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Wear particle monitoring system adopting electrification, rotational flow centrifugation, adsorption and adjacent capacitance

A monitoring system and capacitance technology, applied in the field of hydraulic system, can solve the problem of unsatisfactory sensor sensitivity, achieve the effect of optimal overall performance, increase dielectric constant, and increase particle concentration

Inactive Publication Date: 2016-09-07
SHAOXING UNIVERSITY
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

The distance between the excitation plate and the receiving plate of the capacitive sensor is limited by the diameter of the hydraulic pipe. Due to the relatively large diameter of the hydraulic pipe, the sensitivity of the sensor is not ideal.

Method used

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  • Wear particle monitoring system adopting electrification, rotational flow centrifugation, adsorption and adjacent capacitance
  • Wear particle monitoring system adopting electrification, rotational flow centrifugation, adsorption and adjacent capacitance
  • Wear particle monitoring system adopting electrification, rotational flow centrifugation, adsorption and adjacent capacitance

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Embodiment Construction

[0033] Please refer to the attached figure 1 to attach Figure 8As shown, the present invention is a wear particle monitoring system using electrification, cyclone centrifugation, adsorption and adjacent capacitors, which consists of a temperature control module 1, an electrification module 2, an electric field centrifugal module 3, a mechanical The module 5, the adjacent capacitive particle monitoring module 6, the degaussing module 8 and the ECU 10 are composed of several parts. The temperature control module 1 , electrification module 2 , electric field centrifugal module 3 , mechanical centrifugal module 4 , adsorption module 5 , adjacent capacitive particle monitoring module 6 and degaussing module 8 are connected in sequence.

[0034] One end of the temperature control module 1 is provided with an oil inlet 8 for feeding hydraulic oil into a device, which is composed of a heater, a cooler and a temperature sensor. The main purpose of the temperature control module 1 is...

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Abstract

The invention relates to a wear particle monitoring system adopting electrification, rotational flow centrifugation, adsorption and adjacent capacitance. A temperature control module, an electrification module, an electric field centrifugation module, a mechanical centrifugation module, an adsorption module, an adjacent capacitance particle monitoring module and a demagnetizing module of the system are sequentially connected. An oil liquid inlet is formed in one end of the temperature control module. The mechanical centrifugation module is a rotational flow centrifugation module. The adjacent capacitance sensor technology based on the capacitance edge effect is introduced, and wear particles are monitored without invasion or restriction. By means of the electrification module, the electric field centrifugation module and the mechanical centrifugation module, the wear particles in oil liquid are aggregated into large particles, move to the position close to the pipe wall and are adsorbed by the adsorption module, so that the intensity of monitoring signals output by an adjacent capacity sensor is improved. By means of the temperature control module and the adjacent capacitance sensor pole plate layer structure designed reasonably, noise is restrained, and the overall performance of a monitoring device of the adjacent capacitance sensor is optimized.

Description

【Technical field】 [0001] The invention relates to an on-line monitoring system for wear particles in hydraulic pipeline oil, in particular to a wear particle monitoring system using electrification, swirl centrifugation, adsorption and adjacent capacitors, and belongs to the technical field of hydraulic systems. 【Background technique】 [0002] The wear particles in the hydraulic system oil can not only cause abrasive wear of the kinematic pair, but also hinder the relative movement of the kinematic pair, resulting in malfunction of the control components. Statistics at home and abroad show that 70% of hydraulic machinery failures come from particle pollution of oil. Therefore, on-line monitoring of wear particles in oil has become one of the important ways to reduce wear and hydraulic system failures. [0003] Capacitive sensors are used in the pollution monitoring of machine oil because of their convenient fabrication and low cost. Patent Document 1 (Chinese Invention Pat...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01N15/00
CPCG01N15/00G01N2015/0019
Inventor 张华芳
Owner SHAOXING UNIVERSITY
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