Self-adaptive terahertz three-dimensional tomography device and method

A technology of three-dimensional tomography and imaging devices, which is applied in the direction of measuring devices, optical devices, instruments, etc., can solve problems such as inability to guarantee, and achieve the effects of improving efficiency, improving imaging quality, and enhancing practicability

Active Publication Date: 2022-07-22
QINGDAO SHENGHAN CHROMATOGRAPH TECH CO LTD
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] At present, the combination of terahertz three-dimensional tomography technology based on point-by-point scanning and two-dimensional scanning platform has a good application effect only when imaging flat objects. When imaging objects with curved surfaces, every detection cannot be guaranteed. The terahertz wave emitted by the point terahertz lens is consistent with the normal direction of the point and the detection point is always at the focal point of the terahertz lens, thus ensuring the accuracy of detection

Method used

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  • Self-adaptive terahertz three-dimensional tomography device and method
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  • Self-adaptive terahertz three-dimensional tomography device and method

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Embodiment 1

[0031] The robotic arm is the most widely used automatic mechanical device in the field of robotics, and it has a wide range of applications in industrial manufacturing, medical, entertainment services, military, semiconductor manufacturing, and aerospace. In different application scenarios, robotic arms have different appearances, but they all have a common feature, that is, they can accept instructions and accurately locate points in three-dimensional (or two-dimensional) space for operation. Among them, the six-axis robotic arm consists of six joints, each of which is driven by a servo motor to rotate, so that the robotic arm will obtain the maximum degree of freedom, and its execution end can reach any position in the operation space. Combining the six-axis robotic arm with the terahertz three-dimensional tomography system can enable the terahertz lens to obtain six degrees of freedom in space, breaking through the limitation that the two-dimensional scanning method can onl...

Embodiment 2

[0036] The invention also provides an adaptive terahertz three-dimensional tomography method, such as figure 2 As shown, the adaptive terahertz three-dimensional tomography device as described in Embodiment 1 can be used, and includes the following steps:

[0037] S1, use a binocular vision system to shoot the upper surface of the object to be measured. The binocular vision system rotates around the object to be measured. After the position is calibrated, the binocular image of each position is recorded, and a 3D model of the object to be measured is generated. The 3D model is sent to the host computer; the binocular vision system has a binocular field of view greater than 120°, so it is necessary to rotate the binocular vision system around the measured object to at least 3 positions.

[0038] S2, the host computer analyzes and processes the 3D model and generates path planning data of the motion trajectory of the robotic arm, and the path planning data is sent to the roboti...

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Abstract

The invention provides a self-adaptive terahertz three-dimensional tomography device and method. The device comprises an upper computer, a terahertz three-dimensional tomography host, a terahertz lens, a mechanical arm controller, a mechanical arm and a binocular vision system. The terahertz three-dimensional tomography host is respectively connected with the upper computer and the terahertz lens; the terahertz lens is arranged at the tail end of the mechanical arm and can synchronously move along with the tail end of the mechanical arm; the binocular vision system is connected with the upper computer, the binocular vision system is used for transmitting the 3D model of the measured object to the upper computer, and the upper computer generates path planning data of the motion trail of the mechanical arm; the mechanical arm controller is connected with the upper computer and the mechanical arm. The mechanical arm controller can obtain rotary encoder signals representing angle information of all shaft motors of the mechanical arm and upload the rotary encoder signals to the upper computer. The mechanical arm and the terahertz three-dimensional tomography system are combined, so that the imaging problem of a curved surface object can be effectively solved, and the working dimension is improved from two dimensions to three dimensions.

Description

technical field [0001] The invention belongs to the technical field of terahertz three-dimensional tomography, in particular to an adaptive terahertz three-dimensional tomography device and method. Background technique [0002] As a light source, terahertz radiation can be used as a signal source for object imaging like other radiations (such as visible light, rays, mid-near-far-infrared and ultrasonic waves, etc.). Terahertz time-domain spectral imaging technology is one of the important information detection technologies in the field. The terahertz time-domain spectral image not only contains the geometric information of the target, but also has complete information such as the intensity, phase and time of the target's impulse response, which provides the physical and chemical composition of the target at each pixel point. It has great application potential in many fields such as safety inspection, environmental monitoring, food production quality monitoring and so on. ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01B11/24
CPCG01B11/2433Y02P90/02
Inventor 王玉建朱新勇刘永利张朝惠张习志崔成来张恩来张彬彬
Owner QINGDAO SHENGHAN CHROMATOGRAPH TECH CO LTD
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