CN109693747A - A kind of swing type balanced robot and balanced robot's control method - Google Patents

Abstract

The present invention provides a kind of swing type balanced robot and balanced robot's control method, is related to balance car field, swing type balanced robot includes at least one mechanical arm and load bearing equipment.Mechanical arm includes pendulous device and electric control gear, and electric control gear is connect with pendulous device, and pendulous device is connected to dismounting base station, pendulous device can electric control gear control lower swing and drive load bearing equipment mobile.Compared to the prior art, a kind of swing type balanced robot provided by the invention avoids user and contacts with the direct of load bearing equipment, has ensured the safety of user while having made the operation of load bearing equipment more convenient.

Description

A kind of swing type balanced robot and balanced robot's control method

Technical field

The present invention relates to balance car fields, in particular to a kind of swing type balanced robot and balanced robot Control method.

Background technique

With the development of the society, balance car gradually enters into daily life.Balance car is called body-sensing vehicle, thinking Vehicle, operation principles are mainly built upon in the basic principle of a kind of " dynamic stability ", utilize the gyroscope of carrying body interior And acceleration transducer, to detect the variation of carrying ontology posture, and accurately driving motor carries out using servo-control system Corresponding adjustment, to guarantee the balance of carrying ontology.

Currently, there are two types of the control modes of balance car: first, an operating stick is equipped on carrying ontology, user station exists It carries and operating stick is operated on the foot platform of ontology, to realize the advance of carrying ontology in a manner of " manual control ", retreat And stop, still, operating stick increases the weight of whole machine balancing vehicle, is unfavorable for carrying；Second, in the foot-operated area of carrying ontology Domain is equipped with control pedal, and user is different by exerting a force to control pedal front and back end, i.e., carrying ontology is realized in a manner of " foot control " Advance, retrogressing, turning and stopping.No matter which kind of implementation, be required to user and directly contact with balance car to control Balance car.It investigates and finds through inventor, under certain special screnes, need balance car to execute some special duties, such as need It wants balance car to enter some narrow regions or balance car to be placed into some specific regions, it is straight not to need people at this time It connects and is in contact with balance car, and existing balance car often can not be moved automatically departing from the direct contact of people.

In view of this, designing and manufacturing a kind of direct contact that can be detached from user, and come real by way of remote control The balance car now controlled is just particularly important.

Summary of the invention

The purpose of the present invention is to provide a kind of pendular robots, and load bearing equipment is enabled to be detached from the direct of user It contacts and realizes and operate normally.

Another object of the present invention is to provide a kind of balanced robot's control methods, are controlled by control pendulous device The traveling of load bearing equipment avoids user and contacts with the direct of load bearing equipment, easy to operate, safer.

The present invention is that it is realized by adopting the following technical scheme.

A kind of swing type balanced robot, including at least one mechanical arm and load bearing equipment, mechanical arm include pendulous device With electric control gear, pendulous device is connect with load bearing equipment, and electric control gear is connect with pendulous device, and pendulous device can be in electric control gear Control lower swing and drive load bearing equipment mobile.

Further, mechanical arm further includes dismounting base station, and dismounting base station is removably attachable to load bearing equipment, electric control gear On dismounting base station, pendulous device is connected to dismounting base station for setting；Pendulous device includes master pendulum arm, swings section and Quality Initiative, main One end of swing arm is articulated with dismounting base station, swings section and is articulated with the one end of master pendulum arm far from dismounting base station, one end of Quality Initiative with Electric control gear connection, the other end are fixedly connected with swing section and swing section respectively, and master pendulum arm under the control of Quality Initiative for selecting It is rotated relative to dismounting base station to selecting property, swing is saved selectively to be rotated relative to master pendulum arm under the control of Quality Initiative.

Further, swinging section includes multiple successively hinged joints, and two joints of arbitrary neighborhood can relatively rotate.

Further, pendulous device further includes mass block, and mass block is removably attachable to swing and save far from master pendulum arm One end.

Further, electric control gear includes automatically controlled chip, driving motor and signal receiving module, automatically controlled chip, driving electricity Machine and signal receiving module are fixed on dismounting base station, and automatically controlled chip and driving motor are electrically connected.Signal receives Module and automatically controlled chip are electrically connected, and driving motor is connect with pendulous device, for driving pendulous device to swing.

Further, load bearing equipment includes carrying ontology, the pedal that can be rotated relative to load bearing equipment and being articulated in carrying The roll wheel assembly of ontology two sides, pedal include the first driving plate and the second driving plate, and the first driving plate and the second driving plate are distinguished It is set to the both ends of carrying ontology and is connect with driving assembly, the first driving plate can control independently of each other with the second driving plate It is articulated in the roll wheel assembly of carrying ontology two sides；Mechanical arm is two, and two mechanical arms are connected to the first driving plate and the Two driving plates, to drive the first driving plate and the second driving plate to rotate respectively.

Further, swing type balanced robot further includes remote control device, and remote control device and electric control gear communicate to connect, with Pendulous device is controlled by electric control gear.

A kind of balanced robot's control method, is applied to swing type balanced robot, and swing type balanced robot includes extremely A few mechanical arm and load bearing equipment, load bearing equipment include carry ontology, can opposite carrying ontology rotate pedal, driving group Part and the roll wheel assembly for being articulated in carrying ontology two sides, pedal setting connect on carrying ontology and with driving assembly, drive Component is placed in carrying ontology and connect with roll wheel assembly, and driving assembly is used to drive roll wheel assembly to turn under the drive of pedal It is dynamic.Mechanical arm includes dismounting base station, pendulous device and electric control gear, and dismounting base station is removably attachable to pedal, electric control gear Setting is connect on dismounting base station and with pendulous device, and pendulous device is connected to dismounting base station, and pendulous device can be in electric control gear Control under swing around dismounting base station and pedal driven to rotate, balanced robot's control method includes:

Receiving step: it is received by electric control gear and swings command information；

Swing step: electric control gear is swung according to command information driving pendulous device is swung；

Rotate step: pendulous device drives pedal rotation, and roll wheel assembly rotates under the drive of pedal.

Further, balanced robot's control method further include:

Sending step: operational order is identified by remote control device and generates swing command information, remote control device refers to swing Information is enabled to be sent to electric control gear.

Further, remote control device includes signal transmitting module, electric control gear include signal receiving module, automatically controlled chip and Driving motor, signal transmitting module send to signal receiving module and swing command information, and signal receiving module receives swing and refers to Command information will be swung after information by, which enabling, is transferred to automatically controlled chip, automatically controlled chip receives swing command information after generate swing information And it is transferred to driving motor, driving motor receives swing information rear-guard and moves pendulous device swing.

The invention has the following advantages:

Dismounting base station is removably mounted on carrying ontology by a kind of swing type balanced robot provided by the invention, Pendulous device is connect with dismounting base station.In actual use, electric control gear driving pendulous device is swung, so that tearing open Dress base station can be rotated, and the load bearing equipment connecting with dismounting base station bottom is moved with the rotation of dismounting base station.Compared to The prior art, a kind of swing type balanced robot provided by the invention control pendulous device by electric control gear and swing, and then control The movement of load bearing equipment processed avoids user and contacts with the direct of load bearing equipment, has ensured the safety of user while having made The operation of load bearing equipment is more convenient.

The present invention also provides a kind of balanced robot's control methods, applied to above-mentioned swing type balanced robot, benefit It is received with electric control gear and swings command information and pendulous device is driven to swing, the swing of pendulous device drives pedal rotation, makes Roll wheel assembly is obtained to rotate under the drive of pedal.Compared to the prior art, a kind of balanced robot's controlling party provided by the invention Method, it is easy to operate, it avoids user and is contacted with the direct of balance car.

Detailed description of the invention

In order to illustrate the technical solution of the embodiments of the present invention more clearly, below will be to needed in the embodiment attached Figure is briefly described, it should be understood that the following drawings illustrates only certain embodiments of the present invention, therefore is not construed as pair The restriction of range for those of ordinary skill in the art without creative efforts, can also be according to this A little attached drawings obtain other relevant attached drawings.

Fig. 1 is the overall structure diagram for the swing type balanced robot that first embodiment of the invention provides；

Fig. 2 is the attachment structure schematic diagram of pendulous device in Fig. 1；

Fig. 3 is the connection block diagram of electric control gear in Fig. 1；

Fig. 4 is the step schematic diagram for balanced robot's control method that second embodiment of the invention provides.

Icon: 10- swing type balanced robot；100- mechanical arm；110- dismounts base station；130- pendulous device；131- master Swing arm；133- swings section；135- Quality Initiative；137- mass block；150- electric control gear；151- signal receiving module；153- is automatically controlled Chip；155- driving motor；200- load bearing equipment；210- carries ontology；230- pedal；250- roll wheel assembly；300- remote control dress It sets.

Specific embodiment

In order to make the object, technical scheme and advantages of the embodiment of the invention clearer, below in conjunction with the embodiment of the present invention In attached drawing, technical scheme in the embodiment of the invention is clearly and completely described, it is clear that described embodiment is A part of the embodiment of the present invention, instead of all the embodiments.The present invention being usually described and illustrated herein in the accompanying drawings is implemented The component of example can be arranged and be designed with a variety of different configurations.

Therefore, the detailed description of the embodiment of the present invention provided in the accompanying drawings is not intended to limit below claimed The scope of the present invention, but be merely representative of selected embodiment of the invention.Based on the embodiments of the present invention, this field is common Technical staff's every other embodiment obtained without creative efforts belongs to the model that the present invention protects It encloses.

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 noted that term " center ", "upper", "vertical", "horizontal", "inner", "outside" The orientation or positional relationship of equal instructions is to be based on the orientation or positional relationship shown in the drawings or when invention product uses is used The orientation or positional relationship often put, is merely for convenience of description of the present invention and simplification of the description, rather than indication or suggestion is signified Device or element must have a particular orientation, be constructed and operated in a specific orientation, therefore should not be understood as to the present invention Limitation.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 is also necessary to which explanation is unless specifically defined or limited otherwise, term " setting ", " connected ", " installation ", " connection " shall be understood in a broad sense, for example, it may be fixedly connected, may be a detachable connection or one Connect to body；It can be mechanical connection, be also possible to be electrically connected；It can be directly connected, it can also be indirect by intermediary It is connected, can be the connection inside two elements.For the ordinary skill in the art, on being understood with concrete condition State the concrete meaning of term in the present invention.

With reference to the accompanying drawing, it elaborates to some embodiments of the present invention.In the absence of conflict, following Feature in embodiment can be combined with each other.

First embodiment

Referring to Fig. 1, the present embodiment provides a kind of swing type balanced robots 10, including at least one mechanical arm 100, carrying Equipment 200 and remote control device 300, mechanical arm 100 is removably mounted on load bearing equipment 200, for controlling load bearing equipment 200 movements.Remote control device 300 is separately provided and communicates to connect with mechanical arm 100, is swung for controlling mechanical arm 100, from And control the movement of load bearing equipment 200.Specifically, load bearing equipment 200 is a balance car.

In the present embodiment, remote control device 300 be a mobile phone be not restricted to this certainly, be also possible to bracelet or Other remote control devices 300 such as remote control panel, are not specifically limited herein.

It should be noted that in the present embodiment, controlling mechanical arm 100 by remote control device 300 and being swung, changed The position of centre of gravity of mechanical arm 100, and mechanical arm 100 is removably mounted on load bearing equipment 200,100 position of centre of gravity of mechanical arm The i.e. changeable load bearing equipment 200 of change motion state.

Load bearing equipment 200 includes carrying ontology 210, (can scheme relative to pedal 230, the driving assembly of the carrying rotation of ontology 210 Do not show) and be articulated in carrying 210 two sides of ontology roll wheel assembly 250, pedal 230 setting carrying ontology 210 on and with drive Dynamic component connection, driving assembly are placed in carrying ontology 210 and connect with roll wheel assembly 250, and driving assembly is used in pedal Roll wheel assembly 250 is driven to rotate under 230 drive.

Particularly, mechanical arm 100 can be for can also be with integral structure, and structure is similar to human limb, is moved by bionical Make, such as human body leg and arm sequence, the rotation of Lai Shixian pedal 230.And roll wheel assembly 250 can be according to pedal The angles of 230 rotations adjust itself velocity of rotation.

Pedal 230 includes the first driving plate (unlabeled in figure) and the second driving plate (unlabeled in figure), the first driving plate The both ends of carrying ontology 210 are respectively arranged at the second driving plate and are connect with driving assembly, and driving assembly can drive first Control is articulated in the roll wheel assembly 250 of carrying 210 two sides of ontology independently of each other under the drive of movable plate and the second driving plate.Simultaneously Mechanical arm 100 is two, and two mechanical arms 100 are connected to the first driving plate and the second driving plate, to drive first respectively Driving plate and the second driving plate rotate.

It is worth noting that, pedal 230 is also possible to one piece of whole driving plate herein, the number of mechanical arm 100 at this time It can be one, mechanical arm 100 is connect with the pedal 230, drives the pedal 230 rotation by mechanical arm 100, can also be with Realize the movement of load bearing equipment 200.

In the present embodiment, roll wheel assembly 250 is two, is articulated in the two sides of carrying ontology 210, driving assembly respectively It is two, respectively correspondingly controls two roll wheel assemblies 250.Each roll wheel assembly 250 includes the fixed fixing axle of stator and mover Driving disorderly, one end of stator fixing axle protrude into carrying ontology 210 in and with carrying ontology 210 connect, stator fixing axle it is another End is pivotally connected with mover driving wheel, so that mover driving wheel can the rotation of relative stator fixing axle.Two driving assemblies respectively with two Mover driving wheel is electrically connected, and each driving assembly can be to corresponding mover driving wheel output driving under the drive of pedal 230 Signal.In actual use, mechanical arm 100, which is equivalent to, is mounted on roll wheel assembly 250, to eliminate carrying ontology The whole driving method of interference of 210 equilibrium state to driving assembly output signal, i.e. load bearing equipment 200 only receives driving assembly The adjustment signal source of relative level plane stimulates.Therefore, mechanical arm 100 only needs that pedal 230 is driven to rotate, and makes its relative level Plane generates slanted angle and driving assembly is driven to issue driving signal to corresponding mover driving wheel, obtains corresponding traveling State.

Specifically, driving assembly includes that level board, two elastic components and control system, level board are set to carrying ontology In 210 and it is rotatably connected at stator fixing axle, two elastic components are respectively arranged at both ends of level board and optionally It is connected to the inner wall of carrying ontology 210, control system is electrically connected to mover driving wheel, when level board relative stator fixing axle rotates And when generating rotation inclination angle output drive signal to mover driving wheel.The elasticity when level board and horizontal plane generate rotation inclination angle Part is just connected to the inner wall of carrying ontology 210, and when level board and horizontal plane generate when rotating inclination angle, control system is with level board It moves together, so that output drive signal realizes the rotation acceleration of mover driving wheel, so that water to corresponding mover driving wheel Plate, which has, obtains the trend parallel with horizontal plane, and the elastic component limit levels plate set on level board front-end and back-end is opposite to be held The rotational angle of ontology 210 is carried, so that it will not relative level planes to generate high inclination-angle angle.

Preferably, in the present embodiment, elastic component is a spring, carries this using the elastic restriction level plate of spring is opposite The rotation of body 210.

Preferably, control system is set to below level board, and is rotated therewith, and is not restricted to this certainly, can also To be set to level board other positions, as long as being able to detect that the position of the inclination angle angle of level board relative level plane in this hair Within bright protection scope.There is a sensor, the angle for sensation level plate relative level plane in control system.

In the present embodiment, due to carrying ontology 210 and the relatively turnable connection type of driving assembly, so that driving group The angle of part and horizontal plane can be substantially eliminated when reducing because rotation bring user loses center of gravity to carrying ontology 210 suddenly Effect has ensured the safety of driving so that it is more steady to slow down.

The specific implementation process is as follows: when two mechanical arms 100 turn forward, trigger corresponding in carrying ontology 210 Level board, so that two level boards generate the angle to turn forward with horizontal plane, two level boards then drive corresponding control system phase Forward inclination angle is occurred to carrying ontology 210, two level boards is detected positioned at the sensor of control system and leans forward motor message, this When, driving signal to the respective mover driving wheel that the output of two control systems rotates forward synchronizes previous rotating forward, integrated carrying equipment 200 to Preceding movement.It is understood that integrated carrying equipment 200 moves backward when two mechanical arms 100 retreat.When left side water When plate relative level plane slanted angle is greater than right side level board relative level plane slanted angle, the output of left side control system Quick rotation signal is to left side mover driving wheel, so that the mover driving wheel rotation in left side is faster, control system output in right side is slow Fast turn signal is to right side mover driving wheel, so that the mover driving wheel rotation on right side is slower, i.e. the mover driving wheel in left side Speed is greater than the speed of the mover driving wheel on right side, to realize that entire load bearing equipment 200 bends to right.Similarly, work as right side When level board is greater than rotation inclination angle of the left side level board relative to carrying ontology 210 relative to the rotation inclination angle of carrying ontology 210, entirely Load bearing equipment 200 is turned to the left.The load bearing equipment 200 is realized by controlling the mover driving wheel of two sides independently of each other to be turned The functions such as curved, advance and retrogressing.

Mechanical arm 100 includes dismounting base station 110, pendulous device 130 and electric control gear 150, and dismounting base station 110 is removably It is connected to pedal 230, the setting of electric control gear 150 is connect on dismounting base station 110 and with pendulous device 130, and pendulous device 130 connects It is connected to dismounting base station 110, pendulous device 130 can swing around dismounting base station 110 under the control of electric control gear 150 and drive pedal 230 rotations.

Referring to fig. 2, pendulous device 130 includes master pendulum arm 131, swings section 133, Quality Initiative 135 and mass block 137, main pendulum One end of arm 131 is articulated with dismounting base station 110, swings section 133 and is articulated with the one end of master pendulum arm 131 far from dismounting base station 110.Control One end of chain 135 processed is connect with electric control gear 150, and the other end is fixedly connected with swing section 133 and swing section 133 respectively.Main pendulum Arm 131 is used under the control of Quality Initiative 135 selectively rotate relative to dismounting base station 110, swings section 133 in Quality Initiative It is selectively rotated relative to master pendulum arm 131 under 135 control.Mass block 137 is removably attachable to swing section 133 far from main pendulum One end of arm 131.

It should be noted that 137 shape of mass block herein is not construed as limiting, and mass block 137 and swing section 133 can herein Dismantling connection, weight can select according to actual needs, and the presence of mass block 137 makes the adjustment speed of pendulous device 130 Faster, and controllability is higher.

Swinging section 133 includes multiple successively hinged joints, and two joints of arbitrary neighborhood can relatively rotate.In this implementation In example, the number in joint is two, and two joints can relatively rotate, and one of joint is hinged on master pendulum arm 131 far from tearing open One end of base station 110 is filled, another is detachably connected with mass block 137.

It is worth noting that, the number in joint is not restricted to two herein, it is also possible to three, four or five Deng when the number when joint is more, then illustrating that the control precision of the pendulous device 130 is higher.It can be according to practical demand for control It selects the number in joint, is not specifically limited herein.

Referring to Fig. 3, electric control gear 150 includes automatically controlled chip 153, driving motor 155 and signal receiving module 151, automatically controlled Chip 153, driving motor 155 and signal receiving module 151 be fixed at dismounting base station 110 on, and automatically controlled chip 153 with Driving motor 155 is electrically connected.Signal receiving module 151 and automatically controlled chip 153 are electrically connected, and driving motor 155 and swing fill 130 connections are set, for driving pendulous device 130 to swing.Remote control device 300 and electric control gear 150 communicate to connect, by automatically controlled Device 150 controls pendulous device 130.

In actual use, signal receiving module 151 receives the command signal from remote control device 300, and should Command signal is sent to automatically controlled chip 153, and automatically controlled chip 153 receives the control driving pendulum of driving motor 155 after the command signal Dynamic device 130 is swung, and realizes the change of swing arm entirety position of centre of gravity, so that pedal 230 be driven to rotate, driving assembly is in pedal Roll wheel assembly 250 is driven to rotate under 230 drive.

In conclusion present embodiments providing a kind of swing type balanced robot 10, two mechanical arms 100 are separately connected In the first driving plate and the second driving plate, by individually controlling two mechanical arms 100, it can be achieved that load bearing equipment 200 The move modes such as advance, retrogressing and turning, while the change of 100 position of centre of gravity of mechanical arm is controlled by electric control gear 150 Pendulous device 130 processed is swung to realize.In actual use, electric control gear 150 is controlled by remote control device 300 Driving pendulous device 130 is swung, and the function of control load bearing equipment 200 is realized.Compared to the prior art, the present invention provides A kind of swing type balanced robot 10, by remote control device 300 control electric control gear 150 drive pendulous device 130 put It moves to realize the control to load bearing equipment 200, avoids user and contacted with the direct of load bearing equipment 200, so that load bearing equipment 200 can execute some special duties.Swing arm can also be disassembled from load bearing equipment 200 simultaneously, so that user can be with It rides as normal load bearing equipment 200.

Second embodiment

Referring to fig. 4, the present embodiment provides a kind of balanced robot's control methods, are applied to swing type balanced robot 10, Wherein the basic structure with principle of swing type balanced robot 10 and the technical effect of generation are identical with first embodiment, are brief Description, the present embodiment part do not refer to place, can refer to corresponding contents in first embodiment.

Swing type balanced robot 10 includes at least one mechanical arm 100 and load bearing equipment 200, and load bearing equipment 200 wraps Include carrying ontology 210, can opposite carrying ontology 210 rotate pedal 230, driving assembly and be articulated in and carry 210 liang of ontology The roll wheel assembly 250 of side, the setting of pedal 230 are connect on carrying ontology 210 and with driving assembly, and driving assembly is placed in carrying It is connect in ontology 210 and with roll wheel assembly 250, driving assembly is used to drive 250 turns of roll wheel assembly under the drive of pedal 230 It is dynamic.Mechanical arm 100 includes dismounting base station 110, pendulous device 130 and electric control gear 150, and dismounting base station 110 is detachably connected In pedal 230, the setting of electric control gear 150 is connect on dismounting base station 110 and with pendulous device 130, and pendulous device 130 is connected to Base station 110 is dismounted, pendulous device 130 can swing around dismounting base station 110 under the control of electric control gear 150 and drive pedal 230 Rotation, balanced robot's control method include:

Sending step S501: operational order is identified by remote control device 300 and generates swing command information, remote control device 300 are sent to electric control gear 150 for command information is swung.

In the present embodiment, remote control device 300 includes signal transmitting module, and electric control gear 150 includes signal receiving module 151, automatically controlled chip 153 and driving motor 155, the fixation of automatically controlled chip 153, driving motor 155 and signal receiving module 151 are set It sets on dismounting base station 110, and automatically controlled chip 153 and driving motor 155 are electrically connected.

In the present embodiment, user inputs to remote control device 300 and swings command information, and signal transmitting module connects to signal It receives module 151 and sends swing command information.

Receiving step S503: it is received by electric control gear 150 and swings command information.

In the present embodiment, swing command information is transferred to by signal receiving module 151 after receiving swing command information Automatically controlled chip 153.

Swing step S505: electric control gear 150 is swung according to command information driving pendulous device 130 is swung.

Automatically controlled chip 153 generates swing information after receiving swing command information and is transferred to driving motor 155, driving electricity Machine 155 receives swing information rear-guard and moves the swing of pendulous device 130.

Rotate step S507: pendulous device 130 drives pedal 230 to rotate, and roll wheel assembly 250 is under the drive of pedal 230 Rotation.

Specifically, the rotation of pedal 230 drives driving assembly way roller component 250 to send driving signal, so that roller group Part 250 can also rotate under the drive of pedal 230.

In conclusion a kind of balanced robot's control method is present embodiments provided, for controlling described in first embodiment Swing type balanced robot 10, operating method is simple, avoids user and directly contacts load bearing equipment 200.In practical operation In the process, user only need handheld remote control device 300 and be manually entered swing command information can operate load bearing equipment 200 progress Movement, the operational order of user can be transferred to last roll wheel assembly 250 well, very convenient.Compared to the prior art, A kind of balanced robot's control method provided in this embodiment realizes control load bearing equipment 200 by the swing of pendulous device 130 Effect, avoid user and directly contact load bearing equipment 200, while is easy to operate, very convenient.

The foregoing is only a preferred embodiment of the present invention, is not intended to restrict the invention, for the skill of this field For art personnel, the invention may be variously modified and varied.All within the spirits and principles of the present invention, made any to repair Change, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.

Claims (10)

1. a kind of swing type balanced robot, which is characterized in that including at least one mechanical arm and load bearing equipment, the mechanical arm Including pendulous device and electric control gear, the pendulous device is connect with the load bearing equipment, the electric control gear and the swing Device connection, the pendulous device can the electric control gear control lower swing and drive the load bearing equipment mobile.

2. swing type balanced robot according to claim 1, which is characterized in that the mechanical arm further includes dismounting base Platform, the dismounting base station are removably attachable to the load bearing equipment, and the electric control gear is arranged on the dismounting base station, institute It states pendulous device and is connected to the dismounting base station；The pendulous device includes master pendulum arm, swings section and Quality Initiative, the master pendulum arm One end be articulated with the dismounting base station, the section that swings is articulated with the one end of the master pendulum arm far from the dismounting base station, institute The one end for stating Quality Initiative is connect with the electric control gear, and the other end is fixedly connected with swing section and swing section respectively, The master pendulum arm be used under the control of the Quality Initiative selectively relative to the dismounting base station rotate, it is described swing save in It is selectively rotated relative to the master pendulum arm under the control of the Quality Initiative.

3. swing type balanced robot according to claim 2, which is characterized in that the swing section is successively cut with scissors including multiple The joint connect, two joints of arbitrary neighborhood can relatively rotate.

4. swing type balanced robot according to claim 2 or 3, which is characterized in that the pendulous device further includes matter Gauge block, the mass block are removably attachable to described swing and save one end far from the master pendulum arm.

5. swing type balanced robot according to claim 2, which is characterized in that the electric control gear includes automatically controlled core Piece, driving motor and signal receiving module, the fixation of the automatically controlled chip, the driving motor and the signal receiving module are set It sets on the dismounting base station, and the automatically controlled chip and the driving motor are electrically connected, the signal receiving module and institute It states automatically controlled chip to be electrically connected, the driving motor is connect with the pendulous device, for driving the pendulous device to swing.

6. swing type balanced robot according to claim 1, which is characterized in that the load bearing equipment includes carrying this Body, the pedal that can be rotated relative to the load bearing equipment and the roll wheel assembly for being articulated in the carrying ontology two sides, the pedal Including the first driving plate and the second driving plate, first driving plate and second driving plate are respectively arranged at the carrying originally The both ends of body are simultaneously connect with the driving component, and first driving plate can control independently of each other with second driving plate It is articulated in the roll wheel assembly of the carrying ontology two sides；The mechanical arm is two, and two mechanical arms are separately connected In first driving plate and second driving plate, to drive first driving plate and second driving plate to turn respectively It is dynamic.

7. swing type balanced robot according to claim 1, which is characterized in that the swing type balanced robot also wraps Remote control device is included, the remote control device and the electric control gear communicate to connect, to control the swing by the electric control gear Device.

8. a kind of balanced robot's control method, which is characterized in that be applied to swing type balanced robot, the swing type balance Robot includes at least one mechanical arm and load bearing equipment, and the load bearing equipment includes carrying ontology, can the relatively described carrying Pedal, driving assembly and the roll wheel assembly for being articulated in the carrying ontology two sides of ontology rotation, the pedal are arranged in institute State on carrying ontology and connect with the driving component, the driving component be placed in the carrying ontology it is interior and with the idler wheel Component connection, the driving component under the drive of the pedal for driving the roll wheel assembly to rotate；The mechanical arm packet It includes dismounting base station, pendulous device and electric control gear, the dismounting base station and is removably attachable to the pedal, the electric control gear It is arranged on the dismounting base station and is connect with the pendulous device, the pendulous device is connected to the dismounting base station, described Pendulous device can swing around the dismounting base station under the control of the electric control gear and the pedal is driven to rotate, the balance Robot control method includes:

Receiving step: it is received by the electric control gear and swings command information；

Swing step: the electric control gear drives pendulous device to swing according to the swing command information；

Rotate step: the pendulous device drives the pedal rotation, and the roll wheel assembly rotates under the drive of the pedal.

9. balanced robot's control method according to claim 8, which is characterized in that balanced robot's control method Further include:

Sending step: identifying operational order by remote control device and generate the swing command information, and the remote control device is by institute It states swing command information and is sent to the electric control gear.

10. balanced robot's control method according to claim 9, which is characterized in that the remote control device includes signal Sending module, the electric control gear include signal receiving module, automatically controlled chip and driving motor, and the signal transmitting module is to institute It states signal receiving module and sends swing command information, the signal receiving module will be described after receiving the swing command information It swings command information and is transferred to the automatically controlled chip, the automatically controlled chip generates the pendulum after receiving the swing command information Dynamic information is simultaneously transferred to the driving motor, and the driving motor drives the pendulous device to put after receiving the swing information It is dynamic.