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A Laser Particle Size Analyzer Combining Forward and Inverse Fourier Optical Paths

A technology of laser particle size analyzer and laser, which is applied in the field of laser particle size analyzer, can solve problems such as poor reception accuracy of scattered light, lens aperture limitation, limitation, etc., and achieve the effect of realizing the receiving range, increasing the upper limit of measurement, and realizing the maximum effect

Active Publication Date: 2021-03-02
丹东百特仪器有限公司 +1
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Problems solved by technology

The positive Fourier optical path has the advantage of high convergence accuracy of scattered light at the same angle, but the disadvantage is that it is limited by the lens aperture and the range of receiving scattering angle is limited
The advantage of the inverse Fourier optical path is that the receiving angle of scattered light is not limited by the lens aperture, and the structure is simple. The disadvantage is that the receiving accuracy of scattered light at the same angle is poor
[0003] In addition, the scattering angle acceptance range of the current laser particle size analyzer is usually limited by the total reflection angle of the sample cell, which is usually less than 48 degrees
In the current inverse Fourier optical path laser particle size analyzer, the backward detectors are placed between the sample cell and the lens, which will reduce the effective focal length of the lens, which is not good for the upper limit of the test range.

Method used

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  • A Laser Particle Size Analyzer Combining Forward and Inverse Fourier Optical Paths

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Embodiment Construction

[0017] The present invention will be further elaborated below in conjunction with the accompanying drawings of the description.

[0018] Such as figure 1 As shown, a laser particle size analyzer combined with forward and reverse Fourier optical paths of the present invention includes a laser 1, a lens 3, a sample cell 4 and a photodetector, wherein the parallel light of the laser 1 passes through the lens 3 and becomes convergent light and enters the The sample cell 4 has a plurality of photodetectors, which are respectively installed on the front and side of the sample cell 4 and behind the lens 4 to receive the forward and backward scattered light of the particles.

[0019] In the present invention, the angle between the sample pool 4 and the lens 3 is 0-35 degrees (the present embodiment adopts 35 degrees), and the sample pool 4 is close to the lens 3 at the same time, and the shortest distance is 0-5 millimeters (the present embodiment adopts 0.5 millimeters). .

[0020]...

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Abstract

The invention relates to a laser particle size analyzer combining forward and reverse Fourier optical paths, including a laser, a lens, a sample pool and a photodetector, wherein the parallel light of the laser becomes converged light after passing through the lens and enters the sample pool, and the photodetector is Multiple, respectively installed in the front, side and rear of the lens of the sample cell; the photodetector includes a forward detector and a backward detector, wherein the forward detector adopts the form of an inverse Fourier optical path, and is placed obliquely in combination with the sample cell. The backward detector is placed on the curved surface of the rear side of the lens. The invention solves the defect of the single optical path of the laser particle size analyzer, realizes the advantages and disadvantages, and combines the oblique placement of the sample pool in the forward reverse Fourier optical path, breaks through the limitation of the total reflection angle, and realizes a larger forward scattering angle reception scope.

Description

technical field [0001] The invention relates to an optical particle size analyzer, in particular to a laser particle size analyzer combined with forward and reverse Fourier optical paths. Background technique [0002] In the prior art, the laser particle size analyzer usually adopts the form of forward Fourier optical path or inverse Fourier optical path, both of which are pure in a single form. The positive Fourier optical path has the advantage of high convergence accuracy of scattered light at the same angle, but the disadvantage is that it is limited by the lens aperture and the range of receiving scattering angle is limited. The advantage of the inverse Fourier optical path is that the receiving angle of scattered light is not limited by the lens aperture, and the structure is simple. The disadvantage is that the receiving accuracy of scattered light at the same angle is poor. [0003] In addition, the scattering angle receiving range of the current laser particle size...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01N15/02
CPCG01N15/0211
Inventor 范继来刘伟朱奕龙李闯陈权威
Owner 丹东百特仪器有限公司
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