Honeywell International Inc. patent applications on September 26th, 2024
Patent Applications by Honeywell International Inc. on September 26th, 2024
Honeywell International Inc.: 20 patent applications
Honeywell International Inc. has applied for patents in the areas of G08G5/00 (4), G08G5/04 (2), G05B19/418 (2), A61F11/14 (1), G06F16/23 (1) G08G5/0021 (2), A61F11/14 (1), G05B19/41875 (1), H04L41/0806 (1), H01S3/0675 (1)
With keywords such as: device, data, object, configured, control, event, search, quality, based, and extensible in patent application abstracts.
Patent Applications by Honeywell International Inc.
Inventor(s): John JENKINS of Morris Plains NJ (US) for honeywell international inc., Scott HUTT of Morris Plains NJ (US) for honeywell international inc., Wei SUN of Shanghai (CN) for honeywell international inc., Yongjun CHEN of Shanghai (CN) for honeywell international inc., Lei JIANG of Shanghai (CN) for honeywell international inc.
IPC Code(s): A61F11/14, B29D99/00, G10K11/162
CPC Code(s): A61F11/14
Abstract: a protection cup for a hearing protection device (hpd) is provided. the protection cup includes a plurality of fractal elements disposed on an inner surface of the protection cup.
20240318697. TORQUE PAD ATTACHMENT ASSEMBLY_simplified_abstract_(honeywell international inc.)
Inventor(s): Brian Shula of South Bend IN (US) for honeywell international inc.
IPC Code(s): F16D65/097, B64C25/42, F16D55/36, F16D65/00, F16D65/12
CPC Code(s): F16D65/0974
Abstract: in some examples, a brake assembly is configured to compress a brake disc stack to reduce and/or limit rotational motion of a wheel about a wheel axis. the brake assembly is configured to transmit a compression force on the disc stack to a backing plate. the backing plate is configured to transmit the compression force to a torque tube via one or more torque pads. a torque pad includes a pin supported by a support portion of the torque pad. the pin is configured to insert into a support recess of a boss when the boss supports the torque pad. the support portion of the torque pad is resiliently biased, such that the support portion exerts an force on the pin in an inward direction when the pin is displaced in an outward direction opposite the inward direction.
20240318873. COMPRESSOR AND SEAL_simplified_abstract_(honeywell international inc.)
Inventor(s): Benjamin Tang of Monterey Park CA (US) for honeywell international inc., Amanda L. Webb of Torrance CA (US) for honeywell international inc.
IPC Code(s): F25B1/053, F04D17/10
CPC Code(s): F25B1/053
Abstract: an example centrifugal compressor includes a first stage and a second stage, a flow path within the centrifugal compressor between the first and second stages, an impeller, and a labyrinth seal. the labyrinth seal comprises a plurality of teeth, a lumen through a thickness of the labyrinth seal, and a lumen inlet disposed between adjacent teeth of the plurality of teeth.
20240318883. DUAL-COMPRESSOR VAPOR CYCLE SYSTEM_simplified_abstract_(honeywell international inc.)
Inventor(s): Sung-Han Jung of Torrance CA (US) for honeywell international inc., Siamak Nikbin of Marina del Rey CA (US) for honeywell international inc., Daniel R. Robles of Lakewood CA (US) for honeywell international inc.
IPC Code(s): F25B49/02, B64D13/08, F25B5/02, F25B40/02, F25B40/04, F25B41/385, F25B43/00
CPC Code(s): F25B49/022
Abstract: a vapor cycle cooling system includes first and second compressor systems in parallel with one another, each compressor system including a motor, a motor controller, and a first compressor in series with a second compressor; a condenser fluidically coupled to each compressor system; a filter drier, in series with, and fluidically coupled to the condenser; a first expansion device in series with, and fluidically coupled to, a flash heat exchanger, the flash heat exchanger fluidically coupled to a second expansion device, the second expansion device fluidically coupled to a first evaporator, the first evaporator fluidically coupled to each compressor system; a system controller electrically coupled to each motor controller; and a motor and motor controller cooling loop fluidically coupled to the filter drier and each motor, wherein the vapor cycle cooling system is configured to cool one or more thermal loads for a vehicle.
Inventor(s): Fan YANG of Charlotte NC (US) for honeywell international inc., Yu HU of Charlotte NC (US) for honeywell international inc., Houyong WANG of Charlotte NC (US) for honeywell international inc., Wu CHEN of Charlotte NC (US) for honeywell international inc., Tengfei ZHANG of Charlotte NC (US) for honeywell international inc.
IPC Code(s): G01B7/16, G01B7/24, G08B21/18
CPC Code(s): G01B7/18
Abstract: methods, apparatuses and systems for a sensing deformation in a surface are disclosed herein. an example device may include a first sensor configured to mechanically couple to a first point and a second point on a surface. the first point and the second point may be located across an opening of a groove on the surface. an electrical property of the first sensor may be configured to change in response to a variation in the distance between the first point and the second point.
Inventor(s): Manjesh B of Charlotte NC (US) for honeywell international inc., Jamie SPELDRICH of Charlotte NC (US) for honeywell international inc., Sudheer Beligere SREERAMU of Charlotte NC (US) for honeywell international inc., Somraj SURESH of Charlotte NC (US) for honeywell international inc.
IPC Code(s): G01F15/14, H05K1/18
CPC Code(s): G01F15/14
Abstract: a flow sensing device is provided. for example, a flow sensing device may include a housing, a printed circuit board assembly (pcba) having a first major surface and an opposing second major surface, a sensing element disposed on the first major surface, and a flow tube defining a flow path configured to convey a flowing media. the flow tube comprises an elongated main body, a fluid inlet tube, and a fluid outlet tube. the flow tube is disposed such that the elongated main body is proximate the first major surface of the pcba, the fluid inlet tube protrudes through a first pcba through-hole to position the opening of the fluid inlet tube proximate the second major surface of the pcba, and the fluid outlet tube protrudes through a second pcba through-hole to position the opening of the fluid outlet tube proximate the second major surface of the pcba.
20240319036. HANDHELD ULTRASONIC TESTING DEVICE_simplified_abstract_(honeywell international inc.)
Inventor(s): Petr Gál of Brno (CZ) for honeywell international inc., Jan Adamek of Brno (CZ) for honeywell international inc., Milos Koutny of Brno (CZ) for honeywell international inc., David Cada of Brno (CZ) for honeywell international inc., Michal Bohuš of Trencín (SK) for honeywell international inc., Rodney Royston Watts of Wimborne (GB) for honeywell international inc.
IPC Code(s): G01M3/24, G01M3/00, G01N29/22, G05G1/02, G05G1/08
CPC Code(s): G01M3/24
Abstract: methods for manufacturing an apparatus for testing an ultrasonic gas leak detection device and methods for testing an ultrasonic gas leak detection device are disclosed. an example method includes disposing a rotary selector around a housing, disposing a rotary position sensing device within the housing, disposing a button on the housing, and disposing an ultrasonic transduction device within the housing, wherein the ultrasonic transduction device is configured to generate a first ultrasonic signal for testing the ultrasonic gas leak detection device when the first rotary position corresponds to the first testing mode and the button simultaneously corresponds to the depressed state, and generate a second ultrasonic signal for testing the ultrasonic gas leak detection device when the second rotary position corresponds to the second testing mode and the button simultaneously corresponds to the depressed state, wherein the second ultrasonic signal is different from the first ultrasonic signal.
Inventor(s): NISHANT OMAR of Bangalore (IN) for honeywell international inc., PAWAN KUMAR SINGH of Bangalore (IN) for honeywell international inc., FONGYEEN CHAN of Petaling Jaya (MY) for honeywell international inc., PRIYA SHUKLA of Bangalore (IN) for honeywell international inc.
IPC Code(s): G05B19/04
CPC Code(s): G05B19/041
Abstract: a portable handheld device pairs with a first building control device, to form a first wireless connection. the portable handheld device receives information about a second building control device via the first wireless connection, at least some of the information is received by the first building control device from the second building control device over a building control network before the first building control device provides at least some of the received information to the portable handheld device via the first wireless connection. the portable handheld device sends one or more messages to the first building control device via the first wireless connection, wherein the one or more messages cause the first building control device to communicate with the second building control device via the building control network to initiate a commissioning and/or maintenance process of the second building control device.
Inventor(s): Sunil Golani of Bangalore (IN) for honeywell international inc., Murali D of Bangalore (IN) for honeywell international inc., LingaThurai Palanisamy of Bangalore (IN) for honeywell international inc., Niranjan Amrutur Subba Rao of Bangalore (IN) for honeywell international inc.
IPC Code(s): G05B19/4063
CPC Code(s): G05B19/4063
Abstract: methods, apparatuses, and computer program products for quality control are provided. for example, a computer-implemented method may include, each time a turnup event occurs indicating completion of a production unit at one of a plurality of equipment stations of a production line, receiving one or more turnup properties corresponding to the turnup event; selecting a predefined quality procedure matching one or more of the turnup properties; retrieving data related to one or more quality parameters defined in the selected quality procedure, from one or more data sources defined in the selected quality procedure; comparing the retrieved data to one or more tolerances corresponding to the one or more quality parameters defined in the selected quality procedure; and, based on results of the comparing, executing a quality disposition action defined in the respective quality parameter of the selected quality procedure.
Inventor(s): Christopher J. WEBB of Scottsdale AZ (US) for honeywell international inc., Joseph Z. LU of Glendale AZ (US) for honeywell international inc., Constantin Marius ANGHELEA of Bucharest (RO) for honeywell international inc., Jan JECH of Jevany (CZ) for honeywell international inc.
IPC Code(s): G05B19/418
CPC Code(s): G05B19/41835
Abstract: embodiments of the present disclosure provide for improved optimization of operations of a processing plant. in this regard embodiments optimize, at a plantwide level, operations of a processing plant that utilizes rundown blending to optimize target parameter(s) while ensuring that product specifications of volumes of target products to be produced will be met within particular production durations of product runs. some embodiments project operational constraints for upstream components, such as multiple headers, to achieve such optimal operations based on current properties and volumes of current products in rundown blenders of a processing plant, and product plan data for any number of target products to be produced over a future period of time.
Inventor(s): Sunil Golani of Bangalore (IN) for honeywell international inc., Murali D of Bangalore (IN) for honeywell international inc., LingaThurai Palanisamy of Bangalore (IN) for honeywell international inc., Niranjan Amrutur Subba Rao of Bangalore (IN) for honeywell international inc.
IPC Code(s): G05B19/418, G06F3/04842, G06F3/0486
CPC Code(s): G05B19/41875
Abstract: methods, apparatuses, and computer program products for production tracking are provided. for example, a computer-implemented method may include receiving user selections corresponding to (i) equipment stations of a production line, (ii) links from each equipment station to preceding and/or succeeding equipment stations, and (iii) data to be captured each time a turnup event indicating completion of a production unit occurs; creating a graphic representation of the production line; each time a turnup event occurs at one of the equipment stations, determining (i) any immediately preceding equipment stations, (ii) a turnup start time, and (iii) one or more parent production units created by the immediately preceding equipment station immediately prior to the turnup event; obtaining quality status information for each production unit in a parent/child sequence; and displaying the graphic representation of the production line with the quality status information for each of the production units.
Inventor(s): Shirish Katti of Bangalore (IN) for honeywell international inc., Veeranagegowda Shivalingappa of Chitradurga (IN) for honeywell international inc.
IPC Code(s): G06F16/23, G06F16/28
CPC Code(s): G06F11/3072
Abstract: an extensible object model system for maintaining extensible object models representing operational systems detects changes to the extensible object models generated by an enterprise management system and generates change events identifying and/or characterizing the detected changes, possibly based on publish events from the enterprise management system associated with particular operations that generated the detected changes. the extensible object model system generates notifications based on the change events and configurable notification criteria and provides a change event interface (e.g., ui, api) for providing change events to the enterprise management system in response to change event requests received via the change event interface. the extensible object model system generates change audit reports and/or recovered extensible object models based on the change events and/or causes the enterprise management system to generate updated operational data processing criteria based on the change events.
Inventor(s): Shirish Katti of Bangalore (IN) for honeywell international inc., Sumanth Pachipulusu Lingesh of Bengaluru (IN) for honeywell international inc., Veeranagegowda Shivalingappa of Chitradurga (IN) for honeywell international inc., Klaus Peter Gross of Atlanta GA (US) for honeywell international inc.
IPC Code(s): G06F16/242, G06F16/248
CPC Code(s): G06F16/2428
Abstract: an extensible object model system for maintaining extensible object models representing operational systems enables saving and re-using of searches of the models by maintaining a database of search objects representing types of search operations associated with the extensible object models. search selection input and/or parameter selection input are received via a search selection interface with respect to a particular extensible object model, the search selection input indicating a selected search object and the parameter selection input indicating values corresponding to input parameters required by the selected search object. the extensible object model system retrieves the selected search object from the search object database, generates an executable search query representing a particular instance of the type of search operation defined by the selected search object based on the retrieved search object and the input parameter values and submits the executable search query for execution against the particular extensible object model.
Inventor(s): Thea Feyereisen of Minneapolis MN (US) for honeywell international inc., Ryan Milmoe of Phoenix AZ (US) for honeywell international inc.
IPC Code(s): G08G5/00, G08G5/04
CPC Code(s): G08G5/0021
Abstract: systems and methods are provided for travel path monitoring during operation of a mobile platform. the system may include a database configured to store a preprogramed travel plan, a navigation system configured to monitor the travel plan and a geographical position of the mobile platform, a controller operably coupled to the navigation system and the database and configured to, by a processor: detect a deviation of a travel path of the mobile platform from the travel plan, monitor a travel parameter in response to detecting the deviation, and generate a first notification configured to alert a crew of the mobile platform of the deviation in response to the travel parameter exceeding a travel parameter threshold.
Inventor(s): Ari Narayanan M of Madurai (IN) for honeywell international inc., Nathan Krishna Moorthy of Bangalore (IN) for honeywell international inc., Sivasankari Paramasivan of Madurai (IN) for honeywell international inc.
IPC Code(s): G08G5/00, G08G5/04
CPC Code(s): G08G5/0021
Abstract: a method and system for identifying a restrictive obstacle for a flight plan of an aircraft has been developed. first, both static obstacle data and temporary obstacle data is retrieved for a runway used during takeoff of the aircraft. the relevant data is identified for clearance of the static obstacles and the temporary obstacles. the distance and elevation of the static obstacles and the temporary obstacles is computed from a departure point of the runway. next, the clearance data required for the aircraft is computed for each of the static obstacles and the temporary obstacles. the most restrictive obstacle is identified based on the clearance data for each of the static obstacles and the temporary obstacles and displayed to the pilot of the aircraft.
Inventor(s): Miroslav Strba of Brno (CZ) for honeywell international inc., Tomas Bouda of Brno (CZ) for honeywell international inc., Eva Josth Adamova of Brno (CZ) for honeywell international inc.
IPC Code(s): G08G5/00
CPC Code(s): G08G5/0043
Abstract: a display system for a uam ground control station hmi, may include an hmi device and a controller for generating a graphical user interface (gui) window for displaying notification items on the hmi device. the controller is configured to: receive a plurality of notification items for display at a uam ground control station via the hmi device, provide, via a gui widget displayed on the hmi device, a plurality of display prioritization options for identifying a different subset of the notification items for display in a notification item gui window, receive selection via the gui widget of a user-selected display prioritization option from the plurality of user-selectable display prioritization options, select a first set of notification items from the plurality of notification items for display based on the user-selected display prioritization option; and display the first set of notification items in the notification item gui window on the hmi device.
Inventor(s): Jan Beran of () for honeywell international inc., Pavel Drasil of Slapanice (CZ) for honeywell international inc., Jiri Svoboda of Brno (CZ) for honeywell international inc., Miroslav Matousek of Brno (CZ) for honeywell international inc., Dorin Maxim of Brno (CZ) for honeywell international inc.
IPC Code(s): G08G5/00, B64D45/00, G05D1/10
CPC Code(s): G08G5/0047
Abstract: embodiments of the present disclosure are directed to an event management framework configured to mitigate events impacting the operation of a vehicle. embodiments can receive a set of vehicle operation constraints, receive vehicle sensor data, and receive travel event data associated with the operation of the aerial vehicle. embodiments include an event management engine configured to determine a set of recommendations related to the events. the event management engine is distributed across multiple operational segments of the event management framework. the event management engine can determine a respective computing device of the multiple operational segments for determining the set of recommendations based at least in part on a respective classification of the one or more events. the event management engine can also cause execution of the respective recommendations, where causing the execution of the respective recommendations causes operation of one or more vehicle systems affecting control of the aerial vehicle.
Inventor(s): Chad Fertig of Bloomington MN (US) for honeywell international inc., Chad Hoyt of Roseville MN (US) for honeywell international inc., Glen A. Sanders of Scottsdale AZ (US) for honeywell international inc., Jianfeng Wu of Tucson AZ (US) for honeywell international inc., Mary Salit of Plymouth MN (US) for honeywell international inc.
IPC Code(s): H01S3/067, H01S3/08
CPC Code(s): H01S3/0675
Abstract: in some embodiments, a system includes a laser that generates an optical signal and a resonator that receives the optical signal. the resonator includes an optical resonator cavity comprising a first and second end, wherein the optical signal propagates at a resonant frequency; a first optical anti-resonator terminating the first end and having a first stopband; and a second optical anti-resonator terminating the second end and having a second stopband. the system includes a detector that generates an electrical signal from a modified resonator output of the resonator; and pound-drever-hall servo circuitry configured to generate control signals for controlling a frequency of the optical signal generated by the laser or phase modulation devices attached to the optical resonator cavity or the first or second optical anti-resonator, wherein each phase modulation changes a length of at least one of the optical resonator cavity or the first or second optical anti-resonator.
Inventor(s): Jason Bowden of Roswell GA (US) for honeywell international inc., Ambika Khatri of Bangalore (IN) for honeywell international inc., Mani Kumar Bhasuri of Alpharetta GA (US) for honeywell international inc.
IPC Code(s): H04L41/0806, G06F9/54
CPC Code(s): H04L41/0806
Abstract: various embodiments described herein relate to provisioning edge layer to cloud layer connectivity for asset devices. in an embodiment, an application programming interface (api) payload to facilitate network provisioning related to a set of industrial assets within an industrial network system is received. additionally, a set of subscription domain features included in the api payload is mapped to a set of application content features associated with a cloud platform and a gateway profile for configuring a connection between the industrial network system and the cloud platform is generated based at least in part on the set of application content features. execution of the gateway profile via a gateway device implemented as a network node between the industrial network system and the cloud platform can also be caused.
Inventor(s): Atul BASSI of Bengaluru (IN) for honeywell international inc., Tarun GUPTA of Bengaluru (IN) for honeywell international inc., Eli ABRAMSON of Ramat-Gan (IL) for honeywell international inc.
IPC Code(s): H04L9/40
CPC Code(s): H04L63/1416
Abstract: embodiments of the present disclosure provide for remote access of a device, for example an operational technology device or an information technology device, in a manner with improved cybersecurity. some embodiments receive remote action data from a client device in response to an initiated remote access action of the remote action data from the client device to a remotely accessible device, quarantine the remote action data from the client device, generate malicious determination data indicating whether the remote action data is determined as malicious by processing the remote action data, and determine whether to block transfer of the remote action data to the remotely accessible device based at least in part on the malicious determination data.
Honeywell International Inc. patent applications on September 26th, 2024
- Honeywell International Inc.
- A61F11/14
- B29D99/00
- G10K11/162
- CPC A61F11/14
- Honeywell international inc.
- F16D65/097
- B64C25/42
- F16D55/36
- F16D65/00
- F16D65/12
- CPC F16D65/0974
- F25B1/053
- F04D17/10
- CPC F25B1/053
- F25B49/02
- B64D13/08
- F25B5/02
- F25B40/02
- F25B40/04
- F25B41/385
- F25B43/00
- CPC F25B49/022
- G01B7/16
- G01B7/24
- G08B21/18
- CPC G01B7/18
- G01F15/14
- H05K1/18
- CPC G01F15/14
- G01M3/24
- G01M3/00
- G01N29/22
- G05G1/02
- G05G1/08
- CPC G01M3/24
- G05B19/04
- CPC G05B19/041
- G05B19/4063
- CPC G05B19/4063
- G05B19/418
- CPC G05B19/41835
- G06F3/04842
- G06F3/0486
- CPC G05B19/41875
- G06F16/23
- G06F16/28
- CPC G06F11/3072
- G06F16/242
- G06F16/248
- CPC G06F16/2428
- G08G5/00
- G08G5/04
- CPC G08G5/0021
- CPC G08G5/0043
- B64D45/00
- G05D1/10
- CPC G08G5/0047
- H01S3/067
- H01S3/08
- CPC H01S3/0675
- H04L41/0806
- G06F9/54
- CPC H04L41/0806
- H04L9/40
- CPC H04L63/1416