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Temperature control device and method for energy dispersive x-ray fluorescence spectrometer

A fluorescence spectrometer and energy dispersive technology, which is applied in the field of X-ray fluorescence analysis, can solve the problems such as the inability to meet the heat dissipation requirements of the detector, the limited cooling capacity of the TEC, and the deterioration of the X-ray tube performance, so as to increase the single excitation time and ensure accurate The effect of sex, simple structure

Active Publication Date: 2017-06-06
FOCUSED PHOTONICS
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

Although the power of the X-ray tube is small, it is excited for a long time and only adopts natural heat dissipation or air-cooled heat dissipation, so that the heat cannot be dissipated in time, there is a greater risk in the instrument, and the performance of the X-ray tube is deteriorated
[0006] 2. It cannot meet the heat dissipation requirements of the detector
However, heat is also generated during the cooling process of the TEC, which causes the temperature of the detector shell and the surrounding environment to rise, and the cooling capacity of the TEC is limited. After the external temperature rises to a certain temperature, the internal TEC will not be able to continue to maintain the set cooling temperature, resulting in detection poor performance, unstable

Method used

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  • Temperature control device and method for energy dispersive x-ray fluorescence spectrometer
  • Temperature control device and method for energy dispersive x-ray fluorescence spectrometer

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Experimental program
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Effect test

Embodiment 1

[0042] This embodiment provides a temperature control device for an energy dispersive X-ray fluorescence spectrometer, including: a heating module, and the temperature control device further includes:

[0043] A heat conduction structure, the heat conduction structure is connected to the heating module and the refrigerator;

[0044] a refrigerator, the refrigerator cools the heat conducting structure and the heating module;

[0045] a radiator, the radiator is connected to the refrigerator;

[0046] a temperature sensor, the temperature sensor monitors the ambient temperature and the temperature of the heating module;

[0047] A control module, the control module is connected to the heating module, temperature sensor, radiator and refrigerator.

[0048] Further, the temperature control device further includes: an environmental humidity sensor.

[0049] Further, the heating module is an X-ray tube or / and a detector.

[0050] Further, the heat conduction structure is made of...

Embodiment 2

[0072] see figure 1 , the present embodiment provides a temperature control device for an energy dispersive X-ray fluorescence spectrometer, including: an X-ray tube 1, an X-ray tube temperature sensor 21, an ambient temperature sensor 22, an ambient humidity sensor 23, a heat conducting structure 3, and a TEC refrigerator 4 , heat sink 51, air inlet fan 52, air outlet fan 53 and control module 6.

[0073] The X-ray tube temperature sensor 21 detects the surface temperature of the X-ray tube 1 and feeds it back to the control module 6;

[0074] The TEC refrigerator 4 cools the heat conducting structure 3 and the X-ray tube 1;

[0075] The heat conduction structure 3 is made of heat conduction gel, which has good thermal conductivity, and can quickly transfer the heat emitted by the X-ray tube 1 to the TEC refrigerator 4 for cooling, and can also transfer the cold source of the TEC refrigerator 4 Rapid conduction to the X-ray tube 1 to reduce its surface temperature;

[0076...

Embodiment 3

[0098] see figure 2 , this embodiment provides a temperature control device for an energy dispersive X-ray fluorescence spectrometer. The difference from Embodiment 2 is that the heating module of this embodiment includes an X-ray tube and a semiconductor detector, and the control module controls the X-ray tube 11 and the semiconductor detector simultaneously. Detector 12 carries out temperature control.

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Abstract

The invention relates to a temperature control device of an energy dispersion X-ray fluorescence spectrophotometer. The temperature control device comprises a heating module, a heat conduction structure, a refrigerator, a radiator, a temperature sensor and a control module, wherein the heat conduction structure is connected with the heating module and the refrigerator; the refrigerator refrigerates the heat conduction structure and the heating module; the radiator is connected with the refrigerator; the temperature sensor comprises an environment temperature sensor and a heating module temperature sensor; the controller is connected with the heating module, the environment temperature sensor, the heating module temperature sensor, the radiator and the refrigerator. The invention further provides a temperature control method of the energy dispersion X-ray fluorescence spectrophotometer. The temperature control device of the energy dispersion X-ray fluorescence spectrophotometer has the advantages of being simple in structure, accurate in temperature control, high in applicability, stable in performance and the like.

Description

technical field [0001] The invention relates to the field of X-ray fluorescence analysis, in particular to a device and method for dynamically controlling the temperature of an energy-dispersive X-ray fluorescence spectrometer according to the ambient temperature. Background technique [0002] Energy dispersive X-ray fluorescence spectrometer is an instrument for qualitative and quantitative analysis of elements by exciting the characteristic X-rays of the substance to be measured through an excitation source, and detecting the energy and corresponding intensity of the characteristic X-rays with a detector. Commonly used excitation sources include X-ray tubes, radionuclides, synchrotron radiation sources, and proton excitation sources. Among them, X-ray tubes are widely used because of their safety and adjustability. [0003] The power of the X-ray tube generally ranges from a few watts to hundreds of watts. The power is not high, and each excitation will not generate excess...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G05D23/19G01N23/223
Inventor 姜雪娇陈立波叶华俊黄伟孙敬文宋鹏涛刘韬
Owner FOCUSED PHOTONICS
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