CN209587485U - A kind of detecting robot of pipe - Google Patents

Abstract

Present disclose provides a kind of detecting robot of pipe, the robot of the disclosure can actively adapt to a wide range of caliber change, the deformation of passive adaptation pipeline small range, have significantly bend pipe passability, carry multiple sensors, make up the not high disadvantage of single-sensor testing result confidence level, it can more acurrate detection pipeline inner wall corrosion, local deformation and the defects of weld seam crack.

Description

A kind of detecting robot of pipe

Technical field

This disclosure relates to a kind of detecting robot of pipe.

Background technique

Only there is provided background technical informations relevant to the disclosure for the statement of this part, it is not necessary to so constitute first skill Art.

Pipeline transportation is to use pipeline as a kind of long distance delivery liquid of means of transport or/and the defeated side of gas goods and materials Formula is often used as from grown place to market transfer oil, coal and chemical products, is the composition portion of line haul in consolidated delivery net Point.Its not only have big freight volume, continuous, rapid, economic, safe and reliable, steady and small investment, land occupation less, expense it is low, Realize the advantages that automatically controlling.The section that gets worse in water transport or land transportation can be saved simultaneously, shortens the haul-cycle time, reduce transportation cost, Improve conevying efficiency.

But pipeline transportation mode is there is also certain disadvantage, due to pipeline can with long-play, because environmental change, Dielectric corrosion, the factors such as fatigue rupture will cause the failures such as locally thinning inner wall of the pipe, weld cracking, pipe deforming.Therefore, Detection to pipeline, it is especially particularly important to the In-service testing of pipeline.

Current pipe robot is mainly wheeled robot, robot carry compatible with detection sensor into Row detection.Although wheeled robot haves the advantages that motion control process is easy, the volume of wheeled robot is substantially certain, nothing The internal diameter of method and pipeline carry out it is particularly preferred be adapted to, and pipeline is often because of the limitation in laying environment or space, and there are calibers The case where inconsistent, variation, occurs, also corner in need, cause robot at variable diameter and or knee there is card The problem of firmly or colliding pipeline, or even will cause and pipeline is injured in the detection process, and the fluid transmitted can be to damage Place's corrosion, causes secondary injury.

Meanwhile detecting robot of pipe uses single-sensor to detect mostly and only can detect straight tube both at home and abroad at present, no Detectable bend pipe or unsatisfactory to the detection effect of bend pipe, and it is directed to large-scale caliber change, it shows unsatisfactory.

Utility model content

The disclosure to solve the above-mentioned problems, proposes a kind of detecting robot of pipe, and the disclosure can be adapted to actively greatly Range caliber change, has significantly bend pipe passability at the deformation of passive adaptation pipeline small range, carries multiple sensors.

According to some embodiments, the disclosure is adopted the following technical scheme that

A kind of detecting robot of pipe, including at least three section bodies, the first housing being respectively sequentially connected, the second housing With third body, in which:

The outer of the first housing circumferentially has several mechanical arms, and the first adjusting machine is provided on the mechanical arm Structure, first regulating mechanism keep mechanical arm adjustable relative to the distance in first housing axle center, and the mechanical arm end is provided with Guide part；

The second housing is connect with first housing end and third body front end respectively by rotatable member, and described second Body includes rotating mechanism, the second regulating mechanism and detection arm, and the detection arm is set at the outer of the second housing, by the Two regulating mechanisms change the spacing of detection arm end and inner wall of the pipe, and the rotating mechanism drives the detection arm circumferentially to revolve Turn；

The outer of the third body circumferentially has several mechanical arms, and the mechanical arm is relative to first housing axle center Apart from adjustable, the mechanical arm end is provided with actuator, and power mechanism, the power mechanism driving are provided on third body The actuator makes entirely to detect the traveling of Robot pipeline extending direction；

Testing agency is provided on the detection arm.

It is arranged by above structure, realizes the entire detection artificial segmentation structure of machine, and pass through between each subsection Rotatable member connection, when this structure can guarantee that robot encounters the bending of pipeline wide-angle or turning phenomenon occurs, Neng Goushun The realization of benefit is turned round, and the variation of pipeline rout is adapted to.

In addition, the spacing with tube wall can be adjusted by the mechanical arm of the first housing, third body, realize in tube wall When diameter changes, by changing opening/shrinkage degree of mechanical arm, realization robot is during traveling, mechanical arm and pipe Wall is seamless always, adaptive contact, using the leading arm being arranged on the first housing, guiding role is realized, using on third body Power mechanism realizes driving effect.

It is rotatable for the first housing and third body using the second housing, and detection plate is bonded always with tube wall The characteristics of, realize detection effect.

Certainly, this is not meant to that testing agency cannot be placed on the first housing or/and third body.

As a kind of enforceable scheme, video sensor and/or ultrasonic sensor are provided on the first housing. Preferably, video sensor and/or ultrasonic sensor can be set on the front end of the first housing, to realize in robot In traveling process, the case where direction of travel front end, is detected.

As a kind of enforceable scheme, the first housing includes foreboard and bottom plate, passes through machine between foreboard and bottom plate Frame connects, and the first regulating mechanism on the first housing includes lead screw, the central axis of the lead screw and the first housing Center overlapping of axles are cased with screw slider on the lead screw, expansion ring are cased on the first housing, the expansion ring can be described It is slided in the axial direction on the first housing, the expansion ring is connect with the screw slider by expansion ring connecting rod, for adjusting The thigh is arranged with several thighs at a distance from first rack on the expansion ring, the Medial Thigh Skin has opening, The expansion ring can be moved by the opening along the extending direction of the thigh, and the thigh is connected to shank, forms machine Tool arm is whole.

As a kind of enforceable scheme, the guide part is directive wheel.

As further technical solution, first regulating mechanism includes the torsionspring positioned at the shank, steel wire One end of rope is wound on the torsionspring, and the other end is fixed on the thigh around the expansion ring, for adjusting Thigh is stated at a distance from the shank.

As a kind of enforceable scheme, the second housing includes rack and fixed plate, and the rack includes being located at two The gear ring at end and several connecting plates, the connecting plate are located between two gear rings, and connecting plate is connect with gear ring by connecting rod, The fixed plate at least two is nibbled by gear with corresponding gear ring outside the fixed plate positioned at the different ends of rack It closes.

As a kind of enforceable scheme, second regulating mechanism includes the lead screw positioned at the second housing, described The center overlapping of axles of the central axis of lead screw and the second housing are cased with screw slider on the lead screw, described by being connected to Detection arm link on screw slider pushes detection arm to open, and the detection arm end is provided with detection plate, the detection plate and Tube wall is contacted by the auxiliary wheel being located in the detection plate.

As a kind of enforceable scheme, leakage field sensor and ultrasonic sensor are provided in the detection plate.

The detection plate is hinged by torsionspring with the detection arm, and protects jointly with the auxiliary wheel in detection plate Hold the spacing of the leakage field sensor, the ultrasonic sensor and the tube wall.

This design can guarantee the accuracy of measurement data.

As a kind of enforceable scheme, the rotating mechanism includes the planetary gear train positioned at second housing both ends, described The sun gear of planetary gear train is connected with servo motor, and the planetary gear train is fixed on the second housing, the servo electricity Machine is installed on the second housing, realizes that the testing agency rotates on the inside of tube wall.

As a kind of enforceable scheme, the mechanical arm of the third body passes through third regulating mechanism adjusting mechanical arm end At a distance from third body center, the third regulating mechanism is identical as the first regulating mechanism structure in portion.

As a kind of enforceable scheme, the robot further includes control mechanism, specifically includes control panel and communication board, The control panel receives the signal of each sensor detection of testing agency, and it is given in control by communication board remote transmission The heart.

Certainly, above-mentioned control panel and communication board are set on any one body and are ok.

As enforceable scheme, be provided with connector in the robot, by connector be arranged connection rope/ Chain realizes recycling.Connector can be recovery hook.

As enforceable scheme, the rotatable member is universal damping.

Based on the working method of above-mentioned detection robot, using third body as power body, the first housing is used as and leads To body, adjustable at a distance from central axis by the corresponding mechanical arm of two bodies, robot is adaptive to caliber, is traveling across Cheng Zhong adjusts opening/contraction of second housing rotation and detection arm, realizes the position adjustment of detection plate, realizes gamut detection The information collection of point.

Compared with prior art, the disclosure has the beneficial effect that

The disclosure is segmentation structure, and is connected between each subsection by rotatable member, and this structure can guarantee When robot encounters the bending of pipeline wide-angle or turning phenomenon occurs, it can smoothly realize turn, adapt to the change of pipeline rout Change.

The compound tune that each regulating mechanism of the disclosure is formed using the active adjusting of lead screw and expansion ring and torsionspring Section, the twin-stage for realizing that the active adjusting of a wide range of caliber change is deformed with small range caliber are passively adjusted；

Disclosure testing agency spins around inner wall of the pipe, is adjusted by detection arm and auxiliary wheel, so that sensor and pipeline Inner wall maintains constant distance, realizes the gamut detection of pipeline；

It is connected between each body of the disclosure using universal damping, the height of cross-country traveling ability and detection with minor radius bend pipe Reliability.

The body of the disclosure itself carries power mechanism and communication module, realizes the detection of long-distance pipe, fixed simultaneously Ensure that body in emergency circumstances recycles in the connector on body；

Video sensor, excitation sensor and ultrasonic sensor can be carried on the body of the disclosure, make up single biography The not high disadvantage of sensor testing result confidence level, the more acurrate detection pipeline inner wall corrosion of energy, local deformation and weld seam crack etc. lack It falls into.

Detailed description of the invention

The accompanying drawings constituting a part of this application is used to provide further understanding of the present application, and the application's shows Meaning property embodiment and its explanation are not constituted an undue limitation on the present application for explaining the application.

Fig. 1 is the overall construction drawing of detecting robot of pipe.

Fig. 2 is the left view of detecting robot of pipe

Fig. 3 is first housing structure chart.

Fig. 4 is second housing structure chart.

Fig. 5 is third housing construction figure.

Fig. 6 is universal damper.

Fig. 7 is expansion ring structure chart.

Fig. 8 is regulating mechanism structure chart

Wherein: the 1- first housing, the 2- second housing, the universal damper of 3-, 4- third body；

The first foreboard of 11-, 111- video sensor, 112- ultrasonic distance sensor, plate in 12-, 13- rack bar, 14- Contractile ring, 15- screw slider, 16- lead screw, 17- directive wheel, 18- regulating mechanism, the first bottom plate of 19-；

The second fixed plate of 21-, 22- gear ring, the second foreboard of 23-, 231- the second rack bar, the second back plate of 232-, 241- Two lead screws, 242- damper rod, the second screw slider of 243-, 244- damping cylinder, 251- power supply, 252- power socket, 253- support plate, 254- servo motor, 255- connecting rod, 256- control panel, 261- detection arm, 262- ultrasonic sensor, 263- auxiliary wheel, 264- Magnetic Sensor, 265- detection plate, 266- detection plate torsionspring, 271- sun gear, 272- planetary gear, 273- planet branch Frame；

The universal damping front end 31-, the universal damping rear end 32-, 33- adjusting nut；

41- third foreboard, 42- power wheel, 43- small machine, 44- third bottom plate, 45- recovery hook, 47- communication board；

141- expansion ring, 142- spring, 143- loose collar pin, 144- fixed ring end cap, 145- loose collar, 146- are flexible Ring support rod；

181- thigh, 182- shank, 183- shank torsionspring, 184- wirerope, the joint 185- pulley, 186- wiring Bar, 187- thigh pulley.

Specific embodiment:

The disclosure is described further with embodiment with reference to the accompanying drawing.

It is noted that following detailed description is all illustrative, it is intended to provide further instruction to the application.Unless another It indicates, all technical and scientific terms used herein has usual with the application person of an ordinary skill in the technical field The identical meanings of understanding.

It should be noted that term used herein above is merely to describe specific embodiment, and be not intended to restricted root According to the illustrative embodiments of the application.As used herein, unless the context clearly indicates otherwise, otherwise singular Also it is intended to include plural form, additionally, it should be understood that, when in the present specification using term "comprising" and/or " packet Include " when, indicate existing characteristics, step, operation, device, component and/or their combination.

In the disclosure, term for example "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", " side ", The orientation or positional relationship of the instructions such as "bottom" is to be based on the orientation or positional relationship shown in the drawings, only to facilitate describing this public affairs The relative for opening each component or component structure relationship and determination, not refers in particular to either component or element in the disclosure, cannot understand For the limitation to the disclosure.

In the disclosure, term such as " affixed ", " connected ", " connection " be shall be understood in a broad sense, and indicate may be a fixed connection, It is also possible to be integrally connected or is detachably connected；It can be directly connected, it can also be indirectly connected through an intermediary.For The related scientific research of this field or technical staff can determine the concrete meaning of above-mentioned term in the disclosure as the case may be, It should not be understood as the limitation to the disclosure.

As shown in Figure 1, for the overall construction drawing of detecting robot of pipe provided by the present embodiment, in which: the first housing 1 It is hinged by universal damper 3 with the second housing 2, the second housing 2 and third body 4, respectively save the connection side with universal damper Formula is to be threadedly coupled, and collectively constitutes the frame structure of the robot.

As shown in Fig. 2, for the left view of detecting robot of pipe provided by the present embodiment.

In the present embodiment, the frame size diameter of the second housing 2 can be slightly less than the first housing 1 and third body 4 Diameter.The first housing 1 is guiding section, and the second housing 2 is detection section, and third body 4 is power section.The first housing includes first Rack and the regulating mechanism being mounted in the first rack and testing agency；The second housing 2 includes the second rack and is mounted on described Rotating mechanism, regulating mechanism, power mechanism and testing agency in second rack；The third body 4 include third rack and The regulating mechanism and power mechanism being mounted in third rack.

As shown in figure 3, being the concrete structure diagram of the first housing 1.Wherein: the first housing 1 specifically includes 11 He of the first foreboard First bottom plate 19, the first foreboard 11 and the first bottom plate 19 are bolted by rack bar 13, plate 12 also in installation simultaneously on rack bar 13 With expansion ring 14.16 one end of lead screw is fixed on the first bottom plate 19, and the other end is fixed on middle plate 12.Video sensor 111 and ultrasound Wave range sensor 112 is mounted on the first foreboard 11, axisymmetrical cloth of two ultrasonic sensors 112 along the first housing 1 It sets, expansion ring 14 is affixed by expansion ring support rod 146 with screw slider 15, and expansion ring 14 covers the card in regulating mechanism 18 simultaneously In slot, regulating mechanism one end is bolted on middle plate 12, and the other end connects directive wheel 17.Motor control screw slider 15 is along lead screw 16 Axis move forward and backward, and then control expansion ring 14 and moved along rack bar 13, the amount of movement of expansion ring determines regulating mechanism 18 Opening and closing degree, it is final to determine directive wheel 17 at a distance from the first housing 1.Regulating mechanism 18 and directive wheel 17 are along the first housing 1 Axis is circumferentially distributed at equal intervals, it is ensured that the first housing is always positioned at conduit axis.First bottom plate 19 passes through spiral shell with universal damper 3 Line is affixed.

As shown in figure 4, being the concrete structure diagram of the second housing 2.It include the second fixed plate 21, the second foreboard 23, second Back plate 232 and connecting rod 255, the second fixed plate 21 and universal 3 screw thread of damper are affixed.Second fixed plate 21, sun gear 271, Planet stent 273, planetary gear 272 and gear ring 22 collectively constitute planetary gear train, and planetary gear train can be revolved around the axis of the second housing 2 Turn.The second rack bar 231 is fixed on gear ring 22.Second foreboard 23, the second back plate 232 are installed simultaneously on second rack bar 231 With connecting rod 255.Second foreboard 23 is connect with the second back plate 232 by the second lead screw 241, is cased with second on the second lead screw 241 Screw slider 243, damper rod 242 and the biggish damping cylinder 244 of rigidity collectively constitute buffer structure, adapt to manage to testing agency The Light deformation in road.Damping cylinder 244 and screw slider 243 are hinged.Damper rod 242 and detection arm 261 are hinged, and detection arm 241 is simultaneously Also hinged second foreboard 23 and detection plate 264, detection arm 241 and detection plate 264 are hinged by detection plate torsionspring 266.Electricity Machine controls the movement of screw rod sliding block 243, and then passes through the folding angle of damper rod 242 and the control detection arm 241 of damping cylinder 244. Detection plate 265 is the plate with certain elasticity, is equipped with ultrasound examination module 262, Magnetic Sensor 264 and auxiliary wheel thereon 263.Make ultrasound examination module 262 and Magnetic Sensor by the auxiliary wheel 263 and elastomeric check plate 265 that contact with tube wall 264 keep the constant distance with tube wall.

Fixed plate 253 is fixed on the second rack bar 231 by connecting rod 255, while keeping the axis with the second housing 2 It is overlapped.In conjunction with Fig. 2, power socket 252 and control panel 256 are fixed in fixed plate 253, are located at the two sides of fixed plate 253, electricity Source 251 is mounted in power socket 252.253 end of fixed plate is installed by servo motor 254,254 axis of servo motor and body 2 Central axes are overlapped.Servo motor 254 drives sun gear 271 to rotate, and drives gear ring 22 to rotate by planetary gear train, and then realize the Spin of two bodies 2 along its axis.

As shown in figure 5, being the concrete structure diagram of third body 4.The specific structure of third body 4 can be with the first housing 1 Specific structure it is similar.Difference is: regulating mechanism 18 installs small machine 43, drives driving wheel 42 to rotate by small machine 43. Third bottom plate 44 is equipped with communication board 47 and recovery hook 45.In the case where the robot independently can not walk out pipeline, by beating Crowfoot 45 takes out the robot.

It is connected between third body 4, the first housing 1 and the second housing 2 by universal damper 3.

Certainly, in other embodiments, the different devices that can be realized big angle rotary can be selected to be ok.

As shown in fig. 6, being the concrete structure diagram of universal damper 3.Wherein: universal damper front end 31 and universal damper Rear end 32 is twisted hinged, it can be achieved that all-directional rotation by ball.The damping of universal damper 3 is by pressing chapter in universal damper Adjusting nut 33 on rear end 32 is adjusted.

As shown in fig. 7, being the concrete structure diagram of expansion ring 14.Wherein: the fixed ring 141 being mounted in stand connecting rod 13 is logical It crosses contractile ring support rod 146 and screw slider 16 is affixed.145 sets of loose collar in adjacent two fixed ring 141.Receive fixed ring 141 It is connect with loose collar 145 by the flexural spring 142 and active section pin 143 being mounted in fixed ring 141, fixed ring both ends peace Equipped with fixed ring end cap 144, so that contractile ring active section 145 can be slided along contractile ring fixed knot 141.

As shown in figure 8, being the concrete structure diagram of regulating mechanism 18.Wherein: thigh 181 is hinged on middle plate 12, thigh 81 Card slot cover on the loose collar 145 of contractile ring 14.Shank 182 and thigh 181 are hinged.Shank torsionspring 183 is mounted on small On leg 182, joint pulley 185, thigh pulley 187 and wiring bar 186 are mounted on thigh 181.184 one end of wirerope is fixed on Shank torsionspring 183, the other end bypass joint pulley 185, thigh pulley 187 and loose collar 145, are connected to wiring bar 186 On.

Mobile drive expansion ring 14 of the screw slider 15 on lead screw 16 is along rack bar 13 along the first housing 1 or third body 44 axis is moved forward and backward.Pass through the opening angle of card slot and wirerope 184 control thigh 181 and shank 182 on thigh 181 Degree.Realize that large-scale caliber change actively adapts to.

Shank torsionspring 183 and contractile ring 14 collectively constitute dual-stage buffer structure, realize the quilt of small range caliber change Dynamic formula adapts to.

The foregoing is merely preferred embodiment of the present application, are not intended to limit this application, for the skill of this field For art personnel, various changes and changes are possible in this application.Within the spirit and principles of this application, made any to repair Change, equivalent replacement, improvement etc., should be included within the scope of protection of this application.

Although above-mentioned be described in conjunction with specific embodiment of the attached drawing to the disclosure, model not is protected to the disclosure The limitation enclosed, those skilled in the art should understand that, on the basis of the technical solution of the disclosure, those skilled in the art are not Need to make the creative labor the various modifications or changes that can be made still within the protection scope of the disclosure.

Claims (10)

1. a kind of detecting robot of pipe, it is characterized in that: including at least three section bodies, the first housing being respectively sequentially connected, The second housing and third body, in which:

The outer of the first housing circumferentially has several mechanical arms, and the first regulating mechanism, institute are provided on the mechanical arm Stating the first regulating mechanism keeps mechanical arm adjustable relative to the distance in first housing axle center, and the mechanical arm end is provided with guiding Part；

The second housing is connect with first housing end and third body front end respectively by rotatable member, the second housing It is set at the outer of the second housing including rotating mechanism, the second regulating mechanism and detection arm, the detection arm, is adjusted by second The spacing that mechanism changes detection arm end and inner wall of the pipe is saved, the rotating mechanism drives the detection arm circumferentially rotatable；

The outer of the third body circumferentially has several mechanical arms, distance of the mechanical arm relative to first housing axle center Adjustable, the mechanical arm end is provided with actuator, is provided with power mechanism on third body, described in the power mechanism driving Actuator makes entirely to detect the traveling of Robot pipeline extending direction；

Testing agency is provided on the detection arm.

2. a kind of detecting robot of pipe as described in claim 1, it is characterized in that: being provided with video biography on the first housing Sensor and/or ultrasonic sensor.

3. a kind of detecting robot of pipe as described in claim 1, it is characterized in that: the first housing includes foreboard and bottom Plate is connected between foreboard and bottom plate by rack bar, and the first regulating mechanism on the first housing includes lead screw, the lead screw Central axis and the first housing center overlapping of axles, be cased with screw slider on the lead screw, be cased on the first housing Expansion ring, the expansion ring can slide in the axial direction on the first housing, and the expansion ring and the screw slider are logical The connection of expansion ring connecting rod is crossed, for adjusting the mechanical arm at a distance from the first housing axle center, is arranged on the expansion ring There are several thighs, the Medial Thigh Skin has opening, and the expansion ring can be by the opening along the extension side of the thigh To movement, the thigh is connected to shank, and it is whole to form mechanical arm.

4. a kind of detecting robot of pipe as claimed in claim 3, it is characterized in that: first regulating mechanism includes being located at institute The torsionspring of shank is stated, one end of wirerope is wound on the torsionspring, and the other end is fixed on around the expansion ring On the thigh, for adjusting the thigh at a distance from the shank.

5. a kind of detecting robot of pipe as described in claim 1, it is characterized in that: the second housing includes rack and fixation Plate, the rack include the gear ring and several connecting plates positioned at both ends, and the connecting plate is located between two gear rings, connecting plate It is connect with gear ring by connecting rod, the fixed plate at least two, it is logical outside the fixed plate positioned at the different ends of rack Gear is crossed to engage with corresponding gear ring.

6. a kind of detecting robot of pipe as described in claim 1, it is characterized in that: the testing agency includes leakage field sensor And ultrasonic sensor；

Or, the robot further includes control mechanism, control panel and communication board are specifically included, the control panel receives testing agency The signal of each sensor detection, and it is passed through into communication board remote transmission to control centre.

7. a kind of detecting robot of pipe as claimed in claim 6, it is characterized in that: second regulating mechanism includes being located at institute State the lead screw of the second housing, the center overlapping of axles of the central axis of the lead screw and the second housing are cased with silk on the lead screw Thick stick sliding block pushes detection arm to open by the detection arm link being connected on the screw slider, the detection arm end setting There is detection plate, the detection plate is contacted with tube wall by the auxiliary wheel being located in the detection plate；

Or it is further, it is hinged that the detection plate and the detection arm pass through torsionspring, and with the auxiliary in detection plate Wheel keeps the spacing of the leakage field sensor, the ultrasonic sensor and the tube wall jointly.

8. a kind of detecting robot of pipe as described in claim 1, it is characterized in that: the rotating mechanism includes being located at the second machine The sun gear of the planetary gear train at body both ends, the planetary gear train is connected with servo motor, and being fixed on for the planetary gear train is described On the second housing, the servo motor is installed on the second housing, realizes that the testing agency rotates on the inside of tube wall.

9. a kind of detecting robot of pipe as described in claim 1, it is characterized in that: the mechanical arm of the third body passes through the Three regulating mechanism adjusting mechanical arm ends are at a distance from third body center, the third regulating mechanism and the first regulating mechanism knot Structure is identical.

10. a kind of detecting robot of pipe as described in claim 1, it is characterized in that: it is provided with connector in the robot, The rope or chain of setting connection recycling on the connector.