CN108066996A - Electronic acceleration Climbing top Yo-Yo - Google Patents

Abstract

The invention discloses a kind of electronic acceleration Climbing top Yo-Yo, the electronic acceleration Climbing top Yo-Yo includes：Rotary components；The drive component rotated for the rotary components to be driven to accelerate, the driving component are located in the rotary components；Manipulate part, manipulation part being axially movably located on the rotary components along the rotary components, to engage or separate with the driving component；For detecting the steering detection device that the rotary components turn to, the steering detection device is located in the rotary components and is connected with the driving component, when the manipulation part is engaged with the driving component, the detection device that turns to is triggered to control the driving component that the rotary components is driven to accelerate rotation according to original rotation direction；Power supply module, the power supply module are electrically connected with the steering detection device.Electronic acceleration Climbing top Yo-Yo according to embodiments of the present invention, accelerator abrasion is low, and service life is long and operational process is more stablized, is reliable.

Description

Electronic acceleration Climbing top Yo-Yo

Technical field

The present invention relates to toy technique field, more particularly, to a kind of electronic acceleration Climbing top Yo-Yo.

Background technology

At present, the electronic acceleration Climbing top Yo-Yo with acceleration function is increasingly subject to liking for children, in correlation technique, Usually by being equipped with side component in the one side of electronic acceleration Climbing top Yo-Yo, electronic acceleration Climbing top Yo-Yo is internally provided with rubbing device, passes through Side component is pressed side component and rubbing device to be made to contact and under the action of frictional force so that rubbing device opposite side component It rotates, and by accelerator friction pulley is driven to accelerate to rotate, electronic acceleration Climbing top Yo-Yo is thus driven to accelerate to rotate.

Due to being the opposite fortune that side component and rubbing device are realized by phase mutual friction between side component and rubbing device Dynamic, in the course of work is accelerated, the serious wear of side component and rubbing device, thus will substantially reduce product uses the longevity Life.

The content of the invention

It is contemplated that at least solve one of technical problem in the prior art.For this purpose, the present invention proposes a kind of electricity Dynamic to accelerate Climbing top Yo-Yo, the accelerator abrasion of the electronic acceleration Climbing top Yo-Yo is low, service life is long and operational process is more stablized, Reliably.

Electronic acceleration Climbing top Yo-Yo according to embodiments of the present invention, including：Rotary components；For the rotary components to be driven to add The drive component that speed rotates, the driving component are located in the rotary components；Part is manipulated, the part that manipulates is along the rotation group Part is axially movably located on the rotary components, to engage or separate with the driving component；For detecting the rotation Turn the steering detection device of component steering, the steering detection device be located in the rotary components and with the driving component phase Even, when the manipulation part is engaged with the driving component, the steering detection device is triggered to control the driving component The rotary components is driven to accelerate rotation according to original rotation direction；Power supply module, the power supply module are examined with described turn to Survey device electrical connection.

Electronic acceleration Climbing top Yo-Yo according to embodiments of the present invention engages to realize drive between part and drive component by manipulating Dynamic Component driver rotary components accelerate rotation according to original rotation direction, add it is possible thereby to substantially reduce electronic acceleration Climbing top Yo-Yo Abrasion during speed, so as to improve the service life of electronic acceleration Climbing top Yo-Yo, and operational process is more stablized, is reliable.

In addition, electronic acceleration Climbing top Yo-Yo according to embodiments of the present invention, can also have following additional technical feature：

According to one embodiment of present invention, the driving component includes：First drive gear；Second drive gear, institute It states the second drive gear and is rotatably arranged at the manipulation part and first sliding tooth around the rotation axis of the rotary components Between wheel, second drive gear adjacent to one end of first drive gear be equipped with first annular sawtooth portion, described second Drive gear is equipped with the second band saw teeth portion adjacent to one end of the manipulation part, and the first annular sawtooth portion drives with described first Moving gear often engages, and the second band saw teeth portion can be engaged or separated with the manipulation part；Motor, the motor include body And machine shaft, the body are electrically connected with the steering detection device, the machine shaft and the first drive gear phase Linkage, when manipulation part and the second circular saw part from when, first drive gear and second sliding tooth Take turns it is opposing stationary, and with the rotary components around the rotary components rotation axis rotate synchronously；When the manipulation part and institute State the second band saw teeth portion engagement when, second drive gear with it is described manipulate part it is opposing stationary, and with the rotary components Rotation axis around the rotary components relatively rotates, and first drive gear is with the rotary components around the rotary components Rotation axis rotate synchronously.

Optionally, (the first back-moving spring is equipped between the manipulation part and second drive gear, described first resets It moves in the direction that spring often promotes the manipulation part to be directed away from second drive gear.

Optionally, driving member is equipped between the motor and first drive gear, the driving member includes：First tooth Wheel, the first gear are located on the machine shaft；Second gear, the second gear and first drive gear are coaxial It is connected；Intermediate gear, the intermediate gear engage cooperation with the first gear and the second gear respectively.

According to one embodiment of present invention, the steering detection device includes：Detect control module, the detection control Module is used to detect the steering of the rotary components, and controls the driving component that the rotary components is driven to turn according to original Dynamic direction accelerates rotation；Inductive switch, the inductive switch connection detection control module and the power supply module, the sense Inductive switch is in normal off open state, when the manipulation part movement is controlled to be engaged with the driving component, the inductive switch quilt Triggering switches to closure state.

Optionally, the electronic acceleration Climbing top Yo-Yo further includes switching protective device, and the switching protective device is located at rotation In component, the switching protective device includes：Cross bar, the cross bar are movably arranged at the manipulation part and the inductive switch Between with the inductive switch coordinate or separate；Ball, the ball are rotatably arranged on the cross bar, and the ball At least a portion protrude the cross bar towards the manipulation part, it is described when the manipulation part is engaged with the driving component Part is manipulated with the ball engagement to drive the cross bar mobile towards the inductive switch and coordinate with the inductive switch.

Preferably, the switching protective device further includes second back-moving spring, the both ends difference of the second back-moving spring It is only against on the inner wall of the cross bar and the rotary components, the second back-moving spring drives the cross bar to be opened with the sensing Close often separation.

Optionally, the limited block that the inner wall of the rotary components protrudes is provided on the cross bar, the limited block can It is only supported with the inner wall of the rotary components.

Optionally, the rotary components include：Connector；First rotary body and the second rotary body, first rotary body It is each attached to second rotary body on the connector.

Preferably, the connector is formed as column shape, and the manipulation part and second drive gear rotationally cover It is located on the connector, clutch shaft bearing is equipped between second drive gear and the connector, is set on the connector There is the first locating part, the clutch shaft bearing is supported on first locating part；It is set between the manipulation part and the connector There is second bearing, the end of the connector is equipped with the second locating part to limit the moving displacement of the second bearing.

The additional aspect and advantage of the present invention will be set forth in part in the description, and will partly become from the following description It obtains substantially or is recognized by the practice of the present invention.

Description of the drawings

The above-mentioned and/or additional aspect and advantage of the present invention will become in the description from combination accompanying drawings below to embodiment Substantially and it is readily appreciated that, wherein：

Fig. 1 is the structure diagram of electronic acceleration Climbing top Yo-Yo according to embodiments of the present invention；

Fig. 2 is the part-structure schematic diagram of electronic acceleration Climbing top Yo-Yo according to embodiments of the present invention；

Fig. 3 is the part-structure schematic diagram (from another viewpoint) of electronic acceleration Climbing top Yo-Yo shown in Fig. 2；

Fig. 4 is the part-structure schematic diagram of electronic acceleration Climbing top Yo-Yo shown in Fig. 2 (in terms of another angle)；

Fig. 5 is the sectional view of electronic acceleration Climbing top Yo-Yo according to embodiments of the present invention；

Fig. 6 is the part-structure schematic diagram of electronic acceleration Climbing top Yo-Yo according to embodiments of the present invention；

Fig. 7 is the part-structure schematic diagram of electronic acceleration Climbing top Yo-Yo according to embodiments of the present invention；

Fig. 8 is the part-structure schematic diagram of electronic acceleration Climbing top Yo-Yo according to embodiments of the present invention；

Fig. 9 is the part-structure schematic diagram of electronic acceleration Climbing top Yo-Yo according to embodiments of the present invention；

Figure 10 is the part-structure schematic diagram of electronic acceleration Climbing top Yo-Yo according to embodiments of the present invention.

Reference numeral：

Electronic acceleration Climbing top Yo-Yo 100；

Rotary components 1；

Drive component 2；First drive gear 21；

Second drive gear 22；First annular sawtooth portion 221；Second band saw teeth portion 222；

Motor 23；Body 231；Machine shaft 232；

Manipulate part 3；(the first back-moving spring 31；

Turn to detection device 4；Inductive switch 41；Pcb board 42；

Power supply module 5；

Driving member 6；First gear 61；Second gear 62；Intermediate gear 63；

Switching protective device 7；Cross bar 71；Limited block 711；

Ball 72；

Second back-moving spring 73；

First rotary body 101；Shell 1011；End cap 1012；Placed cavity 1013；

Second rotary body 102；

Connector 103；First dentation positioning protrusion 1031；Second dentation positioning protrusion 1032；Clutch shaft bearing 1033；Second Bearing 1034；First locating part 1035；Second locating part 1036.

Specific embodiment

The embodiment of the present invention is described below in detail, the example of the embodiment is shown in the drawings, wherein from beginning to end Same or similar label represents same or similar element or has the function of same or like element.Below with reference to attached The embodiment of figure description is exemplary, and is only used for explaining the present invention, and is not considered as limiting the invention.

In the description of the present invention, it is to be understood that term " top ", " bottom " " interior ", " outer ", " clockwise ", " inverse time The orientation or position relationship of the instructions such as pin ", " axial direction ", " circumferential direction " be based on orientation shown in the drawings or position relationship, be only for Convenient for the description present invention and simplify description rather than instruction or imply that signified device or element there must be specific side Position, with specific azimuth configuration and operation, therefore be not considered as limiting the invention.

In the description of the present invention, it is necessary to illustrate, unless otherwise clearly defined and limited, term " installation ", " phase Even ", " connection " should be interpreted broadly, for example, it may be being fixedly connected or being detachably connected or be integrally connected；It can To be mechanical connection or be electrically connected；It can be directly connected, can also be indirectly connected by intermediary, Ke Yishi Connection inside two elements.For the ordinary skill in the art, with concrete condition above-mentioned term can be understood at this Concrete meaning in invention.

Below with reference to Fig. 1-Figure 10 descriptions electronic acceleration Climbing top Yo-Yo 100 according to embodiments of the present invention.

As shown in Fig. 1-Fig. 7, electronic acceleration Climbing top Yo-Yo 100 according to embodiments of the present invention includes：Rotary components 1, driving Component 2, manipulation part 3 turn to detection device 4 and power supply module 5.

For rotary components 1 to be driven to accelerate to rotate, drive component 2 is located in rotary components 1 drive component 2,3 edge of manipulation part Rotary components 1 are axially movably located on rotary components 1, and to engage or separate with drive component 2, manipulation part 3 passes through edge The axial movement of rotary components 1 can be engaged or separated with the drive component 2 being located in rotary components 1, specifically, when manipulation part 3 Along rotary components 1 when being axially facing neighbouring 2 position of drive component and moving, manipulation part 3 can be engaged with drive component 2, work as manipulation Part 3 along rotary components 1 be axially facing away from 2 position of drive component move when, manipulation part 3 can be separated with drive component 2.It turns to Detection device 4 is used to detect the steerings of rotary components 1, turn to detection device 4 be located in rotary components 1 and with 2 phase of drive component Even, when manipulation part 3 is engaged with drive component 2, turn to detection device 4 and be triggered that drive component 2 is controlled to drive rotary components 1 Accelerate rotation according to original rotation direction, power supply module 5 with turn to detection device 4 be electrically connected with to steering detection device 4 into Row power supply.

Specifically, when needing to accelerate electronic acceleration Climbing top Yo-Yo 100, manipulation part 3 can be controlled along rotation group The axial movement of part 1 so that manipulation part 3 is engaged towards movement at neighbouring 2 position of drive component with drive component 2, when manipulation part 3 It when being engaged with drive component 2, turns to detection device 4 and is triggered, turn to detection device 4 and start to detect the rotation side of rotary components 1 To, and control drive component 2 that rotary components 1 is driven to accelerate rotation according to original rotation direction according to testing result.

Electronic acceleration Climbing top Yo-Yo 100 according to embodiments of the present invention, by manipulate engaged between part 3 and drive component 2 come Realize that drive component 2 drives rotary components 1 to accelerate rotation according to original rotation direction, it is possible thereby to substantially reduce electronic acceleration Abrasion in 100 accelerator of Climbing top Yo-Yo, so as to improve the service life of electronic acceleration Climbing top Yo-Yo 100, and operational process is more Add and stablize, is reliable.

In one embodiment of the invention, as shown in Fig. 2-Fig. 7, drive component 2 includes the first drive gear 21, the Two drive gears 22 and motor 23.Specifically, the second drive gear 22 is rotatably arranged at around the rotation axis of rotary components 1 Between manipulation 3 and first drive gear 21 of part, that is to say, that the second drive gear 22 is located at manipulation 3 and first drive gear of part Between 21, and the second drive gear 22 can be rotated around the rotation axis of rotary components 1, and the second drive gear 22 is adjacent to the first driving One end of gear 21 is equipped with first annular sawtooth portion 221, and one end of 22 neighbouring manipulation part 3 of the second drive gear is equipped with the second annular Sawtooth portion 222, first annular sawtooth portion 221 are often engaged with the first drive gear 21, and the second band saw teeth portion 222 can be with manipulating part 3 engagements or separation, motor 23 include body 231 and machine shaft 232, and body 231 is electrically connected with turning to detection device 4, motor Shaft 232 is connected with the first drive gear 21, when manipulation part 3 is separated with the second band saw teeth portion 222, the first drive gear 21 and second drive gear 22 it is opposing stationary, and with rotary components 1 around rotary components 1 rotation axis rotate synchronously, work as manipulation When part 3 is engaged with the second band saw teeth portion 222, the second drive gear 22 and manipulation part 3 it is opposing stationary, and with rotary components 1 around The rotation axis of rotary components 1 relatively rotates, and the first drive gear 21 is same around the rotation axis of rotary components 1 with rotary components 1 Step rotates, and is achieved in the accelerator of electronic acceleration Climbing top Yo-Yo 100.Below to the accelerator of electronic acceleration Climbing top Yo-Yo 100 It is described in detail：

(1) the electronic acceleration Climbing top Yo-Yo 100 to remain static is accelerated.

In initial state, 3 and second drive gear 22 of part is manipulated as discrete state, and the first drive gear 21, second Drive gear 22 and rotary components 1 are stationary state, can control axial court of the manipulation part 3 along rotary components 1 first at this time To neighbouring second drive gear, 22 direction movement to be engaged with the second drive gear 22, the second drive gear 22 and manipulation part 3 are nibbled It during conjunction, turns to detection device 4 and is triggered, and after the second drive gear 22 and manipulation part 3 engage, then manual rotation rotation group Part 1 is so that rotary components 1 are rotated according to the direction of defined, and the first drive gear 21 will be with rotary components 1 around rotation at this time The rotation axis of component 1 rotates synchronously, and since the second drive gear 22 and manipulation part 3 engage, manipulates 3 and second drive gear of part 22 is opposing stationary, and is relatively rotated with rotation axis of the rotary components 1 around rotary components 1, simultaneously because the first drive gear 21 With the second often engagement of drive gear 22, the first drive gear 21 is in the rotation axis rotation around rotary components 1, the first sliding tooth Wheel 21 will be rotated around the shaft of its own.Since 232 and first drive gear 21 of machine shaft is connected, the first drive gear 21 around its own shaft rotate will driving motor shaft 232 rotate, the steering detection device 4 being connected with 23 body 231 of motor The turn signal of machine shaft 232 will be received, due to the rotation of the turn signal and the first drive gear 21 of machine shaft 232 It is related, and the rotation of the first drive gear 21 is related with the rotation of rotary components 1, thus turns to detection device 4 and is turned according to motor The turn signal that axis 232 transfers is the rotation direction that can determine whether rotary components 1, turns to detection device 4 and is judging rotary components 1 Behind direction of rotation, it will it sends control signal and to motor 23 machine shaft 232 is controlled to accelerate to rotate according to original direction, motor Shaft 232, which accelerates to rotate, will drive the first drive gear 21 to accelerate to rotate around the shaft of its own, so as to drive the first driving Gear 21 accelerates to rotate around the rotation axis of rotary components 1, final that rotary components 1 is driven to accelerate rotation according to original direction.

It should be noted that in above-mentioned operating process, control manipulation part 3 is neighbouring along being axially facing for rotary components 1 Second drive gear, 22 direction is moved, can be after manual rotation rotary components 1, and operation order can be according to the habit of operator Used flexible transformation.

(2) the electronic acceleration Climbing top Yo-Yo 100 for being in rotation status is accelerated.

Since rotary components 1 have had rotated, when needing to spin up electronic acceleration Climbing top Yo-Yo 100, no It needs to rotate rotary components 1 manually.Original state i.e. at this time is：It is discrete state to manipulate 3 and second drive gear 22 of part, the One drive gear 21, the second drive gear 22 and rotary components 1 are rotated synchronously around the rotation axis of rotary components 1, at this time first Control manipulation part 3 along rotary components 1 be axially facing neighbouring second drive gear, 22 direction move with the second drive gear 22 When engagement, the second drive gear 22 and manipulation part 3 engage, turn to detection device 4 and be triggered, the first drive gear 21 will at this time It rotates synchronously with rotation axis of the rotary components 1 around rotary components 1, since the second drive gear 22 and manipulation part 3 engage, manipulates 3 and second drive gear 22 of part is opposing stationary, and is relatively rotated with rotation axis of the rotary components 1 around rotary components 1, while by In the first drive gear 21 and the second often engagement of drive gear 22, the first drive gear 21 is in the rotation axis around rotary components 1 During rotation, the first drive gear 21 will be rotated around the shaft of its own.Due to 232 and first drive gear of machine shaft, 21 phase Linkage, the first drive gear 21 around its own shaft rotate will driving motor shaft 232 rotate, with 23 body of motor, 231 phase Steering detection device 4 even will receive the turn signal of machine shaft 232, due to the turn signal of machine shaft 232 and the The rotation of one drive gear 21 is related, and the rotation of the first drive gear 21 is related with the rotation of rotary components 1, thus turns to inspection It is the rotation direction that can determine whether rotary components 1 to survey the turn signal that device 4 is transferred according to machine shaft 232, turns to detection device 4 After the direction of rotation of rotary components 1 is judged, it will send control signal and control machine shaft 232 according to original to motor 23 Direction accelerates to rotate, and machine shaft 232, which accelerates to rotate, will drive the first drive gear 21 to accelerate to rotate around the shaft of its own, It is final to drive rotary components 1 according to original so as to which the first drive gear 21 be driven to accelerate to rotate around the rotation axis of rotary components 1 Direction accelerate rotation.

In the above-described embodiments, the second drive gear 22 can be imperial crown gear, by make the second drive gear 22 the One band saw teeth portion 221 engages that the first drive gear 21 is driven to rotate around its own shaft with the first drive gear 21, and first Cooperation between 21 and second drive gear 22 of drive gear is stable, reliable, and the first drive gear 21 is in rotation process Suffered frictional force is smaller.In addition, by the way that the second band saw teeth portion 222 of the second drive gear 22 is made to be engaged with manipulation part 3, come It realizes the second drive gear 22 and manipulates the cooperation between part 3, the second drive gear of control 22 and manipulation part 3 keep opposing stationary State coordinates between the second drive gear 22 and manipulation part 3 and stablizes, and can be sent out to avoid 22 opposite manipulation part 3 of the second drive gear Raw play.

Optionally, the rotation axis of control manipulation part 3 along rotary components 1 is moved to be engaged with the second drive gear 22, can It is driven in a manner of manually pressing, and when manipulating the engagement of 3 and second drive gear 22 of part, Manual press control behaviour 3 and second drive gear 22 of control is opposing stationary, and is relatively rotated with rotation axis of the rotary components 1 around rotary components 1, example Such as, when rotary components 1 are in rotary state (rotating speed that rotary components 1 are rotated around its own axis at this time is more than zero), this When can control manually manipulation 3 and second drive gears of part it is 22 stationary (i.e. at this time manipulation 3 and second drive gear 22 of part around The rotating speed that the rotation axis of rotary components 1 rotates is zero) or manually to control manipulation 3 and second drive gear 22 of part around rotation The rotation axis of component 1 rotates, but the rotating speed of manipulation 3 and second drive gear 22 of part and the rotating speed of rotary components 1 are unequal.

Certain the application is not limited to this, and is also provided with that manipulation part 3 is controlled to move along rotation axis in rotary components 1 Dynamic control device, and the control device is accessed in the control system of electronic acceleration Climbing top Yo-Yo 100, it inputs in the controls The program that the control device works is controlled, it is necessary to when accelerating, user terminal only needs to send control signal, control system to control system After system receives the control signal, control device automatically controls manipulation part 3 and moves to coordinate with the second drive gear 22, thus makes The accelerator of electronic acceleration Climbing top Yo-Yo 100 more automates, manipulation process is simpler, conveniently.

Preferably, as shown in Figure 8, the second drive gear 22 and manipulation part 3 between be equipped with (the first back-moving spring 31, first The direction that resetting spring 31 often promotes manipulation part 3 to be directed away from the second drive gear 22 is moved, as a result, in electronic acceleration Climbing top Yo-Yo After the completion of 100 accelerate, under the action of second back-moving spring 73, manipulation 3 and second drive gear 22 of part is automatically separated, without hand Dynamic driving drives manipulation 3 and second drive gear 22 of part to separate using control device, so that electronic acceleration Climbing top Yo-Yo 100 acceleration manipulation process is simpler.As shown in Figure 8, (the first back-moving spring 31 can be set on connector 103, by This so that the positioning of (the first back-moving spring 31 is more reliable and more stable, improves the reliability that rotary components 1 accelerate manipulation.

In the specific example of the present invention, as shown in Fig. 2-Fig. 4 and Fig. 6-Fig. 7,23 and first sliding tooth of motor Driving member 6 is equipped between wheel 21, driving member 6 includes first gear 61, second gear 62 and intermediate gear 63, and first gear 61 is set On machine shaft 232, second gear 62 with the first drive gear 21 is coaxial is connected, intermediate gear 63 respectively with first gear 61 It engages and coordinates with second gear 62, intermediate gear 63 can only include a gear, can also include multiple gears, of gear Linked manner can carry out arbitrarily selected according to actual needs between number and gear.The rotation of first drive gear 21 passes through transmission Part 6 passes to machine shaft 232, and the rotation of machine shaft 232 equally will pass to the first drive gear by driving member 6 21, by setting driving member 6, the connection between 232 and first drive gear 21 of machine shaft, machine shaft 232 can be facilitated And the setting of the first 23 and first position in rotary components 1 of drive gear 21 of connection and motor between drive gear 21 More flexibly.

In one embodiment of the invention, as shown in fig. 4 and fig. 6, turning to detection device 4 includes detection control module (not shown) and inductive switch 41, detection control module are used to detect the steering of rotary components 1, and control 2 band of drive component Dynamic rotary components 1 accelerate rotation, 41 connecting detection control module of inductive switch and power supply module 5 according to original rotation direction, Inductive switch 41 is in normal off open state, and when the control manipulation movement of part 3 is engaged with drive component 2, inductive switch 41 is triggered Switch to closure state.

As shown in fig. 4 and fig. 6, turn to detection device 4 and further include pcb board 42, detect control module and inductive switch 41 It is each provided on pcb board 42, inductive switch 41 is located at the one side of the neighbouring manipulation part 3 of pcb board 42, when the control manipulation movement of part 3 makes When must manipulate part 3 and the engagement of drive component 2, manipulation part 3 is contacted with inductive switch 41, and inductive switch 41, which is triggered, switches to closure Thus state detects control module and is switched on, turns to detection device 4 and the rotation direction of rotary components 1 is detected and controlled Drive component 2 processed drives rotary components 1 to accelerate to rotate according to original direction.After the completion of the acceleration of rotary components 1, part 3 is manipulated It resets, manipulates part 3 and inductive switch 41 separates, inductive switch 41 is again at off-state.

It is appreciated that, it is fixed on due to turning to detection device 4 in rotary components 1, in accelerator, rotary components 1 It will be rotated synchronously with detection device 4 is turned to, in this rotation process, manipulation part 3 will be contacted with inductive switch 41 always, be grasped Control 3 and inductive switch 41 can be subject to a degree of abrasion, so work long hours, inductive switch 41 and manipulation part 3 it Between the sensitivity that contacts will reduce, even result in inductive switch 41 and damage.

For this purpose, in the preferable example of the present invention, as shown in fig. 4 and fig. 6, electronic acceleration Climbing top Yo-Yo 100 also wraps Switching protective device 7 is included, switching protective device 7 is located in rotary components 1 and switching protective device 7 includes cross bar 71 and ball 72, cross bar 71 is movably arranged between manipulation part 3 and inductive switch 41 to coordinate or separate with inductive switch 41, and ball 72 can It is rotationally located on cross bar 71 and at least a portion of ball 72 protrudes cross bar 71 towards manipulation part 3, when manipulation part 3 and driving group When part 2 engages, manipulation part 3 coordinates cross bar 71 is driven to move towards inductive switch 41 and with inductive switch 41 match somebody with somebody with ball 72 It closes.In the accelerator of electronic acceleration Climbing top Yo-Yo 100, manipulate part 3 and inductive switch 41 is not directly contacted with, manipulation part 3 and rolling Pearl 72 coordinates, and ball 72 revolves round the sun around manipulation part 3, is rolling friction between ball 72 and manipulation part 3, is opened it is possible thereby to reduce sensing The abrasion of 41 and manipulation part 3 is closed, by setting switching protective device 7, protection can be played to inductive switch 41 and manipulation part 3 and made With reducing inductive switch 41 and manipulate the abrasion of part 3, thus improve the reliability of electronic acceleration Climbing top Yo-Yo 100.

Preferably, switching protective device 7 further includes second back-moving spring 73, and the both ends of second back-moving spring 73 are only supported respectively On the inner wall of cross bar 71 and rotary components 1, second back-moving spring 73 drives cross bar 71 often to be separated with inductive switch 41.As a result, After the completion of the acceleration of electronic acceleration Climbing top Yo-Yo 100, manipulation part 3 resets under the action of (the first back-moving spring 31, and cross bar 71 will be It automatically resets under the action of second back-moving spring 73, inductive switch 41 disconnects automatically, it is possible thereby to facilitate control.Optionally, it is horizontal Positioning column (not shown) can be equipped between the inner wall of bar 71 and rotary components 1, second back-moving spring 73 can be set in fixed On the column of position, more stablize so that second back-moving spring 73 positions, is reliable.

Optionally, as shown in fig. 4 and fig. 6, the limited block that the inner wall of rotary components 1 protrudes is provided on cross bar 71 711, limited block 711 can only be supported with the inner wall of rotary components 1, by setting limited block 711 that can control the mobile position of cross bar 71 It moves, avoids 71 moving displacement of cross bar excessive and inductive switch 41 is caused to be subject to crushing, thus inductive switch 41 is further protected.

As shown in Fig. 1-Fig. 5, rotary components 1 can include the first rotary body 101, the second rotary body 102 and connector 103, the first rotary body 101 and the second rotary body 102 are each attached on connector 103.Wherein, the first rotary body 101 and second Rotary body 102 includes shell 1011 and end cap 1012, and the open placed cavity 1013 in one side, end cap 1012 are equipped in shell 1011 It is located on shell 1011 to close placed cavity 1013, shell 1011 can be formed as rotary body (such as the ball shown in Fig. 1-Fig. 5 Lack shape), thus not only facilitate the production and processing of rotary components 1, and 1 rotary course of rotary components is more steady, reliable.

Optionally, manipulation part 3 can be located at one end of the first rotary body 101, it is possible thereby to which control manipulation part 3 is facilitated to move Dynamic, drive component 2 and steering detection device 4 can be located in the placed cavity 1013 of the first rotary body 101, it is possible thereby to convenient It manipulates part 3, drive component 2 and turns to the connection and cooperation between detection device 4.Power supply module 5 can be located at the second rotary body In 102 placed cavity 1013, while counterweight can be equipped in the placed cavity 1013 of the second rotary body 102, with the first rotation of balance The center of gravity of 101 and second rotary body 102 of swivel so that the thus center of gravity position at its center of electronic acceleration Climbing top Yo-Yo 100 makes It is more steady to obtain electronic 100 rotation process of acceleration Climbing top Yo-Yo.

Optionally, the first rotary body 101 and the second rotary body 102 can be set on connector 103, the first rotary body 101 and second rotary body 102 it is at least one be equipped with dentation locating slot, connector 103 be equipped with mutually fitted with dentation locating slot The dentation positioning protrusion matched somebody with somebody.As shown in Fig. 5, Fig. 8-Figure 10, the fixation of shell 1011 of the first rotary body 101 is set in connector On 103, also fixation is set on connector 103 shell 1011 of the second rotary body 102, specifically, outside the first rotary body 101 Shell 1011 is equipped with the first location hole, and the shell 1011 of the second rotary body 102 is equipped with the second location hole, and connector 103 is located at In first location hole and the second location hole, that is to say, that the inner wall of the inner wall of the first location hole and the second location hole is respectively with connecting The lateral wall of fitting 103 is engaged, so as to fulfill the company between the first rotary body 101 and the second rotary body 102 and connector 103 It connects.In order to improve the reliability connected between the first rotary body 101, the second rotary body 102 and connector 103, on connector 103 Equipped with the first dentation positioning protrusion 1031 and the second dentation positioning protrusion 1032 set along its axially spaced-apart, accordingly, first The inner wall of location hole be equipped with 1031 matched first dentation locating slot of the first dentation positioning protrusion, the second location hole it is interior Wall be equipped with 1032 matched second dentation locating slot of the second dentation positioning protrusion, pass through the first dentation positioning protrusion 1031 Cooperation between the first dentation locating slot, the second dentation positioning protrusion 1032 and the second dentation locating slot, can cause first 101 and second rotary body 102 of rotary body is more firmly secured on connector 103, when rotary components 1 rotate, the first rotation It will not occur to rock relatively between the 101, second rotary body 102 of swivel and connector 103, thus promote product quality.

In the specific example of the present invention, as shown in Fig. 9-Figure 10, connector 103 is formed as column shape, manipulation 3 and second drive gear 22 of part is rotatably sleeved on connector 103, is set between the second drive gear 22 and connector 103 There is clutch shaft bearing 1033, connector 103 is equipped with the first locating part 1035, and clutch shaft bearing 1033 is supported on the first locating part 1035 On, manipulate and second bearing 1034 be equipped between part 3 and connector 103, the end of connector 103 be equipped with the second locating part 1036 with Limit the moving displacement of second bearing 1034.By setting clutch shaft bearing 1033 and second bearing 1034 so that manipulation part 3 and the Two drive gears 22 rotated around connector 103 it is more smooth, and can reduce manipulation part 3, the second drive gear 22 and connection The abrasion of part 103 improves the reliability of electronic 100 accelerator of acceleration Climbing top Yo-Yo and the operation longevity of electronic acceleration Climbing top Yo-Yo 100 Life.As shown in Fig. 9-Figure 10, the first locating part 1035 can be the annular protrusion structure being formed on 103 peripheral wall of connector, Second locating part 1036 can be " T-shaped " screw, simple in structure, facilitate production and assembling.

Below with reference to Fig. 1-Figure 10 to the specific work process that the electronic acceleration Climbing top Yo-Yo 100 of the embodiment of the present invention accelerates into Row is described in detail, wherein electronic acceleration Climbing top Yo-Yo 100 includes above-mentioned rotary components 1, manipulation part 3, drive component 2, steering inspection Survey device 4 and power supply module 5.Wherein drive component 2 includes the first above-mentioned drive gear 21, the second drive gear 22 and motor 23, turning to detection device 4 includes above-mentioned detection control module and inductive switch 41, and electronic acceleration Climbing top Yo-Yo 100 further includes Switching protective device 7, driving member 6, (the first back-moving spring 31 and second back-moving spring 73 for stating etc..

(1) the electronic acceleration Climbing top Yo-Yo 100 to remain static is accelerated.

In initial state, 3 and second drive gear 22 of manipulation part is discrete state, and inductive switch 41 is off-state, And first drive gear 21, the second drive gear 22 and rotary components 1 are stationary state, can be grasped first with Manual press at this time Control 3 so that manipulation part 3 along rotary components 1 be axially facing neighbouring second drive gear, 22 direction move with the second sliding tooth 22 engagement of wheel, while pressing manipulation part 3 makes it engage with the second drive gear 22, manipulate part 3 and ball 72 coordinate and Driving ball 72 and cross bar 71 move together towards inductive switch 41 so that cross bar 71 and inductive switch 41 contact, inductive switch 41 are triggered, and thus sense control module and are connected with power supply module 5, then manual rotation rotary components 1, in rotary components 1 First drive gear 21 will be rotated synchronously with rotation axis of the rotary components 1 together around rotary components 1, due to the second sliding tooth Wheel 22 and manipulation part 3 engage, and manipulation 3 and second drive gear 22 of part is opposing stationary, and with rotary components 1 around rotary components 1 Rotation axis relatively rotates, simultaneously because the first drive gear 21 and the second often engagement of drive gear 22, the first drive gear 21 In the rotation axis rotation around rotary components 1, the first drive gear 21 will be rotated around the shaft of its own.First sliding tooth Wheel 21 rotated around its own shaft and by the linkage of driving member 6 (second gear 62, intermediate gear 63 and first gear 61) and Machine shaft 232 is driven to rotate, the current signal that cutting magnetic field generates when sensing control module is rotated according to machine shaft 232 is sentenced The rotation direction (rotation direction of i.e. electronic acceleration Climbing top Yo-Yo 100) of disconnected machine shaft 232 at this time, and sense control module and exist Behind the direction of rotation for judging rotary components 1, it will send control signal and control machine shaft 232 according to original side to motor 23 To rotation is accelerated, machine shaft 232, which accelerates to rotate, simultaneously passes through driving member 6 (first gear 61, intermediate gear 63 and second gear 62) linkage and the first drive gear 21 is driven to accelerate to rotate around its own shaft, and then drive rotary components 1 according to original Direction accelerates to rotate.After the completion of the acceleration of electronic acceleration Climbing top Yo-Yo 100, manipulation part 3 is unclamped, part 3 is manipulated and cross bar 71 will respectively It is resetted under the driving of (the first back-moving spring 31 and second back-moving spring 73, manipulation 3 and second drive gear 22 of part separates, horizontal Bar 71 and inductive switch 41 separate.

(2) the electronic acceleration Climbing top Yo-Yo 100 for being in rotation status is accelerated.

Since rotary components 1 have had rotated, when needing to spin up electronic acceleration Climbing top Yo-Yo 100, no It needs to rotate rotary components 1 manually.Original state i.e. at this time is：It is discrete state to manipulate 3 and second drive gear 22 of part, the One drive gear 21, the second drive gear 22 and rotary components 1 are rotated synchronously around the rotation axis of rotary components 1, inductive switch 41 be off-state, can manipulate part 3 with Manual press so that manipulation part 3 is neighbouring along being axially facing for rotary components 1 first at this time Second drive gear, 22 direction movement makes itself and the second drive gear to be engaged with the second drive gear 22, in pressing manipulation part 3 While 22 engagement, manipulation part 3 and ball 72 coordinate and drive ball 72 and cross bar 71 together with moved towards inductive switch 41, So that cross bar 71 and inductive switch 41 contact, inductive switch 41 is triggered, and thus senses control module and is connected with power supply module 5, While first drive gear 21 and rotary components 1 are around the rotation axis synchronous rotation of rotary components 1, the first drive gear 21 It is rotated around the shaft of its own.First drive gear 21 around its own shaft rotate and pass through driving member 6 (second gear 62, in Between gear 63 and first gear 61) linkage and machine shaft 232 is driven to rotate, sensing control module according to machine shaft 232 The current signal that cutting magnetic field generates during rotation judges rotation direction (the electronic acceleration Climbing top Yo-Yo 100 of machine shaft 232 at this time Rotation direction), and sense control module judge rotary components 1 direction of rotation after, it will send control signal to electricity Machine 23 controls machine shaft 232 to accelerate to rotate according to original direction, and machine shaft 232 accelerates to rotate and pass through driving member 6 (the One gear 61, intermediate gear 63 and second gear 62) linkage and drive the first drive gear 21 around its own shaft accelerate turn It is dynamic, and then rotary components 1 is driven to accelerate to rotate according to original direction.After the completion of the acceleration of electronic acceleration Climbing top Yo-Yo 100, unclamp Part 3 is manipulated, manipulating part 3 and cross bar 71 will reset under the driving of (the first back-moving spring 31 and second back-moving spring 73 respectively, grasp 3 and second drive gear 22 of control separates, and cross bar 71 and inductive switch 41 separate.

To sum up, electronic acceleration Climbing top Yo-Yo 100 according to embodiments of the present invention, is nibbled by manipulating between part 3 and drive component 2 It closes to realize that drive component 2 drives rotary components 1 to accelerate rotation according to original rotation direction, it is possible thereby to substantially reduce electronic Accelerate the abrasion in 100 accelerator of Climbing top Yo-Yo, so as to improve the service life of electronic acceleration Climbing top Yo-Yo 100, and ran Cheng Gengjia is stable, reliable.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " illustrative examples ", The description of " example ", " specific example " or " some examples " etc. means to combine specific features, the knot that the embodiment or example describe Structure, material or feature are contained at least one embodiment of the present invention or example.In the present specification, to above-mentioned term Schematic representation may not refer to the same embodiment or example.Moreover, specific features, structure, material or the spy of description Point can in an appropriate manner combine in any one or more embodiments or example.

Although an embodiment of the present invention has been shown and described, it will be understood by those skilled in the art that：Not In the case of departing from the principle of the present invention and objective a variety of change, modification, replacement and modification can be carried out to these embodiments, this The scope of invention is limited by claim and its equivalent.

Claims (10)

1. a kind of electronic acceleration Climbing top Yo-Yo, which is characterized in that including：

Rotary components；

The drive component rotated for the rotary components to be driven to accelerate, the driving component are located in the rotary components；

Manipulate part, it is described manipulation part being axially movably located on the rotary components along the rotary components, with it is described Drive component engages or separation；

For detecting the steering detection device that the rotary components turn to, the steering detection device is located in the rotary components And be connected with the driving component, when the manipulation part is engaged with the driving component, the steering detection device is triggered To control the driving component that the rotary components is driven to accelerate rotation according to original rotation direction；

Power supply module, the power supply module are electrically connected with the steering detection device.

2. electronic acceleration Climbing top Yo-Yo according to claim 1, which is characterized in that the driving component includes：

First drive gear；

Second drive gear, second drive gear are rotatably arranged at the manipulation around the rotation axis of the rotary components Between part and first drive gear, second drive gear is equipped with the first ring adjacent to one end of first drive gear Shape sawtooth portion, second drive gear is equipped with the second band saw teeth portion adjacent to one end of the manipulation part, described first annular Sawtooth portion is often engaged with first drive gear, and the second band saw teeth portion can be engaged or separated with the manipulation part；

Motor, the motor include body and machine shaft, and the body is electrically connected with the steering detection device, the motor Shaft is connected with first drive gear,

When manipulation part and the second circular saw part from when, first drive gear and second drive gear It is opposing stationary, and rotated synchronously with rotation axis of the rotary components around the rotary components；

When the manipulation part is engaged with the second band saw teeth portion, second drive gear and the manipulation part are opposite quiet Only, and with rotation axis of the rotary components around the rotary components relatively rotate, first drive gear and the rotation The rotation axis for turning component around the rotary components rotates synchronously.

3. electronic acceleration Climbing top Yo-Yo according to claim 2, which is characterized in that the manipulation part and second sliding tooth (the first back-moving spring is equipped between wheel, the (the first back-moving spring often promotes the manipulation part to be directed away from second sliding tooth The direction movement of wheel.

4. electronic acceleration Climbing top Yo-Yo according to claim 2, which is characterized in that the motor and first drive gear Between be equipped with driving member, the driving member includes：

First gear, the first gear are located on the machine shaft；

Second gear, the second gear are coaxially connected with first drive gear；

Intermediate gear, the intermediate gear engage cooperation with the first gear and the second gear respectively.

5. the electronic acceleration Climbing top Yo-Yo according to any one of claim 1-4, which is characterized in that the steering detection device Including：

Control module is detected, the detection control module is used to detect the steering of the rotary components, and controls the driving group Part drives the rotary components to accelerate rotation according to original rotation direction；

Inductive switch, the inductive switch connects the detection control module and the power supply module, the inductive switch are in Normal off open state, when the manipulation part movement is controlled to be engaged with the driving component, the inductive switch, which is triggered, to be switched to Closure state.

6. electronic acceleration Climbing top Yo-Yo according to claim 5, which is characterized in that switching protective device is further included, it is described to open It closes protective device to be located in rotary components, the switching protective device includes：

Cross bar, the cross bar are movably arranged between the manipulation part and the inductive switch to coordinate with the inductive switch Or separation；

Ball, the ball are rotatably arranged on the cross bar, and at least a portion of the ball is towards the manipulation part The prominent cross bar, it is described to manipulate part with the ball engagement to drive when the manipulation part is engaged with the driving component The cross bar is mobile towards the inductive switch and coordinates with the inductive switch.

7. electronic acceleration Climbing top Yo-Yo according to claim 6, which is characterized in that the switching protective device further includes second Resetting spring, the both ends of the second back-moving spring are only against on the inner wall of the cross bar and the rotary components respectively, described Second back-moving spring drives the cross bar often to be separated with the inductive switch.

8. electronic acceleration Climbing top Yo-Yo according to claim 6, which is characterized in that the rotation is provided on the cross bar The limited block that the inner wall of component protrudes, the limited block can only be supported with the inner wall of the rotary components.

9. electronic acceleration Climbing top Yo-Yo according to claim 2, which is characterized in that the rotary components include：

Connector；

First rotary body and the second rotary body, first rotary body and second rotary body are each attached to the connector On.

10. electronic acceleration Climbing top Yo-Yo according to claim 9, which is characterized in that the connector is formed as column shape, institute It states manipulation part and second drive gear is rotatably sleeved on the connector,

Clutch shaft bearing is equipped between second drive gear and the connector, the connector is equipped with the first locating part, The clutch shaft bearing is supported on first locating part；

Second bearing is equipped between the manipulation part and the connector, the end of the connector is equipped with the second locating part to limit Make the moving displacement of the second bearing.