Entries |
Document | Title | Date |
20080199140 | Coupler for Cable Trough - Elements, couplers, systems, and methods for joining two or more trough members. A locking element for a coupler of a cable trough system can include a main body with an aperture, a shaft extending through the aperture of the main body, the shaft being rotatable with respect to the main body, and a handle member coupled to a first end of the shaft. The locking element also includes a member coupled to a second end of the shaft, and a spring coupled to the main body, the spring rotating the shaft and the member into a locked position. | 08-21-2008 |
20080199141 | Optical cable exit trough - A cable exit trough is mountable to a lateral trough section either during initial assembly of the cable routing system, or at a later date. The exit trough includes a bracket portion mountable to the top edge of one of the sides of the lateral trough section. Two lead-ins are provided to lead the cable in an upward direction from the lateral trough section to the exit trough. The exit trough includes an exit trough portion extending from the bracket portion upwardly away from the lateral trough section. The exit trough portion includes a convexly curved bottom trough surface, and two convexly curved upstanding sides. The exit trough portion and the lead-ins define a cable pathway from the lateral trough section to an exit point of the exit trough portion which can either lead downwardly relative to the lateral trough section or horizontally. | 08-21-2008 |
20080232757 | Assemblies and Methods for Drop Cable - Assemblies and methods for installing and maintaining aerial fiber optic cable are provided. Embodiments include a cable long enough to extend from two elevated support points and to provide enough slack for at least a portion of the cable to extend along the ground. The cable includes a wrapped portion for storing the slack and to elevate the entire cable above the ground. The wrapped portion being releasable in response to a force acting on the cable, such as a falling tree, allowing for at least a portion of the cable to fall to the ground and minimize the likelihood of the tree snapping the cable. Fasteners and frame members may be employed to support the wrapped portion. An embodiment may also include a cut-off apparatus for cutting the cable in response to the cable being pulled further once any slack in the cable has been expended. | 09-25-2008 |
20080232758 | Optical module - An optical module which can be inserted into and removed from a cage, the optical module includes a lock pin inserted into a lock hole provided in the cage and engaging the cage and the optical module with each other in a state where the optical module is inserted into the cage; a tongue having an axial part and configured to be rotated with respect to the axial part in a direction where the insertion of the lock pin into the lock hole is released; and a bail configured to be rotated with respect to a rotational axel so that the tongue is rotated. The engagement of the cage and the optical module formed by insertion of the lock pin into the lock hole is released by rotating the bail 90 degrees. | 09-25-2008 |
20090060443 | OPTICAL POLISHING FIXTURE - An optical polishing fixture for securing one or more optical connectors can include a fixture base having a connector slot for receiving an optical connector and a clamping assembly mounted to the fixture base proximate the connector slot. The connector slot can be defined by at least one side wall defining a side wall plane and the clamping assembly can include a clamp pad moveable relative to the fixture base between a clamping position and a loading position. The clamp pad may move relative to the fixture base at an angle of less than 45 degrees relative to one of (i) a top surface of the fixture base, (ii) a plane perpendicular the side wall plane, or (iii) a plane defined by a portion of the fixture base top surface proximate to the connector slot. | 03-05-2009 |
20090067803 | Overhead cable termination arrangement - A system including an overhead cable pathway structure and an adapter panel or cable termination device that mounts overhead to the cable pathway structure. The cable termination device including a plurality of adapters and a cable pathway exit having a curved surface that guides cables exiting from the overhead cable pathway structure to the adapters. | 03-12-2009 |
20090175587 | Radius limiter and arrangement - A cable radius limiter having a radius limiting surface that prevents damage to cables due to excessive bending. The cable radius limiter includes mounting structure and cable retaining structure arranged such that the limiter can be operably oriented and mounted to a planar mounting surface in a number of mounting orientations. | 07-09-2009 |
20090238534 | CABLE PULLING ASSEMBLY - A cable pulling assembly includes a pulling sleeve, which includes a bore, and a base assembly. The base assembly is selectively engaged with the bore of the pulling sleeve. The base assembly includes a first base member and a second base member. The first and second base members cooperatively define a cable channel. The cable channel includes a plurality of gripping protrusions. A method of assembling a cable pulling assembly includes inserting a portion of a cable into a first channel of a first base member of a base assembly. The first channel in friction fit engagement with the cable. A second base member of the base assembly is engaged to the first base member. The second base member defines a second channel. A connectorized end of the cable is inserted into a bore of a pulling sleeve. The base assembly is engaged to the pulling sleeve. | 09-24-2009 |
20090269021 | Electro-optic device packages - A package design for electro-optic devices has been developed in which the substrate supporting the electro-optic element serves also as the base of the device housing. The electro-optic element is flip-chip bonded to the substrate. In a preferred embodiment the substrate is a multi-level wiring board. | 10-29-2009 |
20100021121 | METHOD FOR FORMING A COUPLING UNIT ON A LONG COMPOSITE FIBRE SECTION - In a method for the formation of an anchorage transmitting a longitudinal force, of an elongated composite fiber component, in particular in the form of a tension or pressure bar, which includes a thermoplastic matrix material and fibers embedded therein, on a force application element, which includes a cavity that accepts the composite fiber component over a connection section of its longitudinal extent, between the composite fiber component and the force application element a form-locking connection, acting in the longitudinal direction of the composite fiber component, is formed. For the formation of the form-locking connection the geometry of the composite fiber component, while its temperature is above the glass transition temperature of the matrix material of the composite fiber component in the connection section, is changed through a press force acting onto the external surface of the composite fiber component such that the cross sectional area of the connection section over its longitudinal extent is changed in terms of its areal enclosure. The diameter of the composite fiber component, with respect to at least one certain direction located at right angles to the longitudinal direction of the composite fiber component, is changed over the longitudinal extent of the connection section. | 01-28-2010 |
20100178022 | CABLE RETAINER ASSEMBLY AND METHOD FOR POSITIONING THE SAME - A cable retainer assembly comprising a cable retainer and a cable retainer bracket for retaining a cable to a fixed location. The cable retainer is positioned on an arbitrary portion of the cable and then secured to a cable retainer assembly such that one or more cables can be secured and organized. | 07-15-2010 |
20100202748 | hauling shroud for hauling fibre optic cable along a conduit - A hauling shroud, a cable termination and methods of hauling a fibre optic cable with a pre-connected optic termination along a conduit. The hauling shroud protects the optic termination when being hauled along the conduit. The hauling shroud includes a first housing member and a second housing member such that the first housing member and the second housing member can be joined together to enclose the optic termination. At least one anchoring member is used, for example, connecting pins, such that at least one strengthening element of the fibre optic cable engages with the anchoring member inside an internal cavity formed within the hauling shroud. Alternatively, at least two strengthening elements of the fibre optic cable are attached together to form a loop which engages with the at least one anchoring member, e.g., the connecting pins. This prevents any hauling forces from being applied to the optic termination. | 08-12-2010 |
20100215330 | Holding Device for a Cable or an Assembly for Use With a Cable - A holding device for a cable or an assembly like a trunk or furcation adapter for use with a cable, comprising: a cradle part adapted to hold the cable or the assembly for use with a cable; and a cover part to be mounted to a supporting structure, especially to a wall of a distribution device; whereby said cradle part when combined with said cover part can be rotated with respect to said cover part. | 08-26-2010 |
20100220969 | Fiber Optic Cable Pulling Strain Relief - A strain relief for distributing strain along an outer surface of an optical fiber cable is disclosed. The strain relief is shaped to surround and tangentially grip the cable via friction between the outer surface of the cable and an inner surface of the strain relief. The strain relief also includes a pulling eye to protect the cable (and a connector) from pulling force (i.e. strain), water and dust. The strain relief is relatively small, low cost and easy to use. | 09-02-2010 |
20100239221 | FIBER CLEAVING DEVICE - A fiber cleaving device comprising a clamp assembly, central moveable stage, right moveable stage, and diamond component. The diamond component comprises a diamond and a diamond oscillator. The clamp assembly secures a piece of bare glass fiber so that it is oriented roughly perpendicularly to the cutting edge of the diamond. The central moveable stage moves the diamond oscillator forward so that the cutting edge of the diamond comes into contact with the piece of bare glass fiber. The right moveable stage pulls the piece of bare glass fiber taught after it has been secured by the clamp assembly. The diamond oscillator is configured so that the diamond cleaves the piece of bare glass fiber at an effective cutting angle of approximately forty-five degrees or, alternately, in the range of thirty to sixty degrees. | 09-23-2010 |
20100247054 | HIGH SPEED RADIO FREQUENCY CABLE CONNECTOR INTERFACE STABILIZATION SYSTEMS AND METHODS - The present disclosure provides a cable connector interface stabilization system, including: a component; one or more cables coupled to the component through one or more connectors; a spacer block disposed adjacent to the one or more connectors; and a retention member disposed adjacent to the one or more connectors opposite the spacer block and selectively secured to the spacer block, thereby securing the one or more connectors, and thereby securing the one or more cables to the component. The spacer block disposed adjacent to the one or more connectors is attached to one of a board and a heatsink assembly. The spacer block and the retention member surround the one or more connectors. The spacer block and the retention member secure the one or more connectors and secure the one or more cables to the component such that the associated connector-to-component interface(s) are fixed and immovable, ensuring that the associated electrical parameter(s) remain constant over time. | 09-30-2010 |
20100266255 | Cable exit trough with cover - A cable exit trough with pivoting cover. The cover having a cover plate and a pivot plate hingedly mounted thereto for easy access to the trough. The exit trough may define an insert aperture for receiving modular cable management inserts. The modular insert providing an additional cable management device such as a curved guidewall. The cable management device may alternatively be fixed to the cable exit trough. Removable snap-mounted flanges may also be included in the exit trough. | 10-21-2010 |
20100272410 | RADIUS LIMITER CABLE RETENTION BRACKET, CLAMP AND PANEL - The present disclosure relates to a cable retention bracket including four sides defining an interior for containing fiber optic cables. One of the sides defines a pivoting closure member that defines a hinge axis generally transverse to the direction of cables passing through the cable retention bracket. At least one of the sides includes a curved surface defining a cable radius limiter surface for providing bend radius protection for the cables. The various sides are made from a sheet metal construction. The cable retention bracket is usable in a variety of panels, trays, and drawers for managing telecommunications cables. A cable clamp includes two threaded sockets, a pad member and an elongated cover positioned over the pad member, with first and second threaded fasteners mounting the cover over the pad member. | 10-28-2010 |
20100296792 | INTERFACE ASSEMBLY, CONSOLIDATION TOOLING AND METHOD OF MOUNTING AN INTERFACE ASSEMBLY TO A SUBSTRATE - An assembly, in particular for interfacing an embedded element, in particular a waveguide, at the surface of a substrate, such as a composite panel which forms part of a vehicle, typically an aircraft, to an external module, consolidation tooling for mounting an assembly to a substrate, and a method of mounting an assembly to a substrate. | 11-25-2010 |
20100316347 | CABLE PULLING ASSEMBLY - A cable pulling assembly includes an enclosure that is adapted for enclosing a connector of a fiber optic cable. The enclosure includes a body having a base portion and a cover portion. The base portion includes a first axial end and a second axial end and defines a first connector cavity. The first connector cavity is adapted to receive a portion of the connector of the fiber optic cable. The cover portion includes a first axial end and an oppositely disposed second axial end. The second axial end is engaged to the second axial end of the base portion at a hinge. The cover portion defines a second connector cavity that is adapted to receive a remaining portion of the connector. The enclosure defines a hole that extends through the base and cover portions. The hole is adapted to receive a pulling member. | 12-16-2010 |
20100322584 | CABLE PULLING ASSEMBLY - A cable pulling assembly includes an enclosure that is adapted for enclosing an end of a fiber optic cable. The enclosure includes a first member that defines a first cavity. The first cavity is adapted to receive a portion of the end of the fiber optic cable. The enclosure further includes a second member that is selectively engaged to the first member. The second member defines a second cavity. The second member is structurally identical to the first member. The enclosure is adapted to transfer a tensile force applied to the enclosure to the strength layer of the fiber optic cable. | 12-23-2010 |
20110038592 | OPTICAL FIBER ADAPTER - A fiber optic adapter releasably retains at least one optical fiber connector and includes a body portion having a first side, a second side, and a through-opening between the first side and the second side, a first housing projecting from the body portion first side, the first housing including a bore for receiving the at least one optical fiber connector and having at least one sidewall and an end wall, the housing overlying the through-opening, and a retainer mountable on the first housing and including first and second flexible arms for engaging opposite sides of the first housing to attach the retainer to the first housing, the retainer including at least one projection configured to block the removal of the at least one optical fiber connector from the bore when the flexible arms engage the opposite sides of the first housing. | 02-17-2011 |
20110135268 | CABLE PULLING ASSEMBLY - A fiber optic cable assembly includes a fiber optic cable and a cable pulling assembly. The fiber optic cable includes a first end and an oppositely disposed second end. The fiber optic cable further includes an outer jacket and a strength member disposed in the outer jacket. The cable pulling assembly is engaged to the second end of the fiber optic cable. The cable pulling assembly includes an enclosure defining a cavity. The second end of the fiber optic cable is disposed in the cavity. An adhesive is disposed in the cavity. The adhesive secures the strength member of the fiber optic cable to the enclosure. | 06-09-2011 |
20110194830 | FIBER OPTIC CABLE CONTROL CLIPS AND ENCLOSURE ASSEMBLIES AND METHODS INCORPORATING THE SAME - An enclosure assembly for use with a fiber optic cable, the cable having a lengthwise cable axis and including a plurality of optical fibers and a jacket surrounding the optical fibers includes an enclosure housing and a cable control clip. The enclosure housing defines a chamber to receive the cable. The cable control clip is configured to be inserted through the cable to extend radially between the optical fibers and the jacket to limit contact between the optical fibers and one or more other components of the cable, and to limit displacement of the enclosure housing relative to the cable when the cable control clip is disposed in the chamber. | 08-11-2011 |
20110211801 | Cable Routing Guide With Cable Retainer - A cable routing guide having an arm with a first end and a second end is disclosed. The arm is adapted to attach the cable routing guide to a structure at the first end. A guide piece attaches to the arm at the second end. The guide piece has sides that enclose a passage adapted to receive at least one cable. The sides are concave, bowing toward the passage. The retainer is configured to maintain the at least one cable within the passage until the at least one cable is intentionally removed. The retainer has a retainer clip and/or a slot that allows the at least one cable to be received by the guide piece and to remain maintained within the guide piece until the at least one cable is intentionally removed. The slot may be at an angle to the longitudinal axis of the at least one cable. Additionally, the slot may be curvilinear or v-shaped. An attachment bracket connects to the first end of the arm. The attachment bracket may be connected at an angle to the longitudinal axis of the arm. The angle may be between about 0 degrees and 90 degrees. The cable routing guide may attach to the structure using the attachment bracket. A brace may be attached to the arm to support the cable routing guide. | 09-01-2011 |
20110229103 | OPTICAL CABLE EXIT TROUGH - A cable exit trough is mountable to a lateral trough section either during initial assembly of the cable routing system, or at a later date. The exit trough includes a bracket portion mountable to the top edge of one of the sides of the lateral trough section. Two lead-ins are provided to lead the cable in an upward direction from the lateral trough section to the exit trough. The exit trough includes an exit trough portion extending from the bracket portion upwardly away from the lateral trough section. The exit trough portion includes a convexly curved bottom trough surface, and two convexly curved upstanding sides. The exit trough portion and the lead-ins define a cable pathway from the lateral trough section to an exit point of the exit trough portion which can either lead downwardly relative to the lateral trough section, or horizontally. | 09-22-2011 |
20120002935 | STRAIN RELIEF DEVICE - The invention relates to a strain relief device ( | 01-05-2012 |
20120045187 | OPTICAL TRANSCEIVER ASSEMBLY - Techniques are disclosed that allow an optical transceiver module to be secured to a surface. In one example, an optical transceiver assembly includes an optical transceiver module, and a compressible support clip configured to engage the optical transceiver module, the support clip configured to receive at least a portion of a surface defining an aperture in order to at least partially support the optical transceiver module within the aperture. | 02-23-2012 |
20120087628 | FIBER OPTIC CABLE PASS-THRU FITTING - A cable pass-thru assembly includes a fiber optic cable and a cable pass-thru fitting. The fiber optic cable includes an optical fiber and a strength member. The cable pass-thru fitting is adapted to receive at least a portion of the fiber optic cable. The cable pass-thru fitting includes a fitting assembly having a body defining a thru-bore that extends through the body. The thru-bore includes a tapered portion. The cable pass-thru fitting further includes a cable retention member adapted for engagement with the tapered portion of the body. The cable retention member defines a plurality of through which the strength member of the fiber optic cable is routed. The plurality of grooves is adapted to secure the strength member when the cable retention member is inserted into the thru-bore. | 04-12-2012 |
20120106914 | FIBER OPTIC CABLE PASS-THRU FITTING - A cable pass-thru assembly includes a fiber optic cable and a cable pass-thru fitting. The fiber optic cable includes an optical fiber and a strength member. The cable pass-thru fitting is adapted to receive at least a portion of the fiber optic cable. The cable pass-thru fitting includes a housing assembly and an insert assembly. The housing assembly defines a bore. The insert assembly is adapted for engagement with the housing assembly. At least a portion of the insert assembly is disposed in the bore of the housing assembly. The insert assembly includes a nozzle and a retention member. The nozzle defines a cable passage through which the optical fiber of the fiber optic cable passes. The retention member is engaged with the nozzle so that the strength member is captured between the nozzle and the retention member. | 05-03-2012 |
20120128312 | OPTICAL CABLE GRIPPING MEMBER - An optical cable gripping member which prevents the kinds of splicing devices from being diversified, thereby enabling reduction of the labor of component management and lowering of the production cost to be realized is obtained. | 05-24-2012 |
20120141085 | FIBER CLAMP MECHANISM - A fiber clamp mechanism of an optical fiber fusion splicer includes a fiber receiving base and a clamp tip attached to a tip of a stay, in which the fiber receiving base is formed to have a substantially L-shaped cross section in which a thin-walled projecting piece is provided to project upward, and a V-groove with a thin wall holding an optical fiber is formed on an upper surface of the projecting piece, the clamp tip is formed to have a substantially L-shaped cross section in which a projecting piece having a V-shaped pressing portion with a thin wall formed along the V-groove projects downward and is fixed to the tip of the stay, and a tip of the V-shaped pressing portion is formed to have an R-shape along an axial direction of the optical fiber. | 06-07-2012 |
20120177335 | LOCKING DEVICE AND METHOD FOR USE WITH A MULTI-FIBER PUSH ON (MPO) CONNECTOR MODULE TO PREVENT THE MPO CONNECTOR MODULE FROM BEING DECOUPLED FROM A RECEPTACLE - A locking device is provided that is configured to be attached to the MPO connector module and placed in a locking state that prevents the MPO connector module from being decoupled from the receptacle. The locking device may be a locking clip that is configured to be inserted into a keying slot formed in an MPO connector module. When the locking clip is inserted into the keying slot and placed in a locking state, the locking clip prevents the MPO connector module from being decoupled from the receptacle. If the locking clip is placed in an unlocking state, a tool or fingers can be used to extract the locking clip from the keying slot, thereby making it possible to decouple the MPO connector module from the receptacle. | 07-12-2012 |
20120251067 | FIBER OPTIC ADAPTERS AND CONNECTOR DEVICES WITH MOUNTING FEATURES AND MOUNTING SYSTEMS AND METHODS INCLUDING SAME - A fiber optic adapter system includes a fiber optic adapter and a mounting bracket. The fiber optic adapter includes a first interlock feature. The mounting bracket defines a channel having a longitudinal channel axis and a longitudinally extending lateral side opening. The mounting bracket includes a second interlock feature. The fiber optic adapter and the mounting bracket are relatively configured to enable a user to interlock the first and second interlock features to secure the fiber optic adapter to the mounting bracket by inserting the fiber optic adapter into the channel through the lateral side opening in an insertion direction transverse to the channel axis. | 10-04-2012 |
20120263426 | OPTICAL FIBER ACCESS TERMINAL AND ITS OPTICAL FIBER INTERFACE PROTECTIVE CAP - This invention relates to an optical fiber access terminal and its terminal parts, specifically to an optical fiber interface protective cap for the terminal body. An optical fiber access terminal includes a terminal body and a protective cap. The terminal body provides an incision from which an optical fiber splice is exposed. The protective cap covering the incision includes a front end, a rear end, an upside, an underside, a right side and a left side portion. The front end portion has a wire outlet through which an optical fiber passes. The rear end portion has an opening receiving the optical fiber splice. The left side portion has a clamping part clamped with the terminal body. The front end, the rear end, the upside, the underside, the right side and the left side portion make a cavity in which the optical fiber and the optical fiber splice are connected. | 10-18-2012 |
20120288250 | Cable Ground Clamp Assembly - A grounding clamp assembly for a cable having a spiral metal shield employs a first clamp and a second clamp. The clamps have concave cradles. The clamps are forced together around the cable. A biased contact element connects with a conductive strip extending from one of the clamps. The cable is captured between the cradles, and the contact element engages the shield. | 11-15-2012 |
20120294581 | Adjustable Trough-Couplers - A telecommunications infrastructure includes first and second trough members for routing signal-carrying fibers. Coupling members may be used to adjustably couple a first trough member arranged alongside a second trough member together. Coupling members may also be used to adjustably couple a first trough member together with a second trough member terminating at the first trough member. | 11-22-2012 |
20130028568 | FIBER OPTIC CABLES SEAL AND/OR STRAIN RELIEF MEMBERS, AND RELATED ASSEMBLIES AND METHODS - Fiber optic cables seal and/or strain relief members and related assemblies and methods are disclosed. In one embodiment, an elongated member is provided that facilitates providing sealing and/or strain relief of a portion of multiple fiber optic cables not enclosed within a common outer cable jacket or sheath when disposed through the opening of the fiber optic terminal. In one embodiment, the elongated member includes a sealing portion configured to facilitate sealing of a fiber optic terminal opening when the multiple fiber optic cables are received in the sealing portion and the elongated member is disposed through the opening of the fiber optic terminal. In another embodiment, the elongated member includes a strain relief portion on a second end configured to receive and provide strain relief to the multiple fiber optic cables disposed inside the fiber optic terminal, when the elongated member is disposed through the fiber optic terminal opening. | 01-31-2013 |
20130129301 | OPTICAL FIBER CLAMP AND METHOD OF CLAMPING OPTICAL FIBER - A device for setting an optical fiber in place is comprised of: a pedestal capable of supporting the optical fiber; a clamper having the optical fiber gripped between the clamper and the pedestal; and a pressure device having a first elastic member bearing a first load area, a second elastic member bearing a second load area distinct from the first load area, and a limiter device limiting a deformation range of the second elastic member, the pressure device being so linked with the clamper as to, in the deformation range, cause the second elastic member to pressurize the clamper, and, after reaching a limit of the deformation range, cause the first elastic member to pressurize the clamper. | 05-23-2013 |
20130148937 | SYSTEMS AND METHODS FOR THE MANAGEMENT OF FIBER OPTIC CABLES - The present disclosure relates to a fiber optic retention device to properly accommodate for cable management arrangements and schemes in telecommunication infrastructures that are massive in scale and/or require subsequent adaptation of the infrastructures. One embodiment includes a C-shaped opening with a door that snap mounts to the body with two snaps and pivot posts. One embodiment includes a C-shaped opening with a door that snap mounts to the body and is retained by a living hinge on an opposite end. One embodiment includes a C-shaped opening with flexible fingers that retain the cables within the opening. One embodiment includes a C-shaped opening with a door which moves parallel to a front opening. The door includes an angled surface to allow cables pressed onto the angled surface to move the door against a biasing member. | 06-13-2013 |
20130209052 | Adapter Retaining Systems - An adapter retaining system comprises an adapter, an adapter pack, and a retaining base. The retaining base allows the adapter pack to slide in a direction substantially parallel to a surface of the retaining base and prevents the adapter pack from moving in a direction substantially perpendicular to the surface. In another embodiment, an adapter retaining system comprises an adapter, an adapter pack, and an adapter plate. The adapter pack rotates about an axis substantially perpendicular to a surface of the adapter plate. In another embodiment, an adapter retaining system comprises an adapter, an adapter pack, and an adapter plate having a curved adapter post. The adapter pack slidably engages the adapter post. In another embodiment, an adapter retaining system comprises an adapter, and an adapter plate having a pair of adapter posts. The adapter posts directly receive the adapter. | 08-15-2013 |
20130223808 | CABLE CLAMP ASSEMBLY AND METHOD FOR A FLAT FIBER OPTIC CABLE - A cable clamp assembly and a cable clamp method for a flat fiber optic cable are disclosed. The assembly includes a wedge-shaped outer shell with a bottom wall having a friction inner surface with a longitudinal central recess formed therein. The flat fiber optic cable resides within the interior of the outer shell and is supported by the friction inner surface. A shim having two parallel rows of protrusions fits within the interior of the outer shell with the protrusions being in contact with the fiber optic cable. The assembly includes a wedge insert having two outer ridges that substantially align with the two rows of protrusions. When the wedge insert matingly engages the outer shell, the outer ridges press down on the protrusions, which in turn press down on the fiber optic cable mainly at the locations where longitudinal dielectric strength members reside. | 08-29-2013 |
20130251327 | TRAVERSE MODULE - A traverse module includes a frame, a guiding shaft, an optical module, a cover, and a conductive member. The guiding shaft is mounted to the frame. The optical module is slidably mounted to the guiding shaft, and the optical module is capable of generating high frequency electrical signals which cause electro magnetic interference. The high frequency electrical signals are capable of flowing to the guiding shaft. The cover is grounded, the cover covers the frame. The conductive member projects from the cover and tightly clamps the guiding shaft, and the high frequency electrical signals generated by the optical module can flow to ground by using the conductive member. | 09-26-2013 |
20130287360 | FIBER OPTIC ENCLOSURES EMPLOYING CLAMPING ASSEMBLIES FOR STRAIN RELIEF OF CABLES, AND RELATED ASSEMBLIES AND METHODS - Fiber optic enclosures employing clamping assemblies for strain relief cables and related assemblies and methods are disclosed. The fiber optic enclosures may be part of a fiber optic terminal in a fiber optic network. The fiber optic enclosures may include openings in the walls of the fiber optic enclosure. A cable fitting assembly may be attached to a portion of the wall around an opening to form a passageway for fiber optic cables to enter the fiber optic enclosure. An elongated member may be used to guide the fiber optic cables through the passageway. The elongated member may have a first end and second end. The elongated member may include a clamping assembly at the first end to provide strain relief to the fiber optic cables by clamping strength members of the fiber optic cables. | 10-31-2013 |
20130315551 | FILLER ROD FOR CABLE SEAL AND METHOD - Optical fiber cables ( | 11-28-2013 |
20140010514 | METAL STRAIN RELIEF DEVICE FOR USE IN AN OPTICAL COMMUNICATIONS SYSTEM, AN OPTICAL FIBER CABLE THAT EMPLOYS THE STRAIN RELIEF DEVICE, AND A METHOD - A strain relief device and method are provided for use with an optical fiber cable of an optical communications system. The strain relief device comprises a plurality of metal wires, or rods, grouped into a bundle of parallel metal wires and a clamping mechanism for clamping first and second ends of the metal wires to an optical fiber cable. The clamped bundle of metal wires forms a spring having a spring constant that provides it with a desired stiffness and a desired flexibility. | 01-09-2014 |
20140037260 | PLUG RETENTION APPARATUS - Various embodiments are disclosed for a plug retention apparatus, which includes: a male retention portion including a first flexible clasp for applying a retaining force to a plug assembly inserted therein, the male retention portion further including a ratchet member configured with a toothed bar: and a female retention portion including a second flexible clasp for applying a retaining force to the plug assembly inserted therein, the female retention portion further including an opening to receive the ratchet member of the male retention portion, the female retention portion further including a pawl configured to engage the toothed bar of the ratchet member. | 02-06-2014 |
20140079366 | PLATFORMS AND SYSTEMS FOR FIBER OPTIC CABLE ATTACHMENT - Platforms for connecting fiber optic cable assemblies to fiber optic equipment using a universal footprint are disclosed. In one embodiment, a platform for connecting at least one fiber optic cable assembly to fiber optic equipment includes a coupling surface having at least one cable engagement feature, wherein the at least one cable engagement feature is configured to couple the at least one fiber optic cable assembly to the coupling surface, and a plurality of plate engagement features configured to be removably coupled to a plurality of equipment engagement features positioned on the fiber optic equipment. Fiber optic cable assembly coupling systems for coupling fiber optic cable assemblies to fiber optic equipment are also disclosed. | 03-20-2014 |
20140133821 | Fiber Optic Connector Adapter - A fiber optic adapter includes a mounting block having a first opening and a through opening extending into the mounting block from the first opening with a seat for receiving a body portion of a fiber optic connector and at least one flexible projection with a first end defining an aperture that is smaller than the first opening. The at least one flexible projection is configured to flex away from a rest position and away from a longitudinal axis of the through opening to allow the body portion of the fiber optic connector to reach the seat and configured to return toward the rest position when the fiber optic connector reaches the seat and to substantially prevent the removal of the fiber optic connector in a direction opposite its insertion direction when the at least one flexible projection is in the rest position. | 05-15-2014 |
20140153893 | DUCTS TO SUPPORT A DROP ACCESS LOCATION SYSTEM FOR HORIZONTAL CABLING IN MULTI-DWELLING UNIT APPLICATIONS - A duct for distributing one or more optical fiber communication lines. The duct comprises an elongated main body having a length and a conduit portion with a lengthwise bore formed therein. The conduit portion contains one or more optical fiber communications lines. The duct also includes a flange portion extending lengthwise adjacent the main body to mount the duct to a generally flat surface, wherein the duct further includes an additional fiber channel for distributing at least one additional optical fiber at least a portion of the length of the duct. The duct can also be formed as a two piece duct system. The duct can be utilized in a drop access location system for horizontal cabling in multi-dwelling unit (MDU) applications. | 06-05-2014 |
20140270677 | ANCHORING CABLES TO RACK WITH SELF-LOCKING CABLE CLAMP ARRANGEMENTS - A self-locking cable clamp arrangement includes a bracket and a flexible tab disposed on the bracket. The bracket has a cable mounting region, a first engagement region, and a support region disposed therebetween. A cable can be clamped to the cable mounting region. The support region defining two members spaced apart sufficient to enable an edge of the panel to extend partially therebetween. The flexible tab can be selectively coupled to the cable mounting region and to the first engagement region. The clamp arrangement mounts to the panel by sliding the bracket downwardly through an open-ended slot defined in the panel until the tab is received within a cutout portion of the panel to secure the bracket to the panel. | 09-18-2014 |
20140334792 | LOW PROFILE COPPER AND FIBER OPTIC CASSETTES - A multi-port or multi-outlet cassette that may be configured as a low profile, high-density cassette. Selected embodiments include a bezel member having a projection positioned between each adjacent pair of outlets to help reduce crosstalk. A releasable latch mechanism may be included that is configured to selectively latch and unlatch the cassette to a patch panel. Embodiments configured for use with fiber optic cables may include a movable connector member. A cable connector may be mounted to the movable connector member to move therewith as a unit. Moving the movable connector member determines an angle of the cable connector relative to the panel. Angles may be selected to reduce stress on a cable connected to the cable connector. In particular, it may be desirable to position the cable connector such that it is orthogonal to the panel. | 11-13-2014 |
20140341523 | OVERHEAD CABLE TERMINATION ARRANGEMENT - A telecommunications apparatus ( | 11-20-2014 |
20140348482 | HOLDING FIXTURE FOR HOLDING AT LEAST ONE CABLE WITH AN AFFIXING MEMBER AND A CLAMPING MEMBER - The invention relates to a holding fixture ( | 11-27-2014 |
20150030303 | Strain Relief for Armored Cable - A strain relief device for armored fiber optic cable is described. The strain relief device can made up of a boot collet and a collet nut. The boot collet can have a collet, flexible boot, boot collet threads, and a camming surface. The collet nut can have collet nut threads and a collet nut slope. The strain relief device operates by having the camming surface engage the collet nut slope, causing the collet to compress onto the armor sheath when the boot collet threads engage the collet nut threads as the collet nut is tightened onto the boot collet. | 01-29-2015 |
20150139599 | OPTICAL CABLE EXIT TROUGH - A cable exit trough is mountable to a lateral trough section either during initial assembly of the cable routing system, or at a later date. The exit trough includes a bracket portion mountable to the top edge of one of the sides of the lateral trough section. Two lead-ins are provided to lead the cable in an upward direction from the lateral trough section to the exit trough. The exit trough includes an exit trough portion extending from the bracket portion upwardly away from the lateral trough section. The exit trough portion includes a convexly curved bottom trough surface, and two convexly curved upstanding sides. The exit trough portion and the lead-ins define a cable pathway from the lateral trough section to an exit point of the exit trough portion which can either lead downwardly relative to the lateral trough section, or horizontally. | 05-21-2015 |
20150309275 | ZERO STRESS FIBER OPTIC FLUID CONNECTOR - A system and method for passing a fiber cable through a fiber connector is presented. A fiber connector includes an outer body and a series of flutes inside the outer body. The outer body forms an interior chamber that has a first opening and a second opening. The first opening allows a coolant to flow into the first opening and the first and second openings allow the fiber cable to pass through the first opening and the second opening and through the fiber connector. A series of flutes are attached to an inner surface of the outer body and extend into the interior chamber. The flutes are spaced apart from each other and extend from the inner surface toward the fiber cable but do not touch the fiber cable when no liquid is flowing in the fiber connector. | 10-29-2015 |
20160077300 | OPTICAL FIBER DISTRIBUTION SYSTEM - A cable mount for fixing a strength member of a fiber optic cable to a fixture includes a front end, a rear end, and a longitudinal channel therebetween, the channel defined by upper and lower transverse walls and a vertical divider wall. The channel receives a portion of the cable. A strength member pocket receives the strength member of the cable, the pocket located on an opposite side of the divider wall from the longitudinal channel, the pocket communicating with the longitudinal channel through an opening on the divider wall. A strength member clamp fixes the strength member of the cable against axial pull. Cable management structures in the form of spools define at least one notch that communicates with the longitudinal channel for guiding optical fibers extending from a jacket either upwardly or downwardly therethrough. The cable mount also allows routing of the optical fibers through the longitudinal channel all the way from the rear end to the front end. | 03-17-2016 |
20160097908 | Coupler for Cable Trough - Couplers for a cable trough system including a terminal end sized to receive a terminal end of a trough member along a longitudinal direction of the body. A spring may be coupled to the body for securing the terminal end of the trough member to the coupler, the spring including first and second spring arms extending generally in opposition to one another in a plane generally parallel to the longitudinal direction. The spring may be received in a slot formed by the trough member. Also included may be a spring release mechanism coupled to the body, the spring release mechanism sliding in the longitudinal direction between a locked position, such that the first and second spring arms engage the terminal end of the trough, and an unlocked position, such that the first and second fingers release the first and second arms of the spring. | 04-07-2016 |
20160097910 | Clamp and Bending Strain Relief Apparatus and Methods - Clamp and Bending Strain Relief (BSR) system and method are disclosed. One example of a system can include a clamp coupled to a cable. The clamp is configured to couple an apparatus to the cable while allowing the cable to pass continuously through the clamp. A BSR apparatus is coupled to the clamp and the cable by a housing. | 04-07-2016 |
20160105009 | ADHESIVE-BACKED COMMUNICATIONS MEDIA CABLING AND SYSTEM - An adhesive-backed communications media cable includes a duct having a conduit portion with a lengthwise bore formed therein. The conduit portion includes an Ethernet over twisted pair communication line. The duct also includes a flange extending lengthwise with the conduit portion. An adhesive layer is disposed on a surface of the flange such that the duct is mountable to a mounting surface via the adhesive layer. A system for distributing multiple communications media lines in a living unit includes a multimedia receptacle mountable on a wall or mounting surface and an adhesive-backed communications media duct. | 04-14-2016 |
20160109674 | SPLICE HOLDER - A splice holder is disclosed comprising elongate opposed members each comprising a plurality of splice receivers each comprising an inner surface defining a plurality of apertures for deceiving a plurality if different diameters of optic fibre splices. | 04-21-2016 |
20160116700 | CABLE ROUTING SYSTEM EXIT STRUCTURE - An example exit structure for a cable routing system includes: a fitting configured to be coupled to a lateral trough, the fitting including first and second arms extending perpendicularly with respect to a longitudinal direction; a plate positioned relative to the fitting, wherein the plate is configured to slide relative to the fitting to adjust a distance the plate extends perpendicularly from a base of the lateral trough; and an exit component coupled to the plate, the exit component defining a surface directing a fiber optic cable out of the exit structure. | 04-28-2016 |
20160124172 | PANEL-MOUNTABLE FIBER OPTIC CABLE FEEDTHROUGH - A novel panel-mountable fiber optic cable feedthrough is described that has two main body parts that can be brought together around a fiber optic cable and secured in place to prevent slippage of the cable. Use of two such main body parts that split along a plane that passes through the axis of the fiber optic cable allows joining the two main parts at any position along the cable without the need to thread the cable through a pre-formed cylindrical cavity in the body of the feedthrough. The main parts for this fiber optic feedthrough can be made by plastic injection molding suitably shaped to relieve bending strain in the glass optical fiber(s) within the cable. The foot-print for mounting such a feedthrough can be made compatible with that of a number of popular fiber optic connector mounts, including the SC-connector. | 05-05-2016 |
20160170164 | CLAMPING AND ATTACHMENT DEVICE FOR CABLE ELEMENT | 06-16-2016 |
20160202439 | GROMMET FOR CABLE HANGER | 07-14-2016 |
20160202440 | GROMMET FOR CABLE HANGER | 07-14-2016 |
20160252698 | METHOD, SYSTEM, AND APPARATUS FOR INSTALLATION OF OPTICAL FIBER CABLE | 09-01-2016 |
20170235082 | DEVICE FOR BRANCHING A CABLE FROM A MID-SPAN LOCATION | 08-17-2017 |
20170235084 | OPTICAL FIBER DISTRIBUTION SYSTEM | 08-17-2017 |
20190146163 | OPTICAL ALIGNMENT OF FIBER-OPTIC ROTARY JOINT ASSEMBLY | 05-16-2019 |
20190146170 | FIBER OPTIC CABLE EXTERNAL SHIELD CONNECTOR | 05-16-2019 |