CN208759556U - Modularization crusing robot and its system - Google Patents

Abstract

The utility model discloses modularization crusing robot and its systems, are related to crusing robot technical field.Modularization crusing robot includes track structure, power plant module, slave module and detection module.Power plant module includes control module, car body and driving assembly, and driving assembly includes driving equipment and driving wheel group, and driving equipment is electrically connected with control module, and driving equipment and driving wheel group are sequentially connected, and driving wheel group is installed on car body.Slave module is set on car body and is slidably connected with track structure, and detection module is set on slave module and communicates to connect with control module, and driving wheel group and track structure cooperate, to drive power plant module and slave module to move.Modularization crusing robot provided by the utility model and its system use modular setting, convenient for the combination and exchange of function；Union communication and function of supplying power can guarantee to run smoothly and routing inspection efficiency in one.

Description

Modularization crusing robot and its system

Technical field

The utility model relates to crusing robot technical fields, in particular to modularization crusing robot and its are System.

Background technique

Cable tunnel power cable laying is the major way of big and medium-sized cities power Transmission, is the important of city's looks that improve the appearance of the city The performance that one of content and people's living standard and synthesized economic strength improve.But following, tunnel cable work shape The tour of the safety hazards of the monitoring and cable tunnel of state, and it is related to the cable tunnel of people's life and property safety The early warning system etc. of high reliability, just becomes more and more important.Rail mounted crusing robot as one of crusing robot, Its needs plans polling path by corresponding rail system.

Utility model content

The purpose of this utility model is to provide a kind of modularization crusing robots, use modular setting, are convenient for The combination and exchange of function；Union communication and function of supplying power can guarantee to run smoothly and routing inspection efficiency in one.

The utility model provides a kind of technical solution about modularization crusing robot:

A kind of modularization crusing robot, including track structure, power plant module, slave module and detection module.It is described dynamic Power module includes control module, car body and driving assembly, and the driving component includes driving equipment and driving wheel group, the driving Equipment is electrically connected with the control module, and the driving equipment and the driving wheel group are sequentially connected, the driving wheel group installation In on the car body.The slave module is set on the car body and is slidably connected with the track structure, the detection mould Block is set on the slave module and communicates to connect with the control module, and the driving wheel group is matched with the track structure It closes, to drive power plant module and the slave module to move.

Optionally, the slave module includes multiple from motor-car, two neighboring described from hinged between motor-car, the detection Module includes multiple detection sensors, and multiple detection sensors are communicated to connect with the control module, and multiple described Detection sensor is respectively arranged at multiple described from motor-car.

Optionally, multiple detection sensors are connect with the control module by bus communication.

Optionally, the track structure includes track ontology, and the track ontology includes limiting section, interconnecting piece and support Portion, the both ends of the interconnecting piece are respectively arranged at the limiting section and the support portion, and the interconnecting piece is close to the support portion End be provided with routing hole, the driving wheel group can be moved along the support portion.

Optionally, the rack gear is installed on the support portion.The driving wheel group includes driving wheel and driving gear, institute It states driving wheel and the driving gear is sequentially connected, the driving equipment and the driving wheel and/or the driving gear drive Connection, the driving gear can be engaged with the rack gear.

Optionally, the driving wheel and the driving gear are coaxially disposed, and the driving component further includes synchronous belt, described Driving equipment is sequentially connected by the synchronous belt and the driving wheel and the driving gear.

Optionally, the track structure further includes mounting assembly, and the mounting assembly is connect with the limiting section.

Optionally, the mounting assembly includes installation part, regulating part and fixing piece, and the installation part and the limiting section are sliding Dynamic connection, the regulating part are slidably connected with the installation part, and the fixing piece is connect with the regulating part.

Optionally, the power plant module further includes the first directive wheel and the second directive wheel, and first directive wheel is set to The both ends of the car body, second directive wheel are installed on the car body and are arranged close to the driving component.

The another object of the utility model is to provide a kind of crusing robot system, uses modular setting, just In the combination and exchange of function；Union communication and function of supplying power can guarantee to run smoothly and routing inspection efficiency in one.

The utility model provides a kind of technical solution about crusing robot system:

A kind of crusing robot system, including modularization crusing robot.Modularization crusing robot include track structure, Power plant module, slave module and detection module.The power plant module includes control module, car body and driving assembly, the driving Component includes driving equipment and driving wheel group, and the driving equipment is electrically connected with the control module, the driving equipment and institute The transmission connection of driving wheel group is stated, the driving wheel group is installed on the car body.The slave module is set on the car body And be slidably connected with the track structure, the detection module is set on the slave module and communicates with the control module Connection, the driving wheel group and the track structure cooperate, to drive power plant module and the slave module to move.

Compared with prior art, the beneficial effect of modularization crusing robot provided by the utility model and its system is:

Track structure is used to provide support to power plant module and slave module, so that power plant module is able to drive slave module It is moved along track structure.Wherein, control module is used to control the motion state of driving assembly, car body for install control module and Driving assembly.Slave module is used to detect parameter to be detected for installing or being arranged detection module, detection module, and The parameter that will test is transmitted to control module.Modularization crusing robot provided by the utility model is set using modular It sets, convenient for the combination and exchange of function；Union communication and function of supplying power can guarantee the fortune of modularization crusing robot in one Capable steady and routing inspection efficiency.

Detailed description of the invention

It, below will be to use required in embodiment in order to illustrate more clearly of the technical solution of the utility model embodiment Attached drawing be briefly described.It should be appreciated that the following drawings illustrates only some embodiments of the utility model, therefore should not be by Regard the restriction to range as.For those of ordinary skill in the art, without creative efforts, may be used also To obtain other relevant attached drawings according to these attached drawings.

Fig. 1 is structural representation of the modularization crusing robot that provides of the embodiments of the present invention under the first visual angle Figure；

Fig. 2 is structural representation of the modularization crusing robot that provides of the embodiments of the present invention under the second visual angle Figure；

Fig. 3 is structural schematic diagram of the track structure that provides of the embodiments of the present invention under the first visual angle；

Fig. 4 is the cross section structure schematic diagram for the track ontology that the embodiments of the present invention provide；

Fig. 5 is the cross section structure schematic diagram of track ontology and rack gear that the embodiments of the present invention provide；

Fig. 6 is structural schematic diagram of the track structure that provides of the embodiments of the present invention under the second visual angle；

Fig. 7 is the enlarged structure schematic diagram in Fig. 4 at V-V；

Fig. 8 is the structural schematic diagram for the robot body that the embodiments of the present invention provide；

Fig. 9 is the structural schematic diagram for the driving assembly that the embodiments of the present invention provide

Figure 10 is structural schematic diagram of the crusing robot that provides of the embodiments of the present invention in horizontal segment；

Figure 11 is structural schematic diagram of the crusing robot that provides of the embodiments of the present invention in tilting section.

Icon: 10- modularization crusing robot；100- track structure；101- routing hole；110- track ontology；111- limit Position portion；The first limiting section of 1111-；The second limiting section of 1112-；The first protrusion of 1113-；The second protrusion of 1114-；1115- limiting slot； 112- interconnecting piece；113- support portion；114- mounting portion；120- rack gear；130- mounting assembly；131- installation part；132- regulating part； 133- fixing piece；200- power plant module；210- car body；220- driving assembly；221- driving equipment；223- driving wheel group；2231- Driving wheel；2232- drives gear；2233- synchronous belt；2234- tensioning wheel；The first directive wheel of 230-；The second directive wheel of 240-； 250- control module；300- slave module；310- is from motor-car；400- detection module.

Specific embodiment

It is practical new below in conjunction with this to keep the objectives, technical solutions, and advantages of the embodiments of the present invention clearer Attached drawing in type embodiment, the technical scheme in the utility model embodiment is clearly and completely described.Obviously, it is retouched The embodiment stated is the utility model a part of the embodiment, instead of all the embodiments.Usually here in attached drawing description and The component of the utility model embodiment shown can be arranged and be designed with a variety of different configurations.

Therefore, requirement is not intended to limit to the detailed description of the embodiments of the present invention provided in the accompanying drawings below The scope of the utility model of protection, but it is merely representative of the selected embodiment of the utility model.Based in the utility model Embodiment, every other embodiment obtained by those of ordinary skill in the art without making creative efforts, all Belong to the range of the utility model protection.

It should also be noted that similar label and letter indicate similar terms in following attached drawing, therefore, once a certain Xiang Yi It is defined in a attached drawing, does not then need that it is further defined and explained in subsequent attached drawing.

In the description of the present invention, it should be understood that term " on ", "lower", "inner", "outside", "left", "right" etc. The orientation or positional relationship of instruction be based on the orientation or positional relationship shown in the drawings or the utility model product use when The orientation or positional relationship that the orientation or positional relationship or those skilled in the art usually put usually understand, be only for Convenient for description the utility model and simplify description, rather than the equipment of indication or suggestion meaning or element must have specifically Orientation is constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.

In addition, term " first ", " second " etc. are only used for distinguishing description, it is not understood to indicate or imply relatively important Property.

In the description of the present invention, it should also be noted that, unless otherwise clearly defined and limited, " setting ", Terms such as " connections " shall be understood in a broad sense, for example, " connection " may be a fixed connection, may be a detachable connection, or one Ground connection；It can be mechanical connection, be also possible to be electrically connected；Can be and be directly connected to, can also by between intermediary in succession It connects, can be the connection inside two elements.For the ordinary skill in the art, can understand as the case may be The concrete meaning of above-mentioned term in the present invention.

With reference to the accompanying drawing, specific embodiment of the present utility model is described in detail.

Fig. 1 to Figure 11 is please referred to, a kind of modularization crusing robot 10 is present embodiments provided, uses modular set It sets, convenient for the combination and exchange of function；Union communication and function of supplying power can guarantee to run smoothly and routing inspection efficiency in one.

Modularization crusing robot 10 provided in this embodiment includes track structure 100, power plant module 200, slave module 300 and detection module 400.Power plant module 200 includes control module 250, car body 210 and driving assembly 220, driving assembly 220 Including driving equipment 221 and driving wheel group 223, driving equipment 221 is electrically connected with control module 250, driving equipment 221 and driving Wheel group 223 is sequentially connected, and driving wheel group 223 is installed on car body 210.Slave module 300 is set on car body 210 and and track Structure 100 is slidably connected, and detection module 400 is set on slave module 300 and communicates to connect with control module 250, driving wheel Group 223 cooperates with track structure 100, to drive power plant module 200 and slave module 300 to move.

It is understood that track structure 100 is used to provide support to power plant module 200 and slave module 300, so that dynamic Power module 200 is able to drive slave module 300 and moves along track structure 100.Wherein, control module 250 is for controlling driving group The motion state of part 220, car body 210 is for installing control module 250 and driving assembly 220.Slave module 300 for install or Detection module 400 is set, and detection module 400 is for detecting parameter to be detected, and the parameter that will test is transmitted to Control module 250.Modularization crusing robot 10 provided in this embodiment uses modular setting, convenient for function combination and It exchanges；Union communication and function of supplying power in one, can guarantee modularization crusing robot 10 run smoothly and routing inspection efficiency.

Optionally, slave module 300 includes multiple from motor-car 310, two neighboring from hinged between motor-car 310, detection mould Block 400 includes multiple detection sensors, and multiple detection sensors are communicated to connect with control module 250, and multiple detections sense Device is respectively arranged at multiple from motor-car 310.

It should be noted that detection sensor is set to from motor-car 310, it can be according to different detection parameters to detection Sensor is classified, and will be belonged to of a sort detection sensor and be arranged same from motor-car 310.For example it will be used to examine Survey air sensor be arranged same from motor-car 310, the sensor for detecting air may include dust sensor, easily Combustion gas body sensor, toxic gas sensor and oxygen sensor etc..

Optionally, multiple detection sensors are connect with control module 250 by bus communication.

It is understood that control module 250 may include control chip and obstacle avoidance sensor, motion sensor, movement Unit and communication module, communication module therein is for communicating, for example communicate with detection sensor or the control end with backstage End communication etc..

Optionally, track structure 100 includes track ontology 110, and track ontology 110 includes limiting section 111, interconnecting piece 112 With support portion 113, the both ends of interconnecting piece 112 are respectively arranged at limiting section 111 and support portion 113, and interconnecting piece 112 is close to support portion 113 end is provided with routing hole 101, and driving wheel group 223 can be moved along support portion 113.

Optionally, in the present embodiment, the cross section of track ontology 110 is substantially at inverse-T-shaped, i.e. interconnecting piece 112 and branch The link position of support part 113 is located substantially at the center of support portion 113.In addition, track ontology 110 may be set to be axial symmetry knot Structure.

Optionally, in the present embodiment, routing hole 101 is kidney slot, and routing hole 101 is for being routed, to form collection communication With function of supplying power in the composite orbit of one.

Optionally, limiting section 111 includes the first limiting section 1111 and the second limiting section 1112, the first limiting section 1111 and the One end end of two limiting sections 1112 is connect with interconnecting piece 112, and the first limiting section 1111 and the second limiting section 1112 surround limit Slot 1115.

Optionally, the first limiting section 1111 and the second limiting section 1112 are respectively arranged with far from the end of interconnecting piece 112 One protrusion 1113 and the second protrusion 1114, the first protrusion 1113 and the second protrusion 1114 are oppositely arranged and are spaced apart from each other.

Optionally, track structure 100 further includes rack gear 120, and rack gear 120 is installed on support portion 113.Driving wheel group 223 Including driving wheel 2231 and gear 2232 is driven, driving wheel 2231 and driving gear 2232 are sequentially connected, driving equipment 221 and drive Driving wheel 2231 and/or driving gear 2232 are sequentially connected, and driving gear 2232 can be engaged with rack gear 120.

It should be noted that driving equipment 221 is referred to driving wheel 2231 and/or the driving transmission connection of gear 2232: Driving equipment 221 can both directly drive driving wheel 2231 and rotate and driving gear 2232 be driven to rotate, and be also possible to driving and set Standby 221 directly drive driving gear 2232 and driving wheel 2231 are driven to rotate, and can also be driving equipment 221 while directly driving Driving wheel 2231 and driving gear 2232 rotate.

It will also be appreciated that driving gear 2232 and rack gear 120 cooperate, the climbing energy of power plant module 200 can be increased Power facilitates power plant module 200 and smoothly runs.

It is also desirable to which explanation, track structure 100 can have at least two installation conditions, one is horizontally disposed (i.e. horizontal segment), secondly to be obliquely installed (i.e. upward slope section or lower slope section).In horizontal segment, setting rack gear 120, power are not needed The driving wheel 2231 of module 200 is directly moved along support portion 113.In climb and fall section, track structure 100 is provided with rack gear 120, The driving gear 2232 being arranged on power plant module 200 is engaged with rack gear 120, increases line walking by the engagement of gear and rack gear 120 The frictional force when climbing capacity and increase descending of robot.

That is, horizontal segment operation when, driving wheel 2231 along support portion 113 run, tilting section (go up a slope or under Slope) operation when, driving gear 2232 engaged with rack gear 120 and with motor vehicles bodies 210 operation.Further, when horizontal segment is run, Driving wheel 2231 lands, and driving gear 2232 is hanging；In tilting section operation, driving gear 2232 lands to be cooperated with rack gear 120, Driving wheel 2231 is hanging.

Optionally, driving wheel 2231 and driving gear 2232 are coaxially disposed, and driving assembly 220 further includes synchronous belt 2233, Driving equipment 221 is sequentially connected by synchronous belt 2233 and driving wheel 2231 and driving gear 2232.

Optionally, the quantity of driving wheel 2231 and driving gear 2232 can be two, and driving assembly 220 further includes tensioning Wheel 2234, synchronous belt 2233 are sheathed on driving equipment 221, tensioning wheel 2234 and two driving wheels 2231 and driving gear 2232 On.

Optionally, the quantity of driving assembly 220 can be even number more than or equal to two, and 220 liang of two-phases of driving assembly It is set to the two sides of car body 210 over the ground, driving wheel group 223 is located at the both ends of interconnecting piece 112 and matches with support portion 113 It closes.Certainly, the quantity of driving assembly 220220 is also not limited to this, and in other embodiments, driving assembly 220220 can be with It is configured according to actual environment, quantity can be odd number, or even number.

Optionally, power plant module 200 further includes the first directive wheel 230, and the first directive wheel 230 is set to the two of car body 210 End.

Optionally, power plant module 200 further includes the second directive wheel 240, and the second directive wheel 240 is installed on car body 210 and leans on Nearly driving assembly 220 is arranged.

It is understood that the quantity of the first directive wheel 230 and the second directive wheel 240 can be to be multiple, in multiple positions It sets and power plant module 200 is oriented to.

Optionally, driving wheel 2231 is rubber wheel, and the first directive wheel 230 and the second directive wheel 240 all have certain elasticity.

Optionally, track structure 100 further includes mounting assembly 130, and mounting assembly 130 is connect with limiting section 111.Installation group Part 130 is for installing and trapped orbit ontology 110.

Optionally, mounting assembly 130 includes installation part 131, regulating part 132 and fixing piece 133, installation part 131 and limit Portion 111 is slidably connected, and regulating part 132 is slidably connected with installation part 131, and fixing piece 133 is connect with regulating part 132.

It is understood that regulating part 132 is cooperated by installation part 131 and track ontology 110, and regulating part can be passed through Being slidably connected between 132 and installation part 131 and limiting section 111 realizes the position adjustment of track ontology 110.Meanwhile installation part Adjustment between 131 and limiting section 111 should be provided with limiting slot 1115 along the direction of limiting section 111 on limiting section 111 When, the adjustment direction of installation part 131 is the extending direction of limiting slot 1115；The adjustment direction of regulating part 132 and pass through limiting section The 111 angled settings of adjustment direction being adjusted, adjustment when guaranteeing to different location.Optionally, above-mentioned two Adjustment position is mutually perpendicular to, further to facilitate track structure 100 to install.

Limiting section 111 is used for attachment rail ontology 110, and can be carried out on position by limiting section 111 during installation Adjustment, and then be easily installed.Interconnecting piece 112 is used to connect limiting section 111 and support portion 113, and close to the one of support portion 113 End setting routing hole 101.Routing hole 101 is for being routed, to form the composite orbit for integrating communication and function of supplying power.Support Portion 113 is for being supported the driving assembly 220 of power plant module 200, so that driving assembly 220 drives along support portion 113 Car body 210 moves.Wherein, driving equipment 221 is used to provide power, driving wheel group 223 and support portion 113 for driving wheel group 223 Cooperation, to drive its movement when driving equipment 221 works.It is flat that the operation of power plant module 200 can be improved using track structure 100 Stability and routing inspection efficiency can also guarantee to communicate simultaneously and power；The structure of track structure 100 itself and installation are also simple, square Just.

Modularization crusing robot 10 provided in this embodiment the utility model has the advantages that track structure 100 be used for power plant module 200 and slave module 300 provide support so that power plant module 200 is able to drive slave module 300 and moves along track structure 100. Wherein, control module 250 is used to control the motion state of driving assembly 220, and car body 210 is for installing control module 250 and driving Dynamic component 220.Slave module 300 is used for for installing or being arranged detection module 400, detection module 400 to parameter to be detected The parameter for being detected, and being will test is transmitted to control module 250.Modularization crusing robot 10 provided in this embodiment is adopted With modular setting, convenient for the combination and exchange of function；Union communication and function of supplying power can guarantee that modularization is patrolled in one Inspection robot 10 run smoothly and routing inspection efficiency.

The present embodiment also provides a kind of crusing robot system (not shown) including above-mentioned modularization crusing robot 10, In addition to the above-mentioned modularization crusing robot 10 being related to, crusing robot system can also include Background control terminal, such as on Position machine；The parameter that the Background control terminal is used to detect detection module 400 is handled, such as display or analysis etc..

The above descriptions are merely preferred embodiments of the present invention, is not intended to limit the utility model, for this For the technical staff in field, various modifications and changes may be made to the present invention.It is all in the spirit and principles of the utility model Within, any modification, equivalent replacement, improvement and so on should be included within the scope of protection of this utility model.

Claims (10)

1. a kind of modularization crusing robot, which is characterized in that including track structure, power plant module, slave module and detection mould Block；

The power plant module includes control module, car body and driving assembly, and the driving component includes driving equipment and driving wheel Group, the driving equipment are electrically connected with the control module, and the driving equipment and the driving wheel group are sequentially connected, the drive Driving wheel group is installed on the car body；

The slave module is set on the car body and is slidably connected with the track structure, and the detection module is set to institute It states on slave module and is communicated to connect with the control module, the driving wheel group and the track structure cooperate, dynamic to drive Power module and slave module movement.

2. modularization crusing robot according to claim 1, which is characterized in that the slave module includes multiple driven Vehicle, two neighboring described from hingedly, the detection module includes multiple detection sensors between motor-car, multiple detections sensings Device is communicated to connect with the control module, and multiple detection sensors be respectively arranged at it is multiple described from motor-car.

3. modularization crusing robot according to claim 2, which is characterized in that multiple detection sensors with it is described Control module is connected by bus communication.

4. modularization crusing robot described in any one of -3 according to claim 1, which is characterized in that the track structure Including track ontology, the track ontology includes limiting section, interconnecting piece and support portion, and the both ends of the interconnecting piece are respectively arranged at The limiting section and the support portion, the interconnecting piece are provided with routing hole, the driving wheel close to the end of the support portion Group can be moved along the support portion.

5. modularization crusing robot according to claim 4, which is characterized in that the track structure further includes rack gear, The rack gear is installed on the support portion；

The driving wheel group includes driving wheel and driving gear, and the driving wheel and the driving gear are sequentially connected, the drive Dynamic equipment and the driving wheel and/or the driving gear are sequentially connected, and the driving gear can be engaged with the rack gear.

6. modularization crusing robot according to claim 5, which is characterized in that the driving wheel and the driving gear Coaxial arrangement, the driving component further includes synchronous belt, and the driving equipment passes through the synchronous belt and the driving wheel and institute State driving gear transmission connection.

7. modularization crusing robot according to claim 4, which is characterized in that the track structure further includes installation group Part, the mounting assembly are connect with the limiting section.

8. modularization crusing robot according to claim 7, which is characterized in that the mounting assembly include installation part, Regulating part and fixing piece, the installation part are slidably connected with the limiting section, and the regulating part is slidably connected with the installation part, The fixing piece is connect with the regulating part.

9. modularization crusing robot according to claim 1, which is characterized in that the power plant module further includes first leading To wheel and the second directive wheel, first directive wheel is set to the both ends of the car body, and second directive wheel is installed on described Car body is simultaneously arranged close to the driving component.

10. a kind of crusing robot system, which is characterized in that including the modularization as described in any one of claim 1-9 Crusing robot.