Filtering device adopting working condition adaptive filtering, magnetization, adsorption and centrifuging

Abstract

The invention relates to a filter device adopting working condition self-adaptive filtering, magnetization, adsorption and centrifugation. The filter, U-shaped particle separation module, oil return cylinder and outer barrel are sequentially placed on the bottom plate; the filter and U-shaped particle separation Module connection; the U-shaped particle separation module includes a U-shaped tube, and the U-shaped tube is sequentially installed with a temperature control module, a magnetization module, a mechanical centrifugal module, an adsorption module, and a degaussing module; the U-shaped particle separation module and the oil return cylinder pass through An oil return tube is connected to the oil inlet pipe; the inner cylinder is placed in the outer barrel, which is installed on the end cover; the spiral flow channel is accommodated in the inner cylinder, and it is connected to the U-shaped particle separation module through an inner cylinder oil inlet pipe; The oil inlet pipe of the cylinder is located in the oil inlet pipe of the oil return cylinder, and extends into the center of the U-shaped particle separation module; the filter element is arranged on the inner wall of the inner cylinder. The invention has many advantages such as good filtering performance, high adaptability and integration, long service life and the like.

Description

【Technical field】 [0001] The invention relates to a hydraulic oil filter device, in particular to a filter device adopting working condition self-adaptive filtering, magnetization, adsorption and centrifugation, and belongs to the technical field of hydraulic equipment. 【Background technique】 [0002] Statistics at home and abroad show that about 70% to 85% of hydraulic system failures are caused by oil pollution. Solid particles are the most common and harmful pollutants in oil pollution. Hydraulic system failures caused by solid particle pollutants account for 70% of total pollution failures. Metal debris accounts for 20% to 70% of the particle pollutants in hydraulic system oil. Taking effective measures to filter out the solid particle pollutants in the oil is the key to the pollution control of the hydraulic system, and it is also a reliable guarantee for the safe operation of the system. [0003] Filters are key components of hydraulic systems to remove solid partic...

AI Technical Summary

Problems solved by technology

[0004] However, the high-pressure filter used in the existing hydraulic system has the following deficiencies: (1) various hydraulic components have different requirements for the cleanliness of the oil, and the particle sizes of the solid particles in the oil are also different. This requires the installation of many different types of filters at different positions in the hydraulic system, which brings about problems of cost and installation complexity; (2) The filter in the hydraulic system mainly adopts the filter cake filter method, and the filtrate is perpendicular to the The surface of the filter element flows, and the intercepted solid particles form a filter cake and gradually thicken, and the filtration speed gradually decreases until the filtrate stops flowing out, which reduces the service life of the filter element

Images