CN207168932U - Suitable for the hobbing-type cycling intelligent modelling system of children - Google Patents
Suitable for the hobbing-type cycling intelligent modelling system of children Download PDFInfo
- Publication number
- CN207168932U CN207168932U CN201620384689.7U CN201620384689U CN207168932U CN 207168932 U CN207168932 U CN 207168932U CN 201620384689 U CN201620384689 U CN 201620384689U CN 207168932 U CN207168932 U CN 207168932U
- Authority
- CN
- China
- Prior art keywords
- hobbing
- power
- electric energy
- roller
- children
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Landscapes
- Electric Propulsion And Braking For Vehicles (AREA)
Abstract
It the utility model is related to the hobbing-type cycling intelligent modelling system suitable for children, including the load of hobbing-type bike riding-balance simulator, intelligent controlling device, device for converting electric energy, power-adjustable and mobile terminal;Hobbing-type bike riding-balance simulator includes bascule and drum apparatus, and drum apparatus includes frame, roller and flying wheel, and flying wheel is connected transmission with roller.The system can drive roller to rotate in transition region using the inertia of flying wheel, so as to drive bicycle rear to rotate, substantially reduce the external diameter and quality of roller, not only reduce the centre-of-gravity of bicycle, children, old man and beginner is set to have more the sense of security, and it is convenient for carrying and stores, in addition the system can also carry out real-time display to parameter of riding, and parameter of riding can be configured by mobile terminal, it is connected by mobile terminal with other analogue means and is together played or competed, is had interesting and recreational.
Description
Technical field
A kind of body-building apparatus is the utility model is related to, it is more particularly to a kind of matching used suitable for children's with bicycle
Hobbing-type cycling intelligent modelling system.
Background technology
The quick popularization quickly propelled with private car of urbanization, have compressed the place for being available for people to do aerobic exercise, peace
It is complete effectively to do an aerobic exercise, or even one kind extravagant hope as majority.Cycling is exactly good aerobic exercise
One of, and cycling technical ability is easy to learn, and vast majority of people has grasped, but cycles required place and equally also perplex always
The popularization and development of this motion.Chinese patent 201410410244.7 discloses a kind of hobbing-type bike riding-balance simulation
Device, the place needed for the simulator is small, can indoors or outdoor carry out aerobic exercise, but the simulator lack it is interesting, can only
Merely train, can not the various parameters of riding of equipment, more together can not be played or be competed with the fan that rides.
Alternately exerted oneself on bicycle or so pedal in addition, bicycle in actual ride, is both feet in fact
Process, i.e. pedal are using bicycle middle shaft as the center of circle, around four regions (power zone, transition region, power zone, transition region) weight
Do circular motion again, when from a power zone to during next power zone transition it is necessary to the inertia by bicycle moving forward
To complete to seamlessly transit.When bicycle is put on riding-balance simulator, people and Che are without the pace of reality, more
There will not be the inertia to travel forward, the rotatory inertia that at this moment must just take turns rearward carrys out the inertia that analog bicycle travels forward, from
And complete seamlessly transitting for transition region.For existing product in order to simulate real effect of riding as far as possible, roller must possess foot
Enough external diameters and enough weight meet the requirement to rotatory inertia.The external diameter of roller not only results in greatly the weight of simulator
Greatly, it is inconvenient to carry, and external diameter may result in greatly that bicycle rear terrain clearance is big, centre-of-gravity is high, for children, old man
With will produce the feared state of mind for beginner, lack the sense of security.
Utility model content
The purpose of this utility model is to overcome disadvantage mentioned above, there is provided a kind of hobbing-type cycling suitable for children
Intelligent modelling system, the system are provided with flying wheel, and the flying wheel being arranged between frame and roller can be utilized in transition region
Inertia drive roller to rotate, so as to drive bicycle rear to rotate, to complete power zone to another power zone
Seamlessly transit, greatly reduce roller external diameter and quality, not only reduce bicycle centre-of-gravity, make children, old man and just
Scholar has more the sense of security, and is convenient for carrying and stores, and the system is additionally provided with intelligent controlling device in addition, can enter with mobile terminal
Row connection, to riding, parameter carries out real-time display, and parameter of riding can be configured by mobile terminal, passes through mobile terminal
It is connected with other analogue means and is together played or competed, is had interesting and recreational.
What the utility model was realized in:A kind of hobbing-type cycling intelligent modelling system suitable for children,
Characterized in that, the system includes:
Hobbing-type bike riding-balance simulator, is respectively connecting to intelligent controlling device and device for converting electric energy, described
Hobbing-type bike riding-balance simulator produces mechanical energy and is converted to electric energy by device for converting electric energy by riding, and will
The parameter of riding of hobbing-type bike riding-balance simulator is sent to intelligent controlling device;
Intelligent controlling device, hobbing-type bike riding-balance simulator, device for converting electric energy and can Power Regulation are connected respectively
Rate loads, and is connected with mobile terminal communication, and the intelligent controlling device receives hobbing-type bike riding-balance simulator and passed
The power loading parameter of ride parameter and the power-adjustable load transmission sent, is forwarded to mobile terminal in real time after processing;
Device for converting electric energy, hobbing-type bike riding-balance simulator, power-adjustable load and intelligence are connected respectively
Control device, the device for converting electric energy are intelligent controlling device and power-adjustable load supplying;
Power-adjustable loads, and intelligent controlling device and device for converting electric energy is connected respectively, for consuming device for converting electric energy
Caused electric energy, and send caused power loading parameter to intelligent controlling device;
Mobile terminal, it is connected with intelligent controlling device, and intelligent controlling device is sent instructions to set by mobile terminal
Put the power loading parameter of power-adjustable load;
The hobbing-type bike riding-balance simulator is included for placing the bascule of front wheel and being located at
The drum apparatus for being used for placing bicycle rear at bascule rear, the drum apparatus include frame and are rotationally connected with
Frame rear and front end and two rollers set along left and right horizontal direction, are provided with more than one between the frame and roller
Flying wheel, the flying wheel are connected transmission with roller.
The intelligent controlling device includes:
Process chip, sensor assembly, communication module, energy supply control module and power-adjustable load are connected respectively, is used for
Receive the power of ride parameter and the power-adjustable load of the hobbing-type bike riding-balance simulator of sensor assembly transmission
Load parameter, mobile terminal is forwarded in real time through communication module after processing, and receive what mobile terminal was sent by communication module
After instruction, the power loading parameter that power-adjustable loads is set according to instruction;
Sensor assembly, process chip and hobbing-type bike riding-balance simulator is connected respectively, for receiving gear hobbing
The transmission of formula bike riding-balance simulator ride parameter and the parameter that will ride is sent to process chip;
Communication module, it is connected respectively with process chip and mobile terminal, for by the data after process chip is handled
Mobile terminal is sent to, and the instruction that mobile terminal is sent is sent to process chip;
Energy supply control module, it is connected respectively with process chip, power supply output module and device for converting electric energy, for receiving electricity
After the electric energy of conversion equipment offer process chip and power supply can be supplied to export simulation;
Power supply output module, is connected with energy supply control module, for providing electric energy for external loading.
In order to reduce the center of gravity of cycling and be convenient for carrying, a diameter of 16~55mm of the roller, the rolling
The weight of cylinder is 100-5000g.
In order to adapt to child's bicycle and riding resistance can be reduced, make to ride more smooth, the wheelbase of two rollers is
100-145mm。
In order to can be better profited from transition region the inertia of flying wheel drive roller rotate, the flying wheel it is a diameter of
30-165mm, the weight of the flying wheel is 12-460g.
In order that flying wheel can preferably be attached transmission with roller, the flying wheel is rotationally connected with frame, institute
State and gear one is coaxially installed with flying wheel, the gear two for the transmission that is meshed with gear one is coaxially installed with the roller.
For riding for preferably analog bicycle, the hobbing-type bike riding-balance simulator includes being used for placing
The bascule of front wheel and the drum apparatus for being used for placing bicycle rear positioned at bascule rear;The balance
Device, which includes base, the sliding part being slidably connected on base, the revolving meber being rotationally connected with sliding part and one end, to be fixed
The swing component being connected on revolving meber, the other end of the swing component is curved and is provided with the arcuately continuously distributed gear teeth in side,
The center of circle of the arc and the rotating joint of revolving meber are coincided, and the tooth being meshed with the gear teeth is fixed with the base
Bar, the stopping means to be horizontally slipped for limiting front wheel, the intelligent controlling device, electricity are additionally provided with the revolving meber
Energy conversion equipment, power-adjustable load are fixedly arranged on drum apparatus.
In order to improve the flexibility of revolving meber rotation, the middle part of the sliding part is provided with bearing block, the bearing block installation
Have at least one bearing, be installed with gyroaxis in the middle part of the revolving meber, the gyroaxis be inserted on the endoporus of bearing with
Realize the rotation connection of revolving meber and sliding part.
In order to prevent revolving meber, sliding part and base from mutually disengaging, the revolution shaft lower end is installed with anticreep using screw thread
Cap, the anti-bigger diameter end raised one's hat are engaged with base lower surface, and the base is provided with to match with anti-movement locus of raising one's hat
Bar shaped escape groove.
In order to ensure that sliding part neatly slides on base, the sliding part is provided with some rollers for being used to slide,
The base is provided with the raceway being engaged with roller.
In order that sliding part does not depart from raceway, limited location plate is erect in the left and right sides of the base respectively;In order to slow down cunning
Collision of the moving part to limiting plate, improve the life-span of limiting plate, the end face of each limiting plate inwardly is installed with cushion pad respectively.
In order that base contacts more steady with ground, the lower surface of the base is installed with rubber cushion.
In order to which the mechanical energy rotated using roller is generated electricity, the drum apparatus also includes being fixedly arranged on frame rear and front end
And two fixing axles set along left and right horizontal direction, the roller is rotationally connected with fixing axle, any fixing axle or two
It is equipped with stator in fixing axle, the inner wall of rotary drum is provided with the rotor being engaged with stator, and the stator and rotor are and electric energy
Conversion equipment is connected.
For prior art, the utility model has advantages below:
(1) the hobbing-type cycling intelligent modelling system provided by the utility model suitable for children, set in system
There is flying wheel, using the inertia for the flying wheel being arranged between frame and roller roller can be driven to rotate in transition region, from
And drive bicycle rear to rotate, to complete power zone seamlessly transitting to another power zone, greatly reduce roller
External diameter and quality, not only reduce the centre-of-gravity of bicycle, children, old man and beginner is had more the sense of security, and conveniently
Carry and store, the system is additionally provided with intelligent controlling device in addition, can be attached with mobile terminal, parameter of riding is carried out real
When show, and parameter of riding can be configured by mobile terminal, is connected by mobile terminal with other analogue means
Together played or competed, had interesting and recreational;
(2) the hobbing-type cycling intelligent modelling system provided by the utility model suitable for children, can be by can
Adjusting power is loaded to set riding resistance, meets the requirement of different training strength;
(3) the hobbing-type cycling intelligent modelling system provided by the utility model suitable for children, hobbing-type is certainly
Driving riding-balance simulator is provided with swing component on revolving meber, and revolving meber one rotates, just can be rapid in the presence of swing component
Sliding part is driven to horizontally slip, fidelity is high;
(4) the hobbing-type cycling intelligent modelling system provided by the utility model suitable for children, on revolving meber
Revolving meber is preferably driven to turn provided with front wheel for limiting the stopping means that front wheel horizontally slips, is not only enable
It is dynamic, and will not be because of the excessive security for being slid from revolving meber, ensure that motion of swing angle;
(5) the hobbing-type cycling intelligent modelling system provided by the utility model suitable for children, gyroaxis and
Floating bearing is additionally provided between swivel sleeve, substantially increases the flexibility of revolving meber rotation;
(6) the hobbing-type cycling intelligent modelling system provided by the utility model suitable for children, under gyroaxis
End is installed with using screw thread prevents raising one's hat, and no matter during carrying or use, revolving meber, sliding part and base are all without mutual
Disengage;
(7) the hobbing-type cycling intelligent modelling system provided by the utility model suitable for children, bascule
From drum apparatus can according to bicycle wheels away from it is different and be adjusted, expand simulator and different specification size voluntarily
The scope that car is used cooperatively;
(8) the hobbing-type cycling intelligent modelling system provided by the utility model suitable for children, roller can enter
Row is generated electricity, and electric energy is provided for system and external equipment;
(9) the hobbing-type cycling intelligent modelling system provided by the utility model suitable for children, performance
Reliably, entertaining and body-building, application easy to spread are integrated.
Brief description of the drawings
The utility model is described in further detail in conjunction with the embodiments with reference to the accompanying drawings:
Fig. 1 is the theory diagram for the hobbing-type cycling intelligent modelling system that the utility model is applied to children;
Fig. 2 is the three-dimensional structure signal for the hobbing-type cycling intelligent modelling system that the utility model is applied to children
Figure;
Fig. 3 is the three dimensional structure diagram of bascule in Fig. 2;
Fig. 4 is the explosive view of Fig. 3 bascules;
Fig. 5 is the three dimensional structure diagram of the numerous embodiments of stopping means in Fig. 3;
Fig. 6 is the three dimensional structure diagram that stopping means is integrated with revolving meber in Fig. 3;
Fig. 7 is the three dimensional structure diagram of drum apparatus in Fig. 2;
Fig. 8 is the explosive view of drum apparatus in Fig. 7;
Fig. 9 is the three dimensional structure diagram of drum apparatus;
Figure 10 is the explosive view of drum apparatus in Fig. 9;
Figure 11 is three dimensional structure diagram when front wheel turns left in Fig. 2;
Figure 12 is three dimensional structure diagram when front wheel turns right in Fig. 2;
Figure 13 is the structural representation of four regions (power zone, transition region, power zone, transition region) when stepping bicycle is foot-operated
Figure.
Symbol description in figure:1st, hobbing-type bike riding-balance simulator, 1-1, bascule, 1-1-1, base, 1-
1-1-1, bar shaped escape groove, 1-1-1-2, raceway, 1-1-2, sliding part, 1-1-2-1, bearing block, 1-1-2-2, bearing, 1-1-2-
3rd, roller, 1-1-3, revolving meber, 1-1-3-1, gyroaxis, 1-1-4, swing component, 1-1-4-1, the gear teeth, 1-1-5, rack, 1-1-
6th, stopping means, 1-1-7, prevent raising one's hat, 1-1-8, limiting plate, 1-1-9, cushion pad, 1-1-10, rubber cushion, 1-2, drum apparatus, 1-
2-1, frame, 1-2-2, roller, 1-2-3, flying wheel, 1-2-4, gear one, 1-2-5, gear two, 1-2-6, fixing axle, 2, intelligence
Can control device, 3, device for converting electric energy, 4, power-adjustable load, 5, mobile terminal, 6, front wheel, 7, after bicycle
Wheel.
Embodiment
The utility model content is described in detail with reference to Figure of description and specific embodiment:
It is a kind of hobbing-type cycling intelligence suitable for children provided by the utility model as shown in Fig. 1-Figure 13
Energy simulation system, as shown in figure 1, the system includes:
Hobbing-type bike riding-balance simulator 1, it is respectively connecting to intelligent controlling device 2 and device for converting electric energy 3, institute
State hobbing-type bike riding-balance simulator 1 and mechanical energy and electric energy be converted to by device for converting electric energy 3 by riding to produce,
And the parameter of riding of hobbing-type bike riding-balance simulator 1 is sent to intelligent controlling device 2;
Intelligent controlling device 2, hobbing-type bike riding-balance simulator 1, device for converting electric energy 3 and adjustable are connected respectively
Power termination 4, and communicate and connect with mobile terminal 5, the intelligent controlling device 2 receives the simulation of hobbing-type bike riding-balance
The power loading parameters of ride parameter and the transmission of power-adjustable load 4 of the transmission of device 1, are forwarded to mobile whole in real time after processing
End 5;
Device for converting electric energy 3, hobbing-type bike riding-balance simulator 1, power-adjustable load 4 and intelligence are connected respectively
Energy control device 2, the device for converting electric energy 3 are intelligent controlling device 2 and the power supply of power-adjustable load 4;
Power-adjustable load 4, connects intelligent controlling device 2 and device for converting electric energy 3, for consuming electric energy converting means respectively
Electric energy caused by 3 is put, and sends caused power loading parameter to intelligent controlling device 2;
Mobile terminal 5, it is connected with intelligent controlling device 2, and intelligent controlling device 2 is sent instructions to by mobile terminal 5
To set the power loading parameter of power-adjustable load 4.Mobile terminal 5 can be by wired connection, can also be by wirelessly connecting
Connect.Mobile terminal 5 can be mobile phone, flat board, hand-held PDA etc..
As shown in Fig. 2 the hobbing-type bike riding-balance simulator 1 includes being used for placing the flat of front wheel 6
The weighing apparatus device 1-1 and drum apparatus 1-2 for being used for placing bicycle rear 7 positioned at bascule 1-1 rears, such as Fig. 7, Fig. 8 institute
Show, the drum apparatus 1-2 includes frame 1-2-1 and is rotationally connected with frame 1-2-1 rear and front ends and along left and right horizontal side
To two roller 1-2-2 of setting, more than one flying wheel 1-2- is provided between the frame 1-2-1 and roller 1-2-2
3, the flying wheel 1-2-3 are connected transmission with roller 1-2-2.
As shown in figure 1, the intelligent controlling device 2 includes:
Process chip, sensor assembly, communication module, energy supply control module and power-adjustable load 4 are connected respectively, is used for
Receive the work(of ride parameter and the power-adjustable load 4 of the hobbing-type bike riding-balance simulator 1 of sensor assembly transmission
Rate load parameter, it is forwarded to mobile terminal 5 after processing in real time through communication module, and mobile terminal 5 is received by communication module and sent out
After the instruction sent, the power loading parameter of power-adjustable load 4 is set according to instruction;
Sensor assembly, process chip and hobbing-type bike riding-balance simulator 1 is connected respectively, for receiving gear hobbing
What formula bike riding-balance simulator 1 transmitted ride parameter and the parameter that will ride is sent to process chip;
Communication module, it is connected respectively with process chip and mobile terminal 5, for by the data after process chip is handled
Mobile terminal 5 is sent to, and the instruction that mobile terminal 5 is sent is sent to process chip;
Energy supply control module, it is connected respectively with process chip, power supply output module and device for converting electric energy 3, for receiving
It is supplied to process chip and power supply to export simulation after the electric energy that device for converting electric energy 3 provides;
Power supply output module, is connected with energy supply control module, for providing electric energy for external loading.
In order to reduce the center of gravity of cycling and be convenient for carrying, a diameter of 16~55mm of the roller 1-2-2, institute
The weight for stating roller 1-2-2 is 100-5000g.
In order to adapt to child's bicycle and riding resistance can be reduced, make more smooth, two roller 1-2-2 wheelbase of riding
For 100-145mm.
Roller is driven to rotate in order to which the inertia of flying wheel can be better profited from transition region, the flying wheel 1-2-3's
A diameter of 30-165mm, the flying wheel 1-2-3 weight are 12-460g.
As shown in Figure 7, Figure 8, in order that flying wheel can preferably be attached transmission with roller, rotated on frame 1-2-1
It is connected with four flying wheels 1-2-3, each flying wheel 1-2-3 and is coaxially installed with gear one 1-2-4, the roller 1-2-2
The coaxial 1-2-5 of gear two for being installed with the transmission that is meshed with the 1-2-4 of gear one.Other kinds of drive can certainly be used, such as
Sprocket wheel chain drive, belt pulley drive, permanent magnet transmission etc., Multi-stage transmission can also be used as needed.Flying wheel 1-
2-3 can also be fixedly installed on roller 1-2-2 both sides (as shown in Figure 9, Figure 10), can also be fixedly installed in roller 1-2-2.
As shown in Figure 2 and Figure 3, riding for preferably analog bicycle, the hobbing-type bike riding-balance simulation
Device 1 include be used for place front wheel 6 bascule 1-1 and positioned at bascule 1-1 rears be used for place bicycle
The drum apparatus 1-2 of trailing wheel 7;The bascule 1-1 includes base 1-1-1, the sliding part being slidably connected on base 1-1-1
1-1-2, the revolving meber 1-1-3 being rotationally connected with sliding part 1-1-2 and one end are fixedly connected on the pendulum on revolving meber 1-1-3
Moving part 1-1-4, the other end of the swing component 1-1-4 are curved and provided with the arcuately continuously distributed gear teeth 1-1-4-1 in side, institute
The center of circle and revolving meber 1-1-3 rotating joint for stating arc coincide, and are fixed with the base 1-1-1 and gear teeth 1-1-
Be additionally provided with the rack 1-1-5, the revolving meber 1-1-3 that 4-1 is meshed for limit front wheel 6 horizontally slip it is spacing
Device 1-1-6, the intelligent controlling device 2, device for converting electric energy 3, power-adjustable load 4 are fixedly arranged on drum apparatus 1-2.Institute
The shape for stating stopping means 1-1-6 is not limited solely to the mode of the present embodiment, is horizontally slipped i.e. as long as front wheel 6 can be limited
Can, can be shape as shown in Figure 4 or variously-shaped or other shapes as shown in Figure 5, Ke Yihe
Revolving meber 1-1-3 makes dismountable mode, can also be made of one with revolving meber 1-1-3 (as shown in Figure 6).
In order to improve the flexibility of revolving meber 1-1-3 rotations, as shown in figure 4, the middle part of the sliding part 1-1-2 is provided with axle
Bearing 1-1-2-1, the bearing block 1-1-2-1 are provided with two bearing 1-1-2-2 side by side, and bearing 1-1-2-2 tops are provided with
Bearing plate also can limit bearing outer ring to limit bearing 1-1-2-2 axial movement by way of installing endoporus jump ring
Axial movement, the revolving meber 1-1-3 middle parts are installed with gyroaxis 1-1-3-1, the gyroaxis 1-1-3-1 and are inserted in two
To realize revolving meber 1-1-3 and sliding part 1-1-2 rotation connection on individual bearing 1-1-2-2 endoporus.
In order to prevent revolving meber 1-1-3, sliding part 1-1-2 and base 1-1-1 from mutually disengaging, as shown in figure 4, the revolution
Axle 1-1-3-1 lower ends are installed with the anti-1-1-7 that raises one's hat, the bigger diameter end and base 1-1-1 following tables of the anti-1-1-7 that raises one's hat using screw thread
Face is engaged, and the base 1-1-1 is provided with the bar shaped escape groove 1-1-1-1 to match with anti-1-1-7 movement locus of raising one's hat.When
The mousing-hook that can also so take other form.
In order to ensure that sliding part 1-1-2 is neatly slided on base, as shown in figure 4, the sliding part 1-1-2 is provided with
The roller 1-1-2-3, the base 1-1-1 of the rotation connection of six are provided with the raceway 1-1- being engaged with roller 1-1-2-3
1-2.Roller 1-1-2-3 is connected by bolt with sliding part 1-1-2, roller 1-1-2-3 quantity more than three, specifically
Quantity can be depending on sliding part 1-1-2 length and load capacity.Being slidably connected for other manner can certainly be used, such as
Line rail, hard rail etc..
In order that sliding part 1-1-2 does not depart from raceway, limited location plate 1- is erect in the left and right sides of the base 1-1-1 respectively
1-8;In order to slow down collisions of the sliding part 1-1-2 to limiting plate 1-1-8, limiting plate 1-1-8 life-span, each limiting plate 1- are improved
The end faces of 1-8 inwardly are installed with cushion pad 1-1-9 respectively.
In order that base 1-1-1 contacts more steady with ground, the lower surface of the base 1-1-1 is installed with rubber cushion 1-
1-10.Other manner can certainly be used, vacuum cup such as is installed in base 1-1-1 lower surface.
As shown in fig. 7, in order to which the mechanical energy rotated using roller is generated electricity, the drum apparatus 1-2 also includes fixed
In frame 1-2-1 rear and front ends and along two fixing axle 1-2-6 of left and right horizontal direction setting, the roller 1-2-2, which is rotated, to be connected
It is connected on fixing axle 1-2-6, stator, the roller 1-2-2 is equipped with any fixing axle 1-2-6 or two fixing axle 1-2-6
Inwall is provided with the rotor being engaged with stator, and the stator and rotor are connected with device for converting electric energy 3.Sensor assembly bag
Include sensor chip, the transducer probe assembly being connected with sensor chip and with sensor sensing point.Sensor sensing point is set
It is placed in roller 1-2-2 side wall, transducer probe assembly is fixedly arranged on the information that frame 1-2-1 is used to obtain sensor sensing point.Rolling
Cylinder 1-2-2 can be arranged to motorized pulleys by intelligent controlling device 2, by rechargable power supplies or external power supply is carried, make its rotation
Turn, directly drive bicycle rear 7, be so easy to beginner attentively to experience the control of balance, old bicyclist can reduce motion
Intensity, it can also loosen arrangement, etc. as post exercise.
As shown in figure 13, bicycle is that both feet replace on bicycle or so pedal in fact in actual ride
Process firmly, i.e. pedal using bicycle middle shaft as the center of circle, around four regions (power zone A, transition region B, power zone C,
Transition region D) repeat do circular motion, when from a power zone to during next power zone transition it is necessary to by bicycle forward
The inertia of motion is completed to seamlessly transit.Region A is the power zone for pedaling left threading, and region C is the power zone for pedaling right threading.Will be certainly
Driving is positioned over the rotatory inertia that must be just taken turns rearward when on simulator and carrys out the inertia that analog bicycle travels forward, so as to complete
Transition region seamlessly transits.
The operation principle of the utility model is:First the mobile phone of unlatching is fixed on the geometrical clamp of hundle-bar, then opened
The power switch of intelligent controlling device is opened, mobile phone is connected with intelligent controlling device 2 by wired or wireless way, then will be certainly
The front-wheel 6 of driving is placed on the stopping means 1-1-6 on bascule 1-1, and bicycle rear is positioned over into drum apparatus 1-2
On, then ridden.As shown in Fig. 2 when the people on hobbing-type bike riding-balance simulator 1 does not twist vehicle
When, centre position that revolving meber 1-1-3 is on base 1-1-1.As shown in figure 11, when hobbing-type bike riding-balance mould
When people on plan device 1-1 twists bicycle handle bar to the left, the front wheel 6 being placed in stopping means 1-6 will be stirred back
Turn part 1-1-3 to rotate counterclockwise centered on gyroaxis 1-1-3-1, revolving meber 1-1-3 drives swing component 1-1-4 to the right
Swing, force the gear teeth 1-1-4-1 on swing component 1-1-4 to be rolled to the left along rack 1-1-5, the revolution on revolving meber 1-1-3
Axle 1-1-3-1 just pushes sliding part 1-1-2 and is moved to the left along the raceway 1-1-1-2 on base 1-1-1.Front wheel 6 moves
After to the left, the bicycle rear 7 that is rolled on roller 1-2-2 just automatic side roll to the left.Vice versa, as shown in figure 12,
When the people on bicycle riding simulator twists bicycle handle bar to the right, front wheel 6 and bicycle rear 7 can be to the right
It is mobile.Bicycle quick to the left, the size for the momentum that moves right and the speed of translational speed and cyclist swing bicycle handlebar angle
The size of degree and the speed of riding speed are directly proportional, it is achieved thereby that the simulated operation of riding-balance.When foot-operated be in is had an effect
Qu Shi, trailing wheel 7 can be driven flying wheel 1-2-3 to rotate at a high speed by the 1-2-5 of the gear two and 1-2-4 of gear one, be in when foot-operated
When crossing area, due to flying wheel 1-2-3 effect of inertia, flying wheel 1-2-3 and cans pass through the 1-2-4 of gear one and the 1-2-5 of gear two
Roller 1-2-2 is driven to rotate, roller 1-2-2 drives bicycle rear 7 to rotate, and is had an effect so as to complete a power zone to another
Area seamlessly transits, and the utility model is due to there is provided flying wheel, so as to greatly reduce the external diameter of roller and quality, not only
The centre-of-gravity of bicycle is reduced, children, old man and beginner is had more the sense of security, and be convenient for carrying and store.This practicality
The parameters such as Novel rotary drum 1-2-2 rotating speed, riding resistance can real-time display on mobile phone, operator can be real-time by mobile phone screen
Various parameters and the videos such as observation motion, game or match, by mobile phone power-adjustable can also be set to load 4 power, made
Obtain riding resistance to change, adapt to the requirement of different training strength.The electricity that roller 1-2-2 is sent when rotating, can be through electricity
Source control module becomes conventional voltage access power supply output module, and electric energy is provided to the sound of environment, light, electrical equivalent fruit, can also
It is connected with charger, is charged to electronic products such as computer cell phones.Mobile terminal 5 can also pass through internet platform and the friend in strange land
Or team together carries out body-building game or match.
Simply the technical solution of the utility model is explained in detail for above-mentioned embodiment, and the utility model is not
Above-described embodiment is only limited only to, every any improvement or replacement according to the utility model principle all should be new in this practicality
Within the protection domain of type.
Claims (9)
1. a kind of hobbing-type cycling intelligent modelling system suitable for children, it is characterised in that the system includes:
Hobbing-type bike riding-balance simulator (1), intelligent controlling device (2) and device for converting electric energy (3) are respectively connecting to,
The hobbing-type bike riding-balance simulator (1) produces mechanical energy and by device for converting electric energy (3) conversion by riding
For electric energy, and the parameter of riding of hobbing-type bike riding-balance simulator (1) is sent to intelligent controlling device (2);
Intelligent controlling device (2), hobbing-type bike riding-balance simulator (1), device for converting electric energy (3) and can are connected respectively
Adjusting power loads (4), and communicates and connect with mobile terminal (5), and the intelligent controlling device (2) receives hobbing-type cycling
The power loading parameter of ride parameter and power-adjustable load (4) transmission of balance simulation device (1) transmission, after processing in real time
It is forwarded to mobile terminal (5);
Device for converting electric energy (3), respectively connect hobbing-type bike riding-balance simulator (1), power-adjustable load (4) and
Intelligent controlling device (2), the device for converting electric energy (3) are that intelligent controlling device (2) and power-adjustable load (4) power supply;
Power-adjustable loads (4), connects intelligent controlling device (2) and device for converting electric energy (3) respectively, for consuming electric energy conversion
Electric energy caused by device (3), and send caused power loading parameter to intelligent controlling device (2);
Mobile terminal (5), it is connected with intelligent controlling device (2), and intelligent controlling device is sent instructions to by mobile terminal (5)
(2) come set power-adjustable load (4) power loading parameter;
The hobbing-type bike riding-balance simulator (1) includes being used for the bascule (1-1) for placing front wheel (6)
With the drum apparatus (1-2) for being used for placing bicycle rear (7) positioned at bascule (1-1) rear, the drum apparatus (1-
2) include frame (1-2-1) and be rotationally connected with frame (1-2-1) rear and front end and two set along left and right horizontal direction
Roller (1-2-2), more than one flying wheel (1-2-3), institute are provided between the frame (1-2-1) and roller (1-2-2)
Flying wheel (1-2-3) is stated with roller (1-2-2) to be connected transmission;The bascule (1-1) includes base (1-1-1), slided
The sliding part (1-1-2) that is connected on base (1-1-1), the revolving meber (1-1-3) being rotationally connected with sliding part (1-1-2) with
And one end is fixedly connected on the swing component (1-1-4) on revolving meber (1-1-3), the other end of the swing component (1-1-4) is in arc
Shape simultaneously connects provided with the arcuately continuously distributed gear teeth in side (1-1-4-1), the center of circle of the arc with the rotation of revolving meber (1-1-3)
Contact coincides, and is fixed with the rack (1-1-5) being meshed with the gear teeth (1-1-4-1) on the base (1-1-1), described time
Turn to be additionally provided with the stopping means (1-1-6) to be horizontally slipped for limiting front wheel (6), the intelligence control on part (1-1-3)
Device (2) processed, device for converting electric energy (3), power-adjustable load (4) are fixedly arranged on drum apparatus (1-2).
2. the hobbing-type cycling intelligent modelling system according to claim 1 suitable for children, it is characterised in that
The intelligent controlling device (2) includes:
Process chip, sensor assembly, communication module, energy supply control module and power-adjustable load (4) is connected respectively, for connecing
Receive ride parameter and the power-adjustable load (4) of the hobbing-type bike riding-balance simulator (1) of sensor assembly transmission
Power loading parameter, it is forwarded to mobile terminal (5) after processing in real time through communication module, and mobile terminal is received by communication module
(5) after the instruction sent, the power loading parameter of power-adjustable load (4) is set according to instruction;
Sensor assembly, process chip and hobbing-type bike riding-balance simulator (1) is connected respectively, for receiving hobbing-type
Bike riding-balance simulator (1) transmission ride parameter and the parameter that will ride is sent to process chip;
Communication module, it is connected respectively with process chip and mobile terminal (5), for the data after process chip is handled to be passed
Mobile terminal (5) is delivered to, and the instruction that mobile terminal (5) is sent is sent to process chip;
Energy supply control module, it is connected respectively with process chip, power supply output module and device for converting electric energy (3), for receiving electricity
After the electric energy of conversion equipment (3) offer process chip and power supply can be supplied to export simulation;
Power supply output module, is connected with energy supply control module, for providing electric energy for external loading.
3. the hobbing-type cycling intelligent modelling system according to claim 1 suitable for children, it is characterised in that:
A diameter of 16~55mm of the roller (1-2-2), the weight of the roller (1-2-2) is 100-5000g.
4. the hobbing-type cycling intelligent modelling system according to claim 1 suitable for children, it is characterised in that:
The wheelbase of two rollers (1-2-2) is 100-145mm.
5. the hobbing-type cycling intelligent modelling system according to claim 1 suitable for children, it is characterised in that:
A diameter of 30-165mm of the flying wheel (1-2-3), the weight of the flying wheel (1-2-3) is 12-460g.
6. the hobbing-type cycling intelligent modelling system according to claim 1 suitable for children, it is characterised in that:
The flying wheel (1-2-3) is rotationally connected with frame (1-2-1), and gear one is coaxially installed with the flying wheel (1-2-3)
(1-2-4), the gear two (1-2-5) for the transmission that is meshed with gear one is coaxially installed with the roller (1-2-2).
7. the hobbing-type cycling intelligent modelling system according to claim 1 suitable for children, it is characterised in that:
The middle part of the sliding part (1-1-2) is provided with bearing block (1-1-2-1), and the bearing block (1-1-2-1) is provided with least one
Bearing (1-1-2-2), revolving meber (1-1-3) middle part are installed with gyroaxis (1-1-3-1), the gyroaxis (1-1-
3-1) it is inserted on bearing (1-1-2-2) endoporus to realize the rotation connection of revolving meber (1-1-3) and sliding part (1-1-2).
8. the hobbing-type cycling intelligent modelling system according to claim 7 suitable for children, it is characterised in that:
Gyroaxis (1-1-3-1) lower end using screw thread be installed with it is anti-raise one's hat (1-1-7), the anti-bigger diameter end for raising one's hat (1-1-7)
It is engaged with base (1-1-1) lower surface, the base (1-1-1) is provided with to be matched with anti-(1-1-7) movement locus of raising one's hat
Bar shaped escape groove (1-1-1-1).
9. the hobbing-type cycling intelligent modelling system suitable for children according to any one of claim 1-8,
It is characterized in that:The drum apparatus (1-2) also includes being fixedly arranged on frame (1-2-1) rear and front end and setting along left and right horizontal direction
Two fixing axles (1-2-6) put, the roller (1-2-2) are rotationally connected with fixing axle (1-2-6), any fixing axle (1-
Stator 2-6) or on two fixing axles (1-2-6) is equipped with, roller (1-2-2) inwall is provided with turn being engaged with stator
Son, the stator and rotor are connected with device for converting electric energy (3).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620384689.7U CN207168932U (en) | 2016-04-29 | 2016-04-29 | Suitable for the hobbing-type cycling intelligent modelling system of children |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620384689.7U CN207168932U (en) | 2016-04-29 | 2016-04-29 | Suitable for the hobbing-type cycling intelligent modelling system of children |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207168932U true CN207168932U (en) | 2018-04-03 |
Family
ID=61731853
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201620384689.7U Expired - Fee Related CN207168932U (en) | 2016-04-29 | 2016-04-29 | Suitable for the hobbing-type cycling intelligent modelling system of children |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN207168932U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109147545A (en) * | 2018-09-19 | 2019-01-04 | 黄河科技学院 | A kind of hybrid vehicle simulation teching platform |
-
2016
- 2016-04-29 CN CN201620384689.7U patent/CN207168932U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109147545A (en) * | 2018-09-19 | 2019-01-04 | 黄河科技学院 | A kind of hybrid vehicle simulation teching platform |
CN109147545B (en) * | 2018-09-19 | 2020-08-25 | 安溪县桃舟乡同盛茶叶专业合作社 | Automobile hybrid power simulation teaching platform |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN105498182A (en) | Hobbing type bicycle riding intelligent simulation system | |
CN105396264B (en) | A kind of full mimicry exercycle with generating function | |
CN207168932U (en) | Suitable for the hobbing-type cycling intelligent modelling system of children | |
CN104826319B (en) | Portable bicycle decelerator | |
CN205699119U (en) | It is applicable to the elastomeric cords formula cycling intelligent modelling system of children | |
CN205964933U (en) | Push -and -pull rod -type bicycle intelligent analog system that rides suitable for children | |
CN205730241U (en) | It is applicable to the drag-line cycling intelligent modelling system of child | |
CN207071192U (en) | Ridden intelligent modelling system suitable for the cycle with reciprocating lever of children | |
CN205649818U (en) | Gear hobbing formula bicycle balance simulation ware of riding suitable for children | |
CN205730124U (en) | It is applicable to the swinging cycling intelligent modelling system of child | |
CN105797342A (en) | Self-fixing rotary type bicycle riding intelligent simulation system applicable to children | |
CN205730238U (en) | Push-and-pull rod-type cycling intelligent modelling system | |
CN205494893U (en) | Gear hobbing formula bicycle intelligent analog system that rides | |
CN205699317U (en) | It is applicable to the self-retaining swinging cycling intelligent modelling system of child | |
CN205494895U (en) | Rotation bicycle intelligent analog system that rides | |
CN205699318U (en) | It is applicable to the self-retaining swinging bike riding-balance simulator of child | |
CN105727540A (en) | Inhaul cable type cycling intelligent simulation system applicable to children | |
CN205649817U (en) | Elastic inhaul formula bicycle intelligent analog system that rides | |
CN206675936U (en) | Cycle with reciprocating lever is ridden intelligent modelling system | |
CN105561561B (en) | Drag-line cycling intelligent modelling system | |
CN206492178U (en) | Suitable for the cycle with reciprocating lever riding-balance simulator of children | |
CN105727506A (en) | Gear hobbing type bicycle-riding intelligent simulation system suitable for children | |
CN105879311A (en) | Oscillating bar type bicycle riding intelligent simulation system suitable for children | |
CN105944357A (en) | Push-pull rod type bicycle riding intelligent simulation system applicable to children | |
CN105944358A (en) | Elastic cable type bicycle riding intelligent simulation system applicable to children |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20180403 Termination date: 20200429 |