CN207943099U - The wheeled climbing robot of permanent magnetism - Google Patents

Abstract

A kind of wheeled climbing robot of permanent magnetism of the utility model, including rack；Walking mechanism is adsorbed, including is respectively arranged in both sides the first active magnet-wheel and the second active magnet-wheel and the driven magnet-wheel in middle part for being installed on rack rear end of rack front end；Hoofing part mechanism, including the first air motor, first small synchronizing wheel, first big synchronizing wheel, first synchronous belt, second air motor, second small synchronizing wheel, the second largest synchronizing wheel and the second synchronous belt, first air motor and the second air motor are mounted in rack, first small synchronizing wheel and the second small synchronizing wheel are connect with the first air motor and the second air motor respectively, first big synchronizing wheel and the second largest synchronizing wheel are connect with the first active magnet-wheel and the second active magnet-wheel respectively, first synchronous belt is set around between the first small synchronizing wheel and the first big synchronizing wheel, second synchronous belt is set around between the second small synchronizing wheel and the second largest synchronizing wheel.The utility model has simple in structure, and walking is flexible, the strong advantage of wall surface adaptive faculty.

Description

The wheeled climbing robot of permanent magnetism

Technical field

The utility model belongs to climbing robot technical field more particularly to a kind of wheeled climbing robot of permanent magnetism.

Background technology

Cleaning, the derusting of ship are the critical issues during ship is safeguarded, mode more mature now is by staff Corresponding device is held to complete.But the mode inefficiency of this manual work, cycle time is long, operation intensity is high, to work The physical and mental health of people brings grievous injury, and does not comply with environmentally protective theory greatly.Cleaning dress is carried using climbing robot Execution operation is set, high-pressure water shot streaming system, real-time monitoring system and climbing robot three are organically combined, work is not only increased Make efficiency, meanwhile, easy to operate feature also saves labour.Common climbing robot suction type has vacuum suction Attached, thrust absorption, magnetic-adsorption and Electrostatic Absorption etc., wherein magnetic-adsorption are divided into as two kinds of permanent magnetic suck and electromagnetic adsorption, electricity Magnetically adsorbed wall-climbing robot is complicated, and safety is poor, therefore application is less.

Chinese patent (application number：201510104097.5) disclose a kind of segmentation permanent magnetism crawler-type wall climbing robot, phase For common chain crawler belt climbing robot, movement is more flexible, and cleaning range is wide, but complicated integral structure, and its Effective adsorption area of permanent magnet entirety is small, and load capacity is poor；Meanwhile caterpillar belt structure limits the curved surface adaptation of robot Power, obstacle climbing ability are also poor.Chinese patent (application number：201610870706.2) propose a kind of wheeled climbing robot Scheme uses the mode that thrust absorption and adherency absorption are combined, ensure that adsorption capacity, equally, the robot of this kind of structure It is complicated, and its suction type also determines that its load capacity is small, adsorbs insecure disadvantage, once there is event in power end Barrier, robot will topple danger, be not used in compared in the industrial production under big load.

Utility model content

The purpose of this utility model is to provide a kind of wheeled climbing robots of permanent magnetism, it is intended to solve in the prior art climb The technical problem of wall robot architecture's complexity.

To achieve the above object, the technical solution adopted in the utility model is：A kind of wheeled climbing robot of permanent magnetism, including Rack, absorption walking mechanism and hoofing part mechanism；The absorption walking mechanism includes the first active magnet-wheel, the second active magnet-wheel With driven magnet-wheel, the first active magnet-wheel and the second active magnet-wheel are respectively arranged in the both sides of the rack front end, institute State the middle part that driven magnet-wheel is installed on the rack rear end；The hoofing part mechanism includes the first air motor, first small same It is synchronous with second to walk wheel, the first big synchronizing wheel, the first synchronous belt, the second air motor, the second small synchronizing wheel, the second largest synchronizing wheel Band, first air motor and second air motor are mounted in the rack and correspond to described first respectively actively Magnet-wheel and the setting of the second active magnet-wheel, the first small synchronizing wheel and the second small synchronizing wheel respectively with the described first pneumatic horse Up to the output axis connection with second air motor, the first big synchronizing wheel and the second largest synchronizing wheel respectively with it is described First active magnet-wheel is connected with the second active magnet-wheel, first synchronous belt be set around the described first small synchronizing wheel with it is described Between first big synchronizing wheel, second synchronous belt is set around between the described second small synchronizing wheel and the second largest synchronizing wheel.

Preferably, the rack includes the first front side frame body, the second front side frame body and rear side frame body, first active magnetic Wheel and the second active magnet-wheel are rotatably installed on respectively on first front side frame body and second front side frame body, institute It states the first air motor and second air motor is fixedly installed in first front side frame body and second front side respectively On frame body, the driven magnet-wheel is rotatably installed on the bottom of the rear side frame body；The rear side frame body passes through floating hinge joint Mechanism is connected to first front side frame body and second front side frame body, the floating hinge joint mechanism include the first hinged seat, Second hinged seat, the first rotary shaft and the second rotary shaft, first hinged seat and second hinged seat are respectively arranged on described On first front side frame body and the second front side frame body and position corresponds to, and first rotary shaft and second rotary shaft are set on described The opposite sides of rear side frame body front end, and first rotary shaft and second rotary shaft respectively with first hinged seat and Second hinged seat is hinged.

Preferably, first front side frame body includes interior plate and being connected to described first before outer panel, first before first Head rod mechanism before preceding outer panel and first between interior plate, the first active magnet-wheel are rotatably installed on described Before first before outer panel and described first between interior plate, outer panel before first air motor is fixedly installed in described first On, first hinged seat is fixed in the head rod mechanism, and offered on interior plate before described first with it is described Corresponding first via in first hinged seat position, first rotary shaft pass through first via to be cut with scissors with first hinged seat It connects；

Second front side frame body includes interior plate and outer panel before being connected to described second before outer panel, second before second And the second connection linkage before second between interior plate, the second active magnet-wheel are outer before being rotatably installed on described second It is described before second air motor is fixedly installed in described second on outer panel before side plate and described second between interior plate Second hinged seat is fixed on the second connection linkage, and is offered on interior plate before described second and be hinged with described second Corresponding second via is set at seat, and second rotary shaft passes through second via hinged with second hinged seat.

Preferably, the head rod mechanism includes the first mounting plate and several first connecting rods, each first connecting rod Before being both secured to described first before outer panel and described first between interior plate and arranged for interval, first mounting plate are fixed on Between each first connecting rod and the first via described in face is arranged, and first hinged seat is being installed on first mounting plate just To on the side of first via；

The second connection linkage includes the second mounting plate and several second connecting rods, and each second connecting rod is both secured to Before described second before outer panel and described second between interior plate and arranged for interval, second mounting plate are fixed on each described Second via is arranged between two connecting rods and described in face, and second hinged seat is installed on described in the second mounting plate face the On the side of two vias.

Preferably, the rear side frame body includes middle part connector, rear end support element and support plate, and the support plate is fixed on The top of the rear end support element, the middle part connector are vertically connected at the middle part of the rear end support element, the driven magnetic Wheel is rotatably installed on the bottom of the support plate, and first rotary shaft and second rotary shaft are respectively perpendicular and are installed on The opposite sides of middle part connector front end.

Preferably, first front side frame body is equipped with the first anti-fall hanging ring and/or second front side frame body is equipped with Second anti-fall hanging ring and/or the rear side frame body are equipped with anti-fall draw ring.

Preferably, first front side frame body is equipped with the first hold-down mechanism, and first hold-down mechanism includes being fixed on The first cantilever slab on the frame body of first front side, the first wheel seat for being movably connected on first cantilever slab bottom and rotatable Ground is installed on the first contact roller on first wheel seat, and first contact roller presses on first synchronous belt, and institute State the first adjusting bolt for being worn on the first cantilever slab and being connected with the height and position for adjusting first wheel seat；

Second front side frame body is equipped with the second hold-down mechanism, and second hold-down mechanism includes being fixed on described second The second cantilever slab on the frame body of front side is movably connected on the second wheel seat of second cantilever slab bottom and is rotatably installed on The second contact roller on second wheel seat, second contact roller press on second synchronous belt, and described second is outstanding The second adjusting bolt for being connected with the height and position for adjusting second wheel seat is worn on arm plate.

Preferably, the first active magnet-wheel includes first wheel, the first yoke, the first magnetic isolation plate, first annular permanent magnetism Body, the first rubber tyre and the first wheel shaft, the first annular permanent magnet are fixed on the middle part of the first wheel, first yoke Ferropexy is located at the both sides of the first annular permanent magnet in the first wheel, and first magnetic isolation plate is set to first yoke Between iron and the first annular permanent magnet, first rubber tyre be set to the first wheel opposite sides, described first Wheel shaft, which is worn, to be fixed on the first wheel and is rotatably installed on the frame body of first front side, the first big synchronizing wheel It is installed on first wheel shaft；

The second active magnet-wheel includes the second wheel hub, the second yoke, the second magnetic isolation plate, the second annular permanent magnet, second Rubber tyre and the second wheel shaft, second annular permanent magnet are fixed on the middle part of second wheel hub, and second yoke is fixed It is located at the both sides of second annular permanent magnet in second wheel hub, second magnetic isolation plate is set to second yoke and institute Between stating the second annular permanent magnet, second rubber tyre is set to the opposite sides of second wheel hub, and second wheel shaft is worn If being fixed on second wheel hub and being rotatably installed on the frame body of second front side, the second largest synchronizing wheel is installed on On second wheel shaft.

Preferably, the wheeled climbing robot of the permanent magnetism further includes wiper mechanism, and the wiper mechanism includes cleaning disk, connects Arm, third air motor and worm type of reduction gearing are connect, the worm type of reduction gearing is fixedly installed in the rear side frame body The output shaft at top, the third air motor is connect with the input terminal of the worm type of reduction gearing, and the one of the linking arm End is connected to the output end of the worm type of reduction gearing, and the cleaning disk is installed on the other end of the linking arm.

Preferably, the cleaning disk includes annular disk body, annular leather bag, nozzle and floating connection mechanism, the annular disk Body is fixed on the other end of the linking arm, and the annular leather bag is set to the periphery of the annular disk body, the floating connection Mechanism be fixed on the outside of the annular disk body and with the annular leather bag elastic connection.You

The beneficial effects of the utility model：The wheeled climbing robot of permanent magnetism of the utility model, passes through the first air motor Respectively drive the first small synchronizing wheel and the rotation of the second small synchronizing wheel with the second air motor, and the first small synchronizing wheel for rotating and Second small synchronizing wheel drives the first big synchronizing wheel and the second largest synchronizing wheel to rotate by the first synchronous belt and the second synchronous belt, such as This, the first active magnet-wheel and the second active magnet-wheel being connect with the first big synchronizing wheel and the second largest synchronizing wheel just realize rotation, that Driven magnet-wheel can be driven to realize rotation simultaneously by rack, creeping for the wheeled climbing robot of entire permanent magnetism is realized with this, Hoofing part combines the first active magnetic without using chain crawler belt, hoofing part by the first air motor and the second air motor The magnetic-adsorption of wheel and the second active magnet-wheel realizes, relative to crawler type and bionical sufficient formula, has simple in structure, and walking is flexible, The strong advantage of wall surface adaptive faculty, executing agency can replace manually being attached on the curved surface wall surface of hull etc. in carrying, realize high The work operations of efficiency.

Description of the drawings

It, below will be to embodiment or the prior art in order to illustrate more clearly of the technical scheme in the embodiment of the utility model Attached drawing needed in description is briefly described, it should be apparent that, the accompanying drawings in the following description is only that this practicality is new Some embodiments of type for those of ordinary skill in the art without having to pay creative labor, can be with Obtain other attached drawings according to these attached drawings.

Fig. 1 is the structural schematic diagram one for the wheeled climbing robot of permanent magnetism that the utility model embodiment provides.

Fig. 2 is the structural schematic diagram two for the wheeled climbing robot of permanent magnetism that the utility model embodiment provides.

Fig. 3 is the structural decomposition diagram for the wheeled climbing robot of permanent magnetism that the utility model embodiment provides.

Fig. 4 is the structural schematic diagram of the rack for the wheeled climbing robot of permanent magnetism that the utility model embodiment provides.

Fig. 5 is the structural representation of the first front side frame body of the wheeled climbing robot of permanent magnetism that the utility model embodiment provides Figure.

Fig. 6 is the structural representation of the second front side frame body of the wheeled climbing robot of permanent magnetism that the utility model embodiment provides Figure.

Fig. 7 is the structural representation of the floating hinge joint mechanism for the wheeled climbing robot of permanent magnetism that the utility model embodiment provides Figure.

Fig. 8 is the structural schematic diagram of the rear side frame body for the wheeled climbing robot of permanent magnetism that the utility model embodiment provides.

Fig. 9 is the structural representation of the first hold-down mechanism of the wheeled climbing robot of permanent magnetism that the utility model embodiment provides Figure.

Figure 10 is that the structure of the second hold-down mechanism of the wheeled climbing robot of permanent magnetism that the utility model embodiment provides is shown It is intended to.

Figure 11 is that the structure of the first active magnet-wheel of the wheeled climbing robot of permanent magnetism that the utility model embodiment provides is shown It is intended to.

Figure 12 is that the structure of the second active magnet-wheel of the wheeled climbing robot of permanent magnetism that the utility model embodiment provides is shown It is intended to.

Figure 13 is the structural schematic diagram of the wiper mechanism for the wheeled climbing robot of permanent magnetism that the utility model embodiment provides.

Wherein, each reference numeral in figure：

10-the 11-the first front side of rack the 12-the second front side of frame body frame bodies

13-rear side frame body 20-absorption walking mechanism the 21-the first active magnet-wheels

22-the second active magnet-wheel 23-driven 30-hoofing part mechanism of magnet-wheel

31-the first air motor the 33-the first big synchronizing wheel of the 32-the first small synchronizing wheel

34-the first the 36-the second small synchronizing wheel of the 35-the second air motor of synchronous belt

37-second largest the synchronizing wheel 40-floating hinge joint of the 38-the second synchronous belt mechanisms

41-the first hinged seat the 43-the first rotary shaft of the 42-the second hinged seat

44-the second rotary shaft the 51-the first cantilever slab of the 50-the first hold-down mechanism

52-the first wheel seat the 54-the first adjusting bolt of the 53-the first contact roller

60-the second hold-down mechanism the 62-the second wheel seat of the 61-the second cantilever slab

63-the second contact roller 70-wiper mechanism of the 64-the second adjusting bolt

71-cleaning disk 72-linking arm, 73-third air motors

Outer panel before 74-75-angle adjusting mechanisms of worm type of reduction gearing 111-the first

The 114-the first anti-fall hanging ring of 113-head rod of interior plate mechanism before 112-the first

Interior plate 123-the second connects linkage before outer panel 122-the second before 121-the second

124-the second anti-fall 131-middle part of hanging ring, 132-rear end of connector support element

133-support plates 134-anti-fall 211-first wheel of draw ring

212-first annular permanent magnet the 214-the first yokes of the 213-the first magnetic isolation plate

215-the first rubber tyre the 221-the second wheel hub of the 216-the first wheel shaft

222-the second annular permanent magnet the 224-the second yoke of the 223-the second magnetic isolation plate

225-the second the 226-the second wheel shaft of rubber tyre 711-annular disk body

712-annular leather bag 713-nozzle, 714-floating connection mechanisms

721-the 1121-the first vias of 722-brace of cross bar

1131-the first the 1221-the second via of 1132-first connecting rod of mounting plate

1231-the second 1232-second connecting rod of mounting plate.

Specific implementation mode

The embodiments of the present invention are described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning Same or similar element or element with the same or similar functions are indicated to same or similar label eventually.Below by ginseng The embodiment for examining the description of attached drawing 1~13 is exemplary, it is intended to for explaining the utility model, and should not be understood as to this practicality Novel limitation.

In the description of the present invention, it should be understood that term " length ", " width ", "upper", "lower", " preceding ", The orientation or positional relationship of the instructions such as " rear ", "left", "right", "vertical", "horizontal", "top", "bottom" "inner", "outside" is based on attached Orientation or positional relationship shown in figure, is merely for convenience of describing the present invention and simplifying the description, rather than indicates or imply Signified device or element must have a particular orientation, with specific azimuth configuration and operation, therefore should not be understood as to this The limitation of utility model.

In addition, term " first ", " second " are used for description purposes only, it is not understood to indicate or imply relative importance Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or Implicitly include one or more this feature.The meaning of " plurality " is two or two in the description of the present invention, More than, unless otherwise specifically defined.

In the present invention unless specifically defined or limited otherwise, term " installation ", " connected ", " connection ", " Gu It is fixed " etc. terms shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integral；Can be Mechanical connection can also be electrical connection；It can be directly connected, can also can be indirectly connected through an intermediary two The interaction relationship of connection or two elements inside element.It for the ordinary skill in the art, can basis Concrete condition understands the concrete meaning of above-mentioned term in the present invention.

As shown in Figures 1 to 3, the wheeled climbing robot of a kind of permanent magnetism of the utility model embodiment, including rack 10, absorption Walking mechanism 20 and hoofing part mechanism 30；The absorption walking mechanism 20 includes the first active magnet-wheel 21, the second active magnet-wheel 22 and driven magnet-wheel 23, the first active magnet-wheel 21 and the second active magnet-wheel 22 be respectively arranged in 10 front end of the rack Both sides, the driven magnet-wheel 23 is installed on the middle part of 10 rear end of the rack；The hoofing part mechanism 30 includes the first gas Dynamic motor 31, the first small synchronizing wheel 32, the first big synchronizing wheel 33, the first synchronous belt 34, the second air motor 35, the second small synchronization Wheel 36, the second largest synchronizing wheel 37 and the second synchronous belt 38, first air motor 31 and second air motor 35 are pacified Loaded on the first active magnet-wheel 21 and the setting of the second active magnet-wheel 22 is corresponded in the rack 10 and respectively, described first is small same Step wheel 32 and the second small synchronizing wheel 36 output with first air motor 31 and second air motor 35 respectively Axis connection, the first big synchronizing wheel 33 and the second largest synchronizing wheel 37 respectively with the first active magnet-wheel 21 and described Two active magnet-wheels 22 connect, and first synchronous belt 34 is set around the described first small synchronizing wheel 32 and the described first big synchronizing wheel 33 Between, second synchronous belt 38 is set around between the described second small synchronizing wheel 36 and the second largest synchronizing wheel 37.

Specifically, the wheeled climbing robot of the permanent magnetism of the utility model embodiment passes through the first air motor 31 and second Air motor 35 respectively drives the first small synchronizing wheel 32 and the rotation of the second small synchronizing wheel 36, and the first small synchronizing wheel 32 rotated With the second small synchronizing wheel 36 by the first synchronous belt 34 and the second synchronous belt 38 drive the first big synchronizing wheel 33 with it is second largest synchronous 37 rotation of wheel, in this way, the first active magnet-wheel 21 being connect with the first big synchronizing wheel 33 and the second largest synchronizing wheel 37 and the second active Just realization rotates magnet-wheel 22, then driven magnet-wheel 23 can be driven to realize rotation simultaneously by rack 10, is realized entirely forever with this Magnetic wheel type climbing robot is creeped, and hoofing part passes through 31 He of the first air motor without using chain crawler belt, hoofing part Second air motor 35 combines the magnetic-adsorption of the first active magnet-wheel 21 and the second active magnet-wheel 22 to realize, relative to crawler type and Bionical foot formula, has simple in structure, and walking is flexible, the strong advantage of wall surface adaptive faculty, and the upper executing agency of carryings can be instead of manually It is attached on the curved surface wall surface of hull etc., realizes efficient work operations.

Wherein, the first air motor 31, the first small synchronizing wheel 32, the peace of the first big synchronizing wheel 33 and the first synchronous belt 34 Fill connection type and the second air motor 35, the peace of the second small synchronizing wheel 36, the second largest synchronizing wheel 37 and the second synchronous belt 38 It is identical to fill connection type, and structure is also identical, and is respectively symmetrically mounted on the opposite sides in rack 10 substantially adjacent to its front end. So design may insure that the wheeled climbing robot overall structure of permanent magnetism is more balanced, and harmony more preferably, more stablize by walking.

Further, the first air motor 31, the first small synchronizing wheel 32, the first big synchronizing wheel 33 and the first synchronous belt 34 Structural phase corresponding with the second air motor 35, the second small synchronizing wheel 36, the second largest synchronizing wheel 37 and the second synchronous belt 38 With mixing can also be installed in assembling, without difference, manufacture easy to produce reduces production cost.

In the present embodiment, the first active magnet-wheel 21 and the second active magnet-wheel 22 are symmetrically arranged in complete machine edge position, driven Magnet-wheel 23 is located behind centre and is combined and be triangularly arranged with the first active magnet-wheel 21 and the second active magnet-wheel 22, then making whole The stability of machine is more preferable.Driven magnet-wheel 23 is fixed by universal wheel frame, can so be rotated with direction of travel.

In the present embodiment, the wheeled climbing robot global design of permanent magnetism is domes, and fuselage is made to be not easy to hinder with wall surface Hinder object to contact, improves the obstacle climbing ability of the wheeled climbing robot of permanent magnetism.Also, complete machine uses modularized design, different institutions Between it is non-interference and work in coordination, when installing and repairing can the assembling of piecemeal dismounting and change, make the dimension of the wheeled climbing robot of permanent magnetism Shield is more convenient.

It being further illustrated, the outer diameter of the first small synchronizing wheel 32 is less than the outer diameter of the first big synchronizing wheel 33, Similarly, the outer diameter of the second small synchronizing wheel 36 is less than the outer diameter of the second largest synchronizing wheel 37, and design in this way may be implemented to pass The variation of dynamic ratio, the convenient control walked to the wheeled climbing robot of permanent magnetism.

In the present embodiment, as shown in Fig. 4~8, the rack 10 includes the first front side frame body 11,12 and of the second front side frame body Before rear side frame body 13, the first active magnet-wheel 21 and the second active magnet-wheel 22 are rotatably installed on described first respectively In side frame body 11 and second front side frame body 12, first air motor 31 and second air motor 35 are fixed respectively It is installed on first front side frame body 11 and second front side frame body 12, the driven magnet-wheel 23 is rotatably installed on institute State the bottom of rear side frame body 13；The rear side frame body 13 is connected to first front side frame body, 11 He by floating hinge joint mechanism 40 Second front side frame body 12, the floating hinge joint mechanism 40 include the first hinged seat 41, the second hinged seat 42, the first rotary shaft 43 and second rotary shaft 44, first hinged seat 41 and second hinged seat 42 are respectively arranged on first front side frame body 11 With on the second front side frame body 12 and position is corresponding, first rotary shaft 43 and second rotary shaft 44 are set to the rear side The opposite sides of 13 front end of body, and first rotary shaft 43 and second rotary shaft 44 respectively with first hinged seat 41 It is hinged with second hinged seat 42.Specifically, by the first hinged seat 41 and the second hinged seat 42 respectively with the first rotary shaft 43 and second articulated connection realized of rotary shaft 44, then be separately mounted to due to the first hinged seat 41 and the second hinged seat 42 again On first front side frame body 11 and the second front side frame body 12 and with 44 be mounted on rear side of the first rotary shaft 43 and the second rotary shaft On frame body 13, rear side frame body 13 is realized and the first front side frame body 11 and the second front side frame simultaneously by floating hinge joint mechanism 40 in this way Body 12 is articulated and connected, and so entire rack 10 just realizes flexible state, and non-rigid state, then when the wheeled wall-climbing device of permanent magnetism During obstacle detouring, local location can float and decline according to barrier people, curved surface adaptive ability and obstacle climbing ability into One step is reinforced.It further illustrates, i.e., when the first active magnet-wheel 21 encounters barrier, the first active magnet-wheel 21 is rolled to barrier On, then corresponding first front side frame body 11 can also be located at the top of barrier, at this point, due to the first front side frame body 11 and rear side Frame body 13 is articulated and connected, then rear side frame body 13 can be because the magnetic adsorptive power of dead weight and driven magnet-wheel 23 be still adsorbed on wall On face, obstacle detouring is so realized；Similarly, when the second active magnet-wheel 22 encounters barrier, effective obstacle detouring can also be realized.

That is, in the present embodiment, when the wheeled climbing robot of permanent magnetism is run on the curved surface of different curvature, both sides first are led Dynamic 21 and second active magnet-wheel 22 of magnet-wheel can rise and fall and the first rotary shaft 43 in floating hinge joint mechanism 40 and the with wall surface Two rotary shafts 44 are swung up and down, and so that the first active magnet-wheel 21 and the second active magnet-wheel 22 is contacted with wall surface, holding is good, and guarantee is forever Magnetic wheel type climbing robot stablizes absorption walking, and will not topple danger.

In the present embodiment, as shown in Figures 4 and 5, first front side frame body 11 includes before first before outer panel 111, first Interior plate 112 and the head rod mechanism 113 before outer panel 111 and first between interior plate 112 is connected to before described first, Before the first active magnet-wheel 21 is rotatably installed on described first before outer panel 111 and described first between interior plate 112, Before first air motor 31 is fixedly installed in described first on outer panel 111, first hinged seat 41 is fixed on described It is offered in head rod mechanism 113, and before described first on interior plate 112 corresponding with 41 position of the first hinged seat First via 1121, first rotary shaft 43 pass through first via 1121 hinged with first hinged seat 41.Specifically Ground is connected before first by head rod mechanism 113 between interior plate 112 before outer panel 111 and first, is on the one hand realized So that the first front side frame body 11 forms an entirety, the other also shape between interior plate 112 before outer panel 111 and first before first It is placed for the first active magnet-wheel 21 and the installation of the first air motor 31 at an installation space, and the first hinged seat 41 can be consolidated It is scheduled in head rod mechanism 113, the first rotary shaft is supplied by the first via 1121 being arranged on interior plate 112 before first 43 wear it is hinged with the first hinged seat 41 to realize, in this way can be to the first hinged seat 41 and the rotation of the first hinged seat 41 and first Play the role of protection in the hinged place of shaft 43, it is ensured that the stabilization of articulated connection is effective.

Similarly, as shown in Figure 4 and Figure 6, second front side frame body 12 includes inside before outer panel 121, second before second Plate 122 and the second connection linkage 123 being connected to before described second before outer panel 121 and second between interior plate 122, it is described It is described before second active magnet-wheel 22 is rotatably installed on described second before outer panel 121 and described second between interior plate 122 Before second air motor 35 is fixedly installed in described second on outer panel 121, second hinged seat 42 is fixed on described second It connects on linkage 123, and is offered and 42 position of the second hinged seat corresponding second on interior plate 122 before described second Via 1221, second rotary shaft 44 pass through second via 1221 hinged with second hinged seat 42.Specifically, Before two before outer panel 121 and second between interior plate 122 by second connection linkage 123 connect, on the one hand realize so that Second front side frame body 12 forms an entirety, in addition also forms one between interior plate 122 before outer panel 121 and second before second A installation space is placed for the second active magnet-wheel 22 and the installation of the second air motor 35, and the second hinged seat 42 can be fixed on On second connection linkage 123, worn for the second rotary shaft 44 by the second via 1221 being arranged on interior plate 122 before second It, in this way can be to the second hinged seat 42 and the second hinged seat 42 and the second rotary shaft if hinged with the second hinged seat 42 to realize Play the role of protection in 44 hinged place, it is ensured that the stabilization of articulated connection is effective.

In the present embodiment, as shown in figure 5, the head rod mechanism 113 includes the first mounting plate 1131 and several the One connecting rod 1132, interior plate 112 before outer panel 111 and described first before each first connecting rod 1132 is both secured to described first Between and arranged for interval, first mounting plate 1131 is fixed between each first connecting rod 1132 and the first mistake described in face Hole 1121 is arranged, and first hinged seat 41 is installed on the side of the first via 1121 described in 1131 face of the first mounting plate On.Specifically, by the way that interior plate 112 may insure the before outer panel 111 and first before the connection of several first connecting rods 1,132 first The stability connected between interior plate 112 before outer panel 111 and first before one, also, link mechanism is simple and effective, can make Frame body 11 structure in entire first front side is simpler light, and the first mounting plate 1131 can also be fixed on to each first and connected Between bar 1132, the mounting stability of the first mounting plate 1131 is equally also ensured, is so fixed on the first mounting plate 1131 On the mounting stability of the first hinged seat 41 can also be guaranteed.Wherein, the first mounting plate 1131 and several first connecting rods Connection between 1132 may be used the cooperations such as fastener, nut realization be detachably connected, equally, several first connecting rods 1132 with It is removable that connection before first before outer panel 111 and first between interior plate 112 can also use the cooperations such as fastener, nut to realize Unload connection.

Similarly, as shown in fig. 6, the second connection linkage 123 includes the second mounting plate 1231 and several second connecting rods 1232, before each second connecting rod 1232 is both secured to described second before outer panel 121 and described second between interior plate 122 and Arranged for interval, second mounting plate 1231 is fixed between each second connecting rod 1232 and the second via 1221 described in face Setting, second hinged seat 42 are installed on the side of the second via 1221 described in 1231 face of the second mounting plate.Tool Body, it is outer before may insure second by interior plate 122 before outer panel 121 and second before the connection of several second connecting rods 1,232 second The stability connected between interior plate 122 before side plate 121 and second, also, link mechanism is simple and effective, can make entire Two front side frame bodies, 12 structure is simpler light, and can also the second mounting plate 1231 be fixed on each second connecting rod 1232 Between, the mounting stability of the second mounting plate 1231 is equally also ensured, be so fixed on the second mounting plate 1231 The mounting stability of two hinged seats 42 can also be guaranteed.Wherein, the second mounting plate 1231 and several second connecting rods 1232 it Between connection may be used the cooperations such as fastener, nut realization be detachably connected, equally, before several second connecting rods 1232 and second Connection before outer panel 121 and second between interior plate 122 can also use the cooperations such as fastener, nut realization detachably to connect It connects.

In the present embodiment, as shown in figure 8, the rear side frame body 13 includes middle part connector 131,132 and of rear end support element Support plate 133, the support plate 133 are fixed on the top of the rear end support element 132, and the middle part connector 131 vertically connects It is connected to the middle part of the rear end support element 132, the driven magnet-wheel 23 is rotatably installed on the bottom of the support plate 133, First rotary shaft 43 and second rotary shaft 44, which are respectively perpendicular, is installed on opposite the two of 131 front end of middle part connector Side.Specifically, the setting of support plate 133 is installed for executing agency, implement, that is to say, that can be on the top of support plate 133 E.g. wiper mechanism 70, paint spraying mechanism, welding mechanism, real-time monitoring instrument etc. are carried in portion, and corresponding operation work is completed with this Make.And rear end support element 132 is mainly used for supporting the support plate 133 and installing for support plate 133 fixing, and be also connected with Middle part connector 131, and middle part connector 131 is mainly realized and is fixed for the first rotary shaft 43 and the installation of the second rotary shaft 44, Realization the first front side frame body 11 of connection and the second front side frame body 12 are connect, the connection installation of entire rack 10, whole bone is achieved Frame structure, simple and effective, light and flexible are highly practical.

In the present embodiment, as shown in Fig. 1~2 and Fig. 4, first front side frame body 11 is equipped with the first anti-fall hanging ring 114 And/or second front side frame body 12 is equipped with the second anti-fall hanging ring 124 and/or the rear side frame body 13 is equipped with anti-fall draw ring 134.Specifically, the effect all same of the first anti-fall hanging ring 114, the second anti-fall hanging ring 124 and anti-fall draw ring 134, passes through lifting rope It is connect with other hanging equipment and may be implemented to have hung the wheeled climbing robot of entire permanent magnetism.Wherein, the first anti-fall hanging ring 114 is excellent Select it is in a vertical shape be fixed on first before on outer panel 111, the second anti-fall hanging ring 124 preferably it is in a vertical shape be fixed on second before outside On plate 121, anti-fall draw ring 134 is horizontal to be fixed on rear end support element 132.It so realizes vertically and horizontally equal It can hang the wheeled climbing robot of permanent magnetism, or can combine hanging with horizontal direction from vertical direction permanent magnetism is wheeled and climb wall Robot, structure design is more ingenious, and safety is more preferably, highly practical.

In the present embodiment, as shown in Fig. 1 and Fig. 9, first front side frame body 11 is equipped with the first hold-down mechanism 50, described First hold-down mechanism 50 includes the first cantilever slab 51 being fixed on first front side frame body 11, is movably connected on described first The first of 51 bottom of cantilever slab wheel seat 52 and the first contact roller 53 for being rotatably installed on first wheel seat 52, and described the One contact roller 53 presses on first synchronous belt 34, and worn on first cantilever slab 51 be connected with it is described for adjusting First adjusting bolt 54 of the height and position of the first wheel seat 52.Specifically, the effect of the first hold-down mechanism 50 is for compressing the One synchronous belt 34 is adjusted the height and position of the first wheel seat 52 by the first adjusting bolt 54, so passes through the first wheel seat 52 The change of height and position correspondingly changes the height and position of the first contact roller 53, then when the position of the first contact roller 53 is higher When, the first contact roller 53 reduces the pressing force of the first synchronous belt 34, when the position of the first contact roller 53 is relatively low, the first pressure Bearing up pulley 53 increases the pressing force of the first synchronous belt 34, is realized according to the tightness of the first synchronous belt 34 adjust it in this way Clamp force keeps transmission system stable, safe and reliable.Also, adjustment process is adjusted manually, convenient and practical.

Similarly, as shown in Fig. 1 and Figure 10, second front side frame body 12 be equipped with the second hold-down mechanism 60, described second Hold-down mechanism 60 includes the second cantilever slab 61 being fixed on second front side frame body 12, is movably connected on second cantilever The second of 61 bottom of plate wheel seat 62 and the second contact roller 63 for being rotatably installed on second wheel seat 62, second pressure Bearing up pulley 63 presses on second synchronous belt 38, and wears and be connected with for adjusting described second on second cantilever slab 61 Second adjusting bolt 64 of the height and position of wheel seat 62.Specifically, the effect of the second hold-down mechanism 60 is same for compressing second Band 38 is walked, i.e., adjusts the height and position of the second wheel seat 62 by the second adjusting bolt 64, so passes through the height of the second wheel seat 62 The change of position correspondingly changes the height and position of the second contact roller 63, then when the position of the second contact roller 63 is higher, the Two contact rollers 63 reduce the pressing force of the second synchronous belt 38, when the position of the second contact roller 63 is relatively low, the second contact roller 63 increase the pressing force of the second synchronous belt 38, are realized according to the tightness of the second synchronous belt 38 adjust its tensioning in this way Power keeps transmission system stable, safe and reliable.Also, adjustment process is adjusted manually, convenient and practical.

In the present embodiment, as shown in Fig. 1~2 and Figure 11, the first active magnet-wheel 21 include first wheel 211, first Yoke 214, the first magnetic isolation plate 213, first annular permanent magnet 212, the first rubber tyre 215 and the first wheel shaft 216, first ring Shape permanent magnet 212 is fixed on the middle part of the first wheel 211, and first yoke 214 is fixed on the first wheel 211 In the both sides of the first annular permanent magnet 212, first magnetic isolation plate 213 is set to first yoke 214 and described first Between annular permanent magnet 212, first rubber tyre 215 is set to the opposite sides of the first wheel 211, first wheel shaft 216 wear and are fixed on the first wheel 211 and are rotatably installed on first front side frame body 11, described first Datong District Step wheel 33 is installed on first wheel shaft 216.Specifically, first annular permanent magnet 212 preferably uses Ru-Fe-Mn annular permanent magnet Body can effectively be adsorbed on and avoid, and it is soft that the first magnetic isolation plate 213, which preferably uses stainless steel magnetic isolation plate, the first rubber tyre 215, Material, then it can be more prone to adapt to rigid wall surface, and the first wheel shaft 216 then plays entire first master of connection installation The effect of dynamic magnet-wheel 21, and being installed for the first big synchronizing wheel 33, first active magnet-wheel 21 its adsorption capacity being thusly-formed is strong, Ensure that permanent magnetism wheel type machine heat will not topple easily, walking stability is good.

Similarly, as shown in Fig. 1~2 and Figure 12, the second active magnet-wheel 22 includes the second wheel hub 221, the second yoke 224, the second magnetic isolation plate 223, the second annular permanent magnet 222, the second rubber tyre 225 and the second wheel shaft 226, second annular is forever Magnet 222 is fixed on the middle part of second wheel hub 221, and second yoke 224 is fixed on second wheel hub 221 and is located at institute The both sides of the second annular permanent magnet 222 are stated, second magnetic isolation plate 223 is set to second yoke 224 and second annular Between permanent magnet 222, second rubber tyre 225 is set to the opposite sides of second wheel hub 221, second wheel shaft 226 It wears and is fixed on second wheel hub 221 and is rotatably installed on second front side frame body 12, the second largest synchronization Wheel 37 is installed on second wheel shaft 226.Specifically, the second annular permanent magnet 222 preferably uses Ru-Fe-Mn annular permanent magnet, It can effectively be adsorbed on and avoid, and it is soft that the second magnetic isolation plate 223, which preferably uses stainless steel magnetic isolation plate, the second rubber tyre 225, Material, then it can be more prone to adapt to rigid wall surface, and the second wheel shaft 226 then plays connection installation entire second actively The effect of magnet-wheel 22, and installed for the second largest synchronizing wheel 37, second active magnet-wheel 22 its adsorption capacity being thusly-formed is strong, protects Card permanent magnetism wheel type machine heat will not topple easily, and walking stability is good.

In the present embodiment, as shown in Fig. 1~2 and Figure 13, the wheeled climbing robot of permanent magnetism further includes wiper mechanism 70, Wiper mechanism 70 is mounted on rack 10 on the centre position of its rear end, can carry out circle rotation movement around complete machine center.Its In, the wiper mechanism 70 includes cleaning disk 71, linking arm 72, third air motor 73 and worm type of reduction gearing 74, described Worm type of reduction gearing 74 is fixedly installed in the top of the rear side frame body 13, the output shaft of the third air motor 73 and institute The input terminal connection of worm type of reduction gearing 74 is stated, one end of the linking arm 72 is connected to the worm type of reduction gearing 74 Output end, the cleaning disk 71 are installed on the other end of the linking arm 72.Specifically, third air motor 73 passes through worm gear snail Bar retarder 74 outputs power to linking arm 72 and realizes that control linking arm 72 circumferentially rotates, then on linking arm 72 Cleaning disk 71 is also realized to be circumferentially rotated accordingly, can be controlled cleaning disk 71 in this way and be carried out wall surface scavenger to the position needed Make.

In the present embodiment, as shown in figure 13, the cleaning disk 71 includes annular disk body 711, annular leather bag 712, nozzle 713 With floating connection mechanism 714, the annular disk body 711 is fixed on the other end of the linking arm 72, and the annular leather bag 712 is set Be placed in the periphery of the annular disk body 711, the floating connection mechanism 714 be fixed on the outside of the annular disk body 711 and with Annular 712 elastic connection of leather bag.Specifically, cleaning disk 71 can also be with the first active magnet-wheel 21 and the second active magnet-wheel 22 It is implemented in combination with obstacle detouring, i.e., when the wheeled climbing robot of the permanent magnetism encounters barrier, annular leather bag 712 is by the outside normal direction of wall surface Power, cleaning disk 71 floating connection mechanism 714 drive 712 upward sliding of annular leather bag deform, can obstacle detouring, in turn ensure cleaning The leakproofness of disk 71.When the first active magnet-wheel 21 and the second active magnet-wheel 22 encounter barrier and are jacked up, the first active magnet-wheel 21 and second active magnet-wheel 22 decline with wall surface contact, magnetic adsorbability substantially reduces, and the vacuum adsorption force of cleaning disk 71 makes up Suitable magnetic force missing ensures that robot stablizes absorption on the wall surface.Wherein, nozzle 713 is preferably the spray of cross shape Mouth 713, nozzle 713 are connect with extraneous water source, realize sprinkling water jets under high pressure.Certainly, it is also associated with recycling on annular disk body 711 Water pipe (not shown), return water pipe are used to recycle the muddy water in annular disk body 711 after over cleaning.The setting of return water pipe can To be realized by being opened in a part of structure of linking arm 72.

Further, as shown in figure 13, linking arm 72 includes cross bar 721 and brace 722, one end of cross bar 721 and worm gear The output end of worm reducer 74 is connected and is substantially extended in horizontal direction, and brace 722 is connect with the other end of cross bar 721 And shape has a certain degree and is oliquely downward extended.Preferably, brace 722 and the junction of the other end of cross bar 721 are equipped with Angle adjusting mechanism 75 can adjust the angle between cross bar 721 and brace 722 by the angle adjusting mechanism 75 in this way.Together Sample, the height and position that cleaning disk 71 may be implemented by the angle adjusting mechanism 75 are adjusted.

Preferably, annular disk body 711 is that aluminum material manufactures to be formed, such annular 711 lighter weight of disk body, and hard Degree is high, is not easy to get rusty, service life is long.

Wherein, floating connection mechanism 714 include sleeve (not shown) of the flexible connection on 711 periphery wall of annular disk body with And be connected to several spring (not shown) between 712 top of sleeve bottom end and annular leather bag, such as sleeve by soft cloth or Flexible glue is connected on the periphery wall of annular disk body 711.Upward sliding deformation may be implemented in annular leather bag 712 in this way, so realizes It floats.

To sum up adornd, the advantages of permanent magnetism of the utility model embodiment wheeled climbing robot be to walk turn to flexibly, Load is big, curved surface is adaptable.

The floating hinge joint mechanism 40 of the curved surface adaptive of the wheeled climbing robot of permanent magnetism of the utility model embodiment, can make Contact of the robot magnet-wheel with wall surface is good on different curve, ensures that absorption is reliable and stable.

There is the wiper mechanism 70 of the wheeled climbing robot of permanent magnetism of the utility model embodiment angle, height to adjust work( Can, it perfect can adapt to curved surface variation.The floating connection mechanism 714 and annular leather bag 712 for cleaning disk 71 simultaneously match, and ensure that The obstacle climbing ability of leakproofness and robot.

The walking suction type of the wheeled climbing robot of permanent magnetism of the utility model embodiment leans on 21 He of the first active magnet-wheel Second active magnet-wheel 22 is main adsorption capacity, and driven magnet-wheel 23 and vacuumizing for cleaning disk 71 assist absorption, to ensure to climb Under the premise of wall robot ambulation is flexible, load capacity is improved.

The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this All any modification, equivalent and improvement etc., should be included in the utility model made by within the spirit and principle of utility model Protection domain within.

Claims (10)

1. a kind of wheeled climbing robot of permanent magnetism, it is characterised in that：Including rack, absorption walking mechanism and hoofing part mechanism； The absorption walking mechanism includes the first active magnet-wheel, the second active magnet-wheel and driven magnet-wheel, the first active magnet-wheel and institute The both sides that the second active magnet-wheel is respectively arranged in the rack front end are stated, the driven magnet-wheel is installed in the rack rear end Portion；The hoofing part mechanism includes the first air motor, the first small synchronizing wheel, the first big synchronizing wheel, the first synchronous belt, second Air motor, the second small synchronizing wheel, the second largest synchronizing wheel and the second synchronous belt, first air motor and described second is pneumatically Motor is mounted in the rack and corresponds to respectively the first active magnet-wheel and the setting of the second active magnet-wheel, and described first is small Synchronizing wheel and the second small synchronizing wheel output axis connection with first air motor and second air motor respectively, The first big synchronizing wheel and the second largest synchronizing wheel connect with the first active magnet-wheel and the second active magnet-wheel respectively It connects, first synchronous belt is set around between the described first small synchronizing wheel and the first big synchronizing wheel, second synchronous belt It is set around between the described second small synchronizing wheel and the second largest synchronizing wheel.

2. the wheeled climbing robot of permanent magnetism according to claim 1, it is characterised in that：The rack includes the first front side frame Body, the second front side frame body and rear side frame body, the first active magnet-wheel and the second active magnet-wheel are rotatably mounted respectively In on first front side frame body and second front side frame body, first air motor and second air motor are distinguished It is fixedly installed on first front side frame body and second front side frame body, the driven magnet-wheel is rotatably installed on described The bottom of rear side frame body；Before the rear side frame body is connected to first front side frame body and described second by floating hinge joint mechanism Side frame body, the floating hinge joint mechanism includes the first hinged seat, the second hinged seat, the first rotary shaft and the second rotary shaft, described First hinged seat and second hinged seat are respectively arranged on first front side frame body and the second front side frame body and position corresponds to, First rotary shaft and second rotary shaft are set to the opposite sides of rear side frame body front end, and first rotary shaft It is hinged with first hinged seat and second hinged seat respectively with second rotary shaft.

3. the wheeled climbing robot of permanent magnetism according to claim 2, it is characterised in that：First front side frame body includes the Before one interior plate and the head rod before described first before outer panel and first between interior plate is connected to before outer panel, first Mechanism, before the first active magnet-wheel is rotatably installed on described first before outer panel and described first between interior plate, institute It states before the first air motor is fixedly installed in described first on outer panel, first hinged seat is fixed on the head rod Offer the first via corresponding with first hinged seat position in mechanism, and before described first on interior plate, described first Rotary shaft passes through first via hinged with first hinged seat；

Second front side frame body includes interior plate and outer panel and the before being connected to described second before outer panel, second before second The second connection linkage before two between interior plate, outer panel before the second active magnet-wheel is rotatably installed on described second With described second before between interior plate, before second air motor is fixedly installed in described second on outer panel, described second Hinged seat is fixed on the second connection linkage, and is offered and the described second hinged seat on interior plate before described second Corresponding second via is set, second rotary shaft passes through second via hinged with second hinged seat.

4. the wheeled climbing robot of permanent magnetism according to claim 3, it is characterised in that：The head rod mechanism includes First mounting plate and several first connecting rods, it is interior before outer panel and described first before each first connecting rod is both secured to described first Between side plate and arranged for interval, first mounting plate is fixed between each first connecting rod and the first via described in face is set It sets, first hinged seat is installed on the side of the first via described in the first mounting plate face；

The second connection linkage includes the second mounting plate and several second connecting rods, and each second connecting rod is both secured to described Before second before outer panel and described second between interior plate and arranged for interval, second mounting plate is fixed on each described second and connects Between bar and the second via described in face is arranged, and second hinged seat is installed on the second mistake described in the second mounting plate face On the side in hole.

5. the wheeled climbing robot of permanent magnetism according to claim 2, it is characterised in that：The rear side frame body connects including middle part Fitting, rear end support element and support plate, the support plate are fixed on the top of the rear end support element, and the middle part connector hangs down The direct-connected middle part for being connected to the rear end support element, the driven magnet-wheel is rotatably installed on the bottom of the support plate, described First rotary shaft and second rotary shaft are respectively perpendicular the opposite sides for being installed on middle part connector front end.

6. according to the wheeled climbing robot of claim 2~5 any one of them permanent magnetism, it is characterised in that：First front side Frame body is equipped with the first anti-fall hanging ring and/or second front side frame body is equipped with the second anti-fall hanging ring and/or the rear side Body is equipped with anti-fall draw ring.

7. according to the wheeled climbing robot of claim 2~5 any one of them permanent magnetism, it is characterised in that：First front side Frame body is equipped with the first hold-down mechanism, and first hold-down mechanism includes the first cantilever being fixed on the frame body of first front side Plate, the first wheel seat for being movably connected on first cantilever slab bottom and be rotatably installed on first wheel seat first Contact roller, first contact roller press on first synchronous belt, and wear to be connected on first cantilever slab and be used for Adjust the first adjusting bolt of the height and position of first wheel seat；

Second front side frame body is equipped with the second hold-down mechanism, and second hold-down mechanism includes being fixed on second front side The second cantilever slab on frame body is movably connected on the second wheel seat of second cantilever slab bottom and is rotatably installed on described The second contact roller on second wheel seat, second contact roller press on second synchronous belt, and second cantilever slab On wear the second adjusting bolt for being connected with the height and position for adjusting second wheel seat.

8. according to the wheeled climbing robot of claim 2~5 any one of them permanent magnetism, it is characterised in that：Described first actively Magnet-wheel includes first wheel, and the first yoke, the first magnetic isolation plate, first annular permanent magnet, the first rubber tyre and the first wheel shaft are described First annular permanent magnet is fixed on the middle part of the first wheel, and first yoke is fixed on the first wheel positioned at described The both sides of first annular permanent magnet, first magnetic isolation plate are set between first yoke and the first annular permanent magnet, First rubber tyre be set to the first wheel opposite sides, first wheel shaft wear be fixed on the first wheel and It is rotatably installed on the frame body of first front side, the first big synchronizing wheel is installed on first wheel shaft；

The second active magnet-wheel includes the second wheel hub, the second yoke, the second magnetic isolation plate, the second annular permanent magnet, the second rubber Tire and the second wheel shaft, second annular permanent magnet are fixed on the middle part of second wheel hub, and second yoke is fixed on institute State the both sides that the second wheel hub is located at second annular permanent magnet, second magnetic isolation plate is set to second yoke and described the Between second ring permanent magnet, second rubber tyre is set to the opposite sides of second wheel hub, and second wheel shaft wears solid It due to second wheel hub and is rotatably installed on the frame body of second front side, the second largest synchronizing wheel is installed on described On second wheel shaft.

9. according to the wheeled climbing robot of claim 2~5 any one of them permanent magnetism, it is characterised in that：The permanent magnetism is wheeled Climbing robot further includes wiper mechanism, and the wiper mechanism includes cleaning disk, linking arm, third air motor and worm and gear Retarder, the worm type of reduction gearing are fixedly installed in the top of the rear side frame body, the output of the third air motor Axis is connect with the input terminal of the worm type of reduction gearing, and one end of the linking arm is connected to the worm type of reduction gearing Output end, the cleaning disk are installed on the other end of the linking arm.

10. the wheeled climbing robot of permanent magnetism according to claim 9, it is characterised in that：The cleaning disk includes annular disk Body, annular leather bag, nozzle and floating connection mechanism, the annular disk body are fixed on the other end of the linking arm, the annular Leather bag is set to the periphery of the annular disk body, the floating connection mechanism be fixed on the outside of the annular disk body and with it is described Annular leather bag elastic connection.