US 32,700,020 A

GPTKB entity

Statements (24)
Predicate Object
gptkbp:instanceOf patent
gptkbp:abstract A method for improving widget efficiency.
gptkbp:applicationNumber 16/123,456
gptkbp:applicationType Non-Provisional
gptkbp:assignee gptkb:Tech_Innovations_LLC
gptkbp:citedBy US_32,500,000_A
gptkbp:claims 20
gptkbp:coInventor gptkb:Alice_Johnson
gptkbp:description This patent describes a new method for enhancing the performance of widgets.
gptkbp:examiner Jane_Smith
gptkbp:fieldOfInvention Mechanical Engineering
gptkbp:filingDate 2022-01-15
gptkbp:grantDate 2023-05-01
https://www.w3.org/2000/01/rdf-schema#label US 32,700,020 A
gptkbp:internationalClassification F16B 2/00
gptkbp:inventor gptkb:John_Doe
gptkbp:issuedBy gptkb:United_States_Patent_and_Trademark_Office
gptkbp:legalStatus Granted
gptkbp:maintenanceFee Paid
gptkbp:patentType Utility Patent
gptkbp:priorityDate 2021-01-15
gptkbp:relatedTo US_32,600,000_A
gptkbp:status Active
gptkbp:title Advanced_Widget_Technology