CN212409988U - Pipeline detection system based on guided wave detection - Google Patents

Abstract

The utility model discloses a pipeline detecting system based on guided wave detects, including host computer, control switchboard, detection device group and signal collector, the host computer respectively with control switchboard and signal collector connect, set up a set ofly at least on the pipeline detection device group, detection device group is including the first detection device that is used for producing supersound guided wave signal and the second detection device that is used for receiving supersound guided wave signal, first detection device and second detection device are all connected to the control switchboard, second detection device is connected to signal collector. The utility model has the advantages of, install to the pipeline through the detection device group with this system on, replaced former pipeline leak hunting test a series of complicated processes, and do not introduce gaseous medium, accord with the detection requirement to the pipeline under the vacuum environment, can reduce by a wide margin because of the broken vacuum of real empty room and the required time of reduction vacuum, promoted the security of detection efficiency and detection by a wide margin.

Description

Pipeline detection system based on guided wave detection

Technical Field

The utility model relates to a pipeline nondestructive test technical field specifically is a pipeline detecting system based on guided wave detects.

Background

Aiming at large vacuum devices (ITER, CFETR, space environment ground simulation devices, nano vacuum interconnection comprehensive experiment stations and the like) at the present stage, various gas and liquid conveying pipelines with complex shapes are often needed to be used, the pipelines are all positioned in a vacuum chamber, and the structural health of the pipelines in the vacuum chamber has important influence on the safe and stable operation of the vacuum system. In case the pipeline in the vacuum chamber leaks, can cause the pressure surge in the vacuum chamber in the twinkling of an eye, cause the damage to the components and parts in the vacuum chamber, directly threaten vacuum device's safety, consequently carry out structure monitoring and carry out quick location leak source after leaking the emergence and in order to remedy to the pipeline important meaning.

Generally, the environment of the pipeline is affected by a strong magnetic field and thermal stress, so that cracks are easily generated, the cracks expand to form penetrating defects, and further, the leakage danger is caused. The current detection method for pipelines mainly detects leakage, carries out passive detection for remedying after leakage occurs, detects each suspected leakage pipeline point by means of a mechanical arm and a helium mass spectrum leakage detection method, for example, Chinese patent utility model publication No. CN110595699A discloses a helium mass spectrometer leak detection device for pipes, the mass spectrum leak detection device also discloses a specific detection method, particularly step 4 discloses vacuumizing the pipeline to be detected, and step 5 discloses continuously spraying nitrogen to the outside of the pipeline to be tested to realize the pipeline leakage detection test, but the pipeline leakage detection test in the vacuum device needs to go through a series of processes of shutdown, removing medium in the pipeline, drying the pipeline by hot nitrogen, breaking vacuum in the vacuum chamber, demagnetizing a magnetic field, installing a leakage detection device, vacuumizing the interior of the pipeline, spraying helium gas outside the pipeline, completing and repairing leakage detection, vacuumizing in the vacuum chamber, cooling and starting up; obviously, the above process introduces a new medium for leak detection test, the complete detection process usually consumes several months, the detection period is long, and the detection capability for dealing with sudden leakage is weak, which not only results in low detection efficiency, but also seriously jeopardizes the system safety.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve lies in how to improve the security of pipeline detection efficiency and detection.

In order to solve the technical problem, the utility model provides a following technical scheme:

the utility model provides a pipeline detecting system based on guided wave detects, includes host computer, control switchboard, detection device group and signal collector, the host computer respectively with control switchboard and signal collector connect, set up a set of at least on the pipeline detection device group, detection device group is including the first detection device that is used for producing supersound guided wave signal and the second detection device that is used for receiving supersound guided wave signal, first detection device and second detection device are all connected to the control switchboard, second detection device is connected to signal collector.

The upper computer controls the control switchboard to send out an excitation signal, ultrasonic guided wave signals are generated on the pipeline through the first detection device, the second detection device is used for receiving the ultrasonic guided wave signals generated on the pipeline and feeding back the signals to the signal collector, the signal collector carries out denoising and filtering processing on the obtained signals, and finally the processed signals are fed back to the upper computer to be displayed and stored.

Acquiring the defect position on the pipeline according to the inspection result displayed by the upper computer, and constructing a detection database through the stored data of the upper computer so as to improve the positioning precision and accuracy of the defect position; meanwhile, the detection device group of the system is arranged on the pipeline in the vacuum chamber in advance, the series of processes of stopping the machine, removing medium in the pipeline, drying the pipeline by hot nitrogen, breaking vacuum in the vacuum chamber, demagnetizing a magnetic field, installing a leakage detection device, vacuumizing the interior of the pipeline, spraying helium to the exterior of the pipeline, completing leakage detection and repairing, vacuumizing in the vacuum chamber, cooling and starting the machine are needed instead of the original pipeline leakage detection test, no gas medium is introduced in the detection process, the detection requirement on the pipeline in a vacuum environment is met, the time needed by vacuum chamber breaking and vacuum degree reduction can be greatly shortened, and the detection efficiency and the detection safety are greatly improved.

In addition, the detection system adopts ultrasonic guided waves for detection, so that a penetrating leak hole in the pipeline can be detected, non-penetrating cracks can also be detected, the health of the pipeline structure can be monitored, a suspected leakage part can be calibrated, the danger caused by sudden leakage is reduced, and the detection safety is further improved.

Preferably, first detection device and second detection device structure are the same, all include grip ring and test probe, test probe one end is cyclic annular distribution and is in the grip ring inner wall, the other end laminating is on the pipeline outer wall, test probe all with the control switchboard electricity is connected, last test probe of second detection device still with the signal collector electricity is connected.

Transmitting an excitation signal instruction to a detection probe on a first detection device through a control switchboard, converting voltage into vibration of the detection probe according to a piezoelectric effect to generate a detection signal, enabling the signal to be incident to a pipeline from the detection probe, being restrained and conducted by the structure of the pipeline to generate a detection signal with effective information, being received by the detection probe on a second detection device, reducing the vibration signal into an electric signal according to the inverse piezoelectric effect, feeding the electric signal back to a signal collector, carrying out denoising and filtering processing on the obtained signal by the signal collector, feeding the processed signal back to an upper computer for displaying and storing, and obtaining a defect position on the pipeline according to an inspection result displayed by the upper computer; meanwhile, the detection probes are symmetrically distributed in an annular array, so that the ultrasonic guided waves in non-ideal modes can be inhibited, and the detection precision of the defects is improved.

Preferably, the clamping ring is internally provided with clamping grooves corresponding to the number and the positions of the detection probes, and the clamping grooves are internally provided with telescopic mechanisms which can drive the detection probes to telescopically move along the radial direction of the pipeline and are electrically connected with the control switchboard.

Preferably, telescopic machanism includes flexible motor and flexible push rod, flexible motor card is established in the draw-in groove, flexible push rod is connected to the output of flexible motor, the other end of flexible push rod is connected test probe, flexible motor all with the control head electromechanical is connected.

Control through the control switchboard the flexible drive of flexible motor adapts to the detection demand of not unidimensional pipeline to owing to be coolant in the pipeline, long-term laminating of test probe causes the damage easily on the pipeline, influences its detection precision, then when need not leak hunting test, can shrink through flexible motor, make test probe not with the pipeline laminating reduces the damage to test probe, improves the later stage and detects the precision.

Preferably, the clamping ring is an annular structure consisting of two semicircular clamping parts.

Preferably, the side of the clamping ring is at least provided with a moving device capable of driving the clamping ring to move on the pipeline, the moving device at least comprises three moving mechanisms, one end of each moving mechanism is annularly distributed on the side of the clamping ring, the other end of each moving mechanism is distributed on the outer wall of the pipeline along the radial direction of the pipeline, and the moving mechanisms are all electrically connected with the control switchboard.

The moving mechanism is controlled to drive through the control switchboard, so that the first detection device and the second detection device can move on the pipeline, the detection system can detect the whole pipeline only by one detection device group, and the input cost of detection equipment is greatly saved.

Preferably, the side surfaces of the clamping rings are fixed with cover plates, and the moving mechanisms are annularly and uniformly distributed on the cover plates.

Preferably, the moving mechanism comprises a fixed rod, an elastic pressing mechanism, a fixed seat, a steering engine and a roller, one end of the fixed rod is fixed on the side face of the clamping ring, the other end of the fixed rod is connected with the elastic pressing mechanism, the output end of the elastic pressing mechanism is arranged towards the radial direction of the pipeline and is connected with the fixed seat, the steering engine and the roller are fixed on the fixed seat, the steering engine is electrically connected with the control unit, the output end of the steering engine is connected with the roller, and the steering engine is driven to drive the roller to roll on the pipeline.

Preferably, the elastic pressing mechanism comprises a shell, a spring and a moving rod, one side of the shell, which is close to the pipeline, is provided with a sliding hole, the spring is arranged in the sliding hole, one end of the spring is fixed at the bottom of the sliding hole, the other end of the spring is connected with the moving rod which can move in the sliding hole, and one end, which is far away from the spring, of the moving rod is connected with the fixed seat.

When the size change of pipeline, through the flexible effect of spring, drive the flexible removal of fixing base, and then drive the removal of gyro wheel on the fixing base, and then make the gyro wheel can laminate on the pipeline outer wall all the time when the size change of pipeline, the suitability is stronger.

Preferably, the idler wheel is fixed on the fixed seat through a U-shaped seat, and the output end of the steering engine penetrates through the side face of the U-shaped seat and is connected with the idler wheel.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the detection device group of the detection system is arranged on a pipeline in a vacuum chamber in advance, the series of processes of stopping, removing medium in the pipeline, hot nitrogen drying the pipeline, breaking vacuum in the vacuum chamber, demagnetizing a magnetic field, installing the leakage detection device, vacuumizing the inside of the pipeline, spraying helium to the outside of the pipeline, detecting leakage, completing and repairing, vacuumizing in the vacuum chamber, cooling and starting are needed in the original pipeline leakage detection test, no gas medium is introduced in the detection process, the detection requirement on the pipeline in a vacuum environment is met, the time required by breaking vacuum in the vacuum chamber and reducing the vacuum degree can be greatly shortened, and the detection efficiency and the detection safety are greatly improved.

In addition, the detection system adopts ultrasonic guided waves for detection, so that a penetrating leak hole in the pipeline can be detected, non-penetrating cracks can also be detected, the health of the pipeline structure can be monitored, a suspected leakage part can be calibrated, the danger caused by sudden leakage is reduced, and the detection safety is further improved.

2. The detection probes are symmetrically distributed in an annular array, so that the ultrasonic guided waves in non-ideal modes can be inhibited, and the detection precision of defects is improved.

3. Through control the flexible drive of flexible motor adapts to the detection demand of not unidimensional pipeline to owing to be coolant in the pipeline, long-term laminating of test probe causes the damage easily on the pipeline, influences its detection precision, then when need not leak hunting test, can shrink through flexible motor, make test probe not with the pipeline laminating reduces the damage to test probe, improves later stage detection precision.

4. By controlling the driving of the moving mechanism, the first detection device and the second detection device can move on the pipeline, so that the detection system can detect the whole pipeline only by one detection device group, the investment cost of detection equipment is greatly saved, and the detection efficiency is also improved.

5. When the size change of pipeline, through the flexible effect of spring, drive the flexible removal of fixing base, and then drive the removal of gyro wheel on the fixing base, and then make the gyro wheel can laminate on the pipeline outer wall all the time when the size change of pipeline, the suitability is stronger.

Drawings

Fig. 1 is a schematic structural diagram of a pipeline detection system based on guided wave detection according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a detection device set according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a first detection device according to an embodiment of the present invention;

FIG. 4 is a schematic structural view of a retainer ring according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a moving mechanism according to an embodiment of the present invention;

fig. 6 is a cross-sectional view of an elastic pressing mechanism according to an embodiment of the present invention.

Detailed Description

In order to facilitate the understanding of the technical solutions of the present invention by those skilled in the art, the technical solutions of the present invention will now be further described with reference to the drawings attached to the specification.

In this application, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can include, for example, fixed connections, removable connections, or integral parts; the connection can be mechanical connection, electrical connection or communication; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

In this application, unless explicitly stated or limited otherwise, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

Referring to fig. 1 and fig. 2, the embodiment discloses a pipeline detection system based on guided wave detection, which includes an upper computer 1, a control switchboard 2, a detection device group and a signal collector 3, wherein the upper computer 1 is respectively connected with the control switchboard 2 and the signal collector 3, at least one detection device group is arranged on a pipeline 4, and in the embodiment, one detection device group is arranged; detection device group is including the second detection device 6 that is used for producing the first detection device 5 of supersound guided wave signal and is used for receiving supersound guided wave signal, first detection device 5 and second detection device 6 are all connected to control switchboard 2, second detection device 4 is connected to signal collector 3.

The upper computer 1 controls the control switchboard 2 to send out an excitation signal, an ultrasonic guided wave signal is generated on the pipeline 4 through the first detection device 5, the second detection device 6 is used for receiving the ultrasonic guided wave signal generated on the pipeline 4 and feeding back the signal to the signal collector 3, the signal collector 3 carries out denoising and filtering processing on the obtained signal, finally the processed signal is fed back to the upper computer 1 for displaying and storing, the defect position on the pipeline 4 is obtained according to the checking result displayed by the upper computer 1, and a detection database can be constructed through the stored data of the upper computer 1 so as to improve the positioning precision and the accuracy of the defect position; meanwhile, the system is arranged on the pipeline 4 in the vacuum chamber in advance, the series of processes of stopping, removing medium in the pipeline, heating nitrogen drying the pipeline, breaking vacuum in the vacuum chamber, demagnetizing a magnetic field, installing a leakage detection device, vacuumizing the inside of the pipeline, spraying helium to the outside of the pipeline, completing leakage detection and repairing, vacuumizing in the vacuum chamber, cooling and starting up are needed to replace the original pipeline leakage detection test, no gas medium is introduced in the detection process, the detection requirement on the pipeline 4 in a vacuum environment is met, the time required by breaking vacuum in the vacuum chamber and reducing the vacuum degree can be greatly shortened, and the detection efficiency and the detection safety are greatly improved.

In addition, the detection system adopts the ultrasonic guided wave for detection, so that the detection system not only can detect the penetrating leak on the pipeline 4, but also can detect the non-penetrating crack, further realizes the monitoring of the structural health of the pipeline 4, can calibrate the part suspected of forming the leakage, reduces the danger caused by the sudden leakage, and further improves the detection safety.

The control switchboard 2 comprises a high-power supply and a control circuit, the high-power supply can provide power for the control switchboard 2 and the detection device group, and the control circuit receives signals of the upper computer 1 and converts the signals into control instructions to transmit the control instructions to the detection device group.

Referring to fig. 3 and 4, the first detection device 5 and the second detection device 6 have the same structure, and each of the first detection device and the second detection device includes a clamping ring 51, a telescopic mechanism 52, a detection probe 53 and a moving device, the clamping ring 51 has an annular structure formed by two semicircular clamping portions, and an outwardly protruding ear portion is disposed at a position where ends of the two semicircular clamping portions are connected, and is used for connecting the semicircular clamping portions; the clamping ring 51 is provided with clamping grooves 511 which are symmetrically distributed in an annular array by taking the center of the clamping ring 51 as the center, the side opening ends of the clamping grooves 511 are all arranged towards the center of the clamping ring 51, the top opening end is arranged towards the direction parallel to the axial direction of the clamping ring 51, in the embodiment, the number of the clamping grooves 511 is 8, telescopic mechanisms 52 electrically connected with the control switchboard 2 are arranged in the clamping grooves 511, the output ends of the telescopic mechanisms 52 are arranged towards the radial direction of the pipeline and are connected with detection probes 53 which can be attached to the outer wall of the pipeline 4 and can drive the detection probes 53 to move telescopically along the radial direction of the pipeline 4 so as to adapt to the detection requirements of the pipelines 4 with different sizes, the detection probes 53 are all electrically connected with the control switchboard 2, and the detection probes 53 on the second detection device 6 are also electrically connected with the signal collector; in this embodiment, the detection probe 53 is a piezoelectric wafer, an excitation signal instruction is transmitted to the detection probe 53 on the first detection device 5 by controlling the switchboard 2, a voltage is converted into vibration of the detection probe 53 according to a piezoelectric effect to generate a detection signal, the signal is incident to the pipeline 4 from the detection probe 53, the detection signal which is constrained and transmitted by the structure of the pipeline 4 and generates effective information is received by the detection probe 53 on the second detection device 6, the vibration signal is reduced into an electric signal according to a reverse piezoelectric effect and the electric signal is fed back to the signal collector 3, the signal collector 3 carries out denoising and filtering processing on the obtained signal, finally the processed signal is fed back to the upper computer 1 for displaying and storing, and a defect position on the pipeline 4 is obtained according to an inspection result displayed by the upper computer 1; meanwhile, the detection probes 53 are symmetrically distributed in an annular array, so that the ultrasonic guided waves in non-ideal modes can be inhibited, and the detection precision of defects is improved.

The both sides face of grip ring 51 perpendicular to pipeline 4 all is fixed with apron 512, be provided with the mobile device that can drive grip ring 51 and move on pipeline 4 on the apron 512 of grip ring 51 side at least, in this embodiment, all be equipped with the mobile device on two apron 512 of grip ring 51, the mobile device includes three moving mechanism 54 at least, moving mechanism 54 one end is fixed as the center and is cyclic annular array distribution on apron 511 with grip ring 51 center pin, and the other end distributes at the outer wall of pipeline 4 along the pipeline 4 radial direction, moving mechanism 54 all is connected with control switchboard 2 electricity, controls the operation of 54 of moving mechanism through control motor 2.

Referring to fig. 5, the moving mechanism 54 includes a fixing rod 541, an elastic pressing mechanism 542, a fixing seat 543, a steering engine 544, a U-shaped seat 545 and a roller 546, one end of the fixing rod 541 is detachably fixed on the side surface of the clamping ring 51, and can be fixedly connected with a bolt, so that adjustment can be performed for different pipeline structures, and only the moving mechanism 54 matched with the size of the pipeline 4 needs to be replaced, so that the applicability is stronger; the other end of the elastic pressing mechanism 542 is connected, the output end of the elastic pressing mechanism 542 is arranged in the radial direction of the pipeline 4, and is connected with the fixed seat 543, and can also drive the fixed seat 543 to move in the radial direction of the pipeline 4, so that the moving mechanism 54 can adapt to pipelines 4 of different sizes, a steering engine 544 and a U-shaped seat 545 are fixed on the fixed seat 543, the steering engine 544 is electrically connected with the control switchboard 2, a rotatable roller 546 is fixed on the U-shaped seat 545, the output end of the steering engine 544 penetrates through the side surface of the U-shaped seat 545 to be connected with the roller 546, the steering engine 544 is controlled by the control switchboard 2 to drive, so that the roller 546 can be driven to roll on the pipeline 4, and the first detection device 5 and the second detection device 6 can both move on the pipeline 4, where it should be noted that a general group of detection devices can detect lengths of about 1m, if there is no moving device, a plurality of detecting device sets are installed on the pipeline for detection, and it is ensured that the pipeline 4 can be detected by the detecting device sets, but the input cost of the detecting device is high, and the first detecting device 5 and the second detecting device 6 can move on the pipeline 4 by the arrangement of the moving mechanism 54, so that the detecting system can realize the detection of the whole pipeline 4 only by one detecting device set, thereby greatly saving the input cost of the detecting device, and also improving the detecting efficiency.

Specifically, the detection system can detect the pipeline 4 within the range of 1m at a time, can detect a through hole with the minimum equivalent weight of 1mm or a crack with the equivalent weight of 1mm multiplied by 4mm multiplied by 0.5mm, has the positioning precision of 5cm and can be adjusted according to actual requirements.

Further, referring to fig. 6, the elastic pressing mechanism 542 includes a housing 5421, a spring 5422 and a moving rod 5423, one side of the housing 5421 close to the pipeline 4 is provided with a sliding hole 54211, a spring 5422 is arranged in the sliding hole 54211, one end of the spring 5422 is fixed at the bottom of the sliding hole 54211, the other end of the spring 5422 is connected with the moving rod 5423 capable of moving in the sliding hole 54211, one end of the moving rod 5423 far away from the spring 5422 is connected with the fixing seat 543, when the size of the pipeline 4 changes, the fixing seat 543 is driven to move telescopically through the telescopic action of the spring 5422, and then the roller 546 on the fixing seat 543 is driven to move, so that the roller 546 can be attached to the outer wall of the pipeline 4 all the time when the size of the pipeline 4 changes, and.

Still further, referring to fig. 4, the telescopic mechanism 52 includes a telescopic motor 521 and a telescopic push rod 522, the telescopic motor 522 is clamped in the clamping slot 511, the telescopic motors 521 are all electrically connected to the control switchboard 2, an output end of the telescopic motor 521 is connected to the telescopic push rod 522, the other end of the telescopic push rod 522 is connected to the detection probe 53, the telescopic driving of the telescopic motor 521 is controlled by the control switchboard 2 to adapt to the detection requirements of the pipelines 4 with different sizes, and because the pipeline 4 is internally provided with a cooling medium, the detection probe 53 is easily damaged when being attached to the pipeline 4 for a long time, and the detection precision is affected, when a leak detection test is not needed, the telescopic motor 521 can be retracted, so that the detection probe 53 is not attached to the pipeline 4, the damage to the detection probe 53 is reduced, the detection precision in a later period is improved, and the moving mechanism 54 can fix the clamping ring 51, the stability of the first detection means 5 and the second detection means 6 is not affected.

The working principle of the embodiment is as follows: firstly, a detection device group of the system is arranged on a pipeline 4 in a vacuum chamber in advance, an upper computer 1, a control switchboard 2 and a signal collector 3 are arranged outside the vacuum chamber, when detection is carried out, a digital signal of guided waves is edited and detected through the upper computer 1 and is sent to the control switchboard 2, the control switchboard 2 transmits an excitation signal instruction to a detection probe 53 on a first detection device 5, voltage is converted into vibration of the detection probe 53 according to piezoelectric effect to generate a detection signal, the signal is incident to the pipeline 4 from the detection probe 53, the detection signal which is constrained and transmitted by the structure of the pipeline 4 and has effective information is received by the detection probe 53 on a second detection device 6, the vibration signal is reduced into an electric signal according to inverse piezoelectric effect and is fed back to the signal collector 3, and the signal collector 3 de-noizes the obtained signal, Filtering, feeding the processed signals back to the upper computer 1 for display and storage, obtaining the defect position on the pipeline 4 according to the inspection result displayed by the upper computer 1, and rapidly checking and maintaining the position suspected to be leaked or cracked by a worker according to the positioning result of the defect position; meanwhile, the detection probes 53 are symmetrically distributed in an annular array, so that the ultrasonic guided waves in non-ideal modes can be inhibited, and the detection precision of defects is improved.

After the detection of the detection end is completed, the steering engine 544 is controlled to drive by controlling the switchboard 2, so that the roller 546 can be driven to roll on the pipeline 4, the first detection device 5 and the second detection device 6 can both move on the pipeline 4, the detection of the whole pipeline 4 can be realized by only one detection device group of the detection system, and the input cost of the detection device is greatly saved.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein, and any reference signs in the claims are not intended to be construed as limiting the claim concerned.

The above embodiments only show the embodiments of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and for those skilled in the art, a plurality of modifications and improvements can be made without departing from the concept of the present invention, and these modifications and improvements all belong to the protection scope of the present invention.

Claims (10)

1. The utility model provides a pipeline detecting system based on guided wave detects which characterized in that: including host computer, control switchboard, detection device group and signal collector, the host computer respectively with control switchboard and signal collector connect, set up a set ofly at least on the pipeline detection device group, detection device group is including the first detection device who is used for producing supersound guided wave signal and the second detection device who is used for receiving supersound guided wave signal, first detection device and second detection device are all connected to the control switchboard, second detection device is connected to signal collector.

2. The guided wave detection-based pipeline inspection system of claim 1, wherein: first detection device and second detection device structure are the same, all include grip ring and test probe, test probe one end is cyclic annular distribution and is in the grip ring inner wall, the laminating of the other end is on the pipeline outer wall, test probe all with the control is total electromechanical to be connected, last test probe of second detection device still with the signal collector electricity is connected.

3. The guided wave detection-based pipeline inspection system of claim 2, wherein: the clamping ring is internally provided with clamping grooves corresponding to the number and the positions of the detection probes, and a telescopic mechanism capable of driving the detection probes to telescopically move along the radial direction of the pipeline and electrically connected with the control switchboard is arranged in the clamping grooves.

4. The guided wave detection-based pipeline inspection system of claim 3, wherein: the telescopic mechanism comprises a telescopic motor and a telescopic push rod, the telescopic motor is clamped in the clamping groove, the output end of the telescopic motor is connected with the telescopic push rod, the other end of the telescopic push rod is connected with the detection probe, and the telescopic motor is connected with the control switchboard.

5. The guided wave detection-based pipeline inspection system of claim 2, wherein: the clamping ring is of an annular structure consisting of two semicircular clamping parts.

6. The guided wave detection-based pipeline inspection system of claim 2, wherein: the clamping ring side is provided with a mobile device that can drive the clamping ring and move on the pipeline at least, mobile device includes three moving mechanism at least, moving mechanism one end is cyclic annular distribution and is in the clamping ring side, and the other end distributes at the pipeline outer wall along the pipeline radial direction, moving mechanism all is connected with the control switchboard electricity.

7. The guided wave detection-based pipeline inspection system of claim 6, wherein: the side surfaces of the clamping rings are all fixed with cover plates, and the moving mechanisms are annularly and uniformly distributed on the cover plates.

8. The guided wave detection-based pipeline inspection system of claim 7, wherein: the moving mechanism comprises a fixed rod, an elastic pressing mechanism, a fixed seat, a steering engine and a roller, one end of the fixed rod is fixed to the side face of the clamping ring, the other end of the fixed rod is connected with the elastic pressing mechanism, the output end of the elastic pressing mechanism is arranged in the radial direction of the pipeline and connected with the fixed seat, the steering engine and the roller are fixed on the fixed seat, the steering engine is electrically connected with the control main unit, the output end of the steering engine is connected with the roller, and the roller can be driven to roll on the pipeline by driving the steering engine.

9. The guided wave detection-based pipeline inspection system of claim 8, wherein: the elastic pressing mechanism comprises a shell, a spring and a moving rod, wherein a sliding hole is formed in one side, close to the pipeline, of the shell, the spring is arranged in the sliding hole, one end of the spring is fixed to the bottom of the sliding hole, the other end of the spring is connected with the moving rod capable of moving in the sliding hole, and one end, far away from the spring, of the moving rod is connected with the fixed seat.

10. The guided wave detection-based pipeline inspection system of claim 8, wherein: the idler wheel is fixed on the fixed seat through the U-shaped seat, and the output end of the steering engine penetrates through the side face of the U-shaped seat and is connected with the idler wheel.

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