US 6,789,964 F22

GPTKB entity

Predicate	Object
gptkbp:instanceOf	patent
gptkbp:abstract	A method for improving efficiency in mechanical systems.
gptkbp:applicationNumber	10/780,123
gptkbp:applicationType	non-provisional
gptkbp:assignee	gptkb:XYZ_Corporation
gptkbp:citedBy	gptkb:US_7,123,456_B1
gptkbp:claims	20
gptkbp:description	This patent describes a novel mechanism for energy transfer.
gptkbp:examiner	Jane_Smith
gptkbp:expirationDate	2024-02-06
gptkbp:fieldOfInvention	mechanical engineering
gptkbp:fieldOfUse	telecommunications construction manufacturing renewable energy automotive industry defense electronics medical devices robotics aerospace industry
gptkbp:filingDate	2004-02-06
https://www.w3.org/2000/01/rdf-schema#label	US 6,789,964 F22
gptkbp:internationalClassification	F16H 1/00
gptkbp:inventor	gptkb:Alice_Johnson gptkb:John_Doe
gptkbp:issueDate	2004-09-14
gptkbp:issuedBy	gptkb:United_States_Patent_and_Trademark_Office
gptkbp:legalStatus	granted
gptkbp:maintenanceFee	paid
gptkbp:patentCitation	gptkb:US_5,678,901_A gptkb:US_6,543,210_B2 gptkb:US_6,789,963_B1 gptkb:US_6,789,966_D1 gptkb:US_6,789,965_C1
gptkbp:patentFamily	US,_EP,_JP
gptkbp:patentType	utility
gptkbp:priorityDate	2003-02-06
gptkbp:relatedTo	gptkb:US_6,123,456_A1
gptkbp:status	active
gptkbp:technologyArea	energy efficiency