CN208559586U - A kind of cable climbing robot - Google Patents

Abstract

The utility model provides a kind of cable climbing robot, comprising: the first climbing structures and the second climbing structures, the first climbing structures are oppositely arranged with the second climbing structures；Driving structure, driving structure is mounted between the first climbing structures and the second climbing structures, driving structure includes connection component, power source component, first chain belt component and the second chain belt component, connection component respectively with the first climbing structures, second climbing structures slippingly connect, power source component is connected on connection component, first chain belt component includes the first chain belt and first gear group, second chain belt component includes the second chain belt and second gear group, the engaged transmission direction of first gear group and the first chain belt is contrary with the engaged transmission of second gear group and the second chain belt.The cable climbing robot of the technical program aims to solve the problem that the constraints such as the bridge cable climbing robot of the prior art is more by mechanism joint, volume big, heaviness, load capacity difference and is unable to reach industrial effectively practical problem.

Description

A kind of cable climbing robot

Technical field

The utility model belongs to robot device's technical field more particularly to a kind of cable climbing robot.

Background technique

Bridge cable climbing robot is more early in development abroad, early in phase late 1980s, the U.S., Europe Research institution develops bridge cable climbing robot in succession, for the present Research of the bridge cable climbing robot in China, Versus young is gone back in the development of bridge cable climbing robot.In bridge cable climbing robot, mechanical structure is system, robot The main body of system is the key that determine the subsequent relevant design of robot.Currently, most of bridge cable climbing robot is by mechanism The constraints such as joint is more, volume is big, heavy, load capacity difference: mechanism joint is more, then kinematic decoupling control difficulty is high, control Precision processed can not be up to standard；Robot volume is big, heavy, then can not meet cable job requirements, industrial realistic scale is low；Load energy Power is poor, then can not carry enough detection devices and execute patrol task.

Utility model content

The technical problem to be solved by the utility model is to provide a kind of cable climbing robots, it is intended to solve existing skill The constraints such as the bridge cable climbing robot of art is more by mechanism joint, volume big, heaviness, load capacity difference and can not reach To industrial effectively practical problem.

In order to solve the above technical problems, the utility model is realized in this way, a kind of cable climbing robot, comprising: the One climbing structures and the second climbing structures, the first climbing structures are oppositely arranged with the second climbing structures, the first climbing structures and Two climbing structures include hold-fast body, and hold-fast body is for holding cable tightly, and hold-fast body on the first climbing structures and the Hold-fast body on two climbing structures alternately holds cable tightly；Driving structure, driving structure are mounted on the first climbing structures and second Between climbing structures, driving structure includes connection component, power source component, the first chain belt component and the second chain belt component, connection Component is slippingly connect with the first climbing structures, the second climbing structures respectively, and power source component is connected on connection component, is moved Power source component drives the first chain belt component, the second chain belt component simultaneously, and the first chain belt component includes the first chain belt and first gear Group, the both ends of the first chain belt are individually fixed in the both ends of the first climbing structures, and first gear group is connected on connection component, and first Gear set engages connection with the first chain belt, and power source component and first gear group are drivingly connected, and the second chain belt component includes second Chain belt and second gear group, the both ends of the second chain belt are individually fixed in the both ends of the second climbing structures, and second gear group is connected to On connection component, second gear group engages connection with the second chain belt, and power source component and second gear group are drivingly connected, wherein The engaged transmission direction of first gear group and the first chain belt is contrary with the engaged transmission of second gear group and the second chain belt.

Further, first gear group includes the first power teeth wheel shaft, and the first chain belt, which is taken, is wound on the first power teeth wheel shaft On the gear teeth；Second gear group includes the second power teeth wheel shaft and at least one tumbler gear, and the second chain belt, which is taken, is around in tumbler gear It is set around on the gear teeth of the second power teeth wheel shaft later；Power source component drives the first power teeth wheel shaft and the second power teeth simultaneously The equidirectional rotation of wheel shaft.

Further, first gear group further includes two the first Tension gears, and two the first Tension gears are respectively arranged at The two sides of first power teeth wheel shaft, the first power gear axle position are located in the first side of the first chain belt, two the first Tension gears Second side of first chain belt；Second gear group further includes two the second Tension gears, and two the second Tension gears are respectively arranged at The two sides of second power teeth wheel shaft, the second power teeth wheel shaft, two the second Tension gears are respectively positioned on the first side of the second chain belt, change It is located at second side of the second chain belt to gear.

Further, the quantity of tumbler gear is two, and two tumbler gears are located at the two of the second power teeth wheel shaft Side, and a tumbler gear is set between the second power teeth wheel shaft and one of them second Tension gear.

Further, cable climbing robot further includes controller, and the quantity of driving structure is two, two driving knots Structure is oppositely arranged, and controller is installed therein on the connection component of a driving structure, controller and two driving structures it is dynamic Power source component is electrically connected to control two power source component synchronization output driving power.

Further, hold-fast body includes upper hold-fast body, lower hold-fast body and connecting rod, upper hold-fast body and lower holding Mechanism includes support semi-ring, driving device, transmission device, at least two swing arms and the folder to connect one to one with swing arm Tight vola；The support semi-ring of upper hold-fast body is connected to the first end of connecting rod, and the support semi-ring of lower hold-fast body is connected to The second end of extension bar；Driving device and transmission device are installed on support semi-ring, and driving device is electrically connected with the controller, driving Device and transmission device are drivingly connected, and swing arm is connect to drive and clamp vola clamping cable with transmission device.

Further, the first climbing structures and the second climbing structures include support wheel construction, are set on each support semi-ring Be equipped at least one support wheel construction, the first climbing structures support wheel construction and the second climbing structures support wheel construction about The central axis of cable is symmetrical arranged.

Further, support wheel construction include first connection pedestal, second connection pedestal, crank throw support arm, elastomer and Wheel assembly is supported, the first connection pedestal connect pedestal with second and is all connected to support semi-ring, the crank throw portion connection of crank throw support arm Pedestal is connected in first, the first end of elastomer is connected to the second connection pedestal, and the second end of elastomer is connected to crank throw support The first end of arm, support wheel assembly are installed on the second end of crank throw support arm.

Further, support wheel assembly includes crank throw wheel seat, the first support wheel and the second support wheel, the crank throw of crank throw wheel seat Portion is rotatably connected at the second end of crank throw support arm, and the first support wheel is connected to the first end of crank throw wheel seat, and second Support wheel is connected to the second end of crank throw wheel seat.

Further, cable climbing robot further includes detection device, at least one on the support semi-ring of hold-fast body Detection device is installed, detection device is electrically connected with the controller.

Compared with prior art, beneficial effect is the utility model: cable climbing robot using the first climbing structures, Mechanism joint between connection component, the second climbing structures three is attached and realizes relative motion, thus relative to existing Reduce the joint structure design of robot for technology, and simplify the structure composition of robot, is conducive to the small of robot Type, light-weight design, reduce the difficulty of kinematic decoupling control, to realize high-precision control, are guaranteeing sufficient power On the basis of allow the robot to carry more sufficient load carrying ability.

Detailed description of the invention

Fig. 1 is the assembling structure schematic diagram of the cable climbing robot of the utility model embodiment；

Fig. 2 is that the driving structure of the cable climbing robot of the utility model embodiment is assemblied in the first visual angle of connecting rod Structural schematic diagram；

Fig. 3 is that the driving structure of the cable climbing robot of the utility model embodiment is assemblied in the second visual angle of connecting rod Structural schematic diagram；

Fig. 4 is that the driving structure of the cable climbing robot of the utility model embodiment is assemblied in the third visual angle of connecting rod Structural schematic diagram；

Fig. 5 is that the driving structure of the cable climbing robot of the utility model embodiment is assemblied in the 4th visual angle of connecting rod Structural schematic diagram；

Fig. 6 is the assembly of the upper hold-fast body or lower hold-fast body of the cable climbing robot of the utility model embodiment Structural schematic diagram；

Fig. 7 is the assembling structure schematic diagram of the support wheel construction in the cable climbing robot of the utility model embodiment.

In the accompanying drawings, each appended drawing reference indicates:

100, cable；101, the first climbing structures；102, the second climbing structures；10, hold-fast body；20, driving structure； 21, connection component；22, power source component；23, the first chain belt component；24, the second chain belt component；211, connection framework；212, One slide rail；213, the second slide rail；221, driving motor；222, driven pulley；231, the first chain belt；232, first Gear set；241, the second chain belt；242, second gear group；2321, the first power teeth wheel shaft；2322, the first Tension gear； 2421, the second power teeth wheel shaft；2422, tumbler gear；2423, the second Tension gear；11, upper hold-fast body；12, lower holding machine Structure；13, connecting rod；111, semi-ring is supported；112, driving device；113, transmission device；114, swing arm；115, vola is clamped； 116, secondary spring；30, wheel construction is supported；31, the first connection pedestal；32, the second connection pedestal；33, crank throw support arm；34, Elastomer；35, wheel assembly is supported；351, crank throw wheel seat；352, the first support wheel；353, the second support wheel；1131, it is driven snail Bar；1132, transmission worm gear.

Specific embodiment

In order to make the purpose of the utility model, technical solutions and advantages more clearly understood, below in conjunction with attached drawing and implementation Example, the present invention will be further described in detail.It should be appreciated that specific embodiment described herein is only used to explain The utility model is not used to limit the utility model.

It illustrates: when the utility model is illustrated for cable climbing robot, being in cable climbing robot Central axial direction when carrying out climbing sports on cable 100 along cable 100 is up and down direction.

As shown in Figures 1 to 5, the cable climbing robot of the present embodiment includes the first climbing structures 101, second climbing knot Structure 102 and driving structure 20, the first climbing structures 101 are oppositely arranged with the second climbing structures 102,101 He of the first climbing structures Second climbing structures 102 include hold-fast body 10, and hold-fast body 10 is used to hold cable tightly, and on the first climbing structures 101 Hold-fast body 10 replaces with the hold-fast body 10 on the second climbing structures 102 holds cable tightly, and driving structure 20 is mounted on first and climbs It climbs between structure 101 and the second climbing structures 102, driving structure 20 includes connection component 21, power source component 22, the first chain belt Component 23 and the second chain belt component 24, connection component 21 respectively with the first climbing structures 101,102 slip of the second climbing structures Ground connection, power source component 22 are connected on connection component 21, and power source component 22 drives the first chain belt component 23, second simultaneously Chain belt component 24, the first chain belt component 23 include the first chain belt 231 and first gear group 232, and the both ends of the first chain belt 231 are distinguished The both ends of the first climbing structures 101 are fixed on, first gear group 232 is connected on connection component 21, first gear group 232 and The engagement connection of one chain belt 231, power source component 22 and first gear group 232 are drivingly connected, and the second chain belt component 24 includes second Chain belt 241 and second gear group 242, the both ends of the second chain belt 241 are individually fixed in the both ends of the second climbing structures 102, and second Gear set 242 is connected on connection component 21, and second gear group 242 engages connection with the second chain belt 241, power source component 22 with Second gear group 242 is drivingly connected, wherein the engaged transmission direction and second gear of first gear group 232 and the first chain belt 231 The engaged transmission of group 242 and the second chain belt 241 is contrary.

Climbing motion is carried out on cable 100 using the cable climbing robot, is climbed especially for bridge cable When climbing operation, cable 100 is held tightly by hold-fast body 10, the first climbing structures 101 and the second climbing structures 102 are mutually It alternately rises or falls, thus the realization climbing movement on cable 100, during climbing is mobile, driving structure 20 is moved 22 output power of power source component, to drive first gear group 232 to rotate simultaneously with second gear group 242, at this point, first gear Between group 232 and the first chain belt 231, opposite gear motion is then realized between second gear group 242 and the second chain belt 241 respectively. It is illustrated for example, being fixed on cable 100 with the first climbing structures 101 by the holding of hold-fast body 10.At this point, starting power 22 output power of source component, then connection component 21 is moved upwards relative to the first climbing structures 101 at this time, and the second climbing knot Structure 102 is moved upwards also relative to connection component 21 (if with the first climbing structures 101 for movement object of reference, connection component 21 move upwards speed relative to the first climbing structures 101 as ν, then the second climbing structures 102 are relative to the first climbing structures 101 speed that moves upwards is 2 ν；If being movement object of reference with connection component 21, the first climbing structures 101 are relative to even Connected components 21 move downward as ν, then the second climbing structures 102 are 2 ν relative to the speed that moves upwards of connection component 21). When connection component 21 slides onto the upper end of the first climbing structures 101 upwards, then connection component 21 is located at the second climbing structures 102 Lower end, so just complete the stride that robot is climbed on cable 100.In the cable climbing robot of the present embodiment In, it is attached simultaneously using the mechanism joint between the first climbing structures 101, connection component 21,102 three of the second climbing structures It realizes relative motion, to reduce the joint structure design of robot in terms of existing technologies, and simplifies robot Structure composition, be conducive to miniaturization, the light-weight design of robot, reduce the difficulty of kinematic decoupling control, thus real Existing high-precision control allows the robot to carry more sufficient load carrying ability on the basis of guaranteeing sufficient power.

In the present embodiment, the first gear group 232 of cable climbing robot include the first power teeth wheel shaft 2321, second Gear set 242 includes the second power teeth wheel shaft 2421 and at least one tumbler gear 2422.In the present embodiment, such as Fig. 4 and Fig. 5 Shown, power source component 22 is made of driving motor 221, drive pulley, driven pulley 222, and driving motor 221 connects surely It is scheduled on connection component 21, drive pulley is mounted on the output shaft of driving motor 221, drive pulley and driven pulley By driving belt connection not shown between 222, and the first power teeth wheel shaft 2321, the second power teeth wheel shaft 2421 and from Dynamic belt pulley three is integrally formed manufacture using coaxial, it may be assumed that the gear teeth of the first power teeth wheel shaft 2321 and the second power teeth wheel shaft 2421 gear teeth are located at the both ends of shaft, and driven pulley is located at the medium position of shaft, then power source component 22 is simultaneously Drive the first power teeth wheel shaft 2321 and the equidirectional rotation of the second power teeth wheel shaft 2421.As shown in figure 3, the first chain belt 231 is taken It is wound on the gear teeth of the first power teeth wheel shaft 2321, takes and be located at first around the gear teeth for being installed rear first power teeth wheel shaft 2321 Between chain belt 231 and hold-fast body 10, i.e., the first chain belt 231 on the gear teeth of the first power teeth wheel shaft 2321 is far from hold-fast body 10 settings.Second chain belt 241, which is taken, is around in tumbler gear 2422, is set around on the gear teeth of the second power teeth wheel shaft 2421 later, such as Shown in Fig. 2, the second chain belt 241 is taken after completing on tumbler gear 2422, and tumbler gear 2422 is located at the second chain belt 241 and embraces Between tight mechanism 10, and the second chain belt 241 being set around on the gear teeth of the second power teeth wheel shaft 2421 is close to hold-fast body 10 Setting.

As shown in Figure 1 to Figure 3, the first gear group 232 of the cable climbing robot further includes two the first Tension gears 2322, second gear group 242 further includes two the second Tension gears 2423.Two the first Tension gears 2322 are respectively arranged at The two sides of one power teeth wheel shaft 2321, the first power teeth wheel shaft 2321 are located at the first side of the first chain belt 231, two first tensionings Gear 2322 is located at second side of the first chain belt 231, and two the second Tension gears 2423 are respectively arranged at the second power teeth wheel shaft 2421 two sides, second the second Tension gear 2423 of 2421, two, power teeth wheel shaft are respectively positioned on the first side of the second chain belt 241, Tumbler gear 2422 is located at second side of the second chain belt 241.Specifically, the quantity of tumbler gear 2422 is two, two commutations Gear 2422 is located at the two sides of the second power teeth wheel shaft 2421, and the second power teeth wheel shaft 2421 and one of them second A tumbler gear 2422 is set between tight gear 2423.

In addition, the present embodiment can also only select 2322, second Tension gears 2423 of first Tension gear with And a tumbler gear 2422, it is changed with selection two the first Tension gears, 2322, two the second Tension gears 2423 and two It is compared to the embodiment of gear 2422, two the first Tension gears 2322 are relative to the first power teeth wheel shaft in the latter 2321 central axis is symmetrical, and two the second Tension gears 2423 and two tumbler gears 2422 are both with respect in the latter The central axis of two power teeth wheel shafts 2421 is symmetrical.

Shown in Figure 6, in the present embodiment, hold-fast body 10 includes upper hold-fast body 11, lower hold-fast body 12 and connects Extension bar 13, upper hold-fast body 11 and lower hold-fast body 12 include support semi-ring 111, driving device 112, transmission device 113, extremely Few two swing arms 114 and the clamping vola 115 to connect one to one with swing arm 114.The support semi-ring of upper hold-fast body 11 111 are connected to the first end of connecting rod 13, and the support semi-ring 111 of lower hold-fast body 12 is connected to the second end of connecting rod 13.? In the present embodiment, there are two connecting rods 13, two connecting rods 13 to be separately positioned on support semi-ring for assembly in a hold-fast body 10 111 both ends.Driving device 112 and transmission device 113 are installed on support semi-ring 111, driving device 112 and controller Electrical connection, driving device 112 and transmission device 113 are drivingly connected, and swing arm 114 is connect to drive and clamp with transmission device 113 Vola 115 clamps cable.During carrying out climbing sports, controller controls 112 output power of driving device, then passes through Power is transferred to swing arm 114 by transmission device 113, so that swing arm 114 drives clamping vola 115 to hold cable 100 tightly, In, transmission device 113 is made of geared worm 1131 and transmission worm gear 1132.Specifically, the cable of the present embodiment climbs machine People is assembled with two swing arms 114 and two transmission worm gears 1132, the first end of swing arm 114 and one of transmission worm gear 1132 are fixedly connected, and clamp vola 115 and are fixed in the second end of corresponding swing arm 114, also, the two of geared worm 1131 End is equipped with engagement screw thread, two interval of transmission worm gear 1132 settings and two transmission worm gears 1132 and the two of geared worm 1131 End engagement screw thread corresponds assembly.When driving device 112 drive geared worm 1131 rotated forward when, geared worm 1131 with 1132 engaged transmission of transmission worm gear is so that transmission worm gear 1132 drives swing arm 114 to be opened；When 112 band of driving device When dynamic geared worm 1131 is inverted, then geared worm 1131 and 1132 engaged transmission of transmission worm gear are so that transmission worm gear 1132 drive swing arm 114.

As shown in fig. 6, secondary spring 116 has also been arranged in a one-to-one correspondence in support semi-ring 111, the first of secondary spring 116 End is connected on support semi-ring 111, and the second end of secondary spring 116 is connected to the back side for clamping vola 115, and clamps vola It is assembled between 115 and swing arm 114 by bearing.In this way, when clamping vola 115 during being clamped to cable 100, Clamp vola 115 be adaptation cable 100 cylinder radian when, secondary spring 116 can auxiliary clamp vola 115 remain Aid is stablized.Even if being adapted to rapidly under 116 auxiliary adjustment of secondary spring at this time in the cable 100 to different radii Cooperation.

Further, cable climbing robot further includes that controller is not shown, and the quantity of driving structure 20 is two, and two A driving structure 20 is oppositely arranged.In the present embodiment, as shown in Figure 4 and Figure 5, connection component 21 includes connection framework 211, the One guide rail structure and the second guide rail structure, the guide groove of the first guide rail structure are set to the first side in connection framework 211, and second The guide groove of guide rail structure is set to second side of connection framework 211, and the first slide rail 212 of the first guide rail structure is fixed on In corresponding connecting rod 13, the second slide rail 213 of the second guide rail structure is fixed in corresponding connecting rod 13.Controller peace Be installed therein in the connection framework 211 of the connection component 21 of a driving structure 20, controller and two driving structures 20 it is dynamic Power source component 22 is electrically connected to control two power source components, 22 synchronism output driving force.Controller controls two driving structures 20 simultaneously output driving power, thus to a greater degree guarantee cable climbing robot load carrying ability.

In the present embodiment, the first climbing structures 101 of the cable climbing robot and the second climbing structures 102 include Wheel construction 30 is supported, and is provided at least one support wheel construction 30 on each support semi-ring 111, the first climbing structures 101 The support wheel construction 30 of wheel construction 30 and the second climbing structures 102 is supported to be symmetrical arranged about the central axis of cable.Work as cable Climbing robot while clamping clamping cable 100 of vola 115, passes through during carrying out climbing sports on cable 100 Support wheel construction 30 carries out Auxiliary support walking on cable 100.As shown in fig. 7, support wheel construction 30 includes the first attachment base Body 31, second connects pedestal 32, crank throw support arm 33, elastomer 34 and support wheel assembly 35, the first connection pedestal 31 and second Connection pedestal 32 is all connected to support semi-ring 111, and the crank throw portion of crank throw support arm 33 is connected to the first connection pedestal 31, elastomer 34 first end is connected to the second connection pedestal 32, and the second end of elastomer 34 is connected to the first end of crank throw support arm 33, Support wheel assembly 35 is installed on the second end of crank throw support arm 33.Also, supporting wheel assembly 35 includes crank throw wheel seat 351, the One support wheel 352 and the second support wheel 353, the crank throw portion of crank throw wheel seat 351 are rotatably connected at the of crank throw support arm 33 Two ends, the first support wheel 352 are connected to the first end of crank throw wheel seat 351, and the second support wheel 353 is connected to crank throw wheel seat 351 Second end.In this way, robot climb walking during, when robot advance front cable 100 on occur barrier Hinder object raised, and the barrier protrusion is placed exactly in the position that support wheel assembly 35 passes through, when support wheel assembly 35 reaches barrier When hindering object protrusion, the first support wheel 352 can be lifted by barrier protrusion, and crank throw wheel seat 351 can turn around its crank throw portion at this time Axis and rotate, and crank throw support arm 33 also can around its crank throw portion shaft and rotate, elastomer 34 is compressed, to first Support wheel 352 clears the jumps after protrusion, during the second support wheel 353 clears the jumps protrusion, crank throw wheel seat 351, Crank throw support arm 33 will also pass through the process of being similarly rotated, after the second support wheel 353 clears the jumps protrusion, in elastomer 34 Under the action of, the first support wheel 352 and the second support wheel 353 have again support column cable 100 simultaneously.In this way, passing through support wheel The Auxiliary support of structure 30 acts on, can the process walked on cable 100 of auxiliary robot it is more stable.

Specifically, detection device is installed not shown on the support semi-ring 111 of upper hold-fast body 11, detection device and control Device electrical connection.Due to the loading transport capacity of the cable climbing robot relative to existing cable climbing robot of the present embodiment There is the promotion of limits, therefore, the cable climbing robot of the present embodiment can carry larger, more accurate detection dress It sets, to obtain more comprehensive, careful detection data, while capableing of the power supply of shape more bulk also to provide sufficient electric energy, Prolonged inspection work is carried out to meet robot.

Using the present embodiment cable climbing robot when, specifically include following implementation steps:

Step 1: online preparation, the first climbing structures 101, the second climbing structures 102, driving structure 20 are assembled Cable 100 is held tightly on cable 100, and by vola 115 is clamped on the first climbing structures 101；

Step 2: driving the second climbing structures 102 relative to elevator on the first climbing structures 101 by driving structure 20 Dynamic, the clamping vola 115 of the second climbing structures 102, which opens, at this time is detached from cable 100；

Step 3: when the connection component 21 of driving structure 20 is located at lower end and the driving structure 20 of the second climbing structures 102 Connection component 21 when being located at the upper end of the first climbing structures 101, the clamping vola 115 of the second climbing structures 102 is held tightly at this time Cable 100, the clamping volas 115 of the first climbing structures 101, which opens, is detached from cable 100, then drives the by driving structure 20 One climbing structures 101 are moved upwards relative to the second climbing structures 102；

Step 4: when the connection component 21 of driving structure 20 is located at lower end and the driving structure 20 of the first climbing structures 101 Connection component 21 when being located at the upper end of the second climbing structures 102, then circulating repetition second step, third step, until walking is appointed Business terminates.

The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this Made any modifications, equivalent replacements, and improvements etc., should be included in the utility model within the spirit and principle of utility model Protection scope within.

Claims (10)

1. a kind of cable climbing robot characterized by comprising

First climbing structures (101) and the second climbing structures (102), first climbing structures (101) and the second climbing structures (102) it being oppositely arranged, first climbing structures (101) and second climbing structures (102) they include hold-fast body (10), The hold-fast body (10) is for holding cable tightly, and the hold-fast body (10) on first climbing structures (101) and described the Hold-fast body (10) on two climbing structures (102) alternately holds the cable tightly；

Driving structure (20), the driving structure (20) are mounted on first climbing structures (101) and the second climbing structures (102) between, the driving structure (20) include connection component (21), power source component (22), the first chain belt component (23) and Second chain belt component (24), the connection component (21) respectively with first climbing structures (101), second climbing structures (102) it slippingly connects, the power source component (22) is connected on the connection component (21), the power source component (22) the first chain belt component (23), the second chain belt component (24), the first chain belt component (23) packet are driven simultaneously The first chain belt (231) and first gear group (232) are included, the both ends of first chain belt (231) are individually fixed in described first and climb The both ends of structure (101) are climbed, the first gear group (232) is connected on the connection component (21), the first gear group (232) connection is engaged with first chain belt (231), the power source component (22) and the first gear group (232) drive Connection, the second chain belt component (24) include the second chain belt (241) and second gear group (242), second chain belt (241) Both ends be individually fixed in the both ends of second climbing structures (102), the second gear group (242) is connected to the connection On component (21), the second gear group (242) engages connection, the power source component (22) with second chain belt (241) It is drivingly connected with the second gear group (242), wherein the first gear group (232) and the first chain belt (231) are nibbled It is contrary with the engaged transmission of the second gear group (242) and second chain belt (241) to close transmission direction.

2. cable climbing robot as described in claim 1, which is characterized in that

The first gear group (232) includes the first power teeth wheel shaft (2321), and first chain belt (231), which is taken, is wound on described the On the gear teeth of one power teeth wheel shaft (2321)；

The second gear group (242) includes the second power teeth wheel shaft (2421) and at least one tumbler gear (2422), described Second chain belt (241), which is taken, is around in the gear teeth that the tumbler gear (2422) is set around the second power teeth wheel shaft (2421) later On；

The power source component (22) drives the first power teeth wheel shaft (2321) and the second power teeth wheel shaft simultaneously (2421) equidirectional rotation.

3. cable climbing robot as claimed in claim 2, which is characterized in that

The first gear group (232) further includes two the first Tension gears (2322), two first Tension gears (2322) two sides of the first power teeth wheel shaft (2321) are respectively arranged at, the first power teeth wheel shaft (2321) is located at institute The first side of the first chain belt (231) is stated, two first Tension gears (2322) are located at the second of first chain belt (231) Side；

The second gear group (242) further includes two the second Tension gears (2423), two second Tension gears (2423) two sides of the second power teeth wheel shaft (2421), the second power teeth wheel shaft (2421), two are respectively arranged at Second Tension gear (2423) is respectively positioned on the first side of second chain belt (241), and the tumbler gear (2422) is located at Second side of second chain belt (241).

4. cable climbing robot as claimed in claim 3, which is characterized in that the quantity of the tumbler gear (2422) is two A, two tumbler gears (2422) are located at the two sides of the second power teeth wheel shaft (2421), and described second is dynamic One tumbler gear (2422) is set between powershift gear axis (2421) and one of them described second Tension gear (2423).

5. cable climbing robot according to any one of claims 1 to 4, which is characterized in that the cable climbs machine People further includes controller, and the quantity of the driving structure (20) is two, and two driving structures (20) are oppositely arranged, institute It states controller to be installed therein on the connection component (21) of a driving structure (20), the controller and two institutes State driving structure (20) the power source component (22) be electrically connected with control two power source components (22) synchronize it is defeated Driving force out.

6. cable climbing robot as claimed in claim 5, which is characterized in that the hold-fast body (10) includes upper holding machine Structure (11), lower hold-fast body (12) and connecting rod (13), the upper hold-fast body (11) and the lower hold-fast body (12) wrap Include support semi-ring (111), driving device (112), transmission device (113), at least two swing arms (114) and with the swing arm (114) the clamping vola (115) to connect one to one；The support semi-ring (111) of the upper hold-fast body (11) is connected to The support semi-ring (111) of the first end of the connecting rod (13), the lower hold-fast body (12) is connected to the connecting rod (13) second end；The driving device (112) and the transmission device (113) are installed on the support semi-ring (111), The driving device (112) is electrically connected with the controller, and the driving device (112) and the transmission device (113) drive Connection, the swing arm (114) are connect to drive the clamping vola (115) to clamp the cable with the transmission device (113) Rope.

7. cable climbing robot as claimed in claim 6, which is characterized in that first climbing structures (101) and described Second climbing structures (102) include support wheel construction (30), are provided at least one institute on each support semi-ring (111) State support wheel construction (30), the support wheel construction (30) of first climbing structures (101) and second climbing structures (102) the support wheel construction (30) is symmetrical arranged about the central axis of cable.

8. cable climbing robot as claimed in claim 7, which is characterized in that the support wheel construction (30) includes the first company Joint chair body (31), the second connection pedestal (32), crank throw support arm (33), elastomer (34) and wheel assembly (35) are supported, described the A connecting seat body (31) connect pedestal (32) with described second and is all connected to the support semi-ring (111), the crank throw support arm (33) crank throw portion is connected to first connection pedestal (31), and the first end of the elastomer (34) is connected to described second and connects Joint chair body (32), the second end of the elastomer (34) are connected to the first end of the crank throw support arm (33), the support Wheel assembly (35) is installed on the second end of the crank throw support arm (33).

9. cable climbing robot as claimed in claim 8, which is characterized in that the support wheel assembly (35) includes crank throw wheel Seat (351), the first support wheel (352) and the second support wheel (353), the crank throw portion of the crank throw wheel seat (351) rotationally connect It is connected to the second end of the crank throw support arm (33), first support wheel (352) is connected to the crank throw wheel seat (351) First end, second support wheel (353) are connected to the second end of the crank throw wheel seat (351).

10. cable climbing robot as claimed in claim 6, which is characterized in that the cable climbing robot further includes inspection Device is surveyed, detection device, the detection device are installed on the support semi-ring (111) of at least one upper hold-fast body (11) It is electrically connected with the controller.