CN108545120A - A kind of flexible climbing level robot of work - Google Patents
A kind of flexible climbing level robot of work Download PDFInfo
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- CN108545120A CN108545120A CN201810261489.6A CN201810261489A CN108545120A CN 108545120 A CN108545120 A CN 108545120A CN 201810261489 A CN201810261489 A CN 201810261489A CN 108545120 A CN108545120 A CN 108545120A
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- hold
- level robot
- climbing level
- main body
- air bag
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B62—LAND VEHICLES FOR TRAVELLING OTHERWISE THAN ON RAILS
- B62D—MOTOR VEHICLES; TRAILERS
- B62D57/00—Vehicles characterised by having other propulsion or other ground- engaging means than wheels or endless track, alone or in addition to wheels or endless track
- B62D57/02—Vehicles characterised by having other propulsion or other ground- engaging means than wheels or endless track, alone or in addition to wheels or endless track with ground-engaging propulsion means, e.g. walking members
- B62D57/024—Vehicles characterised by having other propulsion or other ground- engaging means than wheels or endless track, alone or in addition to wheels or endless track with ground-engaging propulsion means, e.g. walking members specially adapted for moving on inclined or vertical surfaces
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B64—AIRCRAFT; AVIATION; COSMONAUTICS
- B64C—AEROPLANES; HELICOPTERS
- B64C39/00—Aircraft not otherwise provided for
- B64C39/02—Aircraft not otherwise provided for characterised by special use
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B64—AIRCRAFT; AVIATION; COSMONAUTICS
- B64U—UNMANNED AERIAL VEHICLES [UAV]; EQUIPMENT THEREFOR
- B64U10/00—Type of UAV
- B64U10/10—Rotorcrafts
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B64—AIRCRAFT; AVIATION; COSMONAUTICS
- B64U—UNMANNED AERIAL VEHICLES [UAV]; EQUIPMENT THEREFOR
- B64U2101/00—UAVs specially adapted for particular uses or applications
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Abstract
A kind of flexible climbing level robot of work, belongs to technical field of automation equipment.It is characterized in that:Including climbing level robot main body, multiple promotion unmanned planes(13)And counterweight module, promote unmanned plane(13)It is arranged between counterweight module and climbing level robot main body, multiple promotion unmanned planes(13)Be separately positioned on the both sides of counterweight module and climbing level robot main body line, counterweight module and climbing level robot main body with the promotion unmanned plane of both sides(13)It is connected, counterweight module is counterweight unmanned plane(14)Or counterweight blower fan.Climbing level robot main body can be transported arbitrary height by the promotion unmanned plane of the flexible climbing level robot of this work, climbing level robot main body is set to start to work from any position, work is flexible, improve the working efficiency of climbing level robot main body, reduce the invalid climb altitude of climbing level robot main body, thereby reduces the energy consumption of climbing level robot main body.
Description
Technical field
A kind of flexible climbing level robot of work, belongs to technical field of automation equipment.
Background technology
Climbing level robot is one of the research hotspot of current robot technology, and climbing level robot is in high-altitude, dangerous operation
It has a wide range of applications, also increasingly there is application prospect in other industry at present.The actuating unit of existing climbing level robot with
And transmission mechanism is complicated, and it is big so as to cause climbing level robot weight, the flexibility of robot is on the one hand affected, is led
It causes robot to can be only done the simple action in part, on the other hand since weight itself is big, leads to the portable tool of robot
It is few, to affect the application of climbing level robot.
Application No. is 201310005091.3 Chinese invention patents to disclose a kind of cable-free air bag type robot system,
Walking of the robot in enteron aisle, but its are realized by the inflation exhaust of air bag and the elastic force effect of shape memory alloy spring
Principle is merely capable of applying inside pipeline, and can not be applied to pipeline external.Application No. is 201610391745.4 to disclose
A kind of adaptive inner wall duct robot, it is real by changing the Frotteurism of air bag and inner wall of the pipe in air bag walking mechanism
The top-down passive walking of robot its own gravity, or the uplink and downlink by controlling piston bar are now relied on, are pushed away
Dynamic upper lower gasbag walking mechanism carries out active walking, and row uses different type of drive up and down, complicated, and
Also it is only able to use the walking in pipeline.
It is that can climb since bottom mostly in addition, existing climbing level robot is when in use, but the work of climbing level robot
It is usually located at stage casing or middle epimere with position, this results in climbing level robot to need first to rise to site of action, then can just open
Beginning work, this aspect affect machine task efficiency, energy consumption are on the other hand also caused to increase.
Invention content
The technical problem to be solved by the present invention is to:Overcoming the deficiencies of the prior art and provide one kind can be by climbing level robot
Main body is promoted to application position, facilitates the flexible climbing level robot of work for adjusting climbing level robot height.
The technical solution adopted by the present invention to solve the technical problems is:The flexible climbing level robot of the work, feature
It is:Including climbing level robot main body, multiple promotion unmanned planes and counterweight module, promoted unmanned plane setting in counterweight module and
Between climbing level robot main body, multiple promotion unmanned planes are separately positioned on the two of counterweight module and climbing level robot main body line
Side, counterweight module and climbing level robot main body are connected with the promotion unmanned plane of both sides, and counterweight module is counterweight unmanned plane or matches
Weight wind turbine.
Preferably, there are two the promotion unmanned planes, two promoted unmanned planes by lift lever be connected, counterweight module with
It is connected by counterweight mounting rod between climbing level robot main body, the middle part of lift lever is connected with counterweight mounting rod.
Preferably, the climbing level robot main body includes spaced multiple hold-fast bodies, is embraced per adjacent two
The push-pull mechanism for pushing hold-fast body movement is equipped between tight mechanism, hold-fast body is annular, is equipped with and uses on the inside of hold-fast body
In the holding air bag for holding or unclamping column or rope tightly, the holding air bag per two adjacent hold-fast bodies alternately hold tightly or unclamp column or
Rope.
Preferably, the push-pull mechanism includes climb spring and one or more being arranged between adjacent hold-fast body
The both ends of a air bag that climbs, the spring that climbs are connected with two adjacent hold-fast bodies respectively.
Preferably, the push-pull mechanism includes the cylinder that climbs being arranged between adjacent hold-fast body, and climb cylinder
Fixing end and piston are connected with two adjacent hold-fast bodies respectively.
Preferably, the hold-fast body is the annular being encircled by multiple mounting brackets, is turned per two adjacent mounting brackets
Dynamic connection is held air bag tightly and is mounted on mounting bracket.
Preferably, the mounting bracket is groove profile or babinet of the opening towards inside, and there are one holding air bags or multiple, embraces
Tight cell parts are mounted in mounting bracket.
Preferably, the holding air bag is used to hold tightly column or the side of rope is equipped with groove or protrusion.
Preferably, the Guiding machine of creeping for being oriented to the axial movement of hold-fast body is equipped on the inside of the hold-fast body
Structure.
Preferably, the guiding mechanism of creeping includes the directive wheel being rotatably installed on hold-fast body, each holds machine tightly
Multiple holding air bags are equipped at intervals on structure, directive wheel is arranged between holding air bag tightly.
Compared with prior art, advantageous effect possessed by the present invention is:
1, climbing level robot main body can be transported arbitrary height by the promotion unmanned plane of the flexible climbing level robot of this work, be made
Climbing level robot main body can start to work from any position, and work is flexible, improves the working efficiency of climbing level robot main body,
And reduce the invalid climb altitude of climbing level robot main body, the energy consumption of climbing level robot main body is thereby reduced, and use
It is convenient, unmanned plane is promoted when being promoted to climbing level robot main body, and counterweight module can make the center line of climbing level robot main body
It remains and the centerline parallel of bar to be climbed, the operation is stable.
2, the middle part of lift lever is connected with counterweight mounting rod, makes two to promote unmanned plane to climbing level robot main body lifting force
It is equal in magnitude, and then conveniently matched with counterweight module, the posture of climbing level robot main body is adjusted, ensures climbing level robot main body
Center line always with the centerline parallel of bar.
3, multiple hold-fast bodies alternately hold column or rope tightly, and are matched with push-pull mechanism, realize each hold-fast body edge
Column or reel for rope to movement, to realize pole-climbing action, pole-climbing action is simple, and pole-climbing is stablized, simple in structure, and it is small to conduct oneself with dignity,
The pole-climbing of this climbing level robot can either be facilitated to act, and be convenient for carrying different equipment and the big equipment of weight can be carried,
Additionally due to the presence of hold-fast body and the walking manner characteristic of this climbing level robot, this climbing level robot can rest on column
Or any position of rope, and stop and stablize, facilitate the work of self-contained equipment.
4, it realizes that the spacing of adjacent hold-fast body is adjusted by the cooperation of climb air bag and the spring that climbs, and then realizes and embrace
Tight mechanism along column or reel for rope to move, due to the weight very little of climb spring and the air bag that climbs, climbed with using motor
The mode risen is compared, and the dead weight of equipment is greatly reduced;Climb air bag and climb ring spring around hold-fast body be arranged, to protect
The each position synchronizing moving for having demonstrate,proved hold-fast body, ensure that this climbing level robot climbs steadily.
5, the spacing of adjacent hold-fast body is adjusted by the cylinder that climbs, so realize hold-fast body along column or reel for rope to
It is mobile, the distance that hold-fast body climbs conveniently is accurately controlled, precision is high and facilitates control, with the phase by the way of motor drive
Than simplifying the transmission of equipment, and reduce the dead weight of equipment.
6, hold-fast body is surrounded by multiple mounting brackets, and is rotatablely connected per two adjacent mounting brackets, to improve
The accommodation of hold-fast body, makes hold-fast body can adapt to climbing for column or rope of different shapes, and flexibility of climbing is good,
It can be automatically adjusted according to column or the different of rope shape.
7, mounting bracket is groove profile or babinet of the opening towards inside, holds cell parts tightly and is mounted in mounting bracket, to make
Mounting bracket is protected to holding air bag tightly, and avoiding pole-climbing from holding air bag damage tightly in the process causes mounting bracket to slide.
8, holding the groove for the side that air bag is used to hold tightly column or rope tightly can increase inner cavity when holding airbag aeration tightly, due to
Groove is closed by column or rope, therefore the pressure in groove can be caused to be less than atmospheric pressure, and to which column or rope be sucked, protrusion can increase
It holds the frictional force between air bag and column or rope tightly, so as to ensure to hold column or rope tightly, and this climbing level robot can be improved
Load-bearing capacity.
9, directive wheel is arranged between holding air bag tightly, and when holding air bag release column or rope tightly, directive wheel is contacted with column or rope,
It to be oriented to the movement of hold-fast body, avoids hold-fast body that axial deviation occurs with column or rope, is embraced when holding air bag tightly
When tight column or rope, directive wheel is detached from column or rope.
Description of the drawings
Fig. 1 is the schematic top plan view of the flexible climbing level robot of work.
Fig. 2 is the stereoscopic schematic diagram of climbing level robot main body.
Fig. 3 is the partial enlarged view at A in Fig. 2.
Fig. 4 be climb air bag and hold tightly air bag scheme of installation.
Fig. 5 is the stereoscopic schematic diagram of pole-climbing sweeping robot.
Fig. 6 is the partial enlarged view at B in Fig. 5.
Fig. 7 is the connection structure of the flexible mounting bracket for being suitable for variable cross-section robot.
Fig. 8 is the connection structure of the mounting bracket of leaping over obstacles robot.
Fig. 9 is the stereoscopic schematic diagram of flexible climbing level robot of working in embodiment 2.
Figure 10 is the stereoscopic schematic diagram of flexible climbing level robot of working in embodiment 3.
Figure 11 is the stereoscopic schematic diagram of flexible climbing level robot of working in embodiment 4.
Figure 12 be embodiment 5 in climb air bag and hold tightly air bag scheme of installation.
Figure 13 be embodiment 6 in climb air bag and hold tightly air bag scheme of installation.
In figure:1, climb component 101, mounting bracket 102, interconnecting piece 103, connecting rod 2, hold air bag 201, recessed tightly
Slot 202, protrusion 3, the air bag 4 that climbs, connector 5, the spring 6 that climbs, the cylinder 7 that climbs, brush roll 8, motor
9, connection guiding mechanism 10, resetting spring 11, adjust air bag 12, magnet 13, promoted unmanned plane 14, counterweight nobody
Machine 15, counterweight mounting rod 16, lift lever.
Specific implementation mode
Fig. 1 ~ 8 are highly preferred embodiment of the present invention, and 1 ~ 13 the present invention will be further described below in conjunction with the accompanying drawings.
A kind of flexible climbing level robot of work, including climbing level robot main body, multiple promotion unmanned planes 13 and counterweight
Module promotes unmanned plane 13 and is arranged between counterweight module and climbing level robot main body, and multiple promotion unmanned planes 13 are respectively set
In the both sides of counterweight module and climbing level robot main body line, counterweight module and climbing level robot main body with the promotion nothing of both sides
Man-machine 13 are connected, and counterweight module is counterweight unmanned plane 14 or counterweight blower fan.The promotion of the flexible climbing level robot of this work nobody
Climbing level robot main body can be transported arbitrary height by machine 13, allow climbing level robot main body work since any position
Make, work is flexible, improves the working efficiency of climbing level robot main body, and reduces that climbing level robot main body is invalid to climb
Highly, the energy consumption of climbing level robot main body is thereby reduced, and easy to use, promotes unmanned plane 13 to climbing level robot main body
When promotion, counterweight module can be such that the center line of climbing level robot main body remains and the centerline parallel of bar to be climbed,
The operation is stable.The robot body is mainly used for the cleaning of the insulator of field of power transmission, and cleaning is convenient.
With reference to specific embodiment, the present invention will be further described, however persons familiar with the art it is to be appreciated that
Here in connection with the detailed description that attached drawing provides be in order to preferably explain, structure of the invention necessarily have exceeded it is limited these
Embodiment, and for some equivalents or common approach, it is no longer described in detail herein, but still fall within the guarantor of the application
Protect range.
Embodiment 1
As shown in Figure 1:In the present embodiment, it is promoted there are two the settings of unmanned plane 13, and counterweight module is counterweight unmanned plane 14, and
The spacing of two promotion unmanned planes 13 is more than the outer diameter of climbing level robot main body.It is provided with promotion between two promotion unmanned planes 13
Bar 16, the both ends of lift lever 16 promote unmanned plane 13 with two respectively and are fixedly connected.Promoted unmanned plane 13 can also be arranged it is multiple,
Multiple both sides for promoting unmanned plane 13 and being separately positioned on counterweight unmanned plane 14 and climbing level robot main body line.Counterweight unmanned plane 14
Propeller be arranged downward, counterweight module can also be counterweight blower fan, the air outlet of counterweight blower fan is upward.
Be provided with counterweight mounting rod 15 between climbing level robot main body and counterweight unmanned plane 14,15 one end of counterweight mounting rod with
The outside of climbing level robot main body is connected, and the other end is connected with counterweight unmanned plane 14, middle part and the counterweight mounting rod of lift lever 16
15 middle part is fixedly connected, and lift lever 16 is vertical with counterweight mounting rod 15, the center line and counterweight mounting rod of lift lever 16
15 center line is vertical with the axis of climbing level robot main body, to facilitate the posture for adjusting climbing level robot main body, ensures
The center line of climbing level robot main body is parallel with bar to be climbed always, can either ensure that climbing level robot main body facilitates holding to wait for
The bar to climb, and the promotion of bar influence climbing level robot main body to be climbed can be avoided.The propeller court of counterweight unmanned plane 14
It is arranged to downside, the thrust that the gravity and counterweight unmanned plane 14 so as to utilize counterweight unmanned plane 14 generate is to climbing level robot
The gravity of main body is balanced.
As shown in Fig. 2 ~ 3:Climbing level robot main body includes spaced multiple hold-fast bodies, per two adjacent holdings
The push-pull mechanism for pushing hold-fast body movement is equipped between mechanism, hold-fast body is annular, is equipped with and is used on the inside of hold-fast body
The holding air bag 2 for holding or unclamping column or rope tightly, the holding air bag 2 per two adjacent hold-fast bodies alternately hold tightly or unclamp column or
Rope.Multiple hold-fast bodies of this climbing level robot main body alternately hold column or rope tightly, and are matched with push-pull mechanism, realize each
Hold-fast body along column or reel for rope to movement, to realize pole-climbing action, pole-climbing action is simple, and pole-climbing is stablized, simple in structure,
And dead weight is small, the pole-climbing of this climbing level robot main body can either be facilitated to act, and be convenient for carrying different equipment and can carry
The big equipment of weight, additionally due to the walking manner characteristic of the presence of hold-fast body and this climbing level robot main body, this pole-climbing
Robot body can rest on any position of column or rope, and stop and stablize, and facilitate the work of self-contained equipment.
Hold-fast body includes the component 1 that climbs, and in the present embodiment, and the component 1 that climbs is circular ring shape, holds air bag 2 tightly
Setting is in 1 inside of component of climbing.The component 1 that climbs is the circular ring shape being encircled by multiple mounting brackets 101, and mounting bracket 101 is opening
Towards the babinet or groove profile of inside, in the present embodiment, mounting bracket 101 be opening towards inside babinet, and mounting bracket 101 with
The spacing of two adjacent sides of open side is gradually reduced from outside to inside, and multiple mounting brackets 101 are encircled into circular ring shape just.Installation
Two side lower parts adjacent with open side of frame 101 are equipped with interconnecting piece 102, pass through interconnecting piece per two adjacent mounting brackets 101
102 rotation connections, the component 1 that makes to climb can regard structure flexible as, so as to when holding air bag 2 tightly and holding column or rope tightly according to need
Change shape is wanted, and can adapt to climbing for irregular circular columns or rope.
It is one or spaced multiple to hold air bag 2 tightly, and in the present embodiment, it is spaced more to hold air bag 2 tightly
It is a, and hold air bag 2 tightly and corresponded with mounting bracket 101, it holds air bag 2 tightly and is mounted in mounting bracket 101, to make mounting bracket 101
It is protected to holding air bag 2 tightly, holding air bag 2 is damaged during avoiding use.
Push-pull mechanism is climb spring 5 and the air bag 3 that climbs.Climb air bag 3 there are one or it is multiple, and be arranged in mounting bracket
101 upside or downside, it is preferred that the air bag 3 that climbs has multiple, and the both sides up and down of each mounting bracket 101 are all provided with that there are one climb
Air bag 3 is risen, it is more flexible so as to make spacing adjust, and improve spacing governing speed, that is, improve this climbing level robot
The climbing speed of main body.Axis between per two adjacent hold-fast bodies around hold-fast body has multiple bullets that climb uniformly at intervals
The side of spring 5, mounting bracket 101 is equipped with connector 4, and the upper and lower ends for the spring 5 that climbs are solid by connector 4 and mounting bracket 101
Fixed connection.Connector 4 is " L " shape, and the vertical portion of connector 4 is arranged between adjacent mounting bracket 101, and with a mounting bracket
101 are fixedly connected, and the spring 5 that climbs is fixedly connected with the horizontal part of connector 4.The spring 5 that climbs is in tensional state, when the gas that climbs
When capsule 3 is inflated, adjacent hold-fast body spacing is made to increase, when the air bag 3 that climbs is deflated, adjacent hold-fast body is in the spring 5 that climbs
The lower spacing of elastic force effect reduce.
The air bag 3 that climbs is respectively connected with air pump or compressed air pipe with air bag 2 is held tightly, and climb air bag 3 and holding air bag 2
Air inlet and exhaust outlet be respectively connected with solenoid valve, solenoid valve is connected with PLC controller or microcontroller.In the present embodiment, it embraces
There are three tight mechanisms.When the holding air bag 2 of upside deflates and unclamps column or rope, middle part holds air bag 2 tightly and inflates and hold tightly column or rope,
The inflation of air bag 3 of climbing between the hold-fast body of both sides up and down at this time, to push the hold-fast body of upside to move up, when the gas that climbs
After capsule 3 is inflated, the holding air bag 2 of upside is inflated and simultaneously holds column or rope tightly, the holding air bag 2 at middle part deflate and unclamp column or
Rope, the hold-fast body at middle part move up under the action of climbing spring 5, the pole-climbing action of hold-fast body are completed, to profit
Pole-climbing action is realized with the principle for adjusting two hold-fast body spacing.The cooperation of the hold-fast body of downside and the hold-fast body at middle part
The principle of pole-climbing, the upper principle of two hold-fast body pole-climbings is identical in.
It is equipped with guiding mechanism of creeping between two adjacent mounting brackets 101 of each hold-fast body.Guiding mechanism of creeping is rotation
Directive wheel on mounting bracket 101, directive wheel are mounted on by directive wheel mounting rod on mounting bracket 101, the axis of directive wheel
Line is horizontally disposed.When holding the inflation of air bag 2 tightly, directive wheel is detached with column or rope, when holding the deflation of air bag 2 tightly, directive wheel and column
Or rope is in contact, and climbing for hold-fast body is oriented to, ensure that hold-fast body and column or rope are coaxial always, improves and climb
Stability.
As shown in Figure 4:The inside for holding air bag 2 tightly is equipped with groove 201, and groove 201 is rectangular or cylindric, can either be increased
It holds the friction of air bag 2 tightly, and then increases the friction held tightly between air bag 2 and column or rope, additionally it is possible to when holding air bag 2 is inflated,
It is bonded with column or rope due to groove 201 and is encircled into closed cavity with column or rope, held volume when air bag 2 is inflated tightly and increase, into
And 201 volume of groove is made to increase, air pressure inside reduces, and to which column or rope be sucked, ensure that holding air bag 2 tightly holds tightly securely.
As shown in Fig. 5 ~ 6:Present invention also provides a kind of pole-climbing sweeping robot, the difference with climbing level robot main body
It is:Each hold-fast body includes two components 1 that climb, two interval of component 1 settings of climbing, and is set between two components that climb
There is cleaning agency.Each hold-fast body has multiple cleaning agencies uniformly at intervals around axis, so as to simultaneously to column or rope
Side is cleared up, and cleaning effect is good.Two components 1 that climb are connected by connecting rod 103, and the setting of connecting rod 103 is climbed at two
Between component 1, and the both ends of connecting rod 103 component 1 that climbs respectively with two is fixedly connected.In the present embodiment, connecting rod 103 is surround
The axis of component 1 of climbing is arranged at intervals with three.
In the present embodiment, the component 1 that each climbs is surrounded by two mounting brackets 101, and each mounting bracket 101 is half
Arc-shaped, the both ends of two mounting brackets 101 are rotatablely connected respectively, to form circular ring shape.It is mounted in each mounting bracket 101
One holding air bag 2.The open side of multiple components 1 that climb is located on same vertical straight line, to conveniently be sleeved on column or rope
Above and to column or rope clean.
In the present embodiment, there are two hold-fast bodies, and push-pull mechanism is the cylinder 6 that climbs.The cylinder 6 that climbs is around group of climbing
Part 1 uniformly at intervals there are three, the cylinder 6 that climbs is vertically arranged, and the bottom of the cylinder 6 that climbs is mounted on lower part hold-fast body and climbing
On component 1, the piston rod for the cylinder 6 that climbs is connected with the component 1 that climbs of top hold-fast body.Climb cylinder 6 air inlet pipe and go out
Tracheae is connected with solenoid valve, and solenoid valve is connected with PLC controller or microcontroller.When the holding air bag 2 of lower part hold-fast body is embraced
When tight column or rope, the holding air bag 2 of top hold-fast body unclamps column or rope, the piston rod for the cylinder 6 that climbs at this time are stretched out and pushed
The hold-fast body on top moves up, when the hold-fast body on top moves a certain distance, the holding air bag 2 of top hold-fast body
Hold column or rope tightly, the holding air bag 2 of lower part hold-fast body unclamps column or rope, the piston rod for the cylinder 6 that climbs reset and drive lower part
Hold-fast body rise, to realize that pole-climbing is acted using the principle for adjusting two hold-fast body spacing.
Cleaning mechanism includes brush roll 7 and drives the cleaning actuating unit of the rotation of brush roll 7, is cleared up in the present embodiment
Actuating unit is motor 8, and motor 8 is mounted on climbing on component 1 on the downside of hold-fast body, and brush roll 7 and the output shaft of motor 8 are same
Axis is arranged, and the upper end of brush roll 7 is rotatably installed in the climbing on component 1 of hold-fast body top, the lower end of brush roll 7 and motor
8 output shaft is coaxially connected.Motor 8 drives brush roll 7 to rotate, to clear up column or rope.Since cleaning agency is arranged
Have multiple, therefore when the component 1 that climbs drives cleaning agency pole-climbing, cleaning agency can disposably complete the border of column or rope
It cleans, it is good to clean effect, and cleans that speed is fast, the action of climbing for the component 1 that do not influence to climb.
As shown in Figure 7:Present invention also provides a kind of flexible robots for being suitable for variable cross-section, with climbing level robot master
Body difference lies in:It is connected by distance regulating mechanism between the every two adjacent mounting brackets 101 of hold-fast body, so as to
Adjust the shape of component 1 of climbing, to adapt to the robot of different cross section shape column or rope, and can adapt to variable cross-section column or
Rope, wide adaptation range.The quantity of distance regulating mechanism can also be less than the quantity of mounting bracket 101, at this time the only adjacent peace in part
It is connected by distance regulating mechanism between shelving 101, is rotatablely connected between remaining adjacent mounting bracket 101.
Distance regulating mechanism includes expansion module and connection guiding mechanism 9, expansion module and two adjacent mounting brackets
101 are connected and adjust 101 distance of two neighboring mounting bracket, and connection guiding mechanism 9 can be oriented to mounting bracket 101, avoid adjacent
Mounting bracket 101 disengaging be broken so as to cause hold-fast body.
Expansion module includes adjusting air bag 11 and resetting spring 10, adjusts air bag 11 and is arranged in two adjacent mounting brackets
Between 101, it is preferred that two adjacent adjacent sides of mounting bracket 101 be respectively mounted there are two adjust air bag 11, and two adjusting
The same position in mounting bracket 101 is arranged in air bag 11, and two air inlets for adjusting air bag 11 and gas outlet are respectively connected with solenoid valve,
And solenoid valve is connected with PLC controller or microcontroller.When the cross sectional shape or area of section of column or rope change, gas is adjusted
Capsule 11 is inflated, and to adjust the spacing of two mounting brackets 101, and then the component 1 that climbs of hold-fast body is made to change, by more
The adjusting adjusting of a expansion module makes the arbitrary shape of component presentation of climbing.When adjusting the deflation of air bag 11, in resetting spring 10
Elastic force effect under, two neighboring mounting bracket 101 resets, and the pole-climbing for enabling adaptation to the column or rope of different cross section shape is dynamic
Make, and own form can be adjusted according to the shape of column or rope during pole-climbing, easy to use, range of climbing is wide, and adjusts
It is convenient.
Connection guiding mechanism 9 includes guide sleeve and guide rod, and guide sleeve and guide rod are separately positioned on two adjacent installations
On frame 101, and guide sleeve is mounted on mounting bracket 101, and guide rod one end is mounted on another adjacent mounting bracket 101, another
End sliding is stretched into guide sleeve, to be oriented to the movement of mounting bracket 101, and connected mounting bracket 101 is avoided to disconnect.
Guide rod and guide sleeve are made of software material, so as to according to the shape of the hold-fast body of adjusting come adjust guide rod and
The shape of guide sleeve, it is easy to use.
As shown in Figure 8:The application also provides a kind of robot of leaping over obstacles, with the flexible machine for being suitable for variable cross-section
People difference lies in:Distance regulating mechanism includes the magnet 12 being arranged on two neighboring mounting bracket 101, and two magnet 12 are distinguished
Sustained height in two mounting brackets 101, and two 12 face of magnet settings, the adjacent pendant polar phase of two magnet 12 are set
Instead, to make two magnet 12 generate suction, ensure that two mounting brackets 101 can be connected.Due to the suction phase using magnet 12
Even, therefore two mounting brackets 101 can be with leaping over obstacles.When the robot climbing pipes of this leaping over obstacles, if connected on pipeline
It is connected to threeway or branch pipe, under the action of holding air bag 2 tightly, the spacing of adjacent mounting bracket 101 increases, when crossing threeway or branch pipe
When, the spacing of adjacent mounting bracket 101 is close under the suction of magnet 12, to complete the action of leaping over obstacles.In this reality
It applies in example, can also use and hold cylinder holding column or rope tightly, it is easy to operate, and it is capable of providing the thrust of bigger, and thrust is adjusted
It is convenient, to which column or rope can either be held tightly, and the spacing of adjacent mounting bracket 101 can be pushed to increase when needed.
Embodiment 2
As shown in Figure 9:Embodiment 2 and embodiment 1 difference lies in:The mounting bracket 101 of climbing level robot main body is inside opening
Babinet, and the annular that component 1 is the triangle row being encircled by multiple mounting brackets 101 of climbing enables adaptation to triangular column
Or the pole-climbing action of rope.
Embodiment 3
As shown in Figure 10:Embodiment 3 and embodiment 1 difference lies in:The component 1 that climbs of climbing level robot main body is by multiple peaces
The polygon annular for shelving the indent that 101 are encircled into, enables adaptation to the pole-climbing of the column or rope of the polygon that section is indent
Action.
Embodiment 4
As shown in figure 11:Embodiment 4 and embodiment 1 difference lies in:The component 1 that climbs of climbing level robot main body is by multiple peaces
The polygon annular for shelving the evagination that 101 are encircled into, enables adaptation to the pole-climbing of the column or rope of the polygon that section is evagination
Action.
Embodiment 5
As shown in figure 12:Embodiment 5 and embodiment 1 difference lies in:The inside of the holding air bag 2 of climbing level robot main body, i.e.,
It is equipped with protrusion 202 close to the side of column or rope, protrusion 202 is horizontally disposed strip or cylindric, to increase holding gas
Frictional force between capsule 2 and column or rope ensure that the component 1 that climbs holds column tightly or rope is stablized, improve climbing level robot main body and climb
The job stability of bar.
Embodiment 6
As shown in figure 13:Embodiment 6 and embodiment 1 difference lies in:2 inside of holding air bag of climbing level robot main body, that is, lean on
There is multilayer in the side of nearly column or rope, to form accordion, when holding column or rope tightly, the friction with column or rope can either be avoided to lead
It causes to hold 2 gas leakage of air bag tightly, improves the service life for holding air bag 2 tightly, and rubbing between component 1 and column or rope of climbing can be improved
Power is wiped, climb component 1 and column or iope slippage are avoided, the stroke that component 1 moves every time that makes to climb is big.
The above described is only a preferred embodiment of the present invention, being not that the invention has other forms of limitations, appoint
What those skilled in the art changed or be modified as possibly also with the technology contents of the disclosure above equivalent variations etc.
Imitate embodiment.But it is every without departing from technical solution of the present invention content, according to the technical essence of the invention to above example institute
Any simple modification, equivalent variations and the remodeling made, still fall within the protection domain of technical solution of the present invention.
Claims (10)
1. a kind of flexible climbing level robot of work, it is characterised in that:Including climbing level robot main body, multiple promotion unmanned planes
(13)And counterweight module, promote unmanned plane(13)It is arranged between counterweight module and climbing level robot main body, multiple promotion nothings
It is man-machine(13)It is separately positioned on the both sides of counterweight module and climbing level robot main body line, counterweight module and climbing level robot main body
With the promotion unmanned plane of both sides(13)It is connected, counterweight module is counterweight unmanned plane(14)Or counterweight blower fan.
2. the flexible climbing level robot of work according to claim 1, it is characterised in that:The promotion unmanned plane(13)
There are two, two promotion unmanned planes(13)Pass through lift lever(16)It is connected, passes through between counterweight module and climbing level robot main body
Counterweight mounting rod(15)It is connected, lift lever(16)Middle part and counterweight mounting rod(15)It is connected.
3. the flexible climbing level robot of work according to claim 1, it is characterised in that:The climbing level robot main body
Including spaced multiple hold-fast bodies, it is equipped between every two adjacent hold-fast bodies and pushes pushing away for hold-fast body movement
Drawing mechanism, hold-fast body are annular, and the holding air bag for holding or unclamping column or rope tightly is equipped on the inside of hold-fast body(2), per phase
The holding air bag of two adjacent hold-fast bodies(2)Alternately hold or unclamp column or rope tightly.
4. the flexible climbing level robot of work according to claim 3, it is characterised in that:The push-pull mechanism includes setting
Set the spring that climbs between adjacent hold-fast body(5)And one or more is climbed air bag(3), climb spring(5)Both ends
It is connected respectively with two adjacent hold-fast bodies.
5. the flexible climbing level robot of work according to claim 3, it is characterised in that:The push-pull mechanism includes setting
Set the cylinder that climbs between adjacent hold-fast body(6), climb cylinder(6)Fixing end and piston respectively with adjacent two embrace
Tight mechanism is connected.
6. according to the flexible climbing level robot of claim 3 ~ 5 any one of them work, it is characterised in that:The holding machine
Structure is by multiple mounting brackets(101)The annular being encircled into, per two adjacent mounting brackets(101)Air bag is held in rotation connection tightly(2)
Mounted on mounting bracket(101)On.
7. the flexible climbing level robot of work according to claim 6, it is characterised in that:The mounting bracket(101)For
The groove profile or babinet being open towards inside hold air bag tightly(2)There are one or it is multiple, hold tightly air bag(2)It is partially installed on mounting bracket
(101)It is interior.
8. the flexible climbing level robot of work according to claim 6, it is characterised in that:The holding air bag(2)With
It is equipped with groove in the side for holding column or rope tightly(201)Or protrusion(202).
9. the flexible climbing level robot of work according to claim 3, it is characterised in that:It is set on the inside of the hold-fast body
It is useful for the guiding mechanism of creeping being oriented to the axial movement of hold-fast body.
10. the flexible climbing level robot of work according to claim 9, it is characterised in that:The guiding mechanism of creeping
Including the directive wheel being rotatably installed on hold-fast body, multiple holding air bags are equipped at intervals on each hold-fast body(2), directive wheel
Air bag is being held in setting tightly(2)Between.
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CN201810261489.6A CN108545120B (en) | 2018-03-28 | 2018-03-28 | A kind of flexible climbing level robot of work |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112429109A (en) * | 2020-11-11 | 2021-03-02 | 柳州市中晶科技有限公司 | Pole-climbing robot locking device |
CN113748866A (en) * | 2021-09-29 | 2021-12-07 | 安捷电维智能科技研究院(广州)有限公司 | Tree climbing and pruning robot |
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US4522129A (en) * | 1980-05-28 | 1985-06-11 | Nitro Nobel Ab | Device for charging drillholes |
US4848168A (en) * | 1987-04-13 | 1989-07-18 | Bridgestone Corporation | Traveling device moving along elongated member |
JPH01185508A (en) * | 1988-01-18 | 1989-07-25 | Olympus Optical Co Ltd | Tube free-running device |
CN103192987A (en) * | 2013-04-07 | 2013-07-10 | 南京理工大学 | Amphibious robot capable of flying and climbing wall and control method of amphibious robot |
CN106986020A (en) * | 2017-04-03 | 2017-07-28 | 江富余 | High-speed helicopter |
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2018
- 2018-03-28 CN CN201810261489.6A patent/CN108545120B/en not_active Expired - Fee Related
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
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US4522129A (en) * | 1980-05-28 | 1985-06-11 | Nitro Nobel Ab | Device for charging drillholes |
US4848168A (en) * | 1987-04-13 | 1989-07-18 | Bridgestone Corporation | Traveling device moving along elongated member |
JPH01185508A (en) * | 1988-01-18 | 1989-07-25 | Olympus Optical Co Ltd | Tube free-running device |
CN103192987A (en) * | 2013-04-07 | 2013-07-10 | 南京理工大学 | Amphibious robot capable of flying and climbing wall and control method of amphibious robot |
CN106986020A (en) * | 2017-04-03 | 2017-07-28 | 江富余 | High-speed helicopter |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN112429109A (en) * | 2020-11-11 | 2021-03-02 | 柳州市中晶科技有限公司 | Pole-climbing robot locking device |
CN113748866A (en) * | 2021-09-29 | 2021-12-07 | 安捷电维智能科技研究院(广州)有限公司 | Tree climbing and pruning robot |
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