CN105889222A - Oil filtering method adopting work condition self-adaptive filtering, electrification, separation and adsorption - Google Patents

Abstract

The invention relates to an oil filtering method adopting work condition self-adaptive filtering, electrification, separation and adsorption. According to the oil filtering method, a filter is used for attenuating pressure/flow pulsation of hydraulic oil, and a work condition self-adaptive filter is adopted as the filter; a U-shaped particle separation module is used for achieving separation of solid particles so that the solid particles in oil liquid can move towards the pipe wall, the oil liquid flows back to an oil tank after entering an oil return barrel through an oil inlet pipe of the oil return barrel, oil liquid, containing a micro quantity of small-particle-size particles, at the center of a pipeline enters an inner barrel through an oil inlet pipe of the inner barrel to be subjected to high-precision filtering, and the service life of a filter element is prolonged; the oil liquid entering the oil inlet pipe of the inner barrel flows into a spiral flow channel of the inner barrel in a tangent inflow manner, the inner barrel wall is provided with the filter element, filter liquor is closely attached to the filter element to flow under the effect of centrifugal force, the filter liquor fast flows parallel to the surface of the filter element, and filtered hydraulic oil flows out to an outer barrel in the direction perpendicular to the surface of the filter element; and pollution particles deposited at the bottom of the inner barrel can be discharged to the oil return barrel regularly through an electronic control check valve, and therefore the service life of the filter element is prolonged.

Description

A kind of operating mode adaptive-filtering, the oil strain method electrifying, separate and adsorbing

[technical field]

The present invention relates to a kind of hydraulic oil filtering method, be specifically related to one operating mode adaptive-filtering, Electrification, the oil strain method separating and adsorbing, belong to technical field of hydraulic equipment.

[background technology]

Statistics both domestic and external show, the fault of hydraulic system about 70%～85% is due to oil Liquid pollution causes.Solid particle is then the pollutant the most universal in oil contamination, damaging effect is maximum. The hydraulic system fault caused by solid grain contamination accounts for the 70% of gross contamination fault.In hydraulic system In particulate pollutant in fluid, metal filings accounting is between 20%～70%.Adopt an effective measure Filter the solid grain contamination in fluid, be the key of Pollution Control in Hydraulic System, be also system peace The Reliable guarantee of row for the national games.

Filter is the key element that hydraulic system filters solid grain contamination.Solid in hydraulic oil Particulate pollutant, outside the precipitable a part of larger particles of oil removal box, filters mainly by oil-filtering apparatus. Especially high pressure filtering device, is mainly used to filter flow direction control valve and the hydraulic oil of hydraulic cylinder, to protect Protect the Hydraulic Elements of this kind of contamination resistance difference, therefore the cleannes of hydraulic oil are required higher.

But, the high pressure filter that existing hydraulic system uses has the disadvantage that (1) all kinds of liquid The cleannes of fluid are required different by pressure element, and the size of the solid particle in fluid is the most each Differ, need for this multiple dissimilar wave filter to be installed, thus at the diverse location of hydraulic system Bring cost and the problem installing complexity；(2) filter in hydraulic system mainly uses filter cake Filter type, during filtration, filtrate is perpendicular to filter element surface flowing, and trapped solid particle is formed Filter cake progressive additive, the rate of filtration is gradually reduced the most therewith until filtrate stops flowing out, and reduces The service life of filtering element.

Therefore, for solve above-mentioned technical problem, a kind of innovation of necessary offer use operating mode self adaptation The oil strain method filtering, electrify, separate and adsorbing, to overcome described defect of the prior art.

[summary of the invention]

For solving above-mentioned technical problem, it is an object of the invention to provide a kind of strainability good, adapt to Property and integration high, service life length with operating mode adaptive-filtering, the filter that electrifies, separate and adsorb Oil method.

For achieving the above object, the technical scheme that the present invention takes is: one operating mode adaptive-filtering, Electrification, the oil strain method that separates and adsorb, it uses a kind of oil-filtering apparatus, this device include base plate, Wave filter, U-shaped separation of particles module, oil returning tube, inner core, helical flow path, filter element, outer barrel and End cap；Wherein, described wave filter, U-shaped separation of particles module, oil returning tube, outer barrel are sequentially placed into the end On plate；Described wave filter includes that input pipe, shell, outlet tube, elastic thin-wall, plug-in type H type are filtered Ripple device and plug-in type cascaded H mode filter；Described input pipe is connected to one end of shell, itself and one Hydraulic oil inlet is docked；Described outlet tube is connected to the other end of shell, itself and U-shaped separation of particles mould Block docks；Described elastic thin-wall is installed in shell along the radial direction of shell；Described input pipe, outlet tube It is collectively forming a c-type cavity volume wave filter with elastic thin-wall；String is formed between described elastic thin-wall and shell Ally the communists cavity volume I, resonance series cavity volume II and the parallel resonance cavity volume of shaking；Described resonance series cavity volume I And separated by an elastic baffle between resonance series cavity volume II；The axial of described elastic thin-wall goes up uniformly Have some conical damping holes；Uniformly have some tapers in the axial direction of described elastic baffle and insert pipe, Pipe connection resonance series cavity volume I and resonance series cavity volume II is inserted in described taper；Described plug-in type H type Wave filter is positioned at parallel resonance cavity volume, and it is connected with conical damping hole；Described plug-in type cascaded H Mode filter is positioned at resonance series cavity volume I and resonance series cavity volume II, its also with conical damping hole phase Connection；Described plug-in type H mode filter and plug-in type cascaded H mode filter are axially symmetrical set, And form plug-in type connection in series-parallel H mode filter；Described U-shaped separation of particles module includes a U-tube, Electrification module, separation module, adsorption module and demagnetization module it is sequentially installed with in U-tube；Described U The top of type separation of particles module and oil returning tube is connected by an oil returning tube oil inlet pipe；Described inner core is placed in In outer barrel, if it is installed on end cap by a top board and bolt stem；Described helical flow path is contained in In inner core, connected by an inner core oil inlet pipe between itself and U-shaped separation of particles module；Described inner core enters Oil pipe is positioned at oil returning tube oil inlet pipe, and extends into the central authorities of U-shaped separation of particles module, and its diameter is little In oil returning tube oil inlet pipe diameter, and it is coaxially disposed with oil returning tube oil inlet pipe；Described filter element is arranged on inner core Inwall on, its precision is 1-5 micron；The bottom of said tub is provided with a hydraulic oil oil-out；

It comprises the steps:

1), the fluid in fluid pressure line passes through wave filter, height in filter attenuation hydraulic system, in, The fluctuation pressure of low-frequency range, and suppression flowed fluctuation；

2), backflow force feed enters the electrification module of U-shaped separation of particles module, makes the granule in fluid Material is charged, delivers to separation module afterwards；

3), the charged corpuscle in fluid is made to be polymerized to tube wall under the effect of external force by segregation apparatus, Adsorbent equipment is delivered in oil return afterwards；

4), by the magnetic polymeric microgranule in adsorption module absorption oil return, demagnetization mould is delivered in oil return afterwards Block；

5), magnetic particle magnetic is eliminated by demagnetization module；

6), the fluid of the most U-shaped separation of particles module near-wall is entered back by oil returning tube oil inlet pipe Being back to fuel tank after oil cylinder, the fluid of the pipeline center containing trace small particle microgranule is then entered by inner core Oil pipe enters inner core and carries out high-precision filtration；

7), the fluid carrying small particle microgranule flows into the helical flow path of inner core in the way of tangential influent stream, Fluid is close to filter core flow under the influence of centrifugal force, and carries out high-precision filtration；

8), the fluid after high-precision filtration enters urceolus, and by the hydraulic oil oil-out bottom urceolus Discharge.

The present invention by operating mode adaptive-filtering, the oil strain method that electrifies, separate and adsorb is further: The axis of described input pipe and outlet tube is the most on the same axis；The described wider place of conical damping hole opening Being positioned at resonance series cavity volume I and parallel resonance cavity volume, its taper angle is 10 °；Described taper is inserted The wider place of tube opening is positioned at resonance series cavity volume II, and its taper angle is 10 °；Pipe is inserted in described taper Mutually stagger with the position of conical damping hole；The inner side of described elastic thin-wall is provided with colloid damping layer； The internal layer of described colloid damping layer and outer layer are respectively outer layer elastic thin-wall and internal layer elastic thin-wall, outer layer Connected by some pillars are fixing between elastic thin-wall and internal layer elastic thin-wall；Described outer layer elastic thin-wall and It is filled with the pure water adding antifreezing agent in interlayer between internal layer elastic thin-wall, is suspended with many in pure water Hole silica gel；Described colloid damping layer is connected with shell near one end of outlet tube；Described colloid damping layer It is provided with a piston near one end of outlet tube.

The present invention by operating mode adaptive-filtering, the oil strain method that electrifies, separate and adsorb is further: Described electrification module includes some electrodes and an electrode controller；Described some electrodes are installed on U-shaped Guan Shang, it is respectively connecting to electrode controller.

The present invention by operating mode adaptive-filtering, the oil strain method that electrifies, separate and adsorb is further: Described separation module uses uniform magnetic field separation module, and this uniform magnetic field separation module includes aluminum matter pipe Road, two magnetic poles and magnetic pole controller；Wherein, said two magnetic pole is separately positioned on aluminum matter pipeline On, the opposite polarity of these two magnetic poles, and in being oppositely arranged；Said two magnetic pole is electrically connected with To magnetic pole controller.

The present invention by operating mode adaptive-filtering, the oil strain method that electrifies, separate and adsorb is further: Described separation module uses rotating excitation field separation module, and this rotating excitation field separation module includes aluminum matter pipe Road, iron shell, three-phase symmetric winding and three-phase symmetrical current module；Described three-phase symmetric winding It is wound on outside aluminum matter pipeline；Described iron shell is coated on aluminum matter pipeline；Described three-phase symmetrical current-mode Block connects described three-phase symmetric winding.

The present invention by operating mode adaptive-filtering, the oil strain method that electrifies, separate and adsorb is further: Described separation module uses helical pipe magnetic field separation module, and this helical pipe magnetic field separation module includes Aluminum matter helical pipe, solenoid and solenoid control circuit；Wherein, described aluminum matter helical pipe sets Put in solenoid；Described solenoid and solenoid control circuit are electrically connected with.

The present invention by operating mode adaptive-filtering, the oil strain method that electrifies, separate and adsorb is further: Described adsorption module uses homopolarity adjacent type absorbing ring, and this homopolarity adjacent type absorbing ring includes aluminium ring shape Pipeline, forward solenoid, reverse solenoid and irony magnetic conduction cap；Described forward solenoid is with reverse Solenoid is respectively arranged in aluminium ring shape pipeline, and both are connected with electric current in opposite direction so that forward Solenoid and reverse solenoid adjacent produce like pole；Described irony magnetic conduction cap is arranged in aluminium ring On the inwall of shape pipeline, it is positioned at forward solenoid and reverse solenoid adjacent and forward helical Pipe and the intermediate point of reverse solenoid axis.

The present invention by operating mode adaptive-filtering, the oil strain method that electrifies, separate and adsorb is further: Described adsorption module uses the homopolarity adjacent type absorbing ring of charged hammer, and the homopolarity of this charged hammer is adjacent Type absorbing ring include aluminium ring shape pipeline, forward solenoid, reverse solenoid, irony magnetic conduction cap, every Plate, electric shock hammer and electric magnet；Described forward solenoid and reverse solenoid are respectively arranged in aluminium ring In shape pipeline, both are connected with electric current in opposite direction so that forward solenoid and reverse solenoid are adjacent Place produces like pole；Described irony magnetic conduction cap is arranged on the inwall of aluminium ring shape pipeline, and it is positioned at In forward solenoid and reverse solenoid adjacent and forward solenoid and reverse solenoid axis Between point；Described dividing plate is between forward solenoid and reverse solenoid；Described electric shock hammer and electric magnet Between dividing plate；Described electric magnet connects and can promote electric shock hammer, makes electric shock hammer tap aluminium ring shape Inner-walls of duct.

The present invention by operating mode adaptive-filtering, the oil strain method that electrifies, separate and adsorb is further: The bottom of described oil returning tube is provided with an overflow valve, is provided with an automatically controlled set screw bottom this overflow valve；Institute Stating overflow valve and be provided with an oil drain out, this oil drain out is connected to a fuel tank by pipeline.

The present invention by operating mode adaptive-filtering, the oil strain method that electrifies, separate and adsorb is also: institute The bottom stating inner core is rounding mesa-shaped, and it is connected by an inner core oil exit pipe and oil returning tube, inner core oil extraction Pipe is provided with an automatically controlled check-valves；The center upright of described inner core is provided with a hollow cylinder, hollow cylinder Be arranged over pressure difference indicator, this pressure difference indicator is installed on end cap；Described inner core oil inlet pipe and The tangent connection of helical flow path.

Compared with prior art, there is advantages that

1. pulsed by the pressure/flow of filter attenuation hydraulic oil, make filter element not occur Vibration, to improve strainability；Hydraulic oil realizes dividing of solid particle in U-shaped separation of particles module From, make the solid particle in fluid to vessel wall motion, at U-shaped separation of particles module outlet, rich in The fluid of the near-wall of solid particle is back to fuel tank after entering oil returning tube by oil returning tube oil inlet pipe, The only fluid of the pipeline center containing trace small particle microgranule is then entered by inner core oil inlet pipe entrance inner core Row high-precision filtration, improves the service life of filter element, reduces filtering cost and complexity；Enter The fluid of inner core oil inlet pipe flows into the helical flow path of inner core in the way of tangential influent stream, and inner tube wall is filter Core, then filtrate is close to filter core flow under the influence of centrifugal force, and the surface that filtrate is parallel to filter element is quick Flowing, the hydraulic oil after filtration is then perpendicular to cartridge surface direction and flows out to urceolus, and this cross flows through The microgranule of cartridge surface is implemented to sweep stream effect by filter mode, it is suppressed that the increase of filter cake thickness, is deposited on Pollution granule bottom inner core regularly can be discharged to oil returning tube by automatically controlled check-valves, thus improves filter element Service life.

2. by controlling the temperature of hydraulic oil and making the particulate matter band in fluid to electrode applying voltage Electropolymerization, and promote colloidal particles decomposition to melt；Efficient absorption is formed by adsorption module；Utilize rotation Turn magnetic field " separated " and gather near-wall by the molecule in fluid, capture with adsorbent equipment Molecule；Avoid endangering Hydraulic Elements to residual particles demagnetization by degaussing gear, so that fluid Middle solid particle is gathered into bulky grain and moves to near-wall.

3. the generation of non-uniform magnetic-field that magnetization needs, need multipair forward and reverse coil to and by different greatly Little electric current, and current values can numeral setting online.

[accompanying drawing explanation]

Fig. 1 be the present invention with operating mode adaptive-filtering, the oil-filtering apparatus that electrifies, separate and adsorb Structural representation.

Fig. 2 is the structural representation of the wave filter in Fig. 1.

Fig. 3 is the profile in Fig. 1 along A-A.

Fig. 4 is plug-in type H mode filter schematic diagram in Fig. 3.

Fig. 5 is plug-in type cascaded H mode filter schematic diagram in Fig. 3.

Fig. 6 is plug-in type H mode filter and plug-in type cascaded H mode filter frequency characteristic constitutional diagram. Wherein, solid line is plug-in type cascaded H mode filter frequency characteristic.

Fig. 7 is plug-in type connection in series-parallel H mode filter frequency characteristic figure.

Fig. 8 is the structural representation of c-type cavity volume wave filter.

Fig. 9 is the cross sectional representation of elastic thin-wall.

Figure 10 is the Longitudinal cross section schematic of colloid damping layer.

Figure 11 is the schematic diagram of the U-shaped separation of particles module in Fig. 1.

Figure 12 is the structural representation of the electrification module in Figure 11.

Figure 13 be the separation module in Figure 11 be the structural representation of uniform magnetic field separation module.

Figure 14 be the separation module in Figure 11 be the structural representation of rotating excitation field separation module.

Figure 15 be the separation module in Figure 11 be the structural representation of helical pipe magnetic field separation module.

Figure 16 be the adsorption module in Figure 11 be the structural representation of homopolarity adjacent type absorbing ring.

Figure 17 be the adsorption module in Figure 11 be that the structure of the homopolarity adjacent type absorbing ring of charged hammer is shown It is intended to.

[detailed description of the invention]

Referring to shown in Figure of description 1 to accompanying drawing 17, the present invention is the filter of one operating mode self adaptation Ripple, the oil-filtering apparatus electrifying, separate and adsorbing, it is by base plate 6, wave filter 8, U-shaped separation of particles Module 3, oil returning tube 7, inner core 15, helical flow path 17, filter element 18, outer barrel 19 and end cap 25 Form etc. several parts.Wherein, described wave filter 8, U-shaped separation of particles module 2, oil returning tube 7, outer Bucket 19 is sequentially placed on base plate 6.

Described wave filter 8 for hydraulic oil is inputted, and can decay in hydraulic system high, medium and low The fluctuation pressure of frequency range, and suppression flowed fluctuation.Described wave filter 8 by input pipe 81, shell 89, Outlet tube 811, elastic thin-wall 87, plug-in type H mode filter 812 and the filter of plug-in type cascaded H type Several parts compositions such as ripple device 813.

Wherein, described input pipe 81 is connected to one end of shell 89, and itself and a hydraulic oil inlet 1 are right Connect；Described outlet tube 811 is connected to the other end of shell 89, itself and U-shaped separation of particles module 3 Docking.Described elastic thin-wall 87 is installed in shell 89 along the radial direction of shell.Described input pipe 81 With the axis of outlet tube 811 the most on the same axis, the filter effect of more than 10% can so be improved.

Described input pipe 81, outlet tube 811 and elastic thin-wall 87 are collectively forming a c-type cavity volume filtering Device, thus hydraulic system high frequency pressure pulsations of decaying.The wave filter obtained after processing by lumped-parameter method Transmission coefficient is:

$\mathrm{\γ}=\frac{1}{1+{(\frac{2\mathrm{\π}f}{Z}\·\frac{S_V{L}_V}{S_{I}a})}^2}$

Velocity of sound L in a medium_VC-type cavity volume length S_VC-type cavity volume volume Z characteristic Impedance

γ transmission coefficient f pressure oscillation frequency S_IInput pipe cross-sectional area.

From above formula, when the pressure pulse wave of different frequency is by this wave filter, transmission coefficient is with frequency Rate and different.Frequency is the highest, then transmission coefficient is the least, and this shows that the pressure pulse wave of high frequency is passing through Decay the most severe during wave filter, thus serve the effect eliminating high frequency pressure pulsations.

The design principle of described c-type cavity volume wave filter is as follows: when in pipeline, the fluctuating frequency of pressure is higher, The pressure of fluctuation acts on convection cell on fluid and produces pinch effect.When the flow of change passes through input pipe During 81 entrance c-type cavity volume, liquid stream exceedes average discharge, and the cavity volume of expansion can absorb unnecessary liquid stream, And release liquid stream when less than average discharge, thus absorption pressure pulsation energy.

Described elastic thin-wall 87 weakens hydraulic system medium-high frequency pressure fluctuation by being forced to mechanical vibration. The elastic thin-wall natural frequency obtained after processing by lumped-parameter method is:

$f_m=\frac{k^{2}h}{2{\mathrm{\πR}}^2}\·\sqrt{\frac{E}{12\mathrm{\ρ}(1+\mathrm{\η})(1-{\mathrm{\μ}}^2)}}$

K elastic thin-walled structures coefficient h elastic thin-wall thickness R elastic thin-wall radius

The mass density of the Young's modulus ρ elastic thin-wall of E elastic thin-wall

The Poisson's ratio of the current-carrying factor mu elastic thin-wall of η elastic thin-wall.

Substitute into actual parameter, above formula is carried out simulation analysis it is found that elastic thin-wall 87 intrinsic Frequency is generally high than the natural frequency of H mode filter, and its attenuation band is also wide than H mode filter. In relatively wide frequency band range, elastic thin-wall has good attenuating to pressure fluctuation.With Time, the elastic thin-wall radius in the filter construction of the present invention is bigger and relatively thin, and its natural frequency is more leaned on Nearly Mid Frequency, can realize the effective attenuation to the medium-high frequency pressure fluctuation in hydraulic system.

The design principle of described elastic thin-wall 87 is as follows: when producing intermediate frequency pressure fluctuation in pipeline, c-type Cavity volume is more weak to the damping capacity of pressure oscillation, flows into the periodically pulsing pressure of wave filter c-type cavity volume Continuous action is on the inside and outside wall of elastic thin-wall 87, and elastic thin-wall 87 does week by the frequency of fluctuation pressure Phase property is vibrated, and this forced vibration consumes the pressure fluctuation energy of fluid, thus realizes Mid Frequency pressure Filtering.From the principle of virtual work, elastic thin-wall consumes the ability of fluid pulsation pressure energy and is forced to it Potential energy and kinetic energy sum during vibration are directly related, in order to improve Mid Frequency filtering performance, elastic thin-wall Radial design be much larger than pipe radius, and the thickness of thin-walled is less, and representative value is less than 0.1mm.

Further, between described elastic thin-wall 87 and shell 89 formed resonance series cavity volume I84, Resonance series cavity volume II83 and parallel resonance cavity volume 85, described cavity volume 83,84,85 is across whole Wave filter, it is hereby achieved that bigger resonance cavity volume volume, strengthens attenuating.Described series connection is altogether Shake and separated by an elastic baffle 810 between cavity volume I84 and resonance series cavity volume II5.Described elasticity Uniformly having some conical damping holes 86 in the axial direction of thin-walled 87, described conical damping hole 86 opening is relatively Wide place is positioned at resonance series cavity volume I84 and parallel resonance cavity volume 85, and its taper angle is 10 °.Institute Stating and uniformly have some tapers insertion pipe 82 in the axial direction of elastic baffle 810, pipe is inserted in described taper 82 connection resonance series cavity volume I84 and resonance series cavity volume II83.Pipe 82 opening is inserted in described taper Wider place is positioned at resonance series cavity volume II83, and its taper angle is 10 °, and pipe 82 is inserted in described taper Mutually stagger with the position of conical damping hole 86.

Described plug-in type H mode filter 812 is positioned at parallel resonance cavity volume 85, and itself and taper damp Hole 86 is connected.The wave filter natural angular frequency obtained after processing by lumped-parameter method is:

$\begin{array}{cc}{\mathrm{\ω}}_r=a\sqrt{\frac{S}{L(V-LS)}}& (rad/s)\end{array}---\left(1\right)$

Velocity of sound L damping hole long S damping hole cross-sectional area V parallel resonance in a medium Cavity volume volume.

Described plug-in type cascaded H mode filter 813 is positioned at resonance series cavity volume I84 and resonance series is held In the II83 of chamber, it is also connected with conical damping hole 86.After processing by lumped-parameter method, wave filter Two natural angular frequencies be:

${\mathrm{\ω}}_1=\frac{\sqrt{\mathrm{\π}}a}{\sqrt{2}\sqrt{k_1+k_2+\sqrt{{\[k_1-k_2\]}^2+\frac{4{(V_4-\frac{1}{4}{{\mathrm{\πd}}_3}^2{l}_3)}^2{l}_1{l}_3}{d_1^2{d}_3^2}}}}---\left(2\right)$

${\mathrm{\ω}}_2=\frac{\sqrt{\mathrm{\π}}a}{\sqrt{2}\sqrt{k_1+k_2-\sqrt{{\[k_1-k_2\]}^2+\frac{4{(V_4-\frac{1}{4}{{\mathrm{\πd}}_3}^2{l}_3)}^2{l}_1{l}_3}{d_1^2{d}_3^2}}}}---\left(3\right)$

Wherein:

$k_1=\frac{l_1(V_2+V_4-\frac{1}{4}{{\mathrm{\πd}}_1}^2{l}_1-\frac{1}{4}{{\mathrm{\πd}}_3}^2{l}_3)}{{d_1}^2}$

$k_2=\frac{(V_4-\frac{1}{4}{{\mathrm{\πd}}_3}^2{l}_3)l_3}{{d_3}^2}$

Velocity of sound l in a medium₁The long d of damping hole₁Damping hole diameter l₃Insert pipe range

d₃Insert pipe diameter V₂Resonance series cavity volume 1 volume V₄Resonance series cavity volume 2 volume.

Described plug-in type H mode filter 812 and plug-in type cascaded H mode filter 813 are the most symmetrically Arrange, and form plug-in type connection in series-parallel H mode filter, for broadening frequency filtering scope and make entirety More compact structure.The multiple plug-in type connection in series-parallel H mode filters of the present invention circumferentially interface distributions (figure In only depict 2), separate with dividing plate 820 each other.

By Fig. 6 plug-in type H mode filter and plug-in type cascaded H mode filter frequency characteristic and formula (1) (2) (3) all can find, plug-in type cascaded H mode filter has 2 natural angular frequencies, At crest, filter effect is preferable, does not the most substantially have filter effect at trough；Plug-in type H type filters Device has 1 natural angular frequency, and at crest, filter effect is preferable equally, does not the most substantially have at trough There is filter effect；Select suitable filter parameter, make the natural angular frequency of plug-in type H mode filter Just fall between 2 natural angular frequencies of plug-in type cascaded H mode filter, as it is shown in fig. 7, both The natural reonant frequency peak value of 3 next-door neighbours is defined, in this frequency range in certain frequency range In, no matter the fluctuating frequency of pressure is at crest or all can guarantee that preferable filter effect at trough. The bank of filters that multiple plug-in type connection in series-parallel H mode filters are constituted both can cover whole medium and low frequency section, real The entire spectrum filtering of existing medium and low frequency section.

Further, the inner side of described elastic thin-wall 87 is provided with colloid damping layer 88.Described colloid The internal layer of damping layer 88 and outer layer are respectively outer layer elastic thin-wall 871 and internal layer elastic thin-wall 872, outward Connected by some pillars 814 are fixing between layer elastic thin-wall 871 and internal layer elastic thin-wall 872.Outer layer The pure water adding antifreezing agent it is filled with in interlayer between elastic thin-wall 871 and internal layer elastic thin-wall 872 816, it is suspended with Bio-sil 815 in pure water 816.Described colloid damping layer 88 is near outlet tube One end of 811 is connected with shell 89；Described colloid damping layer 88 is near one end of outlet tube 811 also It is provided with a piston 817.

Due to outer layer elastic thin-wall 871 with internal layer elastic thin-wall 872 spacing is the least and is consolidated by pillar 814 Fixed connection, when pressure fluctuation acts perpendicularly to thin-walled, inside and outside wall produces and is close to consistent deformation, glue Body damping layer thickness is kept approximately constant, and pressure fluctuation is not had damping action；Colloid damping layer 88 The flow pulsation in 817 sensation level directions of piston, when flow pulsation strengthens, piston 817 pressurized Making colloid damping layer shrink, squeezing action makes the water in colloid damping layer 88 logical by nanoscale conveying Road enters micron order central void；When flow pulsation weakens, piston 817 is by back-pressure, and now colloid hinders Buddhist nun's layer expands, and the water in colloid damping layer is discharged through passage from central void.In the process, due to The mechanics effect of silica gel 815 microchannel sorption, the roughness effect of channel surface molecular scale and chemistry are non- All mass effects, piston is followed colloid damping layer and is shunk and do " gas-liquid-solid " border in expansion process Interfactial work, thus flow systolic implementation is decayed, its substantially parallel R mode filter.Should Wave filter is relative to the advantage of general liquid condenser: it is by " gas-liquid-solid " border The mode of interfactial work decays flow pulsation, can absorb a large amount of machinery in the case of not producing heat Can, and energy expenditure do not relies on piston speed, extinction efficiency is obviously improved.

Described wave filter can also the pulsation decay of solid line operating mode self-adaptive pressure.When hydraulic system working conditions change Time, both executive component stopped suddenly or ran, and when the opening of valve changes, can cause pipe-line system Characteristic impedance undergo mutation, so that former pipeline pressure is in time with the curve of change in location the most therewith Change, then the position of pressure peak also changes.Owing to the axial length of the wave filter of the present invention sets It is calculated as more than system main pressure pulsation wavelength, and the plug-in type connection in series-parallel H mode filter group of wave filter Cavity volume length, the length of c-type cavity volume wave filter and the length of elastic thin-wall 87 and wave filter axis long Spend equal, it is ensured that pressure peak position is constantly in the effective range of wave filter；And taper Damping hole 86 is opened on elastic thin-wall 87, is uniformly distributed in the axial direction, at elastic baffle 810 Uniformly having the taper insertion pipe 82 of multiple identical parameters on Zhou Xiang, conical damping hole 86 and taper are inserted Enter pipe 82 position mutually to stagger so that pressure peak change in location to the performance of wave filter almost without Impact, it is achieved thereby that operating mode adaptive-filtering function.In view of three kinds of filter structure axial dimensions and Wave filter is suitable, and this bigger size also ensure that hydraulic filter possesses stronger pressure fluctuation and declines Subtract ability.

The method that above-mentioned wave filter carries out hydraulic pulsation filtering is as follows:

1), hydraulic fluid enters c-type cavity volume wave filter by input pipe, and it is unnecessary that the cavity volume of expansion absorbs Liquid stream, completes the filtering of high frequency pressure pulsations；

2), by elastic thin-wall 87 forced vibration, the pressure fluctuation energy of fluid is consumed, in completing The filtering of pressure fluctuation frequently；

3), by plug-in type connection in series-parallel H mode filter group, pipe is inserted by conical damping hole, taper Produce resonance with fluid, consume pulsation energy, complete the filtering of low frequency pulsation；

4), the axial length of wave filter is designed as more than hydraulic system main pressure pulsation wavelength, and Plug-in type connection in series-parallel H mode filter length, c-type cavity volume filter length and elastic thin-wall 87 length Equal with filter length, make pressure peak position be constantly in the effective range of wave filter, real The filtering of pressure fluctuation when existing system condition changes.

Described U-shaped separation of particles module 3 includes a U-tube 31, and U-tube 31 is sequentially installed with Electrification module 32, separation module 33, adsorption module 34 and demagnetization module 35.

Described electrification module 32 makes the metallic particles material in fluid charged, and it is by some electrodes 321 And one electrode controller 322 form.Described some electrodes 321 are installed in U-tube 31, its It is respectively connecting to electrode controller 252.Described electrode controller 322 is electrically connected with to be executed to electrode 321 Making alive, makes the particulate matter in fluid charged.

Described separation module 33 make particle charge that quality is bigger poly-be incorporated under centrifugal action get rid of to Cavity wall, it can use uniform magnetic field separation module, rotating excitation field separation module or helical pipe magnetic field to divide From module.

When described separation module 33 uses uniform magnetic field separation module, it is by 331, two, aluminum matter pipeline Magnetic pole 332 and magnetic pole controller 333 form.Wherein, said two magnetic pole 332 is separately positioned on On aluminum matter pipeline 331, the opposite polarity of these two magnetic poles 332, and in being oppositely arranged.Said two Magnetic pole 332 is respectively and electrically connected on magnetic pole controller 333.

The design principle of described uniform magnetic field separation module 33 is as follows: charged particle flows into speed V Uniform magnetic field separation module 33, two magnetic poles 332 of uniform magnetic field separation module 33 produce and speed The uniform magnetic field that V direction is vertical, according to left hand rule, then charged particle is at uniform magnetic field separation module By being perpendicular to acting on of the Loulun magnetism of velocity attitude and magnetic direction in 33, this power does not change charged The speed of granule, it only changes the direction of motion of charged particle, makes charged particle under this force To the vessel wall motion of aluminum matter pipeline 331, so that the granule in fluid " separates " out from fluid, Assemble to tube wall, it is simple to subsequent adsorbtion captures.Owing to fluid has certain viscosity, granule is to tube wall Motor process is also acted on by viscous drag.In order to ensure separating effect, need to regulate magnetic field strong Degree B makes the granule of distance tube wall farthest to move at tube wall within the action time of separation module, Quantitative analysis is as follows:

Assuming that particle mass is m, speed is v, and magnetic field intensity is B, and carried charge is q, separation module A diameter of D, a length of L, then:

Acting on the Loulun magnetism on charged particle is

F_l=qvB

The viscous drag that charged particle is subject to is

F_d=6 π η r v

Charged of the radius v of η hydraulic pressure oil viscosity r charged particle Grain movement velocity

It not general, it is assumed that the granule in fluid has reached stable state when entering separation module, the most charged Granule can be approximated by the time of separation module and represent with following formula

$t_1=\frac{L}{v}$

The charged particle of distance tube wall farthest moves to the time t at tube wall₂Can be solved by following formula

$D=\frac{mg}{qB-6\mathrm{\π}\mathrm{\η}r}t-{\left(\frac{mg}{qB-6\mathrm{\π}\mathrm{\η}r}\right)}^2(1-e^{-\frac{qB-6\mathrm{\π}\mathrm{\η}r}{m}t})$

Regulation B so that t₁>t₂, i.e. can reach separating effect.

When described separation module 33 uses rotating excitation field separation module, it is by aluminum matter pipeline 331, irony The parts compositions such as shell 334, three-phase symmetric winding 335 and three-phase symmetrical current module 336.Institute State three-phase symmetric winding 335 to be wound on outside aluminum matter pipeline 331.Described iron shell 334 is coated on aluminum matter On pipeline 335.Described three-phase symmetrical current module 336 connects described three-phase symmetric winding 335.

The design principle of described rotating excitation field separation module 33 is as follows: charged particle flows into speed V Rotating excitation field separation module 33, three-phase symmetrical current module 336 makes to flow through in three-phase symmetric winding 335 Three-phase symmetrical electric current, this electric current produces rotating excitation field in aluminum matter pipeline 331, and charged particle is rotating By being perpendicular to acting on of the Loulun magnetism of velocity attitude and magnetic direction under the action of a magnetic field, this power does not changes Becoming the speed of charged particle, it only changes the direction of motion of charged particle, makes charged particle in this power Spirally advance under effect, and to vessel wall motion.Reasonable adjusting magnetic field intensity can make in fluid Granule " separates " out from fluid, is gathered in near-wall, it is simple to subsequent adsorbtion captures.Due to Fluid has certain viscosity, and granule is also acted on by viscous drag during vessel wall motion.For Guarantee separating effect, need to make the microgranule on aluminum matter pipeline 331 axis can be in the effect of separation module Moving in time at tube wall, quantitative analysis is as follows:

Assuming that particle mass is m, speed is v, and magnetic field intensity is B, and carried charge is q, separation module A diameter of D, a length of L, then:

Acting on the Loulun magnetism on charged particle is

F_l=qvB

The viscous drag that charged particle is subject to is

F_d=6 π η r v

Charged of the radius v of η hydraulic pressure oil viscosity r charged particle Grain movement velocity

Assuming that the granule in fluid has reached stable state when entering separation module, then charged particle is by separating The time of module can approximate and represent with following formula

$t_1=\frac{L}{v}$

Charged particle on conduit axis moves to the time t at tube wall₂Can be solved by following formula

$\frac{D}{2}=\frac{mg}{qB-6\mathrm{\π}\mathrm{\η}r}t-{\left(\frac{mg}{qB-6\mathrm{\π}\mathrm{\η}r}\right)}^2(1-e^{-\frac{qB-6\mathrm{\π}\mathrm{\η}r}{m}t})$

Regulation B so that t₁>t₂, i.e. can reach separating effect.

When described separation module 33 uses helical pipe magnetic field separation module, it is by aluminum matter helical pipe 338, solenoid 339 and solenoid control circuit 336 form.Wherein, described aluminum matter serpentine pipe Road 338 is arranged in solenoid 339.Described solenoid 339 and solenoid control circuit 336 are electrical Connect.

The design principle of described helical pipe magnetic field separation module 33 is as follows: carry the oil of charged particle Liquid advances along aluminum matter helical pipe 338, thus produces at pipeline exit and have certain spin direction Eddy flow, the charged particle of heavier mass rotates along with fluid, produces under the influence of centrifugal force to tube wall Radial motion；Simultaneously as the Way in of aluminum matter helical pipe 338 and energization solenoid 339 Axial magnetic field direction vertical, enter the charged particle of aluminum matter helical pipe 338 by Lip river with speed v The effect of logical sequence magnetic force, direction is perpendicular to magnetic direction and the Way in of aluminum matter helical pipe 338.Lip river Logical sequence magnetic force makes charged particle spin in pipeline forward travel, due to entering of aluminum matter helical pipe 338 Mouthful direction and magnetic direction are close to vertical, and charged particle mainly rotates in a circumferential direction motion, and fluid is the most not Impacted, thus realize granule " separation " from fluid, in order to realize the absorption to granule.For Ensure " separation " effect, need to make the microgranule on aluminum matter conduit axis can be when the effect of separation module In move at tube wall, quantitative analysis is as follows:

Assuming that particle mass is m, speed is v, and carried charge is q, a diameter of D of aluminum matter helical pipe, The number of turn of aluminum matter helical pipe is n, the Way in of aluminum matter helical pipe and energization solenoid axial The angle of magnetic direction is θ, and the solenoid number of turn is N, and electric current is I, and magnetic field intensity is B, Vacuum Magnetic Conductance is μ₀, then:

Acting on the Loulun magnetism on charged particle is

F_l=qvB

The viscous drag that charged particle is subject to is

F_d=6 π η r v

Charged of the radius v of η hydraulic pressure oil viscosity r charged particle Grain movement velocity

Charged particle can be approximated by the time of separation module and represent with following formula

$t_1=\frac{qBnD}{2\mathrm{\π}mvcos\mathrm{\θ}}$

Charged particle on conduit axis moves to the time t at tube wall₂Can be solved by following formula

$\frac{D}{2}=vsin\mathrm{\θ}\frac{m}{qB+6\mathrm{\π}\mathrm{\η}r}(1-e^{-\frac{qB+6\mathrm{\π}\mathrm{\η}r}{m}t})$

Magnetic field intensity within solenoid can be approximately constant

$I=\frac{B}{\mathrm{\μ}N}$

Regulation I so that t₁>t₂, i.e. can reach separating effect.

The described adsorption module 34 big microgranule of magnetic polymeric after adsorbing the separation of separated module 33, It can use homopolarity adjacent type absorbing ring, this homopolarity adjacent type absorbing ring by aluminium ring shape pipeline 341, The parts compositions such as forward solenoid 342, reverse solenoid 343 and irony magnetic conduction cap 344.Wherein, Described forward solenoid 342 and reverse solenoid 343 are respectively arranged in aluminium ring shape pipeline 341, and two Person is connected with electric current in opposite direction so that forward solenoid 342 and reverse solenoid 343 adjacent produce Raw like pole.Described irony magnetic conduction cap 344 is arranged on the inwall of aluminium ring shape pipeline 341, its It is positioned at forward solenoid 342 and reverse solenoid 343 adjacent and forward solenoid 342 and anti- Intermediate point to solenoid 343 axis.

The design principle of described homopolarity adjacent type absorbing ring is as follows: energising forward solenoid 342, reversely Solenoid 343, adjacent forward solenoid 342, reverse solenoid 343 are connected with electricity in opposite direction Stream so that forward solenoid 342, reverse solenoid 343 adjacent produce like pole；Meanwhile, Aluminium ring shape pipeline 341 can improve magnetic circuit, strengthens the magnetic field intensity at inner-walls of duct, strengthens irony The magnetic conduction cap 344 capture absorbability to granule.Each forward solenoid 342, reverse solenoid 343 Electric current can be different with concentration and change, to obtain optimal adsorption performance according to the size of granule.

Further, the homopolarity adjacent type absorbing ring that described adsorption module 34 may be used without charged hammer, The homopolarity adjacent type absorbing ring of this charged hammer by aluminium ring shape pipeline 341, forward solenoid 342, Reverse solenoid 343, irony magnetic conduction cap 344, dividing plate 345, electric shock hammer 346 and electric magnet 347 Form Deng parts.Wherein, described forward solenoid 342 and reverse solenoid 343 are respectively arranged in aluminum Matter circulating line 341, both are connected with electric current in opposite direction so that forward solenoid 342 is with reverse Solenoid 343 adjacent produces like pole.Described irony magnetic conduction cap 344 is arranged in aluminium ring shape pipe On the inwall in road 341, its be positioned at forward solenoid 342 and reverse solenoid 343 adjacent and Forward solenoid 342 and the intermediate point of reverse solenoid 343 axis.Described electric shock hammer 346 and electromagnetism Ferrum 347 is between dividing plate 345.Described electric magnet 347 connects and can promote electric shock hammer 346, makes Electric shock hammer 346 percussion aluminium ring shape pipeline 342 inwall.

The design principle of the homopolarity adjacent type absorbing ring of described charged hammer is as follows: energising forward solenoid 342, reverse solenoid 343, adjacent forward solenoid 342, reverse solenoid 343 are connected with direction Contrary electric current so that forward solenoid 342, reverse solenoid 343 adjacent produce like pole； Meanwhile, aluminium ring shape pipeline 341 can improve magnetic circuit, strengthens the magnetic field intensity at inner-walls of duct, increases The strong irony magnetic conduction cap 344 capture absorbability to granule.Each forward solenoid 342, reverse helical Pipe 343 electric current can be different with concentration and change, to obtain best adsorption according to the size of granule Energy.And by the setting of electric shock hammer 346, prevent granule bulk deposition at irony magnetic conduction cap 344, Affect adsorption effect.Now, controlled in electric shock hammer 346 percussion pipeline 341 by electric magnet 347 Wall so that adsorbed granule scatter to both sides.Meanwhile, when cleaning pipeline 341, electric shock hammer The percussion of 346 can also improve cleaning performance.

Described adsorption module 34 is designed to U-shaped, and when fluid enters U-shaped absorption pipeline, granule exists Gravity, centrifugal force effect under, to side, tube wall moves, and plus magnetic field force effect, moves radially Speed is accelerated, and the efficiency of granular absorption is improved；When fluid leaves the rising of U-shaped absorption pipeline, Gravity and magnetic field force make a concerted effort so that granule diagonally under direction motion, when extending numerical density Between, improve the efficiency of granular absorption.

Described demagnetization module 35 gives magnetized particles demagnetization, prevents residual magnetism microgranule from being entered by oil returning tube Oil pipe enters hydraulic circuit, and sensitive to pollution Hydraulic Elements cause damage.

An oil returning tube oil inlet pipe 22 is passed through in the top of described U-shaped separation of particles module 3 and oil returning tube 7 Connect；By U-shaped separation of particles module 3 process after, the fluid of U-tube 31 near-wall rich in Aggregated particles, is back to fuel tank after entering oil returning tube 7 by oil returning tube oil inlet pipe 22.

The bottom of described oil returning tube 7 is provided with an overflow valve 8, is provided with an automatically controlled tune bottom this overflow valve 8 Joint screw 9；Described overflow valve 8 is provided with an oil drain out 10, and this oil drain out 10 is by pipeline 20 even It is connected to a fuel tank 11.

Described inner core 15 is placed in outer barrel 19, if it is installed by a top board 13 and bolt stem 21 On end cap 25.Described helical flow path 17 is contained in inner core 15, itself and U-shaped separation of particles mould Connected by an inner core oil inlet pipe 12 between block 3, specifically, described inner core oil inlet pipe 12 and spiral shell The tangent connection in eddy flow road 17.The fluid of the U-tube 31 pipeline center only small particle microgranule Han trace is logical Cross inner core oil inlet pipe 12 to enter inner core 15 and realize high-precision filtration, thus realize solid particle and separate. Further, described inner core oil inlet pipe 12 is positioned at oil returning tube oil inlet pipe 22, and extends into U-shaped micro- The central authorities of grain separation module 3, its diameter is less than oil returning tube oil inlet pipe 22 diameter, and enters with oil returning tube Oil pipe 22 is coaxially disposed.

Further, the bottom of described inner core 15 is rounding mesa-shaped, and it passes through an inner core oil exit pipe 23 Connecting with oil returning tube 7, inner core oil exit pipe 23 is provided with an automatically controlled check-valves 24.Described inner core 15 Center upright is provided with a hollow cylinder 16, hollow cylinder 16 be arranged over pressure difference indicator 14, should Pressure difference indicator 14 is installed on end cap 25.

Described filter element 18 is arranged on the inwall of inner core 15, and its precision is 1-5 micron.

The bottom of said tub 19 is provided with a hydraulic oil oil-out 5, is incited somebody to action by hydraulic oil oil-out 5 The hydraulic oil filtered is discharged.

In the present invention, due to U-shaped separation of particles module 3, solid particle separation of polymeric in fluid is made With, in the fluid in U-shaped separation of particles module 3 exit, the fluid at the center only small particle Han trace Microgranule, this part fluid is flowed into inner core 15 from inner core oil inlet pipe 12 and carries out high-precision filtration；And manage Fluid near wall is rich in aggregated particles, and this part fluid enters oil return by oil returning tube oil inlet pipe 22 Cylinder 7, then flow back to fuel tank 11 through the oil drain out 10 of overflow valve 8, thus realize solid particle by particle Footpath shunting filtering.Herein, oil returning tube 7 and overflow valve 8 serve aforesaid macrofiltration, thus save Save filter number, reduce system cost and complexity.The automatically controlled set screw 9 of overflow valve 8 For regulating oil pressure relief, its pressure is adjusted to slightly below pressure at filtering outlet, to ensure inner core 15 filtering traffics.

It addition, traditional filter mainly uses cake filtration mode, during filtration, filtrate is perpendicular to filter Element surface flows, and trapped solid particle forms filter cake progressive additive, and the rate of filtration is the most therewith It is gradually reduced, until filtrate stops flowing out, reduces the service life of filter element.In this present invention In, carry in the filtrate of small particle microgranule flows in the way of tangential influent stream from inner core oil inlet pipe 12 The helical flow path 17 of cylinder 15, inner core 15 wall of helical duct 17 side is high-precision filter element 18, filter Liquid is close to filter element 18 surface under the influence of centrifugal force, and filtrate is parallel to the surface of filter element 18 and quickly flows Dynamic, the hydraulic oil after filtration is then perpendicular to filter element 18 surface direction and flows out to urceolus 19, the two stream Dynamic direction is orthogonal staggered, therefore is called cross flow and filters.The quickly flowing of filtrate is to being gathered in The microgranule on filter element 18 surface is applied with shearing and sweeps stream effect, thus inhibits the increase of filter cake thickness, Making rate of filtration near constant, filter pressure also will not raise with the passing of time, making of filter element With the life-span thus increase substantially.Along with the accumulation of filtration time, it is deposited at the bottom of inner core 15 inverted round stage The pollution granule in portion is stepped up, and the rate of filtration slowly declines, unfiltered filtrate edge in inner core 15 The hollow cylinder 16 at center rises, and now, pressure difference indicator 14 works, and monitors the change of its pressure, That is the stopping state of filter element 18 bottom inner core 15, if exceeding threshold value, then regulate automatically controlled set screw 9 reduce oil pressure relief, and open check-valves 24 simultaneously, make bottom inner core 15 containing more pollution granule Filtrate under differential pressure action, be discharged to oil returning tube 7 by inner core oil exit pipe 23, it is to avoid bottom filter element 18 blockage deteriorate, thus extend filter element 18 service life.

Use above-mentioned oil filter that backflow is pressed with the processing step of process as follows:

1), the fluid in fluid pressure line pass through wave filter 8, wave filter 8 decay the height in hydraulic system, In, the fluctuation pressure of low-frequency range, and suppression flowed fluctuation；

2), backflow force feed enters the electrification module 32 of U-shaped separation of particles module 3, makes in fluid Particulate matter is charged, delivers to separation module 33 afterwards；

3), the charged corpuscle in fluid is made to gather to tube wall under the effect of external force by segregation apparatus 33 Closing, adsorbent equipment 34 is delivered in oil return afterwards；

4), being adsorbed the magnetic polymeric microgranule in oil return by adsorption module 34, oil return afterwards is delivered to disappear Magnetic module 35；

5), magnetic particle magnetic is eliminated by demagnetization module 35；

6), the fluid of the most U-shaped separation of particles module 3 near-wall passes through oil returning tube oil inlet pipe 22 Being back to fuel tank after entering oil returning tube 7, the fluid of the pipeline center containing trace small particle microgranule then leads to Cross inner core oil inlet pipe 12 to enter inner core 15 and carry out high-precision filtration；

7) fluid, carrying small particle microgranule flows into the spiral flow of inner core 15 in the way of tangential influent stream Road 17, fluid is close to filter core flow under the influence of centrifugal force, and is carried out high-precision filtration；

8), the fluid after high-precision filtration enters urceolus 19, and by the hydraulic oil bottom urceolus 19 Oil-out 5 is discharged.

Above detailed description of the invention is only the preferred embodiment of this creation, not in order to limit this wound Make, all any modification, equivalent substitution and improvement etc. done within this spirit created and principle, Within should be included in the protection domain of this creation.

Claims (10)

1. one kind by operating mode adaptive-filtering, the oil strain method that electrifies, separate and adsorb, it is characterized in that: it uses a kind of oil-filtering apparatus, and this device includes base plate, wave filter, U-shaped separation of particles module, oil returning tube, inner core, helical flow path, filter element, outer barrel and end cap；Wherein, described wave filter, U-shaped separation of particles module, oil returning tube, outer barrel are sequentially placed on base plate；Described wave filter includes input pipe, shell, outlet tube, elastic thin-wall, plug-in type H mode filter and plug-in type cascaded H mode filter；Described input pipe is connected to one end of shell, itself and hydraulic oil inlet docking；Described outlet tube is connected to the other end of shell, and itself and U-shaped separation of particles module are docked；Described elastic thin-wall is installed in shell along the radial direction of shell；Described input pipe, outlet tube and elastic thin-wall are collectively forming a c-type cavity volume wave filter；Resonance series cavity volume I, resonance series cavity volume II and parallel resonance cavity volume is formed between described elastic thin-wall and shell；Separated by an elastic baffle between described resonance series cavity volume I and resonance series cavity volume II；Some conical damping holes are uniformly had in the axial direction of described elastic thin-wall；Uniformly having some tapers in the axial direction of described elastic baffle and insert pipe, pipe connection resonance series cavity volume I and resonance series cavity volume II is inserted in described taper；Described plug-in type H mode filter is positioned at parallel resonance cavity volume, and it is connected with conical damping hole；Described plug-in type cascaded H mode filter is positioned at resonance series cavity volume I and resonance series cavity volume II, and it is also connected with conical damping hole；Described plug-in type H mode filter and plug-in type cascaded H mode filter are axially symmetrical set, and form plug-in type connection in series-parallel H mode filter；Described U-shaped separation of particles module includes a U-tube, and U-tube is sequentially installed with electrification module, separation module, adsorption module and demagnetization module；The top of described U-shaped separation of particles module and oil returning tube is connected by an oil returning tube oil inlet pipe；Described inner core is placed in outer barrel, if it is installed on end cap by a top board and bolt stem；Described helical flow path is contained in inner core, is connected by an inner core oil inlet pipe between itself and U-shaped separation of particles module；Described inner core oil inlet pipe is positioned at oil returning tube oil inlet pipe, and extends into the central authorities of U-shaped separation of particles module, and its diameter is less than oil returning tube oil inlet pipe diameter, and and oil returning tube oil inlet pipe be coaxially disposed；Described filter element is arranged on the inwall of inner core, and its precision is 1-5 micron；The bottom of said tub is provided with a hydraulic oil oil-out；

It comprises the steps:

1), the fluid in fluid pressure line passes through wave filter, the fluctuation pressure of the high, medium and low frequency range in filter attenuation hydraulic system, and suppression flowed fluctuation；

2), backflow force feed enters the electrification module of U-shaped separation of particles module, makes the particulate matter in fluid charged, delivers to separation module afterwards；

3), making the charged corpuscle in fluid be polymerized to tube wall under the effect of external force by segregation apparatus, adsorbent equipment is delivered in oil return afterwards；

4), by the magnetic polymeric microgranule in adsorption module absorption oil return, demagnetization module is delivered in oil return afterwards；

5), magnetic particle magnetic is eliminated by demagnetization module；

6), the fluid of the most U-shaped separation of particles module near-wall is back to fuel tank after entering oil returning tube by oil returning tube oil inlet pipe, and the fluid of the pipeline center containing trace small particle microgranule then enters inner core by inner core oil inlet pipe and carries out high-precision filtration；

7), the fluid carrying small particle microgranule flows into the helical flow path of inner core in the way of tangential influent stream, and fluid is close to filter core flow under the influence of centrifugal force, and is carried out high-precision filtration；

8), the fluid after high-precision filtration enters urceolus, and is discharged by the hydraulic oil oil-out bottom urceolus.

2. as claimed in claim 1 by operating mode adaptive-filtering, the oil strain method that electrifies, separate and adsorb, it is characterised in that: the axis of described input pipe and outlet tube is the most on the same axis；The described wider place of conical damping hole opening is positioned at resonance series cavity volume I and parallel resonance cavity volume, and its taper angle is 10 °；Described taper is inserted the wider place of tube opening and is positioned at resonance series cavity volume II, and its taper angle is 10 °；Described taper is inserted the position of pipe and conical damping hole and is mutually staggered；The inner side of described elastic thin-wall is provided with colloid damping layer；The internal layer of described colloid damping layer and outer layer are respectively outer layer elastic thin-wall and internal layer elastic thin-wall, are connected by some pillars are fixing between outer layer elastic thin-wall and internal layer elastic thin-wall；It is filled with, in interlayer between described outer layer elastic thin-wall and internal layer elastic thin-wall, the pure water adding antifreezing agent, in pure water, is suspended with Bio-sil；Described colloid damping layer is connected with shell near one end of outlet tube；Described colloid damping layer is provided with a piston near one end of outlet tube.

3. as claimed in claim 1 by operating mode adaptive-filtering, the oil strain method that electrifies, separate and adsorb, it is characterised in that: described electrification module includes some electrodes and an electrode controller；Described some electrodes are installed in U-tube, and it is respectively connecting to electrode controller.

4. as claimed in claim 1 by operating mode adaptive-filtering, the oil strain method that electrifies, separate and adsorb, it is characterized in that: described separation module uses uniform magnetic field separation module, and this uniform magnetic field separation module includes aluminum matter pipeline, two magnetic poles and magnetic pole controller；Wherein, said two magnetic pole is separately positioned on aluminum matter pipeline, the opposite polarity of these two magnetic poles, and in being oppositely arranged；Said two magnetic pole is respectively and electrically connected on magnetic pole controller.

5. as claimed in claim 1 by operating mode adaptive-filtering, the oil strain method that electrifies, separate and adsorb, it is characterized in that: described separation module uses rotating excitation field separation module, and this rotating excitation field separation module includes aluminum matter pipeline, iron shell, three-phase symmetric winding and three-phase symmetrical current module；Described three-phase symmetric winding is wound on outside aluminum matter pipeline；Described iron shell is coated on aluminum matter pipeline；Described three-phase symmetrical current module connects described three-phase symmetric winding.

6. as claimed in claim 1 by operating mode adaptive-filtering, the oil strain method that electrifies, separate and adsorb, it is characterized in that: described separation module uses helical pipe magnetic field separation module, and this helical pipe magnetic field separation module includes aluminum matter helical pipe, solenoid and solenoid control circuit；Wherein, described aluminum matter helical pipe is arranged in solenoid；Described solenoid and solenoid control circuit are electrically connected with.

7. as claimed in claim 1 by operating mode adaptive-filtering, the oil strain method that electrifies, separate and adsorb, it is characterized in that: described adsorption module uses homopolarity adjacent type absorbing ring, and this homopolarity adjacent type absorbing ring includes aluminium ring shape pipeline, forward solenoid, reverse solenoid and irony magnetic conduction cap；Described forward solenoid and reverse solenoid are respectively arranged in aluminium ring shape pipeline, and both are connected with electric current in opposite direction so that forward solenoid and reverse solenoid adjacent produce like pole；Described irony magnetic conduction cap is arranged on the inwall of aluminium ring shape pipeline, and it is positioned at forward solenoid and reverse solenoid adjacent and forward solenoid and the intermediate point of reverse solenoid axis.

8. as claimed in claim 1 by operating mode adaptive-filtering, the oil strain method that electrifies, separate and adsorb, it is characterized in that: described adsorption module uses the homopolarity adjacent type absorbing ring of charged hammer, the homopolarity adjacent type absorbing ring of this charged hammer includes aluminium ring shape pipeline, forward solenoid, reverse solenoid, irony magnetic conduction cap, dividing plate, electric shock hammer and electric magnet；Described forward solenoid and reverse solenoid are respectively arranged in aluminium ring shape pipeline, and both are connected with electric current in opposite direction so that forward solenoid and reverse solenoid adjacent produce like pole；Described irony magnetic conduction cap is arranged on the inwall of aluminium ring shape pipeline, and it is positioned at forward solenoid and reverse solenoid adjacent and forward solenoid and the intermediate point of reverse solenoid axis；Described dividing plate is between forward solenoid and reverse solenoid；Described electric shock hammer and electric magnet are between dividing plate；Described electric magnet connects and can promote electric shock hammer, makes electric shock hammer tap aluminium ring shape inner-walls of duct.

9. described in claim 1 by operating mode adaptive-filtering, the oil strain method that electrifies, separate and adsorb, it is characterised in that: the bottom of described oil returning tube is provided with an overflow valve, is provided with an automatically controlled set screw bottom this overflow valve；Described overflow valve is provided with an oil drain out, and this oil drain out is connected to a fuel tank by pipeline.

10. described in claim 1 by operating mode adaptive-filtering, the oil strain method that electrifies, separate and adsorb, it is characterised in that: the bottom of described inner core is rounding mesa-shaped, and it is connected by an inner core oil exit pipe and oil returning tube, and inner core oil exit pipe is provided with an automatically controlled check-valves；The center upright of described inner core is provided with a hollow cylinder, hollow cylinder be arranged over pressure difference indicator, this pressure difference indicator is installed on end cap；Described inner core oil inlet pipe and the tangent connection of helical flow path.