公开(公告)号：US20230339521A1

公开(公告)日：2023-10-26

申请号：US18342703

申请日：2023-06-27

Applicant: PREFORMED LINE PRODUCTS CO.

Inventor： Adam DEEL ,  Randy Gene CLOUD

IPC: B61B7/00

CPC classification number: B61B7/00 ,  Y10S901/01 ,  Y10S901/44

Abstract: A line bypass system includes a support structure including a first support portion and a second support portion spaced apart from the first support portion. The support structure includes an attachment portion that attaches the first support portion to the second support portion. The first support portion and the second support portion define a first opening on a first side of the attachment portion and a second opening on a second side of the attachment portion. The first opening movably receives a first guide wire and the second opening movably receives a second guide wire.

公开(公告)号：US20230358573A1

公开(公告)日：2023-11-09

申请号：US18223447

申请日：2023-07-18

Applicant: PREFORMED LINE PRODUCTS CO.

Inventor： Daniel Joseph LEVAC ,  Adam Michael DEEL ,  Randy Gene CLOUD ,  David Anthony KOEHLER ,  Jaanki Kirit THAKKAR ,  Benjamin Franklin CIESIELCZYK

IPC: G01D5/26 ,  G01H9/00 ,  G01L27/00

CPC classification number: G01D5/268 ,  G01H9/004 ,  G01L27/007 ,  G01N2201/084

Abstract: Fiber-optic equipment is often deployed in various locations, and performance of fiber-optic transmissions may be monitored as a gauge of equipment status to prevent costly and inconvenient communication outages. Events that damage equipment that eventually result in outage and may be desirable to address proactively, but the occurrence of such events may be difficult to detect only through equipment performance. Presented herein are techniques for monitoring and maintaining fiber-optic equipment performance via enclosure sensors that measure physical properties within a fiber-optic equipment enclosure, such as temperature, pressure, light, motion, vibration, and moisture, which are often diagnostic and predictive of causes of eventual communication outages, such as temperature-induced cable loss (TICL), incomplete flash-testing during installation, exposure to hazardous environmental conditions, and tampering. An enclosure sensor package transmits the physical measurements to a monitoring station, and automatic determination of enclosure-related events may enable triaging and transmission of repair alerts to maintenance personnel.

公开(公告)号：US20210285799A1

公开(公告)日：2021-09-16

申请号：US17335057

申请日：2021-05-31

Applicant: PREFORMED LINE PRODUCTS CO.

Inventor： Daniel Joseph LEVAC ,  Adam Michael DEEL ,  Randy Gene CLOUD ,  David Anthony KOEHLER ,  Jaanki Kirit THAKKAR ,  Benjamin Franklin CIESIELCZYK

IPC: G01D5/26 ,  G01H9/00 ,  G01L27/00

Abstract: Fiber-optic equipment is often deployed in various locations, and performance of fiber-optic transmissions may be monitored as a gauge of equipment status to prevent costly and inconvenient communication outages. Events that damage equipment that eventually result in outage and may be desirable to address proactively, but the occurrence of such events may be difficult to detect only through equipment performance Presented herein are techniques for monitoring and maintaining fiber-optic equipment performance via enclosure sensors that measure physical properties within a fiber-optic equipment enclosure, such as temperature, pressure, light, motion, vibration, and moisture, which are often diagnostic and predictive of causes of eventual communication outages, such as temperature-induced cable loss (TICL), incomplete flash-testing during installation, exposure to hazardous environmental conditions, and tampering. An enclosure sensor package transmits the physical measurements to a monitoring station, and automatic determination of enclosure-related events may enable triaging and transmission of repair alerts to maintenance personnel.

公开(公告)号：US20200049532A1

公开(公告)日：2020-02-13

申请号：US16339915

申请日：2017-10-06

Applicant: PREFORMED LINE PRODUCTS CO.

Inventor： Daniel Joseph LEVAC ,  Adam Michael DEEL ,  Randy Gene CLOUD ,  David Anthony KOEHLER ,  Jaanki Kirit THAKKAR ,  Benjamin Franklin CIESIELCZYK

IPC: G01D5/26 ,  G01H9/00 ,  G01L27/00

Abstract: Fiber-optic equipment is often deployed in various locations, and performance of fiber-optic transmissions may be monitored as a gauge of equipment status to prevent costly and inconvenient communication outages. Events that damage equipment that eventually result in outage and may be desirable to address proactively, but the occurrence of such events may be difficult to detect only through equipment performance. Presented herein are techniques for monitoring and maintaining fiber-optic equipment performance via enclosure sensors that measure physical properties within a fiber-optic equipment enclosure, such as temperature, pressure, light, motion, vibration, and moisture, which are often diagnostic and predictive of causes of eventual communication outages, such as temperature-induced cable loss (TICL), incomplete flash-testing during installation, exposure to hazardous environmental conditions, and tampering. An enclosure sensor package transmits the physical measurements to a monitoring station, and automatic determination of enclosure-related events may enable triaging and transmission of repair alerts to maintenance personnel.