Classifications

• • H—ELECTRICITY
  • H01—ELECTRIC ELEMENTS
  • H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
  • H01R9/00—Structural associations of a plurality of mutually-insulated electrical connecting elements, e.g. terminal strips or terminal blocks; Terminals or binding posts mounted upon a base or in a case; Bases therefor
  • H01R9/03—Connectors arranged to contact a plurality of the conductors of a multiconductor cable, e.g. tapping connections
  • H01R9/05—Connectors arranged to contact a plurality of the conductors of a multiconductor cable, e.g. tapping connections for coaxial cables
  • H01R9/053—Connectors arranged to contact a plurality of the conductors of a multiconductor cable, e.g. tapping connections for coaxial cables using contact members penetrating insulation
• • H—ELECTRICITY
  • H01—ELECTRIC ELEMENTS
  • H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
  • H01R4/00—Electrically-conductive connections between two or more conductive members in direct contact, i.e. touching one another; Means for effecting or maintaining such contact; Electrically-conductive connections having two or more spaced connecting locations for conductors and using contact members penetrating insulation
  • H01R4/28—Clamped connections, spring connections
  • H01R4/50—Clamped connections, spring connections utilising a cam, wedge, cone or ball also combined with a screw
  • H01R4/5033—Clamped connections, spring connections utilising a cam, wedge, cone or ball also combined with a screw using wedge or pin penetrating into the end of a wire in axial direction of the wire
• • 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
  • H01R43/01—Apparatus or processes specially adapted for manufacturing, assembling, maintaining, or repairing of line connectors or current collectors or for joining electric conductors for connecting unstripped conductors to contact members having insulation cutting edges

Definitions

• the present invention relates to electrical connectors.
• the subject invention pertains to an electrical connector for coupling to an insulated electrical coaxial cable or single conductor cable.
• the end of the wire is stripped of insulation and the bare wire is inserted into a connector where it can be soldered or clamped or otherwise attached to the connector.
• U.S. Patent No. 5,403,201 discloses electrical connectors of the type including a center pin.
• the center pms shown m the U.S. Patent No. 5,403,201 are of solid conductive mate ⁇ al and engage the center wire of an electrical conductor by piercing the wire if it is multi-strand or engaging it on the side if it is single strand.
• the electrical connection can be quite good but necessarily only as good as the area of contact between the center pm of the electrical connector and the single strand wire of the electrical conductor and the pressure of engagement at the area of contact.
• the subject invention pertains to an electrical connector and a method of coupling an electrical connector to an insulated electrical conductor.
• An electrical connector in accordance with the invention can comprise a housmg and an electrically conductive center pm or prong mounted thereto for engaging the center wire of an insulated electrical conductor.
• the attachment of the center pin or prong to the housing is such that the center pm is electrically insulated from the housmg.
• the housing can incorporate a center bore with the conductive center pin mounted therein such that an end of an insulated electrical conductor can be inserted into the bore. This center bore can, m certain embodiments, help to guide an insulated elect ⁇ cal conductor into engagement with the center pm.
• the center pin is mounted in the housmg such as to protrude toward the open end of the center bore.
• the center pin can be of solid design or can have one or more hollow portions.
• the center pm is hollow and open at its exposed end for engaging the center wire of an insulated elect ⁇ cal conductor.
• the hollow portion of the center pin also incorporates one or more longitudinal slits extending along its side wall. These slits can allow for expansion of the end of the hollow portion of the center pm upon receipt of an electrical conductor which, for example, may be larger in outer diameter than the inner diameter of the hollow end of the center pm.
• the edge of the receiving end of the hollow portion of the center pm can be beveled and/or sharpened to enhance the ability of the hollow portion of the center pm to squeeze between the center conductor of the insulated elect ⁇ cal conductor and the adjacent insulation layer.
• the subject electrical connector can also be utilized with coaxial cable or other insulated elect ⁇ cal conductors which incorporate a center conductor and an outer electrical conductor concent ⁇ c with such that the outer electrical conductor is separated from the center conductor by a layer of insulation.
• a center pin makes elect ⁇ cal contact with the center conductor of the coaxial cable and the housing is provided with a means for making elect ⁇ cal contact with the outer electrical conductor.
• one or more clamping members can be incorporated in the subject elect ⁇ cal connector which can penetrate the outer layer of insulation and make elect ⁇ cal contact with the outer electrical conductor.
• the center pm or prong can be substituted for by st ⁇ pping the insulated elect ⁇ cal conductor such that the center conductor protrudes from an otherwise flush end of the insulated elect ⁇ cal conductor and projects into the connector housing m the place of the center pm.
• Figure 1 is an exploded view of an elect ⁇ cal connector and a portion of a coaxial cable m accordance with the present invention.
• Figure 2 is an exploded view of the electrical connector of Figure 1 but looking in the opposite direction and having the coaxial cable inserted mto the housing cap which has been sectioned for clarity.
• Figure 3 is a sectional exploded view of the elect ⁇ cal connector of Figures 1 and 2.
• Figure 4 is a sectional view of the elect ⁇ cal connector of Figure 3 having a coaxial cable end attached thereto
• Figure 5 is a perspective view of another embodiment of a coaxial cable connector in accordance with the present invention.
• Figure 6 is an unexploded sectional view of the connection of Figure 5.
• Figure 7 is a sectional view of the embodiment of Figures 5 and 6 having the cable attached thereto.
• Figure 8A illustrates a side view of a conductive pm in accordance with the subject invention, incorporating a hollow portion having a single slit.
• Figure 8B shows an end cross-sectional view of the hollow portion of the p shown in Figure 8A.
• Figure 9A illustrates a side view of a conductive pm in accordance with the subject invention, incorporating a hollow portion having two slits.
• Figure 9B shows an end cross-sectional view of the hollow portion of the pin shown in Figure 9A.
• Figure 10 illustrates a cross-sectional view of an elect ⁇ cal connector m accordance with the subject invention.
• Figure 11 is a perspective view of an elect ⁇ cal connector in accordance with the present invention.
• Figure 12 is a rear perspective view of the electrical connector of Figure 11.
• Figure 13 is a side sectional view of the electrical connector of Figures 11 and 12 having an electrical conductor being inserted thereinto.
• Figure 14 is a sectional view of the elect ⁇ cal connector of Figure 13 having an elect ⁇ cal conductor attached thereto.
• Figure 15 is a sectional view taken through a second embodiment of an electrical connector of the present invention having an electrical conductor inserted into the connector bore.
• Figure 16 is a sectional view of the elect ⁇ cal connector of Figure 15 having an elect ⁇ cal conductor attached thereto.
• Figure 17 is a sectional view taken through a third embodiment of an electrical connector of the present invention having an elect ⁇ cal conductor inserted mto the connector bore.
• Figure 18 is a sectional view taken through an embodiment of an electrical connector of the present invention having an aperture m the insulated base through which a protruding inner conductor of a coaxial cable can pass
• Figure 19 is a sectional view of the elect ⁇ cal connector of Figure 18 having an elect ⁇ cal conductor attached thereto.
• Figure 20 shows an end view of an elect ⁇ cal connector m accordance with the subject invention having eight clamping arms which have been manipulated mto the clamped position.
• Figure 21 shows a specific embodiment of an individual clamping arm broken away from the housing.
• an elect ⁇ cal connector 10 accordance with the subject invention, especially adapted for use with a coaxial cable 11, is illustrated.
• the coaxial cable 11 has a center conductor 12, a surrounding concent ⁇ c insulation 13, a concentric conductive wire braid or sheath 14 surrounding the insulation 13; and an outer insulation 15 cove ⁇ ng the conductive sheath 14.
• Connector 10 can be adapted to connect a va ⁇ ety of types and sizes of coaxial cables to a vanety of plugs, jacks, and connectors, all referred to herein as electrical connectors.
• Illustrated m Figures 1-4 for purposes of desc ⁇ bmg a specific embodiment of the subject invention is the male part of a 75 ohm coaxial F-connector. Connection of the coaxial cable 11 to connector 10 can be accomplished without solder and without the need to strip the insulation cover 15 from the cable.
• Connector 10 as illustrated in Figures 1-4 includes a connector housing 16 having a cylmd ⁇ cal cable attaching portion 17 which external threads 18 defining a first chamber 20 and a cylindrical housing portion 25 with internal threads 26 defining a second chamber 24.
• An electncally conductive pm 19 is mounted to an insulation base 22 within the housing 25 with the base 22 abutting and being secured to a wall portion 25A.
• the conductive pin 19 has a tapered prong 21 extending axially into the bore defining the first chamber 20 and also has a cylmd ⁇ cal prong 23 extending axially mto the bore defining the second chamber 24.
• Electrically conductive arms 27 extend axially from the cable attaching portion 17 of the housing 16. Each arm has pointed contacts 28 which are also electncally conductive.
• a locking cover 30 is a generally cyhnd ⁇ cal conductive member having internal threads 31 adapted to engage the external threads 18 of the connector body portion 17.
• the cap 30 has a central bore to receive the coaxial cable and an annular, frustoconically angled wedging portion 32 formed therein.
• Figure 3 also shows a cup-shaped insulation cove ⁇ ng 29 received withm the connector housing 16 which provides extra secu ⁇ ty against contact of the conductive sheath 14 with the connector body 16 metal portions in the event a stray strand of wire from conductive sheath 14 should extend from the cable 11.
• the tip of the coaxial cable 11 does not have any of the insulation stripped from the conductors 12 or 14 as is normally required to connect a coaxial cable to a connector
• the undisturbed end of the coaxial cable 11 is slidably inserted between the clamping members 27 and into the bore 20. Sufficient force is provided to push the cable 11 onto the prong 21 and into elect ⁇ cal contact with the center conductor 12.
• the electrical conductive contact with the coupling stem portion 19 provides elect ⁇ cal continuity to the probe 23.
• the connector 10 can then be attached to an electrical apparatus, such as a television set or the like, or to another coaxial cable.
• the ends of the arms 27 may be clamped to drive the pointed contacts 28 through the outer insulation 15 into the conductive sheath 14. This may be accomplished manually, by hand or with pliers, in clamping the ends of the arms 27 to force the pointed contacts 28 through the outer insulation 15 of the coaxial cable 11 into the concent ⁇ c conductive sheath 14 to make an electrical contact therewith.
• the ends of the arms 27 may be clamped by installing the housing cap 30 onto the threads 18 of the housing portion 17 so that wedging portion 32 drives against the ends of the clamps to drive the pointed contacts 28 through the outer insulation 15 and into the conductive sheath 14. If done manually, the next step is to maintain the cable and the arms 27 m contact by, for example, threading the cap into place or utilizing the heat sh ⁇ nk embodiment, as shown in Figures 5, 6, and 7.
• an elect ⁇ cal connector 35 has an electrically conducting connector body 36.
• the connector 35 has a coaxial cable 11 attached to one end thereof.
• the other end of the connector 35 has internal threads 37 with a center conductor 39 having a cylindrical conductor portion 38.
• a heat sh ⁇ nkable insulating sleeve 40 is attached to the conductive connector housing portion 41.
• a pointed prong 43 on the stem 39 is disposed m a chamber 42.
• the pointed prong 43 is provided for insertion into electrical contact with the center conductor 12 of a coaxial cable 11.
• a plurality of clamping arms 44 are connected to the conductive housing 41 and each arm 44 has a pointed prong 45 extending radially mward from the end thereof.
• Coaxial cable 11 has elect ⁇ cal insulation 13 around the center conductor 12 which is covered by the concent ⁇ c conductive sheath 14 which in turn is wrapped m insulation cover 15.
• the coaxial cable 11 end is inserted into an opening 46 in the insulation 40 between the clamping arms 44 and prongs 45.
• the prong 43 is driven into or continuously adjacent the center conductor 12 thereby making electrical contact therewith.
• the center conductor 12 on coaxial cable is sometimes a single conductor wire and sometimes is formed of multiple strands so that the prong 43 will sometimes be d ⁇ ven mto the multiple strand wire and at other times be directed adjacent to the single wire conductor 12.
• the heat sh ⁇ nkable insulation 40 is heated which causes it to shrink tightly onto the housmg 41 on onto the cable 11 and the arms 44.
• This sh ⁇ nkage can push the pointed prongs 45 of arms 44 through the outer cover 15 and mto elect ⁇ cal contact with the conductor member 14.
• the insulation 40 can be pressed by the assembler onto the clamp members 44 to set the prongs 45 through the insulation 15 and into the conductor 14.
• the insulating sleeve 40 thus holds the connector 35 to the cable 11 while forming an insulation for the tip of the cable
• the arms 44 also lock into the cover 15 to hold the cable in place with the conductive prong 43 making contact with the conductor 12 of the cable 11. This provides the center conductor 38 with a contact with the cable 11.
• FIG. 8 A, 8B, 9 A, and 9B specific embodiments of a pm which can be utilized with respect to the elect ⁇ cal connectors of the subject invention is shown.
• either pm shown in Figures 8A and 9A, or variations thereof, can be incorporated with the elect ⁇ cal connectors shown in Figures 1-4 and Figures 5-7
• Both Figures 8 A and 9 A show side views of pins having a hollow portion on one end for receiving an elect ⁇ cal conductor and a solid portion for connecting with and an external apparatus on the other end.
• Other pin embodiments are possible which, for example, have a solid portion at each end of the pm (as m Figures 1-4) or have a hollow portion at each end of the pm
• the entire pin can be hollow if desired.
• the hollow portion of each pin can have one or more slits.
• the number, lengths, and widths, of the slits can vary depending on the application.
• Figure 8A. shows a slit which extends about half the length of the hollow portion of the pm
• Figure 9A shows two slits which extend essentially the entire length of the hollow portion of the pm
• Figures 8B and 9B show end views of the hollow portions of the pins shown in Figures 8 A and
• FIG 10 shows an elect ⁇ cal connector in accordance with the subject invention.
• This connector incorporates a pm 120 which has a hollow portion at each end for engaging a center conductor 124 of a coaxial cable 123.
• pm 120 can be designed, as in Figures 15 and 16, to accept a center conductor of an insulated wire.
• one or both ends of pin 120 could be a solid pm as shown in Figures 1-4, depending on the application.
• Pm 120 is attached to housmg 111 via base 121 which electrically isolates pm 120 from housing 111.
• base 121 extends to the edge of the bore where clamping arms 113 protrude from housing 111.
• Narrowing the axial length of base 121 m this embodiment can allow a shorter length from the tips 133 of clamping arm 113 to the center of housing 111, such that propagation losses can be reduced.
• the reduction in propagation losses can potentially enable the use of the connector for higher frequency signals.
• Pm 120 is shown as a solid pm through the region of base 121, but could be hollow through a portion of, or all of, this region.
• the width of base 121 can be reduced to optimize the performance of the connector.
• the width of housing 111 can also be reduced accordingly.
• a cover or cap can be used to, for example, protect the elect ⁇ cal connections made and/or help maintain clamping arms 113 in position once they have penetrated insulation layer 129 to make elect ⁇ cal contact with conductor 127.
• cap 190 is shown as a snap-on cap. Lip 191 of cap 190 is designed to settle mto indentation
• cap 190 on housmg 111.
• Other designs for cap 190 can be utilized depending on the application. If desired, o- ⁇ ngs, or other equivalent means, can be incorporated with the use of cap 190 to protect the connection from moisture and other environmental conditions and/or to enhance the performance of the cap.
• the connector shown in Figure 10 can be utilized without cap 190.
• the arrangement of Figure 10 may be provided with a sleeve 193 which fits over the arms 113A after they have been clamped into place in the cable 123 A in order to secure the arms to the cable 123A.
• Sleeve 193 can be made, for example, of metal, or other approp ⁇ ate mate ⁇ als.
• the cap 190A can be just like the cap 190 or it can be a sleeve or a cap of heat sh ⁇ nk material, that would for example, seal the connection between the cable and the connector.
• the cap 190A could be of molded plastic which would secure the arms to the cable 123A in which case the use of the ⁇ ng 193 might not be necessary.
• rubber molded cove ⁇ ngs can be utilized with the subject connector to cover and hold clamping arms 113 m place.
• Elect ⁇ cal connector 110 has a housing 111.
• housing 111 can have a bore 112 extending thereinto.
• An insulated elect ⁇ cal conductor can be guided mto bore 112 to assist m aligning pm or prong 120 with the center conductor of the insulated elect ⁇ cal conductor
• One or more clamping arms 113 can extend from end 114 of housing 111.
• Clamping arms 113 can be pressed mto the outer insulation layer 129 of an insulated electrical conductor 123, the center conductor of which is in contact with center pm 120, to make elect ⁇ cal contact with a second elect ⁇ cal conductor 127 of conductor 123.
• a cover and/or means for holding clamping arms 113 in place can be incorporated with the subject connector.
• external threads 115 can be located on housing 111 to receive a threaded cap. Other types of caps and cap attachment mechanisms are also possible.
• Insulated base 116 can attach center prong 120 to the housing such that the center pm is electrically insulated from housing 111.
• a variety of designs can be used to enable the connection of connector 110 to other apparatus.
• a symmetric design can be utilized to connect to a second insulated electrical conductor identical to conductor 123 to form a coupler.
• a second pm 122 can extend from the housing and be in electrical contact with pm 120 such that pm 122 is in electrical contact with center conductor 124.
• Other means for allowing an external apparatus to make elect ⁇ cal contact with center conductor 124 can also be used.
• pm 122 allows elect ⁇ cal contact with center conductor 124 while housing 111 allows electrical contact with second conductor 127.
• housing 111 can have a second bore 117, which can extend from the opposite side of the base 116. Second bore 117 can have internal threads 118 for attaching the connector to an externally threaded member.
• Center pm or prong 120 can extend axially from housing 111 and, as shown m the embodiment shown in Figures 11-14, can extend past the end of bore 112. Alternatively, the end of prong 120 can be within bore 112.
• Prong 122 can be attached to base 121, insulating prong 122 from the outer conductive portion of housmg 111.
• Prongs 120 and 122 can be one continuously conductive prong, as illustrated in Figures 13 and 14. According electrical contact can be made between the center conductor contacted by prong 120 and a electrical conductor contacting prong 122.
• Attaching prong 122 may be a solid member, as illustrated, or can be a hollow prong similar to prong 120.
• Conductive prong 120 is shown in Figure 13 just prior to engaging with insulated elect ⁇ cal conductor 123 having a conductor 124 surrounded by a concent ⁇ c insulating layer 125, concent ⁇ c conductor 127, and outer concent ⁇ c insulation layer 129, such that a hollow portion of prong 120 will surround and makes electrical contact with center conductor 124 as end 126 of conductor 123 is inserted into bore 112.
• Prong 120 has a hollow portion beginning at prong end 128 and extending at least as far as conductor 123 may be inserted
• the hollow portion of prong 120 can have one or more slits extending from end 128 of prong 120 as far up as desired.
• prong 120 has two prong segments 131 with sharpened edges and can expand to accommodate different sizes of electrical conductors 124 located inside the insulation.
• the edge 128 of end 126, namely the end edges of prong segments 131, can be sharpened and/or beveled in either direction, to enhance the ease of insertion between center conductor 124 and insulation layer 125.
• At least one, and preferably all arms 113 have an insulation engaging tip 133.
• This tip can be angled and/or have a sharpened edge, as shown Figures 11-14, for penetrating and clamping onto the insulated wire 123.
• clamping arms 113 can be pushed toward insulated conductor 123 such that tips 133 enter insulation layer 129 of the wire 123, to make electrical contact with conductor 127. This can be done, for example, manually with a person's fingers, with a pair of pliers, or with a special tool for driving tips 133 mto the insulation.
• the driving tips of the clamping arms can take on a variety of shapes to optimize elect ⁇ cal contact with conductor 127 and the ability to withstand pulling forces on conductor
• pointed end 133 of clamping arm 113 can have a va ⁇ ety of shapes, in order to optimize one or more operational charactenstics of the subject electrical connector.
• pointed end 133 is shaped such that as the clamping arms are manipulated to cause the piercing of the outer insulation, the sides 134 of the clamping arms come m contact with the adjacent clamping arms such that contiguous encasement with adjacent clamping arms act to prevent further penetration of the pointed end 133.
• Figure 20 shows an end view of an embodiment having eight clamping arms, as shown in Figure 21, which have been clamped into place.
• Dashed line 200 represents the position of surface 201 of the clamping arms.
• the clamping arms 113 are designed such that surface 201 contacts the surface of the outer insulation of the coaxial cable when the clamping arms are clamped in place.
• surface 201 is curved to match and engage the circumference of the outer insulation of the coaxial cable. In this way, the clamping arms 113 contact the outer insulated conductor of the coaxial cable over almost its entire circumferential surface. This large surface area of contact can help to hold the coaxial cable in place.
• knurling or other alterations to the surface texture of surface 201 can be made to increase the f ⁇ ctional forces between surface 201 and the coaxial cable.
• the distance past surface 201 which pointed end 133 protrudes, and therefore will penetrate into the coaxial cable, can be selected such as to optimize one or more performance characteristics of the subject connector.
• the amount of protrusion of end 133 can be adjusted such that end 133 contacts but does not penetrate the conductive sheath, just barely penetrates through the conductive sheath, or penetrates through the conductive sheath and into the inner insulation of the coaxial cable.
• the curve of the end 133 can also be selected to optimize the performance of the connector.
• the curve of end 133 is selected such that the eight ends form a circular pattern of deepest penetration into the conductive sheath of the coaxial cable. This circular pattern can help to reduce reductions in the quality of the electrical signal caused by the electrical connector.
• the dotted circle in the center of Figure 20 represents the approximate location of the inner conductor of the coaxial cable.
• the shape of the protruding end 133 can also be adjusted to optimize the degree to which the clamping arms can hold the coaxial cable in the connector, to assist when the cable is pulled with respect to the cable.
• a cap can be used to hold arms 113 in place once they are d ⁇ ven mto the insulation.
• This cap can be designed to further push tips 133 mto the insulation as the cap is positioned.
• a cap can utilize one of a va ⁇ ety of designs.
• the cap can slide over clamping arms 113 and lock into place on housing 111, thread onto the housing, fold together and snap, or utilize a heat sh ⁇ nkable material, to hold itself m position.
• a closure cap can have insulated conductor 123 passing there through, and fit over the arms 113 to attach to external threads 115, holding the clamping arms 113 in position with respect to insulated conductor 123.
• losses associated from the connector can be reduced by having no bore 112 but, rather having clamping arms 113 extend directly from the portion of housing 111 adjacent base 121 such as to reduce the distance between tips 133 and base 121 If desired, a ⁇ dge can be provided for a snap-on cap to snap onto and hold arms 113 in place.
• FIG. 15 and 16 a specific embodiment of an elect ⁇ cal connector 140 for coupling to a center conductor having an outer insulation layer is illustrated.
• the connector shown in Figures 15 and 16 has a housing 141 having a bore 142 in one end thereof and a bore 143 extending mto the other end of the housmg 141.
• the housing can have external threads 144 on one end thereof and internal threads 145 extending mto the bore 143.
• a center conductive prong 146 extends axially into the bore 142 and a conductive prong 147 extends axially mto the bore 143.
• Prongs 146 and 147 are electrically connected and can be one continuous prong supported m the housing 141 by collar 141A.
• Prong 146 has a hollow portion 146A extending from end 150 to receive a center conductor 124.
• the hollow portion 146A of prong 146 is not required to have but may have a single slit 151, or a plurality of slits in the side thereof to, for example, allow prong 146 to expand as a center conductor enters Slits 151 can extend the entire length of the hollow portion of prong 146 or any portion thereof. If prong 146 has two or more slits, the slits can divide the end of the prong 146 mto a plurality of segments 152.
• end 150 has been beveled inwardly to allow the segments to more easily drive in between center conductor 124 and insulation layer 125 of the insulated elect ⁇ cal conductor 123. If desired, end 150 can be beveled in the opposite direction or sharpened on both sides.
• the insulated elect ⁇ cal conductor 123 is shown being inserted into bore 142 in Figure 15, and attached to connector 140 in Figure 16.
• the portion of housing 141 su ⁇ oundmg bore 142 can be sufficiently large in diameter to allow the insulated conductor to be inserted into bore 142 with the hollow portion of prong 152 squeezing between center conductor 124 and insulation layer 125.
• the open end portion of housing 141 surrounding bore 142 can have one or more slits 153 A extending from the end of housing 141 which can create one of more clamping arms 153.
• slits 153A can extend up to the threaded portion 144 and may extend mto the threaded portion 144, if desired. Extending from housing 141, clamping arms 153 can be dimensioned to allow the insulated conductor sufficient room to enter bore 142 and allow hollow prong 152 to enter between center conductor 124 and insulation layer 125.
• a cap can be placed over clamping arms 153 to hold them to insulation layer 125.
• closure cap 154 has an open end 155 for passing the elect ⁇ cal conductor 123 therethrough and has internal threads 156 with passageway 157 for attaching to threads 144 of housing 141.
• the mside annular surface 158 may be angled for wedging against an angled surface 160 on the extending arms 153 for clamping the arms to the insulation 125.
• cap 154 and housing 141 can be configured for a snap fit, without the need for threads 144 or 156.
• FIG. 17 A further embodiment of the invention which incorporates the clamping arms of Figure 10 in the connector of Figure 15 is shown in Figure 17.
• the housing 141 is modified to substitute clamping arms 161, including engaging tips 162 similar to those shown in Figure 10, for the clamping arms 153 of Figure 15
• the clamping arms 151 can be mechanically clamped on to the insulating layer 125 of the conductor 123.
• the engaging tips 162 are selected so as to engage only the insulating layer 125 and not the center conductor 124, thereby to avoid unwanted electrical conduction from the center conductor 124.
• the cap 154 is placed over the clamping arms 161 and secured to the housing 141, holding the conductor 123 in an irremovable position unitary with the housing 141.
• Circumstances might a ⁇ se where it is desired that the engaging tips 162 pierce the insulating layer 125 and engage the center conductor 124 m order to support elect ⁇ cal conduction with the hollow prong 146.
• the housing can provide a conductive path between the clamping arm 161 and the hollow prong 146 and insulating shielding can be provided for preventing the housing from being electrically shorted.
• prong 147 can be the same diameter as conductor 124 or can smaller or larger, as desired. Other designs would be readily apparent to a person skilled in the art having the benefit of the subject disclosure.
• the method of the present invention involves coupling an elect ⁇ cal connector in accordance with the subject invention to an insulated elect ⁇ cal conductor. Examples of such electrical connectors are shown m Figures 11-14 and Figures 15 and 16. The end of an insulated elect ⁇ cal conductor 123 is guided to the connector housing such that the hollow portion of the center prong squeezes between the center conductor and insulation layer 125.
• center conductor 124 makes elect ⁇ cal contact with prong 120 or 122.
• clamping arms 113 can then be pushed onto insulation layer 129 to drive the g ⁇ pping tips 133 into the insulation to make elect ⁇ cal contact with conductor 127.
• arms 153 m Figures 15 and 16 can be pushed onto the insulation for holding the elect ⁇ cal conductor to the connector.
• the connectors shown m Figures 11-16 can, for example, be manually clamped with a person's fingers, clamped with a clamping tool such as pliers, and/or clamped via a closure cap for pressing arms 153 to the insulation.
• a closure cap 154 can also be used to d ⁇ ve the clamping arms 153 against the insulation, as shown in Figures 15 and 16.
• Such a closure cap 154 can be designed to fit over tips 133 after tips 133 have been clamped such that cap 154 can push tips 133 a bit further mto the insulation and then hold tips 133 in such position.
• an embodiment of the subject invention which utilizes the inner conductor of a coaxial cable to make electrical contact between the coaxial cable, having the subject elect ⁇ cal connector connected, and other connectors or insulated elect ⁇ cal conductors.
• the coaxial cable can be stripped such that the end of the cable is flush with the exception of the protruding inner conductor
• the coaxial cable can then be inserted into the subject connector such that the protruding inner conductor passes through an aperture m insulating base 121 and into bore 117.
• the clamping arms 113 can then be positioned such that elect ⁇ cal contact with conductive sheath 127 is made If desired, an approp ⁇ ate means to secure the clamping arms 113 in place can be used to ensure electrical contact with the conductive sheath 127 is maintained. In addition, if desired, a portion of conductive sheath 127 and outer insulation layer 129 can be st ⁇ pped, and the aperture in base 121 can be enlarged, such that insulation layer 125 can also pass mto the aperture in base 121.
• base 121 can be conducting.
• base 121 can be an extension of the housing, such that insulation layer 125 functions to insulate the inner conductor of the coaxial cable from the housing.
• a hollow segmented center conductive prong in accordance with the subject invention can advantageously provide an improved connection between a connector and an insulated conductor and can accommodate different types and sizes of conductors.
• a hollow segmented center prong can enhance the contact made with a solid center conductor.
• the present invention should not be construed as limited to the forms shown which are to be considered illustrative rather than restrictive.

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• 2000
  • 2000-08-16 EP EP00955577A patent/EP1208616A1/de not_active Withdrawn
  • 2000-08-16 AU AU67760/00A patent/AU6776000A/en not_active Abandoned
  • 2000-08-16 WO PCT/US2000/022426 patent/WO2001013470A1/en not_active Application Discontinuation

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