Optical waveguides – Optical transmission cable – Loose tube type
Reexamination Certificate
1999-09-15
2001-08-21
Spyrou, Cassandra (Department: 2874)
Optical waveguides
Optical transmission cable
Loose tube type
C385S102000, C385S106000, C385S112000, C385S114000
Reexamination Certificate
active
06278826
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to cables and, in particular, to optical fiber cables incorporating a foam which imparts water-blocking and flame-retarding characteristics to the cables.
2. Description of the Related Art
Many products, such as telecommunications and power cables, for instance, typically are provided with one or more forms of water-blocking protection, i.e. waterproof outer jackets, water-blocking powders and yarns, etc. Generally, such water-blocking protection is intended to reduce or eliminate the possibility of water entering the product so as to reduce the potential for water damage or for impairment of transmission. For example, once water enters a telecommunications cable, such as through a splice closure of the cable, freezing of the water can induce microbending in the optical fibers of the cable, which can result in fiber degradation or increased signal loss of the cable.
Heretofore, some prior art cables have incorporated water-blocking material in order to prevent water penetration into and migration through the cables. An example of such a prior art cable is described in U.S. Pat. No. 5,390,273, issued to Rahman, for instance. In the cable described therein, water-blocking material is disposed in any otherwise empty space within a fluid impervious tube surrounding a plurality of optical fibers and between the barrier layer and the tube. The water-blocking and/or hydrogen-absorbing compound can be in the form of a known type of grease and can be thixotropic so that there can be movement of the optical fibers with respect to each other and to tubes in the cable. Known types of water-blocking compounds include a silicone-based thixotropic compound, a compound based on hydrocarbon oils or polymeric liquids, such as polybutylene, and petroleum greases. The use of such a filling materials causes housekeeping problems, though, because these compositions of matter are somewhat messy to apply and require a cleaning agent, such as a solvent, to remove the filling compound to facilitate subsequent splicing. Also, care must be taken so that these agents do not affect adversely coloring material or coating material on the optical fiber. What is sought after is a cable in which the core is not filled with a grease-like material, but rather includes other provisions for blocking water flow along the core.
Heretofore, some prior art cables have also incorporated water-blocking tape in order to prevent water penetration into and migration through the cables. Examples of such prior art cables are described in U.S. Pat. No. 4,867,526, issued to Arroyo, for instance. In the cables described therein, water-blocking tape is disposed between the transmission media and the outer jacket of the cable, thereby forming a water-blocking barrier around the transmission media, i.e. optical fibers. The water-blocking tape incorporates super-absorbent materials, e.g. super-absorbent polymers (SAPs), which can absorb up to about one thousand (1000) times their weight in distilled water. The SAPs are provided in a loading of approximately 3.8-6.22 g/ft
2
. This process results in a tape that weighs approximately 10-80% more than the substrate of the tape. Upon contact with water, the SAPs of the water-blocking tape absorb the water and swell, thereby preventing migration of the water through the cable. Additionally, the swollen SAPs form a physical barrier which can prevent more water from entering the cable.
Heretofore, a prior art solution to attain the characteristics of water-blocking and flame-retarding has been to add flame-retardants to the SAPs of the tape. However, adding flame-retardants to the SAPs oftentimes results in a tape which has reduced water-blocking characteristics as compared to the tape without the flame-retardants. Primarily this is due to the chemical properties of the prior art flame-retardants which, typically are salts or ionic compounds and are known to reduce the swelling of water-blocking materials. Generally, as more prior art flame-retardants are added to the SAPs in an effort to improve the flame-retarding characteristics, the greater the water-blocking capacity of the SAPs is reduced. Frequently, the extent of reduction in water blocking capacity of SAPs due to the incorporation of prior art flame-retardants can render the SAPs incapable of preventing water penetration.
Other examples of prior art cables are described in U.S. Pat. No. 4,909,592, issued to Arroyo et al. These prior art cables incorporate a water blocking system within the core tube. The water blocking system comprises a tape or yarn or both or a plurality of tapes or yarns. The tapes or yarns are provided so as to intentionally cause the core to include voids, and do not completely fill the interstitial core area around the optical fibers disposed within the core tube. The interstitial voids allows the fibers to be substantially decoupled transversely from the sheath system of the cable. This allows substantial motion of the transmission medium in at least one transverse direction when the cable is stressed such as by bending of the cable. However, the creation of these voids may not effectively cushion and center the transmission medium within the core. Further, upon contact with water, the water blocking system may not swell enough so as to prevent water migration to the transmission medium.
One prior art closure which includes a super-absorbent foam water-blocking system is described in U.S. Pat. No. 5,016,952, issued to Arroyo et al. The prior art connections between transmission media of the cables are disposed between portions of a super-absorbent compliant foam material. Upon contact with water, the super-absorbent foam material swells, molding about the connections to protect them from water and expanding outwardly to seal any unintended openings in the housing and to prevent the ingress of additional water. However, this patent discloses a water-blocking foam that is only disposed about the cable connections. The cables of this prior art include a water-blocking material in the form of a tape or a yarn. Thus, the water-blocking foam was not disposed within the core tube of the cable.
Heretofore, another prior art solution to attain the characteristics of both water-blocking and flame-retarding has been to deposit the SAPs in the cable in powder form which has had some measure of success. However, there are problems with this method of water-blocking. First, the friction between the powder and the components of the cable causes high loss due to microbending. Second, because the powder is inserted into the cable via electrostatic deposition, the powder tends to settle to the bottom of the cable over time. Third, the powder can be difficult to apply evenly and some of the powder is lost during assembly. Fourth, the powder cannot be used inside the core tube due to microbending loss. For the same reason, the water-blocking tapes described hereinabove exhibit a lot of the same problems as the powder form does, due to the use of long woven surfaces.
Therefore, there is a need for improved cables that provide a water-blocking and flame-retarding means which address these and other shortcomings of the prior art.
BRIEF SUMMARY OF THE INVENTION
Certain objects, advantages and novel features of the invention will be set forth in the description that follows and will become apparent to those skilled in the art upon examination of the following or may be learned with the practice of the invention. The objects and advantages of the invention may be realized and attained by means of the instrumentalities and combinations particularly pointed out in the appended claims.
The present invention generally is directed to water-blocking foam with flame-retarding characteristics that are incorporated in cables. Examples of such cables include fiber optic, copper, and power cables, among others. In a preferred embodiment, the core tube of the cable includes a one or more optical fibers, or other transmission medium, that are surrounded by a supe
Boutsikaris Leo
Lucent Technologies - Inc.
Spyrou Cassandra
Thomas, Kayden Horstemeyer & Risley, LLP.
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