CN110251957A - Rotatable toy - Google Patents

Abstract

The invention discloses a kind of rotatable toys.Rotatable toy includes: fixed body, rotor, the first locking device and storage body, rotor is rotatably arranged on fixed body, the rotation axis of rotor is vertically arranged, first locking device is used to rotor being locked at fixed body, storage body is connected between fixed body and rotor, storage body is configured to the accumulation of energy when rotor inverts, and releasing in the unlock of the first locking device can be to drive rotor to rotate forward.Rotatable toy according to an embodiment of the present invention presents a kind of rotatable toy of brand new, visual effect is preferable, interest is higher by the way that the rotor of rotation axis rotation vertically is arranged on fixed body.

Description

Rotatable toy

Technical field

The present invention relates to toy art more particularly to a kind of rotatable toys.

Background technique

Toy car has captured the very big market share in toy market, can obtain consumer's happiness in all ages and classes stage Love.Existing toy car is probably divided into racing vehicle, overturning vehicle, shape-changeable vehicle, projectile vehicle etc. from function distinguishing.

Wherein, type toy vehicle is deformed, and is divided into manual deformation, Electronic control deformation and mechanical triggering deformation.But no matter It is using which kind of deformation, the mode of texturing of current deformation type toy vehicle is relatively simple, more traditional, such as dismounts, turns manually Dynamic, assembling is deformed；The for another example deformation of an electronic key or multistage deformation；For another example mechanical collision deformation etc., process is How to deform function come what is designed, there is no others function embodiments.Therefore it be easy to cause playing method tired, it loses consumer and plays Enjoyment.

Summary of the invention

The present invention is directed at least solve one of the technical problems existing in the prior art.For this purpose, the present invention proposes that one kind can The toy of rotation, the rotatable toy provide the new construction of toy rotation, new playing method, and interest is strong, good visual effect.

The first rotatable toy according to an embodiment of the present invention, comprising: fixed body, rotor, the first locking device And storage body, the rotor are rotatably arranged on the fixed body, and the rotation axis of the rotor is vertically arranged, and described One locking device is used to the rotor being locked at the fixed body, and the storage body is connected to the fixed body and described Between rotor, the storage body is configured to the accumulation of energy when the rotor inverts, and releases in first locking device unlock It can be to drive the rotor to rotate forward.

The first rotatable toy according to an embodiment of the present invention, by the way that the rotation rotated around vertical rotating axis is arranged Body provides new construction, new playing method that toy rotates, and playability is high, and interest is higher.

In addition, rotatable toy according to the present invention, can also have the following additional technical features:

In some embodiments of the invention, the storage body includes accumulation of energy shell, turntable and accumulation of energy part, and the accumulation of energy shell is set On one in the fixed body and the rotor, the turntable is rotatably arranged in the accumulation of energy shell, the turntable It is equipped with connecting column, the connecting column stretches out the accumulation of energy shell, and in the connecting column and the fixed body and the rotor Another be connected, one end of the accumulation of energy part and the accumulation of energy shell phase connect, the other end of the accumulation of energy part and described turntable phase Even, the potential energy of turntable accumulation of energy part when rotating relative to the accumulation of energy shell increases or reduces.

In some examples of the invention, one in the fixed body and the rotor is equipped with the slot that is rotatably assorted, Another in the fixed body and the rotor is equipped with the platform that is rotatably assorted, and the platform cooperation that is rotatably assorted is in the rotation In mating groove, the connecting column passes through the slot setting that is rotatably assorted, and the platform that is rotatably assorted constitutes the described of the rotor Rotation axis.

In some examples of the invention, in the table towards another on one in the fixed body and the rotor Face, which is equipped with, thickeies platform, and the thickenings platform is equipped with the first lock slots, and first locking device is with can protrude into or exit institute State the first lock tongue of the first lock slots.

In some embodiments of the invention, the accumulation of energy gear set being connected with the turntable is equipped in the accumulation of energy shell.

In some embodiments of the invention, there is the first trigger bit and first to perforate on the fixed body, described first Locking device is located in the fixed body, and one end of first locking device extends at first trigger bit, and described The other end of one locking device is stretched out from first perforation place with rotor described in locking.

In some embodiments of the invention, first locking device includes: the first locking level, the first locking return unit With the first magnetic absorption member, one end of first locking level is extended at first trigger bit, first locking level it is another End is stretched out to form the first lock tongue from first perforation place, and the first locking return unit is connected with first locking level with normal Drive first locking level towards the first trigger bit activity, first magnetic absorption member is located at first trigger bit.

In some embodiments of the invention, rotatable toy further includes rotation limitation component, the rotation limitation group Part is staggered with the storage body in the horizontal plane, and the rotation limitation component includes: motionless locating piece and the part that is rotatably assorted, institute It states motionless locating piece to be located on the fixed body, the part that is rotatably assorted is located on the rotor, and the part that is rotatably assorted exists The both ends of the rotor slewing area cooperate with the motionless locating piece.

In some examples of the invention, the opposite sides of the part in the rotation direction of the rotor that be rotatably assorted Be respectively equipped with initial position auxiliary section and final position auxiliary section, the motionless locating piece in the rotation direction of the rotor opposite two Side is respectively equipped with initial position positioning region and final position positioning region, and the initial position auxiliary section is matched with the initial position positioning region, the end Position auxiliary section is matched with the final position positioning region.

In some examples of the invention, the initial position auxiliary section and the final position auxiliary section are formed as matching in the rotation The slot of the opposite sides opening of component, the initial position positioning region and the final position positioning region are formed as the motionless locating piece The inserted block of opposite sides.

Specifically, the rotor is rotatably arranged in the surface of the fixed body, and the rotor is in horizontal plane On projection be more than or equal to the projection of the fixed body in the horizontal plane.

Second of rotatable toy according to an embodiment of the present invention, comprising: fixed body, rotor, the first locking device, Storage body is rotatably arranged on the fixed body from swivel and rotation locking device, the rotor, the first locking dress Set for the rotor to be locked at the fixed body, the storage body be connected to the fixed body and the rotor it Between, the storage body is configured to the accumulation of energy when the rotor inverts, and releasing in first locking device unlock can be to drive The rotor rotates forward, described to be located on the fixed body or the rotor from swivel, described to unlock completely from swivel It can be rotated afterwards, the axis of rotation from swivel deviates the rotation axis of the rotor, and the rotation locking device is used for locking institute It states from turning, the rotor can trigger the unlock of rotation locking device part or completely solution relative to fixed body rotation Lock.

Second of rotatable toy according to an embodiment of the present invention rotates rotor by setting rotation axis, toy Rotational structure is relatively new.On fixed body or rotor setting from turn, from swivel rotor rotation when part unlock or Person all unlocks, and so that the rotation of rotor is generated interaction relation with the unlock from swivel, this chain structure interest is higher.

In addition, rotatable toy according to the present invention, can also have the following additional technical features:

In some embodiments of the invention, the rotation locking device includes interior lock set and outer lock set, it is described in Lock set is located between the fixed body and the rotor, the interior lock set and it is described from swivel cooperate with described in locking from Swivel, the rotor can trigger the interior lock set unlock relative to fixed body rotation, and the outer lock set is located at described From the fixed body or the rotor where swivel, the outer lock set and the cooperation of swivel certainly are described in locking From swivel, the outer lock set, which has, is located at the external lock trigger unit from swivel, described after the external lock trigger unit triggering Outer lock set unlock.

In some examples of the invention, the interior lock set includes inside lock lever and interior closing piece, the inside lock lever and described From swivel on be located in the fixed body and the rotor one, the swingable setting of the inside lock lever and one end with it is described Rotation mates, the interior closing piece are located on another in the fixed body and the rotor, the first locking dress The interior closing piece blocks the inside lock lever when setting rotor described in locking, and first locking device discharges rotor when institute It states interior closing piece and discharges the inside lock lever.

In some examples of the invention, the rotation locking device includes rotation driving assembly, the rotation driving group Part includes rotation driving gear set and rotation elastic component, and the rotation driving gear set is located at the inside lock lever and the swivel certainly Between, the rotation elastic component is used to pull the inside lock lever to rotate in the unlock completely from swivel.

In some examples of the invention, the inside lock lever be sector, the rotation driving gear set include sector and Rotation tooth, the sector are formed in the inside lock lever, and the rotation tooth is co-axially located at described from swivel.

In some examples of the invention, the inside lock lever and it is described from swivel be each provided on the rotor, described turn Body kinetoplast is equipped with sliding slot, and one end of the inside lock lever is equipped with sliding block of the cooperation in the sliding slot, and the interior closing piece can be supported only On the slide block to block the inside lock lever.

In some embodiments of the invention, described to be equipped with outer locked groove from swivel, the outer lock set includes outer locking bar, The outer locking bar is movably located on the fixed body or the rotor from where swivel, the outer locking bar structure It causes to stretch out described in Chang Chaoxiang from swivel, it is described that from swivel, the outer locking bar be can be inserted into the outer locked groove during rotation, The external lock trigger unit be movably located at it is described from swivel, can be by the outer locking bar from institute when external lock trigger unit triggering State ejection in outer locked groove.

Optionally, the outer locked groove be it is multiple, multiple external lock grooved rings around the axis of rotation be spaced apart setting, it is described from Multiple external lock trigger units are arranged in corresponding multiple outer locked grooves in turning, described to divide from outer locking bar described when turning rotation Do not cooperate with multiple outer locked grooves.

Further, multiple outer locked grooves are equipped with gradually deep trouth in the same side in the circumferential, and each gradually deep trouth is in court Gradually deepen on the direction of the correspondence outer locked groove.

In some examples of the invention, the fixed body is equipped with internal lock tank, and the interior closing piece is movably located at In the internal lock tank, and the interior closing piece is configured to one end and often stretches out the internal lock tank, is inverted in the rotor The interior closing piece is matched with the sliding block to block the inside lock lever when end, when the rotor just goes to end described in Sliding block squeezes into the interior closing piece in the internal lock tank.

The third rotatable toy according to an embodiment of the present invention, comprising: fixed body, rotor, the first locking device, Storage body, action piece and the second locking device, the rotor are rotatably arranged on the fixed body, the first locking dress Set for the rotor to be locked at the fixed body, the storage body be connected to the fixed body and the rotor it Between, the storage body is configured to the accumulation of energy when the rotor inverts, and releasing in first locking device unlock can be to drive The rotor rotates forward, and the action piece is located on the fixed body and/or the rotor, and second locking device is used for Action piece described in locking, after triggering second locking device, the action piece expansion deformation or the action piece pivot with The toy is set to empty overturning.

The third rotatable toy according to an embodiment of the present invention is played by the way that the rotor rotated around rotation axis is arranged The rotational structure of tool is relatively new.By the way that action piece is arranged on such toy, the playing method of toy is enriched, toy is enhanced Interest.

In addition, rotatable toy according to the present invention, can also have the following additional technical features:

In some embodiments of the invention, the action piece includes at least one in flip piece, deformable member and rotation part It is a.

In some embodiments of the invention, the action piece includes the first action piece, the rotor and the fixation One in body is equipped with first dynamic trigger member, and second locking device includes the second locking level and the second locking return unit, institute The second locking return unit is stated for often driving second locking level to lock first action piece, wherein second locking Bar is equipped with first dynamic reacting part, and the first dynamic reacting part is located on another in the rotor and the fixed body, described Rotor relative to the fixed body rotate during the first dynamic trigger member triggering first dynamic reacting part, make second lock Fixed pole discharges first action piece.

In some examples of the invention, when the rotor is inverted to end, the first dynamic trigger member avoids the head Dynamic reacting part, when the rotor is just going to end, the first dynamic trigger member squeezes the first dynamic reacting part so that described second Locking level activity.

In some examples of the invention, the first dynamic trigger member is movably arranged, equipped with second locking level The rotor or the fixed body are equipped with guidance part, and when the rotor turns to set angle, the guidance part will The first dynamic trigger member guiding first dynamic reacting part, it is described to lead when the rotor turns to and deviates the set angle Draw portion and the first dynamic trigger member guiding is deviateed into the first dynamic reacting part.

Optionally, the guidance part is guide channel, and the first dynamic trigger member is configured to slide along the guide channel, described to lead Depth differs approaching channel in the direction of extension.

Optionally, the first dynamic trigger member is telescopically arranged, and windward side of the first dynamic trigger member in reversion is formed For the guiding face of arc.

In some examples of the invention, the action piece includes the second action piece, and second locking device includes: the Three locking levels and third lock return unit, and the third locking return unit is for often driving the third locking level to lock described the Two action pieces, wherein trigger the third locking level after the first action piece movement, make described in the third locking level release Second action piece.

Optionally, first action piece is located on the fixed body, and second action piece is located on the rotor, Second locking device further includes time dynamic trigger member being movably located between the fixed body and the rotor, described Described dynamic trigger member is triggered after the movement of first action piece, drives the third locking level living after described dynamic trigger member triggering It is dynamic.

Further, described dynamic trigger member is telescopically located in the fixed body, and described time dynamic trigger member has touching Opposite ends and reactive end, described dynamic trigger member are configured to the triggering end and often stretch out the fixed body and the normal retraction of the reactive end The fixed body can trigger the triggering end after first action piece movement, stretches out the reactive end and triggers described the Three locking levels.

Further, one end of the third locking level compresses platform, the reaction equipped with what is exposed out of described rotor End drives the third locking level activity by compressing platform described in extruding.

Further, the arc for compressing platform and being formed around the rotation axis setting of the rotor.

In some examples of the invention, the rotor towards on the surface of the fixed body, equipped with for avoiding The annular escape groove of the reactive end.

In some examples of the invention, second action piece is multiple, and multiple second action pieces pass through linkage Multiple thirds lock rod locks.

4th kind of rotatable toy according to an embodiment of the present invention, comprising: fixed body, rotor, the first locking device And storage body, the rotor are rotatably arranged on the fixed body, first locking device is used for the rotor It is locked on the fixed body, the storage body is connected between the fixed body and the rotor, the storage body construction At the accumulation of energy in rotor reversion, releasing in first locking device unlock can be to drive the rotor to rotate forward；Its In, at least one of the fixed body and the rotor are equipped with the department of assembly for localized external toy body.

Rotatable toy according to an embodiment of the present invention, by the way that rotor, the rotation knot of toy are arranged on fixed body Structure is relatively new.There can be card by being arranged on fixed body and/or rotor with the department of assembly of the toy body of localized external, toy The playing method of external toy body is held, playing method is rich and varied.

In addition, rotatable toy according to the present invention, can also have the following additional technical features:

It is of the invention it is some be in embodiment, the department of assembly includes the first department of assembly being located on the fixed body, First locking device is located on the fixed body, and one end of first locking device extends to first department of assembly Place triggers the first locking device unlock when the toy body cooperates in first department of assembly.

It is of the invention it is some be in embodiment, the department of assembly includes the second department of assembly being located on the rotor, Toy body described in the rotor rotation process can cooperate at second department of assembly.

It is of the invention it is some be in embodiment, the department of assembly is at least one in magnetic absorption member, clamping piece and fastener It is a.

It is of the invention it is some be in embodiment, the department of assembly is to be formed in the fixed body and/or the rotor On clamp port, the fixed body and/or the rotor are equipped with for the toy body to be pull-in on the clamp port Magnetic absorption member.

It is of the invention it is some be in embodiment, rotatable toy further include from swivel and rotation locking device, it is described It is located on the rotor from swivel, described to can be rotated after complete unlock from swivel, the axis of rotation from swivel deviates institute The rotation axis of rotor is stated, the rotation locking device for turning certainly described in locking, the relatively described fixed body of the rotor Rotation can trigger the unlock of rotation locking device part or unlock completely, and the department of assembly is described from swivel including being located at Third department of assembly, it is described from swivel rotation process described in toy body can cooperate at the third department of assembly.

In some examples of the invention, one end of the rotation locking device extends to the third department of assembly, works as institute It states toy body cooperation and triggers the rotation locking device unlock at the third department of assembly.

In some examples of the invention, the rotation locking device includes interior lock set and outer lock set, the internal lock Component is located between the fixed body and the rotor, and the interior lock set and the cooperation of swivel certainly are with rotation described in locking Body, the rotor can trigger the interior lock set unlock relative to fixed body rotation, and the outer lock set is located at described turn On kinetoplast, the outer lock set and the swivel certainly cooperate so that, from turning, the outer lock set is described with being located at described in locking The external lock trigger unit of third department of assembly, the outer lock set unlock after the external lock trigger unit triggering.

Optionally, described to be equipped with outer locked groove from swivel, the outer lock set includes: outer locking bar, and the outer locking bar can live It is located on the rotor dynamicly, the outer locking bar is configured to stretch out described in Chang Chaoxiang from swivel, described to rotate from swivel Outer locking bar described in journey can be inserted into the outer locked groove, the external lock trigger unit be movably located at it is described from turning, it is described External lock trigger unit can eject the outer locking bar when triggering out of described outer locked groove.

Optionally, described to be equipped with multiple outer locked grooves from swivel, multiple external lock grooved rings are spaced apart around the axis of rotation It is arranged, multiple outer locked grooves is corresponded in the rotation body, multiple third departments of assembly and multiple external lock triggerings are set Portion, it is described to cooperate respectively with multiple outer locked grooves from outer locking bar described when turning rotation.

Further, multiple outer locked grooves are equipped with gradually deep trouth in the same side in the circumferential, and each gradually deep trouth is in court Gradually deepen on the direction of the correspondence outer locked groove.

Additional aspect and advantage of the invention will be set forth in part in the description, and will partially become from the following description Obviously, or practice through the invention is recognized.

Detailed description of the invention

Above-mentioned and/or additional aspect of the invention and advantage will become from the description of the embodiment in conjunction with the following figures Obviously and it is readily appreciated that, in which:

Fig. 1 is the structural schematic diagram of rotatable toy according to an embodiment of the present invention；

Fig. 2 is the structural blast schematic diagram of rotatable toy according to an embodiment of the present invention；

Fig. 3 is the angled arrangement explosion of the fixed body and rotor of rotatable toy according to an embodiment of the present invention Schematic diagram；

Fig. 4 be rotatable toy according to an embodiment of the present invention fixed body and rotor another angled arrangement it is quick-fried Fried schematic diagram；

Fig. 5 is the structural blast schematic diagram of the fixed body of rotatable toy according to an embodiment of the present invention；

Fig. 6 is the rotor of rotatable toy according to an embodiment of the present invention and the structural schematic diagram from swivel；

Fig. 7 is the fixed body, rotor and an angle from swivel of rotatable toy according to an embodiment of the present invention Structural blast schematic diagram；

Fig. 8 is the fixed body, rotor and another turned certainly of rotatable toy according to an embodiment of the present invention The structural blast schematic diagram of angle；

Fig. 9 is the schematic enlarged-scale view in the portion A in Fig. 7；

Figure 10 is the rotor of rotatable toy according to an embodiment of the present invention and the structural blast schematic diagram from swivel；

Figure 11 is that the fixed body of rotatable toy according to an embodiment of the present invention splits out the structural schematic diagram of upper housing；

Figure 12 is the fixed body of rotatable toy according to an embodiment of the present invention and the knot that rotor turns an angle Structure schematic diagram；

Figure 13 is the fixed body of rotatable toy according to an embodiment of the present invention, rotor and from turning an angle Structural schematic diagram；

Figure 14 be the dismounting fixed body of upper housing of rotatable toy according to an embodiment of the present invention, third locking level and The structural schematic diagram of third locking return unit；

Figure 15 is the first locking level, the second locking level, the first movement of rotatable toy according to an embodiment of the present invention The structural schematic diagram of part and time dynamic trigger member；

Figure 16 is the structural schematic diagram of the second locking device of rotatable toy according to an embodiment of the present invention；

Figure 17 is that the fixed body of rotatable toy according to an embodiment of the present invention moves instead with the dynamic trigger member of head in evacuation head Answer the structural schematic diagram in portion；

Figure 18 is that the fixed body of rotatable toy according to an embodiment of the present invention and the dynamic trigger member of head are squeezing first move instead Answer the structural schematic diagram in portion；

Figure 19 is the structural schematic diagram after the second action piece triggering of rotatable toy according to an embodiment of the present invention；

Figure 20 is the structural blast schematic diagram of the amplification from swivel of rotatable toy according to an embodiment of the present invention；

Figure 21 is the structural schematic diagram of the fixed body of rotatable toy according to an embodiment of the present invention.

Appended drawing reference:

Toy 100,

Fixed body 1, the platform 11, first that is rotatably assorted perforation 12, internal lock tank 13, guide channel 14, clamp port 15, first trigger Position 16,

Rotor 2, the slot 21 that is rotatably assorted thicken platform 22, the first lock slots 221, sliding slot 23, first dynamic trigger member 24, annular Escape groove 25,

First locking device 3, the first lock tongue 31, the first locking level 32, first locking return unit 33, the first magnetic absorption member 34,

Storage body 4, accumulation of energy shell 41, turntable 42, connecting column 421, accumulation of energy part 43, accumulation of energy gear set 44,

Rotation limitation component 5, motionless locating piece 51, initial position positioning region 511, final position positioning region 512, the part 52 that is rotatably assorted, Initial position auxiliary section 521, final position auxiliary section 522,

From swivel 6, outer locked groove 61, the axis of rotation 62,

Rotation locking device 7, interior lock set 71, inside lock lever 711, sliding block 7111, interior closing piece 712, outer lock set 72, external lock Bar 721, external lock trigger unit 722, rotation driving assembly 73, rotation driving gear set 731, sector 7311, rotation tooth 7312, from Turn elastic component 732,

Action piece 8, the first action piece 81, the second action piece 82,

Second locking device 9, the second locking level 91, first dynamic reacting part 912, second lock return unit 92, third locking level 93, third locking return unit 94, secondary dynamic trigger member 95, triggering end 951, reactive end 952, compress platform 96,

First department of assembly 101, third department of assembly 103.

Specific embodiment

The embodiment of the present invention is described below in detail, the example of embodiment is shown in the accompanying drawings, wherein identical from beginning to end Or similar label indicates same or similar element or element with the same or similar functions.It is retouched below with reference to attached drawing The embodiment stated is exemplary, and for explaining only the invention, and is not considered as limiting the invention.

Below with reference to the accompanying drawings the first rotatable toy 100 according to an embodiment of the present invention is described.

As shown in Fig. 2, being the first rotatable toy 100 of embodiment, including fixed body 1, rotation according to the present invention Body 2, the first locking device 3 and storage body 4.

Rotor 2 is rotatably arranged on fixed body 1, embodies the rotatable effect of toy.The rotation axis of rotor 2 Vertically arranged, i.e., rotor 2 substantially rotates along the horizontal plane.It should be noted that vertically arranged here be not limited to rotation axis It is substantially parallel with vertical line, vertical line is the straight line perpendicular with horizontal plane here.When rotor 2 rotation axis and vertical line it Between angle be in 15 degree within the scope of, it is considered that the rotation axis of rotor 2 is vertically arranged.

First locking device 3 is used to for rotor 2 being locked at fixed body 1, and storage body 4 is connected to fixed body 1 and rotation Between body 2, storage body 4 is configured to the accumulation of energy when rotor 2 inverts, and releasing in the unlock of the first locking device 3 can be to drive rotation Body 2 rotates forward.As a result, when inverting rotor 2 relative to fixed body 1, storage body 4 can rotate certain angle with accumulation of energy, rotor 2 After degree, rotor 2 can be locked on fixed body 1 by the first locking device 3, at this point, with fixed body 1 phase does not occur for rotor 2 To rotation, storage body 4 stops accumulation of energy, meanwhile, storage body 4 is also locked up, and can not release energy.After the unlock of the first locking device 3, store Energy body 4 can release energy, at this point, storage body 4 can drive rotor 2 to rotate forward.

In the description of the present invention, " rotating forward " is used to describe the direction of rotor 2 when storage body 4 releases energy, but it is not to use To limit the specific rotation direction of rotor 2." reversion " is for describing the direction opposite with " rotating forward ".

Rotatable toy 100 according to an embodiment of the present invention, by the way that the rotor rotated around vertical rotation axis is arranged 2, a kind of completely new rotational structure and playing method are presented, interest is higher.

Specifically, rotor 2 is rotatably arranged in the surface of fixed body 1, and the projection of rotor 2 in the horizontal plane can To be more than or equal to the projection of fixed body 1 in the horizontal plane.2 entire area of rotor in this way is larger, makes on rotor 2 Action piece 8 is arranged in type on rotor 2, and visually movement variation is big, and interaction effect is more preferable.

In some embodiments of the invention, as shown in Figures 2 and 3, storage body 4 includes accumulation of energy shell 41, turntable 42 and stores Energy part 43, accumulation of energy shell 41 are located on one in fixed body 1 and rotor 2, and turntable 42 is rotatably arranged in accumulation of energy shell 41, are turned Disk 42 be equipped with connecting column 421, connecting column 421 stretch out accumulation of energy shell 41, and connecting column 421 with it is another in fixed body 1 and rotor 2 One is connected.One end of accumulation of energy part 43 is connected with accumulation of energy shell 41, and the other end of accumulation of energy part 43 is connected with turntable 42, and turntable 42 is opposite The potential energy of accumulation of energy part 43 increases or reduces when accumulation of energy shell 41 rotates.

Wherein, turntable 42 is equivalent to the rotation axis of rotor 2, and turntable 42 is arranged in accumulation of energy shell 41, on the one hand this Being arranged assembly relation makes to be not easily disconnected between turntable 42 and accumulation of energy shell 41, and on the other hand the face contact cooperation of the two ensure that the two Between rotational motion relationship, rotating rotor 2 on fixed body 1 can be more steady.In addition, since accumulation of energy shell 41 will turn Disk 42 is opened with other component barrier, and therebetween not vulnerable to the interference of other component, therefore rotation reliability can be improved.

In addition, connecting column 421 connects rotor 2 when accumulation of energy shell 41 is located on fixed body 1；Turn when accumulation of energy shell 41 is located at When on kinetoplast 2, connecting column 421 is connected and fixed body 1.Hereinafter simplify explanation, be located on fixed body 1 with accumulation of energy shell 41, even It connects for column 421 connects rotor 2 and is illustrated.

Optionally, accumulation of energy part 43 can be wind spring, accumulation of energy part 43 or elastic force muscle, in some embodiments, accumulation of energy part 43 can also be the piston etc. through special setting.In the example of Fig. 3 and Fig. 4, accumulation of energy part 43 is wind spring, and wind spring is arranged in accumulation of energy In shell 41, so that accumulation of energy shell 41 has good protective effect to wind spring.

Optionally, as shown in figure 3, being equipped with the accumulation of energy gear set 44 being connected with turntable 42 in accumulation of energy shell 41, work as turntable as a result, 42 relative to accumulation of energy shell 41 when rotating, and turntable 42 can drive accumulation of energy gear set 44 to operate, the operating of accumulation of energy gear set 44 Buffer the movement of turntable 42, rotational stability can be higher after the dash of turntable 42 reduces.

In addition, accumulation of energy gear set 44 can also play the role of deceleration on toy 100, make one circle of the rotation of rotor 2 when Between it is opposite extend, such one side rotor 2, which has rotated slack-off, can make its rotation more steady, on the other hand facilitate and is rotating The structure of linkage is set on body 2, and making the structure of linkage with the rotation of rotor 2, its movement variation generated is easier to present.This In accumulation of energy gear set 44 can be not specifically limited here using gear set structure disclosed in the prior art.

In some examples of the invention, as shown in Figure 3 and Figure 4, one in fixed body 1 and rotor 2, which is equipped with, turns Mating groove 21 is moved, another in fixed body 1 and rotor 2 is equipped with the platform 11 that is rotatably assorted, and the platform 11 that is rotatably assorted cooperation is turning In dynamic mating groove 21, connecting column 421 passes through the setting of slot 21 that is rotatably assorted.

The platform 11 that is rotatably assorted also corresponds to the rotation axis of rotor 2, the cooperation of be rotatably assorted slot 21 and the platform 11 that is rotatably assorted, Increase the contact surface between fixed body 1 and rotor 2, and at the cooperation of be rotatably assorted slot 21 and the platform 11 that is rotatably assorted with turn Moving axis axial line distance is big, and the moment of flexure that rotor 2 can carry is big, to guarantee the stationarity of rotation.In addition, be rotatably assorted slot 21 with The cooperation of platform 11 of being rotatably assorted can play block, protective effect to storage body 4.

In the accompanying drawings, the slot 21 that is rotatably assorted is located on rotor 2, and the platform 11 that is rotatably assorted is located on fixed body 1, is rotatably assorted Platform 11 is equipped with connecting hole, and the connecting column 421 to get off is stretched from top and is inserted into connecting hole.Optionally, connection is also and connecting column 421 be it is multiple, some connecting holes and connecting column 421 are rectangular etc..

In some examples of the invention, as shown in figure 4, on one in fixed body 1 and rotor 2 towards another Surface be equipped with thicken platform 22, thicken platform 22 be equipped with the first lock slots 221, the first locking device 3 have can protrude into or move back First lock tongue 31 of the first lock slots 221 out.When the first lock tongue 31 protrudes into the first lock slots 221, rotor 2 is locked in solid Determine on body 1, when the first lock tongue 31 exits the first lock slots 221, rotor 2 can rotate relative to fixed body 1.

Here, the first lock slots 221 are set on thickening platform 22, and except the position for thickening platform 22, fixed body 1 and rotor Gap between 2 is larger, and after the first lock tongue 31 is exited from the first lock slots 221, the first lock tongue 31 will not generate rotor 2 dry It relates to.

In the example of Fig. 4 and Fig. 5, the first lock tongue 31 moves horizontally after being triggered, and the first lock tongue 31 in the horizontal direction may be used It is caught in the first lock slots 221 or exits the first lock slots 221.Thicken platform 22 setting, make the first lock tongue 31 on triggering without Need to be vertically movable too much, be conducive to the vertical height of the first locking device 3 in this way.

In some embodiments of the invention, as shown in Fig. 2, having the first trigger bit 16 and the first perforation on fixed body 1 12, the first locking device 3 is located in fixed body 1, and one end of the first locking device 3 extends at the first trigger bit 16, the first lock Determine the other end of device 3 to be stretched out from the first perforation 12 with locking rotor 2, as a result, when one end of the first locking device 3 is the When one trigger bit 16 is triggered, the other end of the first locking device 3 can release the locking to rotor 2, make rotor 2 can be with It is rotated forward under the driving of storage body 4.

Here, the first trigger bit 16 refers to that outside will trigger the unlock of the first locking device 3 and need to touch on fixed body 1 The position of hair.And the setting of the first perforation 12, so that one end of the first locking device 3 is stretched out fixed body from the first perforation 12 1, first 12 pair of first locking device 3 of perforation can also play the role of limit, support.

Optionally, as shown in figure 5, the first locking device 3 includes that the first locking level 32, first locks return unit 33 and first Magnetic absorption member 34, one end of the first locking level 32 extend at the first trigger bit 16, and the other end of the first locking level 32 is worn from first It stretches out to form the first lock tongue 31 at hole 12, rotor 2 can be made to be locked by the cooperation of the first lock tongue 31 and rotor 2 as a result, Only on fixed body 1, the first lock tongue 31 can be made to discharge rotor 2 by triggering the first locking device 3 in the first trigger bit 16, Rotate rotor 2.

First locking return unit 33 is connected often to drive the first locking level 32 towards the first trigger bit with the first locking level 32 16 activities, as a result, when the first locking level 32 is protruded into towards the first trigger bit 16, the first lock tongue 31 can lock rotor 2, when When first locking level 32 is triggered off the first trigger bit 16, the first locking return unit 33 is compressed, and the first lock tongue 31 can solve Except the locking to rotor 2, when stopping the triggering to the first locking level 32, the first locking 33 elasticity recovery deformation of return unit can be with Drive the first locking level 32 towards 16 activity of the first trigger bit.

First magnetic absorption member 34 is located at the first trigger bit 16, and the first magnetic absorption member 34 can adsorb toy body, thus driving the One locking level 32 leaves the first trigger bit 16, so that the first locking device 3 be made to unlock.

The setting of first magnetic absorption member 34, moreover it is possible to make toy body be maintained at the first trigger bit 16, build toy 100 and fix The effect of outer toy body, to improve playability.

In some embodiments of the invention, as shown in Fig. 2, Fig. 6 and Fig. 7, rotatable toy 100 further includes rotation limit Component 5 processed, rotation limitation component 5 is staggered with storage body 4 in the horizontal plane, thus, it is possible to make rotation limitation component 5 and accumulation of energy The function of body 4 is not interfere with each other, and is conducive to the operating of rotatable toy 100.Being provided with for rotation limitation component 5 is conducive to limitation turn The angular range that kinetoplast 1 rotates, on the one hand avoiding rotor 1 from rotating transition leads to the damage of storage body 4, on the other hand utilizes and turns Dynamic limitation component 5 can trigger other variations of toy 100.

Specifically, rotation limitation component 5 includes motionless locating piece 51 and the part 52 that is rotatably assorted, and motionless locating piece 51 is located at solid Determine on body 1, the part 52 that is rotatably assorted is located on rotor 2, be rotatably assorted part 52 the both ends of 2 slewing area of rotor with it is motionless Locating piece 51 cooperates, thus, it is possible to make rotor 2 after one end end for being inverted to 2 slewing area of rotor, be rotatably assorted part 52 and motionless locating piece 51 side cooperation to limit the reversion of rotor 2, when rotor 2 is just going to 2 slewing area of rotor The other end end after, the other side cooperation of be rotatably assorted part 52 and motionless locating piece 51 to limit the rotating forward of rotor 2, thus Prevent rotor 2 from being conducive to the operation of rotatable toy along a direction unlimited rotary.Rotor 2 rotates and reverse, All it is to be limited by the cooperation of motionless locating piece 51 and the part 52 that is rotatably assorted, controls the rotational angle range of rotor 2 whole In circle, and the number of parts of rotation limitation component 5 can be saved.

Optionally, as shown in Fig. 2, Fig. 6 and Fig. 7, be rotatably assorted opposite sides of the part 52 in the rotation direction of rotor 2 It is respectively equipped with initial position auxiliary section 521 and final position auxiliary section 522, motionless locating piece 51 is opposite in the rotation direction of rotor 2 Two sides are respectively equipped with initial position positioning region 511 and final position positioning region 512, and initial position auxiliary section 521 is matched with initial position positioning region 511. For rotor 2 in two ends of slewing area, being rotatably assorted between part 52 and motionless locating piece 51 is that there is cooperation to close as a result, System, stable matching relationship makes rotor 2 at two ends of slewing area, and it is more stable with respect to fixed body 1, it will not be light Easily shake.

Further, as shown in Fig. 2, Fig. 6 and Fig. 7, initial position auxiliary section 521 and final position auxiliary section 522 are formed as rotating The slot of the opposite sides opening of matching piece 52, initial position positioning region 511 and final position positioning region 512 are formed as motionless locating piece 51 The inserted block of opposite sides, as a result, after rotor 2 is inverted to end, the slot of the initial position auxiliary section 521 for the part 52 that is rotatably assorted can Cooperated with the inserted block of the initial position positioning region 511 with motionless locating piece 51, after rotor 2 just goes to end, be rotatably assorted part 52 The slot of final position auxiliary section 522 can cooperate with the inserted block of the final position positioning region 521 of motionless locating piece 51, the cooperation side of grafting Formula structure is simple, and inserted block is inserted into and exits slot and is easy, and when rotor 2 being made to turn to two ends, be rotatably assorted part 52 Cooperate between motionless locating piece 51 and be easy, is not easy clamping stagnation.

Optionally, as shown in Figure 2 and Figure 7, could be formed with guide channel 14 on fixed body 1, guide channel 14 can with turn Dynamic matching piece 52 cooperates, and the part 52 that makes to be rotatably assorted is rotated along guide channel 14, the stabilization for the movement of part 52 that is conducive to be rotatably assorted.Into Optionally, the part 52 that is rotatably assorted is telescopically disposed on rotor 2 one step, initial position auxiliary section 521 and final position auxiliary section 522 this Two slots, are arranged in a staggered manner in the telescopic direction for being rotatably assorted part 52, as shown in fig. 6, the part 52 that is rotatably assorted is opposite S-shaped is formed at the position of two sides fluting, the depth in the rotation direction for the rotating forward of part 52 that is rotatably assorted of guide channel 14 is gradually deepened, can So as to part 52 is rotatably assorted when just going to end and being inverted to end, the length that the part 52 that is rotatably assorted is stretched out out of rotor 2 Difference, so that the inserted block on the different slot in two ends and motionless locating piece 51 cooperates.

Below with reference to Fig. 1-Fig. 7 describe in a specific embodiment of the invention the specific structure of rotatable toy 100 and The process of rotation.

As depicted in figs. 1 and 2, the toy 100 of the embodiment, comprising: fixed body 1, rotor 2, the first locking device 3, Storage body 4 and rotation limitation component 5, wherein fixed body 1 is located at the lower section of rotor 2.

Specifically, as shown in Fig. 2, fixed body 1 includes upper fixed body and lower fixed body, upper fixed body is upper lower fixed body Side, upper fixed body link together in such a way that screw connects with lower fixed body.

Upper fixed body be equipped be rotatably assorted platform 11 and first perforation 12, be rotatably assorted platform 11 can on rotor 2 The slot 21 that is rotatably assorted cooperation, alloing rotor 2 with the platform 11 that is rotatably assorted is that rotation axis is rotated.

Specifically, as shown in Figure 2 and Figure 5, the first locking device 3 is located between fixed body and lower fixed body, the first lock Determining device 3 includes the first lock tongue 31, the first locking level 32, first locking return unit 33 and the first magnetic absorption member 34, the first lock tongue 31 The first perforation 12 can be passed through, cooperates the first lock tongue 31 with the first lock slots 221 on rotor 2, so that locking turns Kinetoplast 2.

When toy body is pull-in on the first trigger bit 16 by the first magnetic absorption member 34, toy body can push the first locking level 32 It moves right and leaves the first trigger bit 16, thus compression the first locking return unit 33, and the first lock tongue 31 is made to exit the first locking Slot 221 rotates rotor 2 to release the locking to rotor 2, after taking away toy body, the first locking return unit 33 resets can drive the first locking level 32 towards 16 activity of the first trigger bit.

Specifically, it as shown in figure 4, rotor 2 further includes thickening platform 22, thickeies platform 22 and is equipped with the first lock slots 221.

Specifically, as shown in Figure 2, Figure 3 and Figure 4, storage body 4 includes accumulation of energy shell 41, turntable 42, accumulation of energy part 43 and accumulation of energy tooth Wheel group 44, wherein to protect storage body 4, turntable 42 is equipped with connecting column 421 and correspondingly sets on fixed body 1 accumulation of energy shell 41 There is link slot, connecting column 421 can pass through the slot 21 that is rotatably assorted and cooperate with the link slot being rotatably assorted on platform 11, connecting column 421 There are two radially the setting of turntable 42, turntable 42 can be made to be fixed on fixed body 1.

Accumulation of energy gear set 44 is located in accumulation of energy shell 41, and accumulation of energy gear set 44 is connected with turntable 42.

Specifically, as shown in Fig. 2, Fig. 6 and Fig. 7, rotation limitation component 5 includes motionless locating piece 51 and the part that is rotatably assorted 52, the opposite sides for the part 52 that is rotatably assorted is equipped with the slot of opening, and the opposite sides of motionless locating piece 51 is equipped with inserted block, works as rotation After body is inverted to end, the slot for 52 side of part that is rotatably assorted can come with the inserted block cooperation of the corresponding side of motionless locating piece 51 Limit the reversion of rotor 2；After rotor 2 just goes to end, the slot of 52 other side of part that is rotatably assorted can with it is corresponding The inserted block of motionless 51 other side of locating piece cooperates, to limit the rotating forward of rotor.

The rotary course of toy 100 are as follows:

Player can invert rotor 2, and after rotor 2 inverts to a certain extent, be rotatably assorted 52 side of part Slot can be with the inserted block cooperation of the corresponding side of motionless locating piece 51, to limit the reversion of rotor 2, and accumulation of energy part 43 is to turn 2 accumulation of energy of kinetoplast, at this point, the first lock tongue 31 and the cooperation of the first lock slots 221 limit the rotation of rotor 2, when by toy and the When one magnetic absorption member 34 cooperates, toy body pushes to the right the first locking level 32, at this point, the first locking return unit 33 is compressed, the One lock tongue 31 is detached from the cooperation with the first lock slots 221, and accumulation of energy part 43 can release energy, and accumulation of energy part 43 drives 44 turns of accumulation of energy gear set It is dynamic, and rotating forward rotor 2.When the rotation of rotor 2 after a week, the slot of 52 other side of part that is rotatably assorted can with it is right The inserted block for 51 other side of motionless locating piece answered cooperates, to limit the rotating forward of rotor 2.

Below with reference to the accompanying drawings second according to an embodiment of the present invention of rotatable toy 100 is described.

As shown in Figure 1, Figure 2 and Figure 7, rotatable toy 100 according to an embodiment of the present invention, including fixed body 1, rotation Body 2, the first locking device 3, storage body 4, certainly swivel 6 and rotation locking device 7.

Rotor 2 is rotatably arranged on fixed body 1, embodies the rotatable effect of toy.First locking device 3 is used It is locked on fixed body 1 in by rotor 2, storage body 4 is connected between fixed body 1 and rotor 2, and storage body 4 is configured to Accumulation of energy when rotor 2 inverts, releasing in the unlock of the first locking device 3 can be to drive rotor 2 to rotate forward.As a result, when by rotor 2 When inverting relative to fixed body 1, storage body 4 can be with accumulation of energy, after rotor 2 turns an angle, and the first locking device 3 can incite somebody to action Rotor 2 is locked on fixed body 1, at this point, rotor 2 does not relatively rotate with fixed body 1, storage body 4 stops accumulation of energy, together When, storage body 4 is also locked up, and can not release energy.After the unlock of the first locking device 3, storage body 4 can release energy, at this point, storage body 4 can drive rotor 2 to rotate forward.

Be located on fixed body 1 or rotor 2 from swivel 6, can be rotated after complete unlock from swivel 6, from swivel 6 from The rotation axis of the deviation rotor 2 of shaft 62, that is to say, that can be located on fixed body 1 from swivel 6, can also be located at from swivel 6 On rotor 2, for example, when being located on fixed body 1 from swivel 6, rotor 2 is rotated by rotation center of rotation axis, from swivel 6 It is rotation center rotation with the axis of rotation 62, and rotor 2 and oneself 6 decentractions of swivel rotate.It is located on rotor 2 when from swivel 6 When, rotor 2 is rotated by rotation center of rotation axis, rotor 2 can also be followed to turn by rotation center of rotation axis from swivel 6 It is dynamic, it can also be that rotation center rotation can be to object for appreciation by the rotation from swivel 6 and rotor 2 with the axis of rotation 62 from turning 6 Family brings strong visual impact, enhances the interest of rotatable toy 100, playability is higher.

Rotation locking device 7 is for locking from swivel 6, and swivel 6 can be by rotation after turning to certain angle certainly as a result, The limit of locking device 7 can not continue to rotate.

Rotor 2 is rotated relative to fixed body 1 can trigger the unlock of 7 part of rotation locking device or unlock completely, turn as a result, Kinetoplast 2 can just rotate after rotating from swivel 6.The rotation of rotor 2 constitutes one of the key from 6 rotation of swivel, this linkage Relationship constructs the interlocking action mechanism of toy 100, increases the interest of toy 100.

In some embodiments of the invention, storage body 4 can be clockwork spring, and the metal Memorability of clockwork spring is stronger, and price Cheaply, accumulation of energy can be carried out to tightening for clockwork spring in 2 reversion process of rotor, then clockwork spring, which restores original form, to release Can, then rotor 2 is driven to rotate, it is simple to operate.Certainly, storage body 4 can also be other structures, such as spring, bullet Piece etc. can also make accumulation of energy part 4 under reasonable setting with piston, here can be without limitation to the structure of storage body 4.

In some embodiments of the invention, as shown in Figure 7 and Figure 8, rotation locking device 7 includes interior lock set 71 and outer Lock set 72, interior lock set 71 are located between fixed body 1 and rotor 2, and interior lock set 71 cooperates with from swivel 6 with locking rotation Body 6, interior lock set 71 can be limited to from the direction of rotation of swivel 6 as a result, make not rotating from swivel 6.

Rotor 2 can trigger interior lock set 71 relative to the rotation of fixed body 1 and unlock, and the rotation of rotor 2 is to turn certainly as a result, The trigger switch of 6 rotations, the rotation of rotor 2 can control interior lock set 71, release interior lock set 71 to swivel 6 certainly Locking.

Outer lock set 72 is located at from the fixed body 1 or rotor 2 where swivel 6, and outer lock set 72 is matched with from swivel 6 It closes and turns 6 certainly with locking, outer lock set 72 can also limit the rotation from swivel 6 as a result, make not revolving from swivel 6 Turn.That is, in this embodiment, the rotation of rotor 2 can only be such that 7 part of rotation locking device unlocks, when outside external trigger Lock set 72 can just be such that rotation locking device 7 unlocks completely.

Outer lock set 72 can make after there is the external lock trigger unit 722 being located at from swivel 6, external lock trigger unit 722 to trigger Outer lock set 72 is released to the locking from swivel 6.

In some examples of the invention, interior as shown in figure 8, interior lock set 71 includes inside lock lever 711 and interior closing piece 712 Locking bar 711 and from swivel 6 on be located in fixed body 1 and rotor 2 one, the swingable setting of inside lock lever 711 and one end with It is matched from swivel 6, interior closing piece 712 is located on another in fixed body 1 and rotor 2, the rotation of 3 locking of the first locking device Interior closing piece 712 blocks inside lock lever 711 when body 2, and the first locking device 3 discharges interior closing piece 712 when rotor 2 and discharges inside lock lever 711.

In one embodiment of the invention, it is located on rotor 2 from swivel 6, inside lock lever 711 is located on rotor 2, interior Closing piece 712 is located on fixed body 1, and when rotor 2 inverts, inside lock lever 711 invert with rotor 2.When interior closing piece 712 with it is interior When locking bar 711 contacts, interior closing piece 712 can be limited the reversion of inside lock lever 711, at this point, inside lock lever 711 can carry out one Determine the swing of degree, driving is from the 6 a degree of rotations of progress of swivel with from one end of 6 cooperation of swivel for inside lock lever 711, i.e., Interior 712 part of closing piece locking turns 6 certainly.When rotor 2 continues reversion, put inside lock lever 711 under the limit of interior closing piece 712 It moves to an extreme position, makes inside lock lever 711 that can not continue to swing, at this point, interior closing piece 712 and inside lock lever 711 cooperate rotation Body 6 is fully locked, can not rotate from swivel 6.The first locking device 3 is triggered, rotates forward rotor 2 on fixed body 1, this When, interior closing piece 712 discharges inside lock lever 711, and inside lock lever 711 allows from turning 6 with from one end of 6 cooperation of swivel with the axis of rotation 62 For rotation center rotation.

In some examples of the invention, as shown in figure 9, rotation locking device 7 includes rotation driving assembly 73, rotation is driven Dynamic component 73 includes rotation driving gear set 731 and rotation elastic component 732, and rotation driving gear set 731 is located at 711 He of inside lock lever From between swivel 6, inside lock lever 711 can drive rotation driving gear set 731 as a result, and then rotation driving gear set 731 can be with Driving is rotated from swivel 6.

Rotation elastic component 732 is used to pull inside lock lever 711 to rotate when from the unlock completely of swivel 6, specifically, works as inside lock lever 711 when the limit lower swing of interior closing piece 712 is to an extreme position, and inside lock lever 711 is locked up, and rotation elastic component 732 occurs Elastic deformation and accumulation of energy.After interior closing piece 712 discharges inside lock lever 711, drive of the inside lock lever 711 in 732 elastic force of rotation elastic component Start to swing under dynamic, then inside lock lever 711 drives rotation driving gear set 731 to make from 6 rotation of swivel.

In some examples of the invention, as shown in Figure 8 and Figure 9, inside lock lever 711 is sector, rotation driving gear set 731 Including sector 7311 and rotation tooth 7312, sector 7311 is formed in inside lock lever 711, i.e., sector 7311 is formed in internal lock On the fan-shaped end face of bar 711.Rotation tooth 7312 is co-axially located at from swivel 6, and rotation tooth 7312 can be with swivel 6 certainly as a result, Coaxial rotating can be driven when rotation tooth 7312 rotates from 6 rotation of swivel.

Specifically, as shown in figs. 6 and 10, it inside lock lever 711 and 6 is each provided on rotor 2 from swivel, is set on rotor 2 There is sliding slot 23, one end of inside lock lever 711 is equipped with sliding block 7111 of the cooperation in sliding slot 23, and interior closing piece 712 can only be against sliding block To block inside lock lever 711 on 7111.Sliding block 7111 can be moved along the track of sliding slot 23, meanwhile, sliding slot 23 defines interior The hunting range of locking bar 711 can be driven when inside lock lever 711 is swung along sliding slot 23 from 6 rotation of swivel.

In some examples of the invention, as shown in figure 8, outer lock set 72 includes outer locking bar 721 and outer locked groove 61, external lock Bar 721 is movably located at from the fixed body 1 or rotor 2 where swivel 6, and outer locking bar 721 is configured to Chang Chaoxiang rotation Body 6 stretches out, and outer locked groove 61 is formed in from swivel 6, and from swivel 6, outer locking bar 721 be can be inserted into outer locked groove 61 during rotation, The cooperation of outer locking bar 721 and outer locked groove 61 can limit the rotation from swivel 6 as a result,.Optionally, outer locking bar 721 is equipped with bullet Spring, spring can be such that external lock bar 721 stretches out towards from swivel 6, and when squeezing outer locking bar 721, outer locking bar 721 exits outer locked groove 61, while spring is by compress energy storage.

External lock trigger unit 722 be movably located at from swivel 6 on, external lock trigger unit 722 trigger when can by outer locking bar 721 from Ejection in outer locked groove 61.

When from 6 rotation of swivel, outer locking bar 721 is shunk, when outer locked groove 61 turns to the corresponding position of outer locking bar 721, Outer locking bar 721 can be stretched out to be cooperated with outer locked groove 61, is then locked up from swivel 6, when external lock trigger unit 722 is triggered, outside Lock trigger unit 722 ejects outer locking bar 721 from outer locked groove 61, and external lock trigger unit 722 shrinks outer locking bar 721 again, at this point, It is partially unlocked from swivel 6.

In some examples of the invention, as shown in figure 8, outer locked groove 61 is multiple, the circular axis of rotation of multiple outer locked grooves 61 62 are spaced apart setting, correspond to multiple outer locked grooves 61 from swivel 6 and multiple external lock trigger units 722 are arranged, from external lock when 6 rotation of swivel Bar 721 can cooperate with multiple outer locked grooves 61 respectively, and when triggering external lock trigger unit 722, outer locking bar 721 is by multiple external lock trigger units 722 eject from correspondingly outer locked groove 61.

When outer locking bar 721 cooperates with any one outer locked groove 61, can locking from swivel 6.That is, from swivel 6 In the course of rotation, it can be locked by outer locking bar 721 repeatedly, each outer locking bar 721 locking due to being caught in outer locked groove 61 turns certainly 6, it can make rotate again from swivel 6, be turned to until from swivel 6 by triggering the external lock trigger unit 722 in the outer locked groove 61 Extreme position.

In some examples of the invention, as shown in figure 8, multiple outer locked grooves 61 in the circumferential the same side be equipped with it is gradually deep Slot, each gradually deep trouth is gradually deepened on the direction towards corresponding outer locked groove 61, as a result, outer locking bar 721 can along towards certain The gradually deep trouth gradually deepened on the direction of a outer locked groove 61 enters outer locked groove 61, once outer locking bar 721 is inserted into the outer locked groove 61 It is just not easy to skid off the outer locked groove 61 again, until outer locking bar 721 ejects the outer locked groove 61 by external lock trigger unit 722.Gradually deep trouth is set It sets, keeps the cooperation of outer locking bar 721 and outer locked groove 61 simpler, stable.

In some examples of the invention, as is illustrated by figs. 11 and 12, fixed body 1 is equipped with internal lock tank 13, interior closing piece 712 are movably located in internal lock tank 13, and interior closing piece 712 is configured to one end and often stretches out internal lock tank 13, in rotor 2 Interior closing piece 712 is matched with sliding block 7111 to block inside lock lever 711 when being inverted to end, sliding when rotor 2 just goes to end Block 7111 squeezes into interior closing piece 712 in internal lock tank 13.

That is, interior closing piece 712 stretches out internal lock tank 13 when rotor 2 inverts, at this point, interior closing piece 712 can be with The cooperation of sliding block 7111 is with locking inside lock lever 711, and when rotor 2 rotates forward, interior closing piece 712 can not limit the rotation from swivel 6, Sliding block 7111 can drive interior closing piece 712 to be contracted to the rotation for avoiding inside lock lever 711 in internal lock tank 13.

Below with reference to Fig. 1-Figure 12 describe in a specific embodiment of the invention the specific structure of rotatable toy 100 and Rotary course.

As shown in Figure 1, Figure 2 and Figure 7, the rotatable toy 100 of the embodiment, comprising: fixed body 1, rotor 2, One locking device 3, storage body 4, certainly swivel 6 and rotation locking device 7.

Wherein, fixed body 1 is located at the lower section of rotor 2, and rotor 2 can be rotated forward or be inverted relative to fixed body 1, from Swivel 6 is located on rotor 2, rotor 2 can be followed to revolve by rotation center of rotation axis from swivel 6, can also be with The axis of rotation 62 is that rotation center carries out rotation.

Specifically, when rotor 2 is inverted to end, the first locking device 3 can make 2 nothing of rotor with locking rotor 2 Method is rotated relative to fixed body 1.

Specifically, as shown in Fig. 2 and Figure 12, when rotor 2 inverts, storage body 4 can be with accumulation of energy, when rotor 2 inverts When to end and by the first 3 locking of locking device, storage body 4 is also locked up, and can not release energy, when the unlock of the first locking device 3, Storage body 4 can release energy, so that rotor 2 be driven to rotate forward.

Specifically, as shown in Figure 7, Figure 8 and Figure 9, rotation locking device 7 include interior lock set 71, outer lock set 72 and from Turning driving assembly 73, wherein interior lock set 71 includes inside lock lever 711 and interior closing piece 712, and inside lock lever 711 is equipped with sliding block 7111, Sliding block 7111 can cooperate with interior closing piece 712, and inside lock lever 711 is located on rotor 2, and interior closing piece 712 is located on fixed body 1, Gu Determine to be additionally provided with internal lock tank 13 and reset spring on body 1, reset spring can make internal lock block 712 stretch out internal lock tank 13, as a result, When rotor 2 is inverted to end, interior closing piece 712 is matched with sliding block 7111 to block inside lock lever 711, is just being gone in rotor 2 Sliding block 7111 squeezes into interior closing piece 712 in internal lock tank 13 when end.

Rotor 2 is equipped with sliding slot 23 and rotation elastic component 732, and sliding block 7111 is extend into sliding slot 23 can be along sliding slot 23 movements, 732 one end of rotation elastic component are connected with rotor 2, and the other end is connected with inside lock lever 711, when rotor 2 is inverted to end When end, the collective effect of interior closing piece 712 and sliding slot 23 is locked up inside lock lever 711, at this point, rotation elastic component 732 is stretched, when When rotor 2 rotates forward, interior closing piece 712 can release the locking to inside lock lever 711, and inside lock lever 711 can be in rotation elastic component 732 Under the action of swing.

Rotation driving assembly 73 includes rotation driving gear set 731 and rotation elastic component 732, rotation driving gear set 731 Including sector 7311 and rotation tooth 7312, sector 7311 is formed on the fan-shaped surface of inside lock lever 711, rotation tooth 7312 with from Swivel 6 is coaxially connected, and as a result, when inside lock lever 711 is swung, sector 7311 is engaged with rotation tooth 7312, can make certainly Swivel 6 is rotated.

Outer lock set 72 includes outer locking bar 721 and external lock trigger unit 722, and outer locking bar 721 is located on rotor 2, in external lock The upper end of bar 721 is equipped with reset spring, and reset spring makes outer locking bar 721 stretch out rotor 2, certainly week of the swivel 6 in the axis of rotation 62 It is equipped with multiple outer locked grooves 61 upwards, outer locked groove 61 can cooperate the rotation with locking from swivel 6 with outer locking bar 721.Multiple external locks The same side is equipped with gradually deep trouth to slot 61 in the circumferential, and each gradually deep trouth is gradually deepened on the direction towards corresponding outer locked groove 61, Outer locking bar 721 can limit the rotating forward from swivel 6 with the cooperation of outer locked groove 61, and when from 6 reversion of swivel, external lock trigger unit 722 can Outer locking bar 721 is ejected outer locked groove 61, outer locking bar 721 is made outer locking bar 721 can be made to be retracted to rotor with compression reseting spring On 2.

The rotary course of toy 100 are as follows:

Player can invert rotor 2, make 4 accumulation of energy of storage body, after rotor 2 inverts to a certain extent, interior closing piece 712 can drive sliding block 7111, move sliding block 7111 along sliding slot 23 to drive inside lock lever 711 to be swung, rotation elasticity Part 732 is stretched, meanwhile, inside lock lever 711 can drive from swivel 6 and be rotated, when rotor 2 is inverted to end, first Locking device 3 can make rotor 2 that can not continue to rotate with locking rotor 2, and storage body 4 can not release energy, meanwhile, inside lock lever 711 By 23 locking of interior closing piece 712 and sliding slot, rotation elastic component 732 is stretched, and outer locking bar 721 can extend into locking in outer locked groove 61 From swivel 6.

When triggering the first locking device 3 unlocks the first locking device 3, storage body 4 is released can be so that driving rotor 2 just Turn, at this point, interior closing piece 712 releases the locking to inside lock lever 711, i.e., is partially unlocked from swivel 6.When 722 quilt of external lock trigger unit Triggering, makes outer locking bar 721 be ejected outer locked groove 61, can drive inside lock lever 711 from swivel 6 unlock, rotation elastic component 732 completely It swings, so that driving is rotation center rotation with the axis of rotation 62 from swivel 6.From in 6 rotation processes of swivel, outer locking bar 721 is every Encounter an outer locked groove 61 will locking it is primary from swivel 6, need to trigger the external lock trigger unit in the primary outer locked groove 61 at this time 722, so that outer locking bar 721 is exited the outer locked groove 61, and continue rotation from swivel 6.When rotor 2 just goes to end, sliding block 7111 can drive interior closing piece 712 to be retracted in internal lock tank 13.

Below with reference to the accompanying drawings the third rotatable toy 100 according to an embodiment of the present invention is described.

As shown in Figure 1, Figure 2 and Figure 16 shown in, rotatable toy 100 according to an embodiment of the present invention, including fixed body 1, turn Kinetoplast 2, the first locking device 3, storage body 4, action piece 8 and the second locking device 9.

Rotor 2 is rotatably arranged on fixed body 1, embodies the rotatable effect of toy.First locking device 3 is used It is locked on fixed body 1 in by rotor 2, storage body 4 is connected between fixed body 1 and rotor 2, and storage body 4 is configured to Accumulation of energy when rotor 2 inverts, releasing in the unlock of the first locking device 3 can be to drive rotor 2 to rotate forward.As a result, when by rotor 2 When inverting relative to fixed body 1, storage body 4 can be with accumulation of energy, after rotor 2 turns an angle, and the first locking device 3 can incite somebody to action Rotor 2 is locked on fixed body 1, at this point, rotor 2 does not relatively rotate with fixed body 1, storage body 4 stops accumulation of energy, together When, storage body 4 is also locked up, and can not release energy.After the unlock of the first locking device 3, storage body 4 can release energy, at this point, storage body 4 can drive rotor 2 to rotate forward.

Action piece 8 can make rotatable 100 generation of toy movement transformation, and action piece 8 is located on fixed body 1, Huo Zhedong Workpiece 8 be located on rotor 2 or fixed body 1 and rotor 2 on be equipped with action piece 8.Second locking device 9 is used for locking Action piece 8, action piece 8 keeps stable state when the second locking device 9 does not trigger.

After triggering the second locking device 9, the expansion of action piece 8 deformation or action piece 8 are pivoted so that toy empties overturning, Thus, it is possible to bring biggish visual impact to player, increase the interest of toy, certainly, action piece 8 there can also be others Movement transformation, for example, action piece 8 can be launched, action piece 8 also can produce acousto-optic effect etc., herein not to action piece 8 It limits.

In some embodiments of the invention, action piece 8 includes at least one of flip piece, deformable member and rotation part, Wherein, flip piece can make rotatable toy 100 empty overturning, and deformable member can shrink and be unfolded, and make rotatable toy 100 moulding changes, rotation part can the rotation on rotatable toy 100, action piece 8 can make rotatable as a result, Toy 100 have various motion type, increase the visual effect of rotatable toy 100, interest is stronger.

In some examples of the invention, as shown in Figure 15 and Figure 16, action piece 8 includes the first action piece 81, rotor 2 It is equipped with first dynamic trigger member 24 with one in fixed body 1, the second locking device 9 includes that the second locking level 91 and the second locking are multiple Position part 92, the second locking return unit 92 is for often driving the second locking level 91 to lock the first action piece 81, wherein the second locking level 91 are equipped with first dynamic reacting part 912, and the dynamic reacting part 912 of head is located on another in rotor 2 and fixed body 1,2 phase of rotor First dynamic trigger member 24 triggers first dynamic reacting part 912 during rotating to fixed body 1, makes the first movement of the second locking level 91 release Part 81.

It that is, the second locking level 91 can lock the first action piece 81, act the first action piece 81 will not, When rotor 2 is rotated relative to fixed body 1, the dynamic trigger member 24 of head can trigger first dynamic reacting part 912, reset the second locking Part 92 is shunk, at this point, the second locking level 91 can discharge the first action piece 81, the first action piece 81 is acted, and then second Locking 92 elasticity recovery deformation of return unit can drive 91 homing of the second locking level to set.

In some examples of the invention, as shown in figure 17, when rotor 2 is inverted to end, the dynamic trigger member 24 of head is avoided The dynamic reacting part 912 of head, when rotor 2 inverts as a result, the first action piece 81 will not be acted.

When rotor 2 is just going to end, as shown in figure 18, the dynamic trigger member 24 of head squeezes first dynamic reacting part 912 so that second The activity of locking level 91, when rotor 2 is just going to end as a result, the second locking level 91 is triggered, and loses the second locking level 91 pair The locking of first action piece 81 acts the first action piece 81.

In some examples of the invention, as shown in Figure 17 and Figure 18, first dynamic trigger member 24 is movably arranged, as a result, When rotor 2 can be made to be inverted to end, the dynamic trigger member 24 of head avoids first dynamic reacting part 912, when rotor 2 is just going to end, The dynamic trigger member 24 of head squeezes first dynamic reacting part 912 so that 91 activity of the second locking level can be optionally equipped in the dynamic trigger member 24 of head Spring can make first dynamic trigger member 24 avoid first dynamic reacting part 912, rotor 2 when rotor 2 is inverted to end with compressed spring When just going to end, the first dynamic trigger member 24 of spring-return elastic deformation driving, the dynamic trigger member 24 of head squeeze first dynamic reacting part 912 with Keep the second locking level 91 movable.

Rotor 2 or fixed body 1 equipped with the second locking level 91 are equipped with guidance part, turn to set angle in rotor 2 When spending, the dynamic trigger member 24 of head is oriented to first dynamic reacting part 912 by guidance part, when rotor 2 turns to and deviates set angle, guiding The dynamic guiding of trigger member 24 of head is deviateed first dynamic reacting part 912 by portion, and first dynamic trigger member 24 can be moved along guidance part as a result, can So that the movement of first dynamic trigger member 24 is more stable, the dynamic trigger member 24 of head and first dynamic trigger unit cooperation, thus the second locking of triggering Bar 91 acts the first action piece 81, can make the cooperation of manual trigger member and first dynamic reacting part 912 more by guidance part Add reliable.

In some examples of the invention, as shown in Figure 17 and Figure 18, guidance part is guide channel 14, dynamic 24 structure of trigger member of head It causes to slide along guide channel 14, depth differs guide channel 14 in the direction of extension, thus, it is possible to allow first dynamic 24 edge of trigger member The not equal guide channel 14 of depth realize the activity of first dynamic trigger member 24, for example, when first dynamic trigger member 24 is in shallower guide channel When 14 position, first dynamic trigger member 24 can be made to avoid first dynamic reacting part 912, when the dynamic trigger member 24 of head is at deeper guide channel 14 When setting, first dynamic trigger member 24 can be made to cooperate with first dynamic reacting part 912.

In some examples of the invention, as shown in Figure 17 and Figure 18, first dynamic trigger member 24 is telescopically arranged, the dynamic touching of head Windward side of the outbox 24 in reversion is formed as the guiding face of arc.As a result, when rotor 2 inverts, the dynamic trigger member 24 of head can To slide onto fixed body 1 by guiding face, in addition, the stretching motion of first dynamic trigger member 24 can be made more steady by guiding face, Reliability is higher.

In some examples of the invention, as shown in figure 16, action piece 8 includes the second action piece 82, thus, it is possible to which making can The toy 100 of rotation occurs repeatedly to act transformation, increases the visual effect and entertainment effect of rotatable toy 100.

Second locking device 9 includes third locking level 93 and third locks return unit 94, and third locking return unit 94 is used for Often driving third locking level 93 locks the second action piece 82, wherein triggers third locking level 93 after the movement of the first action piece 81, makes Third locking level 93 discharges the second action piece 82, and the first action piece 81 can be used as the switch of the second action piece 82 as a result, when the One action piece 81 can trigger third locking level 93 when acting, and third is made to lock 94 contraction distortion of return unit, to make the Three locking levels 93 lose the locking to the second action piece 82, act the second action piece 82.

In some examples of the invention, as shown in Figure 14, Figure 16 and Figure 17, the first action piece 81 is located on fixed body 1, Second action piece 82 is located on rotor 2, and the second locking device 9 further includes movably being located between fixed body 1 and rotor 2 Time dynamic trigger member 95, triggered after the movement of the first action piece 81 after 95 dynamic trigger member 95 of time dynamic trigger member trigger and drive third lock 93 activity of fixed pole.

That is, the movement of the first action piece 81 occurs on fixed body 1, when this first action piece 81 acts Afterwards, the first action piece 81 can trigger time dynamic trigger member 95, and secondary dynamic trigger member 95 can drive the second locking device 9, make second Action piece 82 acts, and act rotatable toy 100 can with once-through operation repeatedly, easy to operate, and playability is high, entertaining Property is strong.

In some examples of the invention, as shown in Figure 16 and Figure 17, secondary dynamic trigger member 95 is telescopically located at fixed body 1 It is interior, third locking level 93 can be triggered by the activity of time dynamic trigger member 95 as a result,.

Secondary dynamic trigger member 95 has triggering end 951 and reactive end 952, and secondary dynamic trigger member 95 is configured to triggering end 951 and often stretches Fixed body 1 and the normal retraction fixed body 1 of reactive end 952 out, secondary dynamic trigger member 95 is configured to the often stretching fixation of triggering end 951 as a result, Body 1, allows the first action piece 81 to be triggered to time dynamic trigger member 95 easily, and the normal retraction fixed body 1 of reactive end 952 locks third Fixed pole 93 will not accidentally encounter time dynamic trigger member 95 and open by mistake and open the second action piece 82, improve what rotatable toy 100 operated Reliability.

It can trigger triggering end 951 after the movement of first action piece 81, stretch out reactive end 952 and trigger third locking level 93, The first first generation of action piece 81 movement transformation as a result, then the first action piece 81 triggers time dynamic trigger member 95, secondary dynamic trigger member 95 Can activity at third locking level 93, driving third locking level 93 squeezes third and locks return unit 94.

In some embodiments of the invention, as shown in Figure 16 and Figure 17, one end of third locking level 93 is equipped with from rotation That exposes in body 2 compresses platform 96, and reactive end 952 compresses 93 activity of the driving of platform 96 third locking level by squeezing, as a result, by supporting 96 transitional function of presenting a theatrical performance as the last item on a programme can make time dynamic trigger member 95 that deflecting occur to third locking level 93, while avoid time dynamic trigger member 95 With the direct contact of third locking level 93, guarantee can third locking level 93 reliability.

In some embodiments of the invention, as shown in figure 16, it compresses platform 96 and is formed around the rotation axis of rotor 2 and set The arc set, reactive end 952 can be moved along the arcwall face of squeeze station as a result, make time dynamic trigger member 95 and third locking level 93 movement is relatively stable.

In some embodiments of the invention, as shown in fig. 6, rotor 2 towards on the surface of fixed body 1, equipped with being used for The annular escape groove 25 of reactive end 952 is avoided, reactive end 952 can pass through escape groove and compress the cooperation of platform 96 as a result,.

In some embodiments of the invention, as shown in Figure 14 and Figure 19, the second action piece 82 be it is multiple, multiple second is dynamic Workpiece 82 is by multiple third locking levels 93 locking of linkage, and movement transformation can be with while multiple second action piece 82 as a result, Increase the visual effect of rotatable toy, interest is strong, for example, rotatable toy 100 can be transformed into Figure 19 by Fig. 1.

The specific structure of rotatable toy in a specific embodiment of the invention is described below with reference to Fig. 1-Figure 19 and can be revolved Turn the rotation of toy, empty reversion and the process of expansion deformation.

As shown in Figure 1, Figure 2 and shown in Figure 16, the rotatable toy of the embodiment, comprising: fixed body 1, rotor 2, first are locked Determine device 3, storage body 4, action piece 8 and the second locking device 9, wherein fixed body 1 is located at the lower section of rotor 2, and action piece 8 wraps Include the first action piece 81 and the second action piece 82.

Specifically, as shown in figure 12, rotor 2 can be inverted and be rotated forward on fixed body 1, when rotor 2 inverts, be stored Can body 4 can be with accumulation of energy, after inverting body and going to certain angle, the first locking device 3 can be with locking rotor 2, at this point, triggering the One locking device 3 can release the locking to rotor 2, rotate forward rotor 2 under the drive of storage body 4, when 2 turns of rotor After moving certain angle, the first locking device 3 can locking rotor 2 again.

Specifically, as shown in figure 16, the second locking device 9 includes that the second locking level 91 and second locks return unit 92, the Two locking levels 91 and the second locking return unit 92 are located on fixed body 1, and the lower end of fixed body 1 is additionally provided with the first action piece 81, the Two locking levels 91 are equipped with latch hook, and the first action piece 81 is equipped with lockhole, and latch hook hooks lockhole, allow the second locking level 91 will First action piece 81 is locked on fixed body 1, and the second locking level 91 is equipped with first dynamic reacting part 912, is set on the dynamic reacting part 912 of head There is inclined-plane, the head on rotor 2, which moves trigger member 24, can drive the second locking level 91 along the inclined-plane of first dynamic reacting part 912, make Second locking level 91 squeezes the second locking return unit 92, so that latch hook be made to be detached from lockhole, the second locking level 91 releases dynamic to first The locking of workpiece 81.

Specifically, as shown in Figure 16, Figure 17 and Figure 18, head is dynamic, and trigger member 24 is mobilizable is located on rotor 2, fixed body 1 is equipped with the different guide channel 14 of depth, and the dynamic trigger member 24 of head can be moved along guide channel 14, the dynamic trigger member 24 of head and rotation Spring can be equipped between body 2, when the dynamic trigger member 24 of head is at the shallower position of guide channel 14, spring contraction, head moves trigger member 24 can avoid first dynamic reacting part 912, when the dynamic trigger member 24 of head is at the deeper position of guide channel 14, spring-return elastic deformation First dynamic trigger member 24 can be driven to cooperate with first dynamic reacting part 912, so that the second locking level 91 be made to release to the first action piece 81 Locking.

Specifically, as shown in figure 16, the first action piece 81 is turnover panel, and turnover panel is equipped with return springs, return springs Turnover panel can be driven, turnover panel is rotated, so that rotatable toy 100 be driven to empty overturning.

Specifically, as shown in Figure 16 and Figure 17, the second locking device 9 further includes third locking level 93, third locking reset Part 94 and time dynamic trigger member 95, secondary dynamic trigger member 95 include triggering end 951 and reactive end 952, and secondary dynamic trigger member 95 is located at fixation On body 1, fixed body 1 is equipped with through-hole, and the triggering end 951 that can permit time dynamic trigger member 95 reaches the lower end of fixed body 1, The reactive end 952 that can permit time dynamic trigger member 95 reaches the upper end of fixed body 1, and secondary dynamic trigger member 95 is equipped with spring, bullet Spring can drive the triggering end 951 of time dynamic trigger member 95 to reach the lower end of fixed body 1, at this point, the reaction of secondary dynamic triggering end 951 End 952 may be collapsed in fixed body 1, and turnover panel can trigger triggering end 951 after being flipped movement, become spring Shape, triggering end 951 are pressed into fixed body 1, and reactive end 952 is ejected fixed body 1.

As shown in figure 16, the lower end of third locking level 93 is equipped with and compresses platform 96, compresses platform 96 and is formed around rotor 2 The arc of rotation axis setting, reactive end 952 can push along arcwall face and compress platform 96, so that third locking level 93 be driven to squeeze Third locks return unit 94, and third locking level 93 is made to release the locking to the second action piece 82.

Specifically, as shown in Figure 14, Figure 16 and Figure 19, the second action piece 82 be it is multiple, multiple second action pieces 82 pass through Multiple third locking levels 93 locking of linkage can be such that rotatable toy 100 is unfolded after the unlock of multiple second action pieces 82 Deformation.

Below with reference to the accompanying drawings 4th kind of rotatable toy 100 according to an embodiment of the present invention is described.

As depicted in figs. 1 and 2, rotatable toy 100 according to an embodiment of the present invention, including fixed body 1, rotor 2, First locking device 3 and storage body 4.

Rotor 2 is rotatably arranged on fixed body 1, embodies the rotatable effect of toy.First locking device 3 is used It is locked on fixed body 1 in by rotor 2, storage body 4 is connected between fixed body 1 and rotor 2, and storage body 4 is configured to Accumulation of energy when rotor 2 inverts, releasing in the unlock of the first locking device 3 can be to drive rotor 2 to rotate forward.As a result, when by rotor 2 When inverting relative to fixed body 1, storage body 4 can be with accumulation of energy, after rotor 2 turns an angle, and the first locking device 3 can incite somebody to action Rotor 2 is locked on fixed body 1, at this point, rotor 2 does not relatively rotate with fixed body 1, storage body 4 stops accumulation of energy, together When, storage body 4 is also locked up, and can not release energy.After the unlock of the first locking device 3, storage body 4 can release energy, at this point, storage body 4 can drive rotor 2 to rotate forward.

At least one of fixed body 1 and rotor 2 are equipped with the department of assembly for localized external toy body, outer as a result, Portion's toy body can be assembled on rotatable toy 100 by department of assembly, had rotatable toy 100 and captured toy body Effect.

In some embodiments of the invention, as shown in Fig. 1 and Figure 21, department of assembly includes first be located on fixed body 1 Department of assembly 101, the first locking device 3 are located on fixed body 1, and one end of the first locking device 3 extends to the first department of assembly 101 Place triggers the unlock of the first locking device 3 when toy body cooperates in the first department of assembly 101.

That is, toy body can be used as the key of the first locking device 3 of triggering, when the first locking device 3 can be locked When rotation stop kinetoplast 2, by toy body cooperation in the first department of assembly 101, toy body can be made to trigger the first locking device 3, make first Locking device 3 unlocks, and increases the effect of the capture toy body of rotatable toy 100.

In some embodiments of the invention, department of assembly includes the second department of assembly being located on rotor 2, and 2 turns of rotor Toy body can cooperate at the second department of assembly during dynamic, thus, it is possible to which rotatable toy 100 is made to have more operation sides Method keeps the playability of rotatable toy stronger.

In some embodiments of the invention, department of assembly is magnetic absorption member, clamping button and at least one of fastener, by This, toy body can be adsorbed in department of assembly, be perhaps clamped in department of assembly or be connected in department of assembly, make toy body and Rotatable toy 100 has more combinations, and strong operability, certainly, department of assembly can also have other forms, this In to the form of department of assembly without limitation.

In some embodiments of the invention, as shown in Fig. 2 and Figure 21, department of assembly is formed in fixed body 1 and/or rotor Clamp port 15 on 2, fixed body 1 and/or rotor 2 are equipped with the magnetic absorption member for toy body to be pull-in on to clamp port 15, by This, toy body can be attracted at clamp port 15 with magnetic absorption member, to be combined together with toy 100.

In some examples of the invention, as shown in fig. 7, rotatable toy 100 further includes from swivel 6 and rotation locking Device 7 is located on rotor 2 from swivel 6, rotor 2 can be followed to rotate forward by rotation center of rotation axis from swivel 6 as a result, And reversion.

It can be rotated after complete unlock from swivel 6, the rotation axis of rotor 2 deviateed from the axis of rotation 62 of swivel 6, as a result, It can also be rotation with the axis of rotation 62 while rotor 2 being followed to rotate and reverse by rotation center of rotation axis from swivel 6 Turn center rotating.

For rotation locking device 7 for locking from swivel 6, rotor 2 is rotated relative to fixed body 1 can trigger rotation locking device The unlock of 7 parts or completely unlock, the rotation of rotor 2 can make the contact of rotation locking device 7 to the lock from swivel 6 as a result, It is fixed, allow to rotate from swivel 6.

As shown in figure 20, department of assembly includes the third department of assembly 103 being located at from swivel 6, is played from turning in 6 rotation processes It can specifically cooperate at third department of assembly 103, toy body can cooperate with from swivel 6 as a result,.

In some embodiments of the invention, as shown in figure 20, one end of rotation locking device 7 extends to third department of assembly 103, when toy body cooperates in third department of assembly 103, triggering rotation locking device 7 is unlocked, and rotation locking device 7 can be with as a result, It releases to the locking from swivel 6.

In some examples of the invention, as shown in figure 8, rotation locking device 7 includes interior lock set 71 and outer lock set 72.Interior lock set 71 is located between fixed body 1 and rotor 2, and interior lock set 71 and certainly 6 cooperation of swivel turn 6 with locking certainly, by This, interior lock set 71 can be limited to from the direction of rotation of swivel 6, make not rotating from swivel 6.

Rotor 2 can trigger interior lock set 71 relative to the rotation of fixed body 1 and unlock, as a result, when interior lock set 71 locks rotation When body 6, rotor 2 can be the trigger switch of interior lock set 71, and the rotation of rotor 2 can control the solution of interior lock set 71 Lock allows from turning 6 with the axis of rotation 62 for rotation center rotation.

As shown in figure 8, outer lock set 72 is located on rotor 2, outer lock set 72 is turned with from 6 cooperation of swivel with locking certainly 6, outer lock set 72 can also limit the rotation from swivel 6 as a result, make not revolving relative to rotor 2 from swivel 6 Turn.

As shown in figure 20, outer lock set 72 has the external lock trigger unit 722 positioned at third department of assembly 103, external lock trigger unit Outer lock set 72 unlocks after 722 triggerings, can make external lock component 72 by the cooperation of toy body and third department of assembly 103 as a result, It loses to the limit from swivel 6.

In some embodiments of the invention, as shown in Fig. 8 and Figure 20, outer locked groove 61, outer lock set are equipped with from swivel 6 72 include outer locking bar 721, and outer locking bar 721 is movably located on rotor 2, and outer locking bar 721 is configured to Chang Chaoxiang and stretches from swivel 6 Out, from swivel 6, outer locking bar 721 be can be inserted into outer locked groove 61 during rotation, and outer locking bar 721 and outer locked groove 61 cooperate as a result, It can be allowed to rotate with locking from swivel 6.

External lock trigger unit 722 be movably located at from swivel 6 on, external lock trigger unit 722 trigger when can by outer locking bar 721 from The interior ejection of outer locked groove 61, cooperates, outer lock set 72 loses to swivel 6 certainly thus, it is possible to be detached from outer locking bar 721 with outer locked groove 61 Limit, 6 can be rotated from swivel.

In some embodiments of the invention, as shown in figure 20, multiple outer locked grooves 61, multiple external locks are equipped with from swivel 6 Slot 61 is spaced apart setting around the axis of rotation 62, correspond to from swivel 6 multiple outer locked grooves 61 be arranged multiple third departments of assembly 103 with it is more A external lock trigger unit 722 can cooperate with multiple outer locked grooves 61 respectively from locking bar 721 outer when 6 rotation of swivel.

That is, can make external lock bar more than 721 times and cooperate with outer locked groove 61 to lock in the rotary course from swivel 6 Only from the rotation of swivel 6, outer locking bar 721 repeatedly can be ejected outer locked groove by multiple third trigger units by external lock trigger unit 722 61, it is detached from outer locking bar 721 with outer locked groove 61 and cooperates, allow to rotate from swivel 6, increase toy interest.

In some embodiments of the invention, as shown in figure 20, multiple outer locked grooves 61 are equipped with gradually the same side in the circumferential Deep trouth, each gradually deep trouth is gradually deepened on the direction towards corresponding outer locked groove 61, thus, it is possible to make outer locking bar 721 along by The outer locked groove 61 gradually deepened passes in and out, and outer locked groove 61 can provide guiding to outer locking bar 721, can also make the flexible of external lock bar 721 It is more steady.

The specific structure of rotatable toy and rotatable is described in a specific embodiment of the invention below with reference to Fig. 1-2 1 The process of the rotation of toy.

As shown in Figure 1, Figure 2, shown in Figure 20 and Figure 21, the rotatable toy of the embodiment, comprising: fixed body 1, rotor 2, One locking device 3, storage body 4, department of assembly, certainly swivel 6 and rotation locking device 7, wherein fixed body 1 is located under rotor 2 Side is assemblied in the lower section of rotor 2 from swivel 6.

Specifically, as shown in figure 12, when rotor 2 inverts, 4 accumulation of energy of storage body can be made, the first locking device 3 is located at On fixed body 1, the first locking device 3 is equipped with lock tongue, and lock tongue can pass through the first lock slots on fixed body 1 and rotor 2 221 cooperations, to make rotor 2 that can not rotate.

Specifically, as shown in figure 21, fixed body 1 is equipped with the first department of assembly 101, and the first department of assembly 101 is equipped with clamping Mouthfuls 15, magnetic absorption member is equipped in the first department of assembly 101, and clamp port 15 can be inserted in toy body and magnetic absorption member is attracted, thus triggering the One locking device 3 makes lock tongue and the first lock slots 221 be detached from cooperation, to allow rotor 2 under the drive of storage body 4 It rotates forward.

Specifically, as shown in Figure 7 and Figure 8, rotation locking device 7 includes interior lock set 71 and outer lock set 72, internal lock group Part 71 and outer lock set 72 can be locked from swivel 6, wherein and external lock group valence includes external lock trigger unit 722 and outer locking bar 721, External lock trigger unit 722 is located at from swivel 6, and outer locking bar 721 is located on rotor 2, further includes outer locked groove 61, external lock from swivel 6 Slot 61 and the cooperation of outer locking bar 721 can turn certainly 6 with locking.

Specifically, the second department of assembly can be equipped on rotor 2, in 2 rotation process of rotor, toy body can be with the The cooperation of two departments of assembly, is assemblied in toy body on rotor 2, meanwhile, the rotation of rotor 2 can also be such that interior lock set 71 releases To the locking from swivel 6.

Specifically, as shown in figure 20, it is equipped with third department of assembly 103 from swivel 6, from 6 rotation processes of swivel, toy body It can cooperate in third department of assembly 103, when toy body and the cooperation of third department of assembly 103, external lock trigger unit 722 can be triggered, Outer locking bar 721 is set to be ejected the outer locked groove 61 from swivel 6.

The rotary course of rotatable toy 100.

When rotor 2 inverts, 4 accumulation of energy of storage body can be made, the first locking device 3 is located on fixed body 1, the first locking Device 3 is equipped with lock tongue, and the first lock slots 221 that lock tongue can pass through on fixed body 1 and rotor 2 cooperate, to make to rotate Body 2 can not rotate.

Toy body is inserted into clamp port 15 and magnetic absorption member is attracted, so that the first locking device 3 of triggering, locks lock tongue and first Slot 221 is detached from cooperation, so that rotor 2 be allow to rotate forward under the drive of storage body 4.

In 2 rotation process of rotor, toy body can cooperate with the second department of assembly, and toy body is made to be assemblied in rotor 2 On, meanwhile, the rotation of rotor 2 can also be such that interior lock set 71 releases to the locking from swivel 6, allow to rotate from swivel 6.

From in 6 rotation processes of swivel, external lock bar 721 and outer locked groove 61 can be made to cooperate locking from swivel 6, toy body can be with Cooperation is in third department of assembly 103, to trigger external lock trigger unit 722, outer locking bar 721 is made to be ejected the outer locked groove 61 from swivel 6, It can continue to rotate from swivel 6.

It should be noted that toy 100 shown in Fig. 1-Figure 21 shown in Figure of description, while having above-mentioned from first Kind to the 4th kind of toy structure feature, i.e. the combination that is four kinds of toys of toy 100 shown in attached drawing.Since this combination can Formation physical product, therefore as one can imagine, the above-mentioned structure feature to every kind of toy 100, in the case of no contradiction all It can be applied in the toy 100 of other kinds.When toy of the same race does not combine, detailed structure can also be combined, such as match in rotation Component 52 can be combined with starting trigger member 24 forms a component.

In the description of this specification, the description of reference term " embodiment ", " example " etc. mean combine the embodiment or Example particular features, structures, materials, or characteristics described are included at least one embodiment or example of the invention.At this In specification, schematic expression of the above terms be may not refer to the same embodiment or example.Moreover, description is specific Feature, structure, material or feature can be combined in any suitable manner in any one or more of the embodiments or examples.To the greatest extent The embodiment of the present invention has been shown and described in pipe, it will be understood by those skilled in the art that: do not departing from the present invention Principle and objective in the case where a variety of change, modification, replacement and modification, the scope of the present invention can be carried out to these embodiments It is defined by the claims and their equivalents.

Claims (46)

1. a kind of rotatable toy characterized by comprising

Fixed body；

Rotor, the rotor are rotatably arranged on the fixed body, and the rotation axis of the rotor is vertically arranged；

First locking device, first locking device are used to the rotor being locked at the fixed body；

Storage body, the storage body are connected between the fixed body and the rotor, and the storage body is configured to described Accumulation of energy when rotor inverts, releasing in first locking device unlock can be to drive the rotor to rotate forward.

2. rotatable toy according to claim 1, which is characterized in that the storage body includes:

Accumulation of energy shell, the accumulation of energy shell are located on one in the fixed body and the rotor；

Turntable, the turntable are rotatably arranged in the accumulation of energy shell, and the turntable is equipped with connecting column, and the connecting column stretches out The accumulation of energy shell, and the connecting column is connected with another in the fixed body and the rotor；

Accumulation of energy part, one end of the accumulation of energy part and the accumulation of energy shell phase connect, and the other end of the accumulation of energy part is connected with the turntable, The potential energy of turntable accumulation of energy part when rotating relative to the accumulation of energy shell increases or reduces.

3. rotatable toy according to claim 2, which is characterized in that one in the fixed body and the rotor A to be equipped with the slot that is rotatably assorted, another in the fixed body and the rotor is equipped with the platform that is rotatably assorted, the rotation Cooperation platform cooperation is rotatably assorted in slot described, and the connecting column passes through the slot setting that is rotatably assorted, the platform that is rotatably assorted Constitute the rotation axis of the rotor.

4. rotatable toy according to claim 2, which is characterized in that one in the fixed body and the rotor It is being equipped with thickening platform towards another surface on a, the thickening platform is equipped with the first lock slots, first locking device With the first lock tongue that can protrude into or exit first lock slots.

5. rotatable toy according to claim 2, which is characterized in that be equipped with and the turntable phase in the accumulation of energy shell Accumulation of energy gear set even.

6. rotatable toy according to claim 1, which is characterized in that on the fixed body have the first trigger bit and First perforation, first locking device is located in the fixed body, and one end of first locking device extends to described the At one trigger bit, the other end of first locking device is stretched out from first perforation place with rotor described in locking.

7. rotatable toy according to claim 6, which is characterized in that first locking device includes:

First locking level, one end of first locking level extend at first trigger bit, first locking level it is another One end is stretched out to form the first lock tongue from first perforation place；

First locking return unit, the first locking return unit are connected often to drive first locking with first locking level Bar is movable towards first trigger bit；

First magnetic absorption member, first magnetic absorption member are located at first trigger bit.

8. rotatable toy according to claim 1, which is characterized in that further include: rotation limitation component, the rotation Limitation component is staggered with the storage body in the horizontal plane, and the rotation limitation component includes: that motionless locating piece and rotation are matched Component, the motionless locating piece are located on the fixed body, and the part that is rotatably assorted is located on the rotor, and the rotation is matched Component cooperates with the motionless locating piece at the both ends of the rotor slewing area.

9. rotatable toy according to claim 8, which is characterized in that the part that is rotatably assorted is in the rotor Opposite sides in rotation direction is respectively equipped with initial position auxiliary section and final position auxiliary section, and the motionless locating piece is in the rotor Rotation direction on opposite sides be respectively equipped with initial position positioning region and final position positioning region, the initial position auxiliary section and the initial position Positioning region matches, and the final position auxiliary section is matched with the final position positioning region.

10. rotatable toy according to claim 9, which is characterized in that the initial position auxiliary section and the final position are matched Conjunction portion is formed as the slot being open in the opposite sides of the part that is rotatably assorted, the initial position positioning region and the final position positioning region Be formed as the inserted block of the opposite sides of the motionless locating piece.

11. rotatable toy according to claim 1 to 10, which is characterized in that the rotor can be rotated The surface of the fixed body is arranged in ground, and the projection of the rotor in the horizontal plane is more than or equal to the fixed body and exists Projection on horizontal plane.

12. a kind of rotatable toy characterized by comprising

Fixed body；

Rotor, the rotor are rotatably arranged on the fixed body；

First locking device, first locking device are used to the rotor being locked at the fixed body；

Storage body, the storage body are connected between the fixed body and the rotor, and the storage body is configured to described Accumulation of energy when rotor inverts, releasing in first locking device unlock can be to drive the rotor to rotate forward；

Described to be located on the fixed body or the rotor from swivel from swivel, the swivel certainly can after complete unlock Rotation, the axis of rotation from swivel deviate the rotation axis of the rotor；

Rotation locking device, the rotation locking device for turning certainly described in locking, the relatively described fixed body of the rotor Rotation can trigger the unlock of rotation locking device part or unlock completely.

13. rotatable toy according to claim 12, which is characterized in that the rotation locking device includes:

Interior lock set, the interior lock set are located between the fixed body and the rotor, the interior lock set and it is described from Swivel cooperation is with, from turning, the rotor can trigger the interior lock set unlock relative to fixed body rotation described in locking；

Outer lock set, the outer lock set is located on the fixed body or the rotor from where swivel, described Outer lock set and the swivel certainly cooperate so that, from turning, the outer lock set is described outer from swivel with being located at described in locking Trigger unit is locked, the outer lock set unlock after the external lock trigger unit triggering.

14. rotatable toy according to claim 13, which is characterized in that the interior lock set includes:

Inside lock lever, the inside lock lever and it is described from swivel on be located in the fixed body and the rotor one, it is described The swingable setting of inside lock lever and one end and the rotation mates；

Interior closing piece, the interior closing piece are located on another in the fixed body and the rotor, first locking device The interior closing piece blocks the inside lock lever when rotor described in locking, when first locking device discharges the rotor described in Interior closing piece discharges the inside lock lever.

15. rotatable toy according to claim 14, which is characterized in that the rotation locking device includes that rotation is driven Dynamic component, the rotation driving assembly include:

Rotation driving gear set, the rotation driving gear set are located between the inside lock lever and the swivel certainly；

Rotation elastic component, the rotation elastic component are used to pull the inside lock lever to rotate in the unlock completely from swivel.

16. rotatable toy according to claim 15, which is characterized in that the inside lock lever is sector, the rotation Driving gear set includes sector and rotation tooth, and the sector is formed in the inside lock lever, the rotation tooth coaxial arrangement Described from swivel.

17. rotatable toy according to claim 14, which is characterized in that the inside lock lever and the swivel certainly are all provided with On the rotor, the swivel kinetoplast is equipped with sliding slot, and one end of the inside lock lever is equipped with cooperation in the sliding slot Sliding block, the interior closing piece can be supported only and block the inside lock lever on the slide block.

18. rotatable toy according to claim 13, which is characterized in that described to be equipped with outer locked groove, institute from swivel Stating outer lock set includes: outer locking bar, and the outer locking bar is movably located at the fixed body from where swivel or institute It states on rotor, the outer locking bar is configured to stretch out described in Chang Chaoxiang from swivel, described described outer during rotation from swivel Locking bar can be inserted into the outer locked groove, and the external lock trigger unit is movably located at described from swivel, the external lock trigger unit The outer locking bar can be ejected out of described outer locked groove when triggering.

19. rotatable toy according to claim 18, which is characterized in that the outer locked groove be it is multiple, it is multiple described External lock grooved ring is spaced apart setting around the axis of rotation, multiple outer locked grooves is corresponded in the rotation body, multiple external locks are arranged Trigger unit, it is described to cooperate respectively with multiple outer locked grooves from outer locking bar described when turning rotation.

20. rotatable toy according to claim 19, which is characterized in that multiple outer locked grooves are same in the circumferential Side is equipped with gradually deep trouth, and each gradually deep trouth is gradually deepened on the direction towards the corresponding outer locked groove.

21. rotatable toy according to claim 17, which is characterized in that the fixed body is equipped with internal lock tank, The interior closing piece is movably located in the internal lock tank, and the interior closing piece is configured to one end and often stretches out the internal lock appearance Slot, when the rotor is inverted to end, the interior closing piece is matched with the sliding block to block the inside lock lever, described Rotor when just going to end the sliding block the interior closing piece is squeezed into the internal lock tank.

22. a kind of rotatable toy characterized by comprising

Fixed body；

Rotor, the rotor are rotatably arranged on the fixed body；

First locking device, first locking device are used to the rotor being locked at the fixed body；

Storage body, the storage body are connected between the fixed body and the rotor, and the storage body is configured to described Accumulation of energy when rotor inverts, releasing in first locking device unlock can be to drive the rotor to rotate forward；

Action piece, the action piece are located on the fixed body and/or the rotor；

Second locking device, second locking device is for action piece described in locking, after triggering second locking device, institute It states action piece expansion deformation or the action piece pivots so that the toy empties overturning.

23. rotatable toy according to claim 22, which is characterized in that the action piece includes flip piece, deformation At least one of part and rotation part.

24. rotatable toy according to claim 22, which is characterized in that the action piece includes the first action piece, One in the rotor and the fixed body is equipped with first dynamic trigger member,

Second locking device includes: the second locking level and the second locking return unit, and the second locking return unit is for normal Second locking level is driven to lock first action piece, wherein

Second locking level is equipped with first dynamic reacting part, and the first dynamic reacting part is located in the rotor and the fixed body Another on, the rotor relative to the fixed body rotate during the first dynamic trigger member triggering first dynamic reaction Portion makes second locking level discharge first action piece.

25. rotatable toy according to claim 24, which is characterized in that when the rotor is inverted to end, institute It states first trigger member of moving and avoids the first dynamic reacting part, when the rotor is just going to end, described in the first dynamic trigger member extruding The dynamic reacting part of head is so that second locking level is movable.

26. rotatable toy according to claim 24, which is characterized in that the first dynamic trigger member is movably set It sets, the rotor or the fixed body equipped with second locking level are equipped with guidance part, turn in the rotor When set angle, the guidance part turns to the first dynamic trigger member guiding first dynamic reacting part partially in the rotor When from the set angle, the first dynamic trigger member guiding is deviateed the first dynamic reacting part by the guidance part.

27. rotatable toy according to claim 26, which is characterized in that the guidance part is guide channel, the head Dynamic trigger member is configured to slide along the guide channel, and depth differs the guide channel in the direction of extension.

28. rotatable toy according to claim 26, which is characterized in that the first dynamic trigger member is telescopically set It sets, windward side of the first dynamic trigger member in reversion is formed as the guiding face of arc.

29. rotatable toy according to claim 24, which is characterized in that the action piece includes the second action piece, Second locking device includes: third locking level and third locking return unit, and the third locking return unit is for often driving The third locking level locks second action piece, wherein the third locking level is triggered after the first action piece movement, The third locking level is set to discharge second action piece.

30. rotatable toy according to claim 29, which is characterized in that first action piece is located at the fixation On body, second action piece is located on the rotor, second locking device further include movably be located at it is described solid Determine time dynamic trigger member between body and the rotor, described dynamic trigger member is triggered after the first action piece movement, it is described The third locking level activity is driven after secondary dynamic trigger member triggering.

31. rotatable toy according to claim 30, which is characterized in that described time dynamic trigger member is telescopically located at In the fixed body, described dynamic trigger member has touching opposite ends and reactive end, and described time dynamic trigger member is configured to the triggering end Fixed body described in the fixed body and the normal retraction of the reactive end is often stretched out, can trigger the touching after the first action piece movement Originator, stretches out the reactive end and triggers the third locking level.

32. rotatable toy according to claim 31, which is characterized in that one end of the third locking level be equipped with from That exposes in the rotor compresses platform, and the reactive end drives the third locking level activity by compressing platform described in extruding.

33. rotatable toy according to claim 32, which is characterized in that the platform that compresses is formed around described turn The arc of the rotation axis setting of kinetoplast.

34. rotatable toy according to claim 31, which is characterized in that the rotor towards the fixed body Surface on, equipped with the annular escape groove for avoiding the reactive end.

35. rotatable toy according to claim 29, which is characterized in that second action piece be it is multiple, it is multiple Second action piece locks rod lock by multiple thirds of linkage.

36. a kind of rotatable toy characterized by comprising

Fixed body；

Rotor, the rotor are rotatably arranged on the fixed body；

First locking device, first locking device are used to the rotor being locked at the fixed body；

Storage body, the storage body are connected between the fixed body and the rotor, and the storage body is configured to described Accumulation of energy when rotor inverts, releasing in first locking device unlock can be to drive the rotor to rotate forward；Wherein,

At least one of the fixed body and the rotor are equipped with the department of assembly for localized external toy body.

37. rotatable toy according to claim 36, which is characterized in that the department of assembly includes being located at the fixation The first department of assembly on body, first locking device are located on the fixed body, and one end of first locking device extends At to first department of assembly, the first locking device solution is triggered when the toy body cooperates in first department of assembly Lock.

38. rotatable toy according to claim 36, which is characterized in that the department of assembly includes being located at the rotation The second department of assembly on body, toy body described in the rotor rotation process can cooperate at second department of assembly.

39. rotatable toy according to claim 36, which is characterized in that the department of assembly is magnetic absorption member, clamping piece At least one of with fastener.

40. rotatable toy according to claim 36, which is characterized in that the department of assembly is to be formed in the fixation Clamp port on body and/or the rotor, the fixed body and/or the rotor are equipped with for inhaling the toy body Close the magnetic absorption member in the clamp port.

41. rotatable toy according to claim 36, which is characterized in that further include:

Described to be located on the rotor from swivel from swivel, the swivel certainly can be rotated after complete unlock, described to turn certainly The axis of rotation deviate the rotation axis of the rotor；

Rotation locking device, the rotation locking device for turning certainly described in locking, the relatively described fixed body of the rotor Rotation can trigger the unlock of rotation locking device part or unlock completely；

The department of assembly includes being located at the third department of assembly from swivel, described from toy body described in swivel rotation process It can cooperate at the third department of assembly.

42. rotatable toy according to claim 41, which is characterized in that one end of the rotation locking device extends To the third department of assembly, the rotation locking device unlock is triggered when the toy body cooperates in the third department of assembly.

43. rotatable toy according to claim 41, which is characterized in that the rotation locking device includes:

Interior lock set, the interior lock set are located between the fixed body and the rotor, the interior lock set and it is described from Swivel cooperation is with, from turning, the rotor can trigger the interior lock set unlock relative to fixed body rotation described in locking；

Outer lock set, the outer lock set are located on the rotor, and the outer lock set and the cooperation of swivel certainly are with locking Described from turning, the outer lock set has the external lock trigger unit positioned at the third department of assembly, and the external lock trigger unit triggers The outer lock set unlock afterwards.

44. rotatable toy according to claim 43, which is characterized in that described to be equipped with outer locked groove, institute from swivel Stating outer lock set includes: outer locking bar, and the outer locking bar is movably located on the rotor, and the outer locking bar is configured to normal court It is stretched out to described from swivel, described from swivel, the outer locking bar be can be inserted into the outer locked groove during rotation, the external lock Trigger unit be movably located at it is described from swivel, can be by the outer locking bar from the outer locked groove when external lock trigger unit triggering Interior ejection.

45. rotatable toy according to claim 43, which is characterized in that described to be equipped with multiple external locks from swivel Slot, multiple external lock grooved rings are spaced apart setting around the axis of rotation, and multiple outer locked groove settings are corresponded in the rotation body Multiple third departments of assembly and multiple external lock trigger units, when the rotation from swivel the outer locking bar can respectively with it is multiple The outer locked groove cooperation.

46. rotatable toy according to claim 45, which is characterized in that multiple outer locked grooves are same in the circumferential Side is equipped with gradually deep trouth, and each gradually deep trouth is gradually deepened on the direction towards the corresponding outer locked groove.