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公开(公告)号:US12057007B2
公开(公告)日:2024-08-06
申请号:US17965234
申请日:2022-10-13
IPC分类号: G08B29/02 , G06F3/0482
CPC分类号: G08B29/02 , G06F3/0482
摘要: Various embodiments for an alarm performance optimizer are disclosed. An embodiment operates by receiving information about a status of each of a plurality of alarm configurations monitored by a control system. Calculating one or more alarm configuration health metrics based on the received information. The calculated one or more alarm configuration health metrics are displayed in a user interface. A first action that will increase a value of a first alarm metric of the one or more alarm configuration health metrics is identified. The first action is displayed on the user interface. A selection of the first action is received via the user interface. The user interface is updated to display additional details about a subset of the plurality of alarm configurations associated with the first action.
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公开(公告)号:US12055430B2
公开(公告)日:2024-08-06
申请号:US18057410
申请日:2022-11-21
发明人: Cristopher Frost , Jennifer Battista , Christopher Zollars , Eric Bridges , Carlos Enrique Murrieta , Victor Cabilan , Jason Vizcaino , Patrick Flynn
摘要: A fluid level sensor for sensing a level of a fluid within a toroid-shaped tank includes a float ring, a float structure, a gauge shaft, and a tiller arm. The float ring rotate s within the toroid-shaped tank about a first rotational axis. The float structure exhibits buoyancy in the fluid disposed within the toroid-shaped tank and supplies a force to the float ring based on the level of the fluid within the toroid-shaped tank. The gauge shaft is mounted for rotation about a second rotational axis and rotates about the second rotational axis to a position representative of the level of the fluid within the toroid-shaped tank. The tiller arm supplies the rotational drive force to the gauge shaft when the float ring rotates.
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公开(公告)号:US20240257630A1
公开(公告)日:2024-08-01
申请号:US18103669
申请日:2023-01-31
发明人: Murali R , Prakash Sivalingam
CPC分类号: G08B25/008 , G08B25/10
摘要: Systems, methods, and processes of configuring cause and effect matrices using alarm system event detection devices in an area within a facility are described herein. One method, includes initiating a zone configuration software by sending computing device executable instructions to a control panel of an alarm system, sending, via the control panel, instructions, to each event detection device of the alarm system, to initiate short range communication to detection devices within each device's communication range, receiving detection device identification information that identifies each detection device within a particular device's communication range, and determining and creating a zone by clustering detection devices with a communication signal strength above a threshold strength value.
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公开(公告)号:US20240255768A1
公开(公告)日:2024-08-01
申请号:US18162558
申请日:2023-01-31
发明人: Matthew Wade Puckett , Chad Fertig , Chad Hoyt , Karl D. Nelson , Luke Horstman
IPC分类号: G02B27/09
CPC分类号: G02B27/0961 , G02B27/0927
摘要: An optical device comprises a substrate layer having an upper surface, and a waveguide layer over the upper surface of the substrate layer. The waveguide layer comprises an input waveguide defined by a first waveguide portion having a first refractive index; an input slab defined by the first waveguide portion, the input slab adjoined with the input waveguide; and a microlens array defined by a second waveguide portion having a second refractive index that is different from the first refractive index. The microlens array is in optical communication with the input waveguide through the input slab. The microlens array is configured to receive a diverging planar light beam from the input slab along a direction of propagation. The microlens array is configured to control a far-field emission of the light beam such that an emission profile of the light beam exhibits a substantially uniform intensity.
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公开(公告)号:US20240253094A1
公开(公告)日:2024-08-01
申请号:US18601614
申请日:2024-03-11
CPC分类号: B08B15/023 , F24F3/163
摘要: The present disclosure relates generally to fume hoods, and more particularly to systems and methods for controlling a fume hood airflow using an image (e.g., an optical image, an acoustic image, etc.) of a fume hood opening. A system for controlling a fume hood may include an image capture sensor, a configurator and a controller. The image capture sensor may be positioned to have a field of view that includes at least a portion of a fume hood opening, and may be configured to capture an image that includes at least part of the fume hood opening and/or a person working at the hood. The controller may then provide a control signal to a ventilation device for providing a desired airflow in the fume hood. The control signal may depending on the current size of the fume hood opening as captured by the image capture sensor.
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公开(公告)号:US20240249878A1
公开(公告)日:2024-07-25
申请号:US18159245
申请日:2023-01-25
发明人: Mahdi Mohajeri , Eric Passman
IPC分类号: H01F41/098 , H01F41/064 , H01F41/12
CPC分类号: H01F41/098 , H01F41/064 , H01F41/125
摘要: A method of fabricating a high-temperature bobbin for a solenoid or other electrical assembly includes the step of providing a bobbin configured for use in the assembly. The bobbin is coated with an anti-oxidation composition and an anti-corrosion composition to produce an oxidation/corrosion resistant bobbin. The oxidation/corrosion resistant bobbin is coated with an electrical insulating composition that is resistant to corona discharge at or below a predetermined voltage threshold to produce an insulated and oxidation/corrosion resistant bobbin. The anti-oxidation composition, the anti-corrosion composition, and the electrical insulating composition can withstand temperatures of subzero up to temperature greater than 1000° F.
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公开(公告)号:US20240248461A1
公开(公告)日:2024-07-25
申请号:US18159524
申请日:2023-01-25
发明人: Joseph Z. LU
IPC分类号: G05B19/418
CPC分类号: G05B19/41865 , G05B2219/32291
摘要: Embodiments generate improved optimizations of processing unit(s) associated with a particular dynamic control scheme (e.g., an MPC architecture). Embodiments perform the improved optimizations based on default assumptions associated with the scheme, for example status operation of a particular mode. Some embodiments generate default operating condition data associated with a particular timestamp interval, the default operating condition data at a first value representing a default assumption based on a first operational mode, identify first operating condition data associated with the first operational mode, representing the first value at particular subinterval(s) of the particular timestamp interval, generating intermediary operating condition data by removing the first operating condition data from the default operating condition data, generating adjusted operating condition data by including second operating condition data associated with a second subinterval of the subinterval of the particular timestamp interval, and optimizing based at least in part on the adjusted operating condition data.
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68.发明公开公开(公告)号:US20240246452A1
公开(公告)日:2024-07-25
申请号:US18185077
申请日:2023-03-16
IPC分类号: B60L58/24 , G01R31/379
CPC分类号: B60L58/24 , G01R31/379 , B60L2250/16 , B60L2260/56 , G01R31/367
摘要: Disclosed are methods and systems for preventing battery failure by identifying battery maintenance actions for a vehicle system. For instance, a method may include receiving at least one thermal image corresponding to at least one battery of at least one vehicle, converting the at least one thermal image into one or more parameters, transmitting the one or more parameters to a condition monitoring system, evaluating the one or more parameters based on one or more conditions to determine that at least one of the one or more parameters meet at least one of the one or more conditions, determining one or more battery maintenance actions based on the at least one of the one or more parameters that meets the at least one of the one or more conditions, and outputting the one or more battery maintenance actions to one or more user interfaces of a user device.
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公开(公告)号:US12042923B2
公开(公告)日:2024-07-23
申请号:US17806284
申请日:2022-06-10
摘要: An anti-pinch device for use with an insulating apparatus and an insulating apparatus that includes the anti-pinch device are provided. The anti-pinch device includes a body configured to be at least partially disposed about an insulating apparatus. The body is configured to translate relative the insulating apparatus. The device further includes a pinch prevention mechanism attached to the body of the anti-pinch device. The pinch prevention mechanism is configured to prevent ingress of at least a portion of a user's finger into the insulating apparatus in an instance in which the user actuates an input element defined by the insulating apparatus.
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公开(公告)号:US20240241098A1
公开(公告)日:2024-07-18
申请号:US18014895
申请日:2022-10-11
发明人: Chao Chen , Yu Zhi Yan , Hua Tang , Kaixuan Qin , Zhi Yi Sun , Jian Wang , Ke Wei Han , Qixiang Hu
IPC分类号: G01N33/00 , F24F11/30 , F24F11/88 , F24F110/64 , F24F110/66 , F24F110/70
CPC分类号: G01N33/0031 , F24F11/30 , G01N33/004 , G01N33/0047 , G01N33/0062 , F24F11/88 , F24F2110/64 , F24F2110/66 , F24F2110/70
摘要: A wall mountable sensor module includes a housing defining an internal space that is segmented into a first internal space and a second internal space. The first internal space defines an air channel that extends from an air inlet to an air outlet. Two or more sensors are configured to be exposed to the air flow channel. A first sensor is configured to detect a first air parameter and a second sensor is configured to detect a second different air parameter, wherein the second sensor is situated downstream of the first sensor in the air flow channel. The sensor module includes a fan housed by the housing, the fan configured to cause an airflow to flow in through the air inlet, through the air flow channel thereby exposing each of the sensors to the airflow, and out through the air outlet.
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