Description: FORM 2
The Patents Act 1970
(39 of 1970)
&
The Patent Rules 2003
COMPLETE SPECIFICATION
(See Section 10 and rule 13)

TITLE OF THE INVENTION
“CONDUIT CLAMP ASSEMBLY FOR A FIBER CLOSURE”
APPLICANTS:
Name: Sterlite Technologies Limited
Nationality: Indian
Address: 3rd Floor, Plot No. 3, IFFCO Tower,
Sector – 29, Gurugram, Haryana
122002
The following specification particularly describes the invention and the manner in which it is performed.
 
TECHNICAL FIELD
[0001] The present disclosure relates generally to junction boxes and, more particularly, to a conduit clamp assembly for a fiber closure.
BACKGROUND
[0002] Telecommunications systems generally employ a large network of telecommunications cables for a transmitting large volume of data and voice signals in long distance communication systems. Optical fiber cables having wide bandwidth and low noise operations exhibits wide applications, for example to enable long distance communications.
[0003] An optical fiber cable having a plurality of glass fibers each of which is protected by at least one layer of a coating material. The optical fibers may be assembled into units in which the fibers are held together by binder ribbons to provide a core.
[0004] Still, during the service life of an optical fiber cable, the cable may be damaged. This may occur, for example, through unintentional contact by various kinds of excavation equipment, by lightning or by repeated attack by animals. Such damages lead to replacement of the complete cable. Therefore, a conventional way to avoid or minimize the above problems is to use a closure, within which all fibers are harnessed and protected environmentally. Further, in cases of disruption, it becomes necessary to restore service and connectivity as quickly as possible.
[0005] In this regard, the prior art related to optical fiber closures are as follow:
[0006] US 5150930 A discloses a connector for corrugated pipes or rods. The connector is provided with a housing that allows insertion of a pipe or rod into a bore, through the open end of the connector. The connector also includes a pair of resilient locking members of fingers that are formed on the housing wall such that the pair of resilient locking members are configured to lock into a single valley of corrugations of the pipe and thereby preventing withdrawal of the pipe from the connector.
[0007] US 5661840 A discloses an optical fiber junction box provided with a tray and a base. The base is provided with a number of entry holes that allows insertion of corrugated optical conduit into junction box. The tray of the junction box allows harnessing of the optical fiber cables such that the optical fiber cables are configured to wrap around the spools provided on the tray.
[0008] Even the above-mentioned prior arts of optical fiber closures are developed to the best they could, they have limitations when the solutions provided by these prior arts are considered in repair operations. These arrangements and assemblies for providing one or more solutions increase the cost of manufacture and maintenance of the optical fiber network. Also, the times required for the assembly or repair of such optical fiber closures are substantially large.
[0009] In order to provide a rapidly deployable optical fiber network structure, a cost effective and easily repairable solution is desirable in anchoring the optical fiber cables to an optical fiber closure in a fast and readily removable manner. Therefore, a high-quality plug and play arrangement for optical fiber cables in optical fiber closures is required.
SUMMARY
[0010] In view of the foregoing, a conduit clamp assembly is disclosed. The conduit clamp assembly includes a conduit clamp body adapted to be engaged with a port of one or more ports of a fiber closure, such that the conduit clamp body includes a fin that is circumferentially disposed on the conduit clamp body such that the fin allows insertion of a predefined length of the conduit clamp body into the port of one or more ports. The conduit clamp assembly further includes a bracket having a bracket base and an elongated structure that is substantially perpendicular to the bracket base, such that the bracket is adapted to be mounted to a proximal end of the conduit clamp body and a base of the fiber closure and one or more screws, such that the one or more screws are adapted to couple the bracket to the conduit clamp body.
[0011] In an aspect of the present disclosure, a fiber closure is disclosed. The fiber closure includes a base such that the base includes a first side, a second side, and one or more ports disposed on the first side of the base. Each port of the one or more ports is an elongated hollow cylinder extending on the first side of the base. One or more conduit clamp assemblies are removably engaged with the one or more ports, such that each conduit clamp assembly of the one or more conduit clamp assemblies includes a conduit clamp body adapted to be engaged with a port of a plurality of ports of a fiber closure. The conduit clamp body of the conduit clamp assembly includes a fin that is circumferentially disposed on the conduit clamp body such that the fin allows insertion of a predefined length of the conduit clamp body into the port of a plurality of ports. Each conduit clamp assembly of the one or more conduit clamp assemblies further includes a bracket having a bracket base and an elongated structure that is substantially perpendicular to the bracket base. The bracket is adapted to be mounted between the conduit clamp body and a base of the fiber closure. Each conduit clamp assembly of the one or more conduit clamp assemblies is provided with one or more screws of the such that the one or more screws are adapted to couple the bracket to the conduit clamp body.
BRIEF DESCRIPTION OF DRAWINGS
[0012] The following detailed description of the preferred aspects of the present disclosure will be better understood when read in conjunction with the appended drawings. The present disclosure is illustrated by way of example, and not limited by the accompanying figures, in which like references indicate similar elements.
[0013] FIG. 1A illustrates a front view of a fiber closure.
[0014] FIG. 1B illustrates a perspective view of the fiber closure.
[0015] FIG. 2 illustrates a collapsed view of the conduit clamp assembly with one first part.
[0016] FIG. 3 illustrates an exploded view of a conduit clamp assembly with one first part.
[0017] FIG. 4 illustrates a packed view (collapsed view) of the conduit clamp assembly provided with more than one first part, i.e., two first parts.
[0018] FIG. 5 illustrates an exploded view of the conduit clamp assembly such that the conduit clamp assembly is provided with more than one first part, i.e., two first parts.
[0019] FIG. 6 illustrates a packed view (collapsed view) of the conduit clamp assembly without using the wrap.
[0020] FIG. 7 illustrates the conduit clamp assembly in an assembled configuration such that the conduit clamp assembly holds a corrugated cable.
[0021] FIG. 8 illustrates installation of the conduit clamp assembly on a base of a fiber closure such that the conduit clamp assembly is provided with one first part;
[0022] FIG. 9 illustrates installation of the conduit clamp assembly on a base of the fiber closure such that the conduit clamp assembly is provided with more than one first parts, i.e., two first parts.
[0023] FIG. 10 illustrates the second end of the base of the fiber closure.
[0024] FIG. 11 illustrates connection of a bracket of the conduit clamp assembly with a conductive strip of a closure frame of the base.
 
DETAILED DESCRIPTION
[0025] The detailed description of the appended drawings is intended as a description of the currently preferred aspects of the present disclosure, and is not intended to represent the only form in which the present disclosure may be practiced. It is to be understood that the same or equivalent functions may be accomplished by different aspects that are intended to be encompassed within the spirit and scope of the present disclosure.
[0026] The term “corrugated conduit” as used herein the context of the present disclosure refers to a conduit/pipe that is adapted to allow passing of one or more optical fibers. The term “corrugated” in context to the corrugated conduit refers to ridges that are provided on the outer surface of the conduit.
[0027] FIG. 1A illustrates a perspective view of the fiber closure 100. The fiber closure 100 may have a base 106 such that the base 106. The base 106 may have a first side 107 and a second side 108. The first side 107 of the base 106 may have one or more ports of which first through fifth ports 104A-104E are shown. The first through fifth ports 104A-104E may be an elongated hollow port exhibiting a cylindrical shape. The first through fifth ports 104A-104E may extend from the first side 107 of the base 106. Specifically, FIG. 1A illustrates a packed view of a conduit clamp assembly 200 (as shown later in FIG. 2) inserted into a first through fifth ports 104A-104E of the base 106. Various components of the conduit clamp assembly and the conduit clamp assembly may be adapted to work/position/function/configure in the same manner/fashion, when the conduit clamp assembly is removably coupled to the first through fifth ports 104A-104E of the base 106 in the fiber closure 100.
[0028] FIG. 1B illustrates a front view of a fiber closure 100. FIG. 1B also depicts an exploded view of the conduit clamp assembly 200 (as shown later in FIG. 2) that is to be inserted into the first through fifth ports 104A-104E of the base 106. The fiber closure 100 have the base 106 and a cover 102. The cover 102 may be adapted to removably attached to the second side 108 of the base 106. The cover 102 may be therefore adapted to cover the second side 108 of the base 106. Specifically, FIG. 1B illustrates the insertion of the conduit clamp assembly 200 (as shown later in FIG. 2) to be inserted into the first through fifth ports 104A-104E of the base 106 such that the cover 102 covers the second side 108 of the base 106.
[0029] In some aspects, one or more than one conduit clamp assemblies 200 may be removably engaged with the first through fifth ports 104A-104E of the fiber closure 100.
[0030] Although FIG. 1A and FIG. 1B illustrates that the one or more ports have five ports (i.e., the first through fifth ports 104A-104E), it will be apparent to a person skilled in the art that the scope of the present disclosure is not limited to it. In various other aspects, the one or more ports may have any number of ports without deviating from the scope of the present disclosure. In such a scenario, each port may be adapted to perform one or more functionalities in a manner similar to the operations of the functionalities of the first through fifth port 104A-104E as described herein.
[0031] In some aspects, the base 106 may be fabricated using a molding material such as, but not limited to, Polycarbonate (PC), Acrylonitrile butadiene styrene (ABS), Polypropylene (PP), Nylon Plastic (PA), a Glass-filled polymer material, and the like. Aspects of the present disclosure are intended to have and/or otherwise cover any type of the moulding material for the base 106. Aspects of the present disclosure are intended to have and/or otherwise cover any material for the base 106 that is suitable for the base 106, including known, related and later developed materials.
[0032] In some aspects, the fiber closure 100 may be fabricated using a molding material such as, but not limited to, Polycarbonate (PC), Acrylonitrile butadiene styrene (ABS), Polypropylene (PP), Nylon Plastic (PA), a Glass-filled polymer material, and the like. Aspects of the present disclosure are intended to have and/or otherwise cover any type of the moulding material for the fiber closure 100. Aspects of the present disclosure are intended to have and/or otherwise cover any material for the fiber closure 100 that is suitable for the fiber closure 100, including known, related and later developed materials.
[0033] FIG. 2 illustrates a collapsed view of the conduit clamp assembly 200. The conduit clamp assembly 200 may be adapted to hold one or more corrugated conduits (one of the corrugated conduits is as shown later in FIG. 7) used with the fiber closure 100. In other words, the conduit clamp assembly 200 may be adapted for the one or more corrugated conduits used for passage of one or more optical fibers (as shown later in FIG. 7) in the fiber closure 100. The conduit clamp assembly 200 may have a conduit clamp body 202, a bracket 204, a wrap 206, and one or more removable engagement means 308 (as shown later in FIG. 3) of which a removable engagement means is shown in FIG. 3.
[0034] FIG. 3 illustrates an exploded view of the conduit clamp assembly 200. The conduit clamp body 202 having a proximal end 302A and a distal end 302B may be adapted to mount in a port of first through fifth ports 104A-104E of the fiber closure 100. The conduit clamp body 202 may have a first part 210 and a second part 212. The first part 210 may be adapted to be partially inserted into the second part 212 to form the conduit clamp body 202. As illustrated, the conduit clamp body 202 may have a fin 214, which may be circumferentially disposed on the conduit clamp body 202. The fin 214 may be circumferentially disposed on the conduit clamp body 202. The fin 214 may be configured to allow insertion of a predefined length of the conduit clamp body 202 into the port of the first through fifth ports 104A-104E of the fiber closure 100. The second part 212 of the conduit clamp body 202 may further have a first portion 212A and a second portion 212B. The first part 210 may have one or more through holes 326, one or more retention tabs 328, and one or more latches 330. The one or more retention tabs 328 may be provided on the external surface of the first part 210 and the one or more latches 330 may be provided on the internal surface of the first part 210. The one or more latches 330 of the first part 210 may be configured to hold or engaged with the one or more corrugated conduits (as shown later in FIG. 7) of the one or more corrugated conduits. The first portion 212A may have one or more through holes 324 and one or more receivers 332. The one or more receivers 332 may be provided on the surface of the first portion 212A of the second part 212 of the conduit clamp body 202.
[0035] The fin 214 may be an elevated portion on the conduit clamp body 202 such that the fin 214 is disposed between the first portion 212A and the second portion 212B of the second part 212 and thereby separating the first portion 212A and the second portion 212B of the second part 212.
[0036] The one or more through holes 326 of the first part 210 may be configured to partially insert into the one or more through holes 324 of the first portion 212A of the second part 212 of the conduit clamp body 202. The one or more retention tabs 328 of the first part 210 may be configured to engage with the one or more receivers 332 of the first portion 212A of the second part 212 to form the conduit clamp body 202. The first portion 212A of the second part 212 may be adapted to accept the one or more corrugated conduits for clamping (for example one of the corrugated conduits of the one or more corrugated conduits is shown later in FIG. 7).
[0037] The bracket 204 may have a bracket base 316, an elongated structure 318, a body end 334, and a base end 336. The body end 334 of the bracket 204 may be the end that is near to the bracket base 316 and the base end 336 of the bracket 204 may be the end away from the bracket base 316 or the body end 334. The bracket 204 may be mounted to a proximal end 302A of the conduit clamp body 202 such that the body end 334 may be mounted on the conduit clamp body 302 and the base end 336 may be mounted on the base 106 of the fiber closure 100. The bracket base 316 may have one or more bracket through holes 320 such that the one or more bracket through holes 320 of the bracket 204 may be configured to accept one or more optical fibers (as shown later in FIG. 4) extending from the one or more corrugated conduits, respectively for clamping. The elongated structure 318 may be configured such that the elongated structure 318 extends substantially perpendicular to the bracket base 316.
[0038] In some aspects, the elongated structure 318 may be substantially perpendicular to an angle of +-10 degree with respect to the bracket base 316.
[0039] In some aspects, the bracket 204 may be an elongated rigid structure. The term elongated rigid structure as used herein refers to the rigid structure having a longitudinally extending portion projecting from one end to the other end of the bracket 204.
[0040] In some aspects, the bracket base 316 and the elongated structure 318 of the bracket 204 may be a monolith structure. Therefore, the bracket base 316 and the elongated structure 318 may be fabricated as a single piece of material.
[0041] The bracket base 316 may be configured to be mounted between the wrap 206 and the base 106 of the fiber closure 100. The wrap 206 may be configured to interconnected between the second portion 212B of the second part 212 and the bracket base 316 of the bracket 204 by virtue of the removable engagement means 108. The removable engagement means 308 may be adapted to couple the bracket 204 to the conduit clamp body 202. The removable engagement means 308 may be configured to pass from the through holes 326 of the first part 210, from an aperture 312 of the wrap 206, and from a slot 321 provided on the bracket base 316 of the bracket 204, in order to couple the bracket 204 to the conduit clamp body 202.
[0042] In some aspects, the one or more removable engagement means 308 may be one or more screws that are adapted to couple the bracket 204 to the conduit clamp body 202.
[0043] The wrap 206 may be disposed adjacent to the proximal end 302A of the conduit clamp body 202 such that the wrap 206 may be disposed between the bracket 204 and the conduit clamp body 202. The wrap 206 may have one or more wrap through holes 322. The one or more wrap through holes 322 may be adapted to accept one or more optical fibers (as shown later in FIG. 7) extending from one or more corrugated conduits (as shown later in FIG. 7), respectively for clamping. Various components of the first part 210, the second part 212, the wrap 206, and the bracket 204 may be exercised in/used in/configured in/exhibited in or included in the same conduit clamp assembly 200, when the components of the conduit clamp assembly 200 are multiple in number.
[0044] In some aspects, the conduit clamp assembly 200 and the components of the conduit clamp assembly 200 may be fabricated using a molding material such as, but not limited to, Polycarbonate (PC), Acrylonitrile butadiene styrene (ABS), Polypropylene (PP), Nylon Plastic (PA), a Glass-filled polymer material, and the like. Aspects of the present disclosure are intended to have and/or otherwise cover any type of the moulding material for the conduit clamp assembly 200. Aspects of the present disclosure are intended to have and/or otherwise cover any material for the conduit clamp assembly 200 that is suitable for the conduit clamp assembly 200, including known, related and later developed materials.
[0045] In some aspects, material of the wrap 106 may be silicone rubber. Aspects of the present disclosure are intended to have and/or otherwise cover any material for the wrap 106 that is suitable for the wrap 106, including known, related and later developed materials.
[0046] Although FIG. 3 illustrates that the one or more removable engagement means have one removable engagement means (i.e., the removable engagement means 308), it will be apparent to a person skilled in the art that the scope of the present disclosure is not limited to it. In various other aspects, the one or more removable engagement means may have any number of removable engagement means without deviating from the scope of the present disclosure. In such a scenario, each screw may be adapted to perform one or more functionalities in a manner similar to the operations of the functionalities of the removable engagement means 308 as described herein.
[0047] FIG. 4 illustrates a collapsed view (packed view) of the conduit clamp assembly 200 such that the conduit clamp assembly 200 is provided with more than one first part 210, i.e., two first parts 210A, 210B. The one or more through holes 326 of the first parts 210A, 210B may be inserted into the one or more through holes 324 of the second part 212 in the collapsed configuration as shown in FIG. 4. The one or more through holes 324 of the second part 312 may be arranged in conformity with the wrap through holes 322 and with the one or more bracket through holes 320 such that the one or more corrugated conduits are passed through the conduit clamp assembly 200 and the one or more optical fibers (as shown later in FIG. 7) extending from one or more corrugated conduits (as shown later in FIG. 7). Various components as used herein for the conduit clamp assembly 200, according to an aspect of the present disclosure are configured/arranged/positioned in the same fashion or manner as the components of the conduit clamp assembly 200, according to other aspects of the present disclosure. The components of the conduit clamp assembly 200 of various aspects of the present disclosure may exhibit different viable shapes and may feature a number of redundant sub-components that facilitates holding of the one or more corrugated conduits within the conduit clamp assembly 200.
[0048] FIG. 5 illustrates an exploded view of the conduit clamp assembly 200 such that the conduit clamp assembly 200 is provided with more than one first part, i.e., two first parts. The conduit clamp assembly 200 may have more than one first parts 310, for example two first parts 310 i.e., the first parts 310A, 310B (hereinafter individually referred to and designated as “the first part 310” and collectively referred to and designated as “the first parts 310A, 310B), as shown in FIG. 5. Each first part of the first parts 310A, 310B may have one or more through holes 326. The first portion 212A of the second part 212 of the conduit clamp assembly 200 may have two through holes 324A, 324B (hereinafter individually referred to and designated as “the through hole 324” and collectively referred to and designated as “the through holes 324A, 324B). The one or more through holes 326 of the first parts 310A, 310B may be aligned in conformity with the through holes 324A, 324B of the second part 212. The wrap 206 may have more than one wrap through holes, for example two wrap through holes 322A, 322B (hereinafter collectively referred to and designated as “the wrap through holes 322”). The wrap through holes 322 may be aligned in conformity with the through holes 324A, 324B of the second part 212 of the conduit clamp body 202. The bracket 204 may have the one or more bracket through holes 320, for example two bracket through holes 320A, 320B (hereinafter collectively referred to and designated as “the bracket through holes 320). Various components of the first part 210, the second part 212, the wrap 206, and the bracket 204 of the conduit clamp assembly 200 may be exercised in/used in/configured in/exhibited in or included in another corresponding components of the conduit clamp assembly 200, when more than one conduit clamp assemblies 200 are used for enablement of the present disclosure.
[0049] FIG. 6 illustrates the conduit clamp assembly 200 without using the wrap 206. The conduit clamp assembly 200 may be assembled without using the wrap 206. The wrap 206 may be excluded from the conduit clamp assembly 200, while mounting the conduit clamp assembly 200 with the first through fifth ports 104A-104E of the base 106of the fiber closure 100.
[0050] FIG. 7 illustrates the conduit clamp assembly 200 in an assembled configuration such that the conduit clamp assembly 200 holds a corrugated cable. In the assembled configuration of the conduit clamp assembly 200, the one or more through holes 326 of the first part 210 may be partially inserted into the one or more through holes 324 of the first portion 212A of the second part 212. While inserting the one or more through holes 326 of the first part 210 into the one or more through holes 324 of the first portion 212A of the second part 212, the one or more retention tabs 328 of the first part 210 may be adapted to receive within the one or more receivers 332 of the first portion 212A of the second part 212. This receiving of the one or more retention tabs 328 within the one or more receivers 332 holds the first part 210 with the second part 212. The conduit clamp assembly 200 may be configured to hold or grasp a corrugated conduit 702 in the assembled configuration. The corrugated conduit 702 may be adapted to pass through the distal end 302B of the conduit clamp body 202 such that the corrugated conduit 702 passes through the one or more through holes 326 of the first part 210. In the assembled configuration, the one or more latches 330 of the first part 210 engages with the corrugations/recesses of the corrugated conduit 702 such that the corrugated conduit 702 is held firmly within the one or more through holes 326 of the first part 210. In some aspects, the conduit clamp assembly 200 may be configured to hold or grasp the one or more corrugated conduits, for which holding of the one corrugated conduit 702 is shown by FIG. 7.
[0051] In some aspects, the conduit clamp assembly 200 may be configured to hold more than one corrugated conduit 702.
[0052] The corrugated conduit 702 may be configured to hold one or more optical fibers 704A-704E (hereinafter individually referred to and designated as “the optical fiber 704” and collectively referred to and designated as “the optical fibers 704”) such that the one or more optical fibers 704 pass through the corrugated conduit 702. The one or more optical fibers 704 may be configured to pass through the one or more holes of the first portion 212A of the second part 212. After that the one or more optical fibers 704 may be configured to pass through the one or more wrap through holes 322 of the wrap 206 and then through the one or more bracket through holes 320 of the bracket 204. Eventually, the one or more optical fibers 704 may be configured to exit through the one or more bracket through holes 320 of the bracket 204.
[0053] FIG. 8 illustrates installation of the conduit clamp assembly 200 on the base 106 of the fiber closure 100 such that the conduit clamp assembly 200 is provided with one first part 210. The conduit clamp assembly 200 may be removably engaged with the first through fifth ports 104A-104E of the base 106 of the fiber closure 100. Specifically, FIG. 8 illustrates installation of the conduit clamp assembly 200 having one first part 210 and one second part 212 with one through hole 224 with the first through fifth ports 104A-104E of the base 106 of the fiber closure 100.
[0054] FIG. 9 illustrates installation of the conduit clamp assembly 200 on the base 106 of the fiber closure 100 such that the conduit clamp assembly 200 is provided with more than one first parts 210, for example two first parts 210A, 210B. The conduit clamp assembly 200 may be adapted to mount with the first through fifth ports 104A-104E of the base 106 of the fiber closure.
[0055] In some aspects, the first through fifth ports 104A-104E may be filled with a resin material to facilitate sealing of the conduit clamp assembly 200 when the conduit clamp assembly 200 is mounted in the first through fifth ports 104A-104E of the base 106 of the fiber closure 100.
[0056] In some aspects, the first through fifth ports 104A-104E may be filled with a compressing element. The compressing element may have, but not limited to, a rubber gasket, a seal or the like. The compressing element may be adapted to adhere to the one or more optical fibers 704 and to the inner surface of each port of the first through fifth ports 104A-104E. Aspects of the present disclosure are intended to have and/or otherwise cover any type of the compressing material, including known, related and later developed materials.
[0057] In some aspects, one or more than one conduit clamp assemblies 200 may be removably engaged with the first through fifth ports 104A-104E of the base 106 of the fiber closure 100.
[0058] FIG. 10 illustrates the second end 108 of the base 106. The base 108 may have a closure frame 103. The closure frame 103 may have one or more conductive strips of which first through fourth conductive strips 105A-105D are shown. The first through fourth conductive strips 105A-105D may project outwardly from the closure frame 103. The bracket 204 of the conduit clamp assembly 200 may be coupled to at least a component of the closure frame 103 of the base 106 of the fiber closure 100.
[0059] FIG. 11 illustrates connection of the bracket 204 of the conduit clamp assembly 200 with the first through fourth conductive strips 105A-105D of the closure frame 103 of the base 106 of the fiber closure 100. The closure frame 103 may be provided on the second side 108 of the base 106. The elongated structure 318 of the bracket 204 projects from the first through fifth ports 104A-104E of the base 106 to the second side 108 of the base 106. The closure frame 103 of the base 106 may be configured for mounting one or more fiber management components in the fiber closure. The closure frame 103 may be mounted on the base 106 by way of first set of fasteners, for example one of such fastener 114 (hereinafter referred to as “the first fastener”) is shown. The base end 336 of the bracket 204 may be electrically coupled to each conductive strip of the first through fourth conductive strips 105A-105D by way of second set of fasteners, for example one of such fastener 112 (hereinafter referred to as “the second fastener”) is shown. Each conductive strip of the first through fourth conductive strips 105A-105D of the closure frame 103 may be coupled to the bracket 204 of one or more conduit clamp assemblies 200. For example, the bracket 106 of the one or more conduit clamp assemblies 200 may be electrically coupled on either ends of each conductive strip of the first through fourth conductive strips 105A-105D by way of the second fastener 112. The bracket 204 of one of the conduit clamp assemblies 200 being electrically coupled to one of the conductive strips of the first through fourth conductive strips 105A-105D is shown. The elongated structure 318 of the bracket 204 may be coupled to an end of one of the conductive strips of the first through fourth conductive strips 105A-105D to maintain electrical connection between the bracket 204 and the closure frame 103.
[0060] Although FIG. 11 illustrates that the one or more conductive strips have four conductive strips (i.e., the first through fourth conductive strips 105A-105D ), it will be apparent to a person skilled in the art that the scope of the present disclosure is not limited to it. In various other aspects, the one or more conductive strips may have any number of conductive strips without deviating from the scope of the present disclosure. In such a scenario, each conductive strip may be adapted to perform one or more functionalities in a manner similar to the operations of the functionalities of the first through fourth conductive strips 105A-105D as described herein.
[0061] While various aspects of the present disclosure have been illustrated and described, it will be clear that the present disclosure is not limited to these aspects only. Numerous modifications, changes, variations, substitutions, and equivalents will be apparent to those skilled in the art, without departing from the spirit and scope of the present disclosure, as described in the claims. Further, unless stated otherwise, terms such as “first” and “second” are used to arbitrarily distinguish between the elements such terms describe. Thus, these terms are not necessarily intended to indicate temporal or other prioritization of such elements.
, C , Claims: CLAIMS

We claim:

1. A conduit clamp assembly (200) comprising:
a conduit clamp body (202) adapted to be engaged with a port of one or more ports (104A-104E) of a fiber closure (100), wherein the conduit clamp body (202) comprising a fin (214) that is circumferentially disposed on the conduit clamp body (202) such that the fin (214) allows insertion of a predefined length of the conduit clamp body (202) into the port of the one or more ports (304A-304E); and
a bracket (204) comprising a bracket base (316) and an elongated structure (318) that is substantially perpendicular to the bracket base (316), wherein the bracket (204) is mounted to a proximal end (302A) of the conduit clamp body (202).

2. The conduit clamp assembly (200) as claimed in claim 1, further comprises one or more removable engagement means (308) such that each removable engagement means of the one or more removable engagement means (308) is adapted to couple the bracket (204) to the conduit clamp body (202).

3. The conduit clamp assembly (200) as claimed in claim 1, wherein the bracket (204) further comprising one or more bracket through holes (320) adapted to accept one or more optical fibers (704A-704E) extending from one or more corrugated conduits (702), respectively.

4. The conduit clamp assembly (200) as claimed in claim 1, further comprising a wrap (206) made up of a compressible element such that the wrap (206) is disposed adjacent to the proximal end (302A) of the conduit clamp body (202), wherein the wrap (206) comprising one or more wrap through holes (322) to accept the one or more optical fibers (704) extending from the one or more corrugated conduits (702), respectively.

5. The conduit clamp assembly (200) as claimed in claim 1, wherein the conduit clamp body (202) further comprising:
a first part (210) having one or more through holes (326);
a second part (212) having a first portion (212A) and a second portion (212B) such that the first portion (212A) comprising one or more through holes (324), wherein the one or more through holes (326) of the first part (210) are at least partially inserted into the one or more through holes (324) of the first portion (212A) of the second part (212).

6. The conduit clamp assembly (200) as claimed in claim 4, wherein the first portion (212A) of the second part (212) is adapted to accept the one or more corrugated conduits (702).

7. The conduit clamp assembly (200) as claimed in claim 1, wherein the elongated structure (318) is substantially perpendicular +-10 degree to the bracket base (316).

8. The conduit clamp assembly (200) as claimed in claim 4, wherein the first part (210) comprising one or more retention tabs (328) on an external surface and the second part (212) comprising one or more receivers (332) such that the one or more receivers (332) are adapted to receive the one or more retention tabs (328) of the second part (212).

9. The conduit clamp assembly (200) as claimed in claim 4, wherein the first part (210) further comprising one or more latches (330) on an internal surface that are adapted to be engaged with a corrugated conduit of the one or more corrugated conduits (702).

10. The conduit clamp assembly (200) as claimed in claim 1, wherein the bracket (204) further comprising a body end (334) and a base end (336) such that the body end (334) is mounted on the conduit clamp body (202) and the base end (336) is mounted on the base (106) of the fiber closure (100).

11. The conduit clamp assembly (200) as claimed in claim 1, wherein the bracket base (316) and the elongated structure (318) are monolith structures.

12. The conduit clamp assembly (200) as claimed in claim 1, wherein the fin (214) is an elevated portion on the conduit clamp body (202) disposed between the first portion (212A) and the second portion (212B) of the second part (212).

13. A fiber closure (100) comprising:
a base (106) having a first side (107) and a second side (108);
one or more ports (104A-104E) disposed on the first side (107) of the base (106), wherein each port of the one or more ports (104A-104E) is an elongated hollow cylinder extending on the first side (107) of the base (106);
one or more conduit clamp assemblies (200) removably engaged with the one or more ports (104A-104E), wherein each conduit clamp assembly of the one or more conduit clamp assemblies (200) comprising:
a conduit clamp body (202) adapted to be engaged with a port of the one or more ports (104A-104E) of the fiber closure (100), wherein the conduit clamp body (202) comprising a fin (214) that is circumferentially disposed on the conduit clamp body (202) such that the fin (214) allows insertion of a predefined length of the conduit clamp body (202) into the port of the one or more ports (104A-104E); and
a bracket (204) comprising a bracket base (316) and an elongated structure (318) that is substantially perpendicular to the bracket base (316), wherein the bracket (204) is adapted to be mounted between the conduit clamp body (202) and the base (106) of the fiber closure (100).

14. The fiber closure (100) as claimed in claim 13, wherein each conduit clamp assembly of the one or more conduit clamp assemblies (200) further comprises one or more removable engagement means (308), wherein each one or more removable engagement means of the one or more one or more removable engagement means (308) is adapted to couple the bracket (204) to the conduit clamp body (202).

15. The fiber closure (100) as claimed in claim 13, wherein the base (106) further comprising a closure frame (103) mounted on the second side (108) of the base (106) such that the closure frame (103) is adapted for mounting one or more fiber management components in the fiber closure (100).

16. The fiber closure (100) as claimed in claim 13, further comprising a cover that (102) is adapted to be removably attached to the second side (108) of the base (106).

17. The fiber closure (100) as claimed in claim 13, wherein the bracket (204) further comprising one or more bracket through holes (320) adapted to accept one or more optical fibers (704A-704E) extending from the one or more corrugated conduits (702), respectively.

18. The fiber closure (100) as claimed in claim 13, further comprising a wrap (206) made up of a compressible element such that the wrap (206) is disposed between the bracket (204) and the conduit clamp body (202), wherein the wrap (206) comprising one or more wrap through holes (322) to accept the one or more optical fibers (704) extending from the one or more corrugated conduits (702), respectively.

19. The fiber closure (100) as claimed in claim 13, wherein the conduit clamp body (202) further comprising:
a first part (210) having one or more through holes (326);
a second part (212) having a first portion (212A) and a second portion (212B) such that the first portion (212A) comprising one or more through holes (324), wherein the one or more through holes (326) of the first part (210) are at least partially inserted into the one or more through holes (324) of the first portion (212A) of the second part (212).

20. The fiber closure (100) as claimed in claim 19, wherein the first portion (212A) of the second part (212) is adapted to accept the one or more corrugated conduits (702) for clamping.

21. The fiber closure (100) as claimed in claim 13, wherein the elongated structure (318) is substantially perpendicular +-10 degree to the bracket base (316).

22. The fiber closure (100) as claimed in claim 19, wherein the first part (210) comprising one or more retention tabs (328) on an external surface and the second part (212) comprising one or more receivers (332) such that the one or more receivers (332) are adapted to receive the one or more retention tabs (328) of the second part (212).

23. The fiber closure (100) as claimed in claim 19, wherein the first part (210) further comprising one or more latches (330) on an internal surface that are adapted to be engaged with a corrugated conduit of the one or more corrugated conduits (702).

24. The fiber closure (100) as claimed in claim 13, wherein the bracket (204) further comprising a body end (334) and a base end (336) such that the body end (334) is mounted on the conduit clamp body (202) and the base end (336) is mounted on the base (106) of the fiber closure (100).

25. The fiber closure (100) as claimed in claim 13, wherein the bracket base (316) and the elongated structure (318) are monolith structures.

26. The fiber closure (100) as claimed in claim 13, wherein the fin (214) is an elevated portion on the conduit clamp body (202) disposed between the first portion (212A) and the second portion (212B) of the second part (212).