CN105727506A - Gear hobbing type bicycle-riding intelligent simulation system suitable for children - Google Patents

Abstract

The invention relates to a gear hobbing type bicycle-riding intelligent simulation system suitable for children. The gear hobbing type bicycle-riding intelligent simulation system comprises a gear hobbing type bicycle-riding balance simulation device, an intelligent control device, an electric energy converting device, an adjustable power load and mobile terminal, wherein the gear hobbing type bicycle-riding balance simulation device comprises a balance device and a roller device, the roller device comprises a frame, a roller and an inertia wheel, and the inertia wheel is in connection transmission with the roller. The gear hobbing type bicycle-riding intelligent simulation system has the advantages that the inertia of the inertia wheel is used to drive the roller to rotate during transition so as to drive the rear wheel of a bicycle to rotate, the outer diameter and weight of the roller are lowered greatly, the riding gravity center of the bicycle is lowered, children, elder people and beginners feel safe, and the system is convenient to carry and store; in addition, the system can display riding parameters in real time, the riding parameters can be set through the mobile terminal, the system can be connected with other simulation systems through the mobile terminal so as to allow users to play a game or have a match together, and the system is fun and entertaining.

Description

Hobbing-type cycling intelligent modelling system suitable in child

Technical field

The present invention relates to a kind of body-building apparatus, particularly to a kind of hobbing-type cycling intelligent modelling system suitable in child matching used with bicycle.

Background technology

Quickly propelling and private car quickly universal of urbanization, have compressed and be available for people and do the place of aerobatic exercise, safely and effectively do an aerobatic exercise, even become a kind of extravagant hope of majority.Cycling is exactly one of good aerobatic exercise, and it is easy to learn to cycle technical ability, and vast majority of people grasps, but cycles required place and equally also perplex the universal of this motion and development always.Chinese patent 201410410244.7 discloses a kind of hobbing-type bike riding-balance simulator, place needed for this simulator is little, aerobatic exercise can be carried out at indoor or outdoors, but this simulator lacks interest, can only merely train, cannot the various parameter of riding of equipment, more together cannot carry out playing or competing with the fan that rides.

In addition, bicycle is in actual ride, it is that both feet replace process firmly on the pedal of bicycle left and right in fact, namely pedal is with bicycle middle shaft for the center of circle, round four regions (power zone, transition region, power zones, transition region) repeat to do circular motion, it is necessary to the inertia by bicycle moving forward completes to seamlessly transit when from a power zone to next power zone transition.When bicycle is put on riding-balance simulator, people and Che are all without actual pace, more will not having proal inertia, the rotatory inertia being at this moment necessary for taking turns rearward carrys out the proal inertia of analog bicycle, thus completing seamlessly transitting of transition region.Existing product is in order to simulate effect of riding really as far as possible, and cylinder must possess enough external diameters and enough weight meets the requirement to rotatory inertia.The weight that the external diameter of cylinder not only results in greatly simulator is big, carries inconvenience, and external diameter may result in greatly that bicycle rear terrain clearance is big, centre-of-gravity is high, will produce the feared state of mind, lack the security for child, old man and abecedarian.

Summary of the invention

nullIt is an object of the invention to overcome disadvantage mentioned above，A kind of hobbing-type cycling intelligent modelling system suitable in child is provided，This system is provided with flying wheel，The inertia of the flying wheel being arranged between frame and cylinder can be utilized to drive cylinder to rotate when transition region，Thus driving bicycle rear to rotate，To complete power zone seamlessly transitting to another power zone，Greatly reduce external diameter and the quality of cylinder，Not only reduce the centre-of-gravity of bicycle，Make child、Old man and the abecedarian more security，And be convenient for carrying and receive，In addition this system is additionally provided with intelligent controlling device，Can be attached with mobile terminal，To riding, parameter shows in real time，And by mobile terminal, parameter of riding can be configured，Carry out being connected with other analog by mobile terminal and together carry out playing or competing，Have interesting and recreational.

The present invention is achieved in that a kind of hobbing-type cycling intelligent modelling system suitable in child, it is characterised in that this system includes:

Hobbing-type bike riding-balance simulator, it is respectively connecting to intelligent controlling device and device for converting electric energy, described hobbing-type bike riding-balance simulator produces mechanical energy by riding and is converted to electric energy by device for converting electric energy, and the parameter of riding of hobbing-type bike riding-balance simulator is sent to intelligent controlling device；

Intelligent controlling device, connect hobbing-type bike riding-balance simulator, device for converting electric energy and power-adjustable load respectively, and be connected with mobile terminal communication, described intelligent controlling device receives the power loading parameter of ride parameter and power-adjustable load transmission that hobbing-type bike riding-balance simulator transmits, is forwarded to mobile terminal after treatment in real time；

Device for converting electric energy, connects hobbing-type bike riding-balance simulator, power-adjustable load and intelligent controlling device respectively, and described device for converting electric energy is intelligent controlling device and power-adjustable load supplying；

Power-adjustable load, connects intelligent controlling device and device for converting electric energy respectively, is used for consuming electric energy produced by device for converting electric energy, and sends the power loading parameter of generation to intelligent controlling device；

Mobile terminal, is connected with intelligent controlling device, and sends instructions to intelligent controlling device by mobile terminal and arrange the power loading parameter of power-adjustable load；

Described hobbing-type bike riding-balance simulator includes the bascule for placing front wheel and is positioned at the drum apparatus for placing bicycle rear at bascule rear, described drum apparatus includes frame and is rotationally connected with frame rear and front end and two cylinders arranged along left and right horizontal direction, being provided with more than one flying wheel between described frame and cylinder, described flying wheel is connected with cylinder transmission.

Described intelligent controlling device includes:

Process chip, connect sensor assembly, communication module, energy supply control module and power-adjustable load respectively, for receiving the power loading parameter of ride parameter and the power-adjustable load of the hobbing-type bike riding-balance simulator that sensor assembly transmits, mobile terminal it is forwarded in real time through communication module after process, and after receiving, by communication module, the instruction that mobile terminal sends, the power loading parameter of power-adjustable load is set according to instruction；

Sensor assembly, connection processes chip and hobbing-type bike riding-balance simulator respectively, for receive that hobbing-type bike riding-balance simulator transmits ride parameter and parameter of riding is sent to process chip；

Communication module, is connected with process chip and mobile terminal respectively, is sent to mobile terminal for the data after being processed by treated chip, and the instruction that mobile terminal sends is sent to process chip；

Energy supply control module, is connected with process chip, power supply output module and device for converting electric energy respectively, for being supplied to process chip and power supply output to simulate after receiving the electric energy that device for converting electric energy provides；

Power supply output module, is connected with energy supply control module, for providing electric energy for external loading.

In order to be able to reduce the center of gravity of cycling and be convenient for carrying, the diameter of described cylinder is 16～55mm, and the weight of described cylinder is 100-5000g.

In order to adapt to child's bicycle and can reduce riding resistance, making to ride more smooth and easy, the wheelbase of two cylinders is 100-145mm.

Inertia in order to better profit from flying wheel when transition region drives cylinder to rotate, and the diameter of described flying wheel is 30-165mm, and the weight of described flying wheel is 12-460g.

In order to make flying wheel can be attached transmission better with cylinder, described flying wheel is rotationally connected with in frame, and described flying wheel is coaxially installed with gear one, and described cylinder is coaxially installed with the gear two of the transmission that is meshed with gear one.

For riding of analog bicycle better, described hobbing-type bike riding-balance simulator includes the bascule for placing front wheel and is positioned at the drum apparatus for placing bicycle rear at bascule rear；Described bascule includes base, it is slidably connected to the sliding part on base, it is rotationally connected with the revolving meber on sliding part and swing component that one end is fixedly connected on revolving meber, the other end of described swing component is curved and is provided with the gear teeth of arcuately limit continuous distribution, the center of circle of described arc and being rotationally connected of revolving meber a little coincide, described base is fixed with the tooth bar being meshed with the gear teeth, described revolving meber is additionally provided with for limiting the stopping means that front wheel horizontally slips, described intelligent controlling device, device for converting electric energy, power-adjustable load is fixedly arranged on drum apparatus.

In order to improve the motility that revolving meber rotates, the middle part of described sliding part is provided with bearing block, described bearing block is provided with at least one bearing, is installed with gyroaxis in the middle part of described revolving meber, and described gyroaxis is inserted on the endoporus of bearing to realize being rotationally connected of revolving meber and sliding part.

In order to prevent revolving meber, sliding part and base from mutually disengaging, described revolution shaft lower end adopts screw thread to be installed with anti-raising one's hat, and the described anti-bigger diameter end raised one's hat matches with base lower surface, and described base is provided with the bar shaped escape groove matched with anti-movement locus of raising one's hat.

In order to ensure that sliding part slides neatly on base, described sliding part is provided with some rollers for sliding, and described base is provided with the raceway matched with roller.

In order to make sliding part without departing from raceway, the left and right sides of described base erects limited location plate respectively；In order to slow down the sliding part collision to limiting plate, improving the life-span of limiting plate, each limiting plate end face inwardly is installed with cushion pad respectively.

In order to make base and earth surface more steady, the lower surface of described base is installed with rubber cushion.

In order to utilize the mechanical energy that cylinder rotates to generate electricity, described drum apparatus also includes the two fixing axles being fixedly arranged on frame rear and front end and arranging along left and right horizontal direction, described cylinder is rotationally connected with on fixing axle, arbitrary fixing axle or two fixing axles are equipped with stator, described inner wall of rotary drum is provided with the rotor matched with stator, and described stator is all connected with device for converting electric energy with rotor.

Compared to prior art, the invention have the advantages that

(1) the hobbing-type cycling intelligent modelling system suitable in child provided by the invention, system is provided with flying wheel, the inertia of the flying wheel being arranged between frame and cylinder can be utilized to drive cylinder to rotate when transition region, thus driving bicycle rear to rotate, to complete power zone seamlessly transitting to another power zone, greatly reduce external diameter and the quality of cylinder, not only reduce the centre-of-gravity of bicycle, make child, old man and the abecedarian more security, and be convenient for carrying and receive, in addition this system is additionally provided with intelligent controlling device, can be attached with mobile terminal, to riding, parameter shows in real time, and by mobile terminal, parameter of riding can be configured, carry out being connected with other analog by mobile terminal and together carry out playing or competing, have interesting and recreational；

(2) the hobbing-type cycling intelligent modelling system suitable in child provided by the invention, can arrange riding resistance by power-adjustable load, meets the requirement of different training strength；

(3) the hobbing-type cycling intelligent modelling system suitable in child provided by the invention, hobbing-type bike riding-balance simulator is provided with swing component on revolving meber, revolving meber one rotates, and just sliding part can be driven rapidly to horizontally slip under the effect of swing component, and fidelity is high；

(4) the hobbing-type cycling intelligent modelling system suitable in child provided by the invention, revolving meber is provided with for limiting the stopping means that front wheel horizontally slips, not only make front wheel revolving meber can be driven better to rotate, and will not be excessive from landing revolving meber because of pendulum angle, it is ensured that the safety of motion；

(5) the hobbing-type cycling intelligent modelling system suitable in child provided by the invention, is additionally provided with floating bearing between gyroaxis and swivel sleeve, substantially increases the motility that revolving meber rotates；

(6) the hobbing-type cycling intelligent modelling system suitable in child provided by the invention, revolution shaft lower end adopts screw thread to be installed with anti-raising one's hat, and no matter is carrying or in use procedure, and revolving meber, sliding part and base are all without mutual disengagement；

(7) the hobbing-type cycling intelligent modelling system suitable in child provided by the invention, bascule and drum apparatus can according to bicycle wheels from different and be adjusted, expand simulator and different specification size bicycle with the use of scope；

(8) the hobbing-type cycling intelligent modelling system suitable in child provided by the invention, cylinder can generate electricity, and provides electric energy for system and external equipment；

(9) the hobbing-type cycling intelligent modelling system suitable in child provided by the invention, serviceability is reliable, integrates entertaining and body-building, it is easy to popularization and application.

Accompanying drawing explanation

The invention will be further described in conjunction with the embodiments with reference to the accompanying drawings:

Fig. 1 is the theory diagram that the present invention is applicable to the hobbing-type cycling intelligent modelling system of child；

Fig. 2 is the three dimensional structure schematic diagram that the present invention is applicable to the hobbing-type cycling intelligent modelling system of child；

Fig. 3 is the three dimensional structure schematic diagram of bascule in Fig. 2；

Fig. 4 is the explosive view of Fig. 3 bascule；

Fig. 5 is the three dimensional structure schematic diagram of the numerous embodiments of stopping means in Fig. 3；

Fig. 6 is the three dimensional structure schematic diagram that in Fig. 3, stopping means and revolving meber are integrated；

Fig. 7 is the three dimensional structure schematic diagram of Fig. 2 intermediate roll device；

Fig. 8 is the explosive view of Fig. 7 intermediate roll device；

Fig. 9 is the three dimensional structure schematic diagram of drum apparatus；

Figure 10 is the explosive view of Fig. 9 intermediate roll device；

Three dimensional structure schematic diagram when Figure 11 is that in Fig. 2, front wheel turns left；

Three dimensional structure schematic diagram when Figure 12 is that in Fig. 2, front wheel turns right；

Figure 13 be stepping bicycle foot-operated time four regions (power zone, transition region, power zone, transition region) structural representation.

nullSymbol description in figure: 1、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，1-1-2-3、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、Tooth bar，1-1-6、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、Cylinder，1-2-3、Flying wheel，1-2-4、Gear one，1-2-5、Gear two，1-2-6、Fixing axle，2、Intelligent controlling device，3、Device for converting electric energy，4、Power-adjustable load，5、Mobile terminal，6、Front wheel，7、Bicycle rear.

Detailed description of the invention

Below in conjunction with Figure of description and specific embodiment, present invention is described in detail:

As shown in Fig. 1-Figure 13, for a kind of hobbing-type cycling intelligent modelling system suitable in child provided by the invention, as it is shown in figure 1, this 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, described hobbing-type bike riding-balance simulator 1 produces mechanical energy and is converted to electric energy by device for converting electric energy 3 by riding, and the parameter of riding of hobbing-type bike riding-balance simulator 1 is sent to intelligent controlling device 2；

Intelligent controlling device 2, connect hobbing-type bike riding-balance simulator 1, device for converting electric energy 3 and power-adjustable load 4 respectively, and be connected with mobile terminal 5 communication, described intelligent controlling device 2 receives the power loading parameter of ride parameter and power-adjustable load 4 transmission that hobbing-type bike riding-balance simulator 1 transmits, is forwarded to mobile terminal 5 after treatment in real time；

Device for converting electric energy 3, connects hobbing-type bike riding-balance simulator 1, power-adjustable load 4 and intelligent controlling device 2 respectively, and described device for converting electric energy 3 is powered for intelligent controlling device 2 and power-adjustable load 4；

Power-adjustable load 4, connects intelligent controlling device 2 and device for converting electric energy 3 respectively, is used for consuming electric energy produced by device for converting electric energy 3, and sends the power loading parameter of generation to intelligent controlling device 2；

Mobile terminal 5, is connected with intelligent controlling device 2, and sends instructions to intelligent controlling device 2 by mobile terminal 5 and arrange the power loading parameter of power-adjustable load 4.Mobile terminal 5 can pass through wired connection, it is also possible to passes through wireless connections.Mobile terminal 5 can be mobile phone, flat board, hand-held PDA etc..

As shown in Figure 2, described hobbing-type bike riding-balance simulator 1 includes the bascule 1-1 for placing front wheel 6 and is positioned at the drum apparatus 1-2 for placing bicycle rear 7 at bascule 1-1 rear, as shown in Figure 7, Figure 8, described drum apparatus 1-2 includes frame 1-2-1 and is rotationally connected with frame 1-2-1 rear and front end and two the cylinder 1-2-2 arranged along left and right horizontal direction, it is provided with more than one flying wheel 1-2-3, described flying wheel 1-2-3 and cylinder 1-2-2 between described frame 1-2-1 and cylinder 1-2-2 to be connected transmission.

As it is shown in figure 1, described intelligent controlling device 2 includes:

Process chip, connect sensor assembly, communication module, energy supply control module and power-adjustable load 4 respectively, for receiving the power loading parameter of ride parameter and the power-adjustable load 4 of the hobbing-type bike riding-balance simulator 1 that sensor assembly transmits, mobile terminal 5 it is forwarded in real time through communication module after process, and after receiving, by communication module, the instruction that mobile terminal 5 sends, the power loading parameter of power-adjustable load 4 is set according to instruction；

Sensor assembly, connection processes chip and hobbing-type bike riding-balance simulator 1 respectively, for receive that hobbing-type bike riding-balance simulator 1 transmits ride parameter and parameter of riding is sent to process chip；

Communication module, is connected with process chip and mobile terminal 5 respectively, is sent to mobile terminal 5 for the data after being processed by treated chip, and the instruction that mobile terminal 5 sends is sent to process chip；

Energy supply control module, is connected with process chip, power supply output module and device for converting electric energy 3 respectively, for being supplied to process chip and power supply output to simulate after receiving 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 be able to reduce the center of gravity of cycling and be convenient for carrying, the diameter of described cylinder 1-2-2 is 16～55mm, and the weight of described cylinder 1-2-2 is 100-5000g.

In order to adapt to child's bicycle and can reduce riding resistance, making to ride more smooth and easy, the wheelbase of two cylinder 1-2-2 is 100-145mm.

Inertia in order to better profit from flying wheel when transition region drives cylinder to rotate, and the diameter of described flying wheel 1-2-3 is 30-165mm, and the weight of described flying wheel 1-2-3 is 12-460g.

As shown in Figure 7, Figure 8, in order to make flying wheel can be attached transmission with cylinder better, frame 1-2-1 is rotatably connected to four flying wheel 1-2-3, each flying wheel 1-2-3 is coaxially installed with gear one 1-2-4, described cylinder 1-2-2 is coaxially installed with gear two 1-2-5 of the transmission that is meshed with gear one 1-2-4.Other kind of drive can certainly be adopted, such as sprocket wheel chain drive, belt pulley drive, permanent magnet transmission etc., it is also possible to adopt Multi-stage transmission as required.Flying wheel 1-2-3 can also be fixedly installed on cylinder 1-2-2 both sides (as shown in Figure 9, Figure 10), it is also possible to is fixedly installed in cylinder 1-2-2.

As shown in Figure 2 and Figure 3, for riding of analog bicycle better, described hobbing-type bike riding-balance simulator 1 includes the bascule 1-1 for placing front wheel 6 and is positioned at the drum apparatus 1-2 for placing bicycle rear 7 at bascule 1-1 rear；nullDescribed bascule 1-1 includes base 1-1-1、It is slidably connected to the sliding part 1-1-2 on base 1-1-1、It is rotationally connected with the revolving meber 1-1-3 on sliding part 1-1-2 and swing component 1-1-4 that one end is fixedly connected on revolving meber 1-1-3，The other end of described swing component 1-1-4 is curved and is provided with the gear teeth 1-1-4-1 of arcuately limit continuous distribution，The center of circle of described arc and being rotationally connected of revolving meber 1-1-3 a little coincide，Described base 1-1-1 is fixed with the tooth bar 1-1-5 being meshed with gear teeth 1-1-4-1，Described revolving meber 1-1-3 is additionally provided with for limiting the stopping means 1-1-6 that front wheel 6 horizontally slips，Described intelligent controlling device 2、Device for converting electric energy 3、Power-adjustable load 4 is fixedly arranged on drum apparatus 1-2.The shape of described stopping means 1-1-6 is not limited solely to the mode of the present embodiment, as long as front wheel 6 can be limited to horizontally slip, it can be shape as shown in Figure 4, can also be as shown in Figure 5 variously-shaped, it can also be other shape, dismountable mode can be made, it is also possible to be made of one (as shown in Figure 6) with revolving meber 1-1-3 with revolving meber 1-1-3.

In order to improve the revolving meber 1-1-3 motility rotated, as shown in Figure 4, the middle part of described sliding part 1-1-2 is provided with bearing block 1-1-2-1, described bearing block 1-1-2-1 is provided with two bearing 1-1-2-2 side by side, bearing 1-1-2-2 is arranged over bearing plate to limit moving axially of bearing 1-1-2-2, moving axially of bearing outer ring is limited also by the mode installing endoporus jump ring, it is installed with gyroaxis 1-1-3-1 in the middle part of described revolving meber 1-1-3, described gyroaxis 1-1-3-1 is inserted on the endoporus of two bearing 1-1-2-2 to realize being rotationally connected of revolving meber 1-1-3 and sliding part 1-1-2.

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, described gyroaxis 1-1-3-1 lower end adopts screw thread to be installed with the anti-1-1-7 that raises one's hat, the bigger diameter end of the described anti-1-1-7 that raises one's hat matches with base 1-1-1 lower surface, and described base 1-1-1 is provided with the bar shaped escape groove 1-1-1-1 matched with anti-1-1-7 movement locus of raising one's hat.The mousing-hook that can certainly take other form.

In order to ensure that sliding part 1-1-2 slides neatly on base, as shown in Figure 4, described sliding part 1-1-2 is provided with the roller 1-1-2-3 being rotationally connected of six, and described base 1-1-1 is provided with the raceway 1-1-1-2 matched with roller 1-1-2-3.Roller 1-1-2-3 is connected with sliding part 1-1-2 by bolt, and the quantity of roller 1-1-2-3 more than three, concrete quantity can be determined according to the length of sliding part 1-1-2 and load capacity.Being slidably connected of alternate manner can certainly be adopted, such as line rail, hard rail etc..

In order to make sliding part 1-1-2 without departing from raceway, the left and right sides of described base 1-1-1 erects limited location plate 1-1-8 respectively；In order to slow down the sliding part 1-1-2 collision to limiting plate 1-1-8, improving the life-span of limiting plate 1-1-8, each limiting plate 1-1-8 end face inwardly is installed with cushion pad 1-1-9 respectively.

In order to make base 1-1-1 and earth surface more steady, the lower surface of described base 1-1-1 is installed with rubber cushion 1-1-10.Alternate manner can certainly be adopted, as the lower surface at base 1-1-1 installs vacuum cup.

As shown in Figure 7, in order to utilize the mechanical energy that cylinder rotates to generate electricity, described drum apparatus 1-2 also includes the two fixing axle 1-2-6 being fixedly arranged on frame 1-2-1 rear and front end and arranging along left and right horizontal direction, described cylinder 1-2-2 is rotationally connected with on fixing axle 1-2-6, arbitrary fixing axle 1-2-6 or two fixing axle 1-2-6 is equipped with stator, described cylinder 1-2-2 inwall is provided with the rotor matched with stator, and described stator is all connected with device for converting electric energy 3 with rotor.Sensor assembly includes transducer probe assembly and and the sensor sensing point that sensor chip is connected with sensor chip.Sensor sensing point is arranged on the sidewall of cylinder 1-2-2, and transducer probe assembly is fixedly arranged on frame 1-2-1 for obtaining the information of sensor sensing point.Cylinder 1-2-2 can pass through intelligent controlling device 2 and be arranged to motorized pulleys, dependence carries rechargable power supplies or external power supply, make it rotate, directly drive bicycle rear 7, so it is easy to abecedarian and attentively experiences the control of balance, old bicyclist can reduce exercise intensity, it is possible to loosens arrangement as post exercise, etc..

As shown in figure 13, bicycle is in actual ride, it is that both feet replace process firmly on the pedal of bicycle left and right in fact, namely pedal is with bicycle middle shaft for the center of circle, round four regions (power zone A, transition region B, power zone C, transition region D) repeat to do circular motion, it is necessary to the inertia by bicycle moving forward completes to seamlessly transit when from a power zone to next power zone transition.Region A is the power zone pedaling left threading, and region C is the power zone pedaling right threading.The rotatory inertia being necessary for taking turns rearward when being positioned on simulator by bicycle carrys out the proal inertia of analog bicycle, thus completing seamlessly transitting of transition region.

The operation principle of this invention is: be first fixed on the fixation clamp of hundle-bar by the mobile phone of unlatching, it is then turned on the on and off switch of intelligent controlling device, mobile phone is connected by wired or wireless mode with intelligent controlling device 2, again the front-wheel 6 of bicycle is placed on the stopping means 1-1-6 on bascule 1-1, bicycle rear is positioned on drum apparatus 1-2, then rides.As in figure 2 it is shown, when the people on hobbing-type bike riding-balance simulator 1 does not twist bicycle handle bar, revolving meber 1-1-3 is in the centre position on base 1-1-1.As shown in figure 11, when the people on hobbing-type bike riding-balance simulator 1-1 twists bicycle handle bar to the left, the front wheel 6 being placed in stopping means 1-6 will be stirred revolving meber 1-1-3 and rotate counterclockwise centered by gyroaxis 1-1-3-1, revolving meber 1-1-3 drives swing component 1-1-4 to swing to the right, forcing the gear teeth 1-1-4-1 on swing component 1-1-4 to roll to the left along tooth bar 1-1-5, the gyroaxis 1-1-3-1 on revolving meber 1-1-3 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.After front wheel 6 shifts to left side, the bicycle rear 7 rolled on cylinder 1-2-2 just rolls automatically to the left.Vice versa, and 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 all can move right.Bicycle quick to the left, the speed of the size of the momentum that moves right and the speed of the translational speed size and riding speed that swing bicycle handlebar angle to cyclist be all directly proportional, it is achieved thereby that the simulated operation of riding-balance.When foot-operated be in power zone time, trailing wheel 7 can pass through gear two 1-2-5 and gear one 1-2-4 and drive flying wheel 1-2-3 high speed rotating, when foot-operated be in transition region time, effect of inertia due to flying wheel 1-2-3, flying wheel 1-2-3 can pass through again gear one 1-2-4 and gear two 1-2-5 and drive cylinder 1-2-2 to rotate, cylinder 1-2-2 drives bicycle rear 7 to rotate, thus completing power zone seamlessly transitting to another power zone, due to the fact that and be provided with flying wheel, it is thus possible to greatly reduce external diameter and the quality of cylinder, not only reduce the centre-of-gravity of bicycle, make child, old man and the abecedarian more security, and be convenient for carrying and receive.The parameters such as the rotating speed of cylinder 1-2-2 of the present invention, riding resistance can be shown on mobile phone in real time, operator can Real Time Observation motion, game or various parameters and the video such as match by mobile phone screen, the power of power-adjustable load 4 can also be set by mobile phone, riding resistance is changed, adapts to the requirement of different training strength.The electricity that sends when cylinder 1-2-2 rotates, it is possible to become conventional voltage through energy supply control module and access power supply output module, provides electric energy to the sound of environment, the effect such as optical, electrical, it is also possible to be connected with charger, charge to electronic products such as computer cell phones.Mobile terminal 5 together carries out body-building game or match also by friend or the team in internet platform and strange land.

Technical scheme is simply explained in detail by above-mentioned detailed description of the invention, and the present invention is not only limited only to above-described embodiment, every any improvement according to the principle of the invention or replacement, all should within protection scope of the present invention.

Claims (10)

1. the hobbing-type cycling intelligent modelling system being applicable to child, it is characterised in that this 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), described hobbing-type bike riding-balance simulator (1) produces mechanical energy and is converted to electric energy by device for converting electric energy (3) by riding, and the parameter of riding of hobbing-type bike riding-balance simulator (1) is sent to intelligent controlling device (2)；

Intelligent controlling device (2), connect hobbing-type bike riding-balance simulator (1), device for converting electric energy (3) and power-adjustable load (4) respectively, and be connected with mobile terminal (5) communication, the power loading parameter that what described intelligent controlling device (2) received that hobbing-type bike riding-balance simulator (1) transmits ride parameter and power-adjustable load (4) transmits, is forwarded to mobile terminal (5) after treatment in real time；

Device for converting electric energy (3), connecting hobbing-type bike riding-balance simulator (1), power-adjustable load (4) and intelligent controlling device (2) respectively, described device for converting electric energy (3) is powered for intelligent controlling device (2) and power-adjustable load (4)；

Power-adjustable load (4), connect intelligent controlling device (2) and device for converting electric energy (3) respectively, for consuming electric energy produced by device for converting electric energy (3) to, and the power loading parameter of generation is sent intelligent controlling device (2)；

Mobile terminal (5), is connected with intelligent controlling device (2), and is sent instructions to intelligent controlling device (2) arranged the power loading parameter of power-adjustable load (4) by mobile terminal (5)；

Described hobbing-type bike riding-balance simulator (1) includes the bascule (1-1) for placing front wheel (6) and is positioned at the drum apparatus (1-2) being used for placing bicycle rear (7) at bascule (1-1) rear, described drum apparatus (1-2) includes frame (1-2-1) and is rotationally connected with frame (1-2-1) rear and front end and two cylinders (1-2-2) arranged along left and right horizontal direction, more than one flying wheel (1-2-3) it is provided with between described frame (1-2-1) and cylinder (1-2-2), described flying wheel (1-2-3) is connected with cylinder (1-2-2) transmission.

2. the hobbing-type cycling intelligent modelling system suitable in child according to claim 1, it is characterised in that described intelligent controlling device (2) including:

Process chip, connect sensor assembly, communication module, energy supply control module and power-adjustable load (4) respectively, for receiving the power loading parameter of ride parameter and the power-adjustable load (4) of hobbing-type bike riding-balance simulator (1) that sensor assembly transmits, mobile terminal (5) it is forwarded in real time through communication module after process, and after receiving, by communication module, the instruction that mobile terminal (5) sends, the power loading parameter of power-adjustable load (4) is set according to instruction；

Sensor assembly, connection processes chip and hobbing-type bike riding-balance simulator (1) respectively, is used for receiving that hobbing-type bike riding-balance simulator (1) transmits rides parameter and parameter of riding is sent to process chip；

Communication module, is connected with process chip and mobile terminal (5) respectively, is sent to mobile terminal (5) for the data after being processed by treated chip, and the instruction that mobile terminal (5) sends is sent to process chip；

Energy supply control module, respectively with process chip, power supply output module and device for converting electric energy (3) are connected, are supplied to process chip and power supply output to simulate after being used for receiving 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.

3. the hobbing-type cycling intelligent modelling system suitable in child according to claim 1, it is characterised in that: the diameter of described cylinder (1-2-2) is 16～55mm, and the weight of described cylinder (1-2-2) is 100-5000g.

4. the hobbing-type cycling intelligent modelling system suitable in child according to claim 1, it is characterised in that: the wheelbase of two cylinders (1-2-2) is 100-145mm.

5. the hobbing-type cycling intelligent modelling system suitable in child according to claim 1, it is characterised in that: the diameter of described flying wheel (1-2-3) is 30-165mm, and the weight of described flying wheel (1-2-3) is 12-460g.

6. the hobbing-type cycling intelligent modelling system suitable in child according to claim 1, it is characterized in that: described flying wheel (1-2-3) is rotationally connected with in frame (1-2-1), described flying wheel (1-2-3) is coaxially installed with gear one (1-2-4), described cylinder (1-2-2) is coaxially installed with the gear two (1-2-5) of the transmission that is meshed with gear one.

null7. the hobbing-type cycling intelligent modelling system suitable in child according to claim 1，It is characterized in that: described bascule (1-1) includes base (1-1-1)、It is slidably connected to the sliding part (1-1-2) on base (1-1-1)、It is rotationally connected with the revolving meber (1-1-3) on sliding part (1-1-2) and swing component (1-1-4) that one end is fixedly connected on revolving meber (1-1-3)，The other end of described swing component (1-1-4) is curved and is provided with the gear teeth (1-1-4-1) of arcuately limit continuous distribution，The center of circle of described arc and being rotationally connected of revolving meber (1-1-3) a little coincide，Described base (1-1-1) is fixed with the tooth bar (1-1-5) being meshed with the gear teeth (1-1-4-1)，Described revolving meber (1-1-3) is additionally provided with for limiting the stopping means (1-1-6) that front wheel (6) horizontally slips，Described intelligent controlling device (2)、Device for converting electric energy (3)、Power-adjustable load (4) is fixedly arranged on drum apparatus (1-2).

8. the hobbing-type cycling intelligent modelling system suitable in child according to claim 7, it is characterized in that: the middle part of described sliding part (1-1-2) is provided with bearing block (1-1-2-1), described bearing block (1-1-2-1) is provided with at least one bearing (1-1-2-2), described revolving meber (1-1-3) middle part is installed with gyroaxis (1-1-3-1), and described gyroaxis (1-1-3-1) is inserted on the endoporus of bearing (1-1-2-2) to realize being rotationally connected of revolving meber (1-1-3) and sliding part (1-1-2).

9. the hobbing-type cycling intelligent modelling system suitable in child according to claim 8, it is characterized in that: described gyroaxis (1-1-3-1) lower end employing screw thread is installed with to be prevented raising one's hat (1-1-7), the bigger diameter end of described anti-raise one's hat (1-1-7) matches with base (1-1-1) lower surface, and described base (1-1-1) is provided with the bar shaped escape groove (1-1-1-1) matched with anti-(1-1-7) movement locus of raising one's hat.

10. the hobbing-type cycling intelligent modelling system being applicable to child according to any one of claim 1-9, it is characterized in that: described drum apparatus (1-2) also includes the two fixing axles (1-2-6) being fixedly arranged on frame (1-2-1) rear and front end and arranging along left and right horizontal direction, described cylinder (1-2-2) is rotationally connected with on fixing axle (1-2-6), arbitrary fixing axle (1-2-6) or two fixing axles (1-2-6) are equipped with stator, described cylinder (1-2-2) inwall is provided with the rotor matched with stator, described stator is all connected with device for converting electric energy (3) with rotor.