CN206300631U - Bend pipe thickness measuring scanning equipment and scanner - Google Patents

Abstract

The utility model provides a kind of bend pipe thickness measuring scanning equipment and scanner, is related to detection technique field, including detection probe, circumferential scanning and searching mechanism and axial scanning and searching mechanism；Detection probe is arranged on circumferential scanning and searching mechanism；Circumferential scanning and searching mechanism is arranged on axial scanning and searching mechanism.In use, axial scanning and searching mechanism drives circumferential scanning and searching mechanism along the axial movement of bend pipe, while driving detection probe along the axial movement of bend pipe；Circumferential scanning and searching mechanism drives detection probe to be moved along the circumference of bend pipe, and detection probe is used to detect the thickness of bend pipe.Axial scanning and searching mechanism and circumferential scanning and searching mechanism cooperate so that detection probe along bend pipe axial movement while rotating in a circumferential direction along bend pipe, so as to detection probe can be made to cover bend pipe comprehensively.From the foregoing, it will be observed that the bend pipe thickness measuring scanning equipment that the utility model is provided can make the scope of thickness measuring bigger, and drive detection probe to move by mechanism, thickness measuring is not carried out manually, improve the detection efficiency of detection probe.

Description

Bend pipe thickness measuring scanning equipment and scanner

Technical field

The utility model is related to detection technique field, more particularly, to a kind of bend pipe thickness measuring scanning equipment and scanner.

Background technology

The use of industrial pipeline can be all related in the technical fields such as petrochemical industry, electric power, food and papermaking.Pipeline exists In running, the problem of wall thickness reduction can be all formed due to reasons such as corrosion or the time limits, this can not only influence operational efficiency, more Potential safety hazard can be turned into.Wherein, it is complete with greater need for accomplishing due to carrying a greater degree of erosion herein for the part of bend pipe Detect in face.

At present, for bend pipe thickness measuring, technical staff using piezoelectric supersonic calibrator, in pipeline automatic creeping detector or Creeped outside pipeline detector.Wherein, piezoelectric supersonic calibrator is artificial manual inspection method, it is impossible to realize comprehensively in-service inspection Survey, it is less efficient；Detector of being creeped outside pipeline is only applicable to magnetic pipeline.The scope of application of prior art is small, and detection efficiency is low.

Utility model content

The purpose of this utility model is to provide a kind of bend pipe thickness measuring scanning equipment and scanner, to alleviate prior art Present in the scope of application it is small, the low technical problem of detection efficiency.

The bend pipe thickness measuring scanning equipment that the utility model is provided, including detection probe, circumferential scanning and searching mechanism and axial direction are swept Look into mechanism；Detection probe is arranged on circumferential scanning and searching mechanism；Circumferential scanning and searching mechanism is arranged on axial scanning and searching mechanism；Axial scanning Mechanism is used to drive circumferential scanning and searching mechanism along the axial movement of bend pipe；Circumferential scanning and searching mechanism is used to drive detection probe along bend pipe It is circumferential mobile；Detection probe is used to detect the thickness of bend pipe.

Further, bend pipe thickness measuring scanning equipment also includes controller；Circumferential scanning and searching mechanism and axial scanning and searching mechanism with Controller is electrically connected；Controller is used to control the startup and closing of circumferential scanning and searching mechanism and axial scanning and searching mechanism.

Further, circumferential scanning and searching mechanism includes circumferential drive mechanism, circumferential driving structure and riser；Set on riser There is the through hole for wearing bend pipe, circumferential driving structure, circumferential drive mechanism and riser are sequentially connected, so that circumferential driving structure Riser circumferentially rotating along bend pipe is driven by circumferential drive mechanism；Detection probe is arranged on riser；Circumferential driving structure and Circumferential drive mechanism is arranged on axial scanning and searching mechanism.

Further, circumferential scanning and searching mechanism also includes installing plate and adjusting rod；Detection probe is fixed on adjusting rod, is installed Plate is connected with adjusting rod, and installing plate can be relatively moved with adjusting rod, along the radial direction of bend pipe, to adjust the detection faces of detection probe The distance between with bend pipe；Installing plate is fixedly connected with riser.

Further, axial scanning and searching mechanism includes axial drive mechanism, axially driving structure and cantilever；Axially driving knot Structure and axial drive mechanism drive connection；One end of cantilever is fixedly connected with axial drive mechanism, the other end and circumferential scanning machine Structure is connected, so that axially driving structure passes through axial drive mechanism and drives the other end of cantilever along the axial movement of bend pipe.

Further, it is provided with length adjustment mechanism on cantilever；Length adjustment mechanism is used to adjust the length of cantilever.

Further, axially driving structure includes motor；Axial drive mechanism includes being arranged on the power output shaft of motor On driving gear and the driven gear that is meshed with driving gear；One end of cantilever is fixedly connected with driven gear.

Further, bend pipe thickness measuring scanning equipment also includes column；On column, its along its length, interval setting successively There are multiple draw-in grooves；The holding section coordinated with draw-in groove is provided with axial drive mechanism.

Further, bend pipe thickness measuring scanning equipment also includes circumferential position testing agency；Circumferential position testing agency is set On circumferential scanning and searching mechanism, for detecting position of the detection probe in bend pipe circumference；

And/or, bend pipe thickness measuring scanning equipment also includes axial location testing agency；Axial location testing agency is arranged on axle To on scanning and searching mechanism, for detecting position of the detection probe on bend pipe axial direction.

Further, the utility model also provides a kind of scanner, and scanner includes that calibrator and the scanning of bend pipe thickness measuring are filled Put；Calibrator is electrically connected with detection probe；Calibrator is used to show the thickness data of the detection probe measurement.

A kind of bend pipe thickness measuring scanning equipment that the utility model is provided, including detection probe, circumferential scanning and searching mechanism and axial direction Scanning and searching mechanism；Detection probe is arranged on circumferential scanning and searching mechanism；Circumferential scanning and searching mechanism is arranged on axial scanning and searching mechanism.Using During, axial scanning and searching mechanism drives circumferential scanning and searching mechanism along the axial movement of bend pipe, while driving detection probe along bend pipe Axial movement；Detection probe is used to detect the thickness of bend pipe, and it is arranged on circumferential scanning and searching mechanism, and circumferential scanning and searching mechanism drives inspection Probing head is moved along the circumference of bend pipe.Axial scanning and searching mechanism and circumferential scanning and searching mechanism cooperate so that detection probe is along bend pipe Axial movement while rotating in a circumferential direction along bend pipe, so as to detection probe can be made to cover bend pipe comprehensively, so as to detection probe energy It is enough that comprehensive thickness measuring is carried out to bend pipe.From the foregoing, it will be observed that the bend pipe thickness measuring scanning equipment that the utility model is provided can make thickness measuring Scope it is bigger, and drive detection probe to move by mechanism, do not carry out thickness measuring manually, improve the detection efficiency of detection probe.

Brief description of the drawings

In order to illustrate more clearly of the utility model specific embodiment or technical scheme of the prior art, below will be right The accompanying drawing to be used needed for specific embodiment or description of the prior art is briefly described, it should be apparent that, describe below In accompanying drawing be some implementation methods of the present utility model, for those of ordinary skill in the art, do not paying creativeness On the premise of work, other accompanying drawings can also be obtained according to these accompanying drawings.

Bend pipe thickness measuring scanning equipment and the structural representation of scanner that Fig. 1 is provided for the utility model embodiment；

The structural representation of the circumferential scanning and searching mechanism that Fig. 2 is provided for the utility model embodiment；

The structural representation of the axial scanning and searching mechanism that Fig. 3 is provided for the utility model embodiment；

The structural representation of the axial drive mechanism that Fig. 4 is provided for the utility model embodiment.

Icon：1- detection probes；2- circumference scanning and searching mechanisms；3- axial directions scanning and searching mechanism；4- controllers；5- columns；6- circumferences Position detecting mechanism；7- axial locations testing agency；8- calibrators；9- bend pipes；21- circumference drive mechanisms；22- circumferentially drives knot Structure；23- risers；24- installing plates；25- adjusting rods；31- axial directions drive mechanism；The axially driving structures of 32-；33- cantilevers；51- cards Groove；211- chains；212- drive sprockets；213- driven sprockets；231- through holes；241- screwed holes；251- screw threads；311- driving tooths Wheel；312- driven gears；321- motors；331- length adjustment mechanisms.

Specific embodiment

The technical solution of the utility model is clearly and completely described below in conjunction with accompanying drawing, it is clear that described Embodiment is a part of embodiment of the utility model, rather than whole embodiments.Based on the embodiment in the utility model, this The every other embodiment that field those of ordinary skill is obtained under the premise of creative work is not made, belongs to this practicality Novel protected scope.

It is term " " center ", " on ", D score, "left", "right", " perpendicular, it is necessary to explanation in description of the present utility model Directly ", the orientation or position relationship of the instruction such as " level ", " interior ", " outward " are, based on orientation shown in the drawings or position relationship, to be only Described with simplified for the ease of description the utility model, must had rather than the device or element for indicating or implying meaning specific Orientation, with specific azimuth configuration and operation, therefore it is not intended that to limitation of the present utility model.Additionally, term " the One ", " second ", " the 3rd " are only used for describing purpose, and it is not intended that indicating or implying relative importance.

, it is necessary to explanation, unless otherwise clearly defined and limited, term " is pacified in description of the present utility model Dress ", " connected ", " connection " should be interpreted broadly, for example, it may be fixedly connected, or be detachably connected, or integratedly Connection；Can mechanically connect, or electrically connect；Can be joined directly together, it is also possible to be indirectly connected to by intermediary, Can be two connections of element internal.For the ordinary skill in the art, above-mentioned art can be understood with concrete condition Concrete meaning of the language in the utility model.

Bend pipe thickness measuring scanning equipment and the structural representation of scanner that Fig. 1 is provided for the utility model embodiment, such as Fig. 1 It is shown, the bend pipe thickness measuring scanning equipment that the present embodiment is provided, including detection probe 1, circumferential scanning and searching mechanism 2 and axial scanning machine Structure 3；Detection probe 1 is arranged on circumferential scanning and searching mechanism 2；Circumferential scanning and searching mechanism 2 is arranged on axial scanning and searching mechanism 3；Axially sweep Mechanism 3 is looked into for driving circumferential scanning and searching mechanism 2 along the axial movement of bend pipe 9；Circumferential scanning and searching mechanism 2 is used to drive detection probe 1 Circumference along bend pipe 9 is mobile；Detection probe 1 is used to detect the thickness of bend pipe 9.

Wherein, the type of detection probe 1 can be for various, such as：Electromagnetic ultrasonic probe, Air Coupling ultrasonic probe and Moisture film coupling probe etc..It is preferred that using electromagnetic ultrasonic probe.

Further, axial scanning and searching mechanism 3 should be circled by the center of circle of the center of circle of the bending radius of bend pipe 9.

Further, circumferential scanning and searching mechanism 2 should be circled by axle of the central point of bend pipe 9, and circumferential scanning and searching mechanism 2 can So that including annulus, annulus middle part wears bend pipe 9, and is connected with axial scanning and searching mechanism 3, and detection probe 1 may be provided on annulus, make User can realize that detection probe 1 is circumferentially rotated along bend pipe 9 by rotating annulus.

Further, bend pipe thickness measuring scanning equipment can also include base.Axial scanning and searching mechanism 3 can be arranged on base On.The structure type of base can be for various, such as：Cylinder, square and cuboid etc..In use, when curved When pipe 9 is located at eminence, can be placed on axial scanning and searching mechanism 3 on base by user.Because circumferential scanning and searching mechanism 2 is swept with axial direction Look into mechanism 3 to connect, detection probe 1 is arranged on circumferential scanning and searching mechanism 2, by raising axial scanning and searching mechanism 3, detection can be driven Bend pipe 9 of the detection of probe 1 positioned at eminence.

A kind of bend pipe thickness measuring scanning equipment that the present embodiment is provided, including detection probe 1, circumferential scanning and searching mechanism 2 and axial direction Scanning and searching mechanism 3；Detection probe 1 is arranged on circumferential scanning and searching mechanism 2；Circumferential scanning and searching mechanism 2 is arranged on axial scanning and searching mechanism 3. In use, axial scanning and searching mechanism 3 drives circumferential scanning and searching mechanism 2 along the axial movement of bend pipe 9, while driving detection probe 1 along bend pipe 9 axial movement；Detection probe 1 is used to detect the thickness of bend pipe 9, and it is arranged on circumferential scanning and searching mechanism 2, circumferential Scanning and searching mechanism 2 drives detection probe 1 mobile along the circumference of bend pipe 9.Axial scanning and searching mechanism 3 and circumferential scanning and searching mechanism 2 cooperate, So that detection probe 1 along bend pipe 9 axial movement while rotating in a circumferential direction along bend pipe 9, so as to detection probe 1 can be made to cover comprehensively Lid bend pipe 9, so that detection probe 1 can carry out comprehensive thickness measuring to bend pipe 9.From the foregoing, it will be observed that the utility model offer is curved Pipe thickness measuring scanning equipment can make the scope of thickness measuring bigger, and drive detection probe 1 to move by mechanism, not surveyed manually Thickness, improves the detection efficiency of detection probe 1.

As shown in figure 1, on the basis of above-described embodiment, further, bend pipe thickness measuring scanning equipment also includes controller 4；Circumferential scanning and searching mechanism 2 and axial scanning and searching mechanism 3 are electrically connected with controller 4；Controller 4 is used to control circumferential scanning and searching mechanism 2 With the startup and closing of axial scanning and searching mechanism 3.

Wherein, the species of controller 4 can be for various, such as：Combinational logic control device and microprogram control unit etc..

Further, controller 4 should also control the angle of circumferential scanning and searching mechanism 2 and axial scanning and searching mechanism 3, movement velocity with And scanning path etc..

In the present embodiment, controller 4 is electrically connected with circumferential scanning and searching mechanism 2 and axial scanning and searching mechanism 3, in use, User can realize the switch of circumferential scanning and searching mechanism 2 and axial scanning and searching mechanism 3 by adjusting controller 4, curved so as to realize The automaticity of pipe thickness measuring scanning equipment.

The structural representation of the circumferential scanning and searching mechanism that Fig. 2 is provided for the utility model embodiment, as depicted in figs. 1 and 2, On the basis of above-described embodiment, further, circumferential scanning and searching mechanism 2 include circumferential drive mechanism 21, circumferential driving structure 22 with And riser 23；The through hole 231 for wearing bend pipe 9, circumferential driving structure 22, the circumferential and of drive mechanism 21 are provided with riser 23 Riser 23 is sequentially connected, so that circumferential driving structure 22 passes through circumferential drive mechanism 21 and drives riser 23 to turn along the circumference of bend pipe 9 It is dynamic；Detection probe 1 is arranged on riser 23；Circumferential driving structure 22 and circumferential drive mechanism 21 are arranged at axial scanning and searching mechanism On 3.

Wherein, the diameter of through hole 231 should be greater than the diameter of bend pipe 9 on riser 23.Detection probe 1 can be with detection process The surface of bend pipe 9 is not contacted, and then is applicable it use in high temperature environments.

Further, the structure type of circumferential drive mechanism 21 can be various, such as circumferential drive mechanism 21 can be wrapped Include the driving gear being arranged on the power output shaft of motor and the driven gear being meshed with driving gear, detection probe 1 with Driven gear is connected.Perforate is provided with driven gear, through hole is used to wear bend pipe 9.In use, motor drives actively Gear is engaged with driven gear, so as to make driven gear be rotated along the central shaft of bend pipe 9, and then drives detection probe 1 to make circumference Motion.

And for example, circumferential drive mechanism 21 can include chain 211, the drive sprocket being arranged on the power output shaft of motor 212 and driven sprocket 213, detection probe 1 is arranged on driven sprocket 213, and chain 211 is enclosed within drive sprocket 212 and driven On sprocket wheel 213.The perforate for wearing bend pipe 9 is provided with driven sprocket 213.In use, motor drives drive chain Wheel 212 is rotated, and being driven by chain 211 makes driven sprocket 213 be rotated along the central shaft of bend pipe 9, and then drives detection probe 1 to make Circumferential movement.

In the present embodiment, bend pipe 9 is located in the through hole 231 on riser 23, circumferential driving structure 22, circumferential drive mechanism 21 and riser 23 be sequentially connected, detection probe 1 is arranged on riser 23；Circumferential driving structure 22 and circumferential drive mechanism 21 are all provided with Put on axial scanning and searching mechanism 3.In use, axial scanning and searching mechanism 3 drives circumferential driving structure 22 and circumferential transmission knot Structure 21 axially moves along bend pipe 9, and circumferential driving structure 22 passes through circumferential drive mechanism 21 and drives riser 23 along the circumference of bend pipe 9 Rotate, and then drive detection probe 1 to make circumferential movement along bend pipe 9, realize comprehensive detection of bend pipe 9.

As depicted in figs. 1 and 2, on the basis of above-described embodiment, further, circumferential scanning and searching mechanism 2 also includes installing Plate 24 and adjusting rod 25；Detection probe 1 is fixed on adjusting rod 25, and installing plate 24 is connected with adjusting rod 25, and installing plate 24 with Adjusting rod 25 can be relatively moved, along the radial direction of bend pipe 9, to adjust the distance between detection faces and bend pipe 9 of detection probe 1；Peace Dress plate 24 is fixedly connected with riser 23.

Wherein, the connected mode of adjusting rod 25 and installing plate 24 can be it is various, for example：Connected mode can connect for screw thread Connect or be slidably connected etc..

When connected mode is for threaded connection, screwed hole 241 is provided with installing plate 24, is set on the outer wall of adjusting rod 25 There is the screw thread 251 being engaged with screwed hole 241.When need to adjust detection probe 1 and the surface of bend pipe 9 apart from when, user can Installing plate 24 is set to be relatively moved with adjusting rod 25 to turn adjusting rod 25.

Further, adjusting rod 25 can run through installing plate 24, it is also possible to which one end is arranged on inside installing plate 24.

In the present embodiment, detection probe 1 is fixed on adjusting rod 25, and adjusting rod 25 can be relatively moved with installing plate 24, peace Dress plate 24 is fixed on riser 23.In use, when the bend pipe 9 of different tube diameters is measured, detection probe 1 needs to move to Away from the distance range of the surface set of bend pipe 9, user can move adjusting rod 25, make the shifting relative with installing plate 24 of adjusting rod 25 Dynamic, now, detection probe 1 also produces movement relative to riser 23, to meet the distance requirement of detection probe 1.

The structural representation of the axial scanning and searching mechanism that Fig. 3 is provided for the utility model embodiment, as shown in figures 1 and 3, On the basis of above-described embodiment, further, axial scanning and searching mechanism 3 include axial drive mechanism 31, axially driving structure 32 with And cantilever 33；Axially driving structure 32 is connected with axial drive mechanism 31；One end of cantilever 33 and axial drive mechanism 31 It is fixedly connected, the other end is connected with circumferential scanning and searching mechanism 2, so that axially driving structure 32 passes through the axial drive of drive mechanism 31 and hangs The other end of arm 33 along bend pipe 9 axial movement.

Further, the structure type of axial drive mechanism 31 can be for various, such as：Gear structure or crank rocker Structure etc..

When structure type is crank rocker, drive mechanism includes crank, driven member and driving member.Driven member one end and song One end connection of handle, the other end is connected with tumbler；The other end of crank is fixedly connected with circumferential driving structure 22；Tumbler with Cantilever 33 is fixedly connected away from one end of circumferential scanning and searching mechanism 2；In use, circumferential driving structure 22 drives crank to do past Multiple motion, driven member drives tumbler to rotate by the effect of crank, so as to drive cantilever 33 to move axially.

In the present embodiment, axially driving structure 32 is connected with axial drive mechanism 31；One end and axial direction of cantilever 33 Drive mechanism 31 is fixedly connected, and the other end is connected with circumferential scanning and searching mechanism 2.In use, axially driving structure 32 drives Axial drive mechanism 31 is moved, so as to drive the other end of cantilever 33 to be moved axially along bend pipe 9, and then makes circumferential scanning and searching mechanism 2 Moved axially along bend pipe 9, realize comprehensive detection of bend pipe 9.

Shown in Fig. 1 and Fig. 3, on the basis of above-described embodiment, further, length adjustment mechanism is provided with cantilever 33 331；Length adjustment mechanism 331 is used to adjust the length of cantilever 33.

Wherein, length adjustment mechanism 331 can be expansion link.Expansion link can be regulation manually, it is also possible to by control Unit is automatically adjusted.

Further, the regulative mode of expansion link can be for various, such as：Threaded adjusting, or expansion link can be many Individual inner hollow, the different rod member in bar footpath is mutually inserted to realize stretching.

In the present embodiment, length adjustment mechanism 331 is provided with cantilever 33.In use, when pipe bending radius When changing, user adjusts the length of cantilever 33 by controlling length adjustment mechanism 331, makes what the one end of cantilever 33 connected Circumferential scanning and searching mechanism 2 is applied to the pipeline of differently curved radius, so as to realize the complete detection of detection probe 1.

The structural representation of the axial drive mechanism that Fig. 4 is provided for the utility model embodiment, as shown in Figure 3 and Figure 4, On the basis of above-described embodiment, further, axially driving structure 32 includes motor 321；Axial drive mechanism 31 includes setting Driving gear 311 on the power output shaft of motor 321 and the driven gear 312 being meshed with driving gear 311；Cantilever 33 One end be fixedly connected with driven gear 312.

Wherein, the type of motor 321 can be for various, such as：Dc motor, asynchronous motor and synchronous motor Etc..

Further, the type of gear can be for various, such as：Roller gear, bevel gear, non-circular gear and worm tooth Wheel etc..

In the present embodiment, axially driving structure 32 includes motor 321, and axial drive mechanism 31 includes the He of driving gear 311 Driven gear 312.In use, motor 321 drive its output shaft on driving gear 311 rotate, driven gear 312 with Actively it is meshed to gear, so as to drive cantilever 33 to rotate.Now, the circumferential scanning and searching mechanism 2 of the one end of cantilever 33 connection being capable of root Moved according to the pipeline of differently curved radius, so as to realize that detection probe 1 can be applied to the pipeline of differently curved radius, realized complete Detect in face.

As shown in figures 1 and 3, on the basis of above-described embodiment, further, bend pipe thickness measuring scanning equipment also includes vertical Post 5；On column 5, it is sequentially arranged at intervals with multiple draw-in grooves 51 along its length；It is provided with axial drive mechanism 31 and card The holding section that groove 51 coordinates.

Wherein, column 5 can be hollow structure inside, and this set with material-saving, and can mitigate the weight of column 5 Amount, convenient use person carries.

Further, the material of column 5 can be for various, such as：Metal, concrete or plastics etc..

In the present embodiment, multiple draw-in grooves 51 are provided with column 5, holding section is provided with axial drive mechanism 31.Make During, because the height of draw-in groove 51 on column 5 is different, when bend pipe 9 is located at eminence, user can tie axially transmission Structure 31 is fastened on the draw-in groove 51 of corresponding height on column 5, and the height of cantilever 33 changes therewith, the week being connected with the one end of cantilever 33 Height change is also produced to scanning and searching mechanism 2, this set can make detection probe 1 detect the bend pipe 9 of different height.

As shown in Figure 1, Figure 2 and shown in Fig. 3, on the basis of above-described embodiment, further, bend pipe thickness measuring scanning equipment is also Including circumferential position testing agency 6；Circumferential position testing agency 6 is arranged on circumferential scanning and searching mechanism 2, for detecting detection probe 1 position in the circumference of bend pipe 9；And/or, bend pipe thickness measuring scanning equipment also includes axial location testing agency 7；Axial location is examined Survey mechanism 7 to be arranged on axial scanning and searching mechanism 3, for detecting position of the detection probe 1 on the axial direction of bend pipe 9.

Wherein, the type of circumferential position testing agency 6 and/or axial location testing agency 7 can be for various, such as：Electricity Resistive sensor, piezoresistive transducer, variable-frequency power sensor etc..

Further, circumferential position testing agency 6 and/or axial location testing agency 7 should electrically connect with controller 4.

In the present embodiment, during the measurement thickness of bend pipe 9 of detection probe 1, circumferential position testing agency 6 is opened, can To detect position of the detection probe 1 in the circumference of bend pipe 9；Axial location testing agency 7 is opened, detection probe can be detected 1 position on the axial direction of bend pipe 9.

As shown in figure 1, on the basis of above-described embodiment, further, the utility model also provides a kind of scanner, sweeps Looking into device includes calibrator 8 and bend pipe thickness measuring scanning equipment；Calibrator 8 is electrically connected with detection probe 1；Calibrator 8 is used to show to be examined The thickness data of first 1 measurement of probing.

Wherein, display screen should be set on calibrator 8, for showing thickness data.

In the present embodiment, calibrator 8 is connected with detection probe 1.In use, detection probe 1 is curved by what is measured The thickness data of pipe 9 is transmitted and is shown on calibrator 8, user by observing the data on calibrator 8 by learn bend pipe 9 Thickness.The principle of bend pipe thickness measuring scanning equipment ibid, will not be repeated here.

Finally it should be noted that：Various embodiments above is only used to illustrate the technical solution of the utility model, rather than it is limited System；Although being described in detail to the utility model with reference to foregoing embodiments, one of ordinary skill in the art should Understand：It can still modify to the technical scheme described in foregoing embodiments, or to which part or whole Technical characteristic carries out equivalent；And these modifications or replacement, the essence of appropriate technical solution is departed from this practicality newly The scope of each embodiment technical scheme of type.

Claims (10)

1. a kind of bend pipe thickness measuring scanning equipment, it is characterised in that including：Detection probe, circumferential scanning and searching mechanism and axial scanning Mechanism；

The detection probe is arranged on the circumferential scanning and searching mechanism；The circumferential scanning and searching mechanism is arranged on the axial scanning machine On structure；The axial scanning and searching mechanism is used to drive the circumferential scanning and searching mechanism along the axial movement of bend pipe；The circumferential scanning machine Structure is used to drive the detection probe to be moved along the circumference of bend pipe；The detection probe is used to detect the thickness of bend pipe.

2. bend pipe thickness measuring scanning equipment according to claim 1, it is characterised in that also including controller；

The circumferential scanning and searching mechanism and the axial scanning and searching mechanism are electrically connected with the controller；The controller is used to control The startup and closing of the circumferential scanning and searching mechanism and the axial scanning and searching mechanism.

3. bend pipe thickness measuring scanning equipment according to claim 1, it is characterised in that the circumferential scanning and searching mechanism includes circumferential Drive mechanism, circumferential driving structure and riser；

The through hole for wearing bend pipe, the circumferential driving structure, the circumferential drive mechanism and institute are provided with the riser State riser to be sequentially connected, so that the circumferential driving structure drives the riser along the week of bend pipe by the circumferential drive mechanism To rotation；The detection probe is arranged on the riser；The circumferential driving structure and the circumferential drive mechanism are respectively provided with On the axial scanning and searching mechanism.

4. bend pipe thickness measuring scanning equipment according to claim 3, it is characterised in that the circumferential scanning and searching mechanism also includes peace Dress plate and adjusting rod；

The detection probe is fixed on the adjusting rod, and the installing plate is connected with the adjusting rod, and the installing plate with The adjusting rod can be relatively moved, along the radial direction of bend pipe, to adjust the distance between detection faces and bend pipe of the detection probe； The installing plate is fixedly connected with the riser.

5. bend pipe thickness measuring scanning equipment according to claim 1, it is characterised in that the axial scanning and searching mechanism is included axially Drive mechanism, axially driving structure and cantilever；

The axially driving structure is connected with the axial drive mechanism；One end of the cantilever and the axially transmission knot Structure is fixedly connected, and the other end is connected with the circumferential scanning and searching mechanism, so that the axially driving structure is by the axially transmission Structure drives the other end of the cantilever along the axial movement of bend pipe.

6. bend pipe thickness measuring scanning equipment according to claim 5, it is characterised in that be provided with length adjustment on the cantilever Mechanism；

The length adjustment mechanism is used to adjust the length of the cantilever.

7. bend pipe thickness measuring scanning equipment according to claim 5, it is characterised in that the axially driving structure includes electricity Machine；The axial drive mechanism include being arranged on driving gear on the power output shaft of the motor and with the driving gear The driven gear being meshed；

One end of the cantilever is fixedly connected with the driven gear.

8. bend pipe thickness measuring scanning equipment according to claim 5, it is characterised in that also including column；

On the column, it is sequentially arranged at intervals with multiple draw-in grooves along its length；Be provided with the axial drive mechanism with The holding section that the draw-in groove coordinates.

9. bend pipe thickness measuring scanning equipment according to claim 1, it is characterised in that also including circumferential position testing agency； The circumferential position testing agency is arranged on the circumferential scanning and searching mechanism, for detecting the detection probe in bend pipe circumference Position；

And/or, also including axial location testing agency；The axial location testing agency is arranged on the axial scanning and searching mechanism On, for detecting position of the detection probe on bend pipe axial direction.

10. a kind of scanner, it is characterised in that the bend pipe thickness measuring including calibrator and as described in claim any one of 1-9 Scanning equipment；

The calibrator is electrically connected with the detection probe；The calibrator is used to show the thickness number of the detection probe measurement According to.