US1130077A - Method of making contact-points. - Google Patents
Method of making contact-points. Download PDFInfo
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- US1130077A US1130077A US53997310A US1910539973A US1130077A US 1130077 A US1130077 A US 1130077A US 53997310 A US53997310 A US 53997310A US 1910539973 A US1910539973 A US 1910539973A US 1130077 A US1130077 A US 1130077A
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H11/00—Apparatus or processes specially adapted for the manufacture of electric switches
- H01H11/04—Apparatus or processes specially adapted for the manufacture of electric switches of switch contacts
- H01H11/041—Apparatus or processes specially adapted for the manufacture of electric switches of switch contacts by bonding of a contact marking face to a contact body portion
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
- H01L2924/00—Indexing scheme for arrangements or methods for connecting or disconnecting semiconductor or solid-state bodies as covered by H01L24/00
- H01L2924/01—Chemical elements
- H01L2924/01079—Gold [Au]
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10S—TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10S428/00—Stock material or miscellaneous articles
- Y10S428/922—Static electricity metal bleed-off metallic stock
- Y10S428/9265—Special properties
- Y10S428/929—Electrical contact feature
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T29/00—Metal working
- Y10T29/49—Method of mechanical manufacture
- Y10T29/49002—Electrical device making
- Y10T29/49117—Conductor or circuit manufacturing
- Y10T29/49204—Contact or terminal manufacturing
- Y10T29/49208—Contact or terminal manufacturing by assembling plural parts
- Y10T29/4921—Contact or terminal manufacturing by assembling plural parts with bonding
- Y10T29/49211—Contact or terminal manufacturing by assembling plural parts with bonding of fused material
- Y10T29/49213—Metal
Definitions
- This invention relates to methods of making contact points and it comprises a process of producing contact elements wherein a body of platinum is placed in contact with a body of stiff and strong metal comprising a metal of the iron group, a limited amount of molten high-melting metal is produced therebetween for a limited time to cause a liquid metallic union, the heat being lowered as soon as union is effected, the joined metals so united are preferably rolled or worked down to a smaller size to compact the platinum and then contact elements or points are. stamped, out, struck or punched out from the worked joined metals; all as more fully hereinafter set'forth and as claimed.
- F or contact point and similar elements for electrical purposes as for instance in spark points, spark plugs, key contacts, switches, etc., a surface of platinum oifers many advantages, platinum being one of the few metals which will withstand the action of the gases, such as ozone, nitrous fumes, etc., generated by spraks or arcs passing through air and gaseous mixtures containing air. Platinum is, however, in its natural state, a comparatively weak, soft metal and not well adapted to withstand mechanical abrasion and the Wear or the hammering action of many electrical devices, as in make-and-break devices; or to withstand the detaching action of the spark.
- a minute button or head of platinum is often brazed to a shank of copper or other metal; but the operation is difiicult and expensive since it s necessary on the one hand to secure a firm Joint and on the other to avoid injuring the small bit of platinum.
- the operation is difficult and requires skill.
- the platinum is annealed and softened, giving it a soft, little resistant texture. Platinum may be given a comparatively hard texture bv hammering, but this disappears in the heating.
- a new type of contact element comprising a layer of'platinum of a peculiar hard teXtur firmly, permanently and metallically united to a supporting body of a stiff and strong metal of the iron class, such as nickel, iron, steel, alloy steels, cobalt, etc., but without the use of low-melting soldering metals. While it has hithereto been deemed difficult or impossible to produce any direct union between platinum and these iron class metals, I have found that it may nevertheless be accomplished provided certain expedients are adopted.
- the abutting molecules In order to produce a cohesive union between any two bodies of metal, the abutting molecules must be in contact in the same sense that molecules contact with molecules in the integral body of either metal; and in practice this type of contact or union cannot be produced with both metals in a rigid, non-fluent condition. And with metals as unlike as platinum and the iron group metals, one metal must be in a liquid condition to obtain such a contact as will form a cohesive union; there must be a wetting contact. Where a fluid wets a solid, the abutting molecules are in cohesive relation; and
- the platinum acquires new and valuable properties for the present purposes. Being compacted between the working tool on the one hand and the relatively stiff iron group metal on the other while held against lateral yielding by the existence of the basal weld union it acquires throughout its mass a peculiar hard, firm and dense texture comparable with the surface texture of harddrawn wire, with a great increase in strength and resistance to abrasion and wear.
- the heating is preferably from above and, as stated, an opportunity should be afforded for ready extrication of gases.
- ⁇ Vith a comparatively wide, thin sheet of platinum, for example, lying upon a sheet of nickel, it is desirable that it be perforated in the middle to allow exit of gases there as peripheral cooling and solidification of the fused metal takes place. If for any reason a 'body of stiff and strong metal faced on two sides with platinum be required it is better to attach platinum first to one side and then to the other rather than apply platinum to two sides simultaneously. But there is no difiiculty in so attaching an annular tube or shell of platinum to a core of stiff and strong metal in the described manner.
- the flame should usually be run rather reducing to prevent oxidation of the stiff and strong metal but not so reducing as to allow sooting or. deposition of carbon.
- a blast gas flame or-an oxyhydrogen flame may be employed.
- nickel which is a metal of high fusing point, the oxyhydrogen flame is well adapted.
- Electric heating may be employed but since it is a matter of uniting major faces of two bodies of metal it is usually less convenient and manageable than flame heating.
- Platinum clad stiff and strong metal bodies under the present invention may also be produced by the use of another expedi ent allowing the employment of somewhat lower temperatures.
- a third or linking metal maybe employed.
- This metal is preferably 13-3 macaw? Being ductile and malleable at all temperatures, the presence of a film of linking copper does not prevent or hamper'the working down of the joined metals. While it has long been regarded as substantially impracticable to unite copper with steeel and 'ironlike metals by any firm and permanent union, such unions have recently been produced by the use of a number of expedients, such as the employing of superheated molten copper, or supermolten copper (see Patent 853,716).
- the fused copper will wet the steel 7 and cohere firmly and permanently thereto.
- the steel is first filmed with superheated copper and then a further quantity of copper cast or otherwise contacted with the 'filmed surface to produce a substantial coating. It is material of this character which may be employed in the present invention. Having a plate or bar car: rying a coat of welded-on copper, the copper is turned or shaved off until but a limited amount remains, say a layer of one or two thousandths of an inch. The coated metal is next placed in contact with the platinum as before and the temperature cautiously but quickly raised to the melting point of copper, when the heating is arrested.
- the copper being already in wetting union with the steel, now forms a similar intimate, molecular union with the platinum and serves as a linking means therebetween. Probably most of the minimal amount present disappears by absorption into the other metals.
- the linked metals are next rolled or otherwise workeddown as before to compact and harden the platinum when the contact elements are stamped or punched out as before.
- the stiff and strong metal is preferably faced on one side only with platinum.
- nickel is a suitable metal to employ, being strong and giving strong platinum headed contact elements or rivets. Being stiff and hard also, the nickel acts as a very eiiicient backing sheet in producing the described hard texture of the platinum. The union between the nickel and the platinum under the described conditions is also very ready.
- the various steels and alloy steels may also be employed.
- Commercial nickel containing cobalt, or cobalt itself, may be used.- After stamping out the contact element, if desired the metal may be turned down to give a rivet shaped element. This is often convenient in assembling the contact element with the elements with which it may be used.
- the platinum may be flowed or arched some distance down the shank of stiff and strong metal, giving what may be described as :1 depending coating. This is useful in preventing arcing around the top and may be utilized in preventing corrosion of the base metal where the point is set in insulating material extending up to the depending coating.
- the nickel or like metal may be arched down around the platinum, forming a sort of surrounding cup. This gives a little additional strength against lateral stresses, but ordinarily is not necessary since the platinum is very firmly united to the shank and can rely on it for full strength. This is particularly the case where the platinum layer is, as is desirable, of relatively little thickness as compared with the area of the weld union. A. comparatively thin layer of platinum is desirable both for the reason that it takes better advantage of the strength of the metal to which it is welded and for reasons of economy. The compacting action in rolling is also better with a thin layer of platinum than with a thicker.
- linking metal between the stiff and strong metal and the platinum be autogenously produced in the manner described rather than by first attaching a coating of copper to the stifi and strong metal, reducing the thickness of the coating and then using 'it in the described manner as the latter operation requires more manipulation.
- Linking copper however gives a good type of 'metal for the present purposes. Gold and silver are not better.
- the use of lower melting alloys, such as brasses, bronzes and the like is not as desirable as that of copper since they do not roll as well and furthermore in the linking operation much more care is requisite since these alloys contain low melting metals like tin and zinc which are apt to be injurious to platinum. Tin, lead and zinc should not be used in any event and alloys containing these metals are apt to be dangerous without great care and skill.
- the compound metals should be produced in comparatively large bodies and then worked down to comparatively thin compound sheets or plates, each of a thickness corresponding substantially to the length of the contact element to be produced, any difference between the two being due to slight compression of the metals of the con tact element incidental to the cutting, or
- Figure 1 represents a sheet of platinum and a sheet of stiff and strong metal assembled ready for union
- Fig. 2 represents the united metals after rolling down to a thickness suitable for making contact points
- Fig. 3 represents the compound sheet and a punching tool in position ready for making a contact element
- Fig. 4 represents the same after punching out the contact point
- Fig. 5 shows a contact element in position in a holding element, as for instance a key base, an igniter for engines, etc.
- Fig. 6 shows a contact point having the shank turned off somewhat.
- Fig. 1 represents the platinum sheet and 2 a layer of hard and strong metal such as, for instance, nickel.
- the former is somewhat the smaller so as to leave projecting edges of the latter to permit optical observation of the influence of the heating.
- the two metals thus assembled may be heated in any suitable manner (not shown) as for instance by a blast flame projected downward upon the platinum, until the surface of the nickel shows the appearance indicative of superficial fusion. 7
- the heating is arrested at this point and the assembled metals rolled down to form the compound plate shown in Fig. 2.
- the heating operation is exactly the same if the nickel or other metal body 2 has been previously provided with a cohering coating of copper or the like, though the temperatures required are markedly less.
- black line 3 may be taken as representing a layer of linking metal which has been fused and has alloyed more or less with the metal on each side.
- the compound metal sheet is shown laid on a die face, 4, platinum side down, under a punch member 5 adapted to make round elements; and in Fig. 4, the punched-out contact member 6 is seen dropping away.
- the contact member is shown as carrying an arched downdepending layer of platinum "7 and as held in a holding member 8.
- r yet such other metals may be used in the same way as may their alloys with platinum.
- Iridium may be alloyed with the platinum to still further increase its hardness and resistance to wear and abrasion.
- Other and additional methods of working such as hammering and the like, may be adopted for compacting the platinum; and there is a good compacting action in the operation of stamping or, punching out the contact elements.
- rolling out joined metal rolling down the joined metals to a greater thinness to compact the platinum and produce a compound plate having a thickness substantially equal to the len th of a contact point and cutting contact elements therefrom by a vertical cut.
- the process of producing platinum capped elements which comprises producing an integral union between layer of platinum and a layer of a stiff and strong metal by means of a fused layer of autogenouslyproduced linking metal, rolling down the joined metals to a greater thinness tocompact the platinum and produce a compound plate having a thickness substantially equal to the length of a contact point and cutting contact elements therefrom by a vertical-cut.
- the process of producing platinum capped contact elements which comprises producing an integral union between a layer of platinum and a layer of nickel by means -of a fused layer of linking metal, rolling down the joined metals to a greater thinness to compact the platinum .and produce a compound plate having a thickness substantially equal to the length of a contact point and cutting contact elements therefrom by a vertical cut.
- the process of producing platinum capped contact elements which comprises producing an integral union between a layer of platinum and a layer of nickel by means of a fused layer. of autogenously )I'OdIICGd linking metal, rolling down the joined metals to a greater thinness to compact the platinum and produce a compound plate having a thickness substantially equal to the length of a contact point and cutting contact elements therefrom by a vertical cut.
- the process of producing platinum capped contact elements which comprises producing an integral union between a layer of metal comprising a platinum group metal and a layer of a still and strong metal by means of an intermediate layer of fused metal, Working down the joined metals to compact the first stated layer and form a compound plate having a thickness substantially equal to the length of a contact point and punching contact elements there-' from in such a manner as to arch down the platinum layer forming the cap over the shank of the other metal.
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Description
B. E. ELDRED.
METHOD OF MAKING CONTACT POINTS.
APPLICATION FILED JAN. 25, 1910.
Patented Mar. 2, 1915.
( luucnroz U M Q. ZQM Y we M w BYRON E; ELDRED, OF BRONXVILLE, NEW YORK.
METHOD OF MAKING CONTACT-POINTS.
Specification of Letters Patent.
Patented Mar. 2, 1%315.
Application filed January 25, 1910, Serial No. 539,973.
Z '0 all whom it may concern Be it known that 1, Byron E. Enonno, a citizen of the United States, residing at Bronxville, in the county of Westchester and State of New York, have invented certain new and useful Improvements in Methods of Making Contact-Points, of which the following is a specification.
This invention relates to methods of making contact points and it comprises a process of producing contact elements wherein a body of platinum is placed in contact with a body of stiff and strong metal comprising a metal of the iron group, a limited amount of molten high-melting metal is produced therebetween for a limited time to cause a liquid metallic union, the heat being lowered as soon as union is effected, the joined metals so united are preferably rolled or worked down to a smaller size to compact the platinum and then contact elements or points are. stamped, out, struck or punched out from the worked joined metals; all as more fully hereinafter set'forth and as claimed.
F or contact point and similar elements for electrical purposes, as for instance in spark points, spark plugs, key contacts, switches, etc., a surface of platinum oifers many advantages, platinum being one of the few metals which will withstand the action of the gases, such as ozone, nitrous fumes, etc., generated by spraks or arcs passing through air and gaseous mixtures containing air. Platinum is, however, in its natural state, a comparatively weak, soft metal and not well adapted to withstand mechanical abrasion and the Wear or the hammering action of many electrical devices, as in make-and-break devices; or to withstand the detaching action of the spark. And there are, furthermore, many mechanical difliculties in employing it in thin layers or small bodies, as considerations of economy dictate, partly because of its lack of strength and partly because of the extreme diiiiculty of attaching it to other stiffer and stronger metals by a firm and permanent joint such as the ordinary soldered or brazed point. 'Platinum readily unites and alloys with low melting metals, such as are employed is solders, to form low-melting alloys and soldering it to a backing and supporting element is therefore an operation requiring extreme care. In practice therefore brazing or the use of gold or silver solders is therefore generally resorted to, but this also requires great care while the comparatively small platinum element necessarily becomes highly heated. In making a spark point, for example, a minute button or head of platinum is often brazed to a shank of copper or other metal; but the operation is difiicult and expensive since it s necessary on the one hand to secure a firm Joint and on the other to avoid injuring the small bit of platinum. The operation is difficult and requires skill. And, furtheremore, in the heating incident to the operation the platinum is annealed and softened, giving it a soft, little resistant texture. Platinum may be given a comparatively hard texture bv hammering, but this disappears in the heating.
In the present invention l have devised a new type of contact element comprising a layer of'platinum of a peculiar hard teXtur firmly, permanently and metallically united to a supporting body of a stiff and strong metal of the iron class, such as nickel, iron, steel, alloy steels, cobalt, etc., but without the use of low-melting soldering metals. While it has hithereto been deemed difficult or impossible to produce any direct union between platinum and these iron class metals, I have found that it may nevertheless be accomplished provided certain expedients are adopted. It is, for instance, substan tially impossible to produce any permanent and seamless union of a cohesive (as distinguished from adhesive) nature between metals as radically different as are these in chemical and physical nature by contacting the metals in a solid state and working together whatever be the heat and pressure employed. Platinum cannot be welded to iron in the same way that-platinum can be welded to platinum or iron to iron.
In order to produce a cohesive union between any two bodies of metal, the abutting molecules must be in contact in the same sense that molecules contact with molecules in the integral body of either metal; and in practice this type of contact or union cannot be produced with both metals in a rigid, non-fluent condition. And with metals as unlike as platinum and the iron group metals, one metal must be in a liquid condition to obtain such a contact as will form a cohesive union; there must be a wetting contact. Where a fluid wets a solid, the abutting molecules are in cohesive relation; and
this relation does not disappear upon solidlplatinum with iron-group metals in order to secure a good and permanent union which is, or-is equivalent to, a weld union, the iron group metal must be, at least locally, in a fluid condition and form a wetting contact. But since platinum alloys freely with most other metals forming comparatively low melting alloys, the amount and the time of contact with such metals in a liquid state must be restricted since otherwise the two metals Will intermingle to an undue extent along the line of intended union. But'by performing the joining operation under proper conditions, good and permanent unions having all the properties of a weld union may be secured, the joined metals being thereafter incapable of separation, a cleaving tool, such as a cold chisel, being unable to discover the line of joinder and heating and sudden quenching being unable to break the union. \Vhen well made the union is, as a matter of fact, superior to the ordinary weld as found in welded iron since the joined and abutting surfaces'are in cohesive contact at all points instead of being merely united at intervals as is apt to be the case with iron Welds. The joined metals may be coextended indefinitely by ordinary working methods, such as rolling, hammering, drawing, etc. And in such coextension, the platinum acquires new and valuable properties for the present purposes. Being compacted between the working tool on the one hand and the relatively stiff iron group metal on the other while held against lateral yielding by the existence of the basal weld union it acquires throughout its mass a peculiar hard, firm and dense texture comparable with the surface texture of harddrawn wire, with a great increase in strength and resistance to abrasion and wear. This fact is of great value for the present purposes since it permits the union of comparatively large masses of platinum and stiff and strong metal and their subsequent coextension to form comparatively thin plates carrying a surface layer of dense and hard platinum, from which plates or sheets the finished contact elements may be cut, stamped or punched out, eac'h then consisting of a stiff and strong shank or body carrying a capping layer of hard, dense platinum. The shape of the contact element will depend upon the cutting tool. A punch giving cylindrical compound elements may be used. Obviously no heating which would anneal and weaken the platinum is necessary in the present operation. This mode of procedure is not only advantageous as permitting cheaper work than where each separate contact element must be separately made but as giving a much better article than where the platinum isheated and brazed to a holding element,- v g V In practice, a bar or sheet of platinum tunity must of course be afforded for ready 7 extrication of any gases between them. In this operation probably there is more or less superficial alloying along the line of union between the metal bodies, but this is not disadvantageous where the. operation is properly conducted and the intermixture or alloying confined to a very narrow zone between the two metals; and is probably advantageous as adding to the strength of the union. As soon as thesurface of the lower melting metal assumes the indicated appearance of superficial liquidity, the heating is quickly arrested. As stated, it is not desirable that too much of the stiff and strong metal be fused. The heating is preferably from above and, as stated, an opportunity should be afforded for ready extrication of gases. \Vith a comparatively wide, thin sheet of platinum, for example, lying upon a sheet of nickel, it is desirable that it be perforated in the middle to allow exit of gases there as peripheral cooling and solidification of the fused metal takes place. If for any reason a 'body of stiff and strong metal faced on two sides with platinum be required it is better to attach platinum first to one side and then to the other rather than apply platinum to two sides simultaneously. But there is no difiiculty in so attaching an annular tube or shell of platinum to a core of stiff and strong metal in the described manner. Where flame heating is employed, as is best, the flame should usually be run rather reducing to prevent oxidation of the stiff and strong metal but not so reducing as to allow sooting or. deposition of carbon. A blast gas flame or-an oxyhydrogen flame may be employed. Using nickel, which is a metal of high fusing point, the oxyhydrogen flame is well adapted. Electric heating may be employed but since it is a matter of uniting major faces of two bodies of metal it is usually less convenient and manageable than flame heating.
Platinum clad stiff and strong metal bodies under the present invention may also be produced by the use of another expedi ent allowing the employment of somewhat lower temperatures. In this modification in lieu of us ng an autogenously produced film of liquid metal a third or linking metal maybe employed. This metal is preferably 13-3 macaw? Being ductile and malleable at all temperatures, the presence of a film of linking copper does not prevent or hamper'the working down of the joined metals. While it has long been regarded as substantially impracticable to unite copper with steeel and 'ironlike metals by any firm and permanent union, such unions have recently been produced by the use of a number of expedients, such as the employing of superheated molten copper, or supermolten copper (see Patent 853,716). Under these circumstances the fused copper will wet the steel 7 and cohere firmly and permanently thereto. Ordinarily, the steel is first filmed with superheated copper and then a further quantity of copper cast or otherwise contacted with the 'filmed surface to produce a substantial coating. It is material of this character which may be employed in the present invention. Having a plate or bar car: rying a coat of welded-on copper, the copper is turned or shaved off until but a limited amount remains, say a layer of one or two thousandths of an inch. The coated metal is next placed in contact with the platinum as before and the temperature cautiously but quickly raised to the melting point of copper, when the heating is arrested. The copper, being already in wetting union with the steel, now forms a similar intimate, molecular union with the platinum and serves as a linking means therebetween. Probably most of the minimal amount present disappears by absorption into the other metals. The linked metals are next rolled or otherwise workeddown as before to compact and harden the platinum when the contact elements are stamped or punched out as before.
For making contact elements, the stiff and strong metal is preferably faced on one side only with platinum. For most purposes nickel is a suitable metal to employ, being strong and giving strong platinum headed contact elements or rivets. Being stiff and hard also, the nickel acts as a very eiiicient backing sheet in producing the described hard texture of the platinum. The union between the nickel and the platinum under the described conditions is also very ready. However the various steels and alloy steels may also be employed. Commercial nickel containing cobalt, or cobalt itself, may be used.- After stamping out the contact element, if desired the metal may be turned down to give a rivet shaped element. This is often convenient in assembling the contact element with the elements with which it may be used. In punching, the platinum may be flowed or arched some distance down the shank of stiff and strong metal, giving what may be described as :1 depending coating. This is useful in preventing arcing around the top and may be utilized in preventing corrosion of the base metal where the point is set in insulating material extending up to the depending coating. Similarly the nickel or like metal may be arched down around the platinum, forming a sort of surrounding cup. This gives a little additional strength against lateral stresses, but ordinarily is not necessary since the platinum is very firmly united to the shank and can rely on it for full strength. This is particularly the case where the platinum layer is, as is desirable, of relatively little thickness as compared with the area of the weld union. A. comparatively thin layer of platinum is desirable both for the reason that it takes better advantage of the strength of the metal to which it is welded and for reasons of economy. The compacting action in rolling is also better with a thin layer of platinum than with a thicker.
It is better that the thin layer of linking metal between the stiff and strong metal and the platinum be autogenously produced in the manner described rather than by first attaching a coating of copper to the stifi and strong metal, reducing the thickness of the coating and then using 'it in the described manner as the latter operation requires more manipulation. Linking copper however gives a good type of 'metal for the present purposes. Gold and silver are not better. The use of lower melting alloys, such as brasses, bronzes and the like is not as desirable as that of copper since they do not roll as well and furthermore in the linking operation much more care is requisite since these alloys contain low melting metals like tin and zinc which are apt to be injurious to platinum. Tin, lead and zinc should not be used in any event and alloys containing these metals are apt to be dangerous without great care and skill.
The compound metals should be produced in comparatively large bodies and then worked down to comparatively thin compound sheets or plates, each of a thickness corresponding substantially to the length of the contact element to be produced, any difference between the two being due to slight compression of the metals of the con tact element incidental to the cutting, or
In working a plate punching operation. down from a large to a smaller size the described compacting efi'ect is produced.
In the accompanying illustration I have shown, more or less diagrammatically,
, means and materials within the present invention.
In this showing :Figure 1 represents a sheet of platinum and a sheet of stiff and strong metal assembled ready for union; Fig. 2 represents the united metals after rolling down to a thickness suitable for making contact points; Fig. 3 represents the compound sheet and a punching tool in position ready for making a contact element; Fig. 4 represents the same after punching out the contact point; Fig. 5 shows a contact element in position in a holding element, as for instance a key base, an igniter for engines, etc.; Fig. 6 shows a contact point having the shank turned off somewhat.
In the views the contact point is shown as somewhat larger than its usual dimensions for the sake of clearness of illustration.
In Fig. 1, 1 represents the platinum sheet and 2 a layer of hard and strong metal such as, for instance, nickel. The former is somewhat the smaller so as to leave projecting edges of the latter to permit optical observation of the influence of the heating. The two metals thus assembled may be heated in any suitable manner (not shown) as for instance by a blast flame projected downward upon the platinum, until the surface of the nickel shows the appearance indicative of superficial fusion. 7 The heating is arrested at this point and the assembled metals rolled down to form the compound plate shown in Fig. 2. The heating operation is exactly the same if the nickel or other metal body 2 has been previously provided with a cohering coating of copper or the like, though the temperatures required are markedly less. In the showing of Fig. 2, black line 3 may be taken as representing a layer of linking metal which has been fused and has alloyed more or less with the metal on each side.
In Fig. 3, the compound metal sheet is shown laid on a die face, 4, platinum side down, under a punch member 5 adapted to make round elements; and in Fig. 4, the punched-out contact member 6 is seen dropping away. In Fig. 5, the contact member is shown as carrying an arched downdepending layer of platinum "7 and as held in a holding member 8.
In Fig. 6, the contact member is shown with the shank turned oil at 9.
While I regard my invention as particularly applicable to contact elenients having a layer of commercially pure platinum, since such platinum is well compacted and bardenedin the process and 1s of more fibrous character than other platinum group metals,
r yet such other metals may be used in the same way as may their alloys with platinum. Iridium may be alloyed with the platinum to still further increase its hardness and resistance to wear and abrasion. Other and additional methods of working, such as hammering and the like, may be adopted for compacting the platinum; and there is a good compacting action in the operation of stamping or, punching out the contact elements. But in rolling out joined metal, rolling down the joined metals to a greater thinness to compact the platinum and produce a compound plate having a thickness substantially equal to the len th of a contact point and cutting contact elements therefrom by a vertical cut.
' 2. The process of producing platinum capped elements which comprises producing an integral union between layer of platinum and a layer of a stiff and strong metal by means of a fused layer of autogenouslyproduced linking metal, rolling down the joined metals to a greater thinness tocompact the platinum and produce a compound plate having a thickness substantially equal to the length of a contact point and cutting contact elements therefrom by a vertical-cut.
3. The process of producing platinum capped contact elements which comprises producing an integral union between a layer of platinum and a layer of nickel by means -of a fused layer of linking metal, rolling down the joined metals to a greater thinness to compact the platinum .and produce a compound plate having a thickness substantially equal to the length of a contact point and cutting contact elements therefrom by a vertical cut.
4. The process of producing platinum capped contact elements which comprises producing an integral union between a layer of platinum and a layer of nickel by means of a fused layer. of autogenously )I'OdIICGd linking metal, rolling down the joined metals to a greater thinness to compact the platinum and produce a compound plate having a thickness substantially equal to the length of a contact point and cutting contact elements therefrom by a vertical cut.
5. The process of producing platinum capped contact elements which comprises producing an integral union between a layer of metal comprising a platinum group metal and a layer of a still and strong metal by means of an intermediate layer of fused metal, Working down the joined metals to compact the first stated layer and form a compound plate having a thickness substantially equal to the length of a contact point and punching contact elements there-' from in such a manner as to arch down the platinum layer forming the cap over the shank of the other metal.
In testimony whereof, I ailix my signature 4 JOHN M. RILEY, A. M. SENIOR.
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US53997310A US1130077A (en) | 1910-01-25 | 1910-01-25 | Method of making contact-points. |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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US53997310A US1130077A (en) | 1910-01-25 | 1910-01-25 | Method of making contact-points. |
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Publication Number | Publication Date |
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US1130077A true US1130077A (en) | 1915-03-02 |
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US53997310A Expired - Lifetime US1130077A (en) | 1910-01-25 | 1910-01-25 | Method of making contact-points. |
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Cited By (11)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2627110A (en) * | 1949-04-12 | 1953-02-03 | Gen Electric | Method of bonding nickel structures |
US2642053A (en) * | 1948-07-16 | 1953-06-16 | Baker & Co Inc | Electrode for sparking plugs and their manufacture |
US2691815A (en) * | 1951-01-04 | 1954-10-19 | Metals & Controls Corp | Solid phase bonding of metals |
US2753623A (en) * | 1951-01-05 | 1956-07-10 | Metals & Controls Corp | Solid phase bonding of metals |
US2767467A (en) * | 1951-02-02 | 1956-10-23 | Metals & Controls Corp | Solid phase bonding of metal strips |
US2925650A (en) * | 1956-01-30 | 1960-02-23 | Pall Corp | Method of forming perforate metal sheets |
US2953247A (en) * | 1955-05-12 | 1960-09-20 | Johnson Matthey Co Ltd | Manufacture of electrical contacts |
US3032861A (en) * | 1957-05-27 | 1962-05-08 | Gen Electric | Method of manufacturing a flatiron |
US3139669A (en) * | 1960-02-23 | 1964-07-07 | Gibson Electric Company | Method of making an electrical contact |
US3191273A (en) * | 1960-11-16 | 1965-06-29 | Talon Inc | Method of making electrical contacts |
JPS5755083A (en) * | 1980-09-17 | 1982-04-01 | Nippon Denso Co | Spark plug |
-
1910
- 1910-01-25 US US53997310A patent/US1130077A/en not_active Expired - Lifetime
Cited By (12)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2642053A (en) * | 1948-07-16 | 1953-06-16 | Baker & Co Inc | Electrode for sparking plugs and their manufacture |
US2627110A (en) * | 1949-04-12 | 1953-02-03 | Gen Electric | Method of bonding nickel structures |
US2691815A (en) * | 1951-01-04 | 1954-10-19 | Metals & Controls Corp | Solid phase bonding of metals |
US2753623A (en) * | 1951-01-05 | 1956-07-10 | Metals & Controls Corp | Solid phase bonding of metals |
US2767467A (en) * | 1951-02-02 | 1956-10-23 | Metals & Controls Corp | Solid phase bonding of metal strips |
US2953247A (en) * | 1955-05-12 | 1960-09-20 | Johnson Matthey Co Ltd | Manufacture of electrical contacts |
US2925650A (en) * | 1956-01-30 | 1960-02-23 | Pall Corp | Method of forming perforate metal sheets |
US3032861A (en) * | 1957-05-27 | 1962-05-08 | Gen Electric | Method of manufacturing a flatiron |
US3139669A (en) * | 1960-02-23 | 1964-07-07 | Gibson Electric Company | Method of making an electrical contact |
US3191273A (en) * | 1960-11-16 | 1965-06-29 | Talon Inc | Method of making electrical contacts |
US3252207A (en) * | 1960-11-16 | 1966-05-24 | Talon Inc | Process of making projection welding type composite contacts |
JPS5755083A (en) * | 1980-09-17 | 1982-04-01 | Nippon Denso Co | Spark plug |
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