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Multi-measurement-point temperature sensor

A temperature sensor and multi-measuring point technology, applied in thermometers, instruments, and thermometers with electric/magnetic elements that are directly sensitive to heat, can solve problems such as long temperature response time, hardening of EO catalysts, and reduced insulation of thermocouples , to achieve the effect of overcoming the leakage of insulating materials, simple structure and wiring, and reducing the occupied space

Pending Publication Date: 2019-03-08
宁波富德能源有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Taking the EO reactor as an example, there are generally more than 30 temperature measuring points. If more than 30 holes are opened on the EO reactor and more than 30 casings are installed in the reactor, the structure of the reactor will inevitably be very abnormal. Complex, and more than 30 flange joints, the leakage points will undoubtedly increase, and the overall strength of the reactor will also be affected
Another way is to use multi-point thermocouples. At present, the commonly used multi-point thermocouple temperature measurement products at home and abroad usually package multiple armored temperature measurement cores in a metal protection tube. Although this method has a certain improvement in space , but the temperature measuring core cannot be in direct contact with the medium, the temperature response time is long, and the measurement results often have thermal conductivity errors
At the same time, the insulating fillers of these multi-point thermocouples are all made of magnesium oxide, which makes them unsuitable for EO reactors, because during the working process of EO reactors, the armor layer of thermocouples is eroded by air flow and friction of catalysts, which is easy to cause damage. The armor layer is damaged, and once the armor layer is damaged, the leakage of magnesia and the reaction of water vapor will cause the EO catalyst to harden and lose its activity, which will affect the reaction air flow and cause the reaction temperature to be distorted; if the magnesia leakage is serious, the insulation of the thermocouple performance will be greatly reduced, or even unusable

Method used

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Examples

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Embodiment 1

[0022] see Figure 1~2 , the embodiment of the present invention includes:

[0023] A multi-measuring point temperature sensor, comprising a metal armor layer 1, and ten even wires are evenly arranged on the inside of the metal armor layer 1, which are respectively five positive pole dual wires 21-25 and five negative pole dual wires 31 ~35, the ten even wires form five temperature measuring points 41~45 sequentially in the axial direction in the metal armor layer 1, and at each temperature measuring point there is one positive pole and one negative pole Wire welding, the five temperature measuring points 41-45 are evenly distributed along the axial direction of the metal armor layer 1, and the aluminum oxide insulating layer is passed between the ten even wires and between the even wires and the metal armor layer 1 5 isolation, the purity of the alumina insulation layer is 99.99%, the metal armor layer 1 is made of high hardness and good ductility stainless steel, and the th...

Embodiment 2

[0025] see Figure 3-4 , the embodiment of the present invention includes:

[0026] A multi-measuring-point temperature sensor, comprising a metal armor layer 1, five negative pole wires 31-35 are evenly arranged in the interior of the metal armor layer 1, and one positive pole wire is arranged at the center of the circle 2. Five temperature measuring points 41 to 45 are evenly arranged in the metal armor layer 1 along the axial direction, and each temperature measuring point has a negative pole wire connected to the positive pole wire 2 by welding, and the six pole wires Between the wires, even wires and the metal armor layer 1 are separated by an aluminum oxide insulating layer 5, the purity of the aluminum oxide insulating layer is 99.99%, and the metal armor layer 1 is made of stainless steel with high hardness and good ductility Made, the thickness of the metal armor layer 1 is 0.8mm.

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Abstract

The invention discloses a multi-measurement-point temperature sensor. The multi-measurement-point temperature sensor comprises metal armor layers, a plurality of thermo wires are arranged orderly in the metal armor layers, the multi-measurement-point temperature sensor is characterized in that the thermo wires are isolated through aluminum oxide insulating layers, the thermo wires and the metal armor layers are isolated through aluminum oxide insulating layers, the thermo wires form multiple temperature measurement points in the metal armor layers in the axial direction, further, the thermo wires comprise one positive thermo wire and the negative thermo wires of which the number is matched with that of the temperature measurement points, and the position, corresponding to one negative thermo wire, of each temperature measurement point is welded with the positive thermo wire. The multi-measurement-point temperature sensor has the advantages that an insulating filler of a thermocouple ismade from aluminum oxide, thereby being capable of overcoming the defects that an insulating material is leaked, the insulating performance is reduced, and the thermocouple detection is out of orderdue to the breakage of the armor layers; thermo wire arrangement is carried out through a mode of jointly using positive poles so that the number of the temperature measurement points can be further increased on the armor layers of the same caliber, and the structure and wiring of the thermocouple is simpler.

Description

technical field [0001] The invention relates to the technical field of temperature measuring elements, in particular to a multi-measuring point temperature sensor. Background technique [0002] With the development of the chemical and petroleum industries, the process control of the production process is becoming more and more refined, especially for the control of the temperature of the reactor used in the production process, it is often necessary to monitor the temperature of multiple points in the reactor. At present, the most commonly used temperature detection device on the market is a thermocouple, which is composed of two conductors or semiconductors with different components to form a closed loop. When the junction temperature is different, a thermal current is generated in the circuit. If there is a temperature difference between the measuring end of the thermocouple and the reference end, the display instrument will indicate the temperature value corresponding to ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01K7/02G01K1/02
CPCG01K7/02
Inventor 朱静怡武祥东姜涛方申军季兆臣朱纯进温小金蒋海青高鹏鲁云枫
Owner 宁波富德能源有限公司
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