Abstract: The invention provides an automated batch sample preparation method for button battery, comprising the following steps: preparing an electrolyte and elements of different specifications, presetting an injection amount of a liquid injection component, scanning and recording the identification information of the elements by a scanning component, grabbing the elements onto a sealing component, injecting the electrolyte into the elements on the sealing component, sealing the elements as a button battery by the sealing component, removing the button battery, then repeat the above steps. The automated batch sample preparation method for button battery provided by the invention has the advantages of high automation degree, simple operation, high-precision assembly and high efficiency. The injection amount can be adjusted and controlled, and button batteries with different specifications can be produced in batch. The information recorded by the scanning component can facilitate the optimization of the process.
Type:
Grant
Filed:
June 9, 2020
Date of Patent:
November 22, 2022
Assignees:
SHENZHEN KEJING STAR TECHNOLOGY COMPANY, MTI CORPORATION
Inventors:
Li Xia, Baofei Lao, Yue Deng, Youxiang Wu
Abstract: A smart glasses include: a main frame having an eyeglass frame shape; a support frame coupled to a central portion of the main frame; a first display supported by the support frame and displaying a first image; a second display supported by the support frame and displaying a second image; a first mirror for reflecting the first image; a second mirror for reflecting the second image; a first main lens for providing a first main image from the central portion of the main frame to the inside thereof on the basis of the first image reflected by the first mirror; and a second main lens for providing a second main image from the central portion of the main frame to the inside thereof on the basis of the second image reflected by the second mirror.
Abstract: A smart glasses include: a main frame having an eyeglass frame shape; a support frame coupled to a central portion of the main frame; a first display supported by the support frame and displaying a first image; a second display supported by the support frame and displaying a second image; a first mirror for reflecting the first image; a second mirror for reflecting the second image; a first main lens for providing a first main image from the central portion of the main frame to the inside thereof on the basis of the first image reflected by the first mirror; and a second main lens for providing a second main image from the central portion of the main frame to the inside thereof on the basis of the second image reflected by the second mirror.
Abstract: A method and system for determining the extent of deterioration of a bill includes generating transmitted and reflected light images. The reflected and transmitted light intensities of the transmission and reflection light intensity images are used to determine one or more disorder curve lengths for each image of the bill. Each disorder curve length is compared with a corresponding predetermined disorder curve length for a corresponding image of a reference bill to generate an evaluation factor. The positions of the evaluation factors on an evaluation map indicate the extent of deterioration of the bill.