CN204694225U - The straight incoming electromagnetic sonac of shear wave - Google Patents

Abstract

The straight incoming electromagnetic sonac of a kind of shear wave, comprising: shell; Cylinder-shaped magnet, is arranged in shell, produces the bias magnetic field of boss-shaped from top to bottom; Electro-magnetic screen layer, is set in the outside of cylinder-shaped magnet; Integral type toroid winding, comprises toroid winding and lead-in wire, is arranged in the concave station of described outer casing underpart; Heat resistant layer, is arranged at the outside of described outer casing bottom, to seal described integral type toroid winding; Upper end end socket, coordinates with described shell the opening sealing described shell; Signal connector, is arranged on described upper end end socket, connects a wire and described lead-in wire; Packing ring, is arranged on described outer casing bottom, between described electro-magnetic screen layer and toroid winding, by the raised support of described housing interior side-wall bottom it; Wherein, the top of the bias magnetic field of the described boss-shaped of described cylinder-shaped magnet generation is positioned at described integral type toroid winding place.The utility model can provide straight incident shear wave, carries out ultrasonic thickness test and flaw detection to the conductor of temperatures as high 650 degree.

Description

The straight incoming electromagnetic sonac of shear wave

Technical field

The utility model relates to Ultrasonic Nondestructive technical field, particularly a kind of conductor material to being in the condition of high temperature straight incoming electromagnetic sonac of shear wave of carrying out ultrasonic thickness test or flaw detection.

Background technology

Ultrasonic Nondestructive technology is a kind of portable, efficient, green lossless detection method, is industrially widely used.Generally, ultrasonic exciting receive mainly adopt piezoelectric sensor, utilize piezoelectric chip piezoelectric effect produce vibration, then by couplant, ultrasonic wave-coupled is entered tested material, and from tested material received ultrasonic signal.This process entails piezoelectric sensor has good being coupled with tested storeroom, and thus testing process generally needs abrasive material surface and daubing coupling agent.By the restriction of piezoelectric chip vibration mode and couplant, piezoelectric sensor is comparatively had difficult labour raw straight incident shear wave, although also there is the straight incident sensor of shear wave, in the process of application, need the couplant that viscosity is very strong, and extremely difficult application and high temperature detects occasion.And straight incident shear wave in actual applications, have its specific demand occasion, such as, adopt the crackle that it can find along thickness direction, the very little but aperture of existing certain depth in aperture, and these defects adopt Longitudinalwave sensor to be difficult to find.

Utility model content

The utility model provides a kind of shear wave straight incoming electromagnetic sonac, provides straight incident shear wave, carries out ultrasonic thickness test and flaw detection to the conductor of temperatures as high 650 degree.

To achieve these goals, the utility model embodiment provides the straight incoming electromagnetic sonac of a kind of shear wave, and the straight incoming electromagnetic sonac of described shear wave comprises:

Shell;

Cylinder-shaped magnet, is arranged in described shell, produces the bias magnetic field of boss-shaped distribution from top to bottom;

Electro-magnetic screen layer, is set in the outside of described cylinder-shaped magnet;

Integral type toroid winding, comprises toroid winding and lead-in wire, and described toroid winding is arranged in the concave station of described outer casing underpart;

Heat resistant layer, is arranged at the outside of described outer casing bottom, to seal described integral type toroid winding;

Upper end end socket, coordinates with described shell the opening sealing described shell;

Signal connector, is arranged on described upper end end socket, connects a wire and described lead-in wire;

Packing ring, is arranged on described outer casing bottom, between described electro-magnetic screen layer and toroid winding, by the raised support of described housing interior side-wall bottom it;

Wherein, the top of the bias magnetic field of the described boss-shaped of described cylinder-shaped magnet generation is positioned at described integral type toroid winding place.

In one embodiment, described shear wave straight incoming electromagnetic sonac also comprises: adiabatic glue, between the medial surface being filled in described electro-magnetic screen layer and described shell.

In one embodiment, the straight incoming electromagnetic sonac of described shear wave also comprises: trough, is fixed by described adiabatic glue, for passing described lead-in wire.

In one embodiment, the straight incoming electromagnetic sonac of described shear wave also comprises:

Scuff-resistant coating, is plated on described heat resistant layer, is positioned at the straight incoming electromagnetic sonac of described shear wave foremost, for preventing the wearing and tearing of described heat resistant layer.

In one embodiment, the straight incoming electromagnetic sonac of described shear wave also comprises:

High temperature resistant handle, is fixed on the end socket of described upper end, and the hot environment for the straight incoming electromagnetic sonac of described shear wave detects.

In one embodiment, described high temperature resistant handle is hollow structure, and described Signal connector is positioned at wherein, and the termination of described high temperature resistant handle arranges insulation course and hand pad.

In one embodiment, described toroid winding is at least two-layer coil by the coiling of concentric circles hopping pattern, and in each layer line circle, the flow direction of electric current is consistent.

In one embodiment, the described toroidal number of plies is even level.

In one embodiment, the most inner coil of last layer coil is by the back side of via hole cabling to this last layer coil, be connected to the most inner coil of next adjacent layer line circle, the saltus step oblique line of last layer coil becomes cross spider with the saltus step oblique line shape of next adjacent layer line circle.

In one embodiment, described toroid winding is at least two-layer coil by helix winding.

In one embodiment, the described toroidal number of plies is even level.

In one embodiment, described toroid winding is printed on printed circuit board (PCB), and described lead-in wire and described toroid winding one are printed.

In one embodiment, described toroid winding is formed by enameled wire coiling, and described lead-in wire is required to be reserved one conductor line.

In one embodiment, the thickness of described heat resistant layer is less than 3mm.

In one embodiment, the material of described scuff-resistant coating is polyimide, and thickness is 0.2mm.

In one embodiment, the external diameter of described shell is 30mm, and wall thickness is 2mm; Described concave station height is 1mm, and wide is 2mm.

In one embodiment, described toroid winding internal diameter is 6mm, and external diameter is 18mm.

The utility model is coupled in the material by Lorentz force, magnetostrictive force and magnetizing force and produces straight incident shear wave, can carry out ultrasonic thickness test and flaw detection to the conductor of temperatures as high 650 degree.There is noncontact, without the need to abrasive material surface, without the need to couplant, easily generation ultrasonic shear waves and the advantage that can be used for high temperature detection.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the structural representation of the straight incoming electromagnetic sonac of shear wave of the utility model embodiment;

Fig. 2 is that the column type shirt cobalt magnet of the utility model embodiment is apart from surperficial 6mm place magnetic field distribution figure;

Fig. 3 is that the column type shirt cobalt magnet of the utility model embodiment is apart from surperficial 6mm place diametrically magnetic field distribution figure;

Fig. 4 is the structural representation of the concentric circles hopping pattern coiling of the utility model embodiment;

Fig. 5 is the structural representation of the helix winding coil of the utility model embodiment;

Fig. 6 is the detection signal schematic diagram of the straight incoming electromagnetic sonac of shear wave on the Q235 material that thickness is 20mm when 26 DEG C of the utility model embodiment;

Fig. 7 is the detection signal schematic diagram of the straight incoming electromagnetic sonac of shear wave on the Q235 material that thickness is 20mm when 500 DEG C of the utility model embodiment;

Fig. 8 is the diagrammatic cross-section of the concave station 13 of the utility model embodiment.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

The utility model embodiment provides the straight incoming electromagnetic sonac of a kind of shear wave, for as shown in Figure 1, the straight incoming electromagnetic sonac of described shear wave comprises: shell 11, cylinder-shaped magnet 9, electro-magnetic screen layer 8, integral type toroid winding 4, heat resistant layer 5, upper end end socket 3, Signal connector 2 and packing ring 7.

Shell 11 for providing support for the installation of above-mentioned each parts, and provides defencive function.The size of shell 11 is determined by the size of integral type toroid winding 4 and cylinder-shaped magnet 9.Outer casing bottom is engraved structure, and bottom exists a concave station 13, for placing the diagrammatic cross-section that this integral type toroid winding 4, Fig. 8 is the concave station 13 of the utility model embodiment.

In one embodiment, the external diameter of shell 11 is 30mm, and wall thickness is 2mm; Described concave station height is 1mm, and wide is 2mm.

Cylinder-shaped magnet 9 is arranged in shell 11, and cylinder-shaped magnet 9 can produce the bias magnetic field of boss-shaped from top to bottom.In one embodiment, this cylinder-shaped magnet 9 material is monolithic shirt cobalt magnet, external diameter 24mm, height 20mm.Distribution of Magnetic Field is approximate stage shape at integral type toroid winding 4 place place, and platform area can cover annular coil size, and namely at integral type toroid winding 4 plane place, cover in the scope of coil size, magnetic field size is approximately constant value.The Distribution of Magnetic Field that the interscan of 60mm × 60mm scope is measured in the plane of distance 6mm, as shown in Figure 2.The Distribution of Magnetic Field measured along a certain diameter scans as shown in Figure 3.

Electro-magnetic screen layer 8 is set in the outside of cylinder-shaped magnet 9, and electro-magnetic screen layer 8 adopts good conductor material, as Copper Foil.Be wrapped on magnet outside electro-magnetic screen layer 8 is complete, thickness is about 1mm.

Integral type toroid winding 4 comprises toroid winding 14 and lead-in wire 15, toroid winding 14 is arranged in the concave station 13 of shell 11 bottom, and the general coiling of toroid winding 14 is multilayer, intersects with coil for preventing wire, the general coiling even level of toroid winding 14, the internal diameter of toroid winding 14 can be zero.It should be noted that when adopting sandwich wound, generally needing that direction of current in each layer line circle is flowed to consistent.Lead-in wire 15 is held be connected with two of toroid winding 14, then through the spatial joins electro-magnetic screen layer 8 and shell 11 to Signal connector 2.

In one embodiment, toroid winding 14 for form by the coiling of concentric circles hopping pattern, as shown in Figure 4.2 layers of toroid winding by the coiling of concentric circles hopping pattern have been shown in Fig. 4, and the number of plies of toroid winding 14 of the present utility model is not defined as 2 layers.The concrete coiling of concentric circles hopping pattern coiling can be as follows in the form: the coiling from outmost turns of last layer coil, after the coiling completing last layer coil, the most inner coil 41 of last layer coil is by the back side of via hole cabling to this last layer coil, then next layer line circle coiling from most inner coil 42, until coiling is to outermost coil.Visible, the most inner coil 41 of last layer coil is connected to the most inner coil 42 of next adjacent layer line circle, and the coiling direction (coiling from outermost coil) of last layer coil is contrary with the coiling direction (coiling from most inner coil) of next adjacent layer line circle.

Last layer coil or next adjacent layer line circle are in winding process, the concentric circles of upper coil and the concentric circles close alignment of inner coil, because the diameter of each circle becomes large gradually or diminishes, so saltus step oblique line will be formed between the two adjacent rings coil of each layer line circle, again because last layer coil is contrary with the coiling direction of next layer line circle, therefore the saltus step oblique line of last layer coil becomes cross spider 43 with the saltus step oblique line shape of next adjacent layer line circle.

In Fig. 4, outermost coil 41 connecting lead wire 15 of last layer coil, outermost coil 42 connecting lead wire 15 of next layer line circle.

In Fig. 4, toroid winding internal diameter is 6mm, and external diameter is 18mm, and the winding turns 9 of every layer line circle, the utility model is not as limit.

In another embodiment, as shown in Figure 5, toroid winding 14 is for form by helix winding, and the coil number of plies is 2 layers, and the utility model is not as limit.The concrete mode of helix winding can be: upper coil is coiling to the inside from outermost coil 51, when coiling completes most inner coil 52, coiling is started using the end of most inner coil 52 as the initiating terminal of next layer line circle, the coiling laterally from most inner coil 53 of next layer line circle, until coiling completes outermost coil 54.

In Fig. 5, outermost coil 51 connecting lead wire 15 of last layer coil, outermost coil 54 connecting lead wire 15 of next layer line circle.

Toroid winding 14 shown in Fig. 4 and Fig. 5 is single line circle, the coiling order of levels coil can be exchanged, such as adopt the inner coil from the toroid winding 14 first coiling Fig. 4 of mode of outer coil coil winding to the inside, and then with the mode coiling upper coil from inner coil coil winding laterally.

For lattice coil, the winding method of toroid winding 14, with the winding method shown in Fig. 4 and Fig. 5, repeats no more herein.

In one embodiment, the toroid winding 1 shown in Fig. 4 and Fig. 5 can be printed on printed circuit board (PCB), and lead-in wire 15 prints with toroid winding 14 one, P.e.c. can be determined according to the Signal connector size selected, such as, the wide 16mil of coil neutralization, printed wiring board total length is 121mm.

In one embodiment, the toroid winding 14 shown in Fig. 4 and Fig. 5 is formed by enameled wire coiling, and lead-in wire 15 is generally required to be reserved one conductor line.

Heat resistant layer 5 is arranged at the outside bottom shell 11, to seal integral type toroid winding 4.During the shear wave straight incoming electromagnetic sonac embody rule of the utility model embodiment, heat resistant layer 5 is positioned at shell 11 front end, mode that is bonding or socket can be adopted to be fixedly arranged on shear wave straight incoming electromagnetic sonac shell, for delaying heat transfer within a certain period of time, make the temperature at integral type toroid winding 4 place in Measuring Time lower than the maximum temperature that it can bear.Toroid winding 14 is excessive to the distance of material surface, can have a strong impact on the conversion efficiency of the straight incoming electromagnetic sonac of shear wave, and therefore the thickness of heat resistant layer is as far as possible thin under the condition meeting thermal resistance requirement, generally should be not thick more than 3mm.Heat resistant layer for conductor material or can not have magnetic.When heat resistant layer is potpourri, in its component, also can not there be conductor material or magnetic material.

In one embodiment, heat resistant layer 5 selects SiC material, and thickness is about 1mm.

Upper end end socket 3 can match with shell 11, encapsulation shear wave straight incoming electromagnetic sonac, and upper end end socket 3 can have multiple with the fixed form of shell 11, such as with shell 11 cooperation place machining internal thread, shell arranges external thread.Also upper end end socket 3 can be enclosed within shell 11, and fastener is set on shell 11 is fixed.

In one embodiment, upper end end socket 3 can adopt stainless steel material processing and manufacturing.

Signal connector 2 is generally arranged on upper end end socket 3, and through this upper end end socket 3, two joints of the lower end connecting lead wire 15 of Signal connector 2, the upper end of Signal connector 2 connects a wire 1, and this wire 1 is generally high temperature wire.

Packing ring 7 is arranged on the bottom of shell 11, and between electro-magnetic screen layer 8 and toroid winding 14, the annular projection 16 by housing interior side-wall bottom it supported.

One of core of the present utility model is the bias magnetic field of the boss-shaped that cylinder-shaped magnet 9 is produced, and the uniform magnetic field of platform part bit representation covers described integral type toroid winding.In order to realize this requirement, in the effect particularly of packing ring 7, it is middle with toroid winding 14 that it is positioned at cylinder-shaped magnet 9, cylinder-shaped magnet 9 is made to have certain distance to toroid winding 14, this distance is determined by magnetic field of magnets distribution, make the magnetic direction at toroid winding 14 place vertically downward, this distance is enough to make toroid winding cannot produce larger eddy current on cylinder-shaped magnet 9 surface simultaneously.

In one embodiment, packing ring 7 can adopt fibre reinforced poly-organosilicon, external diameter 26mm, thickness 4mm.

In one embodiment, the shear wave straight incoming electromagnetic sonac of the utility model embodiment also comprises: adiabatic glue 10, between the medial surface being filled in electro-magnetic screen layer 8 and shell 11.

The general high-temperature heat insulation glue of adiabatic glue 10, for cylinder-shaped magnet 9 and the negative line 15 of thermal resistance and fixing internal.High-temperature heat insulation glue need have very low thermal conductivity, higher serviceability temperature, and general serviceability temperature need be greater than 250 DEG C.When inside is fixing, lead-in wire 15 distance shells are at regular intervals, the adiabatic glue 10 of central filler.

In one embodiment, adiabatic glue 10 adopts the Bi-component high-temperature resistant tackifier with inorganic oxide copper product and modified firming agent composition.

In one embodiment, the straight incoming electromagnetic sonac of shear wave of the utility model embodiment also comprises: trough (not shown), is arranged on the inwall of shell 11 from top to bottom, is fixed by adiabatic glue, for passing lead-in wire 15.

In one embodiment, as shown in Figure 1, the straight incoming electromagnetic sonac of shear wave also comprises: scuff-resistant coating 6, is plated on heat resistant layer, is positioned at the straight incoming electromagnetic sonac of shear wave foremost, for preventing the wearing and tearing of heat resistant layer 5.

It should be noted that the material of scuff-resistant coating 6 can not be conductive material.In one embodiment, the material of wearing layer 6 can select polyimide, and thickness is about 0.2mm.

In one embodiment, the shear wave straight incoming electromagnetic sonac of the utility model embodiment also comprises: high temperature resistant handle 12, is fixed on the end socket of upper end, and the hot environment for the straight incoming electromagnetic sonac of shear wave detects.

High temperature handle 12 matches with upper end end socket 3, and fit system has multiple, and be such as threaded (on upper end end socket 3 machining internal thread).When hot environment detects application, this high temperature handle 12 is loaded on the straight incoming electromagnetic sonac of shear wave.When normal temperature detects, can be taken off, directly itself be detected with the straight incoming electromagnetic sonac of shear wave.

High temperature handle 12 can be the tubular structure of a hollow, and Signal connector 2 can be positioned at wherein, can draw high temperature wire 1 again from high temperature handle 12 simultaneously.High temperature handle 12 termination can arrange heat insulation layer and hand pad, and the situation that operating personnel are having on high temperature gloves is conveniently held.

During concrete enforcement, the surfaces externally and internally of shear wave of the present utility model straight incoming electromagnetic sonac shell 11, the upper and lower surface of toroid winding 14 can scribble high-temperature heat insulation coating.The filler of this coating is hollow ceramic microspheres, and base-material is made up of sodium silicate aqueous binder and 0.4% ~ 0.6% carboxymethyl cellulose, and smearing thickness is generally 0.4mm ~ 1mm.

The centre frequency of the straight incoming electromagnetic sonac of shear wave of the present utility model generally has two: nominal center frequency and practical center frequency.Centre frequency and toroidal geometric configuration (mainly internal diameter, external diameter, number of turns and distance between centers of tracks etc.), the material of the track self on the wire of coiling or pcb board and size, enameled wire covers the specific inductive capacity of paint or PCB substrate, tested properties of materials, coil is closely related to the spacing etc. of tested material.Sensor nominal center frequency for being placed on reference material surface, and during close contact, frequency when being 50 Ω by its impedance matching.This reference material is a part for sensor nominal center frequency, generally gets the most frequently used detected object material during this sensor application when designing the shear wave straight incoming electromagnetic sonac of specific model.The practical center frequency of the straight incoming electromagnetic sonac of shear wave is centre frequency when performing particular detection, on the basis of nominal center frequency, along with in detection practical application, tested material and coil to tested material matrix surface distance change and have certain drift, this drift value detects application demarcate according to concrete.

Fig. 6 is the detection signal schematic diagram of the straight incoming electromagnetic sonac of shear wave on the Q235 material that thickness is 20mm when 26 DEG C of the utility model embodiment, and Fig. 7 is the detection signal schematic diagram of the straight incoming electromagnetic sonac of shear wave on the Q235 material that thickness is 20mm when 500 DEG C of the utility model embodiment.Testing result shown in Fig. 6 and Fig. 7 shows that the Detection results under this shear wave straight incoming electromagnetic sonac normal temperature and high temperature is splendid.

The straight incoming electromagnetic sonac of the shear wave that the utility model provides, can be coupled in the material by Lorentz force, magnetostrictive force and magnetizing force and produce straight incident shear wave, easy generation ultrasonic shear waves, can carry out ultrasonic thickness test and flaw detection to the conductor material of temperature within 650oC high temperature.The straight incoming electromagnetic sonac of shear wave detects frequency range 500kHz ~ 20MHz, the straight incoming electromagnetic sonac of shear wave is performing in testing process without the need to couplant, without the need to abrasive material surface, allow, when surface exists the protective layer of thickness within 3mm, directly to carry out ultrasonic thickness test or carrying out flaw detection simultaneously.

Those skilled in the art should understand, embodiment of the present utility model can be provided as method, system or computer program.Therefore, the utility model can adopt the form of complete hardware embodiment, completely software implementation or the embodiment in conjunction with software and hardware aspect.And the utility model can adopt in one or more form wherein including the upper computer program implemented of computer-usable storage medium (including but not limited to magnetic disk memory, CD-ROM, optical memory etc.) of computer usable program code.

The utility model describes with reference to according to the process flow diagram of the method for the utility model embodiment, equipment (system) and computer program and/or block scheme.Should understand can by the combination of the flow process in each flow process in computer program instructions realization flow figure and/or block scheme and/or square frame and process flow diagram and/or block scheme and/or square frame.These computer program instructions can being provided to the processor of multi-purpose computer, special purpose computer, Embedded Processor or other programmable data processing device to produce a machine, making the instruction performed by the processor of computing machine or other programmable data processing device produce device for realizing the function of specifying in process flow diagram flow process or multiple flow process and/or block scheme square frame or multiple square frame.

These computer program instructions also can be stored in can in the computer-readable memory that works in a specific way of vectoring computer or other programmable data processing device, the instruction making to be stored in this computer-readable memory produces the manufacture comprising command device, and this command device realizes the function of specifying in process flow diagram flow process or multiple flow process and/or block scheme square frame or multiple square frame.

These computer program instructions also can be loaded in computing machine or other programmable data processing device, make on computing machine or other programmable devices, to perform sequence of operations step to produce computer implemented process, thus the instruction performed on computing machine or other programmable devices is provided for the step realizing the function of specifying in process flow diagram flow process or multiple flow process and/or block scheme square frame or multiple square frame.

Apply specific embodiment in the utility model to set forth principle of the present utility model and embodiment, the explanation of above embodiment just understands method of the present utility model and core concept thereof for helping; Meanwhile, for one of ordinary skill in the art, according to thought of the present utility model, all will change in specific embodiments and applications, in sum, this description should not be construed as restriction of the present utility model.

Claims (17)

1. the straight incoming electromagnetic sonac of shear wave, is characterized in that, the straight incoming electromagnetic sonac of described shear wave comprises:

Shell;

Cylinder-shaped magnet, is arranged in described shell, produces the bias magnetic field of boss-shaped distribution from top to bottom;

Electro-magnetic screen layer, is set in the outside of described cylinder-shaped magnet;

Integral type toroid winding, comprises toroid winding and lead-in wire, and described toroid winding is arranged in the concave station of described outer casing underpart;

Heat resistant layer, is arranged at the outside of described outer casing bottom, to seal described integral type toroid winding; Upper end end socket, coordinates with described shell the opening sealing described shell;

Signal connector, is arranged on the end socket of described upper end, connects a wire and described lead-in wire;

Packing ring, is arranged on described outer casing bottom, between described electro-magnetic screen layer and toroid winding, by the raised support of described housing interior side-wall bottom it;

Wherein, the top of the described bias magnetic field of the boss-shaped of described cylinder-shaped magnet generation is positioned at described integral type toroid winding place.

2. the straight incoming electromagnetic sonac of shear wave according to claim 1, is characterized in that, described shear wave straight incoming electromagnetic sonac also comprises: adiabatic glue, between the medial surface being filled in described electro-magnetic screen layer and described shell.

3. the straight incoming electromagnetic sonac of shear wave according to claim 2, is characterized in that, the straight incoming electromagnetic sonac of described shear wave also comprises: trough, is fixed by described adiabatic glue, for passing described lead-in wire.

4. the straight incoming electromagnetic sonac of shear wave according to claim 1, is characterized in that, the straight incoming electromagnetic sonac of described shear wave also comprises:

Scuff-resistant coating, is plated on described heat resistant layer, is positioned at the straight incoming electromagnetic sonac of described shear wave foremost, for preventing the wearing and tearing of described heat resistant layer.

5. the straight incoming electromagnetic sonac of shear wave according to claim 1, is characterized in that, the straight incoming electromagnetic sonac of described shear wave also comprises:

High temperature resistant handle, is fixed on the end socket of described upper end, and the hot environment for the straight incoming electromagnetic sonac of described shear wave detects.

6. the straight incoming electromagnetic sonac of shear wave according to claim 5, is characterized in that, described high temperature resistant handle is hollow structure, and described Signal connector is positioned at wherein, and the termination of described high temperature resistant handle arranges insulation course and hand pad.

7. the straight incoming electromagnetic sonac of the shear wave according to any one of claim 1-6, is characterized in that, described toroid winding is at least two-layer coil by the coiling of concentric circles hopping pattern, and in each layer line circle, the flow direction of electric current is consistent.

8. the straight incoming electromagnetic sonac of shear wave according to claim 7, is characterized in that, the described toroidal number of plies is even level.

9. the straight incoming electromagnetic sonac of shear wave according to claim 7, it is characterized in that, the most inner coil of last layer coil is by the back side of via hole cabling to this last layer coil, be connected to the most inner coil of next adjacent layer line circle, the saltus step oblique line of last layer coil becomes cross spider with the saltus step oblique line shape of next adjacent layer line circle.

10. the straight incoming electromagnetic sonac of the shear wave according to any one of claim 1-6, is characterized in that, described toroid winding is at least two-layer coil by helix winding.

The straight incoming electromagnetic sonac of 11. shear wave according to claim 10, it is characterized in that, the described toroidal number of plies is even level.

12. straight incoming electromagnetic sonacs of shear wave according to any one of claim 1-6, it is characterized in that, described toroid winding is printed on printed circuit board (PCB), and described lead-in wire and described toroid winding one are printed.

13. straight incoming electromagnetic sonacs of shear wave according to any one of claim 1-6, it is characterized in that, described toroid winding is formed by enameled wire coiling, and described lead-in wire is reserved one conductor line.

The straight incoming electromagnetic sonac of 14. shear wave according to claim 1, it is characterized in that, the thickness of described heat resistant layer is less than 3mm.

The straight incoming electromagnetic sonac of 15. shear wave according to claim 4, is characterized in that, the thickness of described scuff-resistant coating is 0.2mm.

The straight incoming electromagnetic sonac of 16. shear wave according to claim 1, is characterized in that, the external diameter of described shell is 30mm, and wall thickness is 2mm; Described concave station height is 1mm, and wide is 2mm.

The straight incoming electromagnetic sonac of 17. shear wave according to claim 1, it is characterized in that, described toroid winding internal diameter is 6mm, and external diameter is 18mm.