A sapphire fiber optic temperature sensor using a separate probe

A technology of optical fiber temperature and sapphire, which is applied to thermometers, thermometers, instruments, etc. that change physically/chemically, and can solve problems that affect temperature measurement accuracy, long-term stability, and surface degradation.

Active Publication Date: 2016-01-20
SHAANXI ELECTRICAL APPLIANCE RES INST
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] Since the sapphire fiber is in a temperature environment above 1700°C, the surface will be degraded due to high temperature, which will affect the temperature measurement accuracy and long-term stability
Even after the relevant anti-deterioration treatment, the upper limit of the sapphire optical fiber's tolerance can only be increased to 1800 °C, which leads to the upper limit of the temperature measurement of the traditional sapphire temperature sensor being limited to 1800

Method used

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  • A sapphire fiber optic temperature sensor using a separate probe
  • A sapphire fiber optic temperature sensor using a separate probe
  • A sapphire fiber optic temperature sensor using a separate probe

Examples

Experimental program
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Embodiment Construction

[0024] Follow the steps below to manufacture a box-type temperature-sensitive black body cavity

[0025] Step 1: Using modified zirconium boride ceramic materials to prepare cylindrical blanks with two diameters;

[0026] Step 2: Process a box-type temperature-sensitive blackbody cavity 1 on a larger cylindrical blank by using EDM technology. The bottom of the temperature-sensitive blackbody cavity is hemispherical and the upper end is cylindrical; process internal threads at the mouth of the blackbody cavity;

[0027] Step 3: Cutting a small cylindrical blank to produce a circular light-blocking sheet 2, and machining a radiation adjustment hole 3 with a diameter of 1 mm in the center of the light-blocking sheet by EDM;

[0028] Step 4: Install the light blocking sheet 2 into the temperature-sensitive black body cavity 1.

[0029] Follow the steps below to fabricate a sapphire fiber optic temperature sensor probe

[0030] Step 1: Prepare the ceramic protective sleeve 4, the...

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Abstract

The invention provides a sapphire optical fiber temperature sensor using a separate probe, which is manufactured according to the following steps: design and manufacture the sensor's probe temperature-sensing black body cavity, heat-insulating protective sleeve and related installation accessories according to the specific conditions of the temperature-measured medium; assemble Probes; design and manufacture converters, which include optical filters, photoelectric conversion circuits, preamplifier circuits, two-stage amplifier circuits, analog signal conditioning circuits, voltage output circuits, power supply voltage stabilization circuits, and voltage conversion circuits; finally, use quartz transmission A fiber optic bundle connects the probe to the transducer. In the present invention, the blackbody cavity is separated from the sapphire optical fiber, and the sapphire optical fiber is not in direct contact with the temperature-sensitive blackbody cavity. During temperature measurement, the sapphire optical fiber is relatively far away from the high-temperature environment. The temperature is lower than its degradation temperature and still can transmit the blackbody radiation signal normally, so that the upper limit of the temperature measurement of the sensor reaches 2600 ℃.

Description

technical field [0001] The invention belongs to the technical field of temperature measurement, and in particular relates to an improved sapphire optical fiber temperature sensor. Background technique [0002] The sapphire fiber optic temperature sensor is a contact temperature sensor that collects the thermal radiation of a high-temperature black body cavity for measurement according to Planck's law. The sapphire fiber temperature sensor utilizes the characteristics of high melting point of sapphire fiber and good light transmission characteristics under high temperature conditions. The radiation signal of the balanced black body is transmitted to the low temperature environment. By measuring the intensity of the radiation signal, the temperature of the black body cavity can be converted according to the corresponding relationship between the intensity of the radiation energy and the temperature of the black body cavity, so as to obtain the temperature of the measured mediu...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01K11/32
Inventor 袁玉华阎涛刘统春张颖英
Owner SHAANXI ELECTRICAL APPLIANCE RES INST
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