CN1125982C - Magnetic powder defects-detection method for ultralarge type thin-wall lantern ring - Google Patents

Abstract

The present invention relates to magnetic powder flaw detection method for supergiant thin-wall lantern rings. The present invention solves the disadvantages of multiple magnetization number of times, easy detection miss and difficult demagnetization of a traditional core-rod threading bar method for eccentrically magnetizing supergiant thin-wall lantern rings. The present invention forms a magnetic field by energizing an on-off type closed coil and carries out longitudinal magnetization for one section of a supergiant thin-wall lantern ring positioned in the magnetic field, and the longitudinal magnetization is converted into circumferential magnetization corresponding to the whole supergiant thin-wall lantern ring. Thereby, the present invention has the advantages of generation of the circumferential utilization of longitudinal magnetization, even magnetic line distribution, good magnetization effect and consistent magnetic induction intensity on the inner diameter and the outer diameter of the supergiant thin-wall lantern ring. Thereby, all defects can be effectively detected, and the present invention has the advantages of high efficiency, no detection miss and easy demagnetization. The detection method is a necessary flaw detection method for enterprises which produce supergiant thin-wall lantern rings.

Description

The magnetic powder inspection method of super-huge thin-walled lasso

Technical field

The present invention relates to nondestructive examination, the magnetic powder inspection method of especially super-huge thin-walled lasso.

Background technology

Super-huge thin-walled lasso is the problem that Production of bearing enterprise extremely is concerned about as the nondestructive examination of super-huge thin-wall bearing always, because this kind bearing diameter is big, wall is thin, in case crackle appears, and very harmful.Method of detection commonly used is a magnaflux, it is to utilize fault location stray field and the interactional principle of magnetic to detect a kind of lossless detection method of ferrimagnet surface and near surface flaw, its basic operation process is: measured workpiece is placed a magnetic field, when it is magnetized, if there are defectives such as crackle in its surface or nearly surface, just can form a stray field at this place, this stray field will attract, assemble the magnetic that applies in the flaw detection process and form defective and show thereby can judge workpiece zero defect is arranged.At present, domestic method of detection to extra large size bearing has following several:

Yoke method: adopt local magnetized, local flaw detection, this method labor strength is big, and the loss height.

Eccentric circumferential magnetization is carried out in the axle energising: the magnetized number of times of this method is a lot, need more than 20 times for big lasso, and the demagnetization after the flaw detection is also difficult.

Osmosis: must successively carry out smearing of gross area with clean-out system, bleeding agent, developer in sequence or spray, the flaw detection time is long, the cost height of flaw detection.

Inductive method: because the restriction of method, be a kind of method of detection of longitudinal magnetization, may check out the grinding crack that occurs in the grinding hardly, and grinding crack be a kind of crackle that is prone to and has very big harmfulness in the process, for this crackle, be not allow omission.

Fall method: allow lasso drop down, broken then and scrapped, otherwise think that well the lasso that this method may be held is broken, and omission still can't be avoided from certain height.

In the above several method, utilize the axle end contact method of magnetic powder inspection principle comparatively commonly used, its eccentric circumferential magnetization exists magnetization often, and part inside and outside diameter magnetic induction density has than big difference, easily shortcoming such as omission and flaw detection back demagnetization difficulty.

Summary of the invention

The purpose of this invention is to provide a kind of magnetic powder inspection method of magnetizing few, the no omission of number of times, the easy super-huge thin-walled lasso of demagnetization.

For achieving the above object, the present invention is by the following technical solutions:

A kind of magnetic powder inspection method of super-huge thin-walled lasso, it is that super-huge thin-walled lasso is placed a magnetic field, when its during by magnetic field magnetisation, when if there is defective such as crackle on surface or nearly surface, just can form a stray field at this place, this stray field will attract, assemble the magnetic that applies in the flaw detection process and form defective and show, thereby judge this place defectiveness according to this, and whether finally definite above-mentioned super-huge thin-walled lasso is qualified.This method may further comprise the steps: the first step, but the encapsulated coil of a folding is opened; In second step, a section of super-huge thin-walled lasso is placed in it; In the 3rd step, share this encapsulated coil; In the 4th step, form magnetic field to coil electricity; In the 5th step, above-mentioned magnetic field is in one section magnetic field that forms longitudinal magnetization of above-mentioned super-huge thin-walled lasso, and this longitudinal magnetization has changed into circumferential magnetization with respect to whole super-huge thin-walled lasso.

The present invention utilizes folding type encapsulated coil, tested super-huge thin-walled lasso is placed in one, closed then energising forms magnetic field, like this, this lasso just is in the longitudinal magnetization in above-mentioned magnetic field, and this lasso is round lasso, the axial magnetic flux that longitudinal magnetization produced concerning this super-huge thin-walled lasso, has just become circumferential magnetization, the magnetic line of force that the distribution of its magnetic line of force is produced when wearing the super-huge thin-walled lasso of the eccentric magnetization of excellent method is similar, and the distributing homogeneity of this magnetic line of force is more far better than the magnetic line of force of wearing excellent eccentric magnetization method generation, and this magnetic line of force that is evenly distributed is identical to the magnetic induction density of external diameter in the super-huge thin-walled lasso, when magnetic detects, do not have any blind area, do not have omission and occur, its magnetization number of times is wanted much less with respect to wearing excellent eccentric magnetization method, because magnetization evenly, demagnetization also is easy to.Thereby, the magnetic powder inspection method of super-huge thin-walled lasso provided by the present invention, the magnetization number of times is few, and no omission, demagnetization are particularly suitable for surveying super-huge thin-walled lasso product easily, and be especially suitable to Production of bearing enterprise.

Description of drawings

Fig. 1 is for wearing excellent eccentric magnetization method synoptic diagram.

Fig. 2 is for wearing excellent eccentric magnetization method magnetic line of force distribution schematic diagram.

Fig. 3 is the longitudinal magnetization synoptic diagram.

Fig. 4 is the circumferential magnetization synoptic diagram of standard.

Fig. 5 combines synoptic diagram for encapsulated coil of the present invention with super-huge thin-walled lasso.

Fig. 6 is magnetic line of force distribution schematic diagram on the super-huge thin-walled lasso of the present invention.

Embodiment

As shown in Figure 1, when super-huge thin-walled lasso 1 is worn the eccentric magnetization of excellent method, according to the requirement of magnetization standard, eccentric magnetized effective magnetizing district is 4 times of core bar 2 diameters, and common core bar diameter is 60mm, is 1.5 meters super-huge thin-walled lasso 1 if survey a diameter, then needing magnetized number of times is 20 times, magnetic history bothers very much, and, by the magnetization standard, with which type of method magnetization, the demagnetization that then need use the same method, because demagnetization need slowly carry out, thereby its demagnetization difficulty more.As shown in Figure 2, when wearing the super-huge thin-walled lasso 1 of the eccentric magnetization of excellent method, the distribution of its magnetic line of force 3 makes the magnetic induction density on the interior external diameter of super-huge thin-walled lasso 1 that difference be arranged, thereby can cause omission.

Wear the eccentric magnetization of excellent method as shown in Fig. 1, Fig. 2, existing longitudinal magnetization has circumferential magnetization again, the longitudinal magnetization principle as shown in Figure 3, Fig. 4 is the distribution schematic diagram of the magnetic line of force 11 that forms when being in lasso 10 centers of core bar 9.As shown in Figure 3, what suppose to put in the coil 6 is that a diameter is the cylindrical sample 7 of 20cm, can form the magnetic line of force 8 with its parallel axes, and the magnetization of 8 pairs of samples 7 of this magnetic line of force is longitudinal magnetization.As shown in Figure 4, the circumferential magnetization of standard is that core bar 9 is positioned over lasso 10 centers, when core bar 9 energisings, form the magnetic line of force 11, the magnetic line of force 11 is circumferentially parallel with lasso 10, is optimal circumferential magnetization, but the diameter of lasso 10 herein can not be excessive, because the cover loop diameter is too big, and air reluctance is bigger, and the Circumferential field that the core bar energising is produced is by having decayed very faintly behind a thick layer of air, though the magnetic line of force distributes good, magnetic induction density too a little less than.In addition for the too big lasso of diameter, if strengthen the core bar diameter, to obtain enough strong magnetic induction density, also be infeasible, because the overstriking core bar means the increasing magnetization current, and for diameter 1 meter lasso, at least need the magnetization current of 2-3 Wan An training, this is difficult to accomplish that conventional equipment does not reach requirement at all.So super-huge thin-walled lasso utilizes method shown in Figure 4, can not obtain enough strong magnetic induction density, but this Circumferential magnetization method can be used among the present invention and goes.

As Fig. 5, shown in Figure 6, the magnetic powder inspection method of super-huge thin-walled lasso provided by the present invention is to utilize 4 pairs of super-huge thin-walled lassos of a coil to carry out longitudinal magnetization, its method is that coil 4 is set to an enclosed type coil, when making this coil 4, but it is set to the folding type, open coil 4, super-huge thin-walled lasso 1 is put into coil 4, encapsulated coil 4 then, at this moment, coil 4 is enclosed within on the wall of super-huge thin-walled lasso 1, with coil 4 energisings, form magnetic field, this magnetic field is to being positioned at one section formation longitudinal magnetization of coil 4 on this super-huge thin-walled lasso, the magnetic line of force 5 of generation should be an axial magnetic flux concerning above-mentioned a section of being positioned at coil 4, thereby with respect to whole super-huge thin-walled lasso 1, above-mentioned longitudinal magnetization just has been transformed into circumferential magnetization, and the magnetic line of force 3 that the distributing homogeneity of its magnetic line of force 5 is worn the eccentric magnetization generation of excellent method than core bar is far better.The circumferential magnetization that utilizes the above-mentioned magnetic line of force that is evenly distributed 5 to be produced carries out magnetic powder inspection to super-huge thin-walled lasso, can effectively detect each lip-deep crackle of lasso or other defective, there is not any blind area, its magnetization efficient height, it is simple and convenient to demagnetize, and the labour intensity of whole magnetic powder inspection process can greatly reduce.

Claims (1)

1. the magnetic powder inspection method of a super-huge thin-walled lasso, this method may further comprise the steps: the first step, but the encapsulated coil of a folding is opened; In second step, a section of super-huge thin-walled lasso is placed in it; In the 3rd step, share this encapsulated coil; In the 4th step, form magnetic field to coil electricity; In the 5th step, above-mentioned magnetic field is in one section magnetic field that forms longitudinal magnetization of above-mentioned super-huge thin-walled lasso, and this longitudinal magnetization has changed into circumferential magnetization with respect to whole super-huge thin-walled lasso.

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