CN105889146A - Method for processing hydraulic oil through electrification, rotating magnetic field separation and rotating magnetic field - Google Patents
Method for processing hydraulic oil through electrification, rotating magnetic field separation and rotating magnetic field Download PDFInfo
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- CN105889146A CN105889146A CN201610310970.0A CN201610310970A CN105889146A CN 105889146 A CN105889146 A CN 105889146A CN 201610310970 A CN201610310970 A CN 201610310970A CN 105889146 A CN105889146 A CN 105889146A
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- oil
- excitation field
- rotating excitation
- oil return
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F15—FLUID-PRESSURE ACTUATORS; HYDRAULICS OR PNEUMATICS IN GENERAL
- F15B—SYSTEMS ACTING BY MEANS OF FLUIDS IN GENERAL; FLUID-PRESSURE ACTUATORS, e.g. SERVOMOTORS; DETAILS OF FLUID-PRESSURE SYSTEMS, NOT OTHERWISE PROVIDED FOR
- F15B1/00—Installations or systems with accumulators; Supply reservoir or sump assemblies
- F15B1/26—Supply reservoir or sump assemblies
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F15—FLUID-PRESSURE ACTUATORS; HYDRAULICS OR PNEUMATICS IN GENERAL
- F15B—SYSTEMS ACTING BY MEANS OF FLUIDS IN GENERAL; FLUID-PRESSURE ACTUATORS, e.g. SERVOMOTORS; DETAILS OF FLUID-PRESSURE SYSTEMS, NOT OTHERWISE PROVIDED FOR
- F15B21/00—Common features of fluid actuator systems; Fluid-pressure actuator systems or details thereof, not covered by any other group of this subclass
- F15B21/04—Special measures taken in connection with the properties of the fluid
- F15B21/041—Removal or measurement of solid or liquid contamination, e.g. filtering
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F15—FLUID-PRESSURE ACTUATORS; HYDRAULICS OR PNEUMATICS IN GENERAL
- F15B—SYSTEMS ACTING BY MEANS OF FLUIDS IN GENERAL; FLUID-PRESSURE ACTUATORS, e.g. SERVOMOTORS; DETAILS OF FLUID-PRESSURE SYSTEMS, NOT OTHERWISE PROVIDED FOR
- F15B21/00—Common features of fluid actuator systems; Fluid-pressure actuator systems or details thereof, not covered by any other group of this subclass
- F15B21/04—Special measures taken in connection with the properties of the fluid
- F15B21/047—Preventing foaming, churning or cavitation
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F15—FLUID-PRESSURE ACTUATORS; HYDRAULICS OR PNEUMATICS IN GENERAL
- F15B—SYSTEMS ACTING BY MEANS OF FLUIDS IN GENERAL; FLUID-PRESSURE ACTUATORS, e.g. SERVOMOTORS; DETAILS OF FLUID-PRESSURE SYSTEMS, NOT OTHERWISE PROVIDED FOR
- F15B2211/00—Circuits for servomotor systems
- F15B2211/60—Circuit components or control therefor
- F15B2211/615—Filtering means
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- Engineering & Computer Science (AREA)
- Physics & Mathematics (AREA)
- Fluid Mechanics (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Analytical Chemistry (AREA)
- Production Of Liquid Hydrocarbon Mixture For Refining Petroleum (AREA)
Abstract
The invention relates to a method for processing hydraulic oil through electrification, rotating magnetic field separation and a rotating magnetic field. During processing, hydraulic oil is processed sequentially through a first oil return pipe, an electrification device, a rotating magnetic field separation device, a first adsorption device, a rotating magnetic field device, a second adsorption device, a U-type pipe, a filtering box, a defoaming plate, a permanent magnet, a partition board and an oil sucking pipe, accordingly ablation or precipitation of free foam in returned oil is achieved, and adsorption or ablation of micro-sized particles is achieved. The method combines mechanical, electric and magnetic technologies, so that solid particles are gathered to the pipe wall to be adsorbed, air precipitation or ablation is achieved, the method is low in processing cost, good in processing effect and strong in oil purification capacity, and secondary pollution is not likely to happen.
Description
[technical field]
The present invention relates to a kind of hydraulic pressure oil treatment process, be specifically related to one electrification, rotating excitation field separation and rotate
The method of magnetic field treatment fluid force feed, belongs to hydraulic oil container technical field.
[background technology]
Statistics both domestic and external illustrate, the fault of hydraulic system about 70%~85% is owing to oil contamination causes
's.Therefore Pollution Control in Hydraulic System has become domestic and international Hydraulic Industry and each industrial department question of common concern.And solid
Pollution, gaseous contamination are two kinds of major ways of hydraulic contamination.
Containing the air of about 9% volume under atmospheric pressure and room temperature condition in fluid, portion of air dissolves in fluid
In, the mechanical performance of the Air On Hydraulic System of this dissolved state, the volume modulus of fluid and viscosity also will not produce
Significantly affect, the most negligible;Another part is free in fluid with the bubble form of 0.05mm~0.5mm diameter, shape
Become cavitation, be noise, body corrosion and the main cause of volumetric efficiency reduction.Heat meeting is produced when bubble is drastically compressed
Cause oil temperature to raise, accelerate fluid oxidation and sealing member is aging, make oil lubrication hydraulic performance decline.The bubble that adulterates in fluid also can drop
The rigidity of low fluid, cause automatically controlling malfunctioning, operating mechanism's intermittent movement, position inaccurate or fix drift etc. bad after
Really.
Solid particle is the pollutant the most universal in hydraulic system, damaging effect is maximum.According to statistics, due to solid
The hydraulic system fault that grain pollutant cause accounts for the 70% of gross contamination fault.In particulate pollutant in hydraulic system oil liquid,
Metal filings occupies certain ratio, and according to different situations, typically between 20%~70%, this part metals abrasive dust is main
Come from the abrasion of element.Therefore, the solid grain contamination in degreasing fluid of adopting an effective measure, is hydraulic system pollution control
Another importance of system.
The hydraulic means used in the production equipment of factory, construction machinery is made up of hydraulic circuit and fuel tank.Fuel tank stores
The hydraulic oil provided to hydraulic circuit and the oil return refluxed from hydraulic circuit.Flow in the hydraulic system oil return of fuel tank and contain
Various metals and colloidal particles pollutant, the most also include the air existed with bubble shape, and the existence of these pollutant can be led
Cause hydraulic system hydraulic performance decline even to break down.
Eliminating problem for solving above-mentioned granule, Chinese invention patent (Authorization Notice No. CN 203816790 U) discloses one
Planting centrifugal oil purifier, it includes oil pipe before the purification that equipment fuel tank and equipment fuel tank are drawn, and before this purification, oil pipe is sequentially connected with
Service tank, self priming pump, centrifugal basket, this centrifugal basket connect purify after oil pipe be connected to equipment fuel tank, also include vacuum pump with
Service tank connects;In described service tank, wherein it is provided with strong magnetic Magnet.Therefore, by oil before entering centrifugal barrel at fluid
Metal impurities absorption in liquid, reduces the metallic particles abrasion to equipment, is effectively increased the service life of equipment.
Then, there is following several respects problem in above-mentioned oil conditioner:
1. need to add a whole set of rotating excitation field segregation apparatus, equipment is complicated, and cost is high, secondary can be brought dirty to fluid simultaneously
Dye.
2. fuel tank volume is relatively big, and the magnetic conductivity of fluid is poor, and strong magnetic Magnet is to the active force of micron particles in fluid relatively
Little, cause adsorption time long, the problems such as adsorption effect is poor.
3. part magnetic microparticles enters hydraulic circuit, and absorption causes element fault on Hydraulic Elements and is difficult to cleaning
Remove.
And be to solve above-mentioned bubble to eliminate problem, conventional way is to arrange longitudinal baffle in fuel tank, extends fluid and exists
The time of staying in fuel tank, should arrange far into and out of hydraulic fluid port as far as possible, and increase the volume of fuel tank.But, owing to mixing oil return
Bubble the least and oil viscosity is of a relatively high, therefore there is problems in that bubble rises to pasta and is scattered in air need
Long period, hydraulic means cannot be carried out work during this period.
The practical application for a patent for invention (application publication number CN 102762874 A) of China discloses a kind of fuel tank, and this fuel tank leads to
Cross the incorporating section being arranged in fuel tank and rectifying wings to extend the oil return fluid time of staying at liquid level, reach eliminate bubble and keep away
Exempt from inlet port and suck the purpose of bubble.Then, the defaoming mechanisms of above-mentioned fuel tank is nature froth breaking, still there is foam time long,
The problems such as efficiency is low, especially for the operating mode poor effect that changes in flow rate is violent.
Therefore, for solving above-mentioned technical problem, the electrification of necessary offer one, rotating excitation field separate and rotating excitation field
The method for the treatment of fluid force feed, 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 one electrification, rotating excitation field separation and rotate
The method of magnetic field treatment fluid force feed, the technology such as machinery, electricity, magnetic are combined by it, make solid particle gather tube wall absorption, make sky
Air elutriation goes out or melts, its simple in construction, low cost, and lube purification ability is strong.
For achieving the above object, the technical scheme that the present invention takes is: separate and at rotating excitation field by electrification, rotating excitation field
The method of reason hydraulic oil, it utilizes a kind of fuel tank to process, this fuel tank include oil box, Rose Box, the first oil return pipe, second
Oil return pipe, U-tube, rotating excitation field segregation apparatus, the first adsorbent equipment, rotating magnetic field device, the second adsorbent equipment, permanent magnetic
Ferrum, dividing plate, fuel sucking pipe and ECU;Wherein, the top outside described oil box is provided with air filter, is sequentially provided with in oil box
Described filter box, permanent magnet and dividing plate;Described first oil return pipe inserts in oil box, and connects with U-tube, which is provided with electrification
Device;Described second oil return pipe one end is connected to the first oil return pipe, and the other end extends into Rose Box;Described first oil return pipe and
The junction of two oil return pipes is provided with an overflow valve;Described U-tube is positioned at Rose Box, and it is sequentially installed with described rotating excitation field
Segregation apparatus, the first adsorbent equipment, rotating magnetic field device and adsorbent equipment;It is provided with bottom described Rose Box every magnetic leg, top
Portion is provided with the froth breaking plate of downward-sloping setting;Described froth breaking plate surface is equipped with one layer of magnetic metal net;Described fuel sucking pipe is inserted
Enter oil box, which is provided with oil filter, demagnetizer and remanent magnetism sensor;Described ECU is electrically connected with electric ignitor, rotary magnetic
Field segregation apparatus, the first adsorbent equipment, rotating magnetic field device, the second adsorbent equipment, demagnetizer and remanent magnetism sensor;;Described rotation
Turn magnetic field separator and include 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, and by ECU control.It comprises the technical steps that:
1), backflow force feed delivers to electric ignitor by the first oil return pipe, applies voltage by electrode controller to electrode,
Make the particulate matter in fluid charged, deliver to rotating excitation field segregation apparatus afterwards;
2), the charged corpuscle in fluid is made to be polymerized to tube wall under the effect of external force by rotating excitation field segregation apparatus, it
The first adsorbent equipment is delivered in rear oil return;
3), by the magnetic polymeric microgranule in the first adsorbent equipment absorption oil return, rotating magnetic field device is delivered in oil return afterwards;
4), rotating magnetic field device utilizes rotating excitation field to separate unadsorbed magnetic microparticles, and the second absorption is delivered in oil return afterwards
Device;
5), the magnetic polymeric microgranule in the second adsorbent equipment second adsorption oil return, U-tube is delivered in oil return afterwards;
6), oil return is entered Rose Box by its outlet by U-tube;
7), the oil return of Rose Box spill-over is spread along the surface of froth breaking plate, and mixes with the fluid in oil box
Close, make the bubble of fluid naturally be dispersed in air;And the particulate matter of remaining in the magnetic metal net absorption fluid on froth breaking plate
Body;
8) air when, utilizing the dividing plate in oil box and permanent magnet to remove oil-feed and granule;
9), by fuel sucking pipe by the fluid sucking-off of oil box, and the demagnetizer on fuel sucking pipe is utilized to eliminate magnetic particle magnetic
Property.
The method with electrification, rotating excitation field separation and rotating excitation field treatment fluid force feed of the present invention is further: described
Denso is made and is included some electrodes and an electrode controller;Described some electrodes are installed on the first oil return pipe, and it connects respectively
To electrode controller;Described electrode controller is electrically connected to ECU, and by ECU control.
The present invention separate by electrification, rotating excitation field and the method for rotating excitation field treatment fluid force feed is further: described the
One adsorbent equipment uses annular permanent magnnet, or homopolarity adjacent type absorbing ring, or the homopolarity adjacent type absorbing ring of charged hammer;Institute
State the second adsorbent equipment identical with described first adsorbent equipment structure.
The method with electrification, rotating excitation field separation and rotating excitation field treatment fluid force feed of the present invention is further: described same
The most adjacent type absorbing ring includes aluminium ring shape pipeline, forward solenoid, reverse solenoid and irony magnetic conduction cap;Described forward spiral shell
Spool and reverse solenoid are respectively arranged in aluminium ring shape pipeline and by ECU control, and both are connected with electric current in opposite direction, make
Obtain forward solenoid and reverse solenoid adjacent produces like pole;Described irony magnetic conduction cap is arranged in aluminium ring shape pipeline
On inwall, it is positioned in forward solenoid and reverse solenoid adjacent and forward solenoid and reverse solenoid axis
Between point.
The method with electrification, rotating excitation field separation and rotating excitation field treatment fluid force feed of the present invention is further: described band
Electric shock hammer homopolarity 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 shape pipeline, Liang Zhetong
There is electric current in opposite direction so that forward solenoid and reverse solenoid adjacent produce like pole;Described irony magnetic conduction cap
Being arranged on the inwall of aluminium ring shape pipeline, it is positioned at forward solenoid and reverse solenoid adjacent and forward solenoid
Intermediate point with reverse solenoid axis;Described dividing plate is between forward solenoid and reverse solenoid;Described electric shock hammer and
Electric magnet is 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;
Described ECU is electrically connected with and controls forward solenoid, reverse solenoid and electric magnet.
The method with electrification, rotating excitation field separation and rotating excitation field treatment fluid force feed of the present invention is further: described rotation
Turn magnetic field device and include aluminum matter pipeline, iron shell, three-phase symmetric winding, flange and three-phase symmetrical current module;Described three
Symmetrical winding is wound on outside aluminum matter pipeline;Described iron shell is coated on aluminum matter pipeline;Described flange welding is at aluminum matter pipeline
Two ends;Described three-phase symmetrical current module connects described three-phase symmetric winding, and by ECU control.
The method with electrification, rotating excitation field separation and rotating excitation field treatment fluid force feed of the present invention is further: described suction
The bottom mouth of pipe of oil pipe inserts in below minimum level, and it is greater than 2-3 times of its caliber from the bottom of oil box, from oil box
3 times that tank wall distance is caliber;The bottom mouth of pipe of described fuel sucking pipe is cut into 45 ° of oblique angles, and makes oblique angle face toward the tank wall of oil box.
The method with electrification, rotating excitation field separation and rotating excitation field treatment fluid force feed of the present invention is also: on described dividing plate
Under leave a blank, leave a blank more than the highest oil surface level in top;Described oil box uses cube structure, is provided with dress of draining the oil bottom it
Put.
Compared with prior art, there is advantages that
1. by making the particulate matter charged polymeric in fluid to electrode applying voltage;Made by rotating excitation field segregation apparatus
The charged particle that quality is bigger is gathered in near-wall;Efficiently suction is formed by the magnetic force of U-shaped adsorbent equipment, gravity, centrifugal force
Attached;Utilize rotating excitation field " separated " and gather near-wall by the molecule in fluid, capture small with adsorbent equipment
Grain;The magnetic metal net on froth breaking plate is utilized to adsorb the little granule not yet adsorbed, finally to residual particles demagnetization in fuel sucking pipe
Avoid endangering the integral particle absorption of Hydraulic Elements.
2. by rotating excitation field, the microgranule in fluid is lined up needle-like to spin and extend out motion, thus reach the elimination that pricks a bubble
The purpose of bubble;Utilize fluid to carry bubble movement velocity upwards simultaneously and the U-tube oil-out close to liquid level makes bubble
Moving to the Distance Shortened of liquid level, speed is accelerated, thus improves the rising release efficiency naturally of bubble, finally utilizes froth breaking plate to dissipate
Send out remaining bubble.
3. processing cost is low, has granular absorption and defoaming function, and will not produce secondary pollution.
[accompanying drawing explanation]
Fig. 1 is the structural representation of the fuel tank using electrification, rotating excitation field separation and rotating excitation field treatment fluid force feed of the present invention
Figure.
Fig. 2 is the structural representation of the electric ignitor in Fig. 1.
Fig. 3 is the structural representation of the rotating excitation field segregation apparatus in Fig. 1.
Fig. 4 be the adsorbent equipment in Fig. 1 be the structural representation of homopolarity adjacent type absorbing ring.
Fig. 5 be the adsorbent equipment in Fig. 1 be the structural representation of the homopolarity adjacent type absorbing ring of charged hammer.
Fig. 6 is the structural representation of the rotating magnetic field device in Fig. 1.
Fig. 7 is the connection diagram of the ECU in Fig. 1.
[detailed description of the invention]
Referring to shown in Figure of description 1 to accompanying drawing 7, the present invention is one electrification, rotating excitation field separation and rotary magnetic
The fuel tank of field treatment fluid force feed, it is by oil box 1, Rose Box the 17, first oil return pipe the 12, second oil return pipe 14, U-tube 20, rotation
Turn magnetic field separator the 26, first adsorbent equipment 21, rotating magnetic field device the 27, second adsorbent equipment 28, permanent magnet 9, dividing plate
8, several parts such as fuel sucking pipe 2 and ECU3 composition.
Wherein, described oil box 1 uses cube structure, makes to obtain under identical capacity bigger area of dissipation.Described
Top outside oil box 1 is provided with air filter 10, is sequentially provided with described Rose Box 17, permanent magnet 9 and dividing plate in oil box 1
8.The bottom of described oil box 1 is provided with jettison gear 11, opens it and release greasy dirt when changing oil.Described dividing plate will be for inhaling, return
Oil separates, and forces oil circulation to flow, and is beneficial to heat radiation and precipitation, and it is left a blank up and down, and top is left a blank more than the highest oil surface level,
In order to air circulation and control cabling;And bottom is left a blank in order to oil suction, reduce air and the suction of granule.Described permanent magnet 9
For adsorbing metal granule.Described air filter 10 makes oil box 1 communicate with air, and it can filter the grey trifle in the world in air
Thing, doubles as oil filler sometimes, and it specifically can be selected for specification is EF4 50EF type air filter, and its air filtration precision is
0.105mm2, oiling flow and air mass flow are respectively 32L/min and 265L/min.
Described first oil return pipe 12 inserts in oil box 1, and connects with U-tube 20, electric ignitor 25 on it.Described electrification
Device 25 is as shown in Figure of description 2, and it is made up of some electrodes 251 and an electrode controller 252.Described some electrodes
251 are installed on the first oil return pipe 12, and it is respectively connecting to electrode controller 252.Described electrode controller 252 is electrically connected to
ECU3, and by ECU3 control.ECU3 applies voltage by electrode controller 252 to electrode 251, makes the particulate matter band in fluid
Electricity.
Described second oil return pipe 14 one end is connected to the first oil return pipe 12, and the other end extends into Rose Box 17.Described first
The junction of oil return pipe 12 and the second oil return pipe 14 is provided with an overflow valve 13.Described overflow valve 13 is stifled in the first oil return pipe 12 alluvial
Opening during plug, make hydraulic system oil return flow back to Rose Box 17 from the second oil return pipe 14, its optional YUKEN Japan oil grinds model and is
The EBG type electricity one liquid proportional overflow valve of EBG-03-C-T-50.The highest use operating pressure of this proportional pressure control valve is 25MPa,
Big flow is 100L/rain, and minimum discharge is 3L/rain, and pressure regulation spectrum is 0.4~16MPa, and rated current is 770mA,
Coil resistance is 10 ohm.
Described U-tube 20 is positioned at Rose Box 17, it is sequentially installed with described rotating excitation field segregation apparatus 26, first and inhales
Adsorption device 21, rotating magnetic field device 27 and the second adsorbent equipment 28.Under the outlet of described U-tube 20 is located close at liquid level
Side, it is therefore an objective to shorten bubble floating distance, in quickening fluid, bubble distributes speed naturally.
Being provided with bottom described Rose Box 17 every magnetic leg 18, top is provided with the froth breaking plate 23 of downward-sloping setting.Described
Froth breaking plate 23 surface is equipped with one layer of magnetic metal net 24.In order to avoid Rose Box 17 liquid level causes splashing less than oil return outlet
Bubbling, be provided with check-valves 30 at Rose Box 17 at liquid level, the position of this valve is positioned at below minimum level, it is ensured that Rose Box
The height of 17 inner fluids is not less than external fuel tank.The fluid of U-tube 20 outlet is from Rose Box 17 overflow, and along froth breaking plate 23
Surface occurs diffusion also to mix with the fluid in oil box 1, the least significant end of froth breaking plate 23 will below minimum liquid level, in case
Only splash foaming.Described magnetic metal net 24 is for adsorbing the particle object of remaining in fluid so that the bubble that oil return is carried is only
Liquid level at Rose Box 17 is assembled, and the distance that bubble distributes naturally is short, and speed is fast;Hydraulic oil in froth breaking plate 23 and fuel tank is also
It is to mix at liquid level, it is to avoid the inlet port of tank bottoms sucks these bubbles.
Described fuel sucking pipe 2 inserts oil box 1, which is provided with oil filter 6, demagnetizer 5 and remanent magnetism sensor 4, and it is with first
Distance between oil return pipe the 12, second oil return pipe 14 is as far as possible.The bottom mouth of pipe of this fuel sucking pipe 2 inserts in below minimum level,
It is greater than 2-3 times of its caliber from the bottom of oil box 1, in order to avoid the foaming that is emptied and splashes;Tank wall distance from oil box 1 is
3 times of caliber, in order to oil-feed on four sides.Further, the bottom mouth of pipe of described fuel sucking pipe 2 is cut into 45 ° of oblique angles, and makes oblique angle face toward
The tank wall of oil box 1, to increase hydraulic fluid port flow area, and makes inclined-plane face toward tank wall, in order to heat radiation and precipitated impurities.Described oil strain
Device 6 is used for protecting the gear pump being connected with fuel tank so that it is will not suck bigger solid impurity, and it specifically uses the filtering accuracy to be
The model that 180um, the pressure loss≤0.01MPa, flow are 250L/min, latus rectum is 50mm, use flange to couple is WU-
The well strainer of 250xlSOF.Described demagnetizer 5 can prevent residual magnetism microgranule from entering hydraulic circuit, to sensitive Hydraulic Elements
Cause damage;And ECU3 controls the demagnetization intensity of demagnetizer 5 according to the detected value of remanent magnetism sensor 4.The demagnetization of described demagnetizer 5
Method is electromagnetism demagnetization, and method is the opposing magnetic field by add suitable so that the magnetic induction in material comes back to zero
Point, and magnetic field intensity or electric current must invert in order and gradually reduce, it is to avoid due to the existence of hysteresis, work as ferromagnetic material
After being magnetized into saturation, even if cancelling externally-applied magnetic field, the magnetic induction in material still returns and produces less than the problem of zero point.
Described rotating excitation field segregation apparatus 26 makes poly-being incorporated under centrifugal action of particle charge that quality is bigger get rid of to chamber
Wall, the bubble in fluid is then shifted at the central axis of pipeline under centrifugal action, outside it is by aluminum matter pipeline 261, irony
The parts compositions such as shell 264, three-phase symmetric winding 265 and three-phase symmetrical current module 266.Described three-phase symmetric winding 265 around
Outside aluminum matter pipeline 261.Described iron shell 264 is coated on aluminum matter pipeline 265.Described three-phase symmetrical current module 266 is even
Connect described three-phase symmetric winding 265, and by ECU3 control.
The design principle of described rotating excitation field segregation apparatus 26 is as follows: charged particle flows into rotating excitation field with speed V and separates
Device 26, ECU3 controls three-phase symmetrical current module 266, makes to flow through in three-phase symmetric winding 265 three-phase symmetrical electric current, this electric current
Producing rotating excitation field in aluminum matter pipeline 261, charged particle is perpendicular to velocity attitude and magnetic field under rotating excitation field effect
The effect of the Loulun magnetism in direction, this power does not change the speed of charged particle, and it only changes the direction of motion of charged particle, makes band
Electricity granule the most spirally advances, 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.Owing to fluid has certain gluing
Property, granule is also acted on by viscous drag during vessel wall motion.In order to ensure separating effect, need to make aluminum matter pipeline
Microgranule on 261 axis can move at tube wall within the action time of segregation apparatus, and 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, a diameter of D of segregation apparatus, length
For L, then:
Acting on the Loulun magnetism on charged particle is
Fl=qvB
The viscous drag that charged particle is subject to is
Fd=6 π η r v
The radius v charged particle movement velocity of η hydraulic pressure oil viscosity r charged particle
Assuming that the granule in fluid has reached stable state, the then charged particle time by segregation apparatus when entering segregation apparatus
Can approximate and represent with following formula
Charged particle on conduit axis moves to the time t at tube wall2Can be solved by following formula
Regulation B so that t1>t2, i.e. can reach separating effect.
Referring to shown in Figure of description 4 to accompanying drawing 5, described first adsorbent equipment 21 is used for adsorbing rotated magnetic field separation
The big microgranule of magnetic polymeric after device 26, it can use annular permanent magnnet, or homopolarity adjacent type absorbing ring, or charged hammer
Homopolarity adjacent type absorbing ring.
Further, when described first adsorbent equipment 21 uses homopolarity adjacent type absorbing ring, this homopolarity adjacent type absorbing ring
It is made up of parts such as aluminium ring shape pipeline 211, forward solenoid 212, reverse solenoid 213 and irony magnetic conduction caps 214.Its
In, described forward solenoid 212 and reverse solenoid 213 are respectively arranged in aluminium ring shape pipeline 211 and by ECU3 control, and two
Person is connected with electric current in opposite direction so that forward solenoid 212 and reverse solenoid 213 adjacent produce like pole.Described
Irony magnetic conduction cap 214 is arranged on the inwall of aluminium ring shape pipeline 211, and it is positioned at forward solenoid 212 and reverse solenoid 213
Adjacent and forward solenoid 212 and the intermediate point of reverse solenoid 213 axis.
The design principle of described homopolarity adjacent type absorbing ring is as follows: energising forward solenoid 212, reverse solenoid 213, phase
Adjacent forward solenoid 212, reverse solenoid 213 are connected with electric current in opposite direction so that forward solenoid 212, reverse helical
Pipe 213 adjacent produces like pole;Meanwhile, aluminium ring shape pipeline 211 can improve magnetic circuit, strengthens the magnetic field at inner-walls of duct
Intensity, strengthens the irony magnetic conduction cap 214 capture absorbability to granule.Each forward solenoid 212, reverse solenoid 213 electric current
Directly controlled by ECU3, can be different with concentration and change, to obtain optimal adsorption performance according to the size of granule.
Further, when described first adsorbent equipment 21 may be used without the homopolarity adjacent type absorbing ring of charged hammer, this band
The homopolarity adjacent type absorbing ring of electric shock hammer is led by aluminium ring shape pipeline 211, forward solenoid 212, reverse solenoid 213, irony
The parts compositions such as magnetic cap 214, dividing plate 215, electric shock hammer 216 and electric magnet 217.Wherein, described forward solenoid 212 is with reverse
Solenoid 213 is respectively arranged in aluminium ring shape pipeline 211 and by ECU3 control, and both are connected with electric current in opposite direction so that
Forward solenoid 212 and reverse solenoid 213 adjacent produce like pole.Described irony magnetic conduction cap 214 is arranged in aluminium ring
On the inwall of shape pipeline 211, it is positioned at forward solenoid 212 and reverse solenoid 213 adjacent and forward solenoid 212
Intermediate point with reverse solenoid 213 axis.Described electric shock hammer 216 and electric magnet 217 are between dividing plate 215.Described electromagnetism
Ferrum 217 connects and can promote electric shock hammer 216, makes electric shock hammer 216 percussion aluminium ring shape pipeline 212 inwall.Described ECU3 electrically connects
Connect and control forward solenoid 212, reverse solenoid 213 and electric magnet 217.
The design principle of the homopolarity adjacent type absorbing ring of described charged hammer is as follows: energising forward solenoid 212, reverse spiral shell
Spool 213, adjacent forward solenoid 212, reverse solenoid 213 are connected with electric current in opposite direction so that forward solenoid
212, reverse solenoid 213 adjacent produces like pole;Meanwhile, aluminium ring shape pipeline 211 can improve magnetic circuit, strengthens pipeline
Magnetic field intensity at inwall, strengthens the irony magnetic conduction cap 214 capture absorbability to granule.Each forward solenoid 212, reverse spiral shell
Spool 213 electric current is directly controlled by ECU3, can be different with concentration and change, to obtain optimal adsorption according to the size of granule
Performance.And by the setting of electric shock hammer 216, prevent granule bulk deposition at irony magnetic conduction cap 214, affect adsorption effect.This
Time, controlled the inwall of electric shock hammer 216 percussion pipeline 211 by electric magnet 217 so that adsorbed granule scatter to both sides.
Meanwhile, when cleaning pipeline 211, the percussion of electric shock hammer 216 can also improve cleaning performance.
Referring to shown in Figure of description 6, described rotating magnetic field device 27 utilizes rotating excitation field centrifugal not by the first absorption
The small magnetization granule of device 21 absorption, it is by aluminum matter pipeline 271, iron shell 272, three-phase symmetric winding 273, flange 274
And three-phase symmetrical current module 275 forms.Described three-phase symmetric winding 273 is wound on outside aluminum matter pipeline 271.Described iron shell
272 are coated on aluminum matter pipeline 271.Described flange 274 is welded on the two ends of aluminum matter pipeline 271.Described three-phase symmetrical current-mode
Block 275 connects described three-phase symmetric winding 273, and by ECU3 control.
The operation principle of described rotating magnetic field device 27 is as follows: small magnetization granule not to be adsorbed enters rotating excitation field dress
Putting 27, ECU3 controls three-phase symmetrical current module 275, makes to flow through in three-phase symmetric winding 273 three-phase symmetrical electric current, and this electric current exists
Producing rotating excitation field in aluminum matter pipeline 271, magnetized particles is acted on by magnetic field force under rotating excitation field effect, and in this power
Spirally advance under effect, simultaneously to vessel wall motion.Therefore, regulation magnetic field intensity can make the granule in fluid from fluid
" separate " out, be gathered in aluminum matter pipeline 271 near-wall, it is simple to subsequent adsorbtion captures.
Further, described second adsorbent equipment 28 is identical with described first adsorbent equipment 21 structure, function and effect machine
Managing the most identical, it can adsorb the granule not adsorbed by rotating magnetic field device 27 further.
Referring to shown in Figure of description 7, described ECU3 may select the PIC16F877 of Microchip company, and it is the most electric
Property connect electric ignitor 25, rotating excitation field segregation apparatus the 26, first adsorbent equipment 21, rotating magnetic field device 27, second adsorb dress
Put the parts such as 28, demagnetizer 5 and remanent magnetism sensor 4.
The processing step using above-mentioned fuel tank to process backflow force feed is as follows:
1), backflow force feed delivers to electric ignitor 25, by electrode controller 252 to electrode by the first oil return pipe 12
251 apply voltage, make the particulate matter in fluid charged, deliver to rotating excitation field segregation apparatus 26 afterwards;
2), the charged corpuscle in fluid is made to be polymerized to tube wall under the effect of external force by rotating excitation field segregation apparatus 26,
The first adsorbent equipment 21 is delivered in oil return afterwards;
3), being adsorbed the magnetic polymeric microgranule in oil return by the first adsorbent equipment 21, rotating excitation field dress is delivered in oil return afterwards
Put 27;
4), rotating magnetic field device 27 utilizes rotating excitation field to separate unadsorbed magnetic microparticles, and the second suction is delivered in oil return afterwards
Adsorption device 28;
5), the magnetic polymeric microgranule in the second adsorbent equipment 28 second adsorption oil return, U-tube 20 is delivered in oil return afterwards;
6), U-tube 20 is exported by it and oil return enters Rose Box 17;
7), the oil return of Rose Box 17 spill-over is spread along the surface of froth breaking plate 23, and enters with the fluid in oil box 1
Row mixing, makes the bubble of fluid naturally be dispersed in air;And the magnetic metal net 24 on froth breaking plate 23 adsorbs remaining in fluid
Particle object;
8) air when, utilizing the dividing plate 8 in oil box 1 and permanent magnet 9 to remove oil-feed and granule;
9), by fuel sucking pipe 2 by the fluid sucking-off of oil box 1, and it is micro-to utilize the demagnetizer 5 on fuel sucking pipe 2 to eliminate magnetic
Grain magnetic, prevents residual magnetism microgranule from entering hydraulic circuit, and sensitive Hydraulic Elements are caused damage.
Above detailed description of the invention is only the preferred embodiment of this creation, not in order to limit this creation, all in this wound
Any modification, equivalent substitution and improvement etc. done within the spirit made and principle, should be included in this creation protection domain it
In.
Claims (9)
1. separate and the method for rotating excitation field treatment fluid force feed by electrification, rotating excitation field, it is characterised in that: utilize a kind of fuel tank to enter
Row process, this fuel tank include oil box, Rose Box, the first oil return pipe, the second oil return pipe, U-tube, rotating excitation field segregation apparatus,
First adsorbent equipment, rotating magnetic field device, the second adsorbent equipment, permanent magnet, dividing plate, fuel sucking pipe and ECU;Wherein, described
Top outside oil box is provided with air filter, is sequentially provided with described filter box, permanent magnet and dividing plate in oil box;Described first
Oil return pipe inserts in oil box, and connects with U-tube, which is provided with electric ignitor;Described second oil return pipe one end is connected to
One oil return pipe, the other end extends into Rose Box;The junction of described first oil return pipe and the second oil return pipe is provided with an overflow valve;Institute
State U-tube and be positioned at Rose Box, it is sequentially installed with described rotating excitation field segregation apparatus, the first adsorbent equipment, rotating excitation field
Device and adsorbent equipment;Being provided with bottom described Rose Box every magnetic leg, top is provided with the froth breaking plate of downward-sloping setting;Institute
State froth breaking plate surface and be equipped with one layer of magnetic metal net;Described fuel sucking pipe insert oil box, which is provided with oil filter, demagnetizer and
Remanent magnetism sensor;Described ECU is electrically connected with electric ignitor, rotating excitation field segregation apparatus, the first adsorbent equipment, rotating excitation field
Device, the second adsorbent equipment, demagnetizer and remanent magnetism sensor;Described rotating excitation field segregation apparatus includes outside aluminum matter pipeline, irony
Shell, three-phase symmetric winding and three-phase symmetrical current module;Described three-phase symmetric winding is wound on outside aluminum matter pipeline;Outside described irony
Shell is coated on aluminum matter pipeline;Described three-phase symmetrical current module connects described three-phase symmetric winding, and by ECU control.
2. it comprises the technical steps that:
1), backflow force feed delivers to electric ignitor by the first oil return pipe, applies voltage by electrode controller to electrode, makes oil
Particulate matter in liquid is charged, delivers to rotating excitation field segregation apparatus afterwards;
2), make the charged corpuscle in fluid be polymerized to tube wall under the effect of external force by rotating excitation field segregation apparatus, return afterwards
The first adsorbent equipment delivered to by oil;
3), by the magnetic polymeric microgranule in the first adsorbent equipment absorption oil return, rotating magnetic field device is delivered in oil return afterwards;
4), rotating magnetic field device utilizes rotating excitation field to separate unadsorbed magnetic microparticles, and the second adsorbent equipment is delivered in oil return afterwards;
5), the magnetic polymeric microgranule in the second adsorbent equipment second adsorption oil return, U-tube is delivered in oil return afterwards;
6), oil return is entered Rose Box by its outlet by U-tube;
7), the oil return of Rose Box spill-over is spread along the surface of froth breaking plate, and mixes with the fluid in oil box, makes
The bubble of fluid is dispersed in air naturally;And the particle object of remaining in the magnetic metal net absorption fluid on froth breaking plate;
8) air when, utilizing the dividing plate in oil box and permanent magnet to remove oil-feed and granule;
9), by fuel sucking pipe by the fluid sucking-off of oil box, and the demagnetizer on fuel sucking pipe is utilized to eliminate magnetic particle magnetic.
Electrification the most as claimed in claim 1, rotating excitation field separate and the method for rotating excitation field treatment fluid force feed, and its feature exists
In: described, Denso is made and is included some electrodes and an electrode controller;Described some electrodes are installed on the first oil return pipe, its
It is respectively connecting to electrode controller;Described electrode controller is electrically connected to ECU, and by ECU control.
Electrification the most as claimed in claim 1, rotating excitation field separate and the method for rotating excitation field treatment fluid force feed, and its feature exists
In: described first adsorbent equipment uses annular permanent magnnet, or homopolarity adjacent type absorbing ring, or the adjacent type of homopolarity of charged hammer
Absorbing ring;Described second adsorbent equipment is identical with described first adsorbent equipment structure.
Electrification the most as claimed in claim 1, rotating excitation field separate and the method for rotating excitation field treatment fluid force feed, and its feature exists
In: described 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 by ECU control, and both are connected with direction phase
Anti-electric current so that forward solenoid and reverse solenoid adjacent produce like pole;Described irony magnetic conduction cap is arranged in aluminum
On the inwall of matter circulating line, it is positioned at forward solenoid and reverse solenoid adjacent and forward solenoid and reverse spiral shell
The intermediate point of spool axis.
Electrification the most as claimed in claim 1, rotating excitation field separate and the method for rotating excitation field treatment fluid force feed, and its feature exists
In: the homopolarity adjacent type absorbing ring of described 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
In, both are connected with electric current in opposite direction so that forward solenoid and reverse solenoid adjacent produce like pole;Described ferrum
Matter magnetic conduction cap is arranged on the inwall of aluminium ring shape pipeline, and it is positioned at forward solenoid and reverse solenoid adjacent, Yi Jizheng
To 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;Described ECU is electrically connected with and controls forward solenoid, reverse solenoid and electric magnet.
Electrification the most as claimed in claim 1, rotating excitation field separate and the method for rotating excitation field treatment fluid force feed, and its feature exists
In: described rotating magnetic field device includes aluminum matter pipeline, iron shell, three-phase symmetric winding, flange and three-phase symmetrical current-mode
Block;Described three-phase symmetric winding is wound on outside aluminum matter pipeline;Described iron shell is coated on aluminum matter pipeline;Described flange welding exists
The two ends of aluminum matter pipeline;Described three-phase symmetrical current module connects described three-phase symmetric winding, and by ECU control.
Electrification the most as claimed in claim 1, rotating excitation field separate and the method for rotating excitation field treatment fluid force feed, and its feature exists
In: the bottom mouth of pipe of described fuel sucking pipe inserts in below minimum level, and it is greater than 2-3 times of its caliber from the bottom of oil box,
3 times that tank wall distance from oil box is caliber;The bottom mouth of pipe of described fuel sucking pipe is cut into 45 ° of oblique angles, and makes oblique angle face toward oil
The tank wall of casing.
Electrification the most as claimed in claim 1, rotating excitation field separate and the method for rotating excitation field treatment fluid force feed, and its feature exists
In: described dividing plate is left a blank up and down, leaves a blank more than the highest oil surface level in top;Described oil box uses cube structure, its end
Portion is provided with jettison gear.
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CN1546198A (en) * | 2003-11-28 | 2004-11-17 | 邝念曾 | Method and system for purifying hydraulic-oil |
CN102762874A (en) * | 2010-02-03 | 2012-10-31 | 优铁工有限公司 | Oil tank |
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Application publication date: 20160824 |