CN206934742U - Induction toy - Google Patents

Abstract

The utility model discloses a kind of induction toy, including body, actuating unit and squat up eccentric wheel.The body includes base and shell, and the shell is movably located on the base.The actuating unit is located on the base, the actuating unit includes motor, wobble gear group and squats up driving gear set, the wobble gear group is engaged transmission with the motor, and the motor can drive the wobble gear group to be meshed transmission with the driving gear set that squats up when direction initialization rotates.Described to squat up eccentric wheel and be connected by squatting up power transmission shaft with the driving gear set that squats up, the eccentric wheel that squats up is connected with the shell to drive above and below the shell flexible when rotating.Feature-rich according to the induction toy of the utility model embodiment, playability is stronger.

Description

Induction toy

Technical field

It the utility model is related to toy art, more particularly to a kind of induction toy.

Background technology

In general induction toy structure is excessively simple, and action, function are single, and playability is not strong.Some toys are dynamic for increase Work changes, and structure design can be obtained excessively complexity, toy holistic cost again and not only increased, and more heavy, is not suitable for child Son is played.

Utility model content

The utility model is intended at least solve one of technical problem present in prior art.Therefore, the utility model carries Go out a kind of induction toy, the induction toy is feature-rich, and playability is stronger.

According to the induction toy of the utility model embodiment, including：Body, the body includes base and shell, described Shell is movably located on the base；Actuating unit, the actuating unit are located on the base, the actuating unit bag Include：Motor, wobble gear group and driving gear set is squatted up, the wobble gear group is engaged transmission, the electricity with the motor Machine can drive the wobble gear group to be meshed transmission with the driving gear set that squats up when direction initialization rotates；Squat up bias Wheel, it is described to squat up eccentric wheel and be connected by squatting up power transmission shaft with the driving gear set that squats up, it is described to squat up eccentric wheel and institute Shell is stated to be connected to drive above and below the shell flexible when rotating.

Feature-rich according to the induction toy of the utility model embodiment, playability is stronger.

In certain embodiments, the shell is provided with and squats up bar, it is described squat up bar and be only against described squat up eccentric wheel On outer peripheral face, the distalmost end for the pivot center for squatting up eccentric wheel described in distance on the outer peripheral face for squatting up eccentric wheel has been formed as Only plane.

In certain embodiments, the base is provided with start-stop eccentric wheel and start-stop switch, the start-stop switch with it is described Motor is electrically connected to brake the motor, and the start-stop eccentric wheel is connected with the outer shell phase with the driving gear set that squats up The start-stop switch is triggered when rising setting height to the base.

Specifically, the start-stop eccentric wheel is formed as substantially semicircle.

In certain embodiments, the base, which is provided with, squats only switch and can slide bar with drain pan activity, described Only switch of squatting is electrically connected with the motor, and bar triggering institute is slided described in when the relatively described base of the shell declines setting height Crouching is stated only to switch.

Specifically, the base and it is described slide to be provided between bar to squat stop elastic component, described squat stops elastic component and is used to promote The bar that slides only supports on the housing.

In certain embodiments, described induction toy also includes：Eye decoration and eye transmission mechanism, the eye Decoration is movably set on the housing, the eye transmission mechanism respectively with the eye decoration and the base phase Even.

Specifically, the eye transmission mechanism includes：Eye lever, the eye lever are rotatably arranged at the shell On, one end of the eye lever is pressed on the eye decoration, the other end phase of the base and the eye lever Even；Eye elastic component, the eye elastic component are connected between the shell and the eye decoration, often to push up institute State eye decoration.

In certain embodiments, the motor shaft of the motor is formed as worm screw, and the wobble gear group includes：First tooth Wheel, second gear, wobble gear and oscillating rod, the axis of oscillation of the first gear, the second gear and the oscillating rod It is coaxially disposed, the first gear is meshed with the worm screw, the first gear and the second gear synchronous axial system, described Wobble gear is rotatably arranged on the oscillating rod and is meshed with the second gear, turns in the motor along direction initialization When dynamic, the wobble gear is meshed transmission with the driving gear set that squats up.

In certain embodiments, the top of the body is provided with the inductive switch and magnetic control for being used for controlling the motor operating Switch.

Additional aspect and advantage of the present utility model will be set forth in part in the description, partly by from following description In become obvious, or by it is of the present utility model practice recognize.

Brief description of the drawings

Of the present utility model above-mentioned and/or additional aspect and advantage will in the description from combination accompanying drawings below to embodiment Become obvious and be readily appreciated that, wherein：

Fig. 1 is the stereogram according to the induction toy of the utility model embodiment.

Fig. 2 is the overall structure stereogram of each part according to the base of the utility model embodiment and on base.

Fig. 3 is that another overall structure of each part according to the base of the utility model embodiment and on base is three-dimensional Figure.

Fig. 4 is the overall structure sectional view according to the induction toy of the utility model embodiment.

Fig. 5 is the partial structurtes stereogram according to the base of the utility model embodiment.

Fig. 6 is the structural representation according to the actuating unit of the utility model embodiment.

Fig. 7 is another structural representation according to the dynamic structure of the utility model embodiment.

Fig. 8 is another partial structurtes stereogram of base according to the utility model embodiment.

Fig. 9 is another overall structure sectional view according to the induction toy of the utility model embodiment.

Figure 10 is the partial structurtes stereogram according to the induction toy of the utility model embodiment.

Figure 11 is the partial structural diagram according to the induction toy of the utility model embodiment.

Figure 12 is the installation relation structural representation of the induction toy and accessory according to the utility model embodiment.

Reference：

Induction toy 100, body 1, shell 11, squat up bar 111, squat stop post 112, mounting post 113, spring 114, base 12nd, start-stop eccentric wheel 121, non-touch originator 1211, triggering end 1212, start-stop switch 122, crouching only switch 123, slide bar 124, be convex Post 1241, non-contact face 1242, contact surface 1243, squat stop elastic component 125, slide slot 126, mounting hole 127,

Actuating unit 2, motor 21, wobble gear group 22, first gear 221, second gear 222, wobble gear 223, pendulum Lever 224, driving gear set 23 is squatted up, gear 231 is squatted up, squats up idler gear 232, walking driving gear set 24, middle biography Moving gear 241, walking gear 242,

Squat up eccentric wheel 3, squat up power transmission shaft 31, start-stop plane 32,

Eye decoration 4, eye transmission mechanism 5, eye lever 51, eye elastic component 52,

Walk part 6, walking power transmission shaft 61, walking disk 62, walking pin 63,

Ear part 7, ear's rotating push-rod 71, ear's transmission mechanism 8, ear's power transmission shaft 81, ear's travelling gear 82, ear Be driven eccentric wheel 83, sliding block 84, sliding surface 841, mating groove 842, clutch 85,

Inductive switch 9a, magnetic switch 9b, sounding part 9c, accessory 9d.

Embodiment

Embodiment of the present utility model is described below in detail, the example of the embodiment is shown in the drawings, wherein from beginning Same or similar element is represented to same or similar label eventually or there is the element of same or like function.Below by ginseng The embodiment for examining accompanying drawing description is exemplary, is only used for explaining the utility model, and it is not intended that to of the present utility model Limitation.

Induction toy 100 below with reference to Fig. 1-Figure 12 descriptions according to the utility model embodiment.

As shown in figure 4, according to the induction toy 100 of the utility model embodiment, including body 1, actuating unit 2 and squat up Eccentric wheel 3.

Body 1 includes base 12 and shell 11, and shell 11 is movably located on base 12.When shell 11 is with respect to base 12 When ramping up, the overall effect of induction toy 100 is that toy is carrying out action of standing up；When shell 11 contracts downwards with respect to base 12 When, the overall effect of induction toy 100 is that toy is carrying out action of squatting down.

Actuating unit 2 is located on base 12, and actuating unit 2 includes motor 21, wobble gear group 22 and squats up travelling gear Group 23, wobble gear group 22 is engaged transmission with motor 21, and motor 21 can drive wobble gear group 22 when direction initialization rotates It is meshed transmission with squatting up driving gear set 23.

Squat up eccentric wheel 3 by squatting up power transmission shaft 31 with squatting up driving gear set 23 to be connected, squat up eccentric wheel 3 and shell 11 are connected to drive shell to be stretched about 11 when rotating.

Specifically, the motor shaft of motor 21 has two rotation directions, and motor shaft is meshed biography with wobble gear group 22 Dynamic, motor 21 can control the swaying direction of wobble gear group 22 by the rotation direction of motor shaft.Induction toy 100 can put The both sides of moving gear group 22 set different motions, and motor 21 can be by controlling the swaying direction of wobble gear group 22 to select Which motion power is transferred to.For example, when motor 21 rotates forward, wobble gear group 22 is swung to mutually nibbles with A motions Close, and be separated with B motions, now motor 21 can drive A motions to act, and B motions then remain static； When motor 21 inverts, wobble gear group 22 is swung to be meshed with B motions, and is separated with A motions, now motor 21 can drive B motions to act, and A motions then remain static.

The power source of A motions and B motions is all motor 21, motor 21 by the rotation direction of its motor shaft come Which motion power is transferred to by selection, saves power source structure, and the selection mode of this power direction of transfer It is very simple.

In the utility model embodiment, when wobble gear group 22 is meshed with squatting up driving gear set 23, and biography is squatted up When the drive of moving gear group 23 squats up the rotation of eccentric wheel 3, squatting up eccentric wheel 3 can utilize its eccentric nature to drive shell be stretched about 11 Contracting.Here, the pivot center for squatting up eccentric wheel 3 is not vertically arranged, that is, squat up the pivot center of eccentric wheel 3 and vertical curve it Between there is certain angle, in Figure 5, the pivot center for squatting up eccentric wheel 3 is horizontally disposed with, and is so squatted up at least one on eccentric wheel 3 Being in height in rotation process can change.Shell 11 with squat up eccentric wheel 3 this at be connected, squat up eccentric wheel 3 and rotating During just can be up and down with shell 11.

According to the induction toy 100 of the utility model embodiment, the crouching for squatting up eccentric wheel 3 and realizing induction toy 100 is utilized Lower and standing activities, simple in construction, playability is stronger.

In certain embodiments, as shown in figure 4, shell 11 be provided with squat up bar 111, squat up bar 111 only be against squat up partially On the outer peripheral face of heart wheel 3, the distalmost end for squatting up the pivot center that distance squats up eccentric wheel 3 on the outer peripheral face of eccentric wheel 3 is formed as Start-stop plane 32.

That is, the changing rule of the pivot center of eccentric wheel 3 is squatted up using the outer peripheral face distance for squatting up eccentric wheel 3, Realize the do action for standing up, squatting down of shell 11.Wherein, shell 11 squats up the outer of eccentric wheel 3 using squatting up bar 111 and stop being against On side face, contact area is big, and stable action is reliable.

Here, the distalmost end apart from its pivot center on the outer peripheral face for squatting up eccentric wheel 3 forms start-stop plane 32, is to make When the shell 11 of induction toy 100 rises to ultimate range with respect to base 12, squatting up bar 111 only can be against start-stop plane 32 On.Bar 11 is squatted up only to support in the plane than steadily, so, induction toy 100 can smoothly be maintained at and stand up in cambered surface State, and toy squats up bar 111 and will not also slided easily when standing state carries out other actions.

In certain embodiments, as shown in figure 8, base 12 is provided with start-stop eccentric wheel 121 and start-stop switch 122, start-stop Switch 122 is electrically connected with motor 21 with braking motor 21, and start-stop eccentric wheel 121 is connected with shell with squatting up driving gear set 23 11 relative bases 12 trigger start-stop switch 122 when rising setting height.

If it is understood that when being not provided with start-stop switch 122 on induction toy 100, when wobble gear group 22 passes through Squat up driving gear set 23 to drive when squatting up eccentric wheel 3 and persistently rotating, squatting up eccentric wheel 3 can drive shell 11 reciprocally to stretch up and down Contracting, induction toy 100 can be in the limited time of execution under standing state.

To solve this problem, by setting start-stop eccentric wheel 121 and start-stop switch 122 in the utility model embodiment, When making shell 11 with respect to the rising setting height of base 12, start-stop eccentric wheel 121 can trigger start-stop switch 122 just, so that Motor 21 stops operating, and induction toy can be maintained at standing state.

Alternatively, as shown in figure 8, start-stop eccentric wheel 121 is formed as substantially semicircle.Such start-stop eccentric wheel 121 holds Easy processing, in addition, when in the circumferential profile of start-stop eccentric wheel 121 semicircle start-stop can be triggered when being partially toward start-stop switch 122 Switch 122, ensure the reliability of start-stop triggering, start-stop switch is partially toward when straight in the circumferential profile of start-stop eccentric wheel 121 Start-stop switch 122 can not be triggered when 122, ensures that start-stop eccentric wheel 121 can thoroughly disconnect with start-stop switch 122.At some In embodiment, squat only switch 123 as shown in figure 8, base 12 is provided with and bar 124 can be slided with the activity of base 12, squat and only open Close 123 to electrically connect with motor 21, the triggering of bar 124 crouching only switch 123 is slided when shell 11 declines setting height with respect to base 12.

Thus, when shell 11 declines setting height with respect to base 12, crouching only switch can be triggered just by sliding bar 124 123, so that motor 21 stops operating, induction toy can be maintained at the state of squatting down.

Specifically, base 12 and slide to be provided between bar 124 to squat and stop elastic component 125, squat and stop elastic component 125 and be used to promote cunning Row bar 124 is only against on shell 11.That is, it is only elastic connection between elastic component 125 and base 12 to squat, bar 124 is slided Only elastic component 125 of being squatted is suppressed and is only against on shell 11, and sliding the motion of bar 124 has certain elastic buffer, makes to slide Bar 124 moves more flexibly, reduces motion abrasion, stuck situation.

In some optional embodiments, as shown in figure 9, induction toy 100 also includes eye decoration 4 and eye is driven Mechanism 5, eye decoration 4 are movably located on shell 11, eye transmission mechanism 5 respectively with eye decoration 4 and base 12 It is connected.So, when toy is standing up and squatted up, because shell 11 is with respect to the activity of base 12, eye decoration 4 can be driven Activity, realize linkage of the activity of eye decoration 4 with squatting up action.Such structure, save the power of eye decoration 4 Source structure, structure is simplified, reduce cost.

Specifically, eye transmission mechanism 5 includes eye lever 51 and eye elastic component 52.Eye lever 51 is rotationally set On shell 11, one end of eye lever 51 is pressed on eye decoration 4, the other end phase of base 12 and eye lever 51 Even.Eye elastic component 52 is connected between shell 11 and eye decoration 4, often to push up eye decoration 4.So, when Eye decoration 4 is bounced when toy stands up, and eye decoration 4 is depressed when toy is squatted down, and linkage action is very It is simple easily to realize.

In certain embodiments, as shown in Fig. 2-Fig. 3, induction toy 100 also includes walking part 6, and walking part 6 is located at body 1 bottom, walking part 6 are connected by power transmission shaft 61 of walking with walking driving gear set 24.So induction toy 100 can walk Mobile, induction toy can be designed to a variety of patterns such as animal, sport car.

Specifically, part 6 of walking includes walking disk 62 and multiple walking pin 63, and multiple walking pin 63 connect at interval is expert at On the periphery for walking disk 62, walking power transmission shaft 61 is connected with walking disk 62.So induction toy 100 when walking, lower in formation Volt acts, and this induction toy 100 more presses close to animal walking image when being fabricated to animal pattern.

More specifically, the both ends of walking power transmission shaft 61 connect a walking part 6, two multiple rows walked on parts 6 respectively Pin 63 is walked to be staggered in the circumferential.The setting of this multiple walking parts 6 so that walking support is very steady.

In certain embodiments, as shown in Figure 10, induction toy 100 also includes ear part 7 and ear's transmission mechanism 8, ear Piece part 7 is movably located on body 1, and ear's transmission mechanism 8 is connected with ear part 7 and walking driving gear set 24 respectively.This Sample, when toy is in walking, because power is transferred to ear part by walking driving gear set 24 by ear's transmission mechanism 8 7, therefore ear part 7 also can be movable therewith, realizes the activity and the linkage of walking motion of ear part 7.Such structure, is saved The power source structure of ear part 7, simplifies structure, reduces cost.

Specifically, ear's transmission mechanism 8 includes ear's power transmission shaft 81, ear's travelling gear 82 and ear's transmission eccentric wheel 83, ear's power transmission shaft 81 is rotatably arranged on body 1, ear's transmission eccentric wheel 83 be located at one end of ear's power transmission shaft 81 with Ear part 7 is engaged, and ear's travelling gear 82 is located at the other end of ear's power transmission shaft 81 and nibbled with the walking phase of driving gear set 24 Close.Drive the continuous of ear part 7 to wink action using the eccentric nature of ear's transmission eccentric wheel 83, it is simple in construction, and it is aughty can Love.More specifically, ear's transmission mechanism 8 is two be oppositely arranged, walking driving gear set 24 includes two intermediate transmission teeth Wheel 241, ear travelling gear 82 of two intermediate drive gears 241 respectively with Liang Ge ears transmission mechanism 8 are meshed.

It is understood that Liang Ge ears transmission mechanism 8 can be separate mechanism, Liang Ge ears transmission mechanism 8 Ear's power transmission shaft 81 between do not contact directly, ear's travelling gear 82 of Liang Ge ears transmission mechanism 8 passes with walking respectively Moving gear group 24 is meshed, and can so adjust the action of two ear parts 7 respectively as needed.

It should be noted that above-mentioned two ear transmission mechanism 8 can also merge into one, Ji Liangge ears transmission mechanism 8 ear's power transmission shaft 81 is formed as shaft, and the shared ear's travelling gear 82 of Liang Ge ears transmission mechanism 8 is driven with walking Gear train 24 is meshed.Liang Ge ears transmission eccentric wheel 83 is respectively provided at the both ends of ear's power transmission shaft 81 to match with ear part 7 Close.

More specifically, ear's transmission mechanism 8 also includes sliding block 84, sliding block 84 is slidably disposed on body 1, on sliding block 84 With sliding surface 841 and mating groove 842, the eccentric wheel shank of ear's transmission eccentric wheel 83 is inserted in mating groove 842, sliding surface 841 are only against on ear part 7 to drive the activity of ear part 7.

More specifically, ear part 7 is rotatably arranged on body 1, ear's transmission mechanism 8 also includes being connected to ear part 7 Ear's elastic component (not shown) between body 1, ear part 7 are provided with ear's rotating push-rod 71, and sliding surface 841 can be supported only On ear's rotating push-rod 71.That is, ear's rotating push-rod 71 can be released ear part 7 using sliding surface 841 when skidding off Go, ear's rotating push-rod 71 overcomes the elastic force of ear's elastic component when skidding off, ear's elastic component savings potential energy, and ear's rotating push-rod During 71 withdrawal, the potential energy of ear's elastic component discharges simultaneously bounces back into original position by ear part 7.

In certain embodiments, as shown in Fig. 2 the top of body 1, which is provided with, is used for the inductive switch that controlled motor 21 operates 9a, inductive switch 9a are proximity switch, can touch toy by hand when player is at play, inductive switch 9a is when sensing human hand With regard to can controlled motor 21 start, inductive switch 9a setting cause toy action control more it is casual freely.

In certain embodiments, as shown in Fig. 2 the top of body 1, which is provided with, is used for the magnetic switch that controlled motor 21 operates 9b, it be able to can just be controlled close to touching toy, magnetic switch 9b when sensing magnetic item with magnetic item when player is at play Motor 21 starts, and magnetic switch 9b setting causes the action control of toy to become more interesting.

Certainly, in the utility model embodiment, the startup of motor 21 can also have other control modes, not make here specific Limitation.For example, the control button of the operating of controlled motor 21 can be provided on shell 11, can also be by induction toy 100 Operating is arranged to remote control form, and action command is transmitted to the controller of toy using remote control.

In certain embodiments, as shown in Figure 5-Figure 7, the motor shaft of motor 21 is formed as worm screw, and wobble gear group 22 is wrapped Include：First gear 221, second gear 222, wobble gear 223 and oscillating rod 224.Turn of first gear 221, second gear 222 The axis of oscillation of shaft line and oscillating rod 224 is coaxially disposed, and first gear 221 is meshed with worm screw, first gear 221 and second The synchronous axial system of gear 222, wobble gear 223 is rotatably arranged on oscillating rod 224 and is meshed with second gear 222, in electricity Machine 21 along direction initialization rotate when, wobble gear 223 is meshed transmission with walking driving gear set 24.

Here, worm gear-endless screw transmission is formed between the motor shaft of motor 21 and first gear 221, gearratio is big, can be achieved Slow down to greatest extent and increase the effect of torsion.

Specifically, the axis of oscillation of oscillating rod 224 and the pivot center of second gear 222 coincide, and on oscillating rod 224 Wobble gear 223 is meshed with second gear 222, and no matter such oscillating rod 224 swings towards which direction, wobble gear 223 All the time in the state being meshed with second gear 222.Second gear 222, oscillating rod 224 and wobble gear 223 form one kind Planetary gears, second gear 222 are the sun gear of the mechanism, and oscillating rod 224 is the planet carrier of the mechanism, and wobble gear 223 be the planetary gear of the mechanism.When the rotation direction change of sun gear, not only sense of rotation changes planetary gear, planet Wheel can also change around the revolution direction of sun gear.Therefore motor 21 can control wobble gear by the change of rotation direction 223 revolution direction, so as to control wobble gear 223 is meshed with which motion.

In the utility model embodiment, the both sides of wobble gear 223 are respectively to squat up driving gear set 23 and walking biography Moving gear group 24, when motor 21 rotates along different direction initializations, wobble gear 223 is selectively with squatting up driving gear set 23 are meshed with one in walking driving gear set 24.

The induction toy 100 and motion process of one specific embodiment of the utility model are described below with reference to Fig. 1-Figure 12.

As shown in figure 4, the induction toy 100 in the present embodiment includes body 1, actuating unit 2, squats up eccentric wheel 3, eye Decoration 4, eye transmission mechanism 5, walking part 6, ear part 7, ear's transmission mechanism 8, inductive switch 9a and magnetic switch 9b.

Body 1 includes base 12 and shell 11, and shell 11 is movably located on base 12.

Actuating unit 2 is located on base 12, and actuating unit 2 includes：Motor 21, wobble gear group 22, squat up travelling gear Group 23 and walking driving gear set 24.Wobble gear group 22 is engaged transmission with motor 21, and motor 21 is when direction initialization rotates Wobble gear group 22 can be driven to be meshed transmission with squatting up driving gear set 23, motor 21 can band when another direction initialization rotates Movable pendulum moving gear group 22 is meshed transmission with walking driving gear set 24.

In order to facilitate description, motor 21 is claimed to drive wobble gear group 22 to be meshed turn of transmission with squatting up driving gear set 23 Dynamic direction be the first direction initialization, and motor 21 drives wobble gear group 22 to be meshed with driving gear set 24 of walking the rotation of transmission Direction is the second direction initialization.

Specifically, as shown in Figure 5-Figure 7, the motor shaft of motor 21 is formed as worm screw, and wobble gear group 22 includes the first tooth Wheel 221, second gear 222, wobble gear 223 and oscillating rod 224.First gear 221, second gear 222 and oscillating rod 224 Axis of oscillation is coaxially disposed, and first gear 221 is meshed with worm screw, first gear 221 and the synchronous axial system of second gear 222, pendulum Moving gear 223 is rotatably arranged on oscillating rod 224 and is meshed with second gear 222, in motor 21 along the first direction initialization During rotation, wobble gear 223 is meshed transmission with squatting up driving gear set 23, when motor 21 rotates along the second direction initialization, Wobble gear 223 is meshed transmission with walking driving gear set 24.

The induction toy 100 in the present embodiment is described below with reference to Fig. 4-Fig. 7 squats up process.

It is connected as shown in figure 5, squatting up eccentric wheel 3 by squatting up power transmission shaft 31 with squatting up driving gear set 23, is squatted up partially Heart wheel 3 is connected with shell 11 to drive shell to be stretched about 11 when rotating.Shell 11 is provided with and squats up bar 111, squats up bar 111 Only it is against on the outer peripheral face for squatting up eccentric wheel 3, squats up the pivot center that distance on the outer peripheral face of eccentric wheel 3 squats up eccentric wheel 3 Distalmost end is formed as start-stop plane 32.

As shown in fig. 6, squatting up driving gear set 23 includes squatting up gear 231 and squats up idler gear 232, when the edge of motor 21 When first direction rotates, squatting up idler gear 232 can engage with wobble gear 223, squat up gear 231 and squat up idler gear 232 are meshed, and squat up gear 231 and be coaxially disposed with squatting up eccentric wheel 3.

When motor 21 rotates along the first direction initialization, worm screw drives first gear 221 to rotate, first gear 221, second Gear 222 is coaxially disposed with oscillating rod 224, and second gear 222 can concomitant rotation with oscillating rod 224.Because wobble gear 223 can It is rotatably arranged on oscillating rod 224 and is engaged with second gear 222, therefore rotated in second gear 222 and oscillating rod 224 During, wobble gear 223 not will simply rotate around own axes and rotate, and can be around the rotation axis of second gear 222 Rotated towards the direction for squatting up idler gear 232.

That is, when motor 21 rotates along the first direction initialization, wobble gear 223 will be towards squatting up idler gear 232 direction rotates, and after turning an angle, wobble gear 223 engages with squatting up the transmission of idler gear 232, and drives and squat Idler gear 232 is played to rotate.Engaged due to squatting up gear 231 with squatting up idler gear 232, and squat up eccentric wheel 3 and squat up tooth Wheel 231 is coaxially disposed, therefore when motor 21 rotates along the first direction initialization, is squatted up eccentric wheel 3 and rotated.

Axis eccentric setting is rotated against due to squatting up eccentric wheel 3, that is to say, that squats up distance on the outer peripheral face of eccentric wheel 3 It is different to squat up the distance of the pivot center of eccentric wheel 3, distalmost end and most proximal end be present.For convenience of description, distance is squatted on outer peripheral face That plays the pivot center of eccentric wheel 3 is referred to as terminal apart from distalmost end, and most proximal end is referred to as crouching stop.Claim to squat up bar on shell 11 111 be only against on crouching stop be induction toy 100 original state, the bar 111 that squats up on shell 11 is only against in terminal and is The standing state of induction toy 100,

In an initial condition, the bar 111 that squats up on shell 11 is only against on crouching stop, when motor 21 is along the first direction initialization During rotation, squat up eccentric wheel 3 and rotated around rotation axis, squat up bar 111 it is relative squat up eccentric wheel 3 only support point by crouching stop court To terminal change, that is, squat up bar 111 and moved straight up in the presence of eccentric wheel 3 is squatted up, also just say shell 11 relative to Base 12 rises.Terminal is changed into from crouching stop when squatting up the relative point that only supports for squatting up eccentric wheel 3 of bar 111, shell 11 rises to Peak；When motor 21 continues rotation, squat up bar 111 it is relative squat up eccentric wheel 3 only support point by terminal towards crouching stop Change, that is, squat up bar 111 and moved straight down in the presence of eccentric wheel 3 is squatted up, also just say shell 11 relative under base 12 Drop.When being only changed into crouching stop from terminal to point of eccentric wheel 3 is squatted up relatively when squatting up bar 111, and shell 11 returns to initial position.

In order to prevent when motor 21 rotates along the first direction initialization, shell 11 occurs excessively rising or excessive descent Phenomenon, base 12 is provided with the start-stop switch 122 of the rising of controling shell 11 and the crouching of the decline of controling shell 11 only switchs 123, tool Body structure and the course of work are as described below.

As shown in figure 8, base 12 is provided with start-stop eccentric wheel 121 and start-stop switch 122, start-stop switch 122 and motor 21 With braking motor 21, start-stop eccentric wheel 121 is coaxially disposed to rise in shell 11 with respect to base 12 with squatting up gear 231 for electrical connection Start-stop switch 122 is triggered during setting height.

Wherein, start-stop eccentric wheel 121 is into semicircle, and the radius of start-stop eccentric wheel 121 is more than the rotation of start-stop eccentric wheel 121 The distance between shaft axis and start-stop switch 122.For convenience of description, the planar section of the outer peripheral face of start-stop eccentric wheel 121 is referred to as non- Triggering end 1211, arc surface are triggering end 1212.It should be noted that in the rotation process of start-stop eccentric wheel 121, non-touch originator 1211 are not in contact with start-stop switch 122 all the time, and triggering end 1212 can be in contact with start-stop switch 122.

It is understood that under original state, the non-touch originator 1211 of start-stop eccentric wheel 121 close to start-stop switch 122, by It is not in contact all the time with start-stop switch 122 in non-touch originator 1211, therefore, now start-stop switch 122 can not work.Work as motor 21 along the first direction initialization rotate when, because start-stop eccentric wheel 121 is coaxially disposed with squatting up gear 231, therefore, on shell 11 Start-stop eccentric wheel 121 rotates during rising, and direction of rotation is counterclockwise, i.e., non-touch originator 1211 is away from start-stop switch 122, triggering end 1212 is close to start-stop switch 122.When triggering end 1212 and start-stop switch 122 are in contact, start-stop switch 122 Work, braking motor 21, shell 11 stop rising.

Squat only switch 123 as shown in figure 8, base 12 is provided with and bar 124 can be slided with drain pan activity, squat and only switch 123 are electrically connected with motor 21, and the triggering of bar 124 is slided when shell 11 declines setting height with respect to base 12 and is squatted and stops switch 123.Bottom Seat 12 and slide to be provided between bar 124 to squat and stop elastic component 125, squat and stop elastic component 125 and be used to promotion and slide bar 124 and stop be against shell On 11.

Wherein, base 12 is provided with the slide slot 126 being engaged with sliding bar 124, and sliding bar 124 can be in slide slot Relative base 12 slides in 126.Slide the bottom of bar 124 and be provided with projection 1241, squat to stop is enclosed on projection 1241 outside elastic component 125, The bottom for being against slide slot 126 is stopped in one end that crouching stops elastic component 125, and the other end stops the bottom for being against and sliding bar 124.On shell 11 Provided with only post 112 of squatting, slide bar 124 and be often only against to squat in the presence of only elastic component 125 of squatting and stop on post 112.

It should be noted that the right side for sliding bar 124 is formed as two parts, non-contact face 1242 and contact surface 1243, Contact surface 1243 is formed as plane straight down, non-contact face 1242 from the lower end of contact surface 1243 in a downward direction to Right bank extends to be formed.With start-stop eccentric wheel 121 similarly, in the sliding process of bar 124 is slided, non-contact face 1242 is all the time It is not in contact with only switch 123 of squatting, contact surface 1243 can be in contact with only switch 123 of squatting.

It is understood that in the case where induction toy 100 is in standing state, shell 11 is at the highest notch, and squats and stops elastic component 125 in the state compressed, and slides the non-contact face 1242 of bar 124 close to only switch 123 of squatting, now slide bar 124 with Only switch 123 of squatting is not in contact, therefore only switch 123 of squatting does not work.When motor 21 rotates along the first direction initialization, and shell 11 when being in decline state, squats and stops elastic component 125 and gradually release energy so that slides bar 124 and transported straight up along slide slot 126 Dynamic, the contact surface 1243 for sliding bar 124 moves closer to crouching only switch 123, when contact surface 1243 and crouching only switch 123 and be in contact When, only switch 123 of squatting works, and braking motor 21, shell 11 stops declining.

The eye decoration 4 and eye transmission mechanism 5 and eye decoration of the present embodiment are described referring to Fig. 2 and Fig. 9 The detailed process of the folding of part 4

As shown in figure 9, eye decoration 4 is movably located on shell 11, eye transmission mechanism 5 is decorated with eye respectively Part 4 is connected with base 12, and eye transmission mechanism 5 includes eye lever 51 and eye elastic component 52.Eye lever 51 is rotationally It is located on shell 11, one end of eye lever 51 is pressed on eye decoration 4, the other end phase of base 12 and eye lever 51 Even.Eye elastic component 52 is connected between shell 11 and eye decoration 4, often to push up eye decoration 4.

Under original state, eye decoration 4 is in closure state, and now base 12 is at the highest notch, due to the He of base 12 One end that eye lever is 51 is connected, therefore, the other end compression eye elastic component of eye lever 51 in the presence of base 12 52.When motor 21 rotates along the first direction initialization, and shell 11 is in propradation, now base 12 can move downward, because This eye elastic component 52 compressed can gradually extend, and under the drive of eye elastic component 52, eye decoration 4 is by closure state It is converted into the state of opening.

Under standing state, eye decoration 4 be in open state, when motor 21 along the first direction initialization rotate, shell 11 In when declining state, now base 12 can move upwards, and one end that eye lever 51 is connected on base 12 can rise, therefore The other end that eye lever is 51 can compress eye elastic component 52, so as to drive eye decoration 4 by opening State Transferring to close Conjunction state.

The concrete structure and the course of work of the walking part 6 of the present embodiment are described referring to Fig. 5-Fig. 7.

As shown in figure 5, the present embodiment induction toy 100 includes two walking parts 6, two walking parts 6 are located at the bottom of body 1 Portion, walking part 6 are connected by power transmission shaft 61 of walking with walking driving gear set 24.Each walking part 6 includes walking disk 62 and two Individual walking pin 63, two walking pin 63 are connected on the periphery of walking disk 62 at interval, walking power transmission shaft 61 and walking disk 62 It is connected.The both ends of walking power transmission shaft 61 connect a walking part 6 respectively, and two two walking pin 63 walked on parts 6 are in circumference On be staggered.

As shown in fig. 6, walking driving gear set 24 includes two intermediate drive gears 241 and walking gear 242.Work as motor 21 when being rotated in a second direction, and intermediate drive gear 241 can engage with wobble gear 223, walking gear 242 and intermediate transmission Gear 241 is meshed, and walking gear 242 is arranged on walking power transmission shaft 61 with walking part 6.

It should be noted that when induction toy 100 is in original state, walking part 6 is in inside shell 11, that is, part of walking 6 bottom is located at the top of the bottom surface of shell 11, and now walking part 6 can not normal work.Induction toy 100 is in standing state When, a part for walking part 6 is in outside shell 11, that is, the bottom for part 6 of walking is located at the lower end of the bottom surface of shell 11, now goes Walking part 6 can be with normal work.

As shown in fig. 7, when induction toy 100 is in standing state, and motor 21 along the second direction initialization rotate when, worm screw Drive first gear 221 rotate, first gear 221, second gear 222 and oscillating rod 224 are coaxially disposed, second gear 222 and Oscillating rod 224 can concomitant rotation.It is rotatably arranged on oscillating rod 224 due to wobble gear 223 and is nibbled with second gear 222 Close, therefore during second gear 222 and oscillating rod 224 rotate, wobble gear 223 not will simply rotate around own axes and revolve Transhipment is dynamic, and can be rotated around the direction of rotation axis towards the row intermediate transmission wheel of second gear 222.

That is, when motor 21 rotates along the second direction initialization, wobble gear 223 will be towards intermediate drive gear 241 direction rotates, and after turning an angle, wobble gear 223 engages with the transmission of intermediate drive gear 241, and in drive Between travelling gear 241 rotate.Because walking gear 242 engages with intermediate drive gear 241, and walk part 6 and walking gear 242 It is each provided on walking power transmission shaft 61, therefore when motor 21 rotates along the second direction initialization.When walking power transmission shaft 61 rotates, In rotary course, alternating contacts walking part 6 positioned at walking power transmission shaft 61 both ends with ground, realizes the row of induction toy 100 Walk function.

Ear part 7 and ear's transmission mechanism 8 and the folding of ear part 7 of the present embodiment are described referring to Fig. 6 and Figure 10 Detailed process.

As shown in Figure 10, the induction toy 100 in the present embodiment includes two ear parts 7 and ear's transmission mechanism 8.Two Ear part 7 is rotatably arranged on body 1, and ear's transmission mechanism 8 is connected with ear part 7 and walking driving gear set 24 respectively.

Ear's transmission mechanism 8 includes ear's power transmission shaft 81, ear's travelling gear 82, Liang Ge ears transmission eccentric wheel 83, two Individual sliding block 84 and Liang Ge ears elastic component (not shown).

Wherein, ear's power transmission shaft 81 is rotatably arranged on body 1, and each ear's transmission eccentric wheel 83 is located at ear's transmission To be engaged with ear part 7, ear's travelling gear 82 is located at the other end of ear's power transmission shaft 81 and passed with walking for one end of axle 81 The intermediate drive gear 241 of moving gear group 24 is meshed.The place that ear's travelling gear 82 is closed on ear's power transmission shaft 81 is provided with Clutch structure 85.

Each sliding block 84 is slidably disposed on body 1, and sliding surface 841 and mating groove 842 are respectively provided with each sliding block 84, The eccentric wheel shank of ear's transmission eccentric wheel 83 is inserted in mating groove 842, and sliding surface 841 is only against on ear part 7 to drive ear The activity of piece part 7.

Ear's elastic component is connected between ear part 7 and body 1, and ear part 7 is provided with ear's rotating push-rod 71, sliding surface 841 only can be against on ear's rotating push-rod 71.

It is understood that under standing state, motor 21 along the rotation of the second direction initialization, (i.e. be expert at by induction toy 100 During walking) when, by described previously, motor 21 along the second direction initialization rotate when, wobble gear 223 and intermediate drive gear 241 engagements, and drive intermediate drive gear 241 to rotate, because ear's travelling gear 82 engages with intermediate drive gear 241, Therefore, when motor 21 rotates along the second direction initialization, ear's power transmission shaft 81 rotates.That is, motor 21 along second When direction initialization rotates, ear's transmission eccentric wheel 83 rotates.

As shown in Figure 10, in the wheel shank insertion mating groove 842 of ear's transmission eccentric wheel 83, in ear's transmission eccentric wheel 83 In rotation process, the wheel shank band movable slider 84 of ear's transmission eccentric wheel 83 moves reciprocatingly with respect to the in the vertical direction of base 12. When sliding block 84 is moved downwardly to a certain position, sliding surface 841 only can be against on ear's rotating push-rod 71.Now sliding block 84 after Continuous slide downward, sliding surface 841 can promote ear's rotating push-rod 71 to rotate so that ear part 7 is directed away from the side of shell 11 To rotation, simultaneously, ear's elastic component is in elongation state.When sliding block 84 moves upwards, sliding surface 841 rotates with ear Push rod 71 is gradually disengaged, and in the presence of ear's elastic component, ear part 7 rotates towards the direction close to shell 11.In summary, In the walking process of induction toy 100, ear part 7 is back and forth opened, closing motion.

As shown in figure 11, the base 12 of the induction toy of the present embodiment and shell 11 are set in shell 11 by screw closure Mounting post 113 is put, spring 114 is arranged with mounting post 113.Base 12 sets mounting hole 127, and the diameter of screw is more than mounting post 113 external diameter, less than the internal diameter of mounting hole 127.Therefore, base 12, will not be from shell 11 when stretching into or being retracted shell 11 Come off.

The specific control process of the induction toy 100 of the present embodiment is described below.

As shown in figure 3, the induction toy 100 of the present embodiment also includes sounding part 9c, it is necessary to which explanation, sounding part 9c can To send muli-sounds, for convenience of describe, by several sections of different voice commands be D1, D2A, D2B, D3, D4, D4A, D4B, D4C, D4D, D5, D6, D7 and D8.It is four kinds by the mode division of induction toy 100 for convenience of description control process, induction toy 100 The state of power-off is referred to as shutdown mode, the power supply opening of induction toy 100 but motor 21 and non-operational state is referred to as sleeping Pattern, the shell 11 of induction toy 100 rises to peak and eye decoration 4 opens referred to as awake mode, induction toy 100 The normal operating conditions of walking part 6 be referred to as walking mode.

The specific control process of induction toy 100 is as follows：

Under shutdown mode, the switch (not shown) being located on the shell of induction toy 100 is opened, sounding part 9c will be played Music D2A+D2B, and become by shutdown mode and turn to sleep pattern.In a sleep mode, sounding part 9c will repeat playing D2A+ D2B, playing interval are 8 seconds.

Under sleep pattern, the inductive switch 9a on the top of a lower bottom base 12 is touched, induction toy 100 is become by sleep pattern to be turned to Awake mode, i.e. shell 11 are risen, and eye decoration 4 is opened, and sounding part 9c plays D1.

Under awake mode, the inductive switch 9a on the top of a lower bottom base 12 is touched, because the mode of touch is different, induction toy 100 corresponding change also differs, and details is as described below：

First walking mode：The inductive switch 9a on the top of a lower bottom base 12 is touched, induction toy 100 is changed by awake mode For the first walking mode.Specific change procedure is as follows：

(1) touch sensible switch 9a, sounding part 9c play D1；

(2) D1 is finished, and induction toy 100 starts to advance after 0.5 second, and pace is standard speed；

(3) after walking 0.5 second, D1 is played again, before induction toy 100 still keeps standard speed while D1 is played Enter；

(4) after D1 is finished, walk 2 seconds, play D1 again, induction toy 100 still keeps marking while D1 is played Quasi velosity advances；

(5) after D1 is finished, walked 2 seconds with standard speed, induction toy 100 stops moving ahead, and sounding part 9c is played D1；

(6) after D1 is finished, induction toy 100 becomes sleep pattern again.

Second walking mode：The inductive switch 9a on the top of two lower bottom base 12 is touched in 1 second, induction toy 100 is by mould of regaining consciousness Formula, which becomes, turns to the second walking mode.Specific change procedure is as follows：

Twice inductive switch 9a are touched in (1) 1 second, sounding part 9c plays D2B；

(2) D2B is finished, and induction toy 100 starts to advance at a slow speed after 0.5 second；

(3) for low-speed running after 3 seconds, induction toy 100 stops walking, and sounding part 9c plays D2B；

(4) after D2B is finished, induction toy 100 continues to advance at a slow speed；

(5) for low-speed running after 3 seconds, induction toy 100 stops walking, and sounding part 9c plays D2B；

(6) after D2B is finished, induction toy 100 becomes sleep pattern again.

The third line walking modes：The inductive switch 9a on the top of long-press base 12, continue 2 seconds, induction toy 100 is by awake mode Change turns to the third line walking modes.Specific change procedure is as follows：

(1) the inductive switch 9a on the top of long-press base 12, sounding part 9c play D3；

(2) after D3 is finished, wait 0.5 second, the shell 11 of induction toy 100 make successively decline, rising, again under Drop, the action risen again；

(3) induction toy 100 starts to advance, and pace is standard speed；

(4) after being advanced 2 seconds with standard speed, induction toy 100 halts, and sounding part 9c plays D3；

(5) after D3 is finished, the shell 11 of induction toy 100 make successively decline, rising, decline again, again on The action risen；

(6) induction toy 100 starts to advance, and pace is standard speed；

(7) after being advanced 2 seconds with standard speed, induction toy 100 halts, and sounding part 9c plays D3；

(8) after D3 is finished, induction toy 100 becomes sleep pattern again.

Need to illustrate when, the induction toy 100 of this example can also coordinate accessory 9d to complete different walking shapes State.

As shown in figure 12, accessory 9d is a square capsule, and accessory 9d can be positioned over induction toy 100 Top so that magnetic switch 9b works.

Coordinate the specific control process of accessory 9d induction toy 100 as follows.

Under shutdown mode, the switch (not shown) being located on the shell of induction toy 100 is opened, sounding part 9c will be played Music D8, and become by shutdown mode and turn to sleep pattern.

Under sleep pattern, accessory 9d is positioned over to the top of induction toy 100, triggers magnetic switch 9c, sensing is played Tool 100 is become by sleep pattern turns to awake mode, i.e. shell 11 is risen, and eye decoration 4 is opened, and sounding part 9c plays D1.

Under sleep pattern, the inductive switch 9a on the top of a lower bottom base 12 is touched, induction toy 100 is become by sleep pattern to be turned to Awake mode, i.e. shell 11 are risen, and eye decoration 4 is opened, and sounding part 9c plays D1.Accessory 9d is positioned over sense again The top of toy 100 is answered, triggers magnetic switch 9c, sounding part 9c plays D8.

Under awake mode, the inductive switch 9a on the top of a lower bottom base 12 is touched, because the mode of touch is different, induction toy 100 corresponding change also differs, and details is as described below：

Fourth line walking modes：The inductive switch 9a on the top of a lower bottom base 12 is touched, induction toy 100 is changed by awake mode For fourth line walking modes.Specific change procedure is as follows：

(1) touch sensible switch 9a, sounding part 9c play D6；

(2) D6 is finished, and after 0.5 second, sounding part 9c plays D4A；

(3) after D4A is finished, sounding part 9c plays D4B, and induction toy 100 is moved ahead with standard speed while broadcasting；

(4) after being advanced 2 seconds with standard speed, sounding part 9c plays D4A；

(5) after D4A is finished, sounding part 9c plays D4C, and induction toy 100 is moved ahead with standard speed while broadcasting；

(6) run to D4C with standard speed to finish, induction toy 100 stops moving ahead, and becomes sleep pattern again.

Fifth line walking modes：The inductive switch 9a on the top of two lower bottom base 12 is touched in 1 second, induction toy 100 is by mould of regaining consciousness Formula, which becomes, turns to fifth line walking modes.Specific change procedure is as follows：

Twice inductive switch 9a are touched in (1) 1 second, sounding part 9c plays D7；

(2) D7 is finished, and induction toy 100 starts to advance with standard speed after 0.5 second；

(3) after being walked 2 seconds with standard speed, induction toy 100 is converted into low-speed running；

(4) low-speed running 4 seconds, sounding part 9c plays D7 while 100 low-speed running of induction toy；

(5) induction toy 100 is converted into standard speed walking；

(6) after being walked 2 seconds with standard speed, induction toy 100 stops walking；

(7) sounding part 9c plays D7, finishes rear induction toy 100 and becomes sleep pattern again.

6th walking mode：The inductive switch 9a on the top of long-press base 12, continue 2 seconds, induction toy 100 is by awake mode Change turns to the 6th walking mode.Specific change procedure is as follows：

(1) the inductive switch 9a on the top of long-press base 12, sounding part 9c play D8；

(2) after D8 is finished, wait 0.5 second, induction toy 100 is moved ahead with standard speed；

(3) after being moved ahead 1 second with standard speed, induction toy 100 halts；

(4) shell 11 of induction toy 100 declined successively, vertical motion；

(5) induction toy 100 is moved ahead with standard speed, and after being moved ahead 1 second with standard speed, is halted；

(6) shell 11 of induction toy 100 is declined, risen successively, is declined, vertical motion；

(7) induction toy 100 is moved ahead with standard speed, and after being moved ahead 1 second with standard speed, is halted；

(8) shell 11 of induction toy 100 is declined, risen successively, is declined, is risen, declining, vertical motion；

(9) sounding part 9c plays D8, finishes rear induction toy 100 and becomes sleep pattern again.

If induction toy 100 is in awake mode, there is no any touch action in 5 seconds, induction toy 100 will enter etc. Pattern is treated, standby mode is described as follows：

(1) sounding part 9c plays D5；

(2) after D5 is finished, playing process and after finishing in 8 seconds without any touch action；

(3) sounding part 9c plays D5 again, playing process and after finishing in 8 seconds without any touch action；

(4) induction toy 100 becomes sleep pattern again.

If induction toy 100 is in sleep pattern, 5 D2A+D2B are played, still without any touch action, sense Toy 100 is answered to power off automatic shutdown, into shutdown mode.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " example ", " specifically show The description of example " or " some examples " etc. means specific features, structure, material or the spy for combining the embodiment or example description Point is contained at least one embodiment or example of the present utility model.In this manual, to the schematic table of above-mentioned term State and be not necessarily referring to identical embodiment or example.Moreover, specific features, structure, material or the feature of description can be Combined in an appropriate manner in any one or more embodiments or example.

While there has been shown and described that embodiment of the present utility model, it will be understood by those skilled in the art that： These embodiments can be carried out with a variety of changes, modification in the case where not departing from principle and objective of the present utility model, replaced And modification, the scope of the utility model are limited by claim and its equivalent.

Claims (10)

1. A kind of 1. induction toy, it is characterised in that including：

   Body, the body include base and shell, and the shell is movably located on the base；

   Actuating unit, the actuating unit are located on the base, and the actuating unit includes：Motor, wobble gear group and crouching Driving gear set is played, the wobble gear group is engaged transmission with the motor, and the motor can band when direction initialization rotates The wobble gear group is moved to be meshed transmission with the driving gear set that squats up；

   Squat up eccentric wheel, described to squat up eccentric wheel and be connected by squatting up power transmission shaft with the driving gear set that squats up, the crouching Eccentric wheel is played with the shell to be connected to drive above and below the shell flexible when rotating.
2. 2. induction toy according to claim 1, it is characterised in that the shell is provided with and squats up bar, described to squat up bar Only it is against turn for squatting up on the outer peripheral face of eccentric wheel, squatting up eccentric wheel on the outer peripheral face for squatting up eccentric wheel described in distance The distalmost end of shaft line is formed as start-stop plane.
3. 3. induction toy according to claim 1, it is characterised in that the base is provided with start-stop eccentric wheel and start-stop is opened Close, the start-stop switch is electrically connected with the motor to brake the motor, and the start-stop eccentric wheel squats up driving cog with described Wheel group is connected to trigger the start-stop switch when the relatively described base of the shell rises setting height.
4. 4. induction toy according to claim 3, it is characterised in that the start-stop eccentric wheel is formed as substantially semicircle.
5. 5. induction toy according to claim 1, it is characterised in that the base only switchs provided with crouching and can be with described Bar is slided in base activity, and only switch electrically connects with the motor for the crouching, declines setting in the relatively described base of the shell The bar triggering crouching is slided described in during height only to switch.
6. 6. induction toy according to claim 5, it is characterised in that the base and described slide are stopped provided with crouching between bar Elastic component, described squat stop elastic component for promoting the bar that slides only to support on the housing.
7. 7. induction toy according to claim 1, it is characterised in that also include：Eye decoration and eye transmission mechanism, The eye decoration is movably set on the housing, the eye transmission mechanism respectively with the eye decoration and institute Base is stated to be connected.
8. 8. induction toy according to claim 7, it is characterised in that the eye transmission mechanism includes：

   Eye lever, the eye lever are rotatably arranged on the shell, and one end of the eye lever is pressed on described On eye decoration, the base is connected with the other end of the eye lever；

   Eye elastic component, the eye elastic component is connected between the shell and the eye decoration, often to push up The eye decoration.
9. 9. induction toy according to claim 1, it is characterised in that the motor shaft of the motor is formed as worm screw, described Wobble gear group includes：First gear, second gear, wobble gear and oscillating rod,

   The axis of oscillation of the first gear, the second gear and the oscillating rod is coaxially disposed, the first gear and institute State worm screw to be meshed, the first gear and the second gear synchronous axial system, the wobble gear is rotatably arranged at described Be meshed on oscillating rod and with the second gear, when the motor rotates along direction initialization, the wobble gear with it is described Driving gear set is squatted up to be meshed transmission.
10. 10. according to the induction toy any one of claim 1-9, it is characterised in that the top of the body, which is provided with, to be used In the inductive switch and magnetic switch that control the motor operating.