carrying capacity of the link tends to be high on account of the heat dissipating action of the portions or section of copl er situated to both sides of each perforation 9a.
Fuse link 10, 9, It@ is conductively connected to terminal blocks 1l which are disc shaped and provided with radial grooves i2, for accommodating the axially outer ends of link 10, 9, 10. Each terminal block 11 is provided with a blade contact le forming an integral part thereof, and the tubular casing 13 of insulating material is mounted on, and supported by, terminal blocks 11. Transverse pins l of steel establish a firm mechanical connection between casing 1S and terminal blocks ll. The inside of casing 13 is iilled with a pulverulent arc extinguishing iiller lo, preferably clean quartz sand, i. e. quartz sand from which iron and other impurities have been carefully removed.
To increase as much as possible the saving of silver which this design enables to achieve, the aggregate crosssectional area of the pair of spaced strips of silver ought to be relatively small compared to the cross-sectional area of the intermediate substantially coextensive strip 9 of copper. As applied in this context the term cross-sectional area refers to the points of the fuse link where the silver strips 1t)- `and the copper strip 9 have their normal width rather than to the points of the link where the cross-sectional area of the silver strips 10 has been reduced and Where the 4copper strip 9 has been severed.
It will be apparent from the foregoing that the incisions 10b and the perforations 9a which may both be produced by simultaneously performed punching operations subdivide link l0, 9, i@ into a plurality of serially related current paths of relatively large crosssectional area formed jointly by copper and silver alternating with current paths of relatively small cross-sectional area formed by silver only. At the points where the current path is formed by silver :as well as copper the current flows preponderantly in silver sections rather than in copper sections. This is mainly due to the geometrical configuration of the link causing the copper sections to operate mainly as heat dissipators ,rather than as conductors of current.
The transverse punched out portions 9a do not necessarily need to be square in shape. This shape has been found to be particularly desirable, but the punched out portions 9a may be even circular, if desired.
In some instances it may be desirable to add some Cil i derating means to the fuse link to increase the time lagr thereof. Such a derating means has been shown in Fig. 3 in the form of a tin rivet 2b inserted into the strip of silver 2 immediately adjacent to neck Za.
The term silver as used in this context is intended to include alloys of silver which have substantially the same low melting energy as silver, and 'the term copper as being used in this context is intended to include alloys of copper which have thermal properties comparable to those of copper.
it will be understood that i have illustrated and described herein preferred embodiments of the invention and that various alterations may be made in the details thereof without departing from the spirit or the scope of the invention as defined in the appended claims.
I claim:
l. A composite ribbon-type fuse link for current-limiting fuses comprising at least one strip of copper and at least one strip of silver bonded together along the longitudinal edges thereof to form a virtually unitary strip of sheet metal, said strip of copper projecting laterally from at least one of the longitudinal edges of said strip of silver to operate as a lateral cooling iin for said strip of silver, and said strip of copper and said strip of silver having at least one punched out portion of larger width than the width of said strip of copper resulting in a local interruption of the current-path through said strip of copper and a local reduction of tl e cross-sectional area of the current-path through said strip of silver.
2. A composite ribbon-type fuse link for current-limiting fuses comprising at least one strip of copper and at least one strip of silver bonded together along the longitudinal edges thereof to form a. substantially unitary strip of sheet metal, said copper strip and said silver strip being generally coextensive from one terminal of said link to the other terminal thereof, said copper strip and said silver strip having a punched out portion at least at one point thereof situated between the terminals of said link, and the width of said punched out portion exceeding the width of said copper strip.
3. A composite ribbon-type fuse link for current-limiting fuses comprising strips of copper and of silver, including a pair of parallel strips of the same meta1 and a strip of a different metal arranged between and bonded to said pair of strips of the same metal to form a virtually unitary strip of sheet metal, said pair of strips of the same metal projecting laterally from the longitudinal edges of said strip of a different metal, and said link having at least one punched out portion situated between the ends thereof larger in width than the width of the `constituent copper of said link at the point thereof where said portion is situated to cause a local interruption of the current-path through copper and a local reduction of the cross-sectional area of the current-path through silver.
4. A composite ribbon-type fuse link for current-limiting fuses comprising substantially coextensive strips of copper andof silver bonded together at the longitudinal edges thereof to form a virtually unitary strip of sheet metal, the cross-sectional area of copper in said link generally exceeding the ycross-sectional area of silver therein, and said link having between the ends thereof at least one pair of lateral incisions each larger in width than the width of each of said strips of copper.
5. A composite ribbon-type fuse link for current-limiting fuses comprising a pair of substantially coextensive spaced strips of copper and an intermediate strip of silver bonded together at the longitudinal edges thereof to form a virtually unitary strip of sheet metal, the cross-sectional area of copper in said link generally exceeding the cross sectional area of silver therein, and said link having substantially midway between the ends thereof one point of generally reduced cross-sectional area formed by a pair of perforations each of larger width than the width of each of saidpair of strips of copper.
6. A composite ribbon-type fuse link for current-limiting fuses comprising strips of copper and of silver including a pair of parallel spaced strips of the same metal extending in a direction longitudinally of said link and a strip of a different metal arranged between and bonded to said pair of strips of the same metal at the longitudinal edges thereof to form a virtually unitary strip of sheet metal, and said link having a substantially transverse punched out portion substantially midway between the ends thereof, the width of said punched out portion bein-g less than the total width of said link but exceeding the total width of said strips of copper.
7. A composite fuse link for current-limiting fuses comprising a pair of spaced strips of copper and an intermediate generally coextensive strip of silver extending in a direction longitudinally of said link and bonded at the longitudinal edges thereof to said pair of strips of copper to form a virtually unitary strip of sheet metal, said link having at least one pair of juxtaposed substantially V- shaped incisions each of greater depth than the width of one of said pair of copper strips and each completely severing one of said pair of copper strips at a predetermined point between the ends thereof, and said pair of incisions reducing the cross-sectional area of said silver strip without interrupting the current-path therethrough.
8. A composite fuse link for current-limiting fuses comprising a pair of spaced strips of silver having a relatively small aggregate cross-sectional area and an intermediate substantially coextensive strip of copper having a relatively large cross-sectional area bonded at the longitudinal edges thereof to said pair of strips of silver to form a virtually unitary strip of sheet metal, said link having at least one pair of neck portions wholly consisting of silver adapted to lie in parallel in an electric circuit into which said link is inserted.
9. A composite ribbon-type fuse link for current-lirniting fuses comprising at least one strip of copper and at least one strip of silver bonded together at the longitudinal edges thereof to form a virtually unitary strip of sheet metal, said link having between the ends thereof at least one substantially transverse incision of larger width than said strip of copper totally severing said one strip of copper.
10. A composite ribbon-type fuse link for currentlimiting fuses comprising at least one strip of copper and at least one strip of silver bonded together at the longitudinal edges thereof to form a virtualy unitary strip of sheet metal, said link having a plurality of serially arranged punchings subdividing said link into a plurality of serially related current-paths of relatively large crosssectional area formed jointly by copper and silver alternating with current-paths of relatively small cross-sectional area formed by silver alone.
11. A composite ribbon-type fuse link for currentlimiting fuses comprising at least one strip of copper and at least one strip of silver bonded together at the longitudinal edges thereof to form a virtually unitary strip of sheet metal, the cross-sectional area of copper in said virtually unitary strip being large compared to the cross-sectional area of silver therein, and a plurality of punched out portions spaced in a direction longitudinally of said virtually unitary strip, the width of each of said punched out portions exceeding the width of said strip of copper and each of said punched out portions constituting a complete break of the current-path througth copper and a reduction of the cross-sectional area of the current-path through silver.
l2. A composite ribbon-type fuse link for current-limiting fuses comprising a pair of spaced strips of silver and a strip of copper arranged between and bonded at the longitudinal edges thereof to said pair of strips of silver to form a virtually unitary strip of sheet metal, the crosssectional area of said strip of copper exceeding the aggregate cross-sectional areas of said pair of strips of silver, and a plurality of spaced punched out portions in said virtually unitary strip extending substantially in transversal direction thereof, each of said punched out portions exceeding in width the width of said strip of copper and each of said punched out portions constituting a complete local break of the current path through copper and a local reduction of the cross-sectional area of the current-path through silver.
13. A composite ribbon-type fuse link for currentlimiting fuses comprising a pair of spaced strips of silver and a strip of copper arranged between and bonded at the longitudinal edges thereof to said pair of strips of silver to form a virtually unitary strip of sheet metal, the crosssectional area of said strip of c'opper exceeding the aggregate cross-sectional areas of said pair of strips of silver, a punched out portion in said virtually unitary strip extending substantially in transverse direction thereof and being of larger width than the width of said strip of copper to locally completely break the current-path through `Said strip of copper and to locally reduce the crosssectional area of the current-path through each of said pair of strips of silver, and a pair of lateral incisions in each of said pair of strips of silver locally reducing the cross-sectional area of the current-path through each of said pair of strips of silver to a larger extent than effected by said punched out portion.
References Cited in the file of this patent UNITED STATES PATENTS 1,856,317 Clark May 3, 1932 2,703,352 Kozacka Mar. 1, 1955 FOREIGN PATENTS 349,519 Great Britain May 27, 1931 586,586 Great Britain Mar. 24, 1947
US460177A 1954-10-04 1954-10-04 Composite fuse links of silver and copper Expired - Lifetime US2809257A (en)

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Cited By (15)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2864917A (en) * 1954-12-23 1958-12-16 Edward V Sundt Short-time delay fuse
US2866040A (en) * 1957-09-13 1958-12-23 Gen Electric Low-voltage current-limiting fuse
US2919328A (en) * 1956-08-13 1959-12-29 Frederick J Kozacka Integrated molded case circuit breaker current-limiting fuse units
DE1288671B (en) * 1964-08-06 1969-02-06 Siemens Ag Process for the production of band-shaped fusible conductors for sluggish fusible links
US3543209A (en) * 1969-09-15 1970-11-24 Chase Shawmut Co Composite fuse link and fuse with composite fuse link
US3543210A (en) * 1969-04-03 1970-11-24 Chase Shawmut Co Current-limiting fuse having fuse link with longitudinal groove
US3906423A (en) * 1972-09-08 1975-09-16 Nippon Denso Co High-temperature temperature fuse device
US4315234A (en) * 1980-07-14 1982-02-09 Erwin Salzer Composite fusible element and electric fuse comprising the element
US4315235A (en) * 1980-07-31 1982-02-09 Jacobs Jr Philip C Composite fusible element for electric current-limiting fuses
US4367451A (en) * 1979-05-16 1983-01-04 Gould Inc. Fusible element for electric fuses and electric fuse including the element
DE3147770A1 (en) * 1981-12-02 1983-06-16 Siemens AG, 1000 Berlin und 8000 München Fusible conductor and method of producing it
DE3147738A1 (en) * 1981-12-02 1983-06-16 Siemens AG, 1000 Berlin und 8000 München Fusible conductor for a fuse device and method of producing it
US20090206978A1 (en) * 2008-02-20 2009-08-20 Soo-Jung Hwang Electrical fuse device including a fuse link
CN104303336A (en) * 2012-08-02 2015-01-21 株式会社Lg化学 Secondary-battery connecting part, and battery module and battery pack including same
US20150084734A1 (en) * 2012-03-29 2015-03-26 Dexerials Corporation Protection element

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB349519A (en) * 1930-02-27 1931-05-27 Callenders Cable & Const Co Improvements in electric fuses
US1856317A (en) * 1930-05-22 1932-05-03 William T Clark Fusible element for protecting electrical circuits
GB586586A (en) * 1944-12-15 1947-03-24 Kenneth Eardley Beswick Improvements in or relating to fusible elements for electric fuses
US2703352A (en) * 1953-08-13 1955-03-01 Chase Shawmut Co Fuse and fuse link of the time lag type

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB349519A (en) * 1930-02-27 1931-05-27 Callenders Cable & Const Co Improvements in electric fuses
US1856317A (en) * 1930-05-22 1932-05-03 William T Clark Fusible element for protecting electrical circuits
GB586586A (en) * 1944-12-15 1947-03-24 Kenneth Eardley Beswick Improvements in or relating to fusible elements for electric fuses
US2703352A (en) * 1953-08-13 1955-03-01 Chase Shawmut Co Fuse and fuse link of the time lag type

Cited By (19)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2864917A (en) * 1954-12-23 1958-12-16 Edward V Sundt Short-time delay fuse
US2919328A (en) * 1956-08-13 1959-12-29 Frederick J Kozacka Integrated molded case circuit breaker current-limiting fuse units
US2866040A (en) * 1957-09-13 1958-12-23 Gen Electric Low-voltage current-limiting fuse
DE1288671B (en) * 1964-08-06 1969-02-06 Siemens Ag Process for the production of band-shaped fusible conductors for sluggish fusible links
US3543210A (en) * 1969-04-03 1970-11-24 Chase Shawmut Co Current-limiting fuse having fuse link with longitudinal groove
US3543209A (en) * 1969-09-15 1970-11-24 Chase Shawmut Co Composite fuse link and fuse with composite fuse link
US3906423A (en) * 1972-09-08 1975-09-16 Nippon Denso Co High-temperature temperature fuse device
US4367451A (en) * 1979-05-16 1983-01-04 Gould Inc. Fusible element for electric fuses and electric fuse including the element
US4315234A (en) * 1980-07-14 1982-02-09 Erwin Salzer Composite fusible element and electric fuse comprising the element
US4315235A (en) * 1980-07-31 1982-02-09 Jacobs Jr Philip C Composite fusible element for electric current-limiting fuses
DE3147770A1 (en) * 1981-12-02 1983-06-16 Siemens AG, 1000 Berlin und 8000 München Fusible conductor and method of producing it
DE3147738A1 (en) * 1981-12-02 1983-06-16 Siemens AG, 1000 Berlin und 8000 München Fusible conductor for a fuse device and method of producing it
US20090206978A1 (en) * 2008-02-20 2009-08-20 Soo-Jung Hwang Electrical fuse device including a fuse link
US20150084734A1 (en) * 2012-03-29 2015-03-26 Dexerials Corporation Protection element
US10008356B2 (en) * 2012-03-29 2018-06-26 Dexerials Corporation Protection element
US10269523B2 (en) * 2012-03-29 2019-04-23 Dexerials Corporation Protection element
CN104303336A (en) * 2012-08-02 2015-01-21 株式会社Lg化学 Secondary-battery connecting part, and battery module and battery pack including same
EP2827404A4 (en) * 2012-08-02 2015-10-07 Lg Chemical Ltd Secondary-battery connecting part, and battery module and battery pack including same
CN104303336B (en) * 2012-08-02 2018-03-02 株式会社Lg 化学 Connecting element for secondary cell and battery module and battery pack including connecting element

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