CN209703303U - A kind of cable detection robot for cable-stayed bridge - Google Patents

Abstract

The utility model discloses a kind of cable detection robot for cable-stayed bridge, including outer framework, hold-down mechanism and train transmission mechanism, outer framework includes frame plate, it is sequentially connected the outer framework for surrounding hexagon, spaced frame plate lateral surface is equipped with linear bearing, and frame plate lateral surface is fixed with electronic component and battery pack；Hold-down mechanism is set on spaced frame plate, arrangement symmetrical above and below, and hold-down mechanism simultaneously compresses cable from three directions；Train transmission mechanism is set between hold-down mechanism, cable surface is pressed on by hold-down mechanism, train transmission mechanism includes housing unit and roller devices, driving motor, and the synchronous driving roller devices of driving motor realize that train transmission mechanism is synchronized from three directions simultaneously and climb cable；Detecting robot further includes wireless adapter, is additionally provided with camera on frame plate.The utility model, which solves, climbs cable robot in the prior art and embraces that cable is ineffective, frame structure is asymmetric, thus the problems such as generating eccentric, robot spiral climbing.

Description

A kind of cable detection robot for cable-stayed bridge

Technical field

The utility model belongs to detection robotic technology field, and in particular to a kind of cable detection robot for cable-stayed bridge.

Background technique

The features such as drag-line class bridge is big, handsome in appearance, economic and practical because of span, is widely used.The increasing of cable-stayed bridge size A series of problems in terms of bridge machinery is brought greatly, wherein the detection to cable is extremely important, cable is the master on cable-stayed bridge Supporting member is wanted, its reliability directly affects the safety of bridge.In order to ensure the safe handling of cable, need timing right The security performance of cable is detected and is safeguarded.

At present, there are mainly two types of the methods for using cable-maintaining both at home and abroad, and one is the liquid used for small-sized cable-stayed bridge Hoistable platform is pressed to carry out cable-maintaining, another kind is to utilize the suspension centre for being pre-installed in tower top.Work is carried with steel wire dragging hanging basket Personnel safeguard along cable.Both are applied to the actual cable-maintaining mode of engineering, mainly by artificial detection.Not only efficiency Lowly, and it is difficult to support personnel's safety.Artificial detection is no longer practical, using industrial robot replace artificial detection cable at For inexorable trend, there is important value in practical engineering applications.

It is not both at home and abroad many for the dedicated detection robot research report of suspension cable, though there is research, it is really real Technology not yet, is generally speaking in initial stage.South Korea does at Jun Guan university for galvanized wire for suspension bridge climbing robot A series of researchs.A wheeled climbing robot is developed, the robot its stability when creeping cable is good, wheel type machine People's speed is fast, high-efficient, is more suitable for using on large-scale suspension bridge.This robot has certain adaptation to the diameter of cable Property, but structure is more complicated, and weight is larger.Since structure is complicated, weight is larger for such robot, have not been able to large-scale application in In bridge machinery.Shanghai Communications University develops Pneumatic creeping cable maintaining robot.Pneumatic worming is using bionic Principle, the mode that wriggling is utilized are climbed or are declined.Long-distance sand transport air exists and loses along stroke pressure, limits robot Climbing speed.Robot carries gas line and crawls into high-altitude, and the weight of pipeline makes robot be easy bias, limits and climb The performance of cable robot is not suitable for Character of Cable Force of Cable stayed Bridge detection.

It is existing climb cable robot due to body construction and control system be difficult to meet the variation of bar diameter and bridge floor and cable it Between inclination angle variation, climb cable robot and mostly use and climb cable in cable side, side clamps, and frame structure is asymmetric, frame Center line is not overlapped with cable axis, causes to climb situations such as cable robot generates bias, robot spiral climbing, existing to climb cable machine Structure is complicated by device people, weight is big, it is difficult to be widely used in engineering in practice.Used vision detection system is simpler, cannot The image of the multiple vision camera acquisitions of real time fusion is simultaneously analyzed.

Summary of the invention

The purpose of the utility model is to overcome the deficiencies in the prior art, provide a kind of cable detection robot for cable-stayed bridge, Cable detecting robot in the prior art can be efficiently solved and embrace that cable is ineffective, frame structure is asymmetric, to generate inclined The heart, robot spiral climbing, and can not adaptive strain bar diameter work the problems such as.

Purpose of the utility model is realized as follows: a kind of cable detection robot for cable-stayed bridge, including outer framework and set In hold-down mechanism and train transmission mechanism in outer framework, the outer framework includes six block frame plates, and the frame plate successively connects The outer framework for surrounding hexagon is connect, spaced frame plate lateral surface is equipped with the linear bearing of arrangement symmetrical above and below, described The lateral surface of frame plate is fixedly installed with electronic component and battery pack respectively；

The hold-down mechanism is set on spaced frame plate, and along frame plate arrangement symmetrical above and below, one end is passed through Linear bearing outside frame plate, the other end contradict train transmission mechanism, the projection of the axis of the hold-down mechanism in the horizontal plane It is Y-shaped, it is evenly distributed, compresses hold-down mechanism from three directions to cable simultaneously；

The train transmission mechanism is set between the hold-down mechanism being arranged symmetrically, and train transmission mechanism is in the horizontal plane Projection is in Δ shape, is evenly distributed setting three, train transmission mechanism is pressed on cable surface by hold-down mechanism, train passes Motivation structure and hold-down mechanism in the horizontal plane be projected in the inscribed circle diameter variation range formed when holding around cable be 150mm~ 200mm, the train transmission mechanism includes housing unit and the roller devices and driving motor that are set in housing unit, described Roller devices and driving motor are affixed with housing unit respectively, and roller devices are driven by driving motor, and three driving motors are synchronous Driving roller devices realize that train transmission mechanism is synchronized from three directions simultaneously and climb cable；

The cable detecting robot further includes wireless adapter, and the wireless adapter is for receiving electronic component transmitting Signal and connect with computer, by computer remote control detect robot, and to be transmitted back to come image handled in real time；

The frame plate top of the cable detecting robot is additionally provided with camera, by shooting by way of wireless transmission Image/video data are transmitted back to computer.

The outer framework that hexagon is enclosed using six block frame plates, is symmetric shape using hexagonal-shaped frame, can be effective Mitigate the Influence from Eccentric that frame system mass center is not overlapped with cable axis and is generated, and frame plate outer surface is easy to electronics member Part is installed, and has the characteristics that convenient, dismounting is rapid convenient for radiating, operating.

Further, the hold-down mechanism includes guide rod, spring and the nut for adjustment spring pretightning force, described to lead It stretches out after linear bearing to one end of bar and is spirally connected with nut, after the other end protrudes into the bearing block being fixedly connected with train transmission mechanism It is contradicted with train transmission mechanism, the spring, which is set on guide rod, to be placed on the inside of frame plate between bearing block, by leading It is oriented to bar, makes robot when holding around cable by nut adjustment initial tension of spring, train transmission mechanism pushes against cable, realizes Climb cable.Hold-down mechanism carries out elastic force preload along guide rod by spring, by way of nut adjustment pretightning force is adjusted In suitable range.

Further, the housing unit of the train transmission mechanism includes L-type guide rod support plate, L-type motor mounting plate And wing plate, the guide rod support plate arrangement symmetrical above and below, motor mounting plate and wing plate are set to the guide rod bearing being arranged symmetrically It between plate and is oppositely arranged, the wing plate is vertically arranged two pieces, and guide rod support plate, motor mounting plate and wing plate are connected with each other Form shell；The roller devices include driving wheel, driven wheel and rolling bearing units, the rolling bearing units be symmetrically set in driving wheel, In the shaft of driven wheel, the rolling bearing units close to wing plate side are fixedly connected with wing plate, close to usheing to seat for motor mounting plate side Bearing is fixedly connected with motor mounting plate, and the driving motor is fixed on motor mounting plate and is set between two blocks of wing plates, is passed through V belt translation is that driving wheel transmits power.Train transmission mechanism is pressed on cable surface by the elastic force of spring in hold-down mechanism, One group of transmission mechanism carries out power transmitting a driving motor in a manner of V belt translation.

Further, the frame plate is aluminium sheet, and the left and right sides of frame plate forms hollow out, and middle part offers groove, It is equipped in the frame plate groove of hold-down mechanism and lithium battery group is fixedly mounted, power for driving motor, the groove of remaining frame plate The electronic component of interior fixed installation is electric machine controller and wireless module.Using aluminium sheet and in two sides, hollow out, intermediate milling are set It cuts to form groove, it can be achieved that robot entirety lightweight, aluminum sheet metal surface can be thermally conductive rapidly, generates when component is worked Heat is mutually conducted with external environment rapidly, plays the effect of radiating and cooling.

Further, the top of the frame plate is additionally provided with camera mounting support, for fastening camera.

Further, the electric machine controller is controlled by computer, realizes the synchronous driving of three driving motors.Pass through calculating Machine controls three controllers, reaches three synchronously driven effects of driving motor.Three motor synchronized drive technologies not only improve Cable power is climbed by robot, and avoid the driving wheel of the prior art it is asynchronous at work caused by tremble problem.

Further, the wheel face of the driving wheel and driven wheel is made of polyurethane material.Materials are convenient, reduce at This.

By adopting the above-described technical solution, the utility model has the following beneficial effects:

1, the outer framework that hexagon is enclosed using six block frame plates is symmetric shape, Neng Gouyou using hexagonal-shaped frame Effect mitigates the Influence from Eccentric that frame system mass center is not overlapped with cable axis and is generated, and frame plate outer surface is easy to electronics Element is installed, and frame plate uses aluminium sheet, can the thermally conductive rapidly, heat that generates when component works rapidly and external environment It mutually conducts, plays the effect of radiating and cooling.

2, hold-down mechanism and train transmission mechanism are evenly distributed setting in the projection of horizontal plane, make hold-down mechanism, wheel Be transmission mechanism simultaneously from three directions to cable compress with synchronize climb cable.

3, using the hold-down mechanism of arrangement symmetrical above and below, two spring arrangements is designed on the guide bar, single branch can be balanced The problems such as spring thrust is excessive to the effect of single-point, stress is concentrated, with the increasing of this normal pressure for reducing driving wheel and cable surface Magnitude can enhance the obstacle climbing ability of cable detecting robot.

4, three controllers are controlled by computer, reaches three synchronously driven effects of driving motor, three motors are same Step actuation techniques not only improve robot and climb cable power, but also the driving wheel for avoiding the prior art is asynchronous at work and draw The problem of trembling risen reduces robot in height and occurs phenomena such as stuck, to skid in the air.

5, the synchronous driving of three driving motors, due to being to arrange for 120 ° in a ring, the dynamic output of three driving wheels.Shape At more drive drive mechanisms, three driven wheel parallel arrangements enhance stability when robot motion, largely improve Cable ability is climbed by robot.

Detailed description of the invention

Fig. 1 is the main view of the utility model；

Fig. 2 is A-A cross-sectional view in Fig. 1；

Fig. 3 is the main view of train transmission mechanism；

Fig. 4 is the B-B cross-sectional view of Fig. 3；

Fig. 5 is the top view of train transmission mechanism；

Fig. 6 is the structural schematic diagram of the utility model；

Fig. 7 is the work flow diagram for detecting robot.

Appended drawing reference

In attached drawing, 1 is frame plate, and 2 be linear bearing, and 3 be battery pack, and 4 be hold-down mechanism, and 5 be train transmission mechanism, 6 It is driving motor for cable, 7,8 be camera, and 9 be bearing block, and 10 be electric machine controller, and 11 be wireless module, and 12 be camera Mounting bracket,

41 be guide rod, and 42 be spring, and 43 be nut,

51 be guide rod support plate, and 52 be motor mounting plate, and 53 be wing plate, and 54 be driving wheel, and 55 be driven wheel, and 56 be band Seat bearing, 57 be driving wheel shaft, and 58 be driven wheel shaft

Specific embodiment

The embodiments of the present invention are described in further detail with reference to the accompanying drawing.

Referring to Fig. 1-Fig. 6, a kind of cable detection robot for cable-stayed bridge, the compacting machine including outer framework and in outer framework Structure 4 and train transmission mechanism 5, the outer framework include six block frame plates 1, and the frame plate 1, which is sequentially connected, surrounds hexagon Outer framework, spaced 1 lateral surface of frame plate are equipped with the linear bearing 2 of arrangement symmetrical above and below, the lateral surface point of frame plate 1 It is not fixedly installed with electronic component and battery pack 3；In the present embodiment, it is frame plate system that the frame plate 1, which selects 6061 aluminium sheets, Make material, in order to mitigate overall weight, loss of weight is hollowed out at the left and right sides 6mm of frame plate 1, forms hollow out, and in left and right two Cutting 60 ° of oblique angles in side form frame plate 1, are assembled into hexagon outer framework by bolt, middle part mills the aluminium of 4mm thickness, shape It at groove, is equipped in the frame plate groove of hold-down mechanism 4 and lithium battery group 3 is fixedly mounted, power for driving motor 7, remaining frame Electric machine controller 10 and wireless module 11 are fixedly mounted in the groove of frame plate 1.

The hold-down mechanism 4 is set on spaced frame plate 1, and along the arrangement symmetrical above and below of frame plate 1, one end is worn The linear bearing 2 outside frame plate 1 is crossed, the other end contradicts train transmission mechanism 5, the throwing of the axis of hold-down mechanism 4 in the horizontal plane Shadow is Y-shaped, is evenly distributed, and compresses hold-down mechanism 4 from three directions to cable 6 simultaneously；In the present embodiment, the compression Mechanism includes guide rod 41, spring 42 and the nut 43 for 42 pretightning force of adjustment spring, and straight line is stretched out in one end of guide rod 41 Be spirally connected after bearing 2 with nut 43, the other end protrude into after the bearing block 9 being fixedly connected with train transmission mechanism 5 with train driver Structure 5 contradicts, and the spring 42, which is set on guide rod 41, to be placed between 1 inside of frame plate and bearing block 9, passes through guide rod 41 Guiding, makes robot when holding around cable 6 by 43 adjustment spring of nut, 42 pretightning force, the abutting of train transmission mechanism 5 cable 6, Cable is climbed in realization.Hold-down mechanism carries out elastic force preload along guide rod by spring, and pretightning force is made by way of nut adjustment It adjusts in suitable range.Preload and cable 6 of the robot of the utility model when being moved on cable 6, by spring 42 Normal pressure caused by surface overcomes the effect of gravity with this so that robot and 6 surface of cable generate certain frictional force. The pretightning force of spring 42 cannot it is excessive can not be too small, excessive pretightning force can additionally increase the detent torque of motor, or even allow Robot is stuck motionless.The requirement of static armful of cable of robot is not achieved in too small pretightning force.In order to can adaptive bar diameter Variation spring is optimized by whole force analysis.In view of intensity and problem of stress concentration, two are designed Spring 42 is arranged on guide rod 41, excessive to the effect of single-point to balance single 42 thrust of branch spring, and stress is concentrated, and causes to design Unreasonable problem.Generate identical elastic force in spring 42 meet robot work in the case where, the smaller bullet of stiffness coefficient Spring pre-tightens, and the obstacle climbing ability of robot is stronger.Spring parameter is optimized using MATLAB mathematical tool, is turned with motor Frictional force needed for square, stationary state carries out parameter association, chooses spring parameter optimal solution, reduces driving wheel and cable table with this The incremental value of the normal pressure in face enhances the obstacle climbing ability of cable detecting robot.

The train transmission mechanism 5 is set between the hold-down mechanism 4 being arranged symmetrically, and train transmission mechanism 5 is in horizontal plane On projection be in Δ shape, be evenly distributed setting three, train transmission mechanism 5 is pressed on by 6 table of cable by hold-down mechanism 4 The inscribed circle diameter formed when holding around cable that is projected in of face, train transmission mechanism 5 and hold-down mechanism 4 in the horizontal plane changes model Enclose for 150mm~200mm, the train transmission mechanism 5 include housing unit and the roller devices being set in housing unit and Driving motor 7, the roller devices and driving motor 7 are affixed with housing unit respectively, and roller devices are driven by driving motor 7, The synchronous driving roller devices of three driving motors 7 realize that train transmission mechanism 5 is synchronized from three directions simultaneously and climb cable；

In the present embodiment, the housing unit of the train transmission mechanism 5 includes L-type guide rod support plate 51, L-type motor Mounting plate 52 and wing plate 53, the arrangement symmetrical above and below of guide rod support plate 51, motor mounting plate 52 and wing plate 53 are set to and are arranged symmetrically Guide rod support plate 51 between and be oppositely arranged, the wing plate 53 is vertically arranged two pieces, guide rod support plate 51, motor peace Loading board 52 and wing plate 53 are interconnected to form housing unit；The roller devices include driving wheel 54, driven wheel 55 and axis of usheing to seat 56 are held, the rolling bearing units 56 are symmetrically set in the shaft 57,58 of driving wheel, driven wheel, the axis of usheing to seat close to 53 side of wing plate 56 are held to be fixedly connected with wing plate 53, the rolling bearing units 56 close to 52 side of motor mounting plate are fixedly connected with motor mounting plate 52, The driving motor 7 is fixed on motor mounting plate 52 and is set between two blocks of wing plates 53, is the transmitting of driving wheel 54 by V belt translation Power.Train transmission mechanism 5 is pressed on 6 surface of cable by the elastic force of spring 42 in hold-down mechanism, one group of transmission mechanism is logical It crosses a driving motor 7 and carries out power transmitting in a manner of V belt translation.

The cable detecting robot of the utility model further includes wireless adapter (not shown), the wireless adapter For receiving the signal of wireless module transmitting and connect with computer, by computer remote control detection robot, and to being transmitted back to The image come is handled in real time, makes corresponding feedback in time.Camera is additionally provided on the frame plate 1 of cable detecting robot 8, camera 8 is mounted on the camera mounting support 12 on 1 top of frame plate, by the image of shooting by way of wireless transmission Video data transmission returns computer.

The utility model writes program using computer language, controls three electric machine controllers by computer, reaches three A synchronously driven effect of driving motor；The synchronous driving of three motors not only improves robot and climbs cable power, due also to synchronous drive It trembles caused by the dynamic driving wheel for avoiding the prior art is asynchronous at work problem, the synchronous driving of three driving motors, Due to being to arrange for 120 ° in a ring, the dynamic output of three driving wheels.More drive drive mechanisms are formd, three driven wheels are parallel Arrangement enhances stability when robot motion, and largely improve robot climbs cable ability, the utility model machine Device people is applicable to 0~90 ° of cable climbing detection, climbs excellent performance.

The utility model is driven using three driving motors, in order to ensure power, is with the lithium battery group of large capacity Driving motor power supply, lithium battery accumulation of energy function admirable, and volume is smaller with weight, can reduce robot own wt.Electricity The components such as machine controller, lithium battery group, wireless receiving transmitting module are jointly mounted in frame plate groove, aluminum sheet metal surface energy Enough thermally conductive rapidly, the heat generated when component is worked is mutually conducted with external environment rapidly, plays the effect of radiating and cooling.

The utility model can be remotely controlled on ground in face of detection machine device people by the Human-machine Control interface in computer, be controlled The rotation and speed of driving motor processed can control the working condition of cable detecting robot in far distance, and climb cable Maximum speed is at 9 ms/min or more.By handling the electric signal fed back, it is converted into the displacement of detection robot, man-machine Control interface being capable of display position range information.When detecting defect, it is accurately fixed to carry out on cable to defect Position.And the camera on outer framework, which is arranged in, can return image/video real-time Transmission ground, people can observe on the ground It takes appropriate measures to the extent of the destruction of cable surface topography, and according to the actual situation, so that it is guaranteed that cable is safe.

The cable detecting robot of the utility model carries the operation on overhead calbe of camera or camera, to cable surface It is detected.By transmitting image in a computer, using the halcon operator of vision software by each camera or camera The image of acquisition carries out splicing fusion, obtains cable surface close-up view.By the method for deep learning, the defects of figure is carried out Characteristic matching judges the type of defect.And then achieve the purpose that robot replaces manually to detect cable.

What needs to be explained here is that working condition described in the utility model is carried out according to worst operating condition, For robot motion on the cable perpendicular to bridge floor, the technical program description is to embody robot and can adapt to various differences The cable inspection of angle, rather than the restriction of single positional structure.The utility model in different gradient cable movements, itself The bar diameter variation that can adapt to 150mm~200mm, is not necessarily to manual intervention halfway.

The cable detecting robot climbing of the utility model, obstacle performance are good, can climb the cable of various tilt angles Rope, and the adaptation of cable diameters is wide, small to the external coating damage of cable PE sheath, synchronous driving is not in that electric shock is existing As reducing robot in height and occurring phenomena such as stuck, to skid in the air.The rotation of driving motor, Ke Yi are controlled by computer The activity of cable detecting robot is controlled in far distance, image/video real-time Transmission can be gone back to ground by camera, and people exists It is just able to observe that the extent of the destruction of cable surface topography on ground, and takes appropriate measures according to the actual situation, thus really Cable safety is protected, there is very high practical value, there is very important engineer application and promotional value.

Finally, it is stated that preferred embodiment above is merely intended for describing the technical solutions of the present application, but not for limiting the present application, to the greatest extent Pipe has been described in detail the utility model by above preferred embodiment, but those skilled in the art should manage Solution, can make various changes, without departing from the utility model claims book institute to it in the form and details The range of restriction.

Claims (7)

1. a kind of cable detection robot for cable-stayed bridge, hold-down mechanism and train driver including outer framework and in outer framework Structure, it is characterised in that: the outer framework includes six block frame plates, and the frame plate is sequentially connected the outer framework for surrounding hexagon, Spaced frame plate lateral surface is equipped with the linear bearing of arrangement symmetrical above and below, and the lateral surface of the frame plate is fixed respectively Electronic component and battery pack are installed；

The hold-down mechanism is set on spaced frame plate, and along frame plate arrangement symmetrical above and below, one end passes through frame Linear bearing outside plate, the other end contradict train transmission mechanism, and the projection of the axis of the hold-down mechanism in the horizontal plane is in Y Shape is evenly distributed, and compresses hold-down mechanism from three directions to cable simultaneously；

The train transmission mechanism is set between the hold-down mechanism being arranged symmetrically, the projection of train transmission mechanism in the horizontal plane In Δ shape, it is evenly distributed setting three, train transmission mechanism is pressed on by cable surface, train driver by hold-down mechanism Structure and hold-down mechanism in the horizontal plane be projected in the inscribed circle diameter variation range formed when holding around cable be 150mm~ 200mm, the train transmission mechanism includes housing unit and the roller devices and driving motor that are set in housing unit, described Roller devices and driving motor are affixed with housing unit respectively, and roller devices are driven by driving motor, and three driving motors are synchronous Driving roller devices realize that train transmission mechanism is synchronized from three directions simultaneously and climb cable；

The cable detecting robot further includes wireless adapter, and the wireless adapter is used to receive the letter of electronic component transmitting Number and connect with computer, by computer remote control detect robot, and to be transmitted back to come image handled in real time；

The frame plate top of the cable detecting robot is additionally provided with camera, by the image of shooting by way of wireless transmission Video data transmission returns computer.

2. a kind of cable detection robot for cable-stayed bridge according to claim 1, it is characterised in that: the hold-down mechanism includes Guide rod, spring and the nut for adjustment spring pretightning force, one end of the guide rod stretch out after linear bearing with nut spiral shell It connects, the other end contradicts after protruding into the bearing block being fixedly connected with train transmission mechanism with train transmission mechanism, and the spring is arranged It is placed on the inside of frame plate on the guide bar between bearing block, is oriented to by guide rod, passes through nut adjustment initial tension of spring Make robot when holding around cable, train transmission mechanism pushes against cable, realizes and climb cable.

3. a kind of cable detection robot for cable-stayed bridge according to claim 1, it is characterised in that: the train transmission mechanism Housing unit include L-type guide rod support plate, L-type motor mounting plate and wing plate, the guide rod support plate cloth symmetrical above and below It sets, motor mounting plate and wing plate are set between the guide rod support plate being arranged symmetrically and are oppositely arranged, and the wing plate is vertically set Two pieces are set, guide rod support plate, motor mounting plate and wing plate are interconnected to form shell；The roller devices include driving wheel, Driven wheel and rolling bearing units, the rolling bearing units are symmetrically set in the shaft of driving wheel, driven wheel, close to usheing to seat for wing plate side Bearing is fixedly connected with wing plate, and the rolling bearing units close to motor mounting plate side are fixedly connected with motor mounting plate, the driving Motor is fixed on motor mounting plate and is set between two blocks of wing plates, is that driving wheel transmits power by V belt translation.

4. a kind of cable detection robot for cable-stayed bridge according to claim 1, it is characterised in that: the frame plate is aluminium Plate, the left and right sides of frame plate form hollow out, and middle part offers groove, are equipped in the frame plate groove of hold-down mechanism fixed Lithium battery group is installed, is powered for driving motor, the electronic component being fixedly mounted in the groove of remaining frame plate is electric machine controller And wireless module.

5. a kind of cable detection robot for cable-stayed bridge according to claim 4, it is characterised in that: the top of the frame plate It is additionally provided with camera mounting support, for fastening camera.

6. a kind of cable detection robot for cable-stayed bridge according to claim 4, it is characterised in that: the electric machine controller by The synchronous driving of three driving motors is realized in computer control.

7. a kind of cable detection robot for cable-stayed bridge according to claim 3, it is characterised in that: the driving wheel and driven The wheel face of wheel is made of polyurethane material.