CN207396410U - A kind of acoustic fix ranging C for corrosive pipeline detection sweeps imaging device - Google Patents

Abstract

The utility model is related to a kind of acoustic fix ranging C for corrosive pipeline detection to sweep imaging device, the longitudinal wave normal probe contacted including supersonic detector and by couplant with pipeline external surface, the detection device further includes acoustic fix ranging emission sensor, acoustic fix ranging receiving sensor, stent and magnetic attracting device, the acoustic fix ranging emission sensor is connected on longitudinal wave normal probe, the acoustic fix ranging receiving sensor is arranged on stent both ends, and stent is fixed on pipeline external surface by magnetic attracting device, the longitudinal wave normal probe, acoustic fix ranging emission sensor and acoustic fix ranging receiving sensor are all connected with supersonic detector.The utility model positions test position information using acoustic fix ranging emission sensor harmony position receiver sensor during corrosive pipeline detection is carried out, so that the corrosion condition compartmentalization of pipeline be shown in C and sweep on coloured image, intuitively reflect very much the extent of corrosion of examined pipeline, corrosion default recall rate is improved, strong evidence is provided for construction quality assessment.

Description

A kind of acoustic fix ranging C for corrosive pipeline detection sweeps imaging device

Technical field

The utility model is related to pipeline inspection technology fields, and in particular to a kind of acoustic fix ranging C for corrosive pipeline detection Sweep imaging device.

Background technology

Pressure pipeline is that the possibility that uses causes the larger special type of danger such as fire or be poisoned to set in production, life Standby, country formulates relevant laws and regulations therefore ensures people's property and life security to pressure pipeline implementation supervision.And in petrochemical industry A kind of examined workpiece that pressure pipeline is relatively common in engineering and quantity is larger, such as its generation explosion or poison gas leakage consequence It is hardly imaginable.

Pressure pipeline longtime running is easiest to generate corrosive pipeline, therefore rotten to pressure pipeline in-service in petroleum chemical engineering The detection work of erosion defect is just particularly important.Corrosive pipeline detection method more commonly used at present is exactly circumferentially every along pipeline A thickness measuring point thickness measuring is selected every 90 degree to assess the corrosion condition at this, this method is due to only carrying out four points of circumferencial direction Thickness measuring is only able to display the extent of corrosion of certain point, it is most likely that misses the region corroded.

Utility model content

The purpose of this utility model is to provide a kind of acoustic fix ranging C for corrosive pipeline detection to sweep imaging device, energy Corrosive pipeline region and its extent of corrosion at enough intuitively reflections, so as to improve corrosion default recall rate.

To achieve the above object, the technical solution adopted in the utility model is：

A kind of acoustic fix ranging C for corrosive pipeline detection sweeps imaging device, including supersonic detector and passes through coupling The longitudinal wave normal probe that agent is contacted with pipeline external surface, the detection device further includes acoustic fix ranging emission sensor, acoustic fix ranging receives Sensor, stent and magnetic attracting device, the acoustic fix ranging emission sensor are connected on longitudinal wave normal probe, and the acoustic fix ranging, which receives, to be passed Sensor is arranged on stent both ends, and stent is fixed on pipeline external surface, the longitudinal wave normal probe, acoustic fix ranging hair by magnetic attracting device It penetrates sensor and acoustic fix ranging receiving sensor is all connected with supersonic detector.

The stent is equipped with graduated scale.

After using the above program, the utility model is during corrosive pipeline detection is carried out using acoustic fix ranging transmitting sensing Device harmony position receiver sensor positions test position information, supersonic detector combination test position information and detection Pipeline wall thickness information at position is color coded corrosive pipeline degree, forms C and sweeps coloured image.

When longitudinal wave normal probe moves progress pipeline wall thickness information measurement in detection zone, longitudinal wave normal probe detected every The corrosive pipeline degree information of one position can all be shown as C and sweep coloured image, so that the corrosion condition compartmentalization of pipeline It is shown in C to sweep on coloured image, intuitively reflects very much the extent of corrosion of examined pipeline, improve pipeline corrosion default inspection Extracting rate provides strong evidence for construction quality assessment.

Description of the drawings

Fig. 1 sweeps imaging device dimensional structure diagram for the utility model acoustic fix ranging C；

Fig. 2 sweeps imaging device top view for the utility model acoustic fix ranging C；

Fig. 3 is the utility model longitudinal wave normal probe position schematic diagram calculation；

Fig. 4 is that the C of the utility model testing result sweeps image.

Specific embodiment

For the technology contents of detailed the utility model, structure feature, institute's reached purpose and effect, embodiment will be enumerated below And Figure of description is coordinated to be described in detail.

Shown referring to Figures 1 and 2, the utility model discloses a kind of acoustic fix ranging C for corrosive pipeline detection and sweeps imaging Device, including longitudinal wave normal probe 1, acoustic fix ranging emission sensor 2, acoustic fix ranging receiving sensor 3,4, stent 5, magnetic attracting device 6 With supersonic detector 8, wherein, acoustic fix ranging emission sensor 2 is connected on longitudinal wave normal probe 1, and longitudinal wave normal probe 1 passes through coupling Mixture is contacted with 7 outer surface of pipeline；Stent 5 is fixed on 7 outer surface of pipeline by magnetic attracting device 6, is connected at 5 both ends of stent sound Position receiver sensor 3,4；Longitudinal wave normal probe 1, acoustic fix ranging emission sensor 2 and acoustic fix ranging receiving sensor 3,4 pass through Data cable connects supersonic detector 8.

Acoustic fix ranging receiving sensor 3,4 quantity are two in the present embodiment, and two acoustic fix ranging receiving sensors 3,4 are distinguished The both ends of stent 5 are arranged on, when acoustic fix ranging emission sensor 2 emits the sound wave of specific frequency, acoustic fix ranging receiving sensor 3,4 Sound wave can be received, the time of sound wave is emitted according to acoustic fix ranging emission sensor 2, acoustic fix ranging receiving sensor 3,4 receives sound wave Time and sound wave speed, it may be determined that longitudinal wave normal probe 1 and acoustic fix ranging receiving sensor 3, the distance between 4.

Above-mentioned stent 5 is equipped with graduated scale, can so facilitate two acoustic fix ranging sensors 3, the distance between 4.

With reference to Fig. 3 and Fig. 4 and coordinate shown in Fig. 1 and Fig. 2, when carrying out corrosive pipeline detection using above-mentioned detection device, inspection Survey method is as follows：

Acoustic fix ranging emission sensor 2 is mounted on longitudinal wave normal probe 1 by step 1, is fixed stent 5 by magnetic attracting device 6 In 7 outer surface of pipeline, two sonic locator reception devices 3,4 are separately mounted to 5 both ends of stent, it is straight using data cable connection longitudinal wave Probe 1, acoustic fix ranging emission sensor 2, acoustic fix ranging receive sensing 3,4 and are connected on supersonic detector 8.

Step 2 starts supersonic detector 8, and detection zone is set on supersonic detector 8, longitudinal wave normal probe 1, Acoustic fix ranging emission sensor 2, acoustic fix ranging receiving sensor 3,4 are arranged in the detection zone, which is that length is A, width are the rectangle frame of b, wherein, a is two acoustic fix ranging receiving sensors 3, the distance between 4, b is setting value, defines two sound Connecting line between position receiver sensor 3,4 is x-axis, and any straight line perpendicular to x-axis in detection zone is y-axis.

Connecting line in the present embodiment between two acoustic fix ranging receiving sensors 3,4 is x-axis, two acoustic fix ranging receiving sensors 3rd, the perpendicular bisector of the connecting line between 4 is y-axis, and it is negative direction of the x-axis to be directed toward 3 direction of acoustic fix ranging receiving sensor, is directed toward acoustic fix ranging 4 direction of receiving sensor is positive direction of the x-axis, and it is positive direction of the y-axis to be directed toward 1 direction of longitudinal wave normal probe.It so can be directly from stent 5 The coordinate of position receiver sensor 3 of reading aloud on graduated scale is（0 ,-x1）, the coordinate of acoustic fix ranging receiving sensor 4 is（0, x2）.

It is straight to trigger longitudinal wave by 7 surface of coupling reagent pipeline by supersonic detector 8 for step 3, longitudinal wave normal probe 1 1 transmitting ultrasonic wave of probe, longitudinal wave normal probe 1 on 7 surface of pipeline in the range of detection zone is moved and carries out the survey of 7 wall thickness of pipeline 7 wall thickness information of pipeline is sent to supersonic detector 8 by amount, longitudinal wave normal probe 1；While 7 wall thickness measuring of pipeline is carried out, sound Localizing emission sensor 2 emits the sound wave of specific frequency, 2 He of acoustic fix ranging emission sensor to acoustic fix ranging receiving sensor 3,4 Acoustic fix ranging receiving sensor 3,4 will emit and receive information is sent to supersonic detector 8, and supersonic detector 8 is according to the letter Breath acquisition longitudinal wave normal probe 1 and the distance d1 and longitudinal wave normal probe and acoustic fix ranging receiving sensor 4 of acoustic fix ranging receiving sensor 3 Distance d2；

Step 4, supersonic detector 8 are according to the coordinate of acoustic fix ranging receiving sensor 3（0 ,-x1）, acoustic fix ranging, which receives, to be sensed The coordinate of device 4（0, x2）And longitudinal wave normal probe and the distance d1 and longitudinal wave normal probe of acoustic fix ranging receiving sensor 3 determine with sound The distance d2 of position receiving sensor 4 calculates the position coordinates of longitudinal wave normal probe（x3,y3）, calculation formula is：

d1=((x3)2+(y3+x1)2)(1/2) (1-1)

d2=((x3)2+(y3-x2)2)(1/2) (1-2)

Step 5, supersonic detector 8 are advised according to the coding of the coordinate information combination supersonic detector 8 of longitudinal wave normal probe 1 It is then color coded to measuring obtained 7 wall thickness of pipeline to longitudinal wave normal probe 1, forms C and sweep coloured image.

The utility model it is critical that the utility model during corrosive pipeline detection is carried out using acoustic fix ranging send out It penetrates sensor 2 harmony position receiver sensor, 3,4 pairs of test position information to position, supersonic detector 8 is according to check bit Confidence ceases and the 7 wall thickness information of pipeline of inspection positions is color coded 7 extent of corrosion of pipeline, forms C and sweeps coloured image. Longitudinal wave normal probe 1 moved in detection zone carry out 7 wall thickness information measurement of pipeline when, longitudinal wave normal probe 1 detected each The corrosive pipeline degree information put can all be shown in C and sweep on coloured image so that the corrosion condition compartmentalization of pipeline 7 show Show and swept in C on coloured image, intuitively reflect very much the extent of corrosion of examined pipeline, improve the inspection of 7 corrosion default of pipeline Extracting rate provides strong evidence for construction quality assessment.

The above is only the utility model embodiment, not makees any limit to the technical scope of the utility model System, therefore every any trickle amendment made according to the technical essence of the utility model to above example, equivalent variations are with repairing Decorations, in the range of still falling within technical solutions of the utility model.

Claims (2)

1. a kind of acoustic fix ranging C for corrosive pipeline detection sweeps imaging device, including supersonic detector and pass through couplant The longitudinal wave normal probe contacted with pipeline external surface, it is characterised in that：The detection device further includes acoustic fix ranging emission sensor, sound Position receiver sensor, stent and magnetic attracting device, the acoustic fix ranging emission sensor are connected on longitudinal wave normal probe, and the sound is determined Position receiving sensor is arranged on stent both ends, and stent is fixed on pipeline external surface by magnetic attracting device, the longitudinal wave normal probe, Acoustic fix ranging emission sensor and acoustic fix ranging receiving sensor are all connected with supersonic detector.

2. a kind of acoustic fix ranging C for corrosive pipeline detection according to claim 1 sweeps imaging device, it is characterised in that： The stent is equipped with graduated scale.