Patents by Inventor Zhimin FU

Zhimin FU has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).

  • Publication number: 20250091330
    Abstract: This application provides a method for preparing laminated glass sandwiching an electronic device. The device may include a device body, a conductive substrate, a conductive adhesive tape electrode, and a lead-out electrode. The conductive adhesive tape electrode has at least one surface coated with conductive adhesive and is attached to the conductive substrate, the lead-out electrode is configured on the conductive adhesive tape electrode or the conductive substrate and is conductively connected to the conductive adhesive tape electrode. The preparing method may include configuring a protective layer on the conductive adhesive tape electrode, covering and sealing the conductive adhesive tape electrode onto the conductive substrate; and sandwiching the electronic device between two glass pieces and pressing the two glass pieces together to form the laminated glass.
    Type: Application
    Filed: December 4, 2024
    Publication date: March 20, 2025
    Inventors: Zhao CHEN, Yan ZHOU, Jian WANG, Zhimin FU, Miaozi LI, Yuanyuan ZHANG, Min TANG
  • Publication number: 20250036000
    Abstract: This application describes an electrochromic variable-transmittance glass and its preparation method. An example electrochromic variable-transmittance glass includes an electrochromic variable-transmittance film device, glass, and laminating adhesive. Laminating adhesive is positioned on one side of each opposing surface of the two glass pieces. The electrochromic variable-transmittance film device is sandwiched between the two glass pieces and wrapped by the laminating adhesive. The electrochromic variable-transmittance film device comprises conductive tape electrodes, lead-out electrodes, and a protective layer. The conductive tape electrodes are situated on the conductive substrate of the electrochromic variable-transmittance film device. The lead-out electrodes are positioned on the conductive substrate or the conductive tape electrodes and are conductively connected with the conductive tape electrodes, extending to the outer side of the glass for connection to an external power source.
    Type: Application
    Filed: September 25, 2023
    Publication date: January 30, 2025
    Inventors: Zhao CHEN, Yan ZHOU, Jian WANG, Zhimin FU, Miaozi LI, Yuanyuan ZHANG, Min TANG
  • Publication number: 20250033326
    Abstract: This application provides a method for preparing laminated glass sandwiching an electronic device. The device may include a device body, a conductive substrate, a conductive adhesive tape electrode, and a lead-out electrode. The conductive adhesive tape electrode has at least one surface coated with conductive adhesive and is attached to the conductive substrate, the lead-out electrode is placed on the conductive adhesive tape electrode or the conductive substrate and is conductively connected to the conductive adhesive tape electrode. The preparing method may include placing a protective layer on the conductive adhesive tape electrode, covering and sealing the conductive adhesive tape electrode onto the conductive substrate; and sandwiching the electronic device between two glass pieces and pressing the two glass pieces together to form the laminated glass.
    Type: Application
    Filed: September 25, 2023
    Publication date: January 30, 2025
    Inventors: Zhao CHEN, Yan ZHOU, Jian WANG, Zhimin FU, Miaozi LI, Yuanyuan ZHANG, Min TANG
  • Patent number: 12194711
    Abstract: This application provides a method for preparing laminated glass sandwiching an electronic device. The device may include a device body, a conductive substrate, a conductive adhesive tape electrode, and a lead-out electrode. The conductive adhesive tape electrode has at least one surface coated with conductive adhesive and is attached to the conductive substrate, the lead-out electrode is placed on the conductive adhesive tape electrode or the conductive substrate and is conductively connected to the conductive adhesive tape electrode. The preparing method may include placing a protective layer on the conductive adhesive tape electrode, covering and sealing the conductive adhesive tape electrode onto the conductive substrate; and sandwiching the electronic device between two glass pieces and pressing the two glass pieces together to form the laminated glass.
    Type: Grant
    Filed: September 25, 2023
    Date of Patent: January 14, 2025
    Assignee: Furcifer Inc.
    Inventors: Zhao Chen, Yan Zhou, Jian Wang, Zhimin Fu, Miaozi Li, Yuanyuan Zhang, Min Tang
  • Patent number: 12036895
    Abstract: An airflow sensing seat, having a seat body, an airbag, a sensing assembly, and a micro control unit. The airbag is in the seat body. A deformable support structure is in the airbag. The support structure is used to maintain an appropriate amount of gas in the airbag. A transmission mechanism is provided between the airbag and the sensing assembly. The transmission mechanism transmits gas disturbance in the airbag to the sensing assembly. The sensing assembly generates a corresponding analog electrical signal according to the gas disturbance. The sensing assembly is electrically connected to the micro control unit. The sensing assembly transmits the analog electrical signal to the micro control unit. The micro control unit performs analysis and computation on the analog electrical signal so as to acquire a biological signal of a user.
    Type: Grant
    Filed: December 27, 2019
    Date of Patent: July 16, 2024
    Inventors: Zhimin Fu, Chenlong Mei, Jiayu Yu, Qipeng Liu, Xingfeng Li, Jingfeng Zheng
  • Publication number: 20240092226
    Abstract: An airflow sensing seat comprises a seat body (1), an airbag (2), a sensing assembly (3), and a micro control unit (4). The airbag (2) is provided in the seat body (1). A deformable support structure (21) is provided in the airbag (2). The support structure (21) is used to maintain an appropriate amount of gas in the airbag (2). A transmission mechanism (5) is provided between the airbag (2) and the sensing assembly (3). The transmission mechanism (5) is used to transmit gas disturbance in the airbag (2) to the sensing assembly (3). The sensing assembly (3) is used to generate a corresponding analog electrical signal according to the gas disturbance. The sensing assembly (3) is electrically connected to the micro control unit (4). The sensing assembly (3) transmits the analog electrical signal to the micro control unit (4). The micro control unit (4) is used to perform analysis and computation on the analog electrical signal so as to acquire a biological signal of a user.
    Type: Application
    Filed: December 27, 2019
    Publication date: March 21, 2024
    Inventors: Zhimin FU, Chenlong MEI, Jiaya YU, Qipeng LIU, Xingfeng LI, Jingfeng ZHENG