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Fiber optic categorization and management tray

a technology of fiber optics and management trays, applied in the direction of optics, instruments, optical light guides, etc., can solve the problems of limited space, challenge, and limited attempts in many aspects, and achieve the effects of improving the state-of-the-art in management, facilitating routing, and improving protection for network expansion

Inactive Publication Date: 2008-09-18
GONZALES CURTIS PAUL +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0015]The present invention improves the state-of-the-art in the management of fiber optic field cabling infrastructure. The described invention is a multilevel folding fiber management tray, which enables easier routing and improved protection for network expansion. A folding tray that is generally planar when in its open position provides space for more fiber network components than does a stack of trays while also improving the routing of the fibers. Additionally, the preferred embodiment which uses three trays in a tri-fold configuration allows for separation of fiber categories into groups of Forward, Reverse, and Control, like that used in the deep fiber architecture of Aurora Networks. In another embodiment the three trays may be used at the interface between copper and optical fiber for segregation of Hybrid, Fiber and Coax (Copper), an HFC architecture. Furthermore, provision is made for segregating active (Light) fibers from those that are inactive (Dark). Having separate categorization trays improves the routing of fibers by allowing the active networks to be placed in a protected region at the bottom of the tray where they will not be disturbed as new networks are activated. This feature improves reliability for active networks.
[0016]Implementation of the present invention begins with a single base tray which provides mounting points for its firm attachment to an external protective housing. The tray is generally shaped as a rectangular oval having sufficient width to comfortably accommodate loops having diameters that comply with the minimum bend radius of the fibers that will be installed on it. The length of the tray is on the order of triple its width. This length provides for storage of two sets of loops of fibers separated from each other with sufficient space between the two sets of loops to accommodate a bank of splice holders. By orienting the splice holders lengthwise in the tray, there is little concern about maintaining minimal bend radius at the ends of the splices. Guide means included within the tray serve to guide optical fibers around a predetermined bend radius. Additional guide means facilitate the entry and exit of fibers to and from the tray and functional separation of active and inactive fibers.
[0017]For a two-tray, bi-fold system, a second tray, similar to the base tray but without the mounting feature, is located alongside of the base tray and the two are connected by special hinges. With dual pivot axes separated by a distance on the order of double the depth of the trays, these special hinges allow for the second tray to be folded over the top of the base tray in a face-to-face manner without interference. This is accomplished by the fact that each pivot axis allows the hinge and its connected tray to swing through an arc of 90°. In this manner the hinge readily supports the two trays in a coplanar orientation when the organizer is opened, and allows them to be folded closed, one on the other, without binding.
[0018]Guide means included on the face of each hinge are positioned so as to guide fibers from each tray through the hinge to the other tray. When the trays are in their open, coplanar orientation, these guides provide for ready access to the fibers for routing. As the trays are folded into a closed position, the same guide means on the hinges serve to support and protect the fibers while maintaining an appropriate bend radius.
[0020]The result is a tri-fold organizer that folds into a space having a top plan view footprint of a single tray with triple the thickness of a single tray. In its closed position, the organizer provides protection for the contents of all three trays. Furthermore, in the closed position the guiding hinge surface and respective side walls of the trays create a set of essentially coplanar surfaces to support and protect the fibers while maintaining adequate bend radii. When unfolded to its open position, all three trays of the organizer and their associated hinges become effectively coplanar. The open position provides three readily accessible trays into which optical fibers, and possibly other related conductors, may be easily separated as three categories to be identified by the user. Without regard to whether the organizer is opened, closed, or in transition between the two positions, the transfer distance across the hinges between trays is always supported and protected.

Problems solved by technology

However, access to broadband transmissions at the 640-kbps capacity of DSL only served to whet the appetites of consumers of data who have come to demand even higher rate feeds as more applications are developed to access and use more and more data, such as HDTV and video on demand.
This attempt is challenged and limited in many regards.
Though a splice tray must permit the supportive mounting and protection of individual splices and storage of the slack optical fibers in a relatively neat configuration, space is limited.
Bending a fiber more sharply than a certain radius will, at first, result in increased attenuation of the optical signal.
A stack of splice trays that are so configured offers some capability for segregating buffer tubes from one tray to another, but provides no assistance for organizing fibers once removed from the buffer tube.
Such a system of stacked trays limits access to one tray at a time.
A disadvantage of such a system is that access to the fibers contained by any particular tray is restricted by the extent to which other trays within the stack may be folded out of the way or the working tray may be removed from the stack, without over-bending any of the fibers.
Once an optical network has been activated, however, handling of a single delicate fiber that is feeding a large number of subscribers carries a significant exposure to liability which often corresponds to very large insurance premiums paid by those technicians who work in trays containing active fibers.
Furthermore, service providers are at risk of dissatisfying customer with unscheduled outages if fibers are broken.

Method used

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  • Fiber optic categorization and management tray
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  • Fiber optic categorization and management tray

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Embodiment Construction

[0068]The categorization and management system of the present invention will now be described in detail beginning with reference to FIG. 1. Assembly of the system in its preferred embodiment begins with a base tray 100 that is hingedly connected on its right to a second, right-hand tray 200, and on the left to a third, left-hand tray 210. The connections between the base and right-hand trays are provided by hinges 300, while hinges 320 connect the left-hand tray 210 to the base tray 100. All connections between hinges and trays are provided by pins 302.

[0069]The right-hand tray 200 and the left-hand tray 210 are identical to one another, differing only in that they have been rotated within their planes by 180° from one another. With the exception of the mounting bracket 110 and strain relief elements 40, the outer trays 200 and 210 have the same features as the base tray 100. It is to be noted that, in one alternate embodiment, a smaller organizer can be constructed using only two t...

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Abstract

A fiber optic splice organizer stores optical fiber splices and sufficient slack to permit the fibers to be readily separated, such as for reorganization or to remake a splice. Multiple hinges connect a plurality of fiber trays side by side to provide pivotable connections between trays. A flat orientation of the trays enables splicing and coiling of fibers as they are loaded into a tray. The trays then pivot into a fiber storage position. Special features of the hinges provide support for fibers and splices as they are loaded into the trays. The hinges protect the fibers as the trays are pivoted as well as when the trays are in their folded position for storage without requiring buffer tubes. Multiple architectures for the organization of fibers are enabled without violating minimal bend radii, and while providing for ease of separation of individual fibers or groups of fibers.

Description

CROSS-REFERENCES TO RELATED APPLICATIONS[0001]Not Applicable.STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT[0002]Not Applicable.FIELD OF THE INVENTION[0003]The present invention relates generally to a system of support for splicing of optical fibers from fiber optic cables. More particularly, the present invention relates to an assembly of hinged trays for organizing optical fibers, positioning them for proper coupling, for categorizing them into functional groups, and for storing associated excess cable.BACKGROUND OF THE INVENTION[0004]With rapid growth in customer demand for ever-increasing bandwidth to support transmission of interactive voice, video and data, the telecommunications industry has outgrown the capability of copper wire. The hunger for a supply of information at first moved slowly from the 56-kbps rate offered by dial-up modems to the greater bandwidth offered by DSL. However, access to broadband transmissions at the 640-kbps capacity of DSL only se...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): G02B6/36
CPCG02B6/4471G02B6/4455
Inventor GONZALES, CURTIS PAULBROWN, TONY L.
Owner GONZALES CURTIS PAUL
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