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    • 3. 发明专利
    • ВОЗДУШНЫЙ ТЕПЛОВОЙ НАСОС
    • RU2728576C1
    • 2020-07-30
    • RU2019133627
    • 2018-03-30
    • ZHANG JIN
    • ZHANG JIN
    • F01K21/00F22B3/06
    • Изобретениеотноситсяк преобразованиюэнергии, аименнок воздушнымтепловымнасосам. Вращающийсявалнасосанеподвижноустановленнавыходномконцевращающегосяблока. Вращающийсявалимеетпоменьшеймереодинвыступ. Приводнойпоршенькаждогоузлапреобразованияустановленс возможностьюскольженияв воздушнойполости. Приводнойпоршеньделитвоздушнуюполостьнапервуюполостьи вторуюполость. Шатунустановленвовторойполостии неподвижносоединенс приводнымпоршнем. Дваконцаприводногорычагасоединеныс возможностьювращенияс шатуноми указаннымвыступомсоответственно. Перваяполостьснабженаотверстиемдлянаполнениявоздухом. Нескольконагревательныхтрубокоднимконцомсоединеныс первойполостью, адругимконцомвставленыв корпуснасоса. Корпуснасосаимеетгерметичноеисполнение, внутрикорпусахранитсявода, корпусснабженвыпускнымотверстием, котороеподключаетсяк каждойточкепотреблениячерезтрубопровод. Посколькунастоящееизобретениеиспользуетвоздухв качествеисточникаэнергиидлянагревания, тоононеимеетограниченийпоустановкеи являетсябезопасными энергосберегающимприэксплуатации. 6 з.п. ф-лы, 2 ил.
    • 6. 发明专利
    • MEDICAL DEVICE
    • CA2815474A1
    • 2012-04-26
    • CA2815474
    • 2011-10-21
    • TANIS KEVIN JZHANG JIN
    • TANIS KEVIN JZHANG JIN
    • G06F19/00G16H10/60
    • A medical device includes a treatment module configured to apply a medical treatment and one or more storage devices storing a device identifier that identifies the medical device. The medical device also includes one or more processing devices configured to control the treatment module to apply a medical treatment, collect compliance information that reflects a patient's compliance with a treatment regimen, access the device identifier from the one or more storage devices, and send the collected compliance information with the accessed device identifier to a server system. The server system is configured to receive the compliance information and the device identifier, determine a patient identifier based on the device identifier, store the compliance information in association with the determined patient identifier, and provide access to the compliance information in response to an inquiry.
    • 7. 发明专利
    • Medical device
    • AU2011316883A1
    • 2013-05-23
    • AU2011316883
    • 2011-10-21
    • TANIS KEVIN JZHANG JIN
    • TANIS KEVIN JZHANG JIN
    • G06F19/00G16H10/60
    • A medical device includes a treatment module configured to apply a medical treatment and one or more storage devices storing a device identifier that identifies the medical device. The medical device also includes one or more processing devices configured to control the treatment module to apply a medical treatment, collect compliance information that reflects a patient's compliance with a treatment regimen, access the device identifier from the one or more storage devices, and send the collected compliance information with the accessed device identifier to a server system. The server system is configured to receive the compliance information and the device identifier, determine a patient identifier based on the device identifier, store the compliance information in association with the determined patient identifier, and provide access to the compliance information in response to an inquiry.
    • 9. 发明专利
    • GIANT MAGNETORESISTANCE-BASED BIOSENSORS
    • CA3078114A1
    • 2019-04-11
    • CA3078114
    • 2018-10-09
    • ZHANG JIN
    • ZHANG JIN
    • G01N27/12B82Y15/00B82Y30/00
    • Disclosed is a system for detecting one or more target analytes which includes a resistor structure comprised of a substrate, a graphene-based nanocomposite material located on a surface of the substrate with the graphene-based nanocomposite material exhibiting one or more magnetoresistance properties. A surface of the nanocomposite material includes molecular sensing elements bound thereto which exhibit an affinity for binding with the target analytes. Electrodes are connected to the resistor structure connectable to a power source and a device for measuring a resistance across the resistor structure for sensing a giant magnetoresistance (GMR) value of the resistor structure. Included are magnetic colloidal nanoparticles exhibiting preselected magnetic properties with an outer surface of the magnetic colloidal nanoparticles being modified to allow interaction with the surface of the resistor structure resulting in a change in the GMR value of the resistor structure. The resistor structure is configured to be operably connected to a magnetic field generating device configured to apply a magnetic field to the graphene-based nanocomposite wherein the field has a magnitude in a range from greater than 0 to about 5 Tesla. A presence of target analytes in a vicinity of the surface of the resistor structure induces the interaction to occur by binding of the target analytes to the molecular sensing elements bound thereto causing a change in GMR value of the resistor structure.