公开(公告)号：US20190304266A1

公开(公告)日：2019-10-03

申请号：US16447332

申请日：2019-06-20

申请人： Banner Engineering Corp.

发明人： Robert T. Fayfield

IPC分类号： G08B5/36 ,  G08B21/18

摘要： Apparatus and associated methods relate to a tower light assembly having an output indicator responsive to an onboard sensor in accordance with a predetermined environmental parameter threshold. In an illustrative example, an augmented sensing tower light assembly (ASTLA) may include a light tower assembly having a controller configured to receive status data from monitored equipment. The controller may further receive environmental data from the onboard sensor. In response to the received status data and the received environmental data, the controller may actuate the output indicator in accordance with one or more predetermined criteria. Advantageously, the ASTLA may provide supplemental low-cost sensing capability.

公开(公告)号：US10373451B2

公开(公告)日：2019-08-06

申请号：US15808531

申请日：2017-11-09

申请人： Banner Engineering Corp.

发明人： Robert T. Fayfield

IPC分类号： B07C5/12 ,  G08B5/36

摘要： Apparatus and associated methods relate to a tower light assembly having an output indicator responsive to an onboard sensor in accordance with a predetermined environmental parameter threshold. In an illustrative example, an augmented sensing tower light assembly (ASTLA) may include a light tower assembly having a controller configured to receive status data from monitored equipment. The controller may further receive environmental data from the onboard sensor. In response to the received status data and the received environmental data, the controller may actuate the output indicator in accordance with one or more predetermined criteria. Advantageously, the ASTLA may provide supplemental low-cost sensing capability.

公开(公告)号：US20190139377A1

公开(公告)日：2019-05-09

申请号：US15808531

申请日：2017-11-09

申请人： Banner Engineering Corp.

发明人： Robert T. Fayfield

IPC分类号： G08B5/36

CPC分类号： G08B5/36 ,  G08B21/182

摘要： Apparatus and associated methods relate to a tower light assembly having an output indicator responsive to an onboard sensor in accordance with a predetermined environmental parameter threshold. In an illustrative example, an augmented sensing tower light assembly (ASTLA) may include a light tower assembly having a controller configured to receive status data from monitored equipment. The controller may further receive environmental data from the onboard sensor. In response to the received status data and the received environmental data, the controller may actuate the output indicator in accordance with one or more predetermined criteria. Advantageously, the ASTLA may provide supplemental low-cost sensing capability.

公开(公告)号：USD1030453S1

公开(公告)日：2024-06-11

申请号：US35516910

申请日：2022-04-21

申请人： Banner Engineering Corp.

设计人： Robert T. Fayfield ,  Nick Olsen ,  Charles Dolezalek

摘要： 1. Offset standoff bracket for data transmission devices
1.1 : Front perspective view in illustrative use-case scenario
1.2 : Right elevation view in the illustrative use-case scenario
1.3 : Bottom perspective view
1.4 : Bottom
1.5 : Top
1.6 : Right
1.7 : Left
1.8 : Back
1.9 : Front
The claimed design for a communication hub offset standoff bracket, as set forth in the following specification; fig. 1.1 is a bottom perspective view of a communication hub offset standoff bracket showing the new design in an illustrative use-case scenario coupling a lower communication hub and an upper communication hub in an offset relationship in three substantially orthogonal axes; fig. 1.2 is a right elevation view of the communication hub offset standoff bracket of fig. 1.1 in the illustrative use-case scenario; fig. 1.3 is a bottom perspective view of the communication hub offset standoff bracket of fig. 1.1; fig. 1.4 is a bottom plan view of the communication hub offset standoff bracket of fig. 1.1; fig. 1.5 is a top plan view of the communication hub offset standoff bracket of fig. 1.1; fig. 1.6 is a right elevation view of the communication hub offset standoff bracket of fig. 1.1; fig. 1.7 is a left elevation view of the communication hub offset standoff bracket of fig. 1.1; fig. 1.8 is a rear elevation view of the communication hub offset standoff bracket of fig. 1.1; fig. 1.9 is a front elevation view of the communication hub offset standoff bracket of fig. 1.1; the claimed ornamental design is shown embodied on an assembly that may be used, for example, in an industrial automation system; in an illustrative example, the claimed ornamental design may operate as an offset bracket to couple at least two communication hubs in an automated conveyor system such as shown; the dash-dash lines shown in the drawings illustrate unclaimed portions of the claimed design and form no part of the claimed design; the long-dash-double-short-dash broken lines shown in the drawings illustrate unclaimed portions of illustrative use-case environment(s) and form no part of the claimed design.

公开(公告)号：US10783758B2

公开(公告)日：2020-09-22

申请号：US16447332

申请日：2019-06-20

申请人： Banner Engineering Corp.

发明人： Robert T. Fayfield

IPC分类号： G08B5/36 ,  G08B21/18

摘要： Apparatus and associated methods relate to a tower light assembly having an output indicator responsive to an onboard sensor in accordance with a predetermined environmental parameter threshold. In an illustrative example, an augmented sensing tower light assembly (ASTLA) may include a light tower assembly having a controller configured to receive status data from monitored equipment. The controller may further receive environmental data from the onboard sensor. In response to the received status data and the received environmental data, the controller may actuate the output indicator in accordance with one or more predetermined criteria. Advantageously, the ASTLA may provide supplemental low-cost sensing capability.

公开(公告)号：US20160148509A1

公开(公告)日：2016-05-26

申请号：US15013869

申请日：2016-02-02

申请人： Banner Engineering Corp.

发明人： Robert T. Fayfield ,  Roman York Marjamaa

IPC分类号： G08G1/14 ,  G06F1/32

CPC分类号： G08G1/142 ,  G06F1/3206 ,  G08G1/146

摘要： Indicator light devices are useful in many applications for indicating properties of physical spaces respectively associated therewith and in physical proximity thereto. The indicator light devices are network-enabled and self-powered, and capable of participating in coordinated power-managed operation to provide a sufficient service life and lower installation and replacement costs. The indicator light devices may be used with or without associated sensors. The various embodiments described herein use various power management techniques singly or in combination to greatly increase the service life of self-power indicator light devices without diminishing their effectiveness in the application. These techniques include operating only the indicator light devices associated with the physical spaces having properties of interest, operating the indicator light devices with synchronized flashing, operating the indicator light devices in accordance with the detection of specific conditions, relevant time operation, in-vicinity activation, and ambient light responsiveness.

摘要翻译： 指示灯装置在许多应用中可用于指示分别与其相关联的物理空间的物理空间以及物理空间的物理空间。 指示灯设备是网络启用和自供电的，能够参与协调的电力管理操作，以提供足够的使用寿命并降低安装和更换成本。 指示灯设备可以与或不与相关联的传感器一起使用。 本文描述的各种实施例单独地或组合地使用各种功率管理技术来大大增加自身指示灯设备的使用寿命，而不会降低其在应用中的有效性。 这些技术包括仅操作与具有感兴趣性质的物理空间相关联的指示灯装置，以同步闪烁操作指示灯装置，根据特定条件的检测，相关时间操作，附近激活来操作指示灯装置 ，以及环境光响应性。

公开(公告)号：US20240340361A1

公开(公告)日：2024-10-10

申请号：US18703106

申请日：2022-10-21

申请人： Banner Engineering Corp.

发明人： Robert T. Fayfield ,  Sabrina Kawalec ,  Mark Rue ,  Paul Fabian ,  Arthur Padget ,  Charles Dolezalek ,  Luke Karnas ,  William Theunissen ,  David Franke ,  Robert Schlosser ,  Kent Dahlen ,  Matthew Schmitt ,  Nick Olsen

IPC分类号： H04L69/18 ,  H04L67/00 ,  H04L69/08

CPC分类号： H04L69/18 ,  H04L67/34 ,  H04L69/08

摘要： Apparatus and associated methods relate to a dynamically reconfigurable distributed communication and control hub (DCCH) configured to identify and configure its multiple connection ports independently and automatically. In an illustrative example, the DCCH may include a controller circuit and multiple independent reconfigurable connection ports (IRCPs). For example, the DCCH may be connected to multiple edge devices and controllers at the IRCPs. The edge devices and controllers may use different communication protocols. Upon receiving a signal at a IRCP, for example, the control circuit may retrieve a first predetermined set of rules to determine whether the IRCP is to be operated as a master port, a slave port, or a pass-through port. Based on a second set of rules, for example, the control circuit may determine a communication protocol of the IRCP. Various embodiments may advantageously avoid human intervention in setting up each of the multiple IRCPs of the DCCH.

公开(公告)号：US20210293662A1

公开(公告)日：2021-09-23

申请号：US17301632

申请日：2021-04-09

申请人： Banner Engineering Corp.

发明人： Robert T. Fayfield ,  Ryan Kornetzke

IPC分类号： G01M13/045 ,  G01H1/00 ,  G05B23/02

摘要： Apparatus and associated methods relate to a vibrational sensing system (VSS) including an accelerometer and a data processor, which determines an “operational state” of a mechanical drive unit, the processor further employing the “operational state” to gate learning of long-term vibrational data to exclude collection of non-operational data, the long-term data collected to calculate alarm thresholds. For example, vibrations from a target motor are sensed by a coupled accelerometer. Vibrational data from the accelerometer is fed into a data processor which determines the operational state of the motor. The operational state (e.g., on/off indication) may gate data collection such that data is only acquired during on-time, which may advantageously create accurate baselines from which alarm thresholds may be generated, and nuisance alarms may be avoided.

公开(公告)号：US11002634B2

公开(公告)日：2021-05-11

申请号：US16109441

申请日：2018-08-22

申请人： Banner Engineering Corp.

发明人： Robert T. Fayfield ,  Ryan Kornetzke

IPC分类号： G01M13/045 ,  G01H1/00 ,  G05B23/02

摘要： Apparatus and associated methods relate to a vibrational sensing system (VSS) including an accelerometer and a data processor, which determines an “operational state” of a mechanical drive unit, the processor further employing the “operational state” to gate learning of long-term vibrational data to exclude collection of non-operational data, the long-term data collected to calculate alarm thresholds. For example, vibrations from a target motor are sensed by a coupled accelerometer. Vibrational data from the accelerometer is fed into a data processor which determines the operational state of the motor. The operational state (e.g., on/off indication) may gate data collection such that data is only acquired during on-time, which may advantageously create accurate baselines from which alarm thresholds may be generated, and nuisance alarms may be avoided.

公开(公告)号：US20190064034A1

公开(公告)日：2019-02-28

申请号：US16109441

申请日：2018-08-22

申请人： Banner Engineering Corp.

发明人： Robert T. Fayfield ,  Ryan Kornetzke

IPC分类号： G01M13/04 ,  G01H1/00 ,  G05B23/02

摘要： Apparatus and associated methods relate to a vibrational sensing system (VSS) including an accelerometer and a data processor, which determines an “operational state” of a mechanical drive unit, the processor further employing the “operational state” to gate learning of long-term vibrational data to exclude collection of non-operational data, the long-term data collected to calculate alarm thresholds. For example, vibrations from a target motor are sensed by a coupled accelerometer. Vibrational data from the accelerometer is fed into a data processor which determines the operational state of the motor. The operational state (e.g., on/off indication) may gate data collection such that data is only acquired during on-time, which may advantageously create accurate baselines from which alarm thresholds may be generated, and nuisance alarms may be avoided.