CABLE ENCLOSURE HAVING A SEAL PORTION STRUCTURALLY CONFIGURED TO PROVIDE A SEALED ENCLOSURE AT MULTIPLE POSITIONS OF A COVER PORTION RELATIVE TO A BASE PORTION
An enclosure may be structurally configured to provide a sealed enclosure at multiple positions of a cover portion relative to a base portion. The enclosure may include a base portion having a base wall portion, a cover portion structurally configured to attach the base portion and including a cover wall portion, and a sealing portion structurally configured to be positioned between the cover wall portion and the base wall portion. The base wall portion and the cover wall portion may be configured to be disposed in a configuration such that base wall angle and the cover wall angle may be configured to provide a weatherproof seal between the cover wall portion and the base wall portion at multiple positions of the cover portion relative to the base portion, so as to provide a sealed enclosure at multiple positions of the cover portion relative to the base portion.
A street cabinet arrangement (100) including a box portion (101) configured to house contents of a communications network therein and a base portion (102) configured to be disposed underground and having a portion that is configured to support the box portion (101). The base portion (102) includes a projection base portion (140) configured to extend from a main base portion (130). At least a portion of the main base portion (130) may be configured to be disposed underground beneath a footpath (103) with a longitudinal dimension of the main base portion (130) and a longitudinal dimension of the projection base portion (140) extending parallel to one another and to the footpath (103) such that at least a portion of the projection base portion (140) is disposed outside of the footpath (103) and configured to support the box portion (101) outside of the footpath (103) with an access portion of the box portion (101) configured to extend parallel to the footpath (103) and facing the footpath (103) so as to provide enhanced access to contents of the box portion (101) from the footpath (103) without obstructing the footpath with the box portion (103).
A frame portion may be configured to provide enhanced load-bearing capacity for a ground shaft that is configured to delimit a cavity. The frame portion may include a first longitudinal wall portion and a second longitudinal wall portion, and a first lateral wall portion and a second lateral wall portion configured to be coupled with the first longitudinal wall portion and a second longitudinal wall portion. At least a portion of the first longitudinal wall portion may comprise plastic. The first longitudinal wall portion may include a tensioning portion structurally configured to counteract a deformation force acting on an exterior side portion of the first longitudinal wall in a direction toward an interior of the frame portion so as to enhance load-bearing capacity of the first longitudinal wall portion.
A cable retainer for a port of an enclosure is configured to permit a pre- connectorized cable to be inserted into and removed from the port with a connector attached to the cable, including a cable retaining portion configured to receive a cable. The cable retaining portion comprises a cable receiving portion; the cable receiving portion comprises a cable engaging portion; the cable receiving portion is configured to align with an opening in a sealing portion so as to permit the cable to extend through both the cable receiving portion and the opening; and the cable engaging portion is configured to grip a cable that runs through a port such that the retainer limits axial movement of the cable relative to the port so as to limit tension strain on the cable.
A frame portion may be configured to provide enhanced load-bearing capacity for a ground shaft that is configured to delimit a cavity. The frame portion may include a first longitudinal wall portion and a second longitudinal wall portion, and a first lateral wall portion and a second lateral wall portion configured to be coupled with the first longitudinal wall portion and a second longitudinal wall portion. At least a portion of the first longitudinal wall portion may comprise plastic. The first longitudinal wall portion may include a tensioning portion structurally configured to counteract a deformation force acting on an exterior side portion of the first longitudinal wall in a direction toward an interior of the frame portion so as to enhance load-bearing capacity of the first longitudinal wall portion.
E02D 29/05 - Ouvrages souterrains, p.ex. tunnels ou galeries, creusés à ciel ouvert ou par des procédés impliquant une perturbation de la surface du sol tout le long du tracé; Leurs procédés de construction au moins une partie de la section transversale étant construite dans une excavation ouverte ou à partir de la surface du sol, p.ex. assemblée dans une tranchée
7.
STREET CABINET ARRANGEMENT HAVING A BASE PORTION CONFIGURED TO BE DISPOSED UNDERGROUND BENEATH A FOOTPATH AND TO PROVIDE SUPPORT FOR A BOX PORTION TO BE DISPOSED OUTSIDE OF THE FOOTPATH SO AS TO PROVIDE ENHANCED ACCESS TO CONTENTS OF THE BOX PORTION WITHOUT OBSTRUCTING THE FOOTPATH
A street cabinet arrangement may include a box portion configured to house contents of a communications network therein and a base portion configured to be disposed underground and having a portion that is configured to support the box portion. The base portion may include a projection base portion configured to extend from the main base portion. At least a portion of the main base portion may be configured to be disposed underground beneath a footpath with a longitudinal dimension of the main base portion and a longitudinal dimension of the projection base portion extending parallel to one another and to the footpath such that at least a portion of the projection base portion is disposed outside of the footpath and configured to support the box portion outside of the footpath with an access portion of the box portion configured to extend parallel to the footpath and facing the footpath so as to provide enhanced access to contents of the box portion from the footpath without obstructing the footpath with the box portion.
A cable access terminal includes: a base; a moving portion attached to the base; and a cover that is configured to prevent access to an upper area of the moving portion. The moving portion may be configured to prevent access to a base area in a closed position; the cover may be configured to prevent access to a first side of an adapter as a result of the cover being secured to the moving portion; and the moving portion may be structurally configured to permit access to the first side of the adapter and to the base area when the fastener is removed and to prevent access to the first side of the adapter and to the base area, while permitting access to the second side of the adapter, when the fastener is in place, so as to provide only limited access to users unauthorized to access the base area.
A cable access terminal includes: a base; a moving portion attached to the base; and a cover that is configured to prevent access to an upper area of the moving portion. The moving portion may be configured to prevent access to a base area in a closed position; the cover may be configured to prevent access to a first side of an adapter as a result of the cover being secured to the moving portion; and the moving portion may be structurally configured to permit access to the first side of the adapter and to the base area when the fastener is removed and to prevent access to the first side of the adapter and to the base area, while permitting access to the second side of the adapter, when the fastener is in place, so as to provide only limited access to users unauthorized to access the base area.
G02B 6/44 - Structures mécaniques pour assurer la résistance à la traction et la protection externe des fibres, p.ex. câbles de transmission optique
10.
ASSEMBLIES FOR PULLING, PUSHING, OR BLOWING A PLURALITY OF PRETERMINATED FIBER OPTIC CABLES THROUGH A DUCT AND ASSEMBLING A FIBER OPTIC CONNECTOR INCLUDING THE PRETERMINATED FIBER OPTIC CABLE AFTER BEING PULLED, PUSHED, OR BLOWN THROUGH THE DUCT
An assembly for pulling, pushing, or blowing a plurality of preterminated fiber optic cables of a multi fiber cable through a duct includes a sleeve, a rod configured to be coupled with the sleeve, and a plurality of dust caps. The sleeve is configured to receive to be coupled with a multi fiber cable and to permit a plurality of preterminated fiber optic cables of the multi fiber cable to pass through the sleeve, and the rod includes a first end configured to be coupled with the sleeve. Each of the plurality of dust caps is configured to be coupled with a ferrule of one of the preterminated fiber optic cables, and each of the plurality of dust caps is configured to be coupled with the rod, thereby coupling the preterminated fiber optic cables with the rod. The preterminated fiber optic cables are configured to be assembled with a fiber optic connector, the deployment assembly has a cross-sectional footprint that is smaller than a cross-sectional footprint of a fiber optic connector that is configured to be assembled with the preterminated fiber optic cable, and the plurality of preterminated fiber optic cables are configured to be pushed, pulled, or blown together through a duct having an inner diameter than is less than a cross-sectional footprint of a fiber optic connector that is configured to be assembled with the preterminated fiber optic cable.
G02B 6/50 - Installation souterraine ou sous l'eau; Installation à travers des tubes, des conduits ou des canalisations
G02B 6/44 - Structures mécaniques pour assurer la résistance à la traction et la protection externe des fibres, p.ex. câbles de transmission optique
G02B 6/46 - Procédés ou appareils adaptés à l'installation de fibres optiques ou de câbles optiques
G02B 6/54 - Installation souterraine ou sous l'eau; Installation à travers des tubes, des conduits ou des canalisations en utilisant des moyens mécaniques, p.ex. des dispositifs pour tirer ou pousser
A container system for protecting a component from impact includes a container configured to contain a second container therein with a cover of the second container being adjacent to a cover of the container. An impact reducing portion is configured to extend from an outer surface of the cover of the container in a direction away from the cover of the second container; the impact reducing portion is configured to deform in response to an impact force on the impact reducing portion that is less than a minimum impact force in response to which the cover is configured to deform; and the impact reducing portion is structurally configured to prevent an impact force on the impact reducing portion that is less than the minimum impact force from being transferred to the second container so as to protect the second container and an electronic component container in the second container.
B65D 81/02 - Réceptacles, éléments d'emballage ou paquets pour contenus présentant des problèmes particuliers de stockage ou de transport ou adaptés pour servir à d'autres fins que l'emballage après avoir été vidés de leur contenu spécialement adaptés pour protéger leur contenu des dommages mécaniques
13.
PRINTED CIRCUIT SPARK GAP WITH ENHANCED SPARK OVER VOLTAGE TO PROTECT AN ELECTRONIC DEVICE CONNECTED TO THE SPARK GAP
A spark gap is configured to provide an enhanced spark over voltage. The spark gap includes a non-smooth textured substrate surface, a first conducting electrode, a second conducting electrode, a gap configured to be disposed between the first and second conducting electrodes, and a conductive material configured to be disposed in a non-continuous and irregular manner on the non-smooth textured substrate surface and in the gap between the first and second conducting electrodes, wherein the spark gap is structurally configured to provide an enhanced spark over voltage to protect any device connected to the spark gap.
A container system for protecting a component from impact includes a container configured to contain a second container therein with a cover of the second container being adjacent to a cover of the container. An impact reducing portion is configured to extend from an outer surface of the cover of the container in a direction away from the cover of the second container; the impact reducing portion is configured to deform in response to an impact force on the impact reducing portion that is less than a minimum impact force in response to which the cover is configured to deform; and the impact reducing portion is structurally configured to prevent an impact force on the impact reducing portion that is less than the minimum impact force from being transferred to the second container so as to protect the second container and an electronic component container in the second container.
A spark gap is configured to provide an enhanced spark over voltage. The spark gap includes a non-smooth textured substrate surface, a first conducting electrode, a second conducting electrode, a gap configured to be disposed between the first and second conducting electrodes, and a conductive material configured to be disposed in a non-continuous and irregular manner on the non-smooth textured substrate surface and in the gap between the first and second conducting electrodes, wherein the spark gap is structurally configured to provide an enhanced spark over voltage to protect any device connected to the spark gap.
A terminal system assembly includes a base plate, a spool, an adapter module, and a spool locking washer. The base includes a spindle. The spool may be rotatingly coupled with the spindle of the base plate and to receive an input fiber cable. The adapter module may couple a fiber of the input fiber cable with a fiber of an output fiber cable. The spool locking washer may couple the adapter module with the spindle and may prevent rotation of the spool and the adapter module.
G02B 6/44 - Structures mécaniques pour assurer la résistance à la traction et la protection externe des fibres, p.ex. câbles de transmission optique
17.
CROSS CONNECT RACK WITH CABLE MANAGEMENT PORTIONS CONFIGURED TO PERMIT A USER TO SELECT AND/OR CHANGE THE CONFIGURATION OF THE RACK WITHOUT DISCONNECTING CABLES
A cable panel rack includes: a center frame portion; and distribution cable management and bottom cable portions configured to be attached to the center frame portion. The center frame portion is configured to be attached at a first portion of the bottom cable portion when the distribution cable management portion is attached to a first side of the center frame portion, and the center frame portion is configured to be attached at a second portion of the bottom cable portion when the distribution cable management portion is attached to a second side of the center frame portion, so as to permit a user to select and/or change a configuration of the cable panel rack at an installation location without disconnecting cables from the cable panels in the center rack frame portion.
G02B 6/44 - Structures mécaniques pour assurer la résistance à la traction et la protection externe des fibres, p.ex. câbles de transmission optique
18.
CROSS CONNECT RACK WITH CABLE MANAGEMENT PORTIONS CONFIGURED TO PERMIT A USER TO SELECT AND/OR CHANGE THE CONFIGURATION OF THE RACK WITHOUT DISCONNECTING CABLES
A cable panel rack includes: a center frame portion; and distribution cable management and bottom cable portions configured to be attached to the center frame portion. The center frame portion is configured to be attached at a first portion of the bottom cable portion when the distribution cable management portion is attached to a first side of the center frame portion, and the center frame portion is configured to be attached at a second portion of the bottom cable portion when the distribution cable management portion is attached to a second side of the center frame portion, so as to permit a user to select and/or change a configuration of the cable panel rack at an installation location without disconnecting cables from the cable panels in the center rack frame portion.
An optical distribution box includes a base portion, a cover portion, and an engaging portion configured to be attached to a first one of the base portion and the cover portion. A second one of the base portion and the cover portion comprises an angled pathway portion; at least a portion of a seal portion is located between the angled pathway portion and the first one of the base portion and the cover portion; the angled pathway portion transitions from a first portion to a second portion; an edge portion of the engaging portion is configured to engage the first portion and the second portion of the angled pathway portion; and the slide body portion is configured to urge the cover portion toward the base portion in a location of the seal portion so as to enhance a watertight seal between the cover portion and the base portion.
An optical distribution box includes a base portion, a cover portion, and an engaging portion configured to be attached to a first one of the base portion and the cover portion. A second one of the base portion and the cover portion comprises an angled pathway portion; at least a portion of a seal portion is located between the angled pathway portion and the first one of the base portion and the cover portion; the angled pathway portion transitions from a first portion to a second portion; an edge portion of the engaging portion is configured to engage the first portion and the second portion of the angled pathway portion; and the slide body portion is configured to urge the cover portion toward the base portion in a location of the seal portion so as to enhance a watertight seal between the cover portion and the base portion.
A cable reel may (100) include a first reel portion (110) configured to hold a bundle of cable, and a second reel portion (130) configured to be coupled with the first reel portion (110) and to retain the bundle of cable on the first reel portion (110). The second reel portion (130) may include a first impact portion (150) radially outward of a hub portion (134) and a second impact portion (170) radially outward of the first impact portion (150) between the first impact portion (150) and a perimeter wall (136) of the flange portion (130). The second impact portion (170) may include a radially outer wall (172) that is configured to deflect radially inward to absorb an impact force (F1) impacting the perimeter wall (136) at a location radially aligned with the second impact portion (170), and the first impact portion (150) may include a radially outer wall (155) that is configured to deflect radially inward to absorb an impact force (F2) impacting the perimeter wall (136) at a location circumferentially spaced from the radially outer wall (172). The first and second impact portions (150, 170) may be configured to provide absorption of impact forces impinging on any point along the perimeter wall (136) so as to provide 360° of breakage protection against impact forces impinging on the perimeter wall (136).
B65H 75/14 - Genres ou types de section transversale circulaire ou polygonale avec deux rebords d'extrémité
B65H 75/22 - Noyaux, gabarits, supports ou pièces de tenue pour matériau bobiné, enroulé ou plié, p.ex. tourets, broches, bobines, tubes à cannette, boîtes - Détails de structure avec parties détachables
22.
CABLE REEL CONFIGURED TO ABSORB FORCES IMPACTING A PERIMETER WALL OF THE REEL TO PREVENT BREAKAGE
A cable reel may include a first reel portion configured to hold a bundle of cable, and a second reel portion configured to be coupled with the first reel portion and to retain the bundle of cable on the first reel portion. The second reel portion may include a first impact portion radially outward of a hub portion and a second impact portion radially outward of the first impact portion between the first impact portion and a perimeter wall of the flange portion. The second impact portion may include a radially outer wall that is configured to deflect radially inward to absorb an impact force impacting the perimeter wall at a location radially aligned with the second impact portion, and the first impact portion may include a radially outer wall that is configured to deflect radially inward to absorb an impact force impacting the perimeter wall at a location circumferentially spaced from the radially outer wall. The first and second impact portions may be configured to provide absorption of impact forces impinging on any point along the perimeter wall so as to provide 360° of breakage protection against impact forces impinging on the perimeter wall.
B65H 75/12 - Genres ou types de section transversale circulaire ou polygonale avec un seul rebord d'extrémité; avec une extrémité de dimension plus grande que le corps
23.
CABLE ADAPTER TRAY WITH POSITION RETAINING CLIP CONFIGURED TO ENHANCE ACCESS ADJACENT TO THE CABLE ADAPTER TRAY
An adapter management device for providing enhanced access adjacent to the adapter management device, including an adapter management device retention portion. The adapter management device may be configured to pivot between an open position and a closed position, and the adapter management device retention portion may be structurally configured to engage at least a portion of a base portion in the open position of the adapter management device so as to allow a user to perform an optical fiber cable operation in an area that would be obstructed by the adapter management device in the closed position without having to manually hold the adapter management device in the open position.
An adapter management device configured to provide enhanced access to an adapter, includes: an adapter receiving portion; a perimeter portion; and a support portion that is configured to connect the adapter receiving portion to the perimeter portion. The adapter management device comprises a first side and a second side opposite to the first side; and the support portion, the adapter receiving portion, and the perimeter portion are configured to define an open area inside the perimeter portion that is structurally configured to permit access to a first side of a cable connector that faces a same direction as the first side of the adapter management device and a second side of the cable connector that faces a same direction as the second side of the adapter management device so as to facilitate connecting the cable connector to, and disconnecting the cable connector from, the adapter receiving portion.
An adapter management device configured to provide enhanced cable management that may include an adapter receiving portion, a perimeter portion, an inner cable retention portion, which may be configured to be positioned between the perimeter portion and the adapter receiving portion, and a cable receiving portion separator portion that may be configured to extend between the perimeter portion and the inner cable retention portion. The cable receiving portion separator portion may be structurally configured to provide a first cable routing path and a second cable routing path so as to enhance organization of cables in the adapter management device by providing two separate routing options for routing cables in the adapter management device.
An adapter management device configured to provide enhanced access to an adapter, includes: an adapter receiving portion; a perimeter portion; and a support portion that is configured to connect the adapter receiving portion to the perimeter portion. The adapter management device comprises a first side and a second side opposite to the first side; and the support portion, the adapter receiving portion, and the perimeter portion are configured to define an open area inside the perimeter portion that is structurally configured to permit access to a first side of a cable connector that faces a same direction as the first side of the adapter management device and a second side of the cable connector that faces a same direction as the second side of the adapter management device so as to facilitate connecting the cable connector to, and disconnecting the cable connector from, the adapter receiving portion.
An adapter management device configured to provide enhanced cable management that may include an adapter receiving portion, a perimeter portion, an inner cable retention portion, which may be configured to be positioned between the perimeter portion and the adapter receiving portion. and a cable receiving portion separator portion that may be configured to extend between the perimeter portion and the inner cable retention portion. The cable receiving portion separator portion may be structurally configured to provide a first cable routing path and a second cable routing path so as to enhance organization of cables in the adapter management device by providing two separate routing options for routing cables in the adapter management device.
An adapter management device for providing enhanced access adjacent to the adapter management device, including an adapter management device retention portion. The adapter management device may be configured to pivot between an open position and a closed position, and the adapter management device retention portion may be structurally configured to engage at least a portion of a base portion in the open position of the adapter management device so as to allow a user to perform an optical fiber cable operation in an area that would be obstructed by the adapter management device in the closed position without having to manually hold the adapter management device in the open position.
A reel enclosure includes a base and a door pivotally coupled with the base. The door is movable between a first closed position and a second open position and is configured to hold a reel at an interior surface of the door. The reel is configured to have cable wound thereon. In the first closed position, the base is configured to prevent the reel from rotating relative to the door and the base, and, in the second open position, the door is configured to hold the reel outside of an interior of the base and permit the reel to rotate relative to the door and the base.
B65H 75/44 - Noyaux, gabarits, supports ou pièces de tenue pour matériau bobiné, enroulé ou plié, p.ex. tourets, broches, bobines, tubes à cannette, boîtes spécialement adaptés ou montés pour stocker, dérouler de façon répétée et stocker à nouveau des longueurs de matériau prévues pour des buts particuliers, p.ex. tuyaux souples à poste fixe, câbles de force impliquant l'utilisation d'un noyau ou d'un gabarit intérieur formant support pour le paquet de matériau stocké - Détails de structure
H02G 11/02 - Installations de câbles ou de lignes électriques entre deux pièces en mouvement relatif utilisant une bobineuse ou tambour
30.
SEAL FOR A PORT OF AN ENCLOSURE CONFIGURED TO PERMIT A PRE-CONNECTORIZED CABLE TO BE INSERTED INTO AND REMOVED FROM THE SEAL WITH A CONNECTOR ATTACHED TO THE CABLE
A seal for a port of an enclosure may include a sealing portion structurally configured to be received in a port and a support portion structurally configured to be received by the sealing portion such that the support portion covers a portion of the sealing portion so as to prevent a pre-connectorized cable from being inserted into and removed from the sealing portion. The support portion may be structurally configured to be removed from the sealing portion so as to permit a pre-connectorized cable to be inserted into or removed from the sealing portion with a connector attached to the cable.
F16J 15/10 - Joints d'étanchéité entre surfaces immobiles entre elles avec garniture solide comprimée entre les surfaces à joindre par garniture non métallique
G02B 6/44 - Structures mécaniques pour assurer la résistance à la traction et la protection externe des fibres, p.ex. câbles de transmission optique
31.
COMPOSITE WATER BLOCKING AND SHIELDING TAPE FOR WATER BLOCKING IN A COMPACT CABLE
A composite water blocking shield includes: a first shield portion; an insulator portion surrounding the first shield portion; a second shield portion surrounding the insulator portion; and a water blocking portion surrounding the second shield portion. The insulator portion is adjacent to the first shield portion, the second shield portion is adjacent to the insulator portion, and the water blocking portion is adjacent to the second shield portion; the first shield portion, the insulator portion, the second shield portion, and the water blocking portion form a single tape that is configured to be applied to an outside of a portion of a cable as a single unit; and the composite water blocking shield provides radio frequency shielding and water blocking in a single tape so as to provide radio frequency shielding and water blocking in a compact cable.
H01B 11/18 - Câbles coaxiaux; Câbles analogues ayant plusieurs conducteurs intérieurs dans un conducteur extérieur commun
H01B 7/282 - Protection contre les dommages provoqués par des facteurs extérieurs, p.ex. gaines ou armatures par l'humidité, la corrosion, les attaques chimiques ou les conditions atmosphériques empêchant la pénétration de fluides dans les conducteurs ou les câbles
H01B 7/288 - Protection contre les dommages provoqués par des facteurs extérieurs, p.ex. gaines ou armatures par l'humidité, la corrosion, les attaques chimiques ou les conditions atmosphériques empêchant la pénétration de fluides dans les conducteurs ou les câbles par remplissage total ou partiel d'interstices du câble en utilisant un matériau hygroscopique ou un matériau gonflant en présence d'un liquide
32.
FIBER DISTRIBUTION ENCLOSURE HAVING A SECOND ENCLOSURE THEREIN AND STRUCTURALLY CONFIGURED TO MAINTAIN THE SECOND ENCLOSURE IN A RAISED POSITION SO AS TO PROVIDE ENHANCED ACCESS TO THE SECOND ENCLOSURE
A fiber distribution enclosure (100) may include a base portion (124), a cover portion (110), and an enclosure portion (120) structurally configured to be pivotally coupled with the base portion (124) at an interior (108). The enclosure portion (120) may include an adapter portion (1303) that is structurally configured to couple a fiber optic cable from outside of the enclosure portion (120) with a fiber optic cable of a fiber distribution portion (142) in the enclosure portion (120). The first enclosure portion (130) may be structurally configured to be pivoted relative to the base portion (124) between a lowered position and a raised position, and the first enclosure portion (130) may include an engagement portion (128) structurally configured to engage a receiving portion of the mounting portion (124) in the raised position such that the engagement portion (128) and the receiving portion (126) are structurally configured to maintain the first enclosure portion (130) in the raised position so as to provide enhanced access to the adapter portion (1303).
G07F 17/32 - Appareils déclenchés par pièces de monnaie pour la location d'articles; Installations ou services déclenchés par pièces de monnaie pour jeux, jouets, sports ou distractions
G06V 20/40 - RECONNAISSANCE OU COMPRÉHENSION D’IMAGES OU DE VIDÉOS Éléments spécifiques à la scène dans le contenu vidéo
33.
SEAL FOR A PORT OF AN ENCLOSURE CONFIGURED TO PERMIT A PRE-CONNECTORIZED CABLE TO BE INSERTED INTO AND REMOVED FROM THE SEAL WITH A CONNECTOR ATTACHED TO THE CABLE
A seal for a port of an enclosure may include a sealing portion structurally configured to be received in a port and a support portion structurally configured to be received by the sealing portion such that the support portion covers a portion of the sealing portion so as to prevent a pre-connectorized cable from being inserted into and removed from the sealing portion. The support portion may be structurally configured to be removed from the sealing portion so as to permit a pre-connectorized cable to be inserted into or removed from the sealing portion with a connector attached to the cable.
An optical fiber connector subassembly (110) may include a tuning portion (1262) coupled with a ferrule (108) and a receiving portion (120,140) configured to be slidingly moved relative to the tuning portion (1262). The receiving portion (120,140) may be structurally configured to receive the tuning portion (1262) such that the tuning portion (1262) is rotationally fixed with the receiving portion (120,140). The receiving portion (120,140) may comprise a bore (1444) having a number N of sides, and the tuning portion (1262) may comprise an outer surface (1265) having N sides configured to be received by the bore (1444) in any one of N relative rotational positions between the tuning portion (1262) and the receiving portion (120,140). The tuning portion (1262) may be configured to be rotated relative to the receiving portion (120,140) so as to arrange the polygonal outer surface (1265) and the polygonal bore (1444) in one of the N relative rotational positions between the tuning portion (1262) and the receiving portion (120,140) so as to minimize signal transmission loss when the ferrule (108) abuts a mating ferrule.
G02B 6/38 - Moyens de couplage mécaniques ayant des moyens d'assemblage fibre à fibre
35.
HYBRID POWER CABLE WITH MICRODUCT CONFIGURED TO RECEIVE FIBER OPTIC CABLE AT AN INSTALLATION SITE SO AS TO AVOID INSTALLATION OF UNNEEDED FIBER OPTIC CABLE
A hybrid cable including: a jacket portion; a duct portion configured to be located inside the jacket portion; and an electrical conductor configured to be located inside the jacket portion. The electrical conductor is configured to be located outside of the duct portion; the electrical conductor and the duct portion extend substantially parallel to each other in the jacket portion; the duct portion is configured to be installed in the jacket portion in an empty state of the duct portion in which no wire or cable is in the duct portion; and the duct portion is configured to be loaded with fiber optic cable before, during, and after the hybrid cable is installed at an installation site so as to allow an installer to install an installation required number of fiber optic cables in the duct portion, thereby avoiding installation of unneeded fiber optic cable.
H01B 7/282 - Protection contre les dommages provoqués par des facteurs extérieurs, p.ex. gaines ou armatures par l'humidité, la corrosion, les attaques chimiques ou les conditions atmosphériques empêchant la pénétration de fluides dans les conducteurs ou les câbles
36.
COMPOSITE WATER BLOCKING AND SHIELDING TAPE FOR WATER BLOCKING IN A COMPACT CABLE
A composite water blocking shield includes: a first shield portion; an insulator portion surrounding the first shield portion; a second shield portion surrounding the insulator portion; and a water blocking portion surrounding the second shield portion. The insulator portion is adjacent to the first shield portion, the second shield portion is adjacent to the insulator portion, and the water blocking portion is adjacent to the second shield portion; the first shield portion, the insulator portion, the second shield portion, and the water blocking portion form a single tape that is configured to be applied to an outside of a portion of a cable as a single unit; and the composite water blocking shield provides radio frequency shielding and water blocking in a single tape so as to provide radio frequency shielding and water blocking in a compact cable.
H01B 7/282 - Protection contre les dommages provoqués par des facteurs extérieurs, p.ex. gaines ou armatures par l'humidité, la corrosion, les attaques chimiques ou les conditions atmosphériques empêchant la pénétration de fluides dans les conducteurs ou les câbles
H01B 7/22 - Fils rubans ou métalliques, p.ex. d'acier
37.
MOISTURE DETECTOR CONFIGURED TO DETECT MOISTURE IN A CABLE
A moisture detector detects moisture in a coaxial cable. The moisture detector may include a moisture detection portion disposed in at least a portion of a cavity portion and configured to engage a cable moisture alert portion that is configured to generate a cable moisture alert when moisture is present in the cavity portion, and wherein the moisture detection portion is configured to generate a moisture detected signal when moisture is present in the cavity portion and cause the cable moisture alert portion to generate the cable moisture alert that moisture is present in the coaxial cable when moisture is present in the cavity portion.
G01M 3/04 - Examen de l'étanchéité des structures ou ouvrages vis-à-vis d'un fluide par utilisation d'un fluide ou en faisant le vide par détection de la présence du fluide à l'emplacement de la fuite
38.
FIBER DISTRIBUTION ENCLOSURE HAVING A SECOND ENCLOSURE THEREIN AND STRUCTURALLY CONFIGURED TO MAINTAIN THE SECOND ENCLOSURE IN A RAISED POSITION SO AS TO PROVIDE ENHANCED ACCESS TO THE SECOND ENCLOSURE
A fiber distribution enclosure may include a base portion, a cover portion, and an enclosure portion structurally configured to be pivotally coupled with the base portion at an interior. The enclosure portion may include an adapter portion that is structurally configured to couple a fiber optic cable from outside of the enclosure portion with a fiber optic cable of a fiber distribution portion in the enclosure portion. The first enclosure portion may be structurally configured to be pivoted relative to the base portion between a lowered position and a raised position, and the first enclosure portion may include an engagement portion structurally configured to engage a receiving portion of the mounting portion in the raised position such that the engagement portion and the receiving portion are structurally configured to maintain the first enclosure portion in the raised position so as to provide enhanced access to the adapter portion.
An optical fiber connector subassembly may include a tuning portion coupled with a ferrule and a receiving portion configured to be slidingly moved relative to the tuning portion. The receiving portion may be structurally configured to receive the tuning portion such that the tuning portion is rotationally fixed with the receiving portion. The receiving portion may comprise a bore having a number N of sides, and the tuning portion may comprise an outer surface having N sides configured to be received by the bore in any one of N relative rotational positions between the tuning portion and the receiving portion. The tuning portion may be configured to be rotated relative to the receiving portion so as to arrange the polygonal outer surface and the polygonal bore in one of the N relative rotational positions between the tuning portion and the receiving portion so as to minimize signal transmission loss when the ferrule abuts a mating ferrule.
G02B 6/38 - Moyens de couplage mécaniques ayant des moyens d'assemblage fibre à fibre
40.
HYBRID POWER CABLE WITH MICRODUCT CONFIGURED TO RECEIVE FIBER OPTIC CABLE AT AN INSTALLATION SITE SO AS TO AVOID INSTALLATION OF UNNEEDED FIBER OPTIC CABLE
A hybrid cable including: a jacket portion; a duct portion configured to be located inside the jacket portion; and an electrical conductor configured to be located inside the jacket portion. The electrical conductor is configured to be located outside of the duct portion; the electrical conductor and the duct portion extend substantially parallel to each other in the jacket portion; the duct portion is configured to be installed in the jacket portion in an empty state of the duct portion in which no wire or cable is in the duct portion; and the duct portion is configured to be loaded with fiber optic cable before, during, and after the hybrid cable is installed at an installation site so as to allow an installer to install an installation required number of fiber optic cables in the duct portion, thereby avoiding installation of unneeded fiber optic cable.
A moisture detector detects moisture in a coaxial cable. The moisture detector may include a moisture detection portion disposed in at least a portion of a cavity portion and configured to engage a cable moisture alert portion that is configured to generate a cable moisture alert when moisture is present in the cavity portion, and wherein the moisture detection portion is configured to generate a moisture detected signal when moisture is present in the cavity portion and cause the cable moisture alert portion to generate the cable moisture alert that moisture is present in the coaxial cable when moisture is present in the cavity portion.
G01M 3/18 - Examen de l'étanchéité des structures ou ouvrages vis-à-vis d'un fluide par utilisation d'un fluide ou en faisant le vide par détection de la présence du fluide à l'emplacement de la fuite en utilisant des moyens de détection électrique pour soupapes
G01M 3/40 - Examen de l'étanchéité des structures ou ouvrages vis-à-vis d'un fluide par utilisation de moyens électriques, p.ex. par observation de décharges électriques
G01M 3/04 - Examen de l'étanchéité des structures ou ouvrages vis-à-vis d'un fluide par utilisation d'un fluide ou en faisant le vide par détection de la présence du fluide à l'emplacement de la fuite
H01R 13/00 - CONNEXIONS CONDUCTRICES DE L'ÉLECTRICITÉ; ASSOCIATION STRUCTURELLE DE PLUSIEURS ÉLÉMENTS DE CONNEXION ÉLECTRIQUE ISOLÉS LES UNS DES AUTRES; DISPOSITIFS DE COUPLAGE; COLLECTEURS DE COURANT - Détails de dispositifs de couplage des types couverts par les groupes ou
H01R 24/40 - Dispositifs de couplage en deux pièces, ou l'une des pièces qui coopèrent dans ces dispositifs, caractérisés par leur structure générale ayant des contacts disposés concentriquement ou coaxialement spécialement adaptés à la haute fréquence
MOUNTING BRACKET ASSEMBLY STRUCTURALLY CONFIGURED TO MOUNT OPTICAL FIBER MANAGEMENT COMPONENTS, INCLUDING DIFFERENT SIZE COMMUNICATION DEVICES, IN AN ENCLOSURE
A cable management and mounting system including: a base portion; a support portion configured to slidingly attach to the base portion; and a lateral portion configured to slidingly attach to the base portion. The support portion includes an adapter receiving portion. A space between the base portion and the support portion is configured to receive a communication device. The support portion and the lateral portion may be configured to receive different sized communication devices, different sized adapter units, and cable in an arrangement that may be configured to accommodate the different sized communication devices, the different sized adapter units, and the cable using adapter mounting portions and cable management structures that may be configured to engage with the support portion to avoid a need for additional mounting structures.
G02B 6/44 - Structures mécaniques pour assurer la résistance à la traction et la protection externe des fibres, p.ex. câbles de transmission optique
H05K 7/00 - CIRCUITS IMPRIMÉS; ENVELOPPES OU DÉTAILS DE RÉALISATION D'APPAREILS ÉLECTRIQUES; FABRICATION D'ENSEMBLES DE COMPOSANTS ÉLECTRIQUES - Détails de construction communs à différents types d'appareils électriques
G02B 6/38 - Moyens de couplage mécaniques ayant des moyens d'assemblage fibre à fibre
45.
MOUNTING BRACKET ASSEMBLY STRUCTURALLY CONFIGURED TO MOUNT OPTICAL FIBER MANAGEMENT COMPONENTS, INCLUDING DIFFERENT SIZE COMMUNICATION DEVICES, IN AN ENCLOSURE
A cable management and mounting system including: a base portion; a support portion configured to slidingly attach to the base portion; and a lateral portion configured to slidingly attach to the base portion. The support portion may include an adapter receiving portion. A space between the base portion and the support portion may be configured to receive a communication device. The support portion and the lateral portion may be configured to receive different sized communication devices, different sized adapter units, and cable in an arrangement that may be configured to accommodate the different sized communication devices, the different sized adapter units, and the cable using adapter mounting portions and cable management structures that may be configured to engage with the support portion to avoid a need for additional mounting structures.
A seal assembly for a field installable hardened fiber optic connector that may be configured to provide improved sealing and strain relief with a fiber optic cable includes: a pusher portion configured to transfer movement of a tightening portion; and a sealing portion configured to receive the transferred movement of the pusher portion. An engagement of the pusher portion with a shroud portion may limit rotation of the pusher portion relative to the shroud portion. The sealing portion may be configured to compress to form a seal around the fiber optic cable. Tightening of a tightening portion may compress the sealing portion onto a fiber optic cable to form a seal around the fiber optic cable and resist axial movement of the fiber optic cable relative to the sealing portion so as to provide enhanced weathertight sealing and strain relief between a shroud and the fiber optic cable.
A seal assembly for a field installable hardened fiber optic connector that may be configured to provide improved sealing and strain relief with a fiber optic cable includes: a pusher portion configured to transfer movement of a tightening portion; and a sealing portion configured to receive the transferred movement of the pusher portion. An engagement of the pusher portion with a shroud portion may limit rotation of the pusher portion relative to the shroud portion. The sealing portion may be configured to compress to form a seal around the fiber optic cable. Tightening of a tightening portion may compress the sealing portion onto a fiber optic cable to form a seal around the fiber optic cable and resist axial movement of the fiber optic cable relative to the sealing portion so as to provide enhanced weathertight sealing and strain relief between a shroud and the fiber optic cable.
A splitter for allowing a hardline cable to be connected to the splitter as an input and a connector to be connected to the splitter as an output includes a housing portion. The housing portion includes an input portion; the input portion is configured to receive a hardline input cable; the housing portion includes an output portion; the input portion includes an engagement portion configured to engage a hardline back nut; the splitter is configured to connect to the hardline input cable; and the connection of the splitter to the hardline input cable is configured to allow the splitter to be installed on the hardline input cable without additional hardware to connect the splitter to the hardline input cable.
An optical fiber management portion includes: a pivot portion that is structurally configured to rotate relative to a pivot portion receiving portion such that the optical fiber management portion is configured to pivot between a raised position and a lowered position; and a locking portion that is structurally configured to be retained by a locking portion receiving portion to retain the optical fiber management portion in the raised position. The pivot portion receiving portion may be structurally configured to be identical to the locking portion receiving portion; and the pivot portion and the locking portion may be structurally configured to cooperate to provide a positioning mechanism that may be structurally configured to hold the optical fiber management portion in the raised position so as to provide enhanced access to a second optical fiber management portion positioned underneath the optical fiber management portion.
An optical fiber management portion includes: a pivot portion that is structurally configured to rotate relative to a pivot portion receiving portion such that the optical fiber management portion is configured to pivot between a raised position and a lowered position; and a locking portion that is structurally configured to be retained by a locking portion receiving portion to retain the optical fiber management portion in the raised position. The pivot portion receiving portion may be structurally configured to be identical to the locking portion receiving portion; and the pivot portion and the locking portion may be structurally configured to cooperate to provide a positioning mechanism that may be structurally configured to hold the optical fiber management portion in the raised position so as to provide enhanced access to a second optical fiber management portion positioned underneath the optical fiber management portion.
A cable connector includes: a support portion that is structurally configured to move relative to a cable gripping portion when a first connector portion moves relative to a second connector portion; an indicator portion that is structurally configured to indicate an amount of radial compression of a cable gripping portion when the second connector portion moves in an axial direction; and the indicator portion is structurally configured to provide a visual stop indicator reference point when the second connector portion moves in the axial direction and when the first connector portion is coupled with the second connector portion such that the cable gripping portion grips the cable with a predetermined amount of radial force based on an outer diameter portion of the cable so as to allow an installer to use the visual stop indicator reference point to prevent under-tightening and/or over-tightening of the connector on the cable.
H01R 24/40 - Dispositifs de couplage en deux pièces, ou l'une des pièces qui coopèrent dans ces dispositifs, caractérisés par leur structure générale ayant des contacts disposés concentriquement ou coaxialement spécialement adaptés à la haute fréquence
H01R 9/05 - Dispositifs de connexion conçus pour assurer le contact avec plusieurs des conducteurs d'un câble multiconducteur pour câbles coaxiaux
H01R 43/20 - Appareils ou procédés spécialement adaptés à la fabrication, l'assemblage, l'entretien ou la réparation de connecteurs de lignes ou de collecteurs de courant ou pour relier les conducteurs électriques pour assembler les pièces de contact avec le socle isolant, le boîtier ou le manchon ou pour les en désassembler
52.
SURGE PROTECTOR CONFIGURED TO PROTECT ETHERNET EQUIPMENT FROM SURGES VIA A WALL OUTLET
A surge protector is configured to protect Ethernet equipment from an electrical surge. The surge protector includes an Ethernet cable input portion structurally configured to receive an Ethernet input cable, an Ethernet cable output portion structurally configured to receive an Ethernet output cable to connect to an Ethernet device, a ground plug portion having a dummy portion and a ground portion, and wherein the ground portion is structurally configured to connect to an electrical wall outlet so as to direct an electrical surge on the input Ethernet cable to a ground of the electrical wall outlet so as to protect equipment that is electrically connected with the output Ethernet cable from the electrical surge.
H02H 9/06 - Circuits de protection de sécurité pour limiter l'excès de courant ou de tension sans déconnexion sensibles à un excès de tension utilisant des éclateurs à étincelles
H04M 3/08 - Indication des défauts dans des circuits ou des appareils
53.
ANGLED COAXIAL CABLE ADAPTER STRUCTURALLY CONFIGURED TO PROVIDE AN ENHANCED RADIO FREQUENCY (RF) SIGNAL
An angled coaxial cable adapter may include a housing portion structurally configured to include a first RF signal wave receiving portion and a second RF signal wave receiving portion and a conductive portion structurally configured to pass an RF signal through the first RF signal wave receiving portion and the second RF signal wave receiving portion. The first RF signal wave receiving portion may be configured to be disposed at an angle relative to the second RF signal wave receiving portion, and the conductive portion may be structurally configured to include a bend. The RF signal wave blocking portion may be structurally configured to block the first RF signal wave and the second RF signal wave from interfering with one another so as to reduce potential noise when a signal changes direction at the bend of the conductive element such that the adapter can provide an enhanced RF signal.
A connector includes: a first portion; a second portion; and a cable gripping portion. The cable gripping portion is structurally configured to allow rotation of the cable gripping portion relative to the second portion in a second rotational direction to permit tightening of the second portion to a third portion; and the cable gripping portion is structurally configured to engage the second portion to prevent the cable gripping portion from rotating relative to the second portion in a first rotational direction so as to permit a coaxial cable to be rotated relative to the cable gripping portion while inserting the coaxial cable into the connector.
H01R 24/40 - Dispositifs de couplage en deux pièces, ou l'une des pièces qui coopèrent dans ces dispositifs, caractérisés par leur structure générale ayant des contacts disposés concentriquement ou coaxialement spécialement adaptés à la haute fréquence
H01R 9/05 - Dispositifs de connexion conçus pour assurer le contact avec plusieurs des conducteurs d'un câble multiconducteur pour câbles coaxiaux
H01R 43/20 - Appareils ou procédés spécialement adaptés à la fabrication, l'assemblage, l'entretien ou la réparation de connecteurs de lignes ou de collecteurs de courant ou pour relier les conducteurs électriques pour assembler les pièces de contact avec le socle isolant, le boîtier ou le manchon ou pour les en désassembler
An optical fiber cassette structurally configured to enhance fiber management in an optical fiber management system includes: a first cassette portion; and a second cassette portion structurally configured to be removably coupled with the first cassette portion. The second cassette portion is structurally configured to be coupled with the first cassette portion in different orientations; the first cassette portion is structurally configured to be coupled with an alternate second cassette portion that is structurally configured to be removably coupled with the first cassette portion; and the first cassette portion is structurally configured to alternatively and removably receive the second cassette portion and the alternate second cassette portion in a selected orientation such that the first cassette portion, the second cassette portion, and the alternate second cassette portion provide a modular system that permits customization of the cassette so as to enhance optical fiber cable connection and management.
G02B 6/44 - Structures mécaniques pour assurer la résistance à la traction et la protection externe des fibres, p.ex. câbles de transmission optique
56.
HANDHELD TOOL FOR STRAIGHTENING A FIBER CABLE THAT IS STRUCTURALLY CONFIGURED TO ENHANCE PLACEMENT OF THE FIBER CABLE IN A STRAIGHTENING PATH OF THE TOOL
A handheld tool for straightening a cable includes a straightening portion disposed in a housing portion. The straightening portion is configured to define a straightening path that extends in a longitudinal direction through the housing portion, and the straightening portion is structurally configured to engage a fiber cable that extends along the straightening path. The straightening portion is configured to spin freely relative to the housing portion such that the straightening portion is structurally configured to straighten a fiber cable that engages the straightening portion as the fiber cable is moved through the housing in the longitudinal direction. The housing portion is structurally configured to permit access to the straightening path from a direction transverse to the longitudinal direction in order to enhance placement of the fiber cable in the straightening path.
A connector includes: a first portion; a second portion; and a cable gripping portion. The cable gripping portion is structurally configured to allow rotation of the cable gripping portion relative to the second portion in a second rotational direction to permit tightening of the second portion to a third portion; and the cable gripping portion is structurally configured to engage the second portion to prevent the cable gripping portion from rotating relative to the second portion in a first rotational direction so as to permit a coaxial cable to be rotated relative to the cable gripping portion while inserting the coaxial cable into the connector.
H01R 9/05 - Dispositifs de connexion conçus pour assurer le contact avec plusieurs des conducteurs d'un câble multiconducteur pour câbles coaxiaux
H01R 24/40 - Dispositifs de couplage en deux pièces, ou l'une des pièces qui coopèrent dans ces dispositifs, caractérisés par leur structure générale ayant des contacts disposés concentriquement ou coaxialement spécialement adaptés à la haute fréquence
58.
ANGLED COAXIAL CABLE ADAPTER STRUCTURALLY CONFIGURED TO PROVIDE AN ENHANCED RADIO FREQUENCY (RF) SIGNAL
An angled coaxial cable adapter may include a housing portion structurally configured to include a first RF signal wave receiving portion and a second RF signal wave receiving portion and a conductive portion structurally configured to pass an RF signal through the first RF signal wave receiving portion and the second RF signal wave receiving portion. The first RF signal wave receiving portion may be configured to be disposed at an angle relative to the second RF signal wave receiving portion, and the conductive portion may be structurally configured to include a bend. The RF signal wave blocking portion may be structurally configured to block the first RF signal wave and the second RF signal wave from interfering with one another so as to reduce potential noise when a signal changes direction at the bend of the conductive element such that the adapter can provide an enhanced RF signal.
A cable connector includes: a support portion that is structurally configured to move relative to a cable gripping portion when a first connector portion moves relative to a second connector portion; an indicator portion that is structurally configured to indicate an amount of radial compression of a cable gripping portion when the second connector portion moves in an axial direction; and the indicator portion is structurally configured to provide a visual stop indicator reference point when the second connector portion moves in the axial direction and when the first connector portion is coupled with the second connector portion such that the cable gripping portion grips the cable with a predetermined amount of radial force based on an outer diameter portion of the cable so as to allow an installer to use the visual stop indicator reference point to prevent under-tightening and/or over-tightening of the connector on the cable.
H01R 13/629 - Moyens additionnels pour faciliter l'engagement ou la séparation des pièces de couplage, p.ex. moyens pour aligner ou guider, leviers, pression de gaz
60.
MODULAR, CONFORMABLE, OPTICAL FIBER MANAGEMENT CASSETTE THAT IS STRUCTURALLY CONFIGURED TO RECEIVE CONNECTORIZED OPTICAL CABLES
An optical fiber cassette structurally configured to enhance fiber management in an optical fiber management system includes: a first cassette portion; and a second cassette portion structurally configured to be removably coupled with the first cassette portion. The second cassette portion is structurally configured to be coupled with the first cassette portion in different orientations; the first cassette portion is structurally configured to be coupled with an alternate second cassette portion that is structurally configured to be removably coupled with the first cassette portion; and the first cassette portion is structurally configured to alternatively and removably receive the second cassette portion and the alternate second cassette portion in a selected orientation such that the first cassette portion, the second cassette portion, and the alternate second cassette portion provide a modular system that permits customization of the cassette so as to enhance optical fiber cable connection and management.
A surge protector is configured to protect Ethernet equipment from an electrical surge. The surge protector includes an Ethernet cable input portion structurally configured to receive an Ethernet input cable, an Ethernet cable output portion structurally configured to receive an Ethernet output cable to connect to an Ethernet device, a ground plug portion having a dummy portion and a ground portion, and wherein the ground portion is structurally configured to connect to an electrical wall outlet so as to direct an electrical surge on the input Ethernet cable to a ground of the electrical wall outlet so as to protect equipment that is electrically connected with the output Ethernet cable from the electrical surge.
H01R 13/66 - Association structurelle avec des composants électriques incorporés
H01R 12/72 - Dispositifs de couplage pour circuits imprimés rigides ou structures similaires se couplant avec la bordure des circuits imprimés rigides ou des structures similaires
H01R 24/64 - Engagements par glissement avec une face uniquement, p.ex. dispositifs de couplage à prise modulaire pour haute fréquence, p.ex. RJ 45
H02H 9/02 - Circuits de protection de sécurité pour limiter l'excès de courant ou de tension sans déconnexion sensibles à un excès de courant
H02H 9/04 - Circuits de protection de sécurité pour limiter l'excès de courant ou de tension sans déconnexion sensibles à un excès de tension
62.
SEAL ASSEMBLY FOR A PORT OF AN ENCLOSURE THAT PERMITS A CABLE TERMINATED WITH A CONNECTOR TO BE INSERTED INTO AND REMOVED FROM THE PORT WITH THE CONNECTOR ATTACHED TO THE CABLE
A seal assembly for a port of an enclosure may include a first body portion that may include a sealing member, and a second body portion structurally configured to include an engagement portion. The sealing member may include a receiving portion that is structurally configured to receive a terminated cable, and the engagement portion may be structurally configured to urge a closing portion of the sealing member against the terminated cable to form a liquid-tight seal around the terminated cable when the first portion and the second portion are coupled together in a closed position. The first and second body portions may be structurally configured to move relative to one another between an open position and the closed position such that the seal arrangement is structurally configured to permit a cable terminated with a connector to be inserted into and/or removed from the sealing member and the port with the connector attached to the cable when the first and second body structure segments are in the open position.
H02G 3/08 - Boîtes de distribution; Boîtes de connexion ou de dérivation
G02B 6/44 - Structures mécaniques pour assurer la résistance à la traction et la protection externe des fibres, p.ex. câbles de transmission optique
H02G 15/113 - Boîtes divisées longitudinalement dans la direction du câble principal
63.
HANDHELD TOOL FOR STRAIGHTENING A FIBER CABLE THAT IS STRUCTURALLY CONFIGURED TO ENHANCE PLACEMENT OF THE FIBER CABLE IN A STRAIGHTENING PATH OF THE TOOL
A handheld tool for straightening a cable includes a straightening portion disposed in a housing portion. The straightening portion is configured to define a straightening path that extends in a longitudinal direction through the housing portion, and the straightening portion is structurally configured to engage a fiber cable that extends along the straightening path. The straightening portion is configured to spin freely relative to the housing portion such that the straightening portion is structurally configured to straighten a fiber cable that engages the straightening portion as the fiber cable is moved through the housing in the longitudinal direction. The housing portion is structurally configured to permit access to the straightening path from a direction transverse to the longitudinal direction in order to enhance placement of the fiber cable in the straightening path.
G02B 6/46 - Procédés ou appareils adaptés à l'installation de fibres optiques ou de câbles optiques
H02G 1/08 - Méthodes ou appareils spécialement adaptés à l'installation, entretien, réparation, ou démontage des câbles ou lignes électriques pour poser les câbles, p.ex. appareils de pose sur véhicule à travers des tubes ou conduits, p.ex. tringles ou fil de tirage pour pousser ou tirer
G02B 6/44 - Structures mécaniques pour assurer la résistance à la traction et la protection externe des fibres, p.ex. câbles de transmission optique
B21D 3/05 - Redressage ou remise en forme des barres, tubes ou profilés métalliques, ou des objets déterminés faits à partir de ces matériaux, qu'ils comportent ou non des parties en tôle au moyen de rouleaux matriceurs disposés sur des axes perpendiculaires au trajet des pièces
B65H 57/14 - Poulies, rouleaux ou barres rotatives
64.
NINETY-DEGREE NODE HARNESS CONNECTOR STRUCTURALLY CONFIGURED TO SELECTIVELY PERMIT ACCESS TO A CENTRAL AREA IN THE CONNECTOR SO AS TO ENHANCE FEEDING OF A CABLE THROUGH THE CONNECTOR
A connector for connecting a cable harness having a fiber optic cable to a node that is configured to enhance feeding of the fiber optic cable through the connector, including: a first portion configured to connect to a node; and a second portion configured to connect to a cable harness having a fiber optic cable. The first and second portions may be configured to allow the fiber optic cable to pass through the first and second portions; the second portion may be configured to rotate relative to the first portion between a first position and a second position; and the second portion and the first portion may be configured to provide access to an interior of the connector from an area outside of the connector when the first and second portions are in the first position so as to enhance feeding of the fiber optic cable through the connector.
G02B 6/38 - Moyens de couplage mécaniques ayant des moyens d'assemblage fibre à fibre
G02B 6/44 - Structures mécaniques pour assurer la résistance à la traction et la protection externe des fibres, p.ex. câbles de transmission optique
65.
NODE HARNESS FEED-THROUGH CONNECTOR STRUCTURALLY CONFIGURED TO PERMIT ACCESS TO AN ANGLED PATH IN THE CONNECTOR SO AS TO ENHANCE FEEDING OF A CABLE THROUGH THE ANGLED PATH
A connector for connecting a fiber optic harness to a node in a manner that facilitates the feeding of the optical fibers through the connector, including: a first portion; a second portion that is structurally configured to be removably connected to the first portion; a third portion that is structurally configured to be removably connected to the first portion; and a fourth portion that is structurally configured to removably secure the second portion to the first portion. The third portion may be structurally configured to be removed from the first portion so as to allow a user to access the first portion, thereby enhancing feeding of a fiber optic cable through the first portion.
A coupling member for connecting two optical fiber cable trays includes: a first portion; a second portion at a first end of the first portion; a third portion at a second end of the first portion; a first tray receiving portion at the first end of the first portion; and a second tray receiving portion at the second end of the first portion. The first tray receiving portion may be configured to receive a first one of two optical fiber cable trays; the second tray receiving portion may be configured to receive a second one of the two optical fiber cable trays; and the coupling member may be configured to connect the two optical fiber cable trays together such that the two optical fiber cable trays are configured to pivot together so as to limit access to the second one of the two optical fiber cable trays.
G02B 6/44 - Structures mécaniques pour assurer la résistance à la traction et la protection externe des fibres, p.ex. câbles de transmission optique
67.
NINETY-DEGREE NODE HARNESS CONNECTOR STRUCTURALLY CONFIGURED TO SELECTIVELY PERMIT ACCESS TO A CENTRAL AREA IN THE CONNECTOR SO AS TO ENHANCE FEEDING OF A CABLE THROUGH THE CONNECTOR
A connector for connecting a cable harness having a fiber optic cable to a node that is configured to enhance feeding of the fiber optic cable through the connector, including: a first portion configured to connect to a node; and a second portion configured to connect to a cable harness having a fiber optic cable. The first and second portions may be configured to allow the fiber optic cable to pass through the first and second portions; the second portion may be configured to rotate relative to the first portion between a first position and a second position; and the second portion and the first portion may be configured to provide access to an interior of the connector from an area outside of the connector when the first and second portions are in the first position so as to enhance feeding of the fiber optic cable through the connector.
G02B 6/44 - Structures mécaniques pour assurer la résistance à la traction et la protection externe des fibres, p.ex. câbles de transmission optique
68.
NODE HARNESS FEED-THROUGH CONNECTOR STRUCTURALLY CONFIGURED TO PERMIT ACCESS TO AN ANGLED PATH IN THE CONNECTOR SO AS TO ENHANCE FEEDING OF A CABLE THROUGH THE ANGLED PATH
A connector for connecting a fiber optic harness to a node in a manner that facilitates the feeding of the optical fibers through the connector, including: a first portion; a second portion that is structurally configured to be removably connected to the first portion; a third portion that is structurally configured to be removably connected to the first portion; and a fourth portion that is structurally configured to removably secure the second portion to the first portion. The third portion may be structurally configured to be removed from the first portion so as to allow a user to access the first portion, thereby enhancing feeding of a fiber optic cable through the first portion.
G02B 6/44 - Structures mécaniques pour assurer la résistance à la traction et la protection externe des fibres, p.ex. câbles de transmission optique
69.
SEAL ASSEMBLY FOR A PORT OF AN ENCLOSURE THAT PERMITS A CABLE TERMINATED WITH A CONNECTOR TO BE INSERTED INTO AND REMOVED FROM THE PORT WITH THE CONNECTOR ATTACHED TO THE CABLE
A seal assembly for a port of an enclosure may include a first body portion that may include a sealing member, and a second body portion structurally configured to include an engagement portion. The sealing member may include a receiving portion that is structurally configured to receive a terminated cable, and the engagement portion may be structurally configured to urge a closing portion of the sealing member against the terminated cable to form a liquid-tight seal around the terminated cable when the first portion and the second portion are coupled together in a closed position. The first and second body portions may be structurally configured to move relative to one another between an open position and the closed position such that the seal arrangement is structurally configured to permit a cable terminated with a connector to be inserted into and/or removed from the sealing member and the port with the connector attached to the cable when the first and second body structure segments are in the open position.
A coupling member for connecting two optical fiber cable trays includes: a first portion; a second portion at a first end of the first portion; a third portion at a second end of the first portion; a first tray receiving portion at the first end of the first portion; and a second tray receiving portion at the second end of the first portion. The first tray receiving portion may be configured to receive a first one of two optical fiber cable trays; the second tray receiving portion may be configured to receive a second one of the two optical fiber cable trays; and the coupling member may be configured to connect the two optical fiber cable trays together such that the two optical fiber cable trays are configured to pivot together so as to limit access to the second one of the two optical fiber cable trays.
A packaging arrangement for a bundle of cable includes a planar packaging blank extending in a longitudinal direction from a first end to a second end. The blank includes a middle region extending from the first end to the second end between a first fold line and a second fold line, a first side extending from the first end to the second end and including a plurality of first flaps extending from the first fold line in a direction away from the second side in a direction perpendicular to the longitudinal direction, and a second side extending from the first end to the second end and including a plurality of second flaps extending from the second fold line in a direction away from the first side in a direction perpendicular to the longitudinal direction. The blank is configured to be rolled into a cylindrical shape such that the first end overlaps the second end. The plurality of first flaps are configured to be folded radially inward relative to the cylindrical blank, and the plurality of second flaps are configured to be folded radially inward relative to the cylindrical blank.
B65D 5/02 - Réceptacles de section transversale polygonale rigides ou semi-rigides, p.ex. boîtes, cartons ou plateaux, formés en pliant ou montant un ou plusieurs flans de papier en pliant ou montant un seul flan pour former un corps tubulaire avec ou sans pliage subséquent, ou par addition d'éléments séparés, pour fermer les extrémités du corps
B65D 81/02 - Réceptacles, éléments d'emballage ou paquets pour contenus présentant des problèmes particuliers de stockage ou de transport ou adaptés pour servir à d'autres fins que l'emballage après avoir été vidés de leur contenu spécialement adaptés pour protéger leur contenu des dommages mécaniques
B65D 85/04 - Réceptacles, éléments d'emballage ou paquets spécialement adaptés à des objets ou à des matériaux particuliers pour des objets de forme annulaire pour bobines de fil métallique, cordes ou tuyaux souples
72.
OPTICAL FIBER CONNECTOR QUICK RELEASE CLIP THAT PREVENTS DAMAGE TO AN OPTICAL FIBER CONNECTOR PULLED FROM AN ADAPTER
A retention portion configured to enable release of a cable connector from an adapter without manipulation of the retention portion or the connector by a user, includes: a first portion; and a second portion extending from the first portion. The first portion may comprise an adapter engaging portion that may engage a receiving portion of an adapter; the second portion may move a withdrawal resisting portion of a connector out of engagement with the second portion as the withdrawal resisting portion moves in a withdrawal direction relative to the first portion; and the second portion may be configured to permit the connector to be released from the adapter without manipulation of the connector by a user so as to prevent damage to the connector from the connector being pulled out of the adapter in the withdrawal direction by a force exerted on a cable connected to the connector.
A retention portion configured to enable release of a cable connector from an adapter without manipulation of the retention portion or the connector by a user, includes: a first portion; and a second portion extending from the first portion. The first portion may comprise an adapter engaging portion that may engage a receiving portion of an adapter; the second portion may move a withdrawal resisting portion of a connector out of engagement with the second portion as the withdrawal resisting portion moves in a withdrawal direction relative to the first portion; and the second portion may be configured to permit the connector to be released from the adapter without manipulation of the connector by a user so as to prevent damage to the connector from the connector being pulled out of the adapter in the withdrawal direction by a force exerted on a cable connected to the connector.
An adapter bulkhead apparatus may include an adapter holder portion structurally configured to hold an adapter, a retaining portion structurally configured to movingly retain the adapter holder portion. The adapter holder portion may include an adapter receiving portion structurally configured to receive an adapter. The adapter holder portion may include a plurality of adapter holders that are structurally configured to slide relative to one another and relative to the retaining portion so as to enhance access space to the adapter held by the adapter holder portion.
An adapter bulkhead apparatus may include an adapter holder portion structurally configured to hold an adapter, a retaining portion structurally configured to movingly retain the adapter holder portion. The adapter holder portion may include an adapter receiving portion structurally configured to receive an adapter. The adapter holder portion may include a plurality of adapter holders that are structurally configured to slide relative to one another and relative to the retaining portion so as to enhance access space to the adapter held by the adapter holder portion.
A cable system component includes a housing having a seal-grasping surface portion and a seal having an elastically deformable tubular body attached to the housing. The body has a posterior sealing surface that cooperatively engages the seal-grasping surface portion of the housing and a forward sealing surface configured to cooperatively engage an interface port. The forward sealing surface includes a radially inner facet divided into a forward portion and a rearward portion by an inner annular groove in the inner facet. The seal includes an anterior portion and a posterior portion connected by a thinned neck portion, the forward portion of the radially inner facet is on the anterior portion, and the rearward portion of the radially inner facet is on the posterior portion. The rearward portion of the radially inner facet includes a sealing edge surface that is configured to cooperate with an outer surface of the interface port in order to provide a sealed connection between the connector and the port when the anterior portion is removed from the seal. The inner annular groove is radially aligned with the neck portion and is configured to keep the neck portion away from the sealing edge of the rearward portion of the radially inner facet when the anterior portion is removed from the seal.
H01R 13/52 - Boîtiers protégés contre la poussière, les projections, les éclaboussures, l'eau ou les flammes
F16J 15/02 - Joints d'étanchéité entre surfaces immobiles entre elles
H01R 24/40 - Dispositifs de couplage en deux pièces, ou l'une des pièces qui coopèrent dans ces dispositifs, caractérisés par leur structure générale ayant des contacts disposés concentriquement ou coaxialement spécialement adaptés à la haute fréquence
79.
CABLE CONNECTOR HAVING PIN TRIM MARKINGS STRUCTURALLY CONFIGURED TO INDICATE PREDETERMINED CUT LOCATIONS SO AS TO PROVIDE CONSISTENT RADIO FREQUENCY PERFORMANCE
A cable connector structurally configured to facilitate accurate trimming of a connector conductor of the connector to provide consistent radio frequency performance of the connector, including: a connector portion structurally configured to connect to an adapter; and a connector conductor structurally configured to extend from the connector portion. The connector conductor comprises a marking; the connector conductor is structurally configured to electrically connect to a conductor of a cable; the connector conductor is structurally configured to be received by the adapter; and the marking is structurally configured to indicate a cut location of the connector conductor so as to provide consistent radio frequency performance of the cable connector when connected to the adapter.
A connector for connecting a cable to a cabinet in a manner that enhances feeding of a fiber through the connector includes first and second portions. The first portion is configured to be rotatingly coupled with the second portion; passageways in the first and second portions are configured to be positioned at a first angle relative to each other in a first position and at a second angle relative to each other in a second position; the first and second angles are different angles; the passageways in the first position are configured so as to enhance feeding of the fiber of the cable through the connector for connection of the cable to a cabinet; and the first portion is configured to be secured to the second portion in the first position so as to enhance feeding of the fiber through the connector for connection of the cable to the cabinet.
An insulator may include a first insulator portion that is structurally configured to receive a portion of a center conductor portion of a coaxial cable extender and a second insulator portion that is structurally configured to receive at least a portion of the first insulator portion. The second insulator portion may comprise a higher dielectric constant than a dielectric constant of the first insulator portion such that the insulator may be structurally configured to enhance electrical performance of the coaxial cable extender.
H01B 11/18 - Câbles coaxiaux; Câbles analogues ayant plusieurs conducteurs intérieurs dans un conducteur extérieur commun
H01B 3/00 - Isolateurs ou corps isolants caractérisés par le matériau isolant; Emploi de matériaux spécifiés pour leurs propriétés isolantes ou diélectriques
82.
DUCT PORT NOZZLE WITH AUXILIARY WIRE PASS-THROUGH THAT PROVIDES ENTRY POINT FOR AUXILIARY WIRE OTHER THAN A DUCT PORT
A duct attachment portion structurally configured to receive a cable duct includes: a duct receiving portion; an auxiliary wire entry portion; and an auxiliary wire entry portion seal portion. The auxiliary wire entry portion seal portion is structurally configured to be penetrated by an auxiliary wire passing through the auxiliary wire entry portion; the auxiliary wire is associated with a cable duct; and the auxiliary wire entry portion is configured to provide an entry point for the auxiliary wire separate from the duct receiving portion to optimize use of the first portion, and the auxiliary wire entry portion is configured to improve protection of the auxiliary wire.
A fiber management portion retaining portion for retaining a fiber management portion may include a first portion, and a second portion structurally configured to be movingly attached to the first portion such that the second portion may be structurally configured to selectively slide relative to the first portion. The first portion may be structurally configured to have a first portion fiber management portion attachment portion that may be structurally configured to engage a fiber management portion; and the second portion may be structurally configured to move relative to the first portion while being attached to the first portion to provide a varying amount of space for insertion of a fiber and/or cable in the second portion so as to facilitate insertion and removal of the fiber and/or cable into/from the fiber management portion retaining portion.
A tool for forming a window in a jacket of a cable includes a body portion having a first end, a second end opposite the first end, an exterior surface, a cable receiving portion extending from the first end to the second end, and an opening. The cable receiving portion may receive a cable having a jacket. A lower surface of the cable receiving portion may be curved in a region proximate to the opening in order to urge at least a portion of the jacket to extend beyond the exterior surface at the opening. The exterior surface and a guide member proximate to the opening are configured to allow a blade to slide across the opening to remove a portion of the jacket thereby providing access to a fiber or wire disposed within the jacket.
G02B 6/46 - Procédés ou appareils adaptés à l'installation de fibres optiques ou de câbles optiques
H02G 1/12 - Méthodes ou appareils spécialement adaptés à l'installation, entretien, réparation, ou démontage des câbles ou lignes électriques pour supprimer l'isolant ou l'armature des câbles, p.ex. de leur extrémité
85.
TOOL FOR FORMING AN OPENING IN A JACKET OF A MULTI-FIBER CABLE CONFIGURED TO PROVIDE ENHANCED CUTTING MEMBER PROTECTION
A tool for forming a window in a jacket of a cable includes a body portion having a first end, a second end opposite the first end, an exterior surface, a cable receiving portion extending from the first end to the second end, and an opening. The cable receiving portion may receive a cable having a jacket. A lower surface of the cable receiving portion may be curved in a region proximate to the opening in order to urge at least a portion of the jacket to extend beyond the exterior surface at the opening. The exterior surface and a guide member proximate to the opening are configured to allow a blade to slide across the opening to remove a portion of the jacket thereby providing access to a fiber or wire disposed within the jacket.
G02B 6/245 - Enlèvement des enveloppes protectrices des guides de lumière avant le couplage
B26B 29/06 - Dispositions pour le guidage d'outils coupants à main
86.
CABLE CONNECTOR HAVING PIN TRIM MARKINGS STRUCTURALLY CONFIGURED TO INDICATE PREDETERMINED CUT LOCATIONS SO AS TO PROVIDE CONSISTENT RADIO FREQUENCY PERFORMANCE
A cable connector structurally configured to facilitate accurate trimming of a connector conductor of the connector to provide consistent radio frequency performance of the connector, including: a connector portion structurally configured to connect to an adapter; and a connector conductor structurally configured to extend from the connector portion. The connector conductor comprises a marking; the connector conductor is structurally configured to electrically connect to a conductor of a cable; the connector conductor is structurally configured to be received by the adapter; and the marking is structurally configured to indicate a cut location of the connector conductor so as to provide consistent radio frequency performance of the cable connector when connected to the adapter.
H01R 9/05 - Dispositifs de connexion conçus pour assurer le contact avec plusieurs des conducteurs d'un câble multiconducteur pour câbles coaxiaux
H01R 24/40 - Dispositifs de couplage en deux pièces, ou l'une des pièces qui coopèrent dans ces dispositifs, caractérisés par leur structure générale ayant des contacts disposés concentriquement ou coaxialement spécialement adaptés à la haute fréquence
87.
NODE HARNESS FEED-THROUGH CONNECTOR CONFIGURED TO ENHANCE CONNECTION OF A FIBER OPTIC CABLE TO A CABINET
A connector for connecting a cable to a cabinet in a manner that enhances feeding of a fiber through the connector includes first and second portions. The first portion is configured to be rotatingly coupled with the second portion; passageways in the first and second portions are configured to be positioned at a first angle relative to each other in a first position and at a second angle relative to each other in a second position; the first and second angles are different angles; the passageways in the first position are configured so as to enhance feeding of the fiber of the cable through the connector for connection of the cable to a cabinet; and the first portion is configured to be secured to the second portion in the first position so as to enhance feeding of the fiber through the connector for connection of the cable to the cabinet.
A cable management device including: abase portion; and a side portion. The base portion may include an edge connecting portion at an edge of the base portion that may be structurally configured to removably connect to an edge connection portion of an other device; the base portion may include an edge connection portion at an edge of the base portion that may be structurally configured to removably connect to an edge connecting portion of the other device; the edge connecting portion may be structurally configured as a connection recess; the edge connection portion may be structurally configured as a connection tab; and the base portion and the side portion may be structurally configured to be removably connected to the other device to provide a modular and scalable cable management system that permits expandability on demand.
A cable management device including: a base portion; and a side portion. The base portion may include an edge connecting portion at an edge of the base portion that may be structurally configured to removably connect to an edge connection portion of an other device; the base portion may include an edge connection portion at an edge of the base portion that may be structurally configured to removably connect to an edge connecting portion of the other device; the edge connecting portion may be structurally configured as a connection recess; the edge connection portion may be structurally configured as a connection tab; and the base portion and the side portion may be structurally configured to be removably connected to the other device to provide a modular and scalable cable management system that permits expandability on demand.
A duct attachment portion structurally configured to receive a cable duct includes: a duct receiving portion; an auxiliary wire entry portion; and an auxiliary wire entry portion seal portion. The auxiliary wire entry portion seal portion is structurally configured to be penetrated by an auxiliary wire passing through the auxiliary wire entry portion; the auxiliary wire is associated with a cable duct; and the auxiliary wire entry portion is configured to provide an entry point for the auxiliary wire separate from the duct receiving portion to optimize use of the first portion, and the auxiliary wire entry portion is configured to improve protection of the auxiliary wire.
A fiber management portion retaining portion for retaining a fiber management portion may include a first portion, and a second portion structurally configured to be movingly attached to the first portion such that the second portion may be structurally configured to selectively slide relative to the first portion. The first portion may be structurally configured to have a first portion fiber management portion attachment portion that may be structurally configured to engage a fiber management portion; and the second portion may be structurally configured to move relative to the first portion while being attached to the first portion to provide a varying amount of space for insertion of a fiber and/or cable in the second portion so as to facilitate insertion and removal of the fiber and/or cable into/from the fiber management portion retaining portion.
A security sleeve system for a cable connector (60) includes: a first portion that may engage a tightening portion of a cable connector (60); and a second portion that may engage the first portion. The first portion may be configured to engage the tightening portion such that rotation of the first portion in a tightening direction causes the tightening portion to rotate; the first portion and the second portion may be configured to receive a tool (400) that impedes rotation of the second portion relative to the first portion to cause the tightening portion to rotate in a loosening direction; the second portion may be configured to rotate relative to the first portion when the tool (400) is not received in the first portion; and the first portion and the second portion may be configured to provide tool-less tightening of the cable connector (60) to a mating part but are configured to use a tool (400) to loosen the cable connector (60) from the mating part.
H01R 13/623 - Boîtier ou bague comportant une rainure hélicoïdale
H01R 13/639 - Moyens additionnels pour maintenir ou verrouiller les pièces de couplage entre elles après l'engagement
H01R 24/40 - Dispositifs de couplage en deux pièces, ou l'une des pièces qui coopèrent dans ces dispositifs, caractérisés par leur structure générale ayant des contacts disposés concentriquement ou coaxialement spécialement adaptés à la haute fréquence
A security sleeve system for a cable connector, includes: a first portion that may engage a tightening portion of a cable connector; and a second portion that may engage the first portion. The first portion may be configured to engage the tightening portion such that rotation of the first portion in a tightening direction causes the tightening portion to rotate; the first portion and the second portion may be configured to receive a tool that impedes rotation of the second portion relative to the first portion to cause the tightening portion to rotate in a loosening direction; the second portion may be configured to rotate relative to the first portion when the tool is not received in the first portion; and the first portion and the second portion may be configured to provide tool-less tightening of the cable connector to a mating part but are configured to use a tool to loosen the cable connector from the mating part.
H01R 13/639 - Moyens additionnels pour maintenir ou verrouiller les pièces de couplage entre elles après l'engagement
H01R 13/633 - Moyens additionnels pour faciliter l'engagement ou la séparation des pièces de couplage, p.ex. moyens pour aligner ou guider, leviers, pression de gaz pour la séparation uniquement
A cable network system for bidirectionally communicating signals at an enhanced duplex frequency range, which may be between about 5 MHz and about 650 MHz. This system may include a first amplifier, which may be configured to condition an upstream signal proceeding from a subscriber premises to a headend, without necessarily conditioning a downstream signal proceeding from the headend to the subscriber premises, a second amplifier, which may be configured to condition the downstream signal without necessarily conditioning the upstream signal, and a shaping circuit, which may condition the upstream and downstream signals. This system also may simultaneously, or in an overlapping or offset manner, communicate signals at a full duplex frequency range without a diplex filter.
H04B 3/38 - Circuits de répéteur pour signaux dans deux gammes de fréquence, transmis dans des directions opposées, sur la même voie de transmission
H03F 1/02 - Modifications des amplificateurs pour augmenter leur rendement, p.ex. étages classe A à pente glissante, utilisation d'une oscillation auxiliaire
H04B 3/08 - Systèmes à ligne de transmission - Détails Égalisation par le signal transmis dans la boucle de réaction négative de l'amplificateur de ligne
H04L 5/14 - Fonctionnement à double voie utilisant le même type de signal, c. à d. duplex
96.
PUSH/PULL INTERFACE FOR COAXIAL CABLES WITH SECURE GROUND CONNECTION
A cable connector assembly that may include a connector that may comprise a first body and a second body that may be configured to be coupled to the first body, and an adapter comprising a biasing portion. The biasing portion may be configured to be coupled to the second body. The biasing portion may be configured to have a space that is configured to allow the biasing portion to elastically deform radially inwardly. The biasing portion may be configured to exert an axial biasing force axially against the second body. The biasing portion may be configured to exert an outward radial biasing force against the second body. The biasing portion may be configured to provide the axial and radial biasing forces so as to provide a secure ground connection between the connector and the adapter and such that a push/pull connection between the connector and the adapter that is operable by a non-technician user.
H01R 13/629 - Moyens additionnels pour faciliter l'engagement ou la séparation des pièces de couplage, p.ex. moyens pour aligner ou guider, leviers, pression de gaz
H01R 24/54 - Pièces intermédiaires, p.ex. adaptateurs, répartiteurs ou coudes
A cable connector assembly that may include a connector that may comprise a first body and a second body that may be configured to be coupled to the first body, and an adapter comprising a biasing portion. The biasing portion may be configured to be coupled to the second body. The biasing portion may be configured to have a space that is configured to allow the biasing portion to elastically deform radially inwardly. The biasing portion may be configured to exert an axial biasing force axially against the second body. The biasing portion may be configured to exert an outward radial biasing force against the second body. The biasing portion may be configured to provide the axial and radial biasing forces so as to provide a secure ground connection between the connector and the adapter and such that a push/pull connection between the connector and the adapter that is operable by a non-technician user.
A cable connecting and sealing component for use in a connector including: a seal portion having a seal engagement portion; and a connector portion having a seal receiving connector portion configured to receive the seal engagement portion and a seal compression connector portion that is configured to sealingly compress the seal engagement portion when the connector portion and the seal portion are assembled. The seal engagement portion is configured to biasingly resist axial separation of the seal portion and the connector portion when the seal engagement portion is compressed by the seal compression connector portion so as to provide an environmental seal between the seal portion and the connector portion during operation of the assembly.
A cable connecting and sealing component for use in a connector including: a seal portion having a seal engagement portion; and a connector portion having a seal receiving connector portion configured to receive the seal engagement portion and a seal compression connector portion that is configured to sealingly compress the seal engagement portion when the connector portion and the seal portion are assembled. The seal engagement portion is configured to biasingly resist axial separation of the seal portion and the connector portion when the seal engagement portion is compressed by the seal compression connector portion so as to provide an environmental seal between the seal portion and the connector portion during operation of the assembly.
