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公开(公告)号:US11092524B2
公开(公告)日:2021-08-17
申请号:US16314491
申请日:2018-01-10
Applicant: SHANDONG UNIVERSITY
Inventor: Shucai Li , Zhenhao Xu , Bin Gao , Xintong Wang , Wenyang Wang , Yuchao Du , Xin Huang , Dongdong Pan , Peng Lin
IPC: B33Y50/00 , G01N1/44 , G01V99/00 , G01N1/36 , B33Y10/00 , B28B1/14 , B28B11/24 , B33Y50/02 , B28B7/34 , G01N1/28 , G01N33/00 , E02D1/02 , B33Y70/00
Abstract: A method and device for preparing karst caves based on 3D printing technology. The method includes the following steps: determining size of a sample according to test requirements, constructing a 3D karst cave digital model based on three-dimensional karst cave scanning result, and carrying out 3D printing by using alloy to form primary karst cave sample; preparing rock similar material mixture according to proportioning scheme; pouring mixture into sample mold while burying karst cave model into mixture according to position of a karst cave; curing sample together with mold at room temperature until rock similar materials get hardened, removing mold, curing formed karst cave rock sample at constant temperature and constant humidity and then baking or heating same by electrifying heating wire in alloy to form rock sample with hollow karst cave; and filling hollow karst cave with different fillings to form different type of karst cave sample.
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2.
公开(公告)号:US11536639B2
公开(公告)日:2022-12-27
申请号:US16957631
申请日:2019-04-26
Applicant: SHANDONG UNIVERSITY
Inventor: Shucai Li , Zhenhao Xu , Heng Shi , Huihui Xie , Tengfei Yu , Wenyang Wang , Xin Huang , Yuchao Du
IPC: G01N15/02 , G01N23/223 , G01N23/207
Abstract: An intelligent lithology identification system and method based on images and spectrum technology. The intelligent lithology identification system includes a rock shape analysis system, an image identification system, a sample processing system, a spectrum analysis system, and a central analysis and control system; wherein the central analysis and control system determines the final lithology of a sample according to the rock identification results from the image identification system and the analysis results from the spectrum analysis system. The technical solution further identifies the content and type of minerals by using spectrum technology, integrates and analyzes the results of spectrum analysis and image identification, and finally gives the lithology of the rock, which greatly improves the accuracy of lithology identification.
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公开(公告)号:US11293878B2
公开(公告)日:2022-04-05
申请号:US16958017
申请日:2019-04-26
Applicant: SHANDONG UNIVERSITY
Inventor: Shucai Li , Zhenhao Xu , Heng Shi , Xiaoqi Chen , Tengfei Yu , Huihui Xie , Xin Huang , Yuchao Du
Abstract: A full-automatic rock specimen image acquisition device and method, the device includes a central controller and a lighting system, a rock mass attitude control system, a dust system and an image acquisition system connected to the central controller respectively; the lighting system includes a lighting chamber and light sources with adjustable light intensities, and the light sources with adjustable light intensities are uniformly arranged in the lighting chamber; the rock mass attitude control system includes a rotating stage disposed in the lighting chamber for carrying the rock, a rock holder disposed on the stage, and a rotating gripper disposed above the stage for turning over the rock; and the dust system is connected to the lighting chamber, and can diffuse the dust into the lighting chamber through an air compressor and control the dust concentration in the lighting chamber through an electrostatic precipitator.
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4.
公开(公告)号:US11162969B2
公开(公告)日:2021-11-02
申请号:US17253649
申请日:2020-01-21
Applicant: SHANDONG UNIVERSITY
Inventor: Zhenhao Xu , Dongdong Pan , Yichi Zhang , Peng Lin , Huihui Xie , Yuchao Du , Zehua Bu , Xiaote Wang
Abstract: An underwater detector includes a sealed enclosure, inside an infrared sensor module is disposed. The module rotates around a spindle at a fixed angular velocity along a horizontal plane. An electronic compass disposed on the module. A bottom of the sealed enclosure connected to an indicator through a rotary shaft, and the indicator rotates around the rotary shaft on the horizontal plane. The indicator includes a head and tail fin. A light source emits a light beam vertically upwards on the tail fin. The module is configured to trigger, when receiving the light beam, the electronic compass records a real-time direction relative to the spindle, which is processed by a processor module to obtain a direction of the water flow. A spring connects between the head and tail fin. The infrared sensor module transmits a moment of receiving the light beam to the processor module to calculate the water flow.
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