CN208582978U - Can rotation clamping toy - Google Patents

Abstract

The utility model discloses it is a kind of can rotation clamping toy.Can rotation clamping toy include: fixed body, rotor, from swivel and rotation locking device, rotor is rotatably arranged on fixed body, it is located on fixed body or rotor from swivel, it can be rotated after complete unlock from swivel, deviate the rotation axis of rotor from the axis of rotation of swivel, rotation locking device turns certainly for locking, rotor is rotated relative to fixed body can trigger the unlock of rotation locking device part or unlock completely, fixed body, rotor and the department of assembly that the toy body for localized external is equipped with from least one of swivel.According to the utility model embodiment can rotation clamping toy, by rotation locking device and department of assembly, make can rotation clamping toy structure, playing method it is more novel, interest is strong, good visual effect.

Description

Can rotation clamping toy

Technical field

The utility model relates to toy art, more particularly to it is a kind of can rotation clamping toy.

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.

Utility model content

The utility model aims to solve at least one of the technical problems existing in the prior art.For this purpose, the utility model mentions Out it is a kind of can rotation clamping toy, it is described can the toy of rotation clamping provide the new construction of toy body clamping, new playing method, interest Taste is strong, good visual effect.

According to the utility model embodiment can rotation clamping toy, comprising: fixed body, rotor, from swivel and from Turn locking device, the rotor is rotatably arranged on the fixed body, described to be located at the fixed body or institute from swivel It states on rotor, described to can be rotated after complete unlock from swivel, the axis of rotation from swivel deviates turning for the rotor Moving axis, the rotation locking device is for, from turning, the rotor is rotated relative to the fixed body to can trigger institute described in locking State the unlock of rotation locking device part or unlock completely.In the fixed body, the rotor and the swivel certainly at least One is equipped with the department of assembly of the toy body for localized external.

According to the utility model embodiment can the toy of rotation clamping made by the way that rotation locking device is arranged from turning Can be rotated, embody can rotation clamping toy rotates effe, by be arranged department of assembly, outer toy body can be made Be cooperated to can rotation clamping toy on, embody can rotation clamping toy capture outer toy body effect, rotor Can also be rotated relative to fixed body, make can rotation clamping toy structure, playing method it is more novel, interest is strong, depending on Feel that effect is good.

In addition, it is according to the present utility model can rotation clamping toy, can also have the following additional technical features:

In some embodiments of the utility model, the department of assembly be magnetic absorption member, clamping piece and fastener at least One.

In some embodiments of the utility model, the department of assembly is clamp port, provided with described in the clamp port Fixed body or the rotor are described from swivel, equipped with the magnetic for the toy body to be pull-in on to the clamp port Part.

In some embodiments of the utility model, can rotation clamping toy further include: storage body and first locking dress It sets, the storage body is connected between the fixed body and the rotor, and the storage body is configured to anti-in the rotor Accumulation of energy when turning, releasing in first locking device unlock can be to drive the rotor to rotate forward, and first locking device is used It is locked on the fixed body in by the rotor.

Optionally, the department of assembly includes the first department of assembly being located on the fixed body, first locking device One end extends at first department of assembly, and first locking is triggered when the toy body cooperates in first department of assembly Device unlock.

In some embodiments of the utility model, the department of assembly includes being located at second assembly from swivel Portion, one end of the rotation locking device extend at second department of assembly, when toy body cooperation is in second dress The rotation locking device unlock is triggered when with portion.

Optionally, the rotation locking device includes: interior lock set and outer lock set, and the interior lock set is located at described solid Determine between body and the rotor, the interior lock set and the swivel certainly cooperate to turn certainly described in locking, the rotor It can trigger the interior lock set unlock relative to fixed body rotation, the outer lock set is located on the rotor, described outer Lock set and the swivel certainly cooperate so that, from turning, the outer lock set is with positioned at the outer of second department of assembly described in locking Trigger unit is locked, the outer lock set unlock after the external lock trigger unit triggering.

Optionally, the interior lock set includes: inside lock lever and interior closing piece, and the inside lock lever and oneself swivel are located at together institute It states on one in fixed body and the rotor, the swingable setting of the inside lock lever and one end and the rotation mates, The interior closing piece is located on another in the fixed body and the rotor, is rotated described in the first locking device locking The interior closing piece blocks the inside lock lever when body, and first locking device discharges the interior closing piece when rotor and discharges institute State inside lock lever.

Optionally, the rotation locking device includes rotation driving assembly, and the rotation driving assembly includes: rotation transmission Gear set and rotation elastic component, the rotation driving gear set are located at the inside lock lever and described between turning, 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 utility model, described to be equipped with outer locked groove from swivel, the outer lock set includes: external lock Bar, the outer locking bar are movably located on the fixed body or the rotor from where swivel, the external lock Bar is configured to stretch out described in Chang Chaoxiang from swivel, and described from swivel, the outer locking bar can be inserted into the outer locked groove during rotation Interior, the external lock trigger unit is movably located at described from swivel, and when external lock trigger unit triggering can be by the outer locking bar It is ejected out of described outer locked groove.

The additional aspect and advantage of the utility model will be set forth in part in the description, partially will be from following description In become obvious, or recognized by the practice of the utility model.

Detailed description of the invention

The above-mentioned and/or additional aspect and advantage of the utility model from the description of the embodiment in conjunction with the following figures will Become obvious and be readily appreciated that, in which:

Fig. 1 be according to the utility model embodiment can rotation clamping toy structural schematic diagram；

Fig. 2 be according to the utility model embodiment can rotation clamping toy structural blast schematic diagram；

Fig. 3 be according to the utility model embodiment can rotation clamping toy fixed body and rotor an angle Structural blast schematic diagram；

Fig. 4 be according to the utility model embodiment can rotation clamping toy fixed body and rotor another angle Spend structural blast schematic diagram；

Fig. 5 be according to the utility model embodiment can rotation clamping toy fixed body structural blast schematic diagram；

Fig. 6 be according to the utility model embodiment can rotation clamping toy rotor and from swivel structural representation Figure；

Fig. 7 be according to the utility model embodiment can the fixed body of toy of rotation clamping, rotor and from swivel The structural blast schematic diagram of one angle；

Fig. 8 be according to the utility model embodiment can the fixed body of toy of rotation clamping, rotor and from turning Another angle structural blast schematic diagram；

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

Figure 10 be according to the utility model embodiment can rotation clamping toy rotor and from swivel structure it is quick-fried Fried schematic diagram；

Figure 11 be according to the utility model embodiment can the fixed body of toy of rotation clamping split out the structure of upper housing Schematic diagram；

Figure 12 be according to the utility model embodiment can rotation clamping toy fixed body and rotor rotation it is certain The structural schematic diagram of angle；

Figure 13 be according to the utility model embodiment can the fixed body of toy of rotation clamping, rotor and from swivel one The structural schematic diagram of a angle；

Figure 14 be according to the utility model embodiment can the dismounting fixed body of upper housing of toy of rotation clamping, third The structural schematic diagram of locking level and third locking return unit；

Figure 15 be according to the utility model embodiment can the first locking level of toy of rotation clamping, the second locking level, The structural schematic diagram of first action piece and time dynamic trigger member；

Figure 16 be according to the utility model embodiment can rotation clamping toy the second locking device structural representation Figure；

Figure 17 be according to the utility model embodiment can rotation clamping toy fixed body and first dynamic trigger member keeping away Head is allowed to move the structural schematic diagram of reacting part；

Figure 18 be according to the utility model embodiment can rotation clamping toy fixed body and first dynamic trigger member squeezing The structural schematic diagram of the first dynamic reacting part of pressure；

Figure 19 be according to the utility model embodiment can rotation clamping toy the second action piece triggering after structure Schematic diagram；

Figure 20 be according to the utility model embodiment can rotation clamping toy from swivel amplification structural blast Schematic diagram；

Figure 21 be according to the utility model embodiment can rotation clamping toy fixed body structural schematic diagram.

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, the second department of assembly 103.

Specific embodiment

The embodiments of the present invention are described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning Same or similar element or element with the same or similar functions are indicated to same or similar label eventually.Below by ginseng The embodiment for examining attached drawing description is exemplary, and is only used for explaining the utility model, and should not be understood as to the utility model Limitation.

Below with reference to the accompanying drawings describe according to the utility model embodiment can rotation clamping toy 100.

As depicted in figs. 1 and 2, according to the utility model embodiment can rotation clamping toy 100, including fixed body 1, Rotor 2, certainly swivel 6 and rotation locking device 7.

Rotor 2 is rotatably arranged on fixed body 1, embodies the rotatable effect of toy 100.

It is located on fixed body 1 or rotor 2, can be rotated after complete unlock from swivel 6, from swivel 6 from swivel 6 The rotation axis of the deviation rotor 2 of the axis of rotation 62, that is to say, that can be located on fixed body 1 from swivel 6, can also be set from swivel 6 On rotor 2, for example, rotor 2 is rotated by rotation center of rotation axis, rotation when being located on fixed body 1 from swivel 6 Body 6 is rotation center rotation with the axis of rotation 62, and rotor 2 and oneself 6 decentractions of swivel rotate.When swivel 6 is located at rotor 2 certainly When upper, rotor 2 is rotated by rotation center of rotation axis, can also follow rotor 2 with rotation axis in rotation from swivel 6 Heart rotation can also be that rotation center is rotated with the axis of rotation 62 from swivel 6, can be with by from the rotation for turning 6 and rotor 2 Bring strong visual impact to player, enhancing can rotation clamping toy 100 interest, 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.

In some embodiments, rotor 2 relative to fixed body 1 rotate can trigger 7 part of rotation locking device unlock or Unlock completely can just rotate after rotor 2 rotates as a result, from swivel 6, and this interaction relation constructs the chain of toy 100 Motion mechanism increases the interest of toy 100.

Fixed body 1, rotor 2 and the department of assembly for being used for localized external toy body is equipped with from swivel at least one of 6, As a result, outer toy body can be assembled to by department of assembly can rotation clamping toy 100 on, make can rotation clamping toy 100 have the effect of capturing toy body.

According to the utility model embodiment can rotation clamping toy 100, by be arranged rotation locking device 7, make from Swivel 6 can be rotated, embody can the rotates effe of toy 100 of rotation clamping can be made outer by the way that department of assembly is arranged Portion's toy body be integrated to can rotation clamping toy 100 on, embody can rotation clamping toy 100 capture toy body effect Fruit, rotor 2 can also be rotated relative to fixed body 1, make can rotation clamping toy 100 structure, playing method it is more new Grain husk, interest is strong, good visual effect.

In the utility model embodiment, department of assembly be can rotation clamping toy 100 be used to capture outer toy body Component.In some embodiments of the utility model, 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 Can rotation clamping toy 100 have more combinations, strong operability, certainly, department of assembly can also have other shapes Formula, here without limitation to the form of department of assembly.

In some embodiments of the utility model, department of assembly is clamp port 15, the fixed body 1 provided with clamp port 15 Rotor 2 or from swivel 6 on, equipped with the magnetic absorption member for toy body to be pull-in on to clamp port 15, outer toy body can as a result, Be adsorbed in a manner of through actuation on fixed body 1 or on rotor 2 or from swivel 6 on, make can rotation clamping toy 100 capture toy body effect it is stronger, enhancing can rotation clamping toy 100 interest.

In some embodiments, as shown in Figure 1, Figure 2, shown in Fig. 3 and Figure 16, can the toy 100 of rotation clamping include the first lock Determine device 3 and storage body 4.

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 some embodiments, can rotation clamping toy 100 further include action piece 8 and the second locking device 9, action piece 8 can make can rotation clamping 100 generation of toy movement transformation, action piece 8 is located on fixed body 1 or action piece 8 be located at turn Action piece 8 is equipped on kinetoplast 2 or on fixed body 1 and rotor 2.Second locking device 9 be used for locking action piece 8, second Action piece 8 keeps stable state when locking device 9 does not trigger.

After triggering the second locking device 9,8 generation of action piece movement, for example, the expansion of action piece 8 deformation or action piece 8 It pivots so that toy 100 empties overturning, thus, it is possible to bring biggish visual impact, the entertaining of increase toy 100 to player Property, certainly, action piece 8 can also have other movement transformation, for example, action piece 8 can be launched, action piece 8 can also be with Acousto-optic effect etc. is generated, herein without limitation to action piece 8.

In some embodiments of the utility model, when storage body 4 drives rotor 2 just to go to end, rotor 2 Trigger the unlock of the second locking device 9, that is to say, that rotor 2 is starting switch for action piece 8, it is possible thereby to make rotor 2 first Rotated, then action piece 8 just takes place interlocking action, increase can rotation clamping toy 100 visual effect.

Specifically, rotor 2 is rotatably arranged in the surface of fixed body 1, and the projection of rotor 2 in the horizontal plane is big In or equal to the projection of fixed body 1 in the horizontal plane.2 entire area of rotor in this way is larger, done on rotor 2 moulding or Action piece 8 is arranged in person on rotor 2, and visually movement variation is big, and interaction effect is more preferable.

In some embodiments of the utility model, as shown in Figures 2 and 3, storage body 4 includes accumulation of energy shell 41, turntable 42 With accumulation of energy part 43, accumulation of energy shell 41 is located on one in fixed body 1 and rotor 2, and turntable 42 is rotatably arranged at accumulation of energy shell 41 Interior, turntable 42 is equipped with connecting column 421, and connecting column 421 stretches out accumulation of energy shell 41, and connecting column 421 and fixed body 1 and rotor 2 In another be 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, turns The potential energy of accumulation of energy part 43 increases or reduces when disk 42 is rotated relative to accumulation of energy shell 41.

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 utility model, as shown in Figure 3 and Figure 4, set on one in fixed body 1 and rotor 2 Be rotatably assorted slot 21, another in fixed body 1 and rotor 2 is equipped with the platform 11 that is rotatably assorted, the platform 11 that is rotatably assorted cooperation In the slot 21 that is rotatably assorted, 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 Fig. 3, 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 utility model, as shown in figure 4, towards another on one in fixed body 1 and rotor 2 One 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 Person exits the first lock tongue 31 of the first lock slots 221.When the first lock tongue 31 protrudes into the first lock slots 221, rotor 2 is locked On fixed 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, the first lock tongue 31 moves horizontally after being triggered, and the first lock tongue 31 can be caught in the horizontal direction One lock slots 221 exit the first lock slots 221.The setting for thickening platform 22 makes the first lock tongue 31 on triggering without excessive Ground is vertically movable, is conducive to the vertical height of the first locking device 3 in this way.

In some embodiments of the utility model, as shown in Fig. 2, having the first trigger bit 16 and first on fixed body 1 Perforation 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 The other end of one locking device 3 stretches out from the first perforation 12 with locking rotor 2, as a result, when one end of the first locking device 3 When the first trigger bit 16 is triggered, the other end of the first locking device 3 can release the locking to rotor 2, make rotor 2 It can be 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 utility model, as shown in Fig. 2, Fig. 6 and Fig. 7, can rotation clamping toy 100 also Component 5 is limited including rotation, rotation limitation component 5 is staggered with storage body 4 in the horizontal plane, thus, it is possible to limit rotation Component 5 and the function of storage body 4 are not interfere with each other, be conducive to can rotation clamping toy 100 operating.Rotation limitation component 5 It is provided with and is conducive to the angular range that limitation rotor 1 rotates, on the one hand avoiding rotor 1 from rotating transition leads to the damage of storage body 4 It is bad, other variations of toy 100 on the other hand can be triggered using rotation limitation component 5.

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 along a direction unlimited rotary, be conducive to can rotation clamping toy 100 operation.Rotor 2 is just Turn and invert, is all to be limited by the cooperation of motionless locating piece 51 and the part 52 that is rotatably assorted, makes the rotational angle range of rotor 2 Control can save the number of parts of rotation limitation component 5 in whole circle.

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 to have cooperation as a result, Relationship, 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 It shakes easily.

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 The two slots are arranged in a staggered manner in the telescopic direction for being rotatably assorted part 52, and as shown in Fig. 6, the part 52 that is rotatably assorted is in phase To 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 gradually adds It is deep, it can make to be rotatably assorted part 52 when just going to end and being inverted to end, be rotatably assorted what part 52 was stretched out out of rotor 2 Length is different, so that the inserted block on the different slot in two ends and motionless locating piece 51 cooperates.

In some embodiments of the utility model, 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 be located between fixed body 1 and rotor 2, interior lock set 71 with from 6 cooperation of swivel with Locking is from turning 6, and interior lock set 71 can be limited to from the direction of rotation of swivel 6 as a result, makes 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, outer lock set 72 and swivel 6 certainly Cooperation turns 6 with locking certainly, and outer lock set 72 can also limit the rotation from swivel 6 as a result, and making can not from swivel 6 Rotation.That is, in this embodiment, the rotation of rotor 2 can only be such that 7 part of rotation locking device unlocks, work as external trigger Outer 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 utility model, as shown in figure 8, interior lock set 71 includes inside lock lever 711 and interior closing piece 712, inside lock lever 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 is matched with from swivel 6, and interior closing piece 712 is located on another in fixed body 1 and rotor 2, the first locking device 3 lock Interior closing piece 712 blocks inside lock lever 711 when rotation stop kinetoplast 2, and the first locking device 3 discharges interior closing piece 712 when rotor 2 and discharges internal lock Bar 711.

In one embodiment of the utility model, it is located on rotor 2 from swivel 6, inside lock lever 711 is located at rotor 2 On, 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 inside lock lever 711 contact when, interior closing piece 712 can limit the reversion of inside lock lever 711, at this point, inside lock lever 711 can To carry out a degree of swing, inside lock lever 711 with from one end of 6 cooperation of swivel driving from 6 progress of swivel to a certain degree Rotation, i.e., in 712 part of closing piece locking from swivel 6.When rotor 2 continues reversion, make under the limit of interior closing piece 712 interior Locking bar 711 swings to an extreme position, makes inside lock lever 711 that can not continue to swing, at this point, interior closing piece 712 is matched with inside lock lever 711 Closing will be fully locked from swivel 6, can not rotate from swivel 6.The first locking device 3 is triggered, allows rotor 2 in fixed body 1 Upper rotating forward, at this point, interior closing piece 712 discharges inside lock lever 711, inside lock lever 711 with from one end of 6 cooperation of swivel make from turn 6 can be with With the axis of rotation 62 for rotation center rotation.

In some examples of the utility model, as shown in figure 9, rotation locking device 7 includes rotation driving assembly 73, from Turning driving assembly 73 includes rotation driving gear set 731 and rotation elastic component 732, and rotation driving gear set 731 is located inside lock lever Between 711 and oneself swivel 6, inside lock lever 711 can drive rotation driving gear set 731 as a result, then rotation driving gear set 731 can drive from 6 rotation of swivel.

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 utility model, as shown in Figure 8 and Figure 9, inside lock lever 711 is sector, rotation transmission gear Group 731 includes sector 7311 and rotation tooth 7312, and sector 7311 is formed in inside lock lever 711, i.e. the formation of sector 7311 On the fan-shaped end face of inside lock lever 711.Rotation tooth 7312 is co-axially located at from swivel 6, and rotation tooth 7312 can be with oneself as a result, 6 coaxial rotatings are turned, 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 utility model, as shown in figure 8, outer lock set 72 includes outer locking bar 721 and outer locked groove 61, outer locking 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 normal court It is stretched out to from swivel 6, outer locked groove 61 is formed in from swivel 6, and from swivel 6, outer locking bar 721 can be inserted into external lock during rotation In slot 61, the cooperation of outer locking bar 721 and outer locked groove 61 can limit the rotation from swivel 6 as a result,.Optionally, on outer locking bar 721 Equipped with 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 is movably located at from swivel 6, and external lock trigger unit 722 can be by outer locking bar 721 when triggering It is ejected out of 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, this When, it is partially unlocked from swivel 6.

In some examples of the utility model, as shown in figure 8, outer locked groove 61 be it is multiple, multiple outer locked grooves 61 around from Shaft 62 is spaced apart setting, corresponds to multiple outer locked grooves 61 from swivel 6 and multiple external lock trigger units 722 are arranged, from when 6 rotation of swivel Outer locking bar 721 can cooperate with multiple outer locked grooves 61 respectively, and when triggering external lock trigger unit 722, outer locking bar 721 is touched by multiple external locks Hair portion 722 is ejected 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 utility model, as shown in figure 8, 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, and outer locking bar 721 can be along direction as a result, The gradually deep trouth gradually deepened on the direction of some outer locked groove 61 enters outer locked groove 61, once outer locking bar 721 is inserted into the outer locked groove 61 are 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 Setting keeps the cooperation of outer locking bar 721 and outer locked groove 61 simpler, stable.

In some examples of the utility model, as is illustrated by figs. 11 and 12, fixed body 1 is equipped with internal lock tank 13, interior Closing piece 712 is 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, is being turned Kinetoplast 2 when being inverted to end interior closing piece 712 matched with sliding block 7111 to block inside lock lever 711, just go to end in rotor 2 When sliding block 7111 interior closing piece 712 is squeezed into 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.

In some embodiments of the utility model, action piece 8 includes at least one in flip piece, deformable member and rotation part It is a, wherein flip piece can make can rotation clamping toy 100 empty overturning, deformable member can shrink and be unfolded, and making can rotation The moulding of the toy 100 of clamping changes, rotation part can rotation on the toy 100 of rotation clamping, action piece as a result, 8 can make can rotation clamping toy 100 have various motion type, increase can rotation clamping toy 100 visual effect, Interest is stronger.

In some examples of the utility model, as shown in Figure 15 and Figure 16, action piece 8 includes the first action piece 81, is turned One in kinetoplast 2 and fixed body 1 is equipped with first dynamic trigger member 24, and the second locking device 9 includes the second locking level 91 and second Return unit 92 is locked, the second locking return unit 92 is for often driving the second locking level 91 to lock the first action piece 81, wherein second Locking level 91 is 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, turns Kinetoplast 2 relative to fixed body 1 rotate during first dynamic trigger member 24 trigger first dynamic reacting part 912, discharge the second locking level 91 First action piece 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 utility model, as shown in figure 17, when rotor 2 is inverted to end, the dynamic trigger member 24 of head First dynamic reacting part 912 is avoided, 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 utility model, as shown in Figure 17 and Figure 18, the dynamic trigger member 24 of head is movably arranged, by This, when rotor 2 can be made to be inverted to end, the dynamic trigger member 24 of head avoids first dynamic reacting part 912, and rotor 2 just goes to end When, the dynamic trigger member 24 of head squeezes first dynamic reacting part 912 so that 91 activity of the second locking level optionally can in the dynamic trigger member 24 of head Equipped with spring, first dynamic trigger member 24 can be made to avoid first dynamic reacting part 912 with compressed spring when rotor 2 is inverted to end, turned When kinetoplast 2 is just going to end, the first dynamic trigger member 24 of spring-return elastic deformation driving, the dynamic trigger member 24 of head squeezes first dynamic reacting part 912 so that 91 activity of the second locking level.

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 utility model, as shown in Figure 17 and Figure 18, guidance part is guide channel 14, the dynamic trigger member of head 24 are configured to slide along guide channel 14, and depth differs guide channel 14 in the direction of extension, thus, it is possible to make first dynamic trigger member 24 can With along depth, equal guide channel 14 does not realize the activity of first dynamic trigger member 24, led for example, working as first dynamic trigger member 24 in shallower When 14 position of approaching channel, first dynamic trigger member 24 can be made to avoid first dynamic reacting part 912, when the dynamic trigger member 24 of head is in deeper guide channel When 14 position, first dynamic trigger member 24 can be made to cooperate with first dynamic reacting part 912.

In some examples of the utility model, as shown in Figure 17 and Figure 18, the dynamic trigger member 24 of head is telescopically arranged, first Windward side of the dynamic trigger member 24 in reversion is formed as the guiding face of arc.As a result, when rotor 2 inverts, the dynamic trigger member of head 24 can slide onto fixed body 1 by guiding face, in addition, can make the stretching motion of first dynamic trigger member 24 more by guiding face Steadily, reliability is higher.

In the example shown in Fig. 1-Figure 21, the dynamic trigger member 24 of head is integrated with the part 52 that is rotatably assorted, that is, is rotatably assorted Part 52 not only acts as the effect of locating rotation body 2, also acts as the work that the first action piece 81 is triggered after one circle of the rotation of rotor 2 With.

In some examples of the utility model, as shown in figure 16, action piece 8 includes the second action piece 82, thus, it is possible to Make can rotation clamping toy 100 occur repeatedly act transformation, increase can rotation clamping toy 100 visual effect and amusement Effect.

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 third locking level 93 is triggered after the movement of the first action piece 81, Third locking level 93 is set to discharge the second action piece 82, the first action piece 81 can be used as the switch of the second action piece 82 as a result, The second locking device 9 can be triggered when the first action piece 81 acts, and third is made to lock 94 contraction distortion of return unit, from And third locking level 93 is made to lose the locking to the second action piece 82, act the second action piece 82.

In some examples of the utility model, as shown in Figure 14, Figure 16 and Figure 17, the first action piece 81 is located at fixed body On 1, the second action piece 82 is located on rotor 2, and the second locking device 9 further includes movably being located at fixed body 1 and rotor 2 Between time dynamic trigger member 95, triggered after the movement of the first action piece 81 and drive the after 95 dynamic trigger member 95 of time dynamic trigger member trigger Three locking levels, 93 activity.

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, make can the toy 100 of rotation clamping can repeatedly be acted with once-through operation, easy to operate, playability is high, Interest is strong.

In some examples of the utility model, as shown in Figure 16 and Figure 17, secondary dynamic trigger member 95 is telescopically located at solid Determine in body 1, the second locking device 9 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 can the toy 100 of rotation clamping transport The reliability turned.

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 utility model, as shown in Figure 16 and Figure 17, one end of third locking level 93 be equipped with from That exposes in rotor 2 compresses platform 96, and reactive end 952 compresses 93 activity of the driving of platform 96 third locking level by squeezing, leads to as a result, It crosses and compresses the transitional function of platform 96 and can make time dynamic trigger member 95 that deflecting occur to third locking level 93, while avoiding time dynamic triggering The direct contact of part 95 and third locking level 93, guarantee can third locking level 93 reliability.

In some embodiments of the utility model, as shown in figure 16, the rotation that platform 96 is formed around rotor 2 is compressed The arc of axis setting, reactive end 952 can be moved along the arcwall face of squeeze station as a result, make time dynamic trigger member 95 and third lock The movement of fixed pole 93 is relatively stable.

In some embodiments of the utility model, as shown in fig. 6, rotor 2 towards on the surface of fixed body 1, be equipped with For avoiding the annular escape groove 25 of reactive end 952, reactive end 952 can pass through escape groove and compress the cooperation of platform 96 as a result,.

In some embodiments of the utility model, as shown in Figure 14 and Figure 19, the second action piece 82 is multiple, Duo Ge Two action pieces 82 act transformation by multiple third locking levels 93 locking of linkage as a result, while multiple second action piece 82 Can increase can rotation clamping toy 100 visual effect, interest is strong, for example, can rotation clamping toy 100 can be by scheming 1 is transformed into Figure 19.

In some embodiments of the utility model, as shown in Fig. 1 and Figure 21, department of assembly includes being located on fixed body 1 First 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 At 101, the unlock of the first locking device 3 is triggered 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 unlock, increase can rotation clamping toy 100 capture toy body effect.

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

In some embodiments of the utility model, as shown in figure 20, the external lock trigger unit 722 of rotation locking device 7 is prolonged The second department of assembly 103 is extended to, triggering rotation locking device 7 unlocks when toy body cooperates in the second department of assembly 103, as a result, certainly Turning locking device 7 can release to the locking from swivel 6.

In the description of this specification, reference term " some embodiments ", " some examples ", " further " and " optional It is practical that the description on ground " etc. means that particular features, structures, materials, or characteristics described in conjunction with this embodiment or example are contained in In at least one novel embodiment or example.In the present specification, schematic expression of the above terms are not necessarily referring to Identical embodiment or example.Moreover, particular features, structures, materials, or characteristics described can be at any one or more It can be combined in any suitable manner in a embodiment or example.

While there has been shown and described that the embodiments of the present invention, it will be understood by those skilled in the art that: These embodiments can be carried out with a variety of variations, modification, replacement in the case where not departing from the principles of the present invention and objective And modification, the scope of the utility model are defined by the claims and their equivalents.

Claims (10)

1. one kind can rotation clamping toy characterized by comprising

Fixed body；

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

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；

The fixed body, the rotor and described the toy body for being used for localized external is equipped with from least one of swivel Department of assembly.

2. it is according to claim 1 can rotation clamping toy, which is characterized in that the department of assembly be magnetic absorption member, clamping At least one of part and fastener.

3. it is according to claim 1 can rotation clamping toy, which is characterized in that the department of assembly be clamp port, setting The fixed body or the rotor of the clamp port are described from swivel, equipped with for the toy body to be pull-in on The magnetic absorption member of the clamp port.

4. it is according to claim 1 can rotation clamping toy, which is characterized in that further include:

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.

5. it is according to claim 4 can rotation clamping toy, which is characterized in that the department of assembly include be located at it is described solid Determine the first department of assembly on body, one end of first locking device extends at first department of assembly, when the toy body Cooperation triggers the first locking device unlock at first department of assembly.

6. it is according to claim 4 can rotation clamping toy, which is characterized in that the department of assembly include be located at it is described from The second department of assembly on swivel, one end of the rotation locking device extends at second department of assembly, when the toy body Cooperation triggers the rotation locking device unlock at second department of assembly.

7. it is according to claim 6 can rotation clamping toy, 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 second department of assembly, and the external lock trigger unit triggers The outer lock set unlock afterwards.

8. it is according to claim 7 can rotation clamping toy, 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.

9. it is according to claim 8 can rotation clamping toy, which is characterized in that the rotation locking device includes rotation Driving assembly, 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.

10. it is according to claim 7 can rotation clamping toy, which is characterized in that it is described from swivel equipped with outer locked groove, The outer lock set includes: outer locking bar, the outer locking bar be movably located at the fixed body from where swivel or On the rotor, the outer locking bar is configured to stretch out described in Chang Chaoxiang from swivel, described described during rotation from swivel Outer 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 triggering Portion can eject the outer locking bar when triggering out of described outer locked groove.