CN208895739U - Magnetic force burnishing device - Google Patents

Abstract

The utility model proposes a kind of magnetic force burnishing devices, it is polished for the surface to non-regular shape workpiece, the magnetic force burnishing device includes pedestal, polish box, working head, cue head and at least one rotary drive, the polishing box is set on the pedestal, the working head and the cue head are set to the two sides that on the pedestal and its working end is located at the polishing box, at least one described rotary drive is set on the pedestal and it can drive the working head or the cue head to rotate so that the magnetic field formed between the working head and the cue head changes, the polishing box is for accommodating polishing fluid, the polishing fluid is magnetic abrasive, it can form the abrasive brush for workpiece of polishing on the magnetic pole of the working head and the cue head, to in changes of magnetic field Movement is to polish the workpiece surface being placed in the polishing box.

Description

Magnetic force burnishing device

Technical field

The utility model relates to polishing field, especially one kind to be polished to the surface of non-regular shape part Magnetic force burnishing device.

Background technique

With the fast development of CNC processing technology, the concern of industry has been subjected to the retrofit of special shape part, Such as in the fields such as health care/automobile and aerospace/national defence, many core parts include complicated curved surface.And it answers Miscellaneous curved surface cannot be made of elementary analytic surface, therefore the complex-curved efficient and high quality of complicated shape part is processed into The a great problem of industry.Traditional grinding and polishing mode is generallyd use at present to polish it, the applicability of this method is limited, To fine position, the surface polishing quality of complex region is not ensured.

Utility model content

In view of the above situation, it is necessary to which a kind of magnetic force that the surface convenient for non-regular shape workpiece is polished throwing is provided Electro-optical device, to solve the above problems.

A kind of magnetic force burnishing device, polishes for the surface to non-regular shape workpiece, the magnetic force burnishing device The base is set to including pedestal, polishing box, working head, cue head and at least one rotary drive, the polishing box On seat, the working head and the cue head are set on the pedestal and its working end and are located at the polishing box Two sides, at least one described rotary drive is set on the pedestal and it can drive the working head or the auxiliary Magnetic head rotates so that the magnetic field formed between the working head and the cue head changes, and the polishing box is for receiving Hold polishing fluid, the polishing fluid is magnetic abrasive, can be formed and be used on the magnetic pole of the working head and the cue head In the abrasive brush of polishing workpiece, to moved in changes of magnetic field to be thrown to the workpiece surface being placed in the polishing box Light.

Further, the pedestal includes linear motion slide unit, falsework and auxiliary frame, the falsework and the auxiliary Frame is all set on the linear motion slide unit, and the working head is set on the falsework, the cue head setting In on the auxiliary frame, the polishing box is set between the falsework and the auxiliary frame.

Further, the working head include work basal disc, it is multiple first permanent magnets, multiple second permanent magnets, multiple Third permanent magnet and multiple empiecements, the work basal disc are rotatably arranged on the falsework, multiple first permanent magnets, Multiple second permanent magnets and multiple third permanent magnet rings are set to the work base around the axis of the work basal disc On the surface of disk, first permanent magnet, second permanent magnet and the third permanent magnet are respectively the pole N and S interpolar every setting It sets, multiple empiecements are set on the surface of the work basal disc and respectively separate the adjacent pole N and the pole S.

Further, first permanent magnet, second permanent magnet and the third permanent magnet recycle set in sequence In on work basal disc surface.

Further, first permanent magnet is not provided with apopore, and lower position apopore, institute is arranged in second permanent magnet It states third permanent magnet and upper position apopore is set.

Further, the work basal disc is internally provided with cooling oil path.

Further, the cue head includes auxiliary basal disc, multiple first permanent magnets and multiple empiecements, the auxiliary base Disk is rotatably arranged on the auxiliary frame, and multiple first permanent magnet rings are set to described around the axis of the auxiliary basal disc On the surface for assisting basal disc, first permanent magnet is the pole N and S interpolar every setting, and multiple empiecements are set to the auxiliary Separate on the surface of basal disc and respectively by the adjacent pole N and the pole S.

Further, it is provided with linear drives part on the linear motion slide unit, the linear drives part can drive institute It states falsework and the auxiliary frame is close to each other.

Further, the magnetic force burnishing device includes two rotary drives, and a rotary drive is set It is placed in the falsework and the working head can be driven to rotate, another described rotary drive is set to the auxiliary frame Above and the cue head can be driven to rotate.

Further, the protective cover that the polishing box includes accommodating chamber and is slideably positioned on the accommodating chamber, the receipts Cavity is for accommodating the polishing fluid.

Above-mentioned magnetic force burnishing device passes through and opposite working head and cue head is arranged on the base, and in working head Between cue head setting polishing box, polishing fluid be contained in polishing box in, on working head and cue head between strong magnetic Under the action of, magnetic polishing fluid is lined up along the direction of the magnetic line of force, and absorption forms abrasive brush on magnetic pole, is being rotated Magnetic field under the driving of actuator between working head and cue head changes, to make the polishing fluid in polishing box in magnetic Moved under the action of to be polished to the workpiece surface being placed in polishing box, can fine or complex surface to workpiece into Row processing, improves the accuracy and efficiency of polishing.

Detailed description of the invention

Fig. 1 is the stereoscopic schematic diagram of the burnishing device in one embodiment of the utility model.

Fig. 2 is the decomposed stereoscopic schematic diagram of burnishing device shown in Fig. 1.

Fig. 3 is the amplification stereoscopic schematic diagram of the working head of burnishing device shown in Fig. 2.

Fig. 4 is the amplification stereoscopic schematic diagram of the cue head of burnishing device shown in Fig. 2.

Main element symbol description

The following detailed description will be further explained with reference to the above drawings the utility model.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model It clearly and completely describes, it is clear that described embodiment is only the utility model a part of the embodiment, rather than whole realities Apply example.Based on the embodiments of the present invention, those of ordinary skill in the art institute without making creative work The all other embodiment obtained, fall within the protection scope of the utility model.

It should be noted that it can be directly to separately when an element is considered as " connection " another element One element may be simultaneously present the element being centrally located.When an element is considered as " setting exists " another element, It, which can be, is set up directly on another element or may be simultaneously present the element being centrally located.

Unless otherwise defined, all technical and scientific terms used herein are led with the technology for belonging to the utility model The normally understood meaning of the technical staff in domain is identical.Terminology used in the description of the utility model herein only be The purpose of description specific embodiment, it is not intended that in limitation the utility model.Term " and or " used herein includes Any and all combinations of one or more related listed items.

Please refer to Fig. 1 and Fig. 2, the utility model provides a kind of magnetic force burnishing device 100.Magnetic force burnishing device 100 The surface of non-regular shape workpiece can be polished.Magnetic force burnishing device 100 includes pedestal 10, polishing box 20, work magnetic First 30, cue head 40 and at least one rotary drive 50.Polishing box 20 is set on pedestal 10.It is contained in polishing box 20 Polishing fluid.Be set to pedestal 10 on and its working end opposite with cue head 40 of working head 30 is located at polishing box 20 Two sides.At least one rotary drive 50 is set on pedestal 10 and it can drive working head 30 or cue head 40 to rotate So that the magnetic field formed between working head 30 and cue head 40 changes, to make the polishing fluid in polishing box 20 in magnetic It is moved under the action of to be polished to the workpiece surface being placed in polishing box 20.

Pedestal 10 includes linear motion slide unit 11, falsework 12 and auxiliary frame 13.Falsework 12 and auxiliary frame 13 are respectively provided with In linear motion slide unit 11 on and can linear motion slide unit 11 on linear drives part 111 driving under it is close to each other or separate. In the present embodiment, polishing box 20 is set on falsework 12 and between falsework 12 and auxiliary frame 13.Working head 30 is set It is placed on falsework 12 and working end is towards auxiliary frame 13.Cue head 40 is set on auxiliary frame 13 and working end direction work Frame 12.

Polishing box 20 includes accommodating chamber 21 and the protective cover 22 being slideably positioned on accommodating chamber 21.Polishing fluid is magnetic mill Material can form the abrasive brush of polishing workpiece on magnetic pole.

As shown in figure 3, working head 30 include work basal disc 31, multiple first permanent magnets 32, multiple second permanent magnets 33, Multiple third permanent magnets 34 and multiple empiecements 35.Work basal disc 31 is rotatably arranged on falsework 12.Inside work basal disc 31 It is provided with cooling oil path.Multiple first permanent magnets 32, multiple second permanent magnets 33 and multiple third permanent magnets 34 are around work base The axis of disk 31 is set on the surface of work basal disc 31.In the present embodiment, according to the first permanent magnet 32, the second permanent magnet 33, Third permanent magnet 34, the sequence of the first permanent magnet 32 are circular on work basal disc 31.First permanent magnet 32, the second permanent magnet 33 And third permanent magnet 34 is respectively the pole N and S interpolar every setting.Multiple empiecements 35 are set on the surface of work basal disc 31 and difference The adjacent pole N and the pole S are separated.It is distinguished as being discharged between first permanent magnet 32, the second permanent magnet 33 and third permanent magnet 34 Hole setting position is different: the first permanent magnet 32 is not provided with apopore, and lower position apopore, third permanent magnetism is arranged in the second permanent magnet 33 Upper position apopore is arranged in iron 34.

As shown in figure 4, cue head 40 includes auxiliary basal disc 41, multiple first permanent magnets 42 and multiple empiecements 43.Auxiliary Basal disc 41 is rotatably arranged on auxiliary frame 13.Multiple first permanent magnets 42 are set to auxiliary base around the axis of auxiliary basal disc 41 On the surface of disk 41.First permanent magnet 42 is the pole N and S interpolar every setting.Multiple empiecements 43 are set to the surface of auxiliary basal disc 41 Above and respectively the adjacent pole N and the pole S are separated.

In the present embodiment, magnetic force burnishing device 100 includes two rotary drives 50.One rotary drive 50 is set to Falsework 12 and work basal disc 31 can be driven to rotate, another rotary drive 50 is set on auxiliary frame 13 and can drive Basal disc 41 is assisted to rotate.

The first permanent magnet 32, the second permanent magnet 33, third permanent magnet 34 on working head 30 and cue head 40 and Strong magnetic field action is formed between one permanent magnet 42, so that magnetic polishing fluid is lined up along the direction of the magnetic line of force, on magnetic pole Absorption forms abrasive brush, puts the workpiece in accommodating chamber 21, and abrasive brush generates certain pressure to workpiece to be processed surface, sliding Protective cover 22 seals accommodating chamber 21, and two rotary drives 50 control working head 30 respectively and cue head 40 relatively rotates So that the magnetic field formed between working head 30 and cue head 40 changes, the magnetic on working head 30 and cue head 40 While the abrasive brush rotation that pole rotation drives polishing fluid to be formed, certain gap is kept to move along the surface of workpiece, thus real Now to the passivation polishing of workpiece surface.

Magnetic force burnishing device 100 on pedestal 10 by being arranged opposite working head 30 and cue head 40, and in work Make between magnetic head 30 and cue head 40 setting polishing box 20, polishing fluid is contained in polishing box 20, in working head 30 and auxiliary Between on magnetic assist head 40 under the action of high-intensity magnetic field, magnetic polishing fluid is lined up along the direction of the magnetic line of force, is inhaled on magnetic pole Attached formation abrasive brush changes in the magnetic field under the driving of rotary drive 50 between working head 30 and cue head 40, It is moved under the influence of a magnetic field to make to polish the polishing fluid in box 20 to be carried out to the workpiece surface being placed in polishing box 20 Polishing, can handle the fine or complex surface of workpiece, improve the accuracy and efficiency of polishing.

In addition, those skilled in the art can also do other variations within the spirit of the present invention, certainly, these are according to this reality The variation made of novel spirit should all be included in the utility model range claimed.

Claims (10)

1. a kind of magnetic force burnishing device, polishes for the surface to non-regular shape workpiece, it is characterised in that: the magnetic force Burnishing device includes pedestal, polishing box, working head, cue head and at least one rotary drive, the polishing box setting In on the pedestal, the working head and the cue head are set on the pedestal and its working end be located at it is described Polish box two sides, at least one described rotary drive be set on the pedestal and its can drive the working head or The cue head rotates so that the magnetic field formed between the working head and the cue head changes, the polishing Box is magnetic abrasive for accommodating polishing fluid, the polishing fluid, can be in the magnetic pole of the working head and the cue head Abrasive brush of the upper formation for workpiece of polishing, to moved in changes of magnetic field to the workpiece table being placed in the polishing box Face is polished.

2. magnetic force burnishing device as described in claim 1, it is characterised in that: the pedestal includes linear motion slide unit, work Frame and auxiliary frame, the falsework and the auxiliary frame are all set on the linear motion slide unit, the working head setting In on the falsework, the cue head is set on the auxiliary frame, and the polishing box is set to the falsework and institute It states between auxiliary frame.

3. magnetic force burnishing device as claimed in claim 2, it is characterised in that: the working head includes work basal disc, multiple First permanent magnet, multiple second permanent magnets, multiple third permanent magnets and multiple empiecements, the work basal disc are rotatably arranged in institute It states on falsework, multiple first permanent magnets, multiple second permanent magnets and multiple third permanent magnet rings are around described The axis of work basal disc is set on the surface of the work basal disc, first permanent magnet, second permanent magnet and described Third permanent magnet is respectively the pole N and S interpolar every setting, and multiple empiecements are set on the surface of the work basal disc and difference The adjacent pole N and the pole S are separated.

4. magnetic force burnishing device as claimed in claim 3, it is characterised in that: first permanent magnet, second permanent magnet And the third permanent magnet recycles be set on work basal disc surface in sequence.

5. magnetic force burnishing device as claimed in claim 3, it is characterised in that: first permanent magnet is not provided with apopore, institute It states the second permanent magnet and lower position apopore is set, upper position apopore is arranged in the third permanent magnet.

6. magnetic force burnishing device as claimed in claim 3, it is characterised in that: the work basal disc is internally provided with cooling oil Road.

7. magnetic force burnishing device as claimed in claim 2, it is characterised in that: the cue head includes auxiliary basal disc, multiple First permanent magnet and multiple empiecements, the auxiliary basal disc are rotatably arranged on the auxiliary frame, multiple first permanent magnets Axis around the auxiliary basal disc is set on the surface of the auxiliary basal disc, first permanent magnet be the pole N and S interpolar every Setting, multiple empiecements are set on the surface of the auxiliary basal disc and respectively separate the adjacent pole N and the pole S.

8. magnetic force burnishing device as claimed in claim 2, it is characterised in that: be provided with straight line drive on the linear motion slide unit Moving part, the linear drives part can drive the falsework and the auxiliary frame close to each other.

9. magnetic force burnishing device as claimed in claim 2, it is characterised in that: the magnetic force burnishing device includes two rotations Turning actuator, a rotary drive is set to the falsework and the working head can be driven to rotate, another The rotary drive is set on the auxiliary frame and the cue head can be driven to rotate.

10. magnetic force burnishing device as described in claim 1, it is characterised in that: the polishing box includes that accommodating chamber and sliding are set The protective cover being placed on the accommodating chamber, the accommodating chamber is for accommodating the polishing fluid.