 coaxial cable connector, method of retaining a connector on an interface port and bridging
专利摘要:
COUPLING MEMBER, COAXIAL CABLE CONNECTOR, COAXIAL CABLE CONNECTOR ADAPTED TO FIT WITH A DOOR, CONNECTOR FOR CONNECTING TO AN INTERFACE DOOR, METHOD OF RETENTING A CONNECTOR TO A DOOR IN AN AXIAL DIRECTION AND BRIDGE CONNECTION A coupling member including a body defined by an inner surface and an outer surface between a first end and a second end, at least one elastic contact extending a distance from the internal surface of the body, the at least one elastic contact configured to provide a holding force , and at least one elastic protrusion extending a distance from the internal surface of the body, the at least one elastic positioned near the second end of the body and configured to make contact with a conductive surface is provided. A cable connector for attaching to an interface port having external filaments, comprising a coupling member connected to the post, the coupling member having one or more elastic contacts and elastic protrusions, where the elastic contacts are configured to provide a strength of retention between a coupling member and a door and the elastic protrusions facilitate electrical continuity through the connector (...). 公开号:BR112013031495B1 申请号:R112013031495-8 申请日:2012-06-08 公开日:2021-02-09 发明作者:Noah Montena 申请人:Ppc Broadband, Inc.; IPC主号:
专利说明:
TECHNOLOGY FIELD [001] The following article refers to connectors used in coaxial cable communication applications, and more specifically to realizations of a pressure connector having a coupling member to maintain continuity through a connector and retaining the connector in a port corresponding. HISTORIC [002] Connectors for coaxial cables are typically connected to interface ports complementary to coaxial cables electrically integrated with various electronic devices. Pressure connectors are widely used by consumers for their ease of use, and apparent suitability, but they rarely remain properly attached to the port over time. Even pressure connectors designed to lock the connector on a port can slip out of the port if the cable is pulled, and the range of allowable port diameters makes it extremely difficult to create sufficient friction between the pressure connector and the tops of the external wires on both the doors small and large. In contrast, connectors involving a filament coupling member can provide sufficient holding force for the breaking strength of a coaxial cable; however, the filament coupling members must also be rotated on the door during installation. In addition, it is desirable to maintain continuity through a coaxial cable connector, which typically involves continuous contact of the conductive connector components that can prevent leakage of radio frequency (RF) and ensure a stable ground. [003] Thus, there is a need for an apparatus and method to prevent the detaching of a pressure connector from a port. There is also a need for a pressure connector that can lock on a port while also ensuring continuous contact between the conductive components of a connector. SUMMARY [004] A first general aspect refers to a coupling member comprising a body defined by an internal surface and an external surface between a first end and a second end, at least one elastic contact extending at a distance from the internal surface of the body , the at least one elastic contact configured to provide a holding force, and at least one elastic protrusion extending a distance from the internal surface of the body, the at least one elastic positioned near the second end of the body and configured to make contact with conductive surface. [005] A second general aspect refers to a coaxial cable connector to fit with an interface port having external filaments, comprising a pole configured to receive a central conductor surrounded by a coaxial cable dielectric, a connector body connected to the pole , a coupling member connected to the post, the coupling member having one or more elastic contacts, where the elastic contacts are configured to pass through the external filaments in a first axial direction, and physically fit the external filaments in a second axial direction . [006] A third general aspect refers to a coaxial cable connector to connect to an interface port comprising a pole having configured to receive a prepared end of a coaxial cable having a conducting center surrounded by a dielectric, a connector body connected to the post, a coupling member connected to the post, the coupling member having a first end and a second end, wherein the coupling member includes a first set of contacts next to the second end configured to maintain electrical continuity between the coupling member and the post, and a second set of contacts configured to provide a holding force in an axial direction between the coupling member and the door. [007] A fourth general aspect refers to a coaxial cable connector adapted to fit a door, comprising a pole configured to receive a central conductor surrounded by a dielectric of a coaxial cable, a connector body connected to the pole, a member of coupling operatively connected to the post, the coupling member having a first end and a second end, and a means for providing a holding force in an axial direction between the coupling member and the door, wherein the means for providing the coupling force retention are integral to the coupling member. [008] A fifth general aspect refers to a coaxial cable connector to connect to an interface port comprising a pole having configured to receive a prepared end of a coaxial cable having a conducting center surrounded by a dielectric, a connector body connected to the post, a coupling member connected to the post, the coupling member having a first end and a second end, wherein the coupling member includes a first set of contacts next to the second end configured to maintain electrical continuity between the coupling member and the post, and a second set of contacts configured to provide a holding force in an axial direction between the coupling member and the door. [009] A sixth general aspect refers to a method of retaining a connector on a port in an axial direction, comprising providing a pole configured to receive a central conductor surrounded by a dielectric of a coaxial cable, a connector body connected to the pole , a coupling member connected to the post, in which the coupling member has a first and second end, and forming one or more elastic contacts in the coupling member, in which the elastic contacts are configured to pass through the external filaments in a first axial direction, and physically fit the outer filaments in a second axial direction. [010] A seventh general aspect refers to a bridge connection comprising a first connector, in which the first connector includes a pole configured to receive a central conductor surrounded by a coaxial cable dielectric, a connector body connected to the pole, and a coupling member connected to the post, the coupling member having one or more elastic contacts, where the elastic contacts are configured to pass through the external filaments in a first axial direction, and physically fit the external filaments in a second axial direction, and a second connector, wherein the first connector is operatively attached to a first end of a coaxial cable, and the second connector is operably attached to a second end of the coaxial cable. [011] The aforementioned and other aspects of construction and operation will become more readily understood and fully appreciated from the detailed disclosure below, taken in conjunction with the accompanying drawings. BRIEF DESCRIPTION OF THE DRAWINGS [012] Some of the achievements will be described in detail, with reference to the accompanying figures, in which similar designations denote similar members, in which: [013] FIG. 1 represents a perspective view of a first embodiment of a coaxial cable connector. [014] FIG. 2 represents a perspective view of an embodiment of a coaxial cable; [015] FIG. 3 represents a cross-sectional view of the connector realization; [016] FIG. 4 represents a perspective view of an embodiment of a coupling member; [017] FIG. 5 represents a first cross-sectional view of an embodiment of the coupling member; [018] FIG. 6 represents a second cross-sectional view of an embodiment of the coupling member; [019] FIG. 7 represents a cross-sectional view of an elastic contact having a tip fitted with a filament of a door; [020] FIG. 8 represents a cross-sectional view of a second embodiment of a coaxial cable connector; [021] FIG. 9 represents a cross-sectional view of a third embodiment of a coaxial cable connector; [022] FIG. 10 represents a cross-sectional view of a fourth embodiment of a coaxial cable connector; [023] FIG. 11A represents a perspective view of an embodiment of a fifth embodiment of a coaxial cable connector; [024] FIG. 11B represents a cross-sectional view of an embodiment of the fifth embodiment of a coaxial cable connector; and [025] FIG. 12 represents a perspective view of making a bridge connection. DETAILED DESCRIPTION [026] A detailed description of the achievements described here of the disclosed apparatus and method are presented here by way of example and not limitation with reference to the Figures. Although certain achievements are shown and described in detail, it should be understood that several changes and modifications can be made without departing from the scope of the attached claims. The scope of the present disclosure will in no way be limited to the number of constituent components, its materials, its formats, its relative arrangement, etc., and are revealed simply as an example of the achievements of the present disclosure. [027] As a preface to the detailed description, it should be noted that, as used in this specification and the appended claims, the singular forms "one", "one", "o" and "a" include plural referents, unless the context clearly states otherwise. [028] Referring to the drawings, FIG. 1 represents an embodiment of a coaxial cable connector 100. An embodiment of the coaxial cable connector 100 has a first end 1 and a second end 2, and can be provided for a user in a pre-assembled configuration for ease of handling and installation during use. The coaxial cable connector 100 can be a pressure connector, F pressure connector, or similar coaxial cable connector that only needs an axial force to fit with a corresponding port 20 (for example, it does not need to align the filaments and rotate coupling member). Two connectors, such as connector 100, can be used to create a jumper 300 that can be packaged and sold to a consumer, as shown in FIG. 12. The jumper 300 can be a coaxial cable 10 having a connector, such as a connector 100, operationally attached to one end of the cable 10 on which the cable 10 has been prepared, and another connector, such as the connector 100, operationally attached to the other prepared end of the cable 10. Operationally attached to a prepared end of a cable 10 with respect to a jumper 300 includes both an open / uncompressed position and a closed / compressed position of the connector while attached to the cable. For example, the achievements of a jumper 300 may include a first connector including components / aspects described in association with connector 100, and a second connector that can also include components / aspects as described in association with connector 100, where the the first connector is operationally attached to a first end of a coaxial cable 10, and the second connector is operationally attached to a second end of the coaxial cable 10. [029] Now referring to FIG. 2, the connector of the coaxial cable 100 can be operationally attached to a prepared end of a coaxial cable 10 so that the cable 10 is securely connected to the connector 100. The coaxial cable 10 can include a central conductor cable 18, surrounded by a dielectric interior 16; the internal dielectric 16 may possibly be surrounded by a layer of conductive foil; the internal dielectric 16 (and the possible conductive foil layer) is surrounded by a layer of conductive cable 14; the conductive cable layer 14 is surrounded by a protective outer jacket 12a, in which the protective outer jacket 12 has dielectric properties and serves as an insulator. The conductive cable layer 14 can extend a grounding path providing an electromagnetic field around the central conductive cable 18 of the coaxial cable 10. The coaxial cable 10 can be prepared by removing the outer protective jacket 12 and removing the conductive cable layer 14 to expose a part of the inner dielectric 16 (and possibly the conductive foil layer that can hermetically wrap the inner dielectric 16) and the central conductor cable 18. The outer protective jacket 12 can physically protect the various components of the coaxial cable 10 from damage that can result from exposure to dirt or moisture, and from corrosion. In addition, the protective outer jacket 12 can serve to some extent to secure the various components of the coaxial cable 10 in a contained cable design that protects the cable 10 from movement-related damage during cable installation. However, when the outer protective jacket 12 is exposed to the environment, rain and other pollutants can displace the outer protective jacket 12. The layer of conductive cable 14 can be comprised of conductive materials suitable for carrying electromagnetic signals and / or providing a electrical grounding or electrical connection. The conductive foil layer 14 can also be a conductive layer, braided layer and the like. Various embodiments of the conductive foil layer 14 can be employed to filter out unwanted noise. For example, the conductive cable layer 14 may comprise a metal foil (in addition to the possible conductive foil) wound around the dielectric 16 and / or several conductive cables formed in a continuous strand around the dielectric 16. Combinations of twisted cables and / or foil can be used where the conductive cable layer 14 can comprise a foil layer, then a braided layer, and then a foil layer. Those skilled in the art will realize that various layer combinations can be implemented in order for the conductive cable layer 14 to effect an electromagnetic damper helping to prevent the ingress of environmental noise or unwanted noise that can interrupt broadband communications. In some embodiments, there may be filler compounds protecting the conductive foil layer 14. The dielectric 16 can be comprised of materials suitable for electrical insulation. The protective outer jacket 12 can also be comprised of materials suitable for electrical insulation. It should be noted that the various materials of which all the various components of the coaxial cable 10 must have some degree of elasticity allowing the cable 10 to flex or bend according to traditional broadband communications standards, installation methods and / or equipment. It must also be recognized that the radial thickness of the coaxial cable 10, protective outer jacket 12, conductive cable layer 14, possible conductive foil layer, internal dielectric 16 and / or central conductor cable 18 may vary based on the generally recognized parameters corresponding to the broadband communication cables and / or equipment. [030] Referring again to FIG. 1, the connector 100 can fit to a coaxial cable interface port 20. The coaxial cable interface port 20 includes a conductive receptacle for receiving a portion of a central conductor of the coaxial cable 18 sufficient to make suitable electrical contact. The coaxial cable interface port 20 may further comprise a filamented outer surface 24. However, several embodiments may use a smooth surface, or partially smooth surface, as opposed to a completely filamented outer surface. In addition, the coaxial cable interface port 20 may comprise a locking edge 26. It should be recognized that the radial thickness and / or the length of the coaxial cable interface port 20 and / or the conductive receptacle may vary based on the parameters generally recognized corresponding to broadband and / or equipment communication standards. In addition, the slope and depth of the filaments that can be formed on the outer filament surface 24 of the coaxial cable interface port 20 can also vary based on the generally recognized parameters corresponding to the broadband and / or equipment communication standards. The filaments 24 can also include a work surface 27, which can be defined by the slope and depth requirements of the door 20. Furthermore, it should be realized that the interface port 20 can be formed of a single conductive material, multiple conductive materials , or it can be configured with both conductive and non-conductive materials corresponding to the electrical interface of port 20 with a coaxial cable connector, such as connector 100. For example, the outer filament surface can be manufactured from a conductive material, while the material comprising the engaging edge 26 may be non-conductive or vice versa. However, the conductive receptacle 22 must be formed of a conductive material. Furthermore, it will be understood by those skilled in the art that interface port 20 can be incorporated by a connective interface component of a communications modification device such as a signal splitter, a cable line extender, a cable network module and / or similar. [031] Referring further to FIGs. 1 and 3, embodiments of a connector 100 may include a post 40, a coupling member 30, a connector body 50, a catch member 60, and a bypass member 70. Achievements of the connector 100 may also include a post 40 configured for receiving a central conductor 18 surrounded by a dielectric 16 of a coaxial cable 10, a connector body 50 connected to the post 40, a coupling member 30 connected to the post 40, the coupling member 30 having one or more elastic contacts 80, wherein the elastic contacts 80 are configured to pass through the external filaments 24 in a first axial direction, and physically engage the external filaments 24 in a second axial direction. Other embodiments of the connector 100 may include a post 40 having configured to receive a prepared end of a coaxial cable 10 having a central conductor 18 surrounded by a dielectric 16, a connector body 50 connected to the post 40, a coupling member 30 connected to the post 40, the coupling member 30 having a first end 31 and a second end 32, wherein the coupling member 30 includes a first set of contacts 70 next to the second end 32 configured to maintain electrical continuity between the coupling member 30 and post 40, and a second contact set 80 configured to provide a holding force in an axial direction between the coupling member and the port 20. [032] Embodiments of connector 100 may include a post 40. Post 40 comprises a first end 41, a second end 42, an inner surface 43, and an outer surface 44. In addition, post 40 may include a flange 45 , such as an abutting protrusion extending externally, located near or otherwise otherwise the first end 41 of post 40. The flange 45 may include an outer tapered surface 47 facing the second end 42 of post 40 (for example, tapers to inside) towards the second end 42 from a larger outside diameter near or otherwise near the first end 41 to a smaller outside diameter. The outer tapered surface 47 of the flange 45 may correspond to a tapered surface of a flap 36 of the coupling member 30. In addition, an embodiment of the post 40 may include a surface aspect such as a flap or protrusion that can fit a portion of a connector body 50 for securing the axial movement of the post 40 with respect to the connector body 50. However, the post may not include such a surface aspect, and the coaxial cable connector 100 may depend on interlocking pressure forces and chafing and / or other component structures to help retain post 40 in a secure location both axially and rotationally in relation to connector body 50. The place near or otherwise otherwise where connector body 50 is attached to post 40 may include surface features, such as saws, grooves, protrusions, or knurling, which can increase the safe location of post 40 with respect to connector body 50. Additionally, post 40 includes i a plug-in edge 46, which can be configured to make physical and electrical contact with a corresponding plug-in edge 26 of an interface port 20. Post 40 must be formed so that the parts of a prepared coaxial cable 10 including the dielectric 16 and the central conductor 18 can pass axially at the second end 42 and / or through a part of the tube-like body of post 40. In addition, post 40 must be dimensioned so that post 40 can be inserted into a end of the prepared coaxial cable 10, around the dielectric 16 and a protective outer jacket 12 and conductor or cable earthing protector 14. In this way, where an embodiment of the post 40 can be inserted at one end of the prepared coaxial cable 10 under the conductive cable brought back 14, substantial electrical and / or physical contact with the cable layer 14 can be reached in this way by facilitating grounding via post 40. post 40 can be formed or other materials conductors that would facilitate a rigidly formed pole body. Additionally, post 40 can be formed from a combination of both conductive and non-conductive materials. For example, a coating or metal layer can be applied to a polymer of another non-conductive material. The manufacture of post 40 can include molding, extrusion, cutting, transforming, drilling, knurling, injection molding, spraying, blow molding, multi-component molding system, or other manufacturing methods that can provide sufficient component production. [033] With continuous reference to FIGs. 1 and 3, and another reference to FIGs. 4-6, the realizations of the connector 100 can include a coupling member 30. The coupling member 30 can be a nut, a door coupling member, rotational door coupling member, and the like, for various embodiments of a connector pressure connector, F connector, cable connector (including triaxial and coaxial), and can be a coupling member for a device / connector that does not include a triaxial or coaxial cable. The coupling member 30 can include a first end 31, a second end 32, an inner surface 33, and an outer surface 34. The inner surface 33 of the coupling member 30 can be a smooth, non-filament surface to allow the coupling member coupling 30 is axially inserted over an interface port, such as port 20. However, coupling member 30 can be rotationally attached to post 40 to allow rotational movement around post 40. The achievements of coupling member 30 may include a body 38 defined by an inner surface 33 and an outer surface 34 between a first end 31 and a second end 32, at least one elastic contact 80 extending a distance from the inner surface 33 of body 38, the at least one elastic contact 80 configured to provide a holding force, and at least one elastic protrusion 70 extending a distance from the inner surface 33 of the body 3 8, the at least one elastic protrusion 70 positioned close to the second end 32 of the body 38 and configured to make contact with a conductive surface. [034] In addition, the realizations of the coupling member 30 may include a first set of contacts 70 to maintain physical and electrical contact between the post 40 and the coupling member 30 to extend an RF protector and grounding through the connector 100. Achievements of the first set of contacts 70 can be structurally integral to the coupling member 30. Alternatively, the first set of contacts 70 can be integrally connected to a second set of contacts 80 via a conductive strip (for example, metal) which can be incorporated on the body 38 of the coupling member 30. The first set of contacts 70 can be located on / along an annular inner flap 36 near the second end 32 of the coupling member 30; the flap 36 can also be configured to prevent axial movement of the post 40. The first set of contacts 70 can be one or more elastic projections, elevations, and the like that protrude and / or extend radially inward towards the outer surface 44 of post 40 near or otherwise otherwise 45 of post 40. For example, the first set of contacts 70 can make physical and electrical contact with the tapered surface 47 of post 40 to maintain electrical continuity with post 40 regardless of the screw advancing the coupling member 30 over a port 20. The embodiments of the coupling member 30 may include a single contact 70 near the second end 32 of the coupling member 30, or may include a plurality of contacts 70 separated from one another extending around or partially around the coupling member 30 near the second end 32. Thus, the locations, configurations, orientations, and the number of contacts 70 g vary, provided that at least one contact 70 physically engages (for example, leaning against) post 40 to extend the electrical continuity between them. The elastic nature of contacts 70 (for example, elastic protrusions, elevations, etc.) can provide a tilting force against rigid post 40 to establish constant contact between post 40 and contacts 70. For example, while operationally configured (for example, example, when the connector is fully advanced over port 20 and / or connector 100 is in a compressed position), the elastic contacts 70 can make contact with post 40, and deflect slightly radially outward (back to the coupling member 30), and due to the elasticity of the contacts 70, the contacts 70 can exert a constant tilting force in a direction radially inward against the post 40 to establish and maintain the electrical continuity between the coupling member 30 and the post 40. [035] In addition, the coupling member 30 can include a second set of contacts 80 to provide a holding force between the coupling member 30 and the corresponding joint port 20. Realizations of the second set of contacts 80 can be structurally integral to the coupling member 30. Alternatively, the second set of contacts 80 can be integrally connected to a first set of contacts 70 through a conductive strip (for example, metal) incorporated in the body 38 of the coupling member 30. The second set of contacts 80 can be located on / along the body 38 of the coupling member 30 at any point between the first end 31 and the flap 36 of the coupling member 30. The second set of contacts 80 can be elastic projections, claws, fingers, or one-way latch fingers projecting and / or extending radially inward from an otherwise smooth inner surface 33 into the generally axial opening of the member the coupling 30 and partially axially towards at least one of the first end 31 and second end 32. Embodiments of the contacts 80 can be designed to pass over the filaments 34 of the post 20 in a first axial direction (for example, advancing axially the coupling member 30 over port 20), but can mechanically interfere with one or more filaments 24 in a second axial direction (for example, axially removing coupling member 30 from port 20). For example, the second set of contacts 80 can be tilted in one direction to allow the ends of the filaments 24 of the port 20 to push the contacts 80 outward during the forward axial movement of the coupling member 30 as the coupling member 30 is. advanced over port 20, but which rest with the tips 82 of contacts 80 housed firmly against the working surface of the filaments of port 24, preventing the release of connector 100 if pulled in an opposite axial direction, as shown in FIG. 7. Contact 80 and / or tip 82 of contact 80 can include a sloped or tapered surface design that can act as a ratchet surface that allows contacts 80 (or just tips 82 to pass over filaments 24 in one first axial direction, but mechanically prevent movement of the second opposite axial direction). Other embodiments of the tip 82 may include a curved or rounded configuration to maximize or increase a holding force with a surface, such as the working surface 27 of the door 20. The fit between the second set of contacts 80 and the filaments 24 of the door 20 can provide a holding force between connector 100 and port 20 in an axial direction. To detach connector 100 from port 20, a user can simply rotate / flip coupling member 30 in a direction that releases coupling member 30 from port 20. For example, rotate coupling member 30 in a counterclockwise direction it can detach the contacts 80 from the filaments 24 of the port 20. The embodiments of the coupling member 30 may include a single contact 80, or may include a plurality of contacts 80 separated from one another extending around or partially around the coupling member 30 in various axial positions on the coupling member 30. In this way, the locations, configurations, orientations and the number of contacts 80 can vary, provided that at least one contact 80 physically engages the port 20 when the coupling member 30 is advanced in the port 20. [036] The coupling member 30, including the first and the second set of contacts 70, 80, can be formed of conductive materials facilitating protection / grounding through the coupling member 30. In this way, the coupling member 30 can be configured to extend an electromagnetic damper by electrically contacting the conductive surfaces of an interface port 20 when a coaxial cable connector, such as a connector 100, is advanced into port 20. Additionally, the coupling member 30 can be formed of non-conductive material and functions only to physically secure and advance a connector 100 to an interface port 20. In addition, coupling member 30 can be formed of both conductive and non-conductive materials. In addition, the coupling member 30 can be formed of metals or polymers or other materials that would facilitate a rigidly formed body. The manufacture of the coupling member 30 can include molding, extrusion, cutting, transforming, drilling, knurling, injection molding, blow molding, or other manufacturing methods that can provide efficient component production. Other embodiments of the coupling member 30 can be formed of plastic, or other non-conductive, non-metallic material having a single conductive strip (or more than one) embedded in the body 38 of the coupling member 30. Thus, the conductive materials need not involve port 20 completely; a conductive strip integrally connecting at least one elastic contact 80 and at least one elastic protrusion 70 can make contact with the surface of a door or a conductive surface (for example, a pole or other conductive surface of a cable connector). In other words, a metal strip having at least one elastic contact 80 at one end and at least one elastic protrusion 70 at the other end can be incorporated into an embodiment of a non-conductive coupling member 30, wherein the conductive strip , in particular, the elastic contact (s) 80 and the elastic protrusion (s) 70, contact the corresponding conductive surfaces to extend the electrical continuity. [037] Referring further to FIGs. 1 and 3, embodiments of a coaxial cable connector, such as a connector 100, can include a connector body 50. The connector body 50 can include a first end 51, a second end 52, an inner surface 53, and a outer surface 54. In addition, the connector body may include a pole 57 mounting part near or otherwise near the first end 51 of the body 50; the mounting part of the post 57 configured to securely allocate the body 50 with respect to a part of the outer surface 44 of the post 40, so that the connector body 50 is axially secured with respect to the post 40, in a way that prevents the two components to move relative to each other in a direction parallel to the axis of connector 100. Additionally, connector body 50 may include an external annular recess 56 located near or near the first end 51 of connector body 50. In addition, the connector body 50 can include a still corresponding semi-rigid outer surface 54, wherein the outer surface 54 can be configured to form an annular seal when the second end 52 is deformed compressed against a coaxial cable 10 through the operation of a fastener member 60 The connector body 50 may include an outer ring tongue 58 located along the outer surface 54 of the connector body 50. In addition, the body of the connector the connector 50 may include parts of the inner surface 59, such as annular saws formed near or close to the inner surface of the second end 52 of the connector body 50 and configured to increase the friction contention and control of an inserted and received coaxial cable 10, through of the dento type interaction with the cable. The connector body 50 can be formed of materials such as plastics, polymers, folding metals or composite materials, which facilitate an even corresponding semi-rigid external surface 54. Furthermore, the connector body 50 can be formed of conductive or non-conductive materials or a combination of these . Fabrication of connector body 50 may include molding, extrusion, cutting, transforming, drilling, knurling, injection molding, spraying, blow molding, multi-component molding systems, combinations thereof, or other manufacturing methods that can provide efficient production of the component. [038] With another reference to FIGs. 1 and 3, the embodiments of a coaxial cable connector 100 may include a fastener member 60. Fastener member 60 may have a first end 61, a second end 62, an inner surface 63, and an outer surface 64. Additionally, the member fastener 60 may include an internal annular protrusion located near the first end 61 of fastener member 60 and configured to engage and achieve purchase with tongue 58 on the outer surface 54 of connector body 50. In addition, fastener member 60 may comprise a central passage or generally axial opening defined between the first end 61 and the second end 62 extending axially through the fastening member 60. The central passage can include an inclined surface 66 that can be positioned between a first opening or internal orifice having a first diameter internal position positioned near or near otherwise the second end 62 of the fastening member 60 and a second the opening or inner hole having a second larger inner diameter positioned near or otherwise otherwise the first end 61 of the fastening member 60. The inclined surface 66 can act to deform the outer surface 54 of the connector body 50 deformed when the fastening member 60 it is operated to hold the coaxial cable 10. For example, the narrow geometry will tighten against the cable, when the fastening member 60 is compressed into a locked position and forms in the body of the connector 50. In addition, the fastening member 60 can comprise a part of the outer surface positioned near or near the second end 62 of the fastening member 60. The surface part can facilitate handling of the fastening member 60 during the operation of the connector 100. Although the surface part is shown as an annular tongue, it may have various shapes and sizes such as saw, fitting, protrusion, knurling, or other types of handling or friction arrangement. The first end 61 of the fastening member 60 can extend an axial distance so that when the fastening member 60 is compressed in the sealing position on the coaxial cable 100, the fastening member 60 touches or resides substantially significantly close to the coupling member 30 It should be recognized by those skilled in the art that the fastening member 60 may be formed of rigid materials such as metals, hard plastics, polymers, compounds and the like, and / or combinations thereof. In addition, the fastening member 60 can be manufactured by molding, extruding, cutting, transforming, drilling, knurling, injection molding, spraying, blow molding, multi-component molding system, combinations thereof, or other manufacturing methods that can provide efficient component production. [039] Now referring to FIGS. 8-10, the coaxial cable connectors in addition to the power type connector, such as an F connector, can include a coupling member 230, 330, 430 that provides a holding force to prevent the disengagement of a port 20 while also extending electrical continuity through connector 200, 300 without contacting a pole 40, or a component making direct contact with a port 20 that is also in physical contact with a prepared end of a coaxial cable 10. For example, the achievements of connectors 200, 300, 400 may include a coupling member 230, 330, 430 having a first set of contacts 270, 370, 470 to elastically contact a conductive component 210, 310, 410 and a second set of contacts 280, 380, 480 configured to provide a holding force in an axial direction between the coupling member and the port 20 (as described above), wherein the conductive component 210, 310, 410 is a conductive component of the connector that contacts a pore surface 20, but does not physically contact a prepared end of a coaxial cable 10 (e.g., dielectric 16, outer conductor cable layer 14). Realizations of the coupling member 230, 330, 430 that can share the same or substantially the same functional and structural aspects of the coupling member 30. However, the coupling member 230, 330, 430 can be axially rotational with respect to a conducting member 210, 310, 410 so that the coupling member 230, 330, 430 can freely rotate around the at least one conducting member 210, 310, 410. [040] With continuous reference to the drawings, FIGs. 11A and 11B represent an embodiment of the connector 500 including a coupling member 530 and an outer sleeve 590. The embodiments of the coupling member 530 may share the same or substantially the same function and structure as the coupling member 30. However, the embodiments of the coupling member 530 can be configured to fit with an outer sleeve 590. The coupling member 530 may have an annular groove or surface part that cooperates with a groove or surface part of the sleeve 590 to operationally connect the outer sleeve 590 with the coupling member 530. Alternatively, the two components 530, 590 can be snap-fit or rely on the interference fit to connect operationally. The operable connection between the coupling member 530 and the outer sleeve 590 means that the rotation or twisting of the outer sleeve 590 results in the rotation or twisting of the coupling member 530, which can assist a user to rotate the coupling member 530 in a reverse direction. to detach from door 20. The outer sleeve 590 may have outer surface parts to facilitate handling of the outer sleeve 590. [041] With reference to FIGs. 1-12, a method of retaining a connector 100 on a port 20 in an axial direction, may include the steps of providing a post 40 configured to receive a central conductor 18 surrounded by a dielectric 16 of a coaxial cable 10, a body a connector 50 connected to the post 40, a coupling member 30 connected to the post 40, wherein the coupling member 30 has a first end 31 and a second end 32, and forming one or more elastic contacts 80 on the coupling member 30, wherein the elastic contacts 80 are configured to pass through the outer filaments 24 in a first axial direction, and physically engage the outer filaments 24 in a second axial direction. The method may further include the step of facilitating continuity through the coaxial cable connector 100, where facilitating continuity includes forming one or more elastic protrusions 70 near the second end 32 of the coupling member 30, the elastic protrusions 70 configured to contact physically and electrically pole 40. [042] While this disclosure has been described in conjunction with the specific achievements outlined above, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art. Accordingly, the preferred embodiments of the present disclosure as set out above are intended to be illustrative, not limiting. Several changes can be made without departing from the spirit and scope of the invention, as claimed by the following claims. The claims provide the scope of coverage of the invention and should not be limited to the specific examples provided here.
权利要求:
Claims (15) [0001] 1. COAXIAL CABLE CONNECTOR (100) to connect to an interface port (20) that defines a work surface with external thread, comprising: a post (40) configured to receive a central conductor (18) surrounded by a dielectric ( 16) of a coaxial cable (10); a connector body (50) attached to the post (40); and a coupling member (30) including a body (38) defined by an inner surface and an outer surface between a first end (31) and a second end (32); and at least one resilient contact (80) extending a distance from the internal surface of the body (38) radially inward, and at least one resilient contact (80) is angled in one direction to allow the threads (24) of the door (20) to push the contacts (80) out during the axial movement forward of the coupling element (30), as the coupling element (30) is advanced in the door (20), but resting on the tips (82) of the contacts (80) housed firmly against the work surface of the door filaments (24), preventing the release of the connector (100) if pulled in an opposite axial direction, thus being configured to disengage the work surface ( 27) in response to the rotational movement of the body (38); characterized in that the body (38) includes at least one first resilient contact (70) which extends at a distance from the internal surface of the body (38) radially inward, at least one first resilient contact (70) positioned close to the second end (32 ) of the body (38) and configured to be rotatably fixed to an external conductive surface of the post (40) in order to maintain physical and electrical contact between the post (40) and the coupling member (30); wherein said at least one elastic contact (80) is at least a second elastic contact (80). [0002] 2. COAXIAL CABLE CONNECTOR, according to claim 1, characterized by one or more elastic contacts (80) are structurally integrated with the coupling member (30). [0003] COAXIAL CABLE CONNECTOR, according to claim 1, characterized in that it also comprises a fastening member (60) arranged radially over the connector body (50) to radially compress the coaxial cable (10). [0004] 4. COAXIAL CABLE CONNECTOR, according to claim 1, characterized by the first and second sets of elastic contacts (70, 80) are an integral part of the coupling element (30). [0005] 5. COAXIAL CABLE CONNECTOR, according to claim 1, characterized in that the first set of elastic contacts (70) is located along an internal flap (36) of the coupling element (30). [0006] 6. COAXIAL CABLE CONNECTOR, according to claim 1, characterized in that it also comprises a fastening member (60) arranged radially over the connector body to radially compress the coaxial cable (10). [0007] 7. COAXIAL CABLE CONNECTOR, according to claim 1, characterized in that the connector is an N-Male connector. [0008] 8. COAXIAL CABLE CONNECTOR, according to claim 1, characterized in that the connector is a DIN DIN connector. [0009] COAXIAL CABLE CONNECTOR, according to claim 1, characterized in that the conductive member does not engage a prepared end of the coaxial cable (10). [0010] 10. COAXIAL CABLE CONNECTOR, according to claim 1, characterized in that at least one first elastic contact (70) provides a holding force with a coaxial cable interface port (20). [0011] 11. COAXIAL CABLE CONNECTOR, according to claim 1, characterized in that the body (38) is formed of plastic and the at least one first resilient contact (70) and the at least one second resilient contact (80) are connected by a conductive strip embedded in the body. [0012] 12. COAXIAL CABLE CONNECTOR, according to claim 1, characterized in that the body (38) is formed of a metal. [0013] 13. METHOD OF RETENTING A CONNECTOR IN AN INTERFACE DOOR (20) that defines an external threaded work surface in an axial direction, comprising: providing a post (40) configured to receive a central conductor (18) surrounded by a dielectric (16) of a coaxial cable (10), a connector body (50) attached to the post (40), a coupling member (30) including a body (38) defined by an inner surface and an outer surface between a first end (31) and a second end (32); and forming one or more elastic contacts (80) on the coupling element (30), where the elastic contacts (80) are deflected in one direction to allow the threads (24) of the door (20) to push the contacts (80) outwardly during the forward axial movement of the coupling member (30) as the coupling member (30) is advanced on the door (20), but resting on the tips (82) of the contacts (80) firmly housed against the work surface of the filaments (24) preventing the release of the connector (100) if pulled in an opposite axial direction, thus being configured to disengage the work surface in response to the rotation movement of the coupling element (30) in relation to the door (20), characterized by forming at least one first elastic contact (70) the body (38) including at least one first resilient contact (70) which extends at a distance from the internal surface of the body (38) radially inward, at least one first resilient contact (70) positioned close to the second end (32) of the body (38) and configured to be fixed in rotation to an external conductive surface of the pole (40), in order to maintain physical and electrical contact between the pole (40) and the limb of coupling (30); wherein said at least one elastic contact (80) is at least a second elastic contact (80). [0014] 14. BRIDGE CONNECTION (300) characterized by comprising: a first connector (100) as defined in one of claims 1 to 12; and a second connector (100); wherein the first connector is operationally attached to a first end of a coaxial cable (10) and the second connector is operationally attached to a second end of the coaxial cable. [0015] BRIDGE CONNECTION according to claim 14, characterized in that the second connector (100) includes the same components as the first connector (100).
类似技术:
公开号 | 公开日 | 专利标题 BR112013031495B1|2021-02-09|coaxial cable connector, method of retaining a connector on an interface port and bridging US10686264B2|2020-06-16|Coaxial cable connector having a grounding bridge portion US8323053B2|2012-12-04|Connector having a constant contact nut US8075338B1|2011-12-13|Connector having a constant contact post DK2415123T3|2017-03-27|Coaxial cable continuity connector US8167646B1|2012-05-01|Connector having electrical continuity about an inner dielectric and method of use thereof BR122015014911B1|2021-04-13|COAXIAL CABLE CONNECTOR US8491333B2|2013-07-23|Rotary locking push-on connector and method thereof US8568167B2|2013-10-29|Coaxial cable connector having a breakaway compression sleeve US8342879B2|2013-01-01|Coaxial cable connector WO2012054373A2|2012-04-26|Dielectric sealing member and method of use thereof US8485846B2|2013-07-16|Integral moveable sealing member for feed-through coaxial cable connectors CA2838847C|2022-02-15|Connector having a coupling member for locking onto a port and maintaining electrical continuity BR112013024912B1|2021-10-13|COAXIAL CABLE CONNECTOR AND METHOD OF FACILITATING CONTINUITY THROUGH A COAXIAL CABLE CONNECTOR
同族专利:
公开号 | 公开日 US8753147B2|2014-06-17| EP2719028A4|2015-03-04| EP3621163B1|2021-12-22| CA2838847A1|2012-12-13| WO2012170861A3|2013-04-25| EP2719028B1|2019-08-07| DK2719028T3|2019-11-11| EP3621163A1|2020-03-11| WO2012170861A2|2012-12-13| BR112013031495A2|2017-07-11| EP2719028A2|2014-04-16| US20120315788A1|2012-12-13| US8758050B2|2014-06-24| US20130309902A1|2013-11-21|
引用文献:
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法律状态:
2018-12-11| B06F| Objections, documents and/or translations needed after an examination request according [chapter 6.6 patent gazette]| 2020-11-10| B09A| Decision: intention to grant [chapter 9.1 patent gazette]| 2021-02-09| B16A| Patent or certificate of addition of invention granted [chapter 16.1 patent gazette]|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 08/06/2012, OBSERVADAS AS CONDICOES LEGAIS. |
优先权:
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申请号 | 申请日 | 专利标题 US13/157,340|US8758050B2|2011-06-10|2011-06-10|Connector having a coupling member for locking onto a port and maintaining electrical continuity| US13/157,340|2011-06-10| PCT/US2012/041623|WO2012170861A2|2011-06-10|2012-06-08|Connector having a coupling member for locking onto a port and maintaining electrical continuity| 相关专利
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