CN204935272U - A kind of magnetorheological finishing device - Google Patents

Abstract

The utility model discloses a kind of magnetorheological finishing device, comprise for splendid attire magnetic flow liquid polishing liquid bath, be located at below described polishing liquid bath or side can produce in polishing liquid bath magnetic field field generator for magnetic, be located at holding workpiece above described polishing liquid bath and make workpiece do the artifact-driven mechanism of at least two frees degree motion.Feature of the present utility model is in the magnetic flow liquid with magnetic field, make workpiece do the motion of multiple free degree, under the effect of gradient magnetic, magnetic flow liquid due to liquid form can become the liquid-solid state with strong viscoplasticity effect, its magnetic linkage formed along magnetic line of force direction will hold abrasive particle, be equivalent to the flexible small abrasive nose of magnetic one by one, workpiece and magnetic flow liquid is utilized to produce relative motion, by controlling the multifreedom motion of workpiece, can under clamped one time, polishing is carried out to the outer surface of one or more workpiece simultaneously, its outer surface can be plane, cambered surface or complex-curved.

Description

A kind of magnetorheological finishing device

Technical field

The utility model belongs to Technique of Magnetorheological Finishing, is specifically related to a kind of magnetorheological finishing device.

Background technology

Along with the continuous progress of present information electronic technology, optical technology, in IT, electron trade, ultra-smooth element application gets more and more, as Sapphire Substrate, monocrystalline silicon surface, cell phone rear cover etc., the manufacturing batch of this class component is large, and its surface will meet ultra-smooth, and glossiness is high, uniform color, without requirements such as scuffings.At present, the polisher lapper on market is all adopt plane to grind principle mutually, and workpiece is stuck in trip heart wheel, under the abrasive action of upper and lower polishing disk, realize polishing.The limitation of this polishing mode is exactly can only processing plane, can not process the curved surfaces such as cambered surface.

Magnetic flow liquid is a kind of intellectual material, is the suspended substance mixed by high permeability, low hysteresis small soft magnetic particles and non-magnetic liquid.It is liquid under normal conditions, when adding loaded magnetic field, liquid-solid phase occurring and becomes, and when the field is removed, the magnetic, solid-liquid phase occurs again and becomes.In certain magnetic field strength range, the apparent viscosity of magnetic flow liquid is relevant with magnetic field intensity, and this phenomenon is called magnetic rheology effect.Utilize the magnetic rheology effect of magnetic flow liquid, agglomeration of abrasive particles can be formed flexible bistrique in polishing area, have bistrique hardness adjustable, abrasive particle is from sharp, and face type such as to post at the advantage, for polishing function admirable.

Can change the hardness of bistrique during existing magnetorheological finishing device polishing operation by changing magnetic field intensity, but the Material removal model of whole polishing area is fixing.Complex-curved polishing cannot be completed.

A kind of two-sided magnetorheological finishing device is proposed in Chinese patent 201310001871.0, this device by trade union college between interior polishing sleeve and outer polishing sleeve, interior polishing sleeve and outer polishing sleeve rotate with buff spindle, in the gap between inside and outside polishing sleeve and workpiece, magnetic flow liquid is injected by connecting line, start-up connector also provides intermittent electric current by controller to inner sleeve electromagnet and outer sleeve electromagnet, each electromagnet group is equivalent to one group of rubbing head, respectively to processing work surfaces externally and internally.But whole device more complicated, and cannot process complex curved surface part.

Utility model content

The purpose of this utility model be to provide a kind of can the magnetorheological finishing device of simultaneously processing plane and cambered surface.

The magnetorheological finishing device that the utility model provides, comprise for splendid attire magnetic flow liquid polishing liquid bath, be located at below described polishing liquid bath or side can produce in polishing liquid bath magnetic field field generator for magnetic, be located at holding workpiece above described polishing liquid bath and make workpiece do the artifact-driven mechanism of at least two frees degree motion.

Described field generator for magnetic adopts multiple electromagnetic pole group be made up of opposite polarity two electromagnetic poles producing gradient magnetic.

Form described multiple electromagnetic pole group electromagnetic pole adopt be evenly arranged and the opposite polarity column magnetic pole of two adjacent poles or employing circularize layout and the opposite polarity triangular shape magnetic pole of two adjacent poles.

Described field generator for magnetic comprises the electromagnetic pole group be made up of opposite polarity two electromagnetic poles that at least one can produce gradient magnetic, and the electromagnetic pole forming described electromagnetic pole group adopts at least two concentric circles to arrange and the opposite polarity annular poles of two adjacent poles.

Described polishing liquid bath is drum-shaped, is provided with exterior loop in polishing liquid bath neighboring, the lower plane of described exterior loop and the upper planes align of described annular poles.

The free-wheeling system that described artifact-driven mechanism comprises wabbler mechanism, is located at the revolution movement on wabbler mechanism and is located on described revolution movement, described workpiece is located on described free-wheeling system.

Described wabbler mechanism comprises head, the first wobble servo motor, is engaged between described head and the first wobble servo motor by gear mesh; Described revolution movement comprises the revolution servomotor be located on described head, revolution deep bid and workpiece motion s frame, and described revolution servomotor is connected with revolution deep bid by revolution main shaft, and described workpiece motion s frame is that at least one is located at below revolution deep bid; Described free-wheeling system comprises the first rotation servomotor be located on workpiece motion s frame and at least one workpiece spindle installing workpiece, and described workpiece spindle is connected with the first rotation servomotor by gear mechanism

The free-wheeling system that described artifact-driven mechanism comprises revolution movement, is located at the wabbler mechanism on described revolution movement and is located between revolution movement and described wabbler mechanism.

Described revolution movement comprises head, the revolution servomotor be located on described head, revolution deep bid and workpiece motion s frame, described revolution servomotor is connected with revolution deep bid by revolution main shaft, and described workpiece motion s frame is that at least one is located at below revolution deep bid; The intermediate gear box that described wabbler mechanism is comprised the second wobble servo motor be located on described workpiece motion s frame, is connected with the second wobble servo motor by the first bevel gear mechanism; Described free-wheeling system comprises the second rotation servomotor be located on described workpiece motion s frame, be located at the second bevel gear mechanism on described intermediate gear box and install the workpiece spindle of workpiece, and described second rotation servomotor is connected with workpiece spindle by the second bevel gear mechanism; Described second wobble servo motor and the second rotation servomotor are located on described revolution deep bid.

Described artifact-driven mechanism comprises revolution movement and is located at the free-wheeling system on revolution movement; Described revolution movement and free-wheeling system are planetary body, and described workpiece is arranged between described revolution movement and free-wheeling system by workpiece spindle.

The beneficial effects of the utility model:

Feature of the present utility model is in the magnetic flow liquid with magnetic field, make workpiece do the motion of multiple free degree, under the effect of gradient magnetic, magnetic flow liquid due to liquid form can become the liquid-solid state with strong viscoplasticity effect, its magnetic linkage formed along magnetic line of force direction will hold abrasive particle, be equivalent to the flexible small abrasive nose of magnetic one by one, workpiece and magnetic flow liquid is utilized to produce relative motion, by controlling the multifreedom motion of workpiece, can under clamped one time, polishing is carried out to the outer surface of one or more workpiece simultaneously, its outer surface can be plane, cambered surface or complex-curved.The utility model is by probationary certificate: can be difficult to the difficult problem of polishing by effectively solution complicated surface, can reduce the operation of work pieces process, effectively improve polishing efficiency, apply many freely-movables structure of workpiece simultaneously, simplify device structure.

The technical solution of the utility model is further illustrated below in conjunction with accompanying drawing.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model device embodiment 1.

Fig. 2 is the structural representation of field generator for magnetic in embodiment 1.

Fig. 3 is the top view of Fig. 2.

Fig. 4 is that the magnetic pole of field generator for magnetic in embodiment 1 arranges schematic diagram.

Fig. 5 is the structural representation of the utility model device embodiment 2.

Fig. 6 is the different structure schematic diagram of workpiece motion s frame in embodiment 2.

Fig. 7 is the schematic diagram of embodiment 2 processing work plane.

Fig. 8 is the schematic diagram of embodiment 2 machining curve surface of workpiece.

Fig. 9 is the structural representation of the another kind of workpiece motion s frame in the utility model device embodiment 3.

Figure 10 is the different structure schematic diagram of field generator for magnetic in the utility model device.

Figure 11 is the top view of Figure 10.

Figure 12 is the another kind of structural representation of field generator for magnetic in the utility model device.

The top view of field generator for magnetic in Figure 13 Figure 12.

Figure 14 is the magnetic line of force schematic diagram of field generator for magnetic shown in Figure 12.

Figure 15 is the layout schematic diagram of another kind of field generator for magnetic in the present invention.

Detailed description of the invention

Embodiment 1

See Fig. 1, the magnetorheological finishing device that the utility model provides, comprise base 12 and the frame 11 being located at base 12 side, base 12 is provided with field generator for magnetic 13, the polishing liquid bath 17 be provided with above for splendid attire magnetic flow liquid of field generator for magnetic 13, frame 11 is provided with elevating mechanism, and elevating mechanism is provided with and is positioned at holding workpiece 14 above described polishing liquid bath 17 and makes workpiece 14 do the artifact-driven mechanism of multiple free degree motion; Described elevating mechanism comprises and is located at servomotor 9 in frame 11 and sliding seat 6, and servomotor 9 is connected with sliding seat 6 by ball screw 10, and sliding seat 6 is arranged on the guide rail 8 vertically arranged along frame 11; The free-wheeling system that described artifact-driven mechanism comprises the wabbler mechanism be located on elevating mechanism, is located at the revolution movement on wabbler mechanism and is located on described revolution movement; Wabbler mechanism comprises the wobble servo motor 5 be located on sliding seat 6, the head 2 be arranged on by oscillating spindle 7 on sliding seat 6, is engaged between head 2 and wobble servo motor 5 by gear 3,4; Revolution movement comprises the revolution servomotor 1 be located on head 2, revolution deep bid 16 and workpiece motion s frame 15, and revolution servomotor 1 is connected with revolution deep bid 16 by revolution main shaft 18, and workpiece motion s frame 15 is located at below revolution deep bid 16 for multiple; Free-wheeling system comprises the workpiece rotation servomotor 1502 be located on workpiece motion s frame 15 and the one or more workpiece spindles 1501 installing workpiece 14, and workpiece spindle 1501 is connected with workpiece rotation servomotor 1502 by gear mechanism 1503; Field generator for magnetic 13 is as Fig. 2---shown in Fig. 4, several are adopted to be uniformly distributed (also can uneven distribution) and the column electromagnetic pole of the polarity of adjacent pole contrary (the black-and-white two color circle see in Fig. 4), every two electromagnetic poles form an electromagnetic pole group A, and the multiple electromagnetic pole group A in field generator for magnetic 13 can produce gradient magnetic; Each electromagnetic pole comprises magnetic core 1302, and the appearance of magnetic core 1302 is wound around magnetic core coil 1303, and cartridge 1301 is arranged on the top of magnetic core 1302, and magnetic core 1302 and coil 1303 integral installation are on a base plate 1304, and the spacing between two cartridges 1301 is 14mm.

Operation principle: after energising, magnetic flow liquid, under the effect of gradient magnetic, can form magnetic linkage along magnetic line of force direction, be equivalent to little magnetic bistrique one by one.Artifact-driven mechanism driving workpiece 14 does multifreedom motion and carries out polishing to the surface of workpiece in the magnetic flow liquid being provided with magnetic field.Servomotor 9 can drive head 2 and workpiece 14 to move up and down along guide rail 8 by ball screw 10, sliding seat 6, wobble servo motor 5 drives head 2 and workpiece 14 to swing back and forth by gear 3,4, revolution servomotor 1 drives revolution deep bid 16, workpiece motion s frame 15 and workpiece 14 to revolve round the sun, and the rotation servomotor 1502 on workpiece motion s frame 15 drives workpiece 14 rotation by gear mechanism 1503; When workpiece 14 and magnetic flow liquid relative motion, magnetic flow liquid can produce removal effect to surface of the work, thus realizes polishing.

By magnetic circuit theorem, two opposite polarity magnetic poles can at gap location leakage field, and therefore leakage field place can produce a gradient magnetic.Because the magnetic conductivity μ of ferromagnetic material is very large, iron core has the effect making magnetic induction flux concentration to oneself inside.The line of magnetic induction not having the current-carrying coil of iron core to produce is that disperse is in whole space; If during same coil on a closed iron core, then not only the numerical value of magnetic flux increases greatly, and the line of magnetic induction is almost along iron core.By Ampère circuital theorem, n and I in formula ₀coil turn and electrical current respectively, B _ifor magnetic induction intensity, l _ifor the length of magnetic path, μ _ifor relative permeability, μ ₀for air permeability.Therefore the size that the electrical current of coil and the length of magnetic path can change magnetic induction density B is changed.

Electrified wire can produce magnetic field therein with around in addition, according to Biot-Savart law, magnetic induction density B is first magnetic induction intensity that each current elements Idl produces vector superposed.Therefore, the magnetic induction intensity in MRF magnetic field is the magnetic induction intensity that each cartridge produces vector superposed, namely the large I changing field supply changes magnetic induction intensity direction, thus realize magnetic induction intensity direction adjustable.

By Biot-Sa farr's law, magnetic induction intensity is the multiplication cross that current elements and footpath are vowed, is axial vector, changes the direction that can change magnetic induction intensity that footpath is vowed.Footpath can be changed in each cartridge chamfering to vow, thus the direction of magnetic induction intensity can be changed.

The advantage of the present embodiment:

1, the single pole design of field generator for magnetic is fairly simple, and the shape mainly by changing cartridge changes the direction of the magnetic line of force, and different cartridge shapes can produce different magnetic directions, by optimizing magnetic direction, can obtain best polishing effect.

2, magnetic cartridge interlocks symmetrical, the magnetic field of such generation is more even, magnetic flow liquid shearing force size under this magnetic fields is even, can be more even to the removal effect of surface of the work, therefore the workpiece under the processing of this magnetic field, surface of the work clearance is relatively more consistent, and surface color can be very even.

Embodiment 2

See Fig. 5, the artifact-driven mechanism in the present embodiment comprise elevating mechanism, the revolution movement be located on elevating mechanism, the free-wheeling system that is located at the wabbler mechanism on described revolution movement and is located between revolution movement and described wabbler mechanism; The present embodiment and embodiment 1 difference eliminate wobble servo motor 5, sliding seat 6, oscillating spindle 7, gear 3,4, be directly arranged on sliding seat 6 by head 2, and the structure of workpiece motion s frame 15 is different, and other is all identical.Described revolution movement comprises the revolution servomotor 1 be located on head 2, revolution deep bid 16 and workpiece motion s frame 15, and revolution servomotor 1 is connected with revolution deep bid 16 by revolution main shaft 18, and workpiece motion s frame 15 is located at below revolution deep bid 16 for multiple, described workpiece motion s frame 15 as shown in Figure 6, it adopts mechanical joint, comprise the wabbler mechanism be located on described revolution deep bid 16 and the free-wheeling system be located between revolution deep bid 16 and wabbler mechanism, intermediate gear box 1509, the first bevel gear mechanism that described wabbler mechanism comprises the wobble servo motor 1505 be located on described workpiece motion s frame 15, be connected with wobble servo motor 1505 by the first bevel gear mechanism comprises the bevel gear 1506 be located on wobble servo motor 1505, is located at the bevel gear 1507 that intermediate gear box 1509 engages with bevel gear 1506, described free-wheeling system comprises the rotation servomotor 1513 be located on described workpiece motion s frame 15, be located at the second bevel gear mechanism on described intermediate gear box 1509 and the workpiece spindle 1501 installing workpiece 14, described rotation servomotor 1513 is connected with workpiece spindle 1501 by the second bevel gear mechanism, second bevel gear mechanism comprises the bevel gear 1512 be located on rotation servomotor 1513, be located at the bevel gear 1514 on intermediate gear box 1509, 1510, 1508, bevel gear 1514, 1510 coaxial 1511 they engage with bevel gear 1512 and bevel gear 1508 respectively, workpiece spindle 1501 is connected with bevel gear 1508, described wobble servo motor 1505 and rotation servomotor 1513 are located on described revolution deep bid 16 by top board 1504.

Add man-hour, artifact-driven mechanism drives workpiece 14 to do multifreedom motion, servomotor 9 can drive head 2 and workpiece 14 to move up and down along guide rail 8 by ball screw 10, sliding seat 6, revolution servomotor 1 drives revolution deep bid 16, workpiece motion s frame 15 and workpiece 14 to revolve round the sun, wabbler mechanism drives intermediate gear box 1509 and workpiece 14 to swing, and free-wheeling system drives workpiece 14 rotation.

The present embodiment, by controlling different servomotors, realizes the motion of the different free degree of workpiece, can any two interlocks between revolution, rotation, oscillating motion, also can independently moving, also can three motions link simultaneously.As can the plane of processing work 14 when revolution, rotation interlock, as shown in Figure 7; Revolution, waving when (or wave, rotation) links can the curved surface of processing work 14, as shown in Figure 8.

When workpiece and magnetic flow liquid generation relative motion, the spinning motion of workpiece can realize the polishing of plane, and the oscillating motion of workpiece can realize the polishing of curved surface or facade, and the revolution motion of workpiece spindle can realize the uniformity of polishing.

Embodiment 3

Artifact-driven mechanism in the present embodiment comprises elevating mechanism, be located at revolution movement on elevating mechanism and free-wheeling system, be revolution movement in the present embodiment and free-wheeling system with embodiment 2 difference be planetary body, as shown in Figure 9, comprise the workpiece motion s frame 15 be located at below head 2, workpiece motion s frame 15 comprises gear ring 1516, be located at the mainshaft gear up and down 1519 of coaxial 1520 in gear ring 1516, 1517 and be actively installed on workpiece spindle 1501 on gear ring 1516, the revolution servomotor 1 be located on head 2 is engaged with gear ring 1516 and upper mainshaft gear 1519 by the gear 1515 on revolution main shaft 18, workpiece spindle 1501 is engaged by workpiece gear 1518 and lower main axis gear 1517 again, workpiece spindle 1501 is installed workpiece 14.

Add man-hour, artifact-driven mechanism drives workpiece 14 to do multifreedom motion, servomotor 9 can drive head 2 and workpiece 14 to move up and down along guide rail 8 by ball screw 10, sliding seat 6, revolution servomotor 1 drives gear ring 1516 and upper and lower mainshaft gear 1519,1517 to rotate by revolution main shaft 18 and gear 1515 simultaneously, and gear ring 1516 and mainshaft gear 1517 make workpiece 14 also rotation while revolution.

The structure comparison of the present embodiment is compact, can realize rotation and the revolution of workpiece on a station, and add the rotation of revolution deep bid, the repetitive rate of such workpiece motion s track is very low, and surface of the work polishing uniformity is fine.Because spinning motion and revolution motion are by different driven by servomotor, therefore, the rotating speed of revolution and rotation is adjustable, by adjusting different rotating ratios, can reach best polishing effect.

In above-described embodiment, field generator for magnetic 13 also can adopt another kind of structure, as shown in Figure 10,11, electromagnetic pole in this device adopts and circularizes layout and the opposite polarity triangular shape magnetic pole of two adjacent poles, every two opposite polarity magnetic poles form an electromagnetic pole group A, each magnetic pole comprises triangle magnetic core 1302, the triangular ring cartridge 1301 be arranged on magnetic core 1302, the magnetic core coil 1303 be wound around on magnetic core 1302, and magnetic core 1302 and magnetic core coil 1303 integral installation are on one piece of base plate 1304.

Field generator for magnetic 13 can also adopt as Figure 12, structure shown in Figure 13, comprise two (or multiple) concentric circles to arrange and the opposite polarity annular poles of two adjacent poles, every two opposite polarity magnetic poles form an electromagnetic pole group A, each magnetic pole comprises ring-shaped magnetic core 1302, be wrapped in the magnetic core coil 1303 on magnetic core 1302 outer surface, magnetic core 1302 and magnetic core coil 1303 are fixed on base plate 1304, protection ring 1306 is provided with in the outside of outermost magnetic pole, be provided with exterior loop 1305 in polishing liquid bath 17 neighboring of drum-shaped simultaneously, the lower plane of exterior loop 1305 and the upper planes align of annular poles.

The energising direction of magnetic core coil 1303 and exterior loop 1305 is contrary, can form two opposite polarity magnetic poles, in two coils, form gradient magnetic after energising.After exterior loop 1305 is energized, the magnetic induction density B of magnetic core coil 1303 can be vector superposed, therefore, change the direction (see Figure 14) that the electric current of exterior loop 1305 can regulate the magnetic poles line of force, the requirement of different magnetic field required when can realize processing plane and processing curve.Certain field generator for magnetic 13 also can not establish exterior loop 1305, can play the effect producing magnetic field in magnetic flow liquid equally, and just effect is not as establishing the good of exterior loop 1305.

Field generator for magnetic 13 structure that magnetic pole adopts concentric circles to arrange is simple, can realize the adjustment in magnetic line of force direction by changing size of current.Because the iron core in each coil is continuous print, therefore the annular magnetic pole formed after single coil energising, its magnetic field is continuous print at hoop, and magnetic flow liquid can be uniformly distributed along hoop, and workpiece direction of rotation is vertical with magnetic line of force direction, the shearing force that surface of the work is subject to is larger.

As shown in figure 15, in the utility model, field generator for magnetic 13 can also be located at the side of polishing liquid bath 17, may be used for the multifreedom motion polishing of workpiece equally.

Claims (10)

1. a magnetorheological finishing device, it is characterized in that comprising for splendid attire magnetic flow liquid polishing liquid bath, be located at below described polishing liquid bath or side can produce in polishing liquid bath magnetic field field generator for magnetic, be located at holding workpiece above described polishing liquid bath and make workpiece do the artifact-driven mechanism of at least two frees degree motions.

2. magnetorheological finishing device according to claim 1, is characterized in that described field generator for magnetic adopts multiple electromagnetic pole group be made up of opposite polarity two electromagnetic poles producing gradient magnetic.

3. magnetorheological finishing device according to claim 2, the electromagnetic pole that it is characterized in that forming described multiple electromagnetic pole group adopts and to be evenly arranged and the opposite polarity column magnetic pole of two adjacent poles or employing circularize layout and the opposite polarity triangular shape magnetic pole of two adjacent poles.

4. magnetorheological finishing device according to claim 1, it is characterized in that described field generator for magnetic comprises the electromagnetic pole group be made up of opposite polarity two electromagnetic poles that at least one can produce gradient magnetic, the electromagnetic pole forming described electromagnetic pole group adopts at least two concentric circles to arrange and the opposite polarity annular poles of two adjacent poles.

5. magnetorheological finishing device according to claim 4, is characterized in that described polishing liquid bath is drum-shaped, is provided with exterior loop in polishing liquid bath neighboring, the lower plane of described exterior loop and the upper planes align of described annular poles.

6. the magnetorheological finishing device according to claim 1 or 3 or 4, it is characterized in that the free-wheeling system that described artifact-driven mechanism comprises wabbler mechanism, is located at the revolution movement on wabbler mechanism and is located on described revolution movement, described workpiece is located on described free-wheeling system.

7. magnetorheological finishing device according to claim 6, be is characterized in that described wabbler mechanism comprises head, the first wobble servo motor, is engaged between described head and the first wobble servo motor by gear mesh; Described revolution movement comprises the revolution servomotor be located on described head, revolution deep bid and workpiece motion s frame, and described revolution servomotor is connected with revolution deep bid by revolution main shaft, and described workpiece motion s frame is that at least one is located at below revolution deep bid; Described free-wheeling system comprises the first rotation servomotor be located on workpiece motion s frame and at least one workpiece spindle installing workpiece, and described workpiece spindle is connected with the first rotation servomotor by gear mechanism.

8. the magnetorheological finishing device according to claim 1 or 3 or 4, is characterized in that the free-wheeling system that described artifact-driven mechanism comprises revolution movement, is located at the wabbler mechanism on described revolution movement and is located between revolution movement and described wabbler mechanism.

9. magnetorheological finishing device according to claim 8, it is characterized in that described revolution movement comprises head, the revolution servomotor be located on described head, revolution deep bid and workpiece motion s frame, described revolution servomotor is connected with revolution deep bid by revolution main shaft, and described workpiece motion s frame is that at least one is located at below revolution deep bid; The intermediate gear box that described wabbler mechanism is comprised the second wobble servo motor be located on described workpiece motion s frame, is connected with the second wobble servo motor by the first bevel gear mechanism; Described free-wheeling system comprises the second rotation servomotor be located on described workpiece motion s frame, be located at the second bevel gear mechanism on described intermediate gear box and install the workpiece spindle of workpiece, and described second rotation servomotor is connected with workpiece spindle by the second bevel gear mechanism; Described second wobble servo motor and the second rotation servomotor are located on described revolution deep bid.

10. the magnetorheological finishing device according to claim 1 or 3 or 4, is characterized in that described artifact-driven mechanism comprises revolution movement and is located at the free-wheeling system on revolution movement; Described revolution movement and free-wheeling system are planetary body, and described workpiece is arranged between described revolution movement and free-wheeling system by workpiece spindle.