Online oil abrasive particle imaging and counting sensor for airplane engine and manufacturing method

An aircraft engine, counting sensor technology, applied in instruments, scientific instruments, measuring devices, etc., can solve the problems of affecting detection, pressure loss, thin oil pipeline, etc., and achieve the effect of no false detection and no pressure loss.

Inactive Publication Date: 2016-05-11
TIANJIN UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] The disadvantages of the sensor are: 1. The particle size detection sensitivity is low <300 microns; 2. The shape of the abrasive particles cannot be detected; 3. When the oil flows, it is easy to cause the oil in the pipeline to be not full, and the sensor detects background signal changes, affecting Detection accuracy
[0006] The disadvantages of this sensor are: 1. The oil pipeline is thin, and full flow detection cannot be realized, and a small amount of large particles that suddenly appear cannot be guaranteed to be detected; and a small amount of large particle metal wear debris of 50 to 200 microns is caused by the fatigue of the surface layer of the friction pair. Flaking, severe sliding wear and shear wear, etc., can most directly reflect the abnormal fault information; 2. The shape of the abrasive

Method used

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  • Online oil abrasive particle imaging and counting sensor for airplane engine and manufacturing method
  • Online oil abrasive particle imaging and counting sensor for airplane engine and manufacturing method
  • Online oil abrasive particle imaging and counting sensor for airplane engine and manufacturing method

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Embodiment 1

[0040] see figure 1 (a), (b), (c), (d), an aircraft engine online oil wear imaging counting sensor, including: pipeline center (not shown in the figure, known to those skilled in the art). The sensor tube wall 2 is embedded in the center of the pipeline, and the sensor tube wall 2 is circular and concentric with the pipeline center; the sensor core 3 is embedded in the sensor tube wall 2, and a plurality of metal plates 1 are embedded in the sensor tube wall 2 (composed of Multi-pole plate), preferably a plurality of metal pole plates 1 are evenly distributed; the number of metal pole plates 1 is 6 to 14; the sensor tube wall 2 is provided with an interface part 4 and a metal lead 5.

[0041] Among them, the sensor tube wall 2 and the sensor inner core 3 are connected by single point or multiple points, and evenly distributed or non-uniformly distributed, so as to realize the online full flow detection of large flow rate, and can realize the passage and flow of large particles...

Embodiment 2

[0053] For the composite array plate sensor of the electrical tomography imaging system, the general design and manufacture method does not have the sensor inner core 3, and the metal plate 1 is fixed by bonding. The metal plate 1 cannot be processed to be consistent with the arc of the sensor tube wall 2, and the surface The shape with high finish has low dimensional accuracy and cannot meet the requirements of long-term high-temperature operation. According to the existing design and manufacturing methods, the manufactured sensors cannot achieve the consistency of parameter processing, nor can they meet the requirements of high temperature operation.

[0054] For this reason, the embodiment of the present invention adopts different technological methods——3D printing, a method combined with mold opening and injection molding for secondary processing. Among them, the 3D printing method is a new type of complex structure processing method, which has been maturely applied in dif...

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Abstract

The invention discloses an online oil abrasive particle imaging and counting sensor for an airplane engine and a manufacturing method. The online oil abrasive particle imaging and counting sensor comprises a pipeline center. The pipeline center is embedded into a sensor pipe wall. The sensor pipe wall is circular and concentric with the pipeline center. A sensor inner core is embedded into the sensor pipe wall. A plurality of metal electrode plates are embedded into the sensor pipe wall. The sensor pipe wall is provided with an interface part and a metal lead. The metal electrode plates are used for imaging so as to detect abrasive particles. The manufacturing method includes: performing 3D printing on metal materials to allow the metal materials to be formed into the metal electrode plates; using polymer insulating materials to form the sensor pipe wall and the sensor inner core through integral injection molding so as to obtain a formed body; machining the interface part on the basis of the formed body; using static spraying to manufacture an outer shielding metal layer on the outer wall of the formed body. The online oil abrasive particle imaging and counting sensor and the manufacturing method have the advantages that the structure of the sensor is improved, the 3D printing is used, detection reliability is increased, and abrasive particle imaging detection and quantitative abrasive particle counting are achieved.

Description

technical field [0001] The invention relates to the field of on-line oil wear imaging counting sensors, in particular to an on-line oil wear imaging counting sensor specially used for aircraft engines and a manufacturing method. Background technique [0002] On-line oil monitoring is an important method for early fault detection of mechanical equipment. The real-time oil analysis sensor is an oil analysis instrument. It detects the operation of mechanical equipment in real time by detecting the size, quantity, material and shape of abrasive particles in the oil, and timely predicts potential failures to avoid catastrophic damage or use. Equipment in normal operation reduces unnecessary maintenance, thereby increasing production value and profitability. Sudden wear failures of aircraft engines mainly produce abrasive particles with a typical size of 200 microns or more and multiple abrasive particles at the same time. Reliable and quantitative online wear particle imaging an...

Claims

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Application Information

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IPC IPC(8): G01N15/00G01N27/00
CPCG01N15/00G01N27/00
Inventor 孙衍山曾周末马闻博
Owner TIANJIN UNIV
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