CN205027323U - Electromagnetic acoustic thickness measuring probe that magnetic force can break - Google Patents

Abstract

The utility model relates to an electromagnetic acoustic thickness measuring probe that magnetic force can break, include: main permanent magnet is to (1, 2), cyclic annular magnetic force switch (3) and magnetic conduction bridge (4), main permanent magnet is opposite to polarity, cyclic annular magnetic force switch (3) comprise two couples 14 cyclic annular supplementary permanent magnet end to end in proper order, revolve to 0 degree cyclic annular magnetic force switch (3), gets into the state of opening, forms the main field in the vertical direction for the electromagnetic acoustic thickness measuring, revolve to 90 degrees cyclic annular magnetic force switch (3), gets into the closed condition, forms the main field on the horizontal direction, magnetic conduction bridge (4) comprise magnetic conductivity piece and two pairs of magnetic conduction arms for the magnetic line of force under the closed condition on the guide main circuit forms closed -loop, cuts off the magnetism adsorption affinity to the ferromagnetism work piece. The utility model discloses a rotatory mode realizes weak conversion of magnetic field strength and magnetism adsorption affinity break -make, has advantages such as compact structure, easy and simple to handle, easy and work piece separation.

Description

The electromagnetic ultrasonic thickness measuring probe that a kind of magnetic force can break

Technical field

The utility model belongs to ultrasonic non-destructive inspection techniques field, more specifically, and the electromagnetic ultrasonic thickness measuring probe that the magnetic force relating to a kind of ferromagnetic workpiece thickness measuring can break.

Background technology

Electromagnetic acoustic (Electromagneticacoustic is called for short EMAT) is a kind of new technology that field of non destructive testing occurs.This technology utilizes electromagnetic coupling method to encourage and receives ultrasound wave.Compared with traditional piezoelectric supersonic detection technique, it have high without the need to couplant, measuring accuracy, can the advantages such as non-contact measurement be realized, to measured surface require low, be applicable to detection under various hot environment and without the need to changing transducer, the frequency that only need change excitation electric signal just can realize freely changing of wave mode pattern.

EMAT thickness measurement technology is an importance of industrial nondestructive testing field application.The time delay propagated on ferromagnetic workpiece thickness direction by detecting ultrasound wave can convert out the thickness of ferromagnetic workpiece.Because EMAT thickness measuring adopts the shear wave of vertical incidence, therefore vertical definition exceeds one times than piezoelectric transducer.Therefore EMAT thickness measurement technology can be used for the detection of steel plate and oil and gas pipeline etc.

Permanent magnet that traditional electromagnetic ultrasonic thickness measuring probe utilizes magnetic stronger produces excitation field, even if thus in a non-operative state, popping one's head in still has stronger magnetic adsorbability to ferromagnetic workpiece.Meticulously, otherwise must pop one's head in and may directly pound to ferromagnetic workpiece when this causes testing staff probe to be placed in ferromagnetic workpiece surface, cause the damage of probe.And the magnetic adsorbability of permanent magnet carries out transposition measurement along ferromagnetic workpiece surface mobile probe to testing staff or all can make troubles from the surperficial operation removing probe of ferromagnetic workpiece after having detected in testing process.

B.Dutton proposes a kind of permanent magnet method strengthening magnetic field close to each other utilizing a pair polarity relative in its paper " Anewmagneticconfigurationforasmallin-planeelectromagneti cacoustictransducerappliedtolaser-ultrasoundmeasurements: Modelingandvalidation ", but what he finally utilized is the magnetic field that the magnetic line of force is dispersed to surrounding, the magnetic line of force do not retrained and guide, thus the main field of a certain specific direction cannot be formed, the magnetic field intensity requirement needed for EMAT thickness measuring cannot be reached.A kind of impulse mgnet for electromagnet ultrasonic changer is disclosed in CN101706266A, adopt impulse mgnet to replace permanent magnet, the break-make of magnetic force can be realized, but, electromagnet is easy in actual use produces interference to detection signal, directly has influence on accuracy of detection.

Summary of the invention

The utility model object is the defect existed for above-mentioned prior art, proposes the electromagnetic ultrasonic thickness measuring probe that a kind of magnetic force can break, and is changed the direction of main field, thus realize the technique effect of magnetic force break-make by rotating annular magnetic switch.

The electromagnetic ultrasonic thickness measuring probe that magnetic force can break, comprising:

Main permanent magnet pair, polarity is contrary, produces toward center extruding and the high-intensity magnetic field dispersed to surrounding;

Ring-type magnetic switch, to join end to end successively to 1/4 ring-type auxiliary permanent magnet by two and forms: wherein a pair opposite polarity auxiliary permanent magnet pair, for drawing the magnetic line of force in further, hinders magnetic line of force loss in air towards periphery; Another right auxiliary permanent magnet, for guiding the magnetic line of force to move towards, forms the main field identical to auxiliary permanent magnet polar orientation with this;

Magnetic conduction bridge, be made up of magnetic conductivity part and two pairs of magnetic conduction arms, for when ring-type magnetic switch is in closed condition, guide the magnetic line of force on main magnetic circuit to form closed-loop path, hinder the magnetic line of force through the ferromagnetic workpiece of probe below, thus cut off the magnetic adsorbability of probe to workpiece;

Housing and cap, this housing and cap are made by nonferromugnetic material; Housing and cap be fixed together for encapsulate main permanent magnet to, ring-type magnetic switch, magnetic conduction bridge;

Copper sheet, is positioned at the below that main permanent magnet is right;

Planar spiral winding, is positioned at the below of copper sheet;

Wearing layer, is positioned at the below of planar spiral winding;

Socket, is arranged in the center pit of housing upper surface, is connected by insulated conductor with planar spiral winding.

As further preferably, the inner ring of ring-type magnetic switch presses close to main permanent magnet pair as far as possible, and spacing controls at 0.5mm ~ 1mm.

As further preferably, magnetic conductivity part is that tabular is arranged in housing internal upper part.

As further preferably, a pair magnetic conduction arm in two pairs of magnetic conduction arms is column, and upper end is installed on magnetic conductivity part, and lower end presses close to the right outside of main permanent magnet respectively, and spacing controls within 1mm.

As further preferably, another in two pairs of magnetic conduction arms presents newel post's shape lower end 1/4 ring-type to magnetic conduction arm, and upper end is installed on magnetic conductivity part, and lower end encircles outside ring-type magnetic switch respectively, and spacing controls at 0.5mm ~ 1mm.

As further preferably, magnetic conductivity part and two pairs of magnetic conduction arms are made by the high permeability material of electrician's iron.

As further preferably, wearing layer is made by for example POM or this kind of high strength of nylon 6, shock-resistant, wear-resistant, corrosion-resistant material and is adhered to below housing.

Technique effect of the present utility model is embodied in:

According to the electromagnetic ultrasonic thickness measuring probe that rotation controlled magnetic force of the present utility model can break, the poly-magnetic of permanent magnet extruding utilizing a pair polarity relative, the intensity in extruding magnetic field is controlled by the spacing between adjustment magnet, utilize ring-type magnetic switch, draw in and guide the magnetic line of force, realize the magnetic force break-make under unlatching (ON) and (OFF) state of closedown, thus be convenient to testing staff at the placement of ferromagnetic workpiece surface, mobile and taking-up ultrasonic thickness measuring probe.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of the electromagnetic ultrasonic thickness measuring probe that a kind of magnetic force can break.

Fig. 2 is the encapsulation figure of the electromagnetic ultrasonic thickness measuring probe that a kind of magnetic force can break.

Fig. 3 is the wiring layout of the electromagnetic ultrasonic thickness measuring probe that a kind of magnetic force can break.

Fig. 4 is a kind of magnetic force electromagnetic ultrasonic thickness measuring probe that can break perpendicular to the central axis of main permanent magnet 1 and 2 and the cut-open view be positioned on the plane A in the middle of both.

Fig. 5 is a kind of magnetic force electromagnetic ultrasonic thickness measuring probe that can break perpendicular to plane A and through the cut-open view on the plane B of the central axis of main permanent magnet 1 and 2.

Fig. 6 is the Distribution of Magnetic Field figure of the electromagnetic ultrasonic thickness measuring probe that can break according to magnetic force of the present utility model under opening (ON) utilizing COMSOLMultiphysics4.4 simulation software to obtain.

Fig. 7 is the Distribution of Magnetic Field figure of the electromagnetic ultrasonic thickness measuring probe that can break according to magnetic force of the present utility model under (OFF) in off position utilizing COMSOLMultiphysics4.4 simulation software to obtain.

In all of the figs, identical Reference numeral is used for representing identical element or structure, wherein: 1, the main permanent magnet pair of 2-; 3-ring-type magnetic switch; 4-magnetic conduction bridge; 5, the auxiliary permanent magnet pair that 7-polarity is identical; 6, the opposite polarity auxiliary permanent magnet pair of 8-; 9-magnetic conductivity part; 10,12-pair of columnar magnetic conduction arm; 11,13-presents the magnetic conduction arm of newel post's shape lower end 1/4 ring-type for a pair; 14-cylindrical sleeves; 15-latch shape sleeve; 16-housing; 17-screw rod; 18-socket; 19-hexagonal nut; 20-Screw; The large screw of 21-; 22-handle; 23-cap; 24-copper sheet; 25-planar spiral winding; 26-wearing layer.

Embodiment

In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.In addition, if below in described each embodiment of the utility model involved technical characteristic do not form conflict each other and just can mutually combine.

As shown in Figure 1 and Figure 2, the electromagnetic ultrasonic thickness measuring probe that a kind of magnetic force can break mainly comprises: main permanent magnet to 1,2, ring-type magnetic switch 3 and magnetic conduction bridge 4; Main permanent magnet is contrary to 1,2 polarity, produces toward center extruding and the high-intensity magnetic field dispersed to surrounding; Ring-type magnetic switch 3 to join end to end successively to 1/4 ring-type auxiliary permanent magnet by two and forms: wherein a pair opposite polarity auxiliary permanent magnet is to 6,8, for drawing the magnetic line of force in further, hinders magnetic line of force loss in air towards periphery; Another to 5,7, for guiding the magnetic line of force to move towards, forms the main field identical to 5,7 polar orientation to the auxiliary permanent magnet that polarity is identical with this to the identical auxiliary permanent magnet of polarity; When ring-type magnetic switch 3 is threaded to 0 degree, the auxiliary permanent magnet that polarity is identical is positioned at upper and lower both sides to 5,7, and opposite polarity auxiliary permanent magnet is positioned at the left and right sides to 6,8, thus enters opening (ON), form the main field in vertical direction, for electromagnetic ultrasonic thickness measuring; When ring-type magnetic switch 3 is threaded to 90 degree, the auxiliary permanent magnet that polarity is identical is positioned at the left and right sides to 5,7, opposite polarity auxiliary permanent magnet is positioned at upper and lower both sides to 6,8, thus enters closed condition (OFF), forms the main field in horizontal direction; Magnetic conduction bridge 4 by cruciform magnetic conductivity part 9, pair of columnar magnetic conduction arm 10,12 and another magnetic conduction arm 11,13 presenting newel post's shape lower end 1/4 ring-type is formed, under closed condition, guide the magnetic line of force on main magnetic circuit to form closed-loop path, thus cut off the magnetic adsorbability to ferromagnetic workpiece.

As shown in Fig. 3,4,5, the electromagnetic ultrasonic thickness measuring probe that this magnetic force can break specifically comprises: a pair opposite polarity main permanent magnet 1,2; The identical auxiliary permanent magnet of a pair 1/4 ring-type polarity is to 5,7, and a pair opposite polarity auxiliary permanent magnets of 1/4 ring-type to join end to end successively to 1/4 ring-type auxiliary permanent magnet 5,6,7,8 to 6,8, two and form ring-type magnetic switch 3; Cruciform magnetic conductivity part 9, pair of columnar magnetic conduction arm 10,12, presents the magnetic conduction arm 11,13 of newel post's shape lower end 1/4 ring-type for a pair; Cylindrical sleeves 14, latch shape sleeve 15, housing 16, screw rod 17, socket 18, hexagonal nut 19, Screw 20, large screw 21, handle 22, cap 23, copper sheet 24, planar spiral winding 25, wearing layer 26.

Ring-type magnetic switch 3, latch shape sleeve 15, handle 22 three are assembled together and form magnetic force break-make control system; Main permanent magnet in the lump by screw rod 17 and hexagonal nut 19 is connected fixing through cylindrical sleeves 14 with magnetic conduction arm 10,12 to 1,2, and controls to be mutually form revolute pair to be connected with magnetic force break-make.

Magnetic conduction arm 10,11,12,13 utilizes Screw 20 to be vertically mounted on four of cruciform magnetic conductivity part 9 to stretch out rib end and form magnetic conduction bridge 4 respectively; Housing 16 side inner walls comprises the guide barrel construction for magnetic conduction bridge 4 horizontal location; Cruciform magnetic conductivity part 9 is connected with housing 16 upper surface by large screw 21.

Socket 18 is installed in the center pit of housing 16 upper surface, and is connected with planar spiral winding 25 by insulated conductor; Housing 16 and cap 23 are fixed together; Copper sheet 24 be positioned at main permanent magnet to 1 and 2 below; Planar spiral winding 25 is positioned at the below of copper sheet 24; Wearing layer 26 is positioned at the below of planar spiral winding 25; Wearing layer 26 is made by high strength, shock-resistant, wear-resistant, corrosion-resistant material and is adhered to the below of housing 16.

Fig. 6 is the Distribution of Magnetic Field figure of the electromagnetic ultrasonic thickness measuring probe that can break according to magnetic force of the present utility model under ON state utilizing COMSOLMultiphysics4.4 simulation software to obtain.Fig. 7 is the Distribution of Magnetic Field figure of the electromagnetic ultrasonic thickness measuring probe that can break according to magnetic force of the present utility model in the off condition utilizing COMSOLMultiphysics4.4 simulation software to obtain.As shown in Figure 6 and Figure 7, rectangular flat represents ferromagnetic workpiece, and arrow points represents the direction of the magnetic line of force at this some place, and the size of arrow represents the mould of the magnetic flux at this some place.Can be found by contrast, when the electromagnetic ultrasonic thickness measuring probe that can break according to magnetic force of the present utility model is threaded to ON state, the vertical magnetic field produced in ferromagnetic workpiece is obviously better than the vertical magnetic field produced when being threaded to OFF state.

Table 1 be utilize COMSOLMultiphysics4.4 simulation software to obtain the electromagnetic ultrasonic thickness measuring probe that can break according to magnetic force of the present utility model under ON and OFF state to the surface induction intensity in the vertical magnetic adsorbability of below ferromagnetic workpiece and vertical direction.

Table 1

By the data in analytical table 1, can find, the electromagnetic ultrasonic thickness measuring probe that can break according to magnetic force of the present utility model is under OFF state 9.513 times to the vertical magnetic adsorbability of below ferromagnetic workpiece under ON state, meanwhile, vertical direction upper surface magnetic induction density is 2.856 times under OFF state.Thus confirm that the electromagnetic ultrasonic thickness measuring probe that can break according to magnetic force of the present utility model can provide high-intensity magnetic field and the magnetic adsorbability of vertical direction under ON state, the magnetic adsorbability to ferromagnetic workpiece can be cut off in the off condition.

Staff's easy understand of this area; the foregoing is only preferred embodiments of the present utility model; not in order to limit the utility model; all do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., all should be included within protection domain of the present utility model.

Claims (8)

1. the magnetic force electromagnetic ultrasonic thickness measuring probe that can break, comprises main permanent magnet to (1,2), and polarity is contrary, characterized by further comprising:

Ring-type magnetic switch (3), to join end to end successively to 1/4 ring-type auxiliary permanent magnet by two and forms; Be for a pair wherein opposite polarity auxiliary permanent magnet to (6,8), another is to being that auxiliary permanent magnet that polarity is identical is to (5,7);

Magnetic conduction bridge (4), be made up of magnetic conductivity part (9) and two pairs of magnetic conduction arms (10,11,12,13), wherein pair of columnar magnetic conduction arm (10,12), another is to presenting newel post's shape lower end 1/4 ring-type magnetic conduction arm (11,13);

Housing (16) and cap (23), housing (16) and cap (23) are fixed together for encapsulating main permanent magnet to (1,2), ring-type magnetic switch (3), magnetic conduction bridge (4);

Copper sheet (24), is positioned at the below of main permanent magnet to (1,2);

Planar spiral winding (25), is positioned at the below of copper sheet (24);

Wearing layer (26), is positioned at the below of planar spiral winding (25);

Socket (18), is arranged in the center pit of housing (16) upper surface, is connected by insulated conductor with planar spiral winding (25).

2. a kind of magnetic force as claimed in claim 1 electromagnetic ultrasonic thickness measuring probe that can break, is characterized in that: the inner ring of ring-type magnetic switch (3) presses close to permanent magnet to (1,2), and spacing range of control is 0.5mm ~ 1mm.

3. a kind of magnetic force as claimed in claim 1 electromagnetic ultrasonic thickness measuring probe that can break, is characterized in that: magnetic conductivity part (9) is cruciform, is arranged in housing (16) internal upper part in tabular.

4. a kind of magnetic force as claimed in claim 1 electromagnetic ultrasonic thickness measuring probe that can break, it is characterized in that: the upper end of the magnetic conduction arm (10,12) of pair of columnar is installed on magnetic conductivity part (9), lower end presses close to the outside of permanent magnet to (1,2) respectively, and spacing controls within 1mm.

5. a kind of magnetic force as claimed in claim 1 electromagnetic ultrasonic thickness measuring probe that can break, it is characterized in that: the upper end of another magnetic conduction arm to column lower end 1/4, upper end ring-type (11,13) is installed on magnetic conductivity part (9), lower end encircles the outside of described ring-type magnetic switch (3) respectively, and spacing controls at 0.5mm ~ 1mm.

6. a kind of magnetic force as claimed in claim 1 electromagnetic ultrasonic thickness measuring probe that can break, is characterized in that: described ring-type magnetic switch (3) and latch shape sleeve (15), handle (22) three be assembled together form magnetic force break-make control be; Described main permanent magnet in the lump by screw rod (17) and hexagonal nut (19) is connected fixing through cylindrical sleeves (14) with magnetic conduction arm (10,12) to (1,2), and controls to be mutually form revolute pair to be connected with magnetic force break-make.

7. a kind of magnetic force as claimed in claim 1 electromagnetic ultrasonic thickness measuring probe that can break, it is characterized in that: housing (16) side inner walls comprises the guide barrel construction for magnetic conduction bridge (4) horizontal location, magnetic conductivity part (9) is connected by large screw (21) and housing (16) upper surface.

8. a kind of magnetic force as claimed in claim 3 electromagnetic ultrasonic thickness measuring probe that can break, is characterized in that: magnetic conduction arm (10,11,12,13) utilizes Screw (20) to be vertically mounted on criss-cross four of magnetic conductivity part (9) to stretch out rib end and form magnetic conduction bridge (4) respectively.