WO1983001346A1 - Planar fork contact with gold inlay material - Google Patents
Planar fork contact with gold inlay material Download PDFInfo
- Publication number
- WO1983001346A1 WO1983001346A1 PCT/US1982/001426 US8201426W WO8301346A1 WO 1983001346 A1 WO1983001346 A1 WO 1983001346A1 US 8201426 W US8201426 W US 8201426W WO 8301346 A1 WO8301346 A1 WO 8301346A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- contact
- tine
- tines
- leg portion
- area
- Prior art date
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Classifications
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R13/00—Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
- H01R13/02—Contact members
- H01R13/10—Sockets for co-operation with pins or blades
- H01R13/11—Resilient sockets
- H01R13/112—Resilient sockets forked sockets having two legs
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R12/00—Structural associations of a plurality of mutually-insulated electrical connecting elements, specially adapted for printed circuits, e.g. printed circuit boards [PCB], flat or ribbon cables, or like generally planar structures, e.g. terminal strips, terminal blocks; Coupling devices specially adapted for printed circuits, flat or ribbon cables, or like generally planar structures; Terminals specially adapted for contact with, or insertion into, printed circuits, flat or ribbon cables, or like generally planar structures
- H01R12/50—Fixed connections
- H01R12/59—Fixed connections for flexible printed circuits, flat or ribbon cables or like structures
- H01R12/62—Fixed connections for flexible printed circuits, flat or ribbon cables or like structures connecting to rigid printed circuits or like structures
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R12/00—Structural associations of a plurality of mutually-insulated electrical connecting elements, specially adapted for printed circuits, e.g. printed circuit boards [PCB], flat or ribbon cables, or like generally planar structures, e.g. terminal strips, terminal blocks; Coupling devices specially adapted for printed circuits, flat or ribbon cables, or like generally planar structures; Terminals specially adapted for contact with, or insertion into, printed circuits, flat or ribbon cables, or like generally planar structures
- H01R12/70—Coupling devices
- H01R12/71—Coupling devices for rigid printing circuits or like structures
- H01R12/712—Coupling devices for rigid printing circuits or like structures co-operating with the surface of the printed circuit or with a coupling device exclusively provided on the surface of the printed circuit
- H01R12/716—Coupling device provided on the PCB
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R12/00—Structural associations of a plurality of mutually-insulated electrical connecting elements, specially adapted for printed circuits, e.g. printed circuit boards [PCB], flat or ribbon cables, or like generally planar structures, e.g. terminal strips, terminal blocks; Coupling devices specially adapted for printed circuits, flat or ribbon cables, or like generally planar structures; Terminals specially adapted for contact with, or insertion into, printed circuits, flat or ribbon cables, or like generally planar structures
- H01R12/70—Coupling devices
- H01R12/77—Coupling devices for flexible printed circuits, flat or ribbon cables or like structures
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R13/00—Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
- H01R13/02—Contact members
- H01R13/03—Contact members characterised by the material, e.g. plating, or coating materials
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R43/00—Apparatus or processes specially adapted for manufacturing, assembling, maintaining, or repairing of line connectors or current collectors or for joining electric conductors
- H01R43/16—Apparatus or processes specially adapted for manufacturing, assembling, maintaining, or repairing of line connectors or current collectors or for joining electric conductors for manufacturing contact members, e.g. by punching and by bending
Definitions
- the present invention relates, generally, as indicated, to electrical contacts, and, more particularly, to electrical fork contacts having high conductivity inlay material, such as gold, in the tines thereof.
- the invention also relates to electrical connectors using such contacts.
- Planar electrical contacts of the fork type are well known as are connectors that use such contacts.
- a typical prior fork contact is shown in U.S. Patent No. 4,030,799.
- Such fork contact has a pair of tines that extend out from a base.
- a member, such as a pin contact may be inserted between a pair of tines to make an electrical connection therewith.
- Such patent also discloses an electrical connector using such contacts.
- the connector is of the cable termination assembly type, which includes the contacts, a housing, and at least a portion of a multiconductor cable.
- the present invention may be used with such cable termination assemblies and with other types of electrical connectors, such as a cable termination, which is like the noted assembly but without necessarily including the cable as a part thereof.
- such fork contacts may be formed by die cutting or die stamping the same from a relatively thin sheet of metal material.
- stamping often leaves the finished product with a smooth side, which is the one that the cutting die strikes first, and a burr side or surface.
- the sharp, rough burrs at such burr side usually are undesirable because they can damage pin contacts inserted to engagement therewith, for example by scoring off high conductivity coatings or the like applied to such pin contacts. It would be desirable to permit such die cutting of fork contacts while eliminating with facility such scoring and like problems created by such burrs.
- a contact formed of nickel silver may by plated with gold or palladium silver in order substantially to improve the electrical conductivity thereof, especially at the surface area of the contact where it engages with or wipes against a pin contact or other- member inserted to engage the same.
- Plating materials though, sometimes are applied non-uniformly, which may result in uneven wear; and there may be voids ift the plating allowing undesirable oxidation to occur. Also, plating is unnecessarily relatively expensive because the entire contact usually is plated, which wastes plating material at portions of the contact that do not perform a contacting function.
- inlay material has eliminated the need for plating an entire electrical contact, but contacts using inlay material usually are non-planar and relatively large in comparison to the required dimensions of a planar fork contact or the like.
- An advantage of inlay material over plating is the former would be denser and more uniform in thickness than the latter.
- the inlay material usually would present a contacting surface area for engaging an inserted member, e.g. a pin contact, that is smoother and, therefore, a better contacting surface, than the plated or unplated surface, say of a conventional fork contact.
- the usual technique for applying inlay material to sheet material has been to force by pressure, e.g.
- the contact would have to be deformed, for example in the shape of a hairpin curve or in the form of a full or three quarters folded box that has contact arms extending, say upwardly, from respective opposite sides of the box and parallel thereto, in order to locate the inlay material at a position of contacting exposure to a pin contact inserted to engagement therewith.
- a planar fork contact is a secure, integral device that requires minimum space while assuring a highly effective contacting/wiping function to establish a connection with, for example, a pin contact or other member inserted between the tines thereof to engagement therewith.
- a planar fork contact would be one that has the tines and preferably, although not necessarily, the base, which holds the tines thereto, all substantially in a single narrow plane, i.e. that plane of the sheet material from which the contact is formed, especially by the noted die cutting. It would be desirable to provide inlay material at the contacting/wiping areas of the tines of such planar fork contacts.
- the invention relates to improvements in electrical contacts and in electrical connector devices, such as cable terminations and cable termination assemblies, employing such contacts.
- the invention permits the application of inlay material, such as gold, palladium silver, or the like, in one plane, i.e. that of the sheet material from which fork contacts are cut, and use thereof in another plane, i.e. that of the contacting/wiping area of the respective tines of the fork contacts.
- the invention resides in an electrical contact of the fork type, wherein each of the tines is substantially parallel and coplanar and has a contacting or wiping area facing that of the other tine for wiping engagement and direct surface to surface contact with a member, such as a pin, inserted between the tines to engagement therewith.
- a member such as a pin
- at least one of the tines has inlay material at the contacting or wiping area thereof to improve the electrical connection with such member and/ or for similar reasons that plating traditionally may have been provided on electrical contacts.
- the noted inlay material such as gold, palladium silver, or the like, preferably is applied only to the relatively limited area of each tine that maintains direct engement with such inserted member.
- a twist is provided in each tine to align the respective contacting areas that contain such inlay material with each other in confronting relation for such wiping engagement with the inserted member.
- the contact moreover, may be die cut or stamped; however, the twist provided in each tine enables alignment of the respective smooth side surfaces of each in respectively confronting relation with each other, allocating the back of each tine, i.e. that portion not intended to engage such inserted member, for the burr side surface.
- one aspect of the present invention relates to an electrical contact, including a pair of tines, each tine having a contact wiping area, inlay material in at least part of the wiping area of at least one of the tines, and holding means for holding the tines in generally parallel, coplanar relation.
- Another aspect relates to a planar fork contact including a pair of tines for engaging a member inserted therebetween, and inlay material in at least one of the tines for directly engaging such inserted member.
- An additional aspect relates to a die cut electrical contact, including plural tines, each having a smooth side and a burr side, the latter being created upon the die cutting of the contact, and holding means for holding the tines in generally fixed relative position with the smooth sides facing an area for connection with a member inserted to engagement with the contact, and the burr sides facing away from such area.
- a further aspect relates to an electrical fork contact, including plural tines, each having a contact area (contact area, contacting and a twist at substantially the area, and wiping area are used interchangeably herein) same respective portion to place the contact areas in opposed confronting relative position to engage a member inserted therebetween.
- Still another aspect concerns a multiconductor cable termination, including a multiconductor electrical cable having a plurality of conductors and electrical insulation about the conductors maintaining the latter electrically insulated from each other, a plurality of electrical contacts, each including terminals connecting with at least one of the conductors directly through said electrical insulation to form an electrical junction, each of the electrical contacts being of the types mentioned in the several paragraphs of this summary, and a housing including a base for directly holding the contacts and the cable in relatively fixed position, the base means comprising a body integrally molded about at least a portion of each of the contacts and a portion of the cable, whereby tlie base, contacts and cable form an integral structure.
- an additional aspect of the invention concerns the combination of one or more such electrical contacts with an electrical cable including at least one electrical conductor and electrical insulation about the conductor maintaining the latter electrically insulated, wherein the contact includes a terminal for connecting with a respective conductor directly through the electrical insulation to form an electrical junction, and a housing for holding the contact and cable in fixed relative position to form a secure cable termination assembly.
- Still a further aspect relates to an improvement in an electrical contact having plural tines defining an area therebetween for receiving a member inserted therein, and each tine having a contact area for engaging such member, such improvement being directed to inlay material in at least one of the tines at such contact area, and mounting means for mounting the tines at least substantially in a common plane.
- a primary object of the present invention is to provide an electrical contact that is improved in the noted respects.
- Another object is to provide a cable termination and/or cable termination assembly improved in the noted respects.
- An additional, object is to enable use of inlay material in an electrical contact that is formed in a single plane.
- a further object is to facilitate use of inlay material in an electrical contact.
- Still another object is to minimize the cost of using specialized materials, e.g. gold, in electrical contacts.
- Still an additional object is to provide reliable high conductivity for the contact wiping area of an electrical contact at relatively minimum cost, and preferably without requiring plating.
- Still a further object is to minimize the amount of high conductivity material needed in an electrical contact, especially while assuring adequate amount of such material at the contact area.
- an additional object is to obtain a smooth surface at the contact wiping area or connection area or an electrical contact, especially of the planar type.
- Even a further object is to improve the ability of an electrical contact to withstand deformation abuse.
- Yet another object is to achieve the above objects particularly in a fork contact, and especially a fork contact.
- Yet an additional object is to achieve the foregoing objects in a cable termination assembly or other electrical connector device.
- the invention comprises tlie features hereinafter fully described in the specification and particularly pointed out in the claims, the following description and the annexed drawing setting forth in detail a certain illustrative embodiment of the invention, this being indicative, however, of but one of the various ways in which the principles of the invention may be employed.
- Fig. 1 is a plan view of a plurality of electrical contacts in accordance with the present invention
- Fig. 2 is an exploded isometric view of a cable termination assembly type of connector in accordance with the present invention using the contacts of Fig. 1;
- Figs. 3 and 4 are section views of one contact of Fig. 1 looking generally in the direction of the respective section arrows identified by the same numbers;
- Fig. 5 is an isometric view of a single electrical contact in accordance with the present invention in the midst of being manufactured.
- Fig. 1 there are three contacts 1 shown connected to a breakaway strip 2 formed during the manufacturing of the contacts and used to facilitate manipulating the contacts, for example, just prior to incorporating the contacts in a connector, such as the cable termination assembly 3 shown in Fig. 2.
- Figs. 3 and 4 are shown section views of the contact 1 of the invention, and in Fig. 5. the contact 1 is shown prior to finishing the manufacturing thereof.
- Each of the contacts 1 that are illustrated in the drawings is a planar fork contact; the contacts are formed by die cutting or die stamping the same from a planar sheet of metal, such as nickel silver, so that the two tines 4, 5, the base 6, and the terminal legs 7, 8 are all in a common plane of the sheet material, such as is exhibited by the breakaway strip 2.
- the tines 4, 5 have respective straight leg portions 10, 11 and curved leg portions 12, 13, the latter portions being more remote from the base 6 than the former.
- a contacting or wiping area 14, 15 of each tine is intended to engage a member inserted into the space 16 between a respective pair of tines of a given fork contact 1.
- the wiping areas 14, 15 wipe against a member inserted into the space 16, as the resilient force of the respective tines urges such areas into wiping engagement with such member.
- the wiping helps to clean the tines and the surfaces with which they are to connect to form a reliable electrical connection.
- the areas 14, 15 perform both a wiping function and a contacting function with respect to such member.
- the wiping areas 14, 15 and the portions of the tines 4, 5 at which they are formed should be coplanar to achieve the various advantages of planar fork contacts.
- the tines 4, 5, base 6, and terminal legs 7, 8 all are coplanar.
- the inlay material 17, 18 preferably is gold, palladium silver, or other material, as may be desired.
- such inlay material would have a higher electrical conductivity, i.e. be a better conductor and/or have a greater resistance to impedance causing oxidation, than the material of which the remainder of the contact 1 is formed, such as the above-noted nickel silver. Since the inlay material 17, 18 is located generally only in the contacting area 14, 15 of each tine 4, 5, only a minimum amount of such relatively costly material is required for the contact 1.
- the thickness of such inlay material may be on the order of several, say about twenty, millionths of an inch to on the order of about fifty millionths of an inch in thickness; and preferably the inlay material is about thirty millionths of an inch thick.
- the inlay material 17, 18 may be applied in a conventional inlay applying technique to the sheet material of which the contact 1 is formed prior to the die cutting of the respective contacts 1 from such sheet material.
- such inlay material in the form of a relatively thin strip of narrow width may be force fit into a shallow groove in the sheet material at the portion thereof that will become the contacting areas 14, 15 when the contact 1 is formed.
- a manufacturing technique for the contact 1 may include, after having inlaid the inlay material in the sheet material, for example by a rolling process, and having die cut the contact shape to form the respective tines 4, 5, base 6, and terminal legs 7, 8, deforming the tines to bow the same generally in that portion thereof that will become the contacting areas 14, 15.
- burr side 31 of the contact Tlie other side 32 of the contact 1 is usually quite smooth because it will have been rolled, for example, during application of the inlay material.
- the burr side of course, preferably is on the side of the contact 1 remote from the inlay material to avoid loosening of the latter during the cutting or stamping process.
- One of the final* steps involved in manufacturing the contact 1 involves twisting the tines by applying clockwise and counter-clockwise (relative to Fig. 5) twisting torques to the respective tabs 24, 25.
- Such twisting of the tines 4, 5, then, brings the respective wiping areas 14, 15 into directly opposed confrontation with each other with the curved leg portions 12, 13 of the tines being convex toward each other in substantially direct spaced-apart confrontation, as is seen in Figs. 1 and 2.
- It is the purpose of the weakening cut-outs 20, 21 to facilitate the mentioned twisting and substantially to confine the twist 33, 34 of each tine 4, 5 to the areas of such cut-outs and, thus, in the straight leg portions 10, 11 of the tines.
- the finished contacts 1 are seen in Figs. 1-4.
- the space 16 between the convex wiping areas 14, 15 is relatively narrow so as to permit such wiping areas to engage securely a member, such as a pin contact, printed circuit board, or the like, inserted into such space.
- the space 35 between the straight leg portions 10, 11 of the contact 1 is relatively wider than the space 16 to accomodato a portion of such an inserted member.
- the weakest portion of planar fork contacts usually is at the junctures of the tines 4, 5 and the base 6.
- the nature of the contact 1 provides for effectively strengthening the contact, and particularly such junctures. This is accomplished using the straight 10, 11 and curved 12, 13 leg portions in conjunction with respective support walls of a housing or the like in which the contact 1 is used to form a connector. Specifically, such support walls are shown schematically at 40 in Fig. 1.
- the walls 40 are stepped, having a relatively thick support portion 42 intended directly to support the respective straight leg portions 10, 11, after they have undergone a predetermined amount of resilient deformation by a member inserted into the space 16.
- the relative spacing of the tines 4, 5 with respect to the support portions 42 is such that the latter will prevent over-stressing of such straight leg portions and the noted junctures in the event that an over-size member is inserted into the space 16 or such a member is inserted in an askew manner.
- Such curved leg portions are capable of such added deflection due to tlie nature of their curvature.
- Preventing such over-stressing also may be accomplished by using curved leg portions 12, 13 that have their leading ends 26, 27 terminating closer to the center-line of the contact 1, i.e. a line drawn between and parallel to the straight leg portions 10, 11 of tlie tines through the space 16, than a line parallel to the outside surfaces 44, 45 of the straight leg portions.
- the support walls 40 may be straight while still providing the described support function because the junctions of the straight and curved leg portions would abut, and, therefore, be supported by, the walls 40 before the straight leg portions would be over-stressed, while still permitting subsequent resilient deflection of the curved leg portions until the leading ends thereof abut such walls.
- the cable termination assembly 3 there illustrated is a representative connector in which the contact 1 of the invention may be employed.
- Such cable termination assembly includes the cable 30; the contacts 1, the terminal legs 7, 8 of which pierce through the cable insulation 50 to engage respective conductors 51, which enter the slots 52 between respective legs 7, 8; a body 53 of electrically nonconductive material molded about parts of the contacts 1 and cable 30 forming an integral structure therewith; and a cover 54.
- a similar cable termination assembly is disclosed in the above-mentioned U.S. patent No. 4,030,799.
- the body 53 preferably is molded to enclose fully the junction of respective conductors 51 and terminal legs 7, 8 to maintain the same in an air-free environment, thus minimizing the possibility of oxidation or electrolytic action at such junctions. Accordingly, the combination of such excellent electrical connection between the contacts 1 and conductor 51 and of the wiping areas 14, 15 via the inlays 17, 18 with members inserted to engagement therewith provides a highly effective and reliable coupling ultimately between such conductors and members.
- the cover 54 is like the one in the noted patent. It fits on the body 53 at the step 55 and may be ultrasonically welded in place.
- the front wall 56 of the cover has openings 57 for guiding pins or like members to engage respective contacts. Compartments partly shown in Fig. 1 at 58 in the cover 54 provide some measure of isolation of respective contacts while the walls of such compartments provide the support walls 40 described above. It will be appreciated that the contacts and electrical connector of the invention may be used to connect respective conductors to provide an electrically conductive path for respective electrical signals.
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- Coupling Device And Connection With Printed Circuit (AREA)
Abstract
An electrical contact (1) of the fork type has substantially parallel and coplanar tines (4, 5) and in the contacting or wiping area (17, 16) of each tine inlay material (14, 15) improves electrical connection thereof with a member inserted to engagement therewith. The noted inlay material, such as gold, palladium silver, or the like, preferably is applied only to the relatively limited area of each tine that maintains direct engagement with such inserted member. A twist (34) in each tine aligns the respective contact areas that contain such inlay material with each other in confronting relation for such wiping engagement. The contact, moreover, may be die cut or stamped, and the twist enables alignment of the respective smooth side surface of each tine in respectively confronting relation with each other, allocating the back of each tine, i.e. that portion not intended to engage such inserted member, for the burr side surface. An electrical connector, such as a cable termination or cable termination assembly, may include such contacts.
Description
TITLE: "PLANAR FORK CONTACT WITH GOLD INLAY MATERIAL"
TECHNICAL FIELD
The present invention relates, generally, as indicated, to electrical contacts, and, more particularly, to electrical fork contacts having high conductivity inlay material, such as gold, in the tines thereof. The invention also relates to electrical connectors using such contacts.
BACKGROUND OF PRIOR ART
Planar electrical contacts of the fork type are well known as are connectors that use such contacts. A typical prior fork contact is shown in U.S. Patent No. 4,030,799. Such fork contact has a pair of tines that extend out from a base. A member, such as a pin contact, may be inserted between a pair of tines to make an electrical connection therewith. Such patent also discloses an electrical connector using such contacts. The connector is of the cable termination assembly type, which includes the contacts, a housing, and at least a portion of a multiconductor cable. The present invention may be used with such cable termination assemblies and with other types of electrical connectors, such as a cable termination, which is like the noted assembly but without necessarily including the cable as a part thereof.
It is well known that such fork contacts may be formed by die cutting or die stamping the same from a relatively thin sheet of metal material. However, such stamping often leaves the finished product with a smooth side, which is the one that the cutting die strikes first, and a burr side or surface. The sharp, rough burrs at such burr side usually are undesirable because they can damage pin
contacts inserted to engagement therewith, for example by scoring off high conductivity coatings or the like applied to such pin contacts. It would be desirable to permit such die cutting of fork contacts while eliminating with facility such scoring and like problems created by such burrs.
To improve the electrical conductivity and possibly for other reasons electrical contacts often are plated with certain materials, such as high conductivity materials. For example, a contact formed of nickel silver may by plated with gold or palladium silver in order substantially to improve the electrical conductivity thereof, especially at the surface area of the contact where it engages with or wipes against a pin contact or other- member inserted to engage the same. Plating materials, though, sometimes are applied non-uniformly, which may result in uneven wear; and there may be voids ift the plating allowing undesirable oxidation to occur. Also, plating is unnecessarily relatively expensive because the entire contact usually is plated, which wastes plating material at portions of the contact that do not perform a contacting function.
The use of relatively highly conductive or high conductivity inlay material has eliminated the need for plating an entire electrical contact, but contacts using inlay material usually are non-planar and relatively large in comparison to the required dimensions of a planar fork contact or the like. An advantage of inlay material over plating is the former would be denser and more uniform in thickness than the latter. Also, the inlay material usually would present a contacting surface area for engaging an inserted member, e.g. a pin contact, that is smoother and, therefore, a better contacting surface, than the plated or unplated surface, say of a conventional fork contact. The usual technique for applying inlay material to sheet material has been to force by pressure, e.g. by a rolling process, a strip of inlay material into a shallow groove in the sheet material from which the contact would be cut. Then, the contact would have to be deformed, for example in the shape of a hairpin curve or in the form of a full
or three quarters folded box that has contact arms extending, say upwardly, from respective opposite sides of the box and parallel thereto, in order to locate the inlay material at a position of contacting exposure to a pin contact inserted to engagement therewith.
In contrast, though, a planar fork contact is a secure, integral device that requires minimum space while assuring a highly effective contacting/wiping function to establish a connection with, for example, a pin contact or other member inserted between the tines thereof to engagement therewith. A planar fork contact would be one that has the tines and preferably, although not necessarily, the base, which holds the tines thereto, all substantially in a single narrow plane, i.e. that plane of the sheet material from which the contact is formed, especially by the noted die cutting. It would be desirable to provide inlay material at the contacting/wiping areas of the tines of such planar fork contacts.
Another problem sometimes encountered in electrical connectors using resiliently deformable contacts, such as the tines of a fork contact, is over-stressing beyond the elastic limit causing permanent damage to the contact. It would be desirable to reduce the possibility of such over-stressing and/or damage.
SUMMARY OF THE INVENTION
Briefly, the invention relates to improvements in electrical contacts and in electrical connector devices, such as cable terminations and cable termination assemblies, employing such contacts. The invention permits the application of inlay material, such as gold, palladium silver, or the like, in one plane, i.e. that of the sheet material from which fork contacts are cut, and use thereof in another plane, i.e. that of the contacting/wiping area of the respective tines of the fork contacts.
Fundamentally, the invention resides in an electrical contact
of the fork type, wherein each of the tines is substantially parallel and coplanar and has a contacting or wiping area facing that of the other tine for wiping engagement and direct surface to surface contact with a member, such as a pin, inserted between the tines to engagement therewith. Importantly at least one of the tines has inlay material at the contacting or wiping area thereof to improve the electrical connection with such member and/ or for similar reasons that plating traditionally may have been provided on electrical contacts.
The noted inlay material, such as gold, palladium silver, or the like, preferably is applied only to the relatively limited area of each tine that maintains direct engement with such inserted member. A twist is provided in each tine to align the respective contacting areas that contain such inlay material with each other in confronting relation for such wiping engagement with the inserted member. The contact, moreover, may be die cut or stamped; however, the twist provided in each tine enables alignment of the respective smooth side surfaces of each in respectively confronting relation with each other, allocating the back of each tine, i.e. that portion not intended to engage such inserted member, for the burr side surface.
Accordingly, one aspect of the present invention relates to an electrical contact, including a pair of tines, each tine having a contact wiping area, inlay material in at least part of the wiping area of at least one of the tines, and holding means for holding the tines in generally parallel, coplanar relation.
Another aspect relates to a planar fork contact including a pair of tines for engaging a member inserted therebetween, and inlay material in at least one of the tines for directly engaging such inserted member.
An additional aspect relates to a die cut electrical contact, including plural tines, each having a smooth side and a burr side, the latter being created upon the die cutting of the contact, and holding means for holding the tines in generally fixed relative position with the smooth sides facing an area for connection with a member
inserted to engagement with the contact, and the burr sides facing away from such area.
A further aspect relates to an electrical fork contact, including plural tines, each having a contact area (contact area, contacting and a twist at substantially the area, and wiping area are used interchangeably herein) same respective portion to place the contact areas in opposed confronting relative position to engage a member inserted therebetween.
Still another aspect concerns a multiconductor cable termination, including a multiconductor electrical cable having a plurality of conductors and electrical insulation about the conductors maintaining the latter electrically insulated from each other, a plurality of electrical contacts, each including terminals connecting with at least one of the conductors directly through said electrical insulation to form an electrical junction, each of the electrical contacts being of the types mentioned in the several paragraphs of this summary, and a housing including a base for directly holding the contacts and the cable in relatively fixed position, the base means comprising a body integrally molded about at least a portion of each of the contacts and a portion of the cable, whereby tlie base, contacts and cable form an integral structure.
Still an additional aspect of the invention concerns the combination of one or more such electrical contacts with an electrical cable including at least one electrical conductor and electrical insulation about the conductor maintaining the latter electrically insulated, wherein the contact includes a terminal for connecting with a respective conductor directly through the electrical insulation to form an electrical junction, and a housing for holding the contact and cable in fixed relative position to form a secure cable termination assembly.
Still a further aspect relates to an improvement in an electrical contact having plural tines defining an area therebetween for receiving a member inserted therein, and each tine having a
contact area for engaging such member, such improvement being directed to inlay material in at least one of the tines at such contact area, and mounting means for mounting the tines at least substantially in a common plane.
With the foregoing in mind, a primary object of the present invention is to provide an electrical contact that is improved in the noted respects.
Another object is to provide a cable termination and/or cable termination assembly improved in the noted respects.
An additional, object is to enable use of inlay material in an electrical contact that is formed in a single plane.
A further object is to facilitate use of inlay material in an electrical contact.
Still another object is to minimize the cost of using specialized materials, e.g. gold, in electrical contacts.
Still an additional object is to provide reliable high conductivity for the contact wiping area of an electrical contact at relatively minimum cost, and preferably without requiring plating.
Still a further object is to minimize the amount of high conductivity material needed in an electrical contact, especially while assuring adequate amount of such material at the contact area.
Even another object is to reduce the effect of undesirable burrs and sharp edges in an electrical contact.
Even an additional object is to obtain a smooth surface at the contact wiping area or connection area or an electrical contact, especially of the planar type.
Even a further object is to improve the ability of an electrical contact to withstand deformation abuse.
Yet another object is to achieve the above objects particularly in a fork contact, and especially a fork contact.
Yet an additional object is to achieve the foregoing objects in a cable termination assembly or other electrical connector device.
These and other objects and advantages of the present
invention will become more apparent as the following description proceeds.
To the accomplishment of the foregoing and related ends, the invention, then, comprises tlie features hereinafter fully described in the specification and particularly pointed out in the claims, the following description and the annexed drawing setting forth in detail a certain illustrative embodiment of the invention, this being indicative, however, of but one of the various ways in which the principles of the invention may be employed.
BRIEF DESCRIPTION OF DRAWING
In the annexed drawing:
Fig. 1 is a plan view of a plurality of electrical contacts in accordance with the present invention;
Fig. 2 is an exploded isometric view of a cable termination assembly type of connector in accordance with the present invention using the contacts of Fig. 1;
Figs. 3 and 4 are section views of one contact of Fig. 1 looking generally in the direction of the respective section arrows identified by the same numbers; and
Fig. 5 is an isometric view of a single electrical contact in accordance with the present invention in the midst of being manufactured.
DESCRIPTION OF THE PREFERRED EMBODIMENT
Referring, now, in detail to the drawings, wherein like reference numerals designate like parts in the several figures, an electrical contact in accordance with the present invention is generally indicated at 1. In Fig. 1 there are three contacts 1 shown connected to a breakaway strip 2 formed during the manufacturing of the contacts and used to facilitate manipulating the contacts, for
example, just prior to incorporating the contacts in a connector, such as the cable termination assembly 3 shown in Fig. 2. In Figs. 3 and 4 are shown section views of the contact 1 of the invention, and in Fig. 5. the contact 1 is shown prior to finishing the manufacturing thereof.
Each of the contacts 1 that are illustrated in the drawings is a planar fork contact; the contacts are formed by die cutting or die stamping the same from a planar sheet of metal, such as nickel silver, so that the two tines 4, 5, the base 6, and the terminal legs 7, 8 are all in a common plane of the sheet material, such as is exhibited by the breakaway strip 2. The tines 4, 5 have respective straight leg portions 10, 11 and curved leg portions 12, 13, the latter portions being more remote from the base 6 than the former. A contacting or wiping area 14, 15 of each tine is intended to engage a member inserted into the space 16 between a respective pair of tines of a given fork contact 1. Usually the wiping areas 14, 15 wipe against a member inserted into the space 16, as the resilient force of the respective tines urges such areas into wiping engagement with such member. The wiping helps to clean the tines and the surfaces with which they are to connect to form a reliable electrical connection. Thus, the areas 14, 15 perform both a wiping function and a contacting function with respect to such member.
In the broadest sense of the invention the wiping areas 14, 15 and the portions of the tines 4, 5 at which they are formed should be coplanar to achieve the various advantages of planar fork contacts. However, in the preferred embodiment and best mode of tlie invention the tines 4, 5, base 6, and terminal legs 7, 8 all are coplanar.
To improve the electrical connection between a contact 1 and a member inserted into the space 16, at least one of the tines 12, 13, and preferably both of them, has inlay material 17, 18 at the wiping area 14, 15. The inlay material 17, 18 preferably is gold, palladium silver, or other material, as may be desired. Usually, though, such inlay material would have a higher electrical conductivity, i.e. be a better conductor and/or have a greater
resistance to impedance causing oxidation, than the material of which the remainder of the contact 1 is formed, such as the above-noted nickel silver. Since the inlay material 17, 18 is located generally only in the contacting area 14, 15 of each tine 4, 5, only a minimum amount of such relatively costly material is required for the contact 1. The thickness of such inlay material may be on the order of several, say about twenty, millionths of an inch to on the order of about fifty millionths of an inch in thickness; and preferably the inlay material is about thirty millionths of an inch thick.
Moreover, the inlay material 17, 18 may be applied in a conventional inlay applying technique to the sheet material of which the contact 1 is formed prior to the die cutting of the respective contacts 1 from such sheet material. For example, such inlay material in the form of a relatively thin strip of narrow width may be force fit into a shallow groove in the sheet material at the portion thereof that will become the contacting areas 14, 15 when the contact 1 is formed.
An example of a method for manufacturing the contacts 1 in accordance with the present invention is disclosed in commonly assigned, concurrently filed U.S. patent application- entitled "Method and Apparatus for Making Fork Contacts" and the entire disclosure of such application hereby is incorporated by reference. Briefly, referring here to Fig. 5, a manufacturing technique for the contact 1 may include, after having inlaid the inlay material in the sheet material, for example by a rolling process, and having die cut the contact shape to form the respective tines 4, 5, base 6, and terminal legs 7, 8, deforming the tines to bow the same generally in that portion thereof that will become the contacting areas 14, 15. It is noted, too, that during the die cutting operation weakening cut-outs 20, 21 are formed in the tines near the base ends 22, 23 thereof, and twisting flags or tabs 24, 25 are formed at the leading ends 26, 27 of tlie tines. Also, some of the metal of the terminal legs may be coined to provide sharpened edges 28, 29 of the terminal legs 7, 8 to
facilitate slicing into and through the insulation of a cable, such as that shown at 30 in Fig. 2.
During die cutting of the contact 1, that portion of the contact remote from the cutting blade portion of the die often has sharp burrs formed thereon, as is well known, and will be referred to herein as the burr side 31 of the contact. Tlie other side 32 of the contact 1 is usually quite smooth because it will have been rolled, for example, during application of the inlay material. The burr side, of course, preferably is on the side of the contact 1 remote from the inlay material to avoid loosening of the latter during the cutting or stamping process.
One of the final* steps involved in manufacturing the contact 1 involves twisting the tines by applying clockwise and counter-clockwise (relative to Fig. 5) twisting torques to the respective tabs 24, 25. Such twisting of the tines 4, 5, then, brings the respective wiping areas 14, 15 into directly opposed confrontation with each other with the curved leg portions 12, 13 of the tines being convex toward each other in substantially direct spaced-apart confrontation, as is seen in Figs. 1 and 2. It is the purpose of the weakening cut-outs 20, 21 to facilitate the mentioned twisting and substantially to confine the twist 33, 34 of each tine 4, 5 to the areas of such cut-outs and, thus, in the straight leg portions 10, 11 of the tines. By so confining, and, therefore, effectively controlling the twisting, equal lengths of the respective tines 4, 5 and good alignment of the contacting/ wiping areas 14, 15 is achieved, and the normal forces that each contact 1 would apply to a member inserted between the contact tines will be equal. The tabs 24, 25 may be cut off after twisting has been completed.
The finished contacts 1 are seen in Figs. 1-4. The space 16 between the convex wiping areas 14, 15 is relatively narrow so as to permit such wiping areas to engage securely a member, such as a pin contact, printed circuit board, or the like, inserted into such space. The space 35 between the straight leg portions 10, 11 of the contact 1 is relatively wider than the space 16 to accomodato a portion of such an inserted member.
Due to the relatively gradual slope or curvature of the curved
leg portions 12, 13 of the tines 4, 5, upon insertion of a member into the space 16 down toward the space 35, there will be a relatively smooth movement of such member and a corresponding relatively smooth resilient bending or elastic deformation of the respective tines, as the wiping areas 14, 15 will tend to part in response to force exerted by such member. The wide inlet 36 to the space 16 helps to guide such a member during the insertion procedure, while the relatively narrow width of the space 16 assures wiping engagement of the contacting areas 14, 15 with such member during such insertion.
The weakest portion of planar fork contacts usually is at the junctures of the tines 4, 5 and the base 6. The nature of the contact 1 provides for effectively strengthening the contact, and particularly such junctures. This is accomplished using the straight 10, 11 and curved 12, 13 leg portions in conjunction with respective support walls of a housing or the like in which the contact 1 is used to form a connector. Specifically, such support walls are shown schematically at 40 in Fig. 1. The walls 40 are stepped, having a relatively thick support portion 42 intended directly to support the respective straight leg portions 10, 11, after they have undergone a predetermined amount of resilient deformation by a member inserted into the space 16. The relative spacing of the tines 4, 5 with respect to the support portions 42 is such that the latter will prevent over-stressing of such straight leg portions and the noted junctures in the event that an over-size member is inserted into the space 16 or such a member is inserted in an askew manner. There is a recessed or concave wall portion 44 of each wall 40, as well, which permits further resilient deflection of the curved leg portions 12, 13 of the tines 4, 5 even after the straight leg portions or the junctions thereof with the respective curved leg portions have bottomed against the wall 42. Such curved leg portions are capable of such added deflection due to tlie nature of their curvature.
Preventing such over-stressing also may be accomplished by using curved leg portions 12, 13 that have their leading ends 26, 27 terminating closer to the center-line of the contact 1, i.e. a line drawn between and parallel to the straight leg portions 10, 11 of tlie tines through the space 16,
than a line parallel to the outside surfaces 44, 45 of the straight leg portions. In such embodiment the support walls 40 may be straight while still providing the described support function because the junctions of the straight and curved leg portions would abut, and, therefore, be supported by, the walls 40 before the straight leg portions would be over-stressed, while still permitting subsequent resilient deflection of the curved leg portions until the leading ends thereof abut such walls.
Turning, now, briefly to Fig. 2, the cable termination assembly 3 there illustrated is a representative connector in which the contact 1 of the invention may be employed. Such cable termination assembly includes the cable 30; the contacts 1, the terminal legs 7, 8 of which pierce through the cable insulation 50 to engage respective conductors 51, which enter the slots 52 between respective legs 7, 8; a body 53 of electrically nonconductive material molded about parts of the contacts 1 and cable 30 forming an integral structure therewith; and a cover 54. A similar cable termination assembly is disclosed in the above-mentioned U.S. patent No. 4,030,799. The body 53 preferably is molded to enclose fully the junction of respective conductors 51 and terminal legs 7, 8 to maintain the same in an air-free environment, thus minimizing the possibility of oxidation or electrolytic action at such junctions. Accordingly, the combination of such excellent electrical connection between the contacts 1 and conductor 51 and of the wiping areas 14, 15 via the inlays 17, 18 with members inserted to engagement therewith provides a highly effective and reliable coupling ultimately between such conductors and members.
The cover 54 is like the one in the noted patent. It fits on the body 53 at the step 55 and may be ultrasonically welded in place. The front wall 56 of the cover has openings 57 for guiding pins or like members to engage respective contacts. Compartments partly shown in Fig. 1 at 58 in the cover 54 provide some measure of isolation of respective contacts while the walls of such compartments provide the support walls 40 described above.
It will be appreciated that the contacts and electrical connector of the invention may be used to connect respective conductors to provide an electrically conductive path for respective electrical signals.
Claims
1. An electrical contact, comprising a pair of tines, each tine having a contact wiping area, inlay material in at least part of the wiping area of at least one of said tines, and holding means for holding said tines in generally parallel, coplanar relation.
2. The contact of claim 1, each tine having a straight leg portion and a curved leg portion, said contact wiping area including at least part of said curved leg portion.
3. The contact of claim 2, said curved leg portions being convex toward each other in substantially direct spaced-apart confrontation.
4. The contact of claim 1, said inlay material being positioned substantially only in said contact wiping area.
5. The contact of claim 1, said holding means comprising a contact base integral with said tines, and further comprising means coupled to said contact base for electrically connecting said contact to a further conductor.
6. The contact of claim 1, further comprising a twist at the same respective portion of each of said tines to place said contact wiping areas in opposed confronting relative position along the length of said tines to engage a member inserted therebetween.
7. The contact of claim 6, each tine having a straight leg portion and a curved leg portion, said contact wiping area including at least part of said curved leg portion, and said curved leg portions being convex toward each other in substantially direct spaced-apart confrontation.
8. The contact of claim 6, each tine having a straight leg portion and a weakening means therein for facilitating twisting thereat to form said twist and at least substantially confining such twist thereat.
9. The contact of claim 1, wherein the contact is formed by die cutting the same, and wherein each of said tines having a smooth
side and a burr side, the latter being created upon such die cutting, and said holding means comprising means for holding said tines in generally fixed relative position with said smooth sides facing an area for connection with a member inserted to engagement with the contact and said burr sides facing away away from such area while permitting resilient deformation of said tines upon insertion of such member therebetween.
10. A planar fork contact comprising a pair of tine means for engaging a member inserted therebetween, and inlay means in at least one of said tine means for directly engaging such inserted member.
11. The contact of claim 10, each tine means having a straight leg portion and a curved leg portion, and further comprising a contact wiping area including at least part of said curved leg portion.
12. The contact of claim II, said curved leg portions being convex toward each other in substantially direct spaced-apart confrontation.
13. The contact of claim 10, said tine means including a contact wiping area, and said inlay material being positioned substantially only in said contact wiping area.
14. The contact of claim 10, said holding means comprising a contact base integral with said tines, and further comprising means coupled to said contact base for electrically connecting said contact to a further conductor.
15. The contact of claim 10, said tine means including a contact wiping further comnprising a twist at the portion, and further comprising a twist at the same respective portion of each of said tine means to place said contact wiping areas in opposed confronting relative position along the length of said tine means to engage a member inserted therebetween.
16. The contact of claim 15, each tine means having a straight leg portion and a curved leg portion, said contact wiping
area including at least part of said curved leg portion, and said curved leg portions being convex toward each other in substantially direct spaced-apart confrontation.
17. The contact of claim 15, each tine means having a straight leg portion and a weakening means therein for facilitating twisting thereat to form said twist and at least substantially confining such twist thereat.
18. The contact of claim 10, wherein the contact is formed by die cutting the same, and wherein each of said tine means has a smooth side and a burr side, the latter being created upon such die cutting, and said holding means comprising means for holding said tine means in generally fixed relative position with said smooth sides facing an area for connection with a member inserted to engagement with the contact and said burr sides facing away away from such area while permitting resilient deformation of said tine means upon insertion of such member therebetween.
19. A die cut electrical contact, comprising plural tines, each having a smooth side and a burr side, the latter being created upon the die cutting of the contact, and holding means for holding said tines in generally fixed relative position with said smooth sides facing an area for connection with a member Inserted to engagement with the contact, and said burr sides facing away from such area.
20. The contact of claim 19, each tine comprising a contact wiping area, and each tine having a straight leg portion and a curved leg portion, and said contact wiping area Including at least part of said curved leg portion.
21. The contact of claim 20, said curved leg portions being convex toward each other in substantially direct spaced-apart confrontation.
22. The contact of claims 20 or 21, wherein each tine includes a twist at substantially the same respective portion to place said contact wiping areas in opposed confronting relative position to engage a member inserted therebetween, and wherein each twist is
between said holding means and said curved leg portion.
23. The contact of claim 22, further comprising a weakening means in each such straigut leg portion for facilitating the formation of and at least substantially confining said twist thereat.
24. The contact of claim 19, further comprising a twist in each tine at substantially the same respective portion, and a weakening cut-out in each tine to facilitate forming such twist and at least substantially to confine such twist thereat.
25. The contact of claim 19, further comprising inlay material in at least part of a contact wiping area of each tine.
26. The contact of claim 25, said inlay material being positioned substantially only in said contact wiping area.
27. The contact of claim 19, said holding means comprising a contact base integral with said tines, and further comprising means coupled to said contact base for electrically connecting said contact to a further conductor.
28. The contact of claim 19, wherein said plural tines are substantially parallel to each other and are at least substantially companar with said holding means.
29. An electrical fork contact, comprising plural tines, each having a contact area and a twist at substantially the same respective portion to place said contact areas in opposed confronting relative position to engage a member inserted therebetween.
30. The contact of claim 29, further comprising a twist in each tine at substantially the same respective portion, and a weakening cut-out in each tine to facilitate forming such twist and at least substantially to confine such twist thereat.
31. The contact of claim 29, said contact area comprising a contact wiping area, and each tine having a straight leg portion and a curved leg portion, said contact wiping area including at least part of said curved leg portion.
32. The contact of claim 31, said curved leg portions being convex toward each other in substantially direct spaced-apart
confrontation.
33. The contact of claims 31 or 32, wherein each tine includes a twist at substantially the same respective portion to place said contact wiping areas in opposed confronting relative position to engage a member inserted therebetween, and wherein each twist is between said holding means and said curved leg portion.
34. The contact of claim 33, further comprising a weakening means in each such straigut leg portion for facilitating the formation of and at least substantially confining said twist thereat.
35. The contact of claim 29, further comprising inlay material in at least part of a contact wiping area of each tine.
36. The contact of claim 35, said inlay material being positioned substantially only in said contact wiping area.
37. The contact of claim 29, further comprising holding means for holding said tines in generally parallel, coplanar relation.
38. The contact of claim 37, said holding means comprising a contact base integral with said tines, and further comprising means eoupled to said contact base for electrically connecting said contact to a further conductor.
39. The contact of claim 37, wherein said tines and holding means are at least substantially coplanar.
40. A multiconductor cable termination, comprising a multiconductor electrical cable including a plurality of conductors and electrical insulation about said conductors maintaining the latter electrically insulated from each other, a plurality of electrical contacts, each including terminal means connecting at least one of said conductors directly through said electrical insulation to form an electrical junction, each of said electrical contacts comprising the contacts of any of claims 1, 10, 19, or 29, and a housing including base means for directly holding said contacts and said cable in relatively fixed position, said base means comprising a body integrally molded about at least a portion of each of said contacts and a portion of said cable, whereby said base means, said contacts and said cable
form an integral structure.
41. The termination of claim 40, wherein each tine has a straight leg portionand a curved leg portion, said leg portions meeting at a junction, and said curved leg portion including a contact wiping area to wipe against a member inserted between a respective pair of tines, said housing comprising a wall means behind each tine for supporting at least a portion of a respective tine at said junction when said tine has encountered at least a predetermined minimum amount of resilient deformation while still permitting said curved leg portion to undergo further resilient deformation.
42. The termination of claim 41, said wall means comprising a stepped wall having a relatively recessed area behind said curved leg portion to permit such further resilient deformation.
43. The invention of claims 1, 10, 19, or 29, further comprising in combination therewith an electrical cable including at least one electrical conductor and electrical insulation about said conductor maintaining the latter electrically insulated, wherein said contact includes terminal means for connecting with said at least one conductor directly through said electrical insulation to form an electrical junction, and housing means for holding said contact and cable in fixed relative position to form a secure cable termination assembly.
44. The invention of claim 43, wherein said cable comprises a multiconductor electrical cable, ond said contact comprises a plurality of the same for electrically connecting with respective conductors of said cable.
45. The invention of claim 44, said housing comprises a body integrally molded about at least a portion of each of said contacts and a portion of said cable, whereby said body, contacts and cable form an integral structure, and said housing further comprising a cover for enclosing at least a substantial portion of said tines and to guide respective members to engagement therewith.
46. The invention of claim 43, wherein each tine has a
straight leg portionand a curved leg portion, said leg portions meeting at a junction, and said curved leg portion including a contact wiping area to wipe against a member inserted between a respective pair of tines, said housing comprising a wall means behind each tine for supporting at least a portion of a respective tine at said junction when said tine has encountered at least a predetermined minimum amount of resilient deformation while still permitting said curved leg portion to undergo further resilient deformation.
47. The invention of claim 46, said wall means comprising a stepped wall having a relatively recessed area behind said curved leg portion to permit such further resilient deformation.
48. In an electrical contact having plural tines defining an area therebetween for receiving a member inserted therein, and each tine having a contact area for engaging such member, the improvement comprising: inlay material in at least one of said tines at such contact area, and mounting means for mounting said tines at least substantially in a common plane.
49. The improvement of claim 48, wherein each tine has a straight leg portion and a curved leg portion, said contact area including at least part of said curved leg portion.
50. The improvement of claim 49, said curved leg portions being convex toward each other in substantially direct spaced-apart confrontation.
51. The improvement of claim 48, said inlay material being positioned substantially only in said contact area.
52. The improvement of claim 48, further comprising a twist at the same respective portion of each of said tines to place said contact wiping areas in opposed confronting relative position along the length of said tines to engage a member inserted therebetween.
53. The improvement of claim 52, wherein each tine has a straight leg portion and a weakening means therein for facilitating
twisting thereat to form said twist and at least substantially confining such twist thereat.
54. The improvement of claim 48, wherein the contact comprises a die cut electrical contact, including plural tines, each having a smooth side and a burr side, the latter being created upon the die cutting of the contact, and holding means for holding said tines in generally fixed relative position with said smooth sides facing an area for connection with a member inserted to engagement with the contact, and said burr sides facing away from such area.
55. The invention of claims 1, 10, 25, 35, or 48, wherein said inlay material comprises material having a thickness on the order of from about 20 millionths of an inch to about 50 millionths of an inch.
56. The Invention of claim 55, said inlay material comprising gold.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
AU10106/83A AU1010683A (en) | 1981-10-08 | 1982-10-04 | Planar fork contact with gold inlay material |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US30956781A | 1981-10-08 | 1981-10-08 | |
US309,567811008 | 1981-10-08 |
Publications (1)
Publication Number | Publication Date |
---|---|
WO1983001346A1 true WO1983001346A1 (en) | 1983-04-14 |
Family
ID=23198741
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
PCT/US1982/001426 WO1983001346A1 (en) | 1981-10-08 | 1982-10-04 | Planar fork contact with gold inlay material |
Country Status (3)
Country | Link |
---|---|
EP (1) | EP0090849A1 (en) |
CA (1) | CA1197913A (en) |
WO (1) | WO1983001346A1 (en) |
Cited By (3)
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EP0144128A2 (en) * | 1983-11-08 | 1985-06-12 | Amp Incorporated | Connector having flat stamped contact terminals |
EP0806814A2 (en) * | 1996-05-10 | 1997-11-12 | Molex Incorporated | Electrical connector having terminals with improved retention means |
DE102016125058A1 (en) * | 2016-12-21 | 2018-06-21 | Lisa Dräxlmaier GmbH | ELECTRICAL CONTACT ELEMENT AND INTERFACE WITH IMPROVED TRANSITION RESISTANCE AND MANUFACTURING METHOD |
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- 1982-10-04 EP EP82903411A patent/EP0090849A1/en not_active Withdrawn
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DE102016125058A1 (en) * | 2016-12-21 | 2018-06-21 | Lisa Dräxlmaier GmbH | ELECTRICAL CONTACT ELEMENT AND INTERFACE WITH IMPROVED TRANSITION RESISTANCE AND MANUFACTURING METHOD |
DE102016125058B4 (en) * | 2016-12-21 | 2018-11-15 | Lisa Dräxlmaier GmbH | ELECTRICAL CONTACT ELEMENT AND INTERFACE WITH IMPROVED TRANSITION RESISTANCE AND MANUFACTURING METHOD |
Also Published As
Publication number | Publication date |
---|---|
CA1197913A (en) | 1985-12-10 |
EP0090849A1 (en) | 1983-10-12 |
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Legal Events
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AK | Designated states |
Designated state(s): AU JP |
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AL | Designated countries for regional patents |
Designated state(s): AT BE CH DE FR GB LU NL SE |