FIBER OPTIC CLOSURE ASSEMBLIES, FIBER DROP ACCESS POINTS, AND METHODS FOR INSTALLING FIBER DROP ACCESS POINTS

Organization Name

Corning Research & Development Corporation

Inventor(s)

Dani Liu of Corning NY (US)

Zachary Michael Thornpson of Austin TX (US)

FIBER OPTIC CLOSURE ASSEMBLIES, FIBER DROP ACCESS POINTS, AND METHODS FOR INSTALLING FIBER DROP ACCESS POINTS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240027720 titled 'FIBER OPTIC CLOSURE ASSEMBLIES, FIBER DROP ACCESS POINTS, AND METHODS FOR INSTALLING FIBER DROP ACCESS POINTS

Simplified Explanation

The abstract of the patent application describes a fiber enclosure that consists of an upper body portion and a lower body portion. The upper body portion has a primary volume, while the lower body portion extends from the upper body portion and has an inlet volume that is connected to the primary volume. The lower body portion includes a port wall with multiple ports for receiving cables. The port wall is recessed from the outer edge of the upper body portion, positioning the ports in a separate plane and at a distance greater than or equal to the bend radius of the connected cable.

• The fiber enclosure consists of an upper body portion and a lower body portion.
• The upper body portion has a primary volume, while the lower body portion has an inlet volume connected to the primary volume.
• The lower body portion includes a port wall with multiple ports for receiving cables.
• The port wall is recessed from the outer edge of the upper body portion.
• The ports are positioned in a separate plane and recessed from the outer edge of the upper body portion by a distance equal to or greater than the bend radius of the connected cable.

Potential Applications:

• Telecommunications industry: The fiber enclosure can be used in telecommunications networks to provide a secure and organized housing for fiber optic cables.
• Data centers: The enclosure can be utilized in data centers to manage and protect fiber optic connections.
• Industrial applications: The technology can be applied in various industrial settings where fiber optic cables are used for communication and data transmission.

Problems Solved:

• Cable protection: The fiber enclosure ensures that the cables connected to the ports are not subjected to excessive bending, which can cause damage or signal loss.
• Cable organization: The enclosure provides a structured and organized system for managing multiple fiber optic cables, reducing the risk of tangling or misplacement.
• Space optimization: By recessing the port wall, the fiber enclosure minimizes the overall footprint and allows for efficient use of space.

Benefits:

• Enhanced cable lifespan: The design of the fiber enclosure prevents excessive bending of cables, prolonging their lifespan and maintaining signal integrity.
• Improved cable management: The separate plane positioning of the ports and recessed port wall facilitate easy cable routing and organization.
• Space-saving: The recessed port wall design optimizes space utilization, making the fiber enclosure suitable for installations with limited space availability.

Original Abstract Submitted

a fiber enclosure includes an upper body portion and a lower body portion coupled to the upper body portion. the upper body portion defines a primary volume. the lower body portion extends from the upper body portion and defines an inlet volume in communication with the primary volume, the lower body portion comprising a port wall comprising a plurality of ports for receiving cables. the port wall is recessed from an outer edge of the upper body portion, such that the plurality of ports is positioned in a separate plane from the upper body portion and recessed from the outer edge of the upper body portion a distance larger than or equal to a bend radius of a cable connected thereto.