CN208493222U

CN208493222U - Function whirligig

Info

Publication number: CN208493222U
Application number: CN201820636893.2U
Authority: CN
Inventors: 陈文坚; 凌赞; 叶鉴
Original assignee: Alpha Group Co Ltd; Guangzhou Alpha Culture Co Ltd
Current assignee: Alpha Group Co Ltd; Guangzhou Alpha Culture Co Ltd
Priority date: 2018-04-28
Filing date: 2018-04-28
Publication date: 2019-02-15
Anticipated expiration: 2028-04-28

Abstract

The utility model discloses a kind of function whirligig, the function whirligig includes: rotary body；Functor, the functor are located on the rotary body and rotate with the rotary body；Locker, the locker is located on the rotary body and rotates with the rotary body, the locker is configured to, when the revolving speed of the rotary body is greater than first setting speed, functor described in locking, the functor is triggered when the revolving speed of the rotary body drops to the first setting speed.Function whirligig according to the present utility model, by the way that locker is arranged on rotary body, using locker come the triggering of control function part, and then realize the function whirligig one when playing or toy can Trigger Function part, and repeatedly it can execute function by Trigger Function part, the interest played is strong, brings stimulation and pleasantly surprised sensory experience to player.

Description

Functional rotary toy

Technical Field

The utility model relates to an amusement toy technical field, more specifically relates to a rotatory toy of function.

Background

At present, the rotator functional toy is popular with children, wherein the mainstream functional rotator toy is a fighting deformation top.

The rotating body toy in the related art is a fighting deformation gyro, two or more gyros are required to directly impact and fight in a high-speed rotating state, and the hit party is deformed by an impact trigger switch. And every structure of fighting deformation top toy mainly includes the triplex, the bottom is the flywheel body, the middle part is the switching device that the clash triggered, upper portion is the deformable body, specifically, be equipped with the switch that can stretch out and draw back at the middle part outer loop of top, the initial state of switch plate key is outside under the effect of pressure spring stretches out, unlocking means has been set for on the switch plate key simultaneously, when two top of high-speed rotation, at the in-process of mutual contact clash, the top is hit the switch key and takes place the displacement, the unblock and then the deformable body realizes warping, single top can't realize warping, and the structure is complicated, the enjoyment of playing is low.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, the utility model provides a rotatory toy of function, the playing method interest of the rotatory toy of function is strong, and single toy can be out of shape, simple structure.

According to the utility model discloses a rotatory toy of function, include: a rotating body; the functional piece is arranged on the rotating body and rotates along with the rotating body; the locking device is arranged on the rotating body and rotates along with the rotating body, and the locking device is configured to lock the functional piece when the rotating speed of the rotating body is greater than the first set rotating speed and trigger the functional piece when the rotating speed of the rotating body is reduced to the first set rotating speed.

According to the utility model discloses a rotatory toy of function through set up locking device on the rotator, adopts locking device to come the triggering of control function spare, and then realizes that this rotatory toy of function is single when playing or a toy can trigger function spare, and can trigger function spare executive function many times, and the interest of playing is strong, brings amazing and surprised sense organ experience for the person of playing.

According to the utility model discloses an embodiment, locking device includes: a locking mechanism for locking the function; the centrifugal locking mechanism comprises a centrifugal throwing block which is arranged on the rotating body in a swinging mode, the centrifugal throwing block is provided with a gravity center part, and when the rotating body rotates, the gravity center part swings towards or away from the rotating axis of the rotating body under the action of gravity or centrifugal force; when the rotating speed of the rotating body is greater than the first set rotating speed, the centrifugal block-throwing block releases the locking mechanism, and when the rotating speed of the rotating body is reduced to the first set rotating speed, the centrifugal block-throwing block triggers the locking mechanism.

According to an optional example of the present invention, the centrifugal latch mechanism comprises: the first magnetic attraction piece is arranged on the centrifugal throwing block to drive the gravity center part to swing towards the rotation axis.

According to another optional example of the present invention, the centrifugal latch mechanism comprises: the second magnetic attraction piece is arranged on the rotating body and is positioned between the centrifugal throwing block and the rotating axis.

According to a further alternative example of the present invention, the centrifugal latch mechanism comprises a plurality of centrifugal throwers, at least two of which are arranged in pairs, two of which are opposite to each other the rotation axis is arranged in central symmetry, two of which are arranged in pairs the centrifugal throwers attract each other through the first magnetic attraction.

According to yet another optional example of the present invention, the latching device comprises: the self-locking mechanism is matched with the centrifugal locking mechanism to lock the centrifugal locking mechanism, and the self-locking mechanism releases the centrifugal locking mechanism after being triggered.

In some optional examples, the self-locking mechanism comprises: the self-locking push plate is slidably arranged in the rotating body between a self-locking position and an unlocking position, the self-locking push plate pushes the centrifugal throw block to enable the gravity center part to be far away from the rotating axis when the self-locking position is realized, and the self-locking push plate releases the centrifugal throw block when the unlocking position is realized; the first elastic piece is connected between the rotating body and the self-locking push plate to push the self-locking push plate towards the unlocking position.

In some optional examples, the self-locking mechanism comprises: and the lock catch is used for clamping the self-locking push plate in the self-locking position, and the lock catch releases the self-locking push plate under the action of centrifugal force or after collision triggering.

According to a further example of the present invention, the functional rotary toy further comprises: the rotating tip can be arranged at the bottom of the rotating body in a vertically floating mode, and when the rotating tip floats upwards relative to the rotating body, the lock catch can be triggered to be unlocked.

In some optional examples, the locking mechanism comprises: the rotary disc is rotatably arranged on the rotating body, and a locking part and a matching part are arranged on the rotary disc; the second elastic piece is connected between the rotating body and the rotating disc so as to drive the rotating disc to rotate towards the direction that the locking part is locked with the functional piece; when the centrifugal swing block presses the matching part, the rotary disc can be pushed to rotate towards the direction of unlocking the functional piece by the locking part.

Furthermore, a notch is formed in the inner peripheral wall of the rotary table, a matching inclined surface is arranged on one side of the notch in the direction surrounding the rotation axis, the matching inclined surface forms the matching portion, and a driving inclined surface matched with the matching inclined surface is arranged on the centrifugal throwing block.

According to another embodiment of the present invention, the functional member includes: the overturning part is arranged at the bottom of the rotating body and locked by the locking device, and after the locking device is unlocked, the overturning part rotates relative to the rotating body to enable the functional rotating toy to be emptied and overturned.

According to still another embodiment of the present invention, the functional rotary toy further comprises: the delay device is respectively connected with the locking device and the functional piece, and the delay device is configured to delay the unlocking action of the locking device on the functional piece.

Further, the delay means includes: the unlocking plate is slidably arranged in the rotating body between an initial position and an unlocking position, the unlocking plate is kept at the initial position when the locking device is locked, the functional piece can be locked by the unlocking plate at the initial position, the functional piece is released by the unlocking plate at the unlocking position, and an unlocking rack is arranged on the unlocking plate; the unlocking gear is meshed with the unlocking rack; the energy storage mechanism is connected with the unlocking gear, the unlocking plate is stored with energy when sliding towards the initial position from the unlocking position, and the energy storage mechanism drives the unlocking plate to slide towards the unlocking position when releasing energy.

According to the utility model discloses optional embodiment, the function piece is at least one kind in sound production piece, luminous piece, the action piece.

Further, the function part includes a plurality of action pieces, and is a plurality of the action piece constructs to be in when the locking device triggers expand in proper order, expand two adjacent in order among the action piece, the action piece that expands earlier is used for the locking to expand later the action piece, expand foremost the action piece passes through the locking device locking.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a perspective view of a functional rotary toy according to an embodiment of the present invention;

FIG. 2 is an exploded view of a functional rotary toy according to an embodiment of the present invention;

fig. 3 is a perspective view of a deformed state of the functional rotary toy according to an embodiment of the present invention;

FIG. 4 is a cross-sectional view of a functional rotary toy according to an embodiment of the present invention;

FIG. 5 is a partial schematic structural view of a functional rotary toy according to an embodiment of the present invention;

fig. 6 is a partial structural view showing a deformed state of the functional rotary toy according to the embodiment of the present invention;

fig. 7 is a schematic view of a part of a functional element of a functional rotary toy according to an embodiment of the present invention;

fig. 8 is a schematic view of a part of the functional elements in a deformed state of the functional rotary toy according to an embodiment of the present invention;

fig. 9 is a schematic view of a portion of a functional element of a functional rotary toy according to another perspective of an embodiment of the present invention;

fig. 10 is a schematic view of a part of the functional elements in a deformed state of the functional rotary toy according to another perspective of the embodiment of the present invention;

fig. 11 is a side view of a partial structure of a functional rotary toy according to an embodiment of the present invention;

fig. 12 is a side view of a partial structure of a deformed state of the functional rotary toy according to the embodiment of the present invention;

fig. 13 is a schematic view of a state of the centrifugal locking mechanism and the locking mechanism of the functional rotary toy according to the embodiment of the present invention;

fig. 14 is a schematic view showing another state of the centrifugal locking mechanism and the locking mechanism of the functional rotary toy according to the embodiment of the present invention;

fig. 15 is a schematic view of a state of the centrifugal locking mechanism and the locking mechanism of the functional rotary toy according to another perspective of the present invention;

fig. 16 is a schematic view of another state of the centrifugal locking mechanism and the locking mechanism of the functional rotary toy according to another perspective of the present invention;

FIG. 17 is a perspective view of a centrifugal slinger of a functional rotary toy according to an embodiment of the present invention;

fig. 18 is a schematic view of a self-locking mechanism of a functional rotary toy according to an embodiment of the present invention;

fig. 19 is a schematic view showing a state of a locker of the functional rotary toy according to an embodiment of the present invention;

fig. 20 is a schematic view showing another state of the locker of the functional rotary toy according to the embodiment of the present invention;

fig. 21 is a partial exploded view showing a rotating body of the functional rotary toy according to the embodiment of the present invention;

fig. 22 is a sectional perspective view of a rotating body of a functional rotary toy according to another embodiment of the present invention;

fig. 23 is a partial structural view of a rotating body of a functional rotary toy according to an embodiment of the present invention;

fig. 24 is a partial structural view of a rotating body of a functional rotary toy according to another embodiment of the present invention;

fig. 25 is a schematic view of an unlocking plate of the functional rotary toy according to an embodiment of the present invention;

fig. 26 is an exploded view of a delay device of a functional rotary toy according to an embodiment of the present invention;

fig. 27 is a partial exploded view showing a rotating body of the functional rotary toy according to the embodiment of the present invention;

fig. 28 is a schematic structural view showing a functional rotary toy according to still another embodiment of the present invention in a normal rotation state;

fig. 29 is a schematic view showing the configuration of the functional rotary toy according to the embodiment of the present invention in a launching state;

fig. 30 is a partial structural view of a functional member and a locking device of the functional rotary toy according to the embodiment of the present invention;

fig. 31 is a vertical sectional view of a functional rotary toy according to an embodiment of the present invention;

fig. 32 is another vertical sectional view of a functional rotary toy according to an embodiment of the present invention;

fig. 33 is a partial structural view of a functional rotary toy according to an embodiment of the present invention.

Reference numerals:

functional rotary toy 1

A rotating body 10, a rotating tip 110, an elastic arm 120,

A functional element 20, a transmitting head 210, a middle shaft body 220, a transmitting elastic element 230, a rotating elastic element 240,

Locking device 30, locking mechanism 310, locking member 310, rotating disc 313, locking portion 3131, concave portion 3131a, matching portion 3132, second elastic member 314, first locking member 311, first trigger 3111, hook 3111a, first spring 3112, second locking member 312, second trigger 3121, locking member 3122, locking block 3122a, second spring 3123,

Centrifugal latch mechanism 320, centrifugal swing block 321, gravity center portion 3211, driving inclined surface 3212, first magnetic attraction piece 322, and second magnetic attraction piece 323

A self-locking mechanism 330, a self-locking push plate 331, a linkage projection 3311, a protrusion 3312, a first elastic member 332, an unlocking member 333, a lock 334,

A locking plate 340, a claw 341,

Top cover 40, fastening hole 410, slide plate 50,A convex portion 510, an end portion 513,A third elastic piece 520, a toy body 2,

The reversing element 41, the camshaft 411, the deforming element 42, the rear fin element 421, the outer fin element 422, the outer fin baffle 4221, the inner fin element 423, the inner fin baffle 4231, the head element 424, the antenna 425, the swing link 426, the bracket 43, the face shell 44, the mounting hole 45, the first hole body 451, the second hole body 452, the first hole body 4221, the second hole body 422, the third hole body and the fourth hole body,

A delay device 5, an unlocking plate 51,An unlocking hook edge 511, an unlocking rack 512,Unlocking gear 52, energy storage mechanism 53.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention. Furthermore, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it is to be understood that the terms "mounted," "connected," and "connected" are used in a broad sense and, unless otherwise expressly specified or limited, can be any type of fixed or movable connection, such as a fixed connection or a movable connection

Detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

A functional rotary toy 1 according to an embodiment of the present invention will be described with reference to fig. 1 to 33.

As shown in fig. 1 to 4, a functional rotary toy 1 according to an embodiment of the present invention includes a rotating body 10, a functional member 20, and a locking device 30, wherein the functional member 20 is disposed on the rotating body 10 and can rotate with the rotating body 10, the locking device 30 is disposed on the rotating body 10 and can also rotate with the rotating body 10, and the locking device 30 is configured such that, when the rotating speed of the rotating body 10 is greater than a first set rotating speed, the locking device 30 locks the functional member 20, and when the rotating speed of the rotating body 10 drops to the first set rotating speed, the locking device 30 triggers the functional member 20.

Specifically, since the locker 30 can lock or release the function member 20, the locker 30 is formed such that the locker 30 locks the function member 20 when the rotational speed of the rotary member is greater than the first set rotational speed, and the locker 30 releases the function member 20 when the rotational speed of the rotary member is reduced to the first set rotational speed. That is, when the functional rotary toy 1 is rotated at a high speed (i.e., the rotation speed is greater than the first set speed), the locking device 30 locks the functional element 20 due to the centrifugal force, so that the functional element 20 is in the locked folded state, and when the rotation speed is gradually reduced (i.e., decreased to be less than the first set speed) or stopped, the locking device 30 unlocks the functional element 20 due to the loss of the centrifugal force, so that the functional element 20 is triggered.

Therefore, the functional rotary toy 1 can realize specific functions (such as instantaneous deformation, bounce, launching and the like) at a specific rotation speed, particularly, the trigger of the locking device 30 on the functional rotary toy 1 does not need to be from the impact of other external toys, the corresponding function can be realized through the self rotation speed reduction of the functional rotary toy 1, the functional rotary toy can be independently and automatically deformed during one toy, a player can play alone, no group is needed when the player wants to play at any time, meanwhile, a plurality of players can play together to determine success or failure of a match, the experience of the player is improved, and the playing methods are diversified.

According to the utility model discloses rotatory toy of function 1 through set up locking device 30 on rotator 10, adopts locking device 30 to control triggering of function 20, and then realizes that this rotatory toy of function 1 is single when playing or a toy can trigger function 20, and can trigger function 20 executive function many times, and the interest of playing is strong, brings amazing and surprised sense organ experience for the player.

As shown in fig. 1 to 4, according to an embodiment of the present invention, the locking device 30 includes a locking mechanism 310 and a centrifugal locking mechanism 320, the locking mechanism 310 is used for locking the functional component 20, the centrifugal locking mechanism 320 includes a centrifugal swing block 321, the centrifugal swing block 321 is swingably disposed on the rotating body 10, a gravity center portion 3211 is disposed on the centrifugal swing block 321, when the rotating body 10 rotates, the gravity center portion 3211 swings toward or away from the rotation axis of the rotating body 10 under the action of gravity or centrifugal force, when the rotation speed of the rotating body 10 is greater than a first set rotation speed, the centrifugal swing block 321 releases the locking mechanism 310, and when the rotation speed of the rotating body 10 drops to the first set rotation speed, the centrifugal swing block 321 triggers the locking mechanism 310.

Further, when the rotation speed of the rotating body 10 is greater than the first set rotation speed, the gravity center portion 3211 of the centrifugal swing block 321 swings away from the rotation axis of the rotating body 10 under the action of a large centrifugal force at high speed, that is, the gravity center portion 3211 is swung away around the rotation axis of the rotating body 10 at this time, the centrifugal swing block 321 is disengaged from the locking mechanism 310, and when the rotation speed of the rotating body 10 gradually decreases to be less than the first set rotation speed or the rotating body 10 stops rotating, the gravity center portion 3211 makes the gravity center portion 3211 approach towards the rotation axis of the rotating body 10 under the action of its own gravity due to the loss of the centrifugal force, that is, the gravity center portion 3211 descends and folds around the rotation axis of the rotating body 10 at this time, so that the centrifugal swing block 321 and the locking mechanism 310 are matched to trigger the locking mechanism 310, for example, the centrifugal swing.

Like this, through the rotational speed change of rotator 10 self, utilize centrifugal latch mechanism 320's centrifugal action to realize rotating the function that the in-process toy warp etc. at the rotatory toy 1 of function with the relation of its self gravity, need not to strike with the help of external exogenic action, so this structure is very simple, it is also very convenient when playing, and make the deformation time of the rotatory toy 1 of function have great uncertainty, thereby increased the surprise sense and the mysterious sense of the rotatory toy 1 of function, the sense organ that has promoted the player experiences.

According to an optional example of the present invention, the centrifugal locking mechanism 320 includes a first magnetic attraction member 322, the first magnetic attraction member 322 is disposed on the centrifugal swing block 321 to drive the gravity center portion 3211 to swing toward the rotation axis, the centrifugal locking mechanism 320 further includes a second magnetic attraction member 323, and the second magnetic attraction member 323 is disposed on the rotating body 10 and located between the centrifugal swing block 321 and the rotation axis.

It can be understood that, when the rotation speed of the rotating body 10 is less than the first set rotation speed, the centrifugal action on the gravity portion 3211 of the centrifugal swing block 321 is small, and at this time, the gravity portion 3211 descends under the action of gravity to swing toward the direction close to the rotation axis of the rotating body 10, but the structure that the gravity drives the gravity portion 3211 to swing has high instability, and there is a possibility that the centrifugal swing block 321 can drive the locking mechanism 310 to release the functional element 20 when the rotating body 10 is about to stop rotating, so that the playing satisfaction of the functional rotating toy 1 is greatly reduced. The centrifugal block 321 is provided with a first magnetic element 322, and the rotating body 10 is provided with a second magnetic element 323, so that when the rotating speed of the rotating body 10 is less than the first set rotating speed, the gravity center portion 3211 will swing axially toward the rotating body 10 under the dual actions of gravity and magnetic force, thus ensuring that the rotating speed of the rotating body 10 is less than the first set rotating speed, the centrifugal block 321 can drive the locking mechanism 310 to release the functional element 20 relatively quickly, and the player experience satisfaction of the functional rotating toy 1 is improved.

As shown in fig. 13 to fig. 16, according to an alternative example of the present invention, the centrifugal locking mechanism 320 includes a plurality of centrifugal thrower blocks 321, at least two centrifugal thrower blocks 321 are arranged in pairs, or a plurality of pairs, and are set according to actual requirements, the two centrifugal thrower blocks 321 in pairs are arranged in central symmetry with respect to the rotation axis, when the rotation speed of the rotating body 10 is less than the first set rotation speed, due to the weakening of the centrifugal action, the pair of centrifugal thrower blocks 321 will swing toward the direction close to the rotation axis of the rotating body 10 when the self gravity falls, but the structure that drives the gravity center portion 3211 to swing by the gravity has a high instability, when the rotating body 10 is likely to stop rotating, the centrifugal thrower blocks 321 can trigger the locking mechanism 310, so that the play satisfaction of the functional rotary toy 1 is greatly reduced.

Further, the two centrifugal throws in the pair attract each other through the first magnetic attraction element 322, for example, the first magnetic attraction element 322 may be disposed on a side where the two centrifugal throws 321 in the pair face each other, so that, when the rotation speed of the rotating body 10 is less than the first set rotation speed, the gravity center portion 3211 swings toward the rotation axis of the rotating body 10 under the dual actions of gravity and magnetic force, that is, further moves together under the attraction effect of the magnetic force therebetween (the folded state of the two centrifugal throws 321 shown in fig. 14 and 16), and when the rotation speed of the rotating body 10 is less than the first set rotation speed, the centrifugal throws 321 can trigger the locking mechanism 310 relatively quickly, thereby improving the player experience satisfaction of the functional rotary toy 1.

As shown in fig. 18 to 20, according to another alternative example of the present invention, the locking device 30 includes a self-locking mechanism 330, the self-locking mechanism 330 cooperates with the centrifugal locking mechanism 320 to lock the centrifugal locking mechanism 320, the self-locking mechanism 330 releases the centrifugal locking mechanism 320 after triggering, specifically, when the functional rotary toy 1 is in a static state or a state where a player does not play, two centrifugal flappers 321 in pair are in a state of being separated from each other under the action of the self-locking mechanism 330, and the self-locking mechanism 330 locks the centrifugal locking mechanism 320, so that the functional rotary toy 1 is in a storage state.

In addition, the part of the self-locking mechanism 330 extends out of the outer side of the rotating body 10, so that the self-locking mechanism 330 can be triggered by manual pushing, the self-locking mechanism 330 retracts towards the rotating body 10 to separate the two centrifugal throwing blocks 321 in pair, the centrifugal locking mechanism 320 is released, the functional rotating toy 1 can be in a storage state, the centrifugal locking mechanism 320 can be in a locking or triggering state through the self-locking mechanism 330, and the playing method is simple and easy.

Referring to fig. 18, according to still another alternative example of the present invention, the self-locking mechanism 330 includes a self-locking push plate 331 and a first elastic member 332, the self-locking push plate 331 is slidably disposed in the rotating body 10 between the self-locking position and the unlocking position, specifically, the self-locking push plate 331 pushes the centrifugal throw block 321 to keep the gravity center portion 3211 away from the rotation axis when the self-locking push plate 331 is in the unlocking position, the centrifugal throw block 321 is released by the self-locking push plate 331 when the self-locking push plate 331 is in the unlocking position, and the first elastic member 332 is connected between the rotating body 10 and the self-locking push plate 331.

Furthermore, the self-locking push plate 331 is provided at both sides thereof with a linkage protrusion 3311, and when the functional rotary toy 1 is at rest or a player does not play, one end of the self-locking push plate 331 extends out of the rotary body 10, the self-locking push plate 331 is pushed manually, so that the self-locking push plate 331 retracts towards the inside of the rotating body 10, that is, the self-locking push plate 331 slides from the unlocking position to the self-locking position, and when the self-locking push plate 331 slides to the self-locking position, the linkage lug 3311 on the self-locking push plate 331 pushes the two centrifugal flappers 321 in pairs, so that the center of gravity portion 3211 is away from the rotation axis, and the first elastic member 332 is under the elastic force of being stretched, due to the action trend of the restoring elastic force of the first elastic member 332, the self-locking push plate 331 has a function of pulling the self-locking push plate 331 towards the unlocking position, and when the self-locking push plate 331 has no other action, the first elastic member 332 will push the self-locking push plate 331 toward the unlocking position, thereby releasing the centrifugal throw 321.

Therefore, when a player does not play the toy, the gravity center parts 3211 of the centrifugal throwing blocks 321 can be separated from each other under the action of the self-locking push plate 331 and the first elastic piece 332, so that the toy is in a storage state, and the player only needs to push the self-locking push plate 331 with the pushing function to rotate the outer side of the toy 1, so that the operation is very simple, and the toy is suitable for children to play.

According to the utility model discloses still another optional example, self-locking mechanism 330 includes hasp 334, hasp 334 links to each other with rotator 10 through the torsional spring for hasp 334 is always in the state of drawing close to auto-lock push pedal 331, is equipped with in auto-lock push pedal 331 towards one side of hasp 334 with hasp 334 matched with protruding 3312, like this, when promoting auto-lock push pedal 331 in rotator 10, hasp 334 can be in the auto-lock position with auto-lock push pedal 331 card through linking to each other with protruding 3312 joint, and then promotes gravity center portion 3211 of getting rid of piece 321 and be in the detached state.

It should be noted that the lock 334 releases the self-locking push plate 331 under the action of centrifugal force or after collision triggering, specifically, the lock 334 is disengaged from the protrusion 3312 under the action of centrifugal force or after collision triggering, so as to release the self-locking push plate 331, so that the self-locking push plate 331 slides from the self-locking position to the unlocking position, and at this time, one end of the self-locking push plate 331 extends out of the rotator 10.

The lock catch 334 is connected with the self-locking push plate 331 in a matching manner, so that the self-locking push plate 331 can be kept in a retracted state, and the gravity center parts 3211 of the two centrifugal swing blocks 321 in a pair are separated, so that the functional rotary toy 1 can be in a storage state.

As shown in fig. 11, according to a further example of the present invention, the rotating toy 1 further includes a rotating tip 110, the rotating tip 110 is disposed at the bottom of the rotating body 10 in a floating manner, and after the rotating toy 1 is launched during playing, when the rotating toy 1 contacts the ground, the rotating tip 110 floats upwards at the bottom of the rotating body 10, and when the rotating tip 110 floats upwards relative to the rotating body 10, the latch 334 is triggered to unlock, that is, when the rotating tip 110 is collided with the outside, the latch 334 is triggered, so that the latch 334 is unlocked, the self-locking push plate 331 slides outwards, and further releases the centrifugal flail 321, but since the rotating speed of the rotating body 10 is higher, the gravity center portion 3211 of the centrifugal flail 321 is in a separated state under the effect of centrifugal force, so that the latch 334 is triggered to unlock by the collision of the rotating tip 110, and preparation for the next deformation of the rotating toy 1 is made, meanwhile, the lock catch 334 is automatically triggered when the child plays, so that the playing experience is better.

In some alternative examples, the locking mechanism 310 includes a rotating disc 313, the rotating disc 313 is rotatably disposed on the rotating body 10, and a locking portion 3131 and a matching portion 3132 are disposed on the rotating disc 313; a second elastic member 314, the second elastic member 314 being connected between the rotating body 10 and the rotating disc 313 to drive the rotating disc 313 to rotate toward the direction in which the locking part 3131 locks the functional element 20; when the centrifugal swing block 321 presses the matching portion 3132, the rotating disc 313 is pushed to rotate toward the direction of the locking portion 3131 unlocking the functional element 20.

As shown in fig. 13 to 16, in some alternative examples, the locking mechanism 310 includes a rotary plate 313 and a second elastic member 314, the rotary plate 313 is rotatably provided on the rotary body 10, a locking portion 3131 and a matching portion 3132 are provided on the rotary plate 313, specifically, the rotary plate 313 is formed in an annular structure and is rotatably connected to the rotary body 10, the locking portion 3131 includes at least two locking portions 3131 in pairs, and the two locking portions 3131 are oppositely provided on the rotary plate 313.

Further, the matching portion 3132 is used to match with the centrifugal swing block 321, the second elastic element 314 is connected between the rotating body 10 and the rotating disc 313, when the rotation speed of the functional rotary toy 1 is greater than the set rotation speed, the centrifugal swing block 321 is swung away under the centrifugal action, the matching portion 3132 is separated from the centrifugal swing block 321, the locking mechanism 310 is released, the locking mechanism 310 drives the rotating disc 313 to rotate toward the direction of the locking portion 3131 locking the unfolding member under the elastic force of the second elastic element 314, wherein, when the rotation speed of the functional rotary toy 1 is less than the set rotation speed, the centrifugal swing block 321 is drawn together under the attraction of its own gravity and magnetic force, and at this time, the centrifugal swing block 321 is connected with the matching portion 3132 in a matching manner, so that when the centrifugal swing block 321 presses the matching portion 3132, the rotating disc 313 is pushed to rotate toward the direction of the locking portion 3131 unlocking the unfolding member.

It should be noted that the rotator 10 is further provided with a function 20 (that is, the function 20 is a bracket 43), the function 20 includes two paired functions and is oppositely disposed on the outer peripheral wall of the rotator 10, the locking portion 3131 is provided with a concave portion 3131a, the upper end of the function 20 is in fit connection with the concave portion 3131a to lock the function 20, and when the upper end of the function 20 is disengaged from the concave portion 3131a, the function 20 rotates under the action of the torsion spring, and the function 20 is unfolded to the outside of the rotator 10.

Therefore, the centrifugal throwing block 321, the rotary table 313 and the second elastic element 314 are used for locking or releasing the unfolding element, so that the functional rotary toy 1 can be independently and automatically deformed in the rotating process, uncertain surprise experience is brought to a player, and the playing interest is greatly improved.

Furthermore, a notch is formed in the inner peripheral wall of the turntable 313, a matching inclined surface is formed on one side of the notch in the direction surrounding the rotation axis, the matching inclined surface forms a matching portion 3132, a driving inclined surface 3212 matched with the matching inclined surface is formed on the centrifugal throwing block 321, the driving inclined surface 3212 is consistent with the inclination direction of the matching inclined surface, and the turntable 313 is further pushed to rotate when the driving inclined surface 3212 is in contact fit with the matching inclined surface.

Specifically, the matching portion 3132 is used to match with the driving inclined surface 3212, when the rotation speed of the toy 1 is greater than a first set rotation speed, the centrifugal thrower 321 is thrown away under the centrifugal action, at this time, the driving inclined surface 3212 draws close to the inner side of the rotating disc 313, the matching portion 3132 is separated from the driving inclined surface 3212, the locking mechanism 310 is released, when the rotation speed of the toy 1 is less than the first set rotation speed, the centrifugal thrower 321 draws close to each other under the attraction of its own gravity and magnetic force, so that the centrifugal thrower 321 presses the matching portion 3132, at this time, the driving inclined surface 3212 is matched and connected with the matching portion 3132, and the rotating disc 313 is driven to rotate towards the direction that the locking portion 3131 unlocks the unfolding member. Through the driving inclined plane 3212 of the centrifugal swing block 321 matching with the matching part 3132, the locking mechanism 310 can be released or driven to rotate, and then the unfolding piece is released or locked, so that the matching structure is very simple.

As shown in fig. 11 and 12, according to an embodiment of the present invention, the function element 20 includes a turning element 41, wherein the turning element 41 is disposed at the bottom of the outer side of the rotating body, the turning element 41 is locked by the locking device 30 in a normal state, and the turning element 41 rotates relative to the rotating body 10 and expands outward after the locking device 30 is unlocked, so that the function rotating toy 1 realizes the effect of turning in the air, and provides a surprise play experience for the player.

According to the utility model discloses a further embodiment, rotatory toy of function 1 still includes delay device 5, delay device 5 links to each other with latch device 30 and function piece 20 respectively, and delay device 5 constructs into the unblock action of delaying latch device 30 to function piece 20, if there is not delay device 5, when rotatory toy of function 1 takes place to empty the upset, probably because two function pieces 20 of rotator 10 have not opened and lead to the rotatory toy of function 1 not stand steadily easily to empty completely, can avoid this kind of condition to take place effectively through addding delay device 5.

Specifically, the delaying device 5 is used for delaying the unlocking action of the locking device 30 on the functional element 20, so that the unlocking action of the locking device 30 on the functional element 20 becomes slow, that is, after the two functional elements 20 of the functional rotary toy 1 are completely opened, the functional element 20 rotates, the functional rotary toy 1 is ensured to be turned over again on the premise of stable standing, and the problem that the functional rotary toy 1 is easy to topple over when the functional rotary toy 1 is directly turned over without delay is effectively solved.

Further, the delay device 5 includes an unlocking plate 51, an unlocking gear 52 and an energy storage mechanism 53, the unlocking plate 51 is slidably disposed in the rotating body 10 between an initial position and an unlocking position, the unlocking plate 51 is maintained at the initial position when the locking device 30 is locked, the unlocking plate 51 can lock the functional element 20 at the initial position, the functional element 20 is maintained in a folded state, the unlocking plate 51 releases the functional element 20 at the unlocking position, an unlocking rack 512 is disposed on one side of the unlocking plate 51, the unlocking gear 52 is engaged with the unlocking rack 512, the energy storage mechanism 53 is connected to the unlocking gear 52, the energy storage mechanism 53 stores energy when the unlocking plate 51 slides from the unlocking position to the initial position, and the energy storage mechanism 53 can drive the unlocking plate 51 to slide towards the unlocking position.

Specifically, the unlocking gear 52 is connected with the output end of the energy storage mechanism 53, one side of the outer wall of the unlocking plate 51 is provided with an unlocking hook edge 511, one side of the inner wall of the unlocking plate 51, which is far away from the unlocking hook edge 511, is provided with an unlocking rack 512, the unlocking rack 512 is used for being meshed with the unlocking gear 52, the unlocking hook edge 511 is positioned at the end 513 of the unlocking plate 51, the end of the unlocking plate 51 far from the unlocking hook edge 511 can contact with the functional element 20, the locking device 30 is matched with the upper end of the functional element 20, at this time, the functional element 20 is in a folded state, the unlocking plate 51 is pushed and locked to an initial position when the functional element 20 is in the folded state, in the initial position state, the energy storage mechanism 53 is in an energy storage state, the unlocking hook edge 511 and the sliding plate 50 in the rotating body 10 (the sliding plate 50 is connected with the third elastic element 520, and both the sliding plate 50 and the third elastic element 520 are connected with the rotating body 10) are in a remote state, and the functional element 20 is folded at the bottom of the rotating body 10 by the clamping of the sliding plate 50.

The locking device 30 releases the upper end of the functional element 20, at this time, the functional element 20 is unfolded towards the outer side of the rotating body 10 under the action of the torsion spring, the functional element 20 releases the limitation on the unlocking plate 51, further, when the energy storage mechanism 53 releases energy, the unlocking gear 52 is driven to rotate through the output end, the unlocking gear 53 further drives the unlocking plate 51 to slide towards the unlocking position through the unlocking rack 512 meshed with the unlocking gear 53,the unlocking hook 511 interacts with the protrusion 510 of the slide 50 during the sliding process to move the slide 50 toward the third elastic member 520 Is displaced in the direction of (a) of (b),until the sliding plate 50 is separated from the functional part 20, the functional part 20 rotates outwards under the action of the torsion spring.

Like this, through energy storage mechanism 53, unblock gear 52 and the mutually supporting of unblock board 51, energy storage mechanism 53 energy storage when sliding towards initial position by the unblock position, energy storage mechanism 53 energy storage, when locking device 30 unblock function piece 20, energy storage mechanism 53 release can be used for driving unblock board 51 to slide towards the unblock position, release function piece 20, the process of energy storage mechanism 53 drive unblock board 51 makes the rotatory toy of function 1 realize postponing the upset, and then avoid the phenomenon that the rotatory toy of function 1 emptys easily when the upset to take place, make the upset of the rotatory toy of function 1 warp more stably, further guarantee the reliability and the interest of the play of toy.

According to the utility model discloses optional embodiment, function piece 20 can be at least one of sound production piece, for example the multiple sound effect that can trigger, multiple music, pronunciation etc., the reinforcing sense of hearing is experienced, also can be at least one of light-emitting piece, trigger multiple light response effect promptly, the light of different colours promptly, promote player's visual perception, also can be at least one of action piece, if can warp in the twinkling of an eye, the bounce, action such as transmission, both can be for the expansion piece that takes place to warp, also can be for the emitter of transmission etc., bring multiple amazing, fresh experience for the player.

Further, the function member 20 includes a plurality of operation members configured to be sequentially unfolded when the locker 30 is activated, and of two operation members adjacent to each other in the unfolding order, a first unfolded operation member is used to lock a second unfolded operation member, and a first unfolded operation member is locked by the locker 30.

Specifically, when the locking device 30 is triggered, two action members located on the outer peripheral wall of the bottom of the rotating body 10 are firstly unfolded, then the action member at the bottom of the rotating body 10 is triggered, so that the action member at the bottom is unfolded to realize the emptying and turning of the functional rotary toy 1, the action member above the rotating body 10 is further triggered by the swing rod 426 to be further unfolded while the action member at the bottom is rotated outwards, the action member above the spinning top is sequentially unfolded under the triggering of the adjacent previous sequential action member, the previous unfolded action member is used for locking the later unfolded action member, the plurality of action members are sequentially and annularly buckled with each other, as long as the locking device 30 triggers the first unfolded action member, the later action members are sequentially unfolded, so that on one hand, the structure is simple, the layout is compact, and on the other hand, in the sequential outward unfolding process of the action members, a player can observe the deformation process of the functional rotary toy 1, has a surprising and pleasant sensory experience.

For example, the acting element is a deforming element 42, the deforming element 42 may include an outer fin element 422, an inner fin element 423, a rear fin element 421 and a head element 424, the reversing element 41 locks the rear fin element 421 through a swing rod 426, the rear fin element 421 locks the outer fin element 422, an outer fin baffle 4221 is disposed on the outer fin element 422 to stop locking the inner fin element 423, an inner fin baffle 4231 is disposed on the inner fin element 423 to lock the head element 424, the reversing element 41 triggers the rear fin element 421 after unlocking, so that the rear fin element 421 tilts upwards under the action of its own torsion spring, so as to release the blocking of the outer fin baffle 4221, the outer fin element 422 opens outwards under the action of its own torsion spring, so as to further release the blocking of the inner fin element, the inner fin element 423 unlocks after unlocking, the trigger head element 424 pushes the face shell 44 forwards, so that the deforming element 42 is triggered as long as the reversing element 41 unlocks, and a good playing experience is achieved.

It should be noted that an antenna 425 may also be provided on the head member 424, and after the head member 424 is triggered to move forward, the antenna 425 extends out, thus making the toy more visible after deformation.

It should be noted that, the rotating body 10 is detachably connected to the functional element 20, the functional element 20 is provided with the mounting hole 45, the mounting hole 45 is configured as a through hole through which the first hole body 451 is communicated with the second hole body 452, and the size of the first hole body 451 is larger than that of the second hole body 452, so that the hook on the rotating body 10 firstly extends into the first hole body 451, and then the functional element 20 is rotated to make the hook be clamped at the edge of the second hole body 452, so that the rotating body 10 is connected to the functional element 20 in a matching manner.

The functional rotary toy 1 will be described below according to a specific embodiment of the present invention, in which a deformation top and a launching top are exemplified.

The specific structure of the deformation top according to an embodiment of the present invention is specifically described as shown in fig. 1 to 21.

The deformable top of the present embodiment has two states, fig. 1 shows a normal rotation state and a folded state of the unfolding part, fig. 3 shows a deformed state of the functional part 20 being unfolded, wherein the unfolding part is the functional part 20, and the top body is the rotating body 10.

As shown in fig. 1 to 4, the deformation top of the present embodiment includes a top body, an unfolding member, and a locking device 30.

Specifically, the unfolding part is arranged on the gyroscope body, the unfolding part has two states of folding and unfolding, the unfolding part is kept in the folding state when being locked, at the moment, the deformed gyroscope is formed into a revolving body, for example, the deformed gyroscope can be in a vertical egg shape, a spherical shape and the like, the unfolding part is in the opening state when being released, at the moment, the deformed gyroscope is formed into a cartoon shape, specifically, the unfolding part is locked or released through the locking device 30, when the rotating speed of the gyroscope body is greater than a set rotating speed, the locking device 30 locks the unfolding part, and when the rotating speed of the gyroscope body is reduced to be less than the set rotating speed or is stopped, the locking device 30 releases the unfolding part.

The locking device 30 includes a locking mechanism 310, a centrifugal locking mechanism 320, and a self-locking mechanism 330. The locking mechanism 310 is used for locking the unfolding part, the self-locking mechanism 330 is matched with the centrifugal latch mechanism 320 to lock the centrifugal latch mechanism 320, and the self-locking mechanism 330 releases the centrifugal latch mechanism 320 after being triggered.

The centrifugal latch mechanism 320 includes two centrifugal swing blocks 321 swingably disposed on the top body, and two first magnetic attraction pieces, each centrifugal swing block 321 has a gravity center portion 3211, and the first magnetic attraction pieces 322 are disposed on the centrifugal swing blocks 321 to drive the gravity center portion 3211 to swing toward the rotation axis. When the top body rotates, the center of gravity portion 3211 may swing toward or away from the rotation axis of the top body. When the rotation speed of the spinning top body decreases to the set rotation speed, the centrifugal swing block 321 triggers the locking mechanism 310, and when the rotation speed of the spinning top body is greater than the set rotation speed, the centrifugal swing block 321 releases the locking mechanism 310.

The locking mechanism 310 includes a rotation plate 313 and a second elastic member 314 respectively engageable with the two centrifugal throwers 321, the rotation plate 313 is provided with a locking portion 3131 and an engaging portion 3132, the rotation plate 313 is rotatably disposed on the top body, the centrifugal thrower 321 is provided with a driving inclined surface 3212 engaged with the engaging portion 3132, when the centrifugal thrower 321 is pressed into the notch, the driving inclined surface 3212 drives the rotation plate 313 to rotate in a direction of unlocking the unfolding member by the locking portion 3131, and when the driving inclined surface 3212 of the centrifugal thrower 321 is disengaged from the engaging portion 3132, the second elastic member 314 drives the rotation plate 313 to rotate in a direction of locking the unfolding member by the locking portion 3131.

The locking mechanism 310 further includes a sliding plate 50, the sliding plate 50 extends upwards along the inner wall of the spinning top body, two ends of the sliding plate 50 extend to the support 43, when the rotating disc 313 moves towards the direction of unlocking the support 43, the support 43 is unfolded and the upper end of the support 43 abuts against the end 513 of the sliding plate 50, an inclined slope is provided on the side of the end 513, so as to facilitate the upper end of the support 43 to slide downwards to cooperate with the end 513, and further push the sliding plate 513 to move towards the direction of compressing the third elastic element 520, so as to further unlock the flip element 41, and the flip element 41 rotates around the spinning top body.

The self-locking mechanism 330 includes a self-locking push plate 331, a first elastic member 322, and a lock catch 334. The self-locking push plate 331 is slidably arranged in the gyroscope body between a self-locking position and an unlocking position, the self-locking push plate 331 pushes the centrifugal throw block 321 to enable the gravity center portion 3211 to be far away from the rotation axis when the self-locking push plate 331 is in the self-locking position, the centrifugal throw block 321 is released by the self-locking push plate 331 when the self-locking push plate 331 is in the unlocking position, the first elastic piece 322 is connected between the gyroscope body and the self-locking push plate 331 to push the self-locking push plate 331 towards the unlocking position, the lock catch 334 is used for locking the self-locking push plate 331 in the self-.

The unfolding piece comprises a turnover piece 41, a deformation piece 42 and a support 43, the locking device 30 is used for locking and unlocking the support 43, the support 43 is used for supporting feet of the gyro body after being unfolded, the locking device 30 is used for locking or unlocking the turnover piece 41, in a normal state, the locking device 30 locks the turnover piece 41, the locking device 30 unlocks the turnover piece 41 and rotates around the gyro body to realize the emptying and turnover of the deformation gyro, and after the turnover piece 41 rotates, the camshaft 411 triggers the deformation piece 42 to deform.

The deformation gyro provided by the embodiment of the utility model is pushed and pressed by hand before the deformation gyro is launched when playing, if the deformation gyro is not in the storage state, so that the deformation gyro is in the storage state, the gravity center parts 3211 of the two centrifugal throwing blocks 321 in pairs are in the separation state, after preparation is made, the deformation gyro is launched, the deformation gyro rotates on the ground at a high speed at the moment, the rotating speed of the gyro body is greater than the set rotating speed, the lock catch 334 releases the self-locking push plate 331 under the action of centrifugal force or after collision triggering, the gravity center parts 3211 of the two centrifugal throwing blocks 321 in pairs are still in the separation state under the action of larger centrifugal force, the rotation speed of the deformation gyro is gradually reduced along with the rotation process until the rotation speed is less than the set rotating speed, at the moment, because the action of the centrifugal 321force is weakened, the gravity center parts 3211 of the two centrifugal throwing blocks 321 are gradually drawn together, the driving inclined plane 3212 of the centrifugal swing block 321 and the matching portion 3132 of the turntable 313 are matched to drive the turntable 313 to rotate, the upper end of the bracket 43 is released, the bracket 43 is opened outwards under the action of the torsion spring of the bracket 43, the foot support of the deformation gyroscope is formed, meanwhile, the upper end of the bracket 43 abuts against the end 513 of the sliding plate 50, the sliding plate 50 is further pushed to move in the direction of compressing the third elastic element 520, the overturning element 41 is further unlocked, the overturning element 41 rotates around the rotating shaft under the action of the torsion spring of the bracket 41, and the emptying and overturning of the deformation gyroscope are achieved.

The turning member 41 can trigger the swing rod 426 after turning, the swing rod 426 unlocks the rear wing member 421, and then the outer wing member 422, the inner wing member 423 and the head member 424 are sequentially unfolded, so that a player can observe a series of deformation processes of the deformation gyroscope and feel surprise experience brought by the deformation gyroscope when playing. Finally, when the toy is not played or the toy is in a standing state, the self-locking push plate 31 can be manually pushed and pressed, so that the deformation top is in a storage state.

A detailed structure of a deformation top according to another embodiment of the present invention is specifically described as shown in fig. 1 to 27.

As shown in fig. 22 to 27, the deformation top of the present embodiment includes a top body, a deployment member, a locking device 30, and a delaying device 5.

The centrifugal latch mechanism 320 includes two centrifugal swing blocks 321 swingably disposed on the top body, and two first magnetic attraction pieces 322, each centrifugal swing block 321 has a gravity center portion 3211, and the first magnetic attraction pieces 322 are disposed on the centrifugal swing block 321 to drive the gravity center portion 3211 to swing toward the rotation axis. When the top body rotates, the center of gravity portion 3211 may swing toward or away from the rotation axis of the top body. When the rotation speed of the spinning top body decreases to the set rotation speed, the centrifugal swing block 321 triggers the locking mechanism 310, and when the rotation speed of the spinning top body is greater than the set rotation speed, the centrifugal swing block 321 releases the locking mechanism 310.

The locking mechanism 310 includes a rotation plate 313 and a second elastic member 314 respectively engageable with the two centrifugal throwers 321, the rotation plate 313 is provided with a locking portion 3131 and an engaging portion 3132, the rotation plate 313 is rotatably disposed on the top body, the centrifugal thrower 321 is provided with a driving inclined surface 3212 engaged with the engaging portion 3132, when the centrifugal thrower 321 is pressed into the notch, the driving inclined surface 3212 drives the rotation plate 313 to rotate in a direction of the locking portion 3131 unlocking the unfolding member, and when the driving inclined surface 3212 of the centrifugal thrower 321 is disengaged from the engaging portion 3132, the second elastic member 314 drives the rotation plate to rotate in a direction of the locking portion 3131 locking the unfolding member.

The self-locking mechanism 330 includes a self-locking push plate 331, a first elastic member 322, and a lock catch 334. The self-locking push plate 331 is slidably arranged in the gyroscope body between a self-locking position and an unlocking position, the self-locking push plate 331 pushes the centrifugal throw block 321 to enable the gravity center portion 3211 to be far away from the rotation axis when the self-locking push plate 331 is in the self-locking position, the centrifugal throw block 321 is released by the self-locking push plate 331 when the self-locking push plate 331 is in the unlocking position, the first elastic piece 322 is connected between the gyroscope body and the self-locking push plate 331 to push the self-locking push plate 331 towards the unlocking position, the lock catch is used for locking the self-locking push plate 331 in the self-.

The delay device 5 is connected between the locking device 30 and the unfolding part and used for delaying the unlocking action of the locking device 30 on the unfolding part, wherein the delay device 5 comprises an unlocking plate 51, an unlocking gear 52 and an energy storage mechanism 53, the unlocking plate 51 is slidably arranged in the gyro body between an initial position and an unlocking position, the energy storage mechanism 53 stores energy when the unlocking plate 51 slides from the unlocking position to the initial position, the energy storage mechanism 53 drives the unlocking plate 51 to slide towards the unlocking position when releasing energy, the locking device 30 locks the unlocking plate 51 at the initial position and further locks the unfolding part, and the unlocking plate 51 releases the unfolding part when unlocking the position.

The locking mechanism 310 further comprises a sliding plate 50, one side of the sliding plate 50 is provided with a convex portion 510, one side of the unlocking plate 51 facing the convex portion 510 is provided with an unlocking hook edge 511, when the locking device unlocks the unfolding member, the energy storage mechanism 53 releases energy to drive the unlocking plate 51 to slide towards an unlocking position, and when the unlocking hook edge 511 and the convex portion 510 interact, the unlocking plate 51 can push the sliding plate 50 to slide, so that the turnover member 41 is released, and the turnover member 41 rotates around the top body.

The deformation gyro provided by the embodiment of the utility model is pushed and pressed by hand before the deformation gyro is launched when playing, if the deformation gyro is not in the storage state, so that the deformation gyro is in the storage state, the gravity center parts 3211 of the two centrifugal throwing blocks 321 in pairs are in the separation state, after preparation is made, the deformation gyro is launched, the deformation gyro rotates on the ground at a high speed at the moment, the rotating speed of the gyro body is greater than the set rotating speed, the lock catch 334 releases the self-locking push plate 331 under the action of centrifugal force or after collision triggering, the gravity center parts 3211 of the two centrifugal throwing blocks 321 in pairs are still in the separation state under the action of larger centrifugal force, the rotation speed of the deformation gyro is gradually reduced along with the rotation process until the rotation speed is less than the set rotating speed, at the moment, because the action of the centrifugal 321force is weakened, the gravity center parts 3211 of the two centrifugal throwing blocks 321 are gradually drawn together, the driving inclined plane 3212 of the centrifugal swing block 321 is matched with the matching portion 3132 of the rotating disc 313 to drive the rotating disc 313 to rotate, the upper end of the support 43 is released, the support 43 can be opened outwards under the action of the torsion spring of the support to form a foot support of the deformed gyroscope, meanwhile, the energy storage mechanism 53 releases energy to drive the unlocking plate 51 to slide from the unlocking position to the unlocking position, the overturning piece 43 is unlocked, the overturning piece 41 rotates after the support 43 is completely opened and stands stably, and the emptying and overturning of the deformed gyroscope are achieved.

The turning member 41 can trigger the swing rod 426 after turning, the swing rod 426 unlocks the rear wing member 421, and then the outer wing member 422, the inner wing member 423 and the head member 424 are sequentially unfolded, so that a player can observe a series of deformation processes of the deformation gyroscope and feel surprise experience brought by the deformation gyroscope when playing. Finally, when the toy is not played or the toy is in a standing state, the self-locking push plate 331 can be manually pushed and pressed, so that the deformation top is in a storage state.

A specific structure of a transmitting gyro according to still another embodiment of the present invention will be described with reference to fig. 28 to 33.

The launching gyro of the present embodiment has two states, fig. 28 shows a normal rotation state, fig. 29 shows a state where the top cover 40 is opened and the toy body 2 flies out, wherein the launching device in the present embodiment is the function member 20 and the gyro body is the rotating body 10.

As shown in fig. 3 to 6, the launching gyro of the present embodiment includes a gyro body, a launching device, a locker 30, and a gyro top cover 40.

The launching device is arranged in the gyroscope body and comprises a launching head 210 used for launching the toy body 2, the launching head 210 is provided with an initial position and a launching position, the launching head 210 is kept at the initial position when the launching device is in a locking state, the launching device can drive the launching head 210 to move towards the launching position when the launching device is in a releasing state so as to apply ejection force to the toy body 2, the locking device 30 is arranged on the gyroscope body, the locking device 30 locks the launching device when the rotating speed of the gyroscope body is larger than a set rotating speed, and the locking device 30 releases the launching device when the rotating speed of the gyroscope body is reduced to the set rotating speed.

The locker 30 includes a locking mechanism 310, a centrifugal locker mechanism 320, a self-locking mechanism 330, and a locking plate 340. The locking mechanism 310 is used for locking the launching device, the self-locking mechanism 330 is matched with the centrifugal latch mechanism 320 to lock the centrifugal latch mechanism 320, and the self-locking mechanism 330 releases the centrifugal latch mechanism 320 after being triggered.

The centrifugal latch mechanism 320 includes two centrifugal thrower 321 swingably disposed on the top body, two first magnetic attraction pieces 322 and two second magnetic attraction pieces 323, each centrifugal thrower 321 has a gravity center portion 3211, and the first magnetic attraction pieces 322 are disposed on the centrifugal thrower 321 to drive the gravity center portion 3211 to swing toward the rotation axis. The second magnetic element 323 is disposed on the top body and between the centrifugal swing block 321 and the rotation axis. When the top body rotates, the center of gravity portion 3211 may swing toward or away from the rotation axis of the top body. When the rotation speed of the spinning top body decreases to the set rotation speed, the centrifugal swing block 321 triggers the locking mechanism 310, and when the rotation speed of the spinning top body is greater than the set rotation speed, the centrifugal swing block 321 releases the locking mechanism 310.

The locking mechanism 310 includes a first locking member 311 and a second locking member 312 which are respectively matched with the two centrifugal swing blocks 321, the first locking member 311 includes a first trigger member 3111 and a first spring 3112, the first trigger member 3111 is rotatably arranged on the top body, one end of the first trigger member 3111 is formed into a hook 3111a, a first spring 3112 is arranged between the other end and the top body, and a clamping groove matched with the hook 3111a is arranged on the launching device. The second locking link 312 includes a second trigger 3121, a locking piece 3122, and a second spring 3123, the second trigger 3121 is connected to the locking piece 3122, the locking piece 3122 is slidably provided on the gyro body, and has a locking position to lock the transmission device and a releasing position to release the transmission device, the second trigger 3121 is formed as a lever, the second trigger 3121 is rotatably provided on the gyro body, the second spring 3123 is provided between one end of the second trigger 3121 and the gyro body, the locking piece 3122 has a locking piece 3122a, the locking piece 3122a is engaged with the transmission device to lock the transmission device at the locking position, and the locking piece 3122a is disengaged from the transmission device to release the transmission device at the releasing position.

The self-locking mechanism 330 includes a self-locking push plate 331, a first elastic member 322, and an unlocking member 333. The self-locking push plate 331 is slidably arranged in the gyroscope body between a self-locking position and an unlocking position, the self-locking push plate 331 pushes the centrifugal throw block 321 to enable the gravity center portion 3211 to be far away from the rotation axis when the self-locking push plate 331 is in the self-locking position, the centrifugal throw block 321 is released by the self-locking push plate 331 when the self-locking push plate 331 is in the unlocking position, the first elastic piece 322 is connected between the gyroscope body and the self-locking push plate 331 to push the self-locking push plate 331 towards the unlocking position, the unlocking piece 333 is used for locking the self-locking push plate 331 in the self-locking position.

The locking plate 340 is slidably disposed on the top body, the locking plate 340 cooperates with the top cover 40 to lock the top cover 40 in the closed state, the transmitting device pushes the locking plate 340 to slide in a direction away from the top cover 40 when releasing, and the fourth elastic member is connected between the top body and the locking plate 340 to keep the locking plate 340 cooperating with the top cover 40.

The launching device comprises a middle shaft body 220, a launching elastic element 240 and a rotating elastic element 240, wherein an upward open installation cavity is defined in the middle shaft body 220, a launching head 210 is arranged in the installation cavity, a first locking element 311 and a second locking element 312 are locked on the middle shaft body 220, and the launching elastic element 240 is connected between the spinning top body and the middle shaft body 220 so as to launch the middle shaft body 220 upwards. The rotation elastic member 240 is connected between the middle shaft body 220 and the launching head 210 to allow the launching head 210 to rotate the toy body 2.

The top body includes a top pin 110 disposed at the bottom in a vertically floating manner, and the unlocking member 333 is triggered when the top pin 110 moves upward relative to the top body. The elastic arm 120 is formed on the top body around the emitting head 210, and the extending direction of the elastic arm 120 in the circumferential direction is the same as the extending direction of the rotating elastic member 240 to prevent the emitting head 210 from being reversed. The locking plate 340 is provided with a claw 341, and the top cover 40 is provided with a clamping hole 410 matched with the claw 341.

The top cover 40 is rotatably connected to the top body between an open state and a closed state, the top cover 40 encloses the transmitter in the closed state, and the top cover 40 rotates to the open state when the transmitter is released.

The play of the launching gyro of the present embodiment is as follows:

before launching the launching gyro, the top cover 40 is opened and the toy body 2 is twisted on the launching head 210 in the middle shaft body 220, so that the rotating elastic member 240 is in an energy storage state, it should be noted that the twisting direction of the toy body 2 should be the same as the extending direction of the elastic arm 120, then the top cover 40 is covered and the self-locking push plate 331 is pressed down to move from the unlocking position to the self-locking position, the gravity center parts 3211 of the two centrifugal flappers 321 are kept at the position far away from the rotation shaft of the gyro body under the action of the self-locking push plate 331, at this time, due to the locking action of the unlocking piece 333, the self-locking plate is locked at the self-locking position, so that the gravity center part 3211 of the centrifugal flappers 321 cannot move by itself, and meanwhile, the locking mechanism 310 cannot receive triggering, and can better lock the middle shaft body 220.

After the preparation, the player can use the gyro launcher to accelerate the launching gyro, and the phenomenon that the toy body 2 is launched due to the fact that the locking mechanism 310 is triggered in the acceleration process cannot occur due to the unlocking locking function, namely, the player accelerates the launching gyro for multiple times at the moment, so that the initial rotating speed of the launching gyro is fast to improve the fighting capacity.

When a player uses the launcher to launch the launching gyroscope, at the moment when the launching gyroscope lands, the gyroscope needle 110 is impacted by the ground and retracts upwards to trigger the unlocking piece 333 to release the self-locking push plate 331, so that the self-locking push plate 331 returns to the unlocking position, and at this moment, the centrifugal flappers 321 can swing freely, but because the rotation speed of the gyroscope body is higher and the centrifugal action on the centrifugal flappers 321 is greater, the centrifugal flappers 321 can still keep still, but the centrifugal action on the centrifugal flappers 321 gradually decreases with the decrease in the rotation speed of the gyroscope body, when the rotation speed of the centrifugal flappers 321 decreases to be less than a set speed, the two centrifugal flappers 321 swing towards the direction close to the rotation axis of the gyroscope body under the action of gravity and the corresponding suction force of the first magnetic attraction piece 322 and the second magnetic attraction piece 323, and when one centrifugal flappers 321 triggers the first trigger piece 3111, according to the lever principle, the hook 3111a of the first trigger 3111 is to be disengaged from the slot of the middle shaft 220; when the other centrifugal swing block 321 triggers the second trigger member 3121, according to the lever principle, the second trigger member 3121 pushes the locking member 3122 to slide, so that the locking block 3122a on the locking member 3122 is disengaged from the middle shaft body 220. Therefore, the first locking piece 311 and the second locking piece 312 both release the middle shaft body 220, the middle shaft body 220 moves upwards under the action of the launching elastic piece 240, the middle shaft body 220 moves upwards and pushes the locking plate 340 to move, so that the clamping claws 341 on the locking plate 340 are disengaged from the clamping holes 410 of the top cover 40, meanwhile, the top cover 40 is opened, and the toy body 2 is upwards ejected out of the launching top and continues to rotate under the combined action of the middle shaft body 220 moving upwards and the rotating elastic piece 240.

Other configurations and operations of the functional rotary toy 1 according to the embodiment of the present invention are known to those skilled in the art and will not be described in detail herein.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims

1. A functional rotary toy, comprising:

a rotating body;

the functional piece is arranged on the rotating body and rotates along with the rotating body;

the locking device is arranged on the rotating body and rotates along with the rotating body, and the locking device is configured to lock the functional piece when the rotating speed of the rotating body is greater than a first set rotating speed and trigger the functional piece when the rotating speed of the rotating body is reduced to the first set rotating speed.

2. The functional rotary toy of claim 1, wherein the locker comprises:

a locking mechanism for locking the function;

the centrifugal locking mechanism comprises a centrifugal throwing block which is arranged on the rotating body in a swinging mode, the centrifugal throwing block is provided with a gravity center part, and when the rotating body rotates, the gravity center part swings towards or away from the rotating axis of the rotating body under the action of gravity or centrifugal force;

when the rotating speed of the rotating body is greater than the first set rotating speed, the centrifugal block-throwing block releases the locking mechanism, and when the rotating speed of the rotating body is reduced to the first set rotating speed, the centrifugal block-throwing block triggers the locking mechanism.

3. The functional rotary toy of claim 2, wherein the centrifugal latch mechanism comprises: the first magnetic attraction piece is arranged on the centrifugal throwing block to drive the gravity center part to swing towards the rotation axis.

4. The functional rotary toy of claim 3, wherein the centrifugal latch mechanism comprises: the second magnetic attraction piece is arranged on the rotating body and is positioned between the centrifugal throwing block and the rotating axis.

5. The rotating functional toy of claim 3, wherein the centrifugal locking mechanism includes a plurality of centrifugal throwers, at least two centrifugal throwers being arranged in pairs, two centrifugal throwers in pairs being arranged in a central symmetry with respect to the axis of rotation, two centrifugal throws in pairs being attracted to each other by the first magnetic attraction.

6. The functional rotary toy of claim 2, wherein the locker comprises: the self-locking mechanism is matched with the centrifugal locking mechanism to lock the centrifugal locking mechanism, and the self-locking mechanism releases the centrifugal locking mechanism after being triggered.

7. The functional rotary toy of claim 6, wherein the self-locking mechanism comprises:

the self-locking push plate is slidably arranged in the rotating body between a self-locking position and an unlocking position, the self-locking push plate pushes the centrifugal throw block to enable the gravity center part to be far away from the rotating axis when the self-locking position is realized, and the self-locking push plate releases the centrifugal throw block when the unlocking position is realized;

the first elastic piece is connected between the rotating body and the self-locking push plate to push the self-locking push plate towards the unlocking position.

8. The functional rotary toy of claim 7, wherein the self-locking mechanism comprises: and the lock catch is used for clamping the self-locking push plate in the self-locking position, and the lock catch releases the self-locking push plate under the action of centrifugal force or after collision triggering.

9. The functional rotary toy according to claim 8, further comprising: the rotating tip can be arranged at the bottom of the rotating body in a vertically floating mode, and when the rotating tip floats upwards relative to the rotating body, the lock catch can be triggered to be unlocked.

10. The functional rotary toy of claim 2, wherein the locking mechanism comprises:

the rotary disc is rotatably arranged on the rotating body, and a locking part and a matching part are arranged on the rotary disc;

the second elastic piece is connected between the rotating body and the rotating disc so as to drive the rotating disc to rotate towards the direction that the locking part is locked with the functional piece; wherein,

when the centrifugal swing block presses the matching part, the rotary disc can be pushed to rotate towards the direction that the locking part unlocks the functional piece.

11. The functional rotary toy according to claim 10, wherein a notch is provided on an inner peripheral wall of the turntable, the notch is provided with a fitting inclined surface on one side in a direction around the rotation axis, the fitting inclined surface constitutes the fitting portion, and the centrifugal thrower is provided with a driving inclined surface that is fitted with the fitting inclined surface.

12. The functional rotary toy according to claim 1, wherein the functional member includes: the overturning part is arranged at the bottom of the rotating body and locked by the locking device, and after the locking device is unlocked, the overturning part rotates relative to the rotating body to enable the functional rotating toy to be emptied and overturned.

13. The functional rotary toy according to claim 1, further comprising: the delay device is respectively connected with the locking device and the functional piece, and the delay device is configured to delay the unlocking action of the locking device on the functional piece.

14. The functional rotary toy of claim 13, wherein the delay means comprises:

the unlocking plate is slidably arranged in the rotating body between an initial position and an unlocking position, the unlocking plate is kept at the initial position when the locking device is locked, the functional piece can be locked by the unlocking plate at the initial position, the functional piece is released by the unlocking plate at the unlocking position, and an unlocking rack is arranged on the unlocking plate;

the unlocking gear is meshed with the unlocking rack;

the energy storage mechanism is connected with the unlocking gear, the unlocking plate is stored with energy when sliding towards the initial position from the unlocking position, and the energy storage mechanism drives the unlocking plate to slide towards the unlocking position when releasing energy.

15. The functional rotary toy according to any one of claims 1 to 14, wherein the functional member is at least one of a sound emitting member, a light emitting member, and an action member.

16. The functional rotary toy according to claim 15, wherein the functional member includes a plurality of the operation members configured to be sequentially deployed when the locker is activated, and of two operation members which are sequentially adjacent to each other in the deployment sequence, the operation member which is deployed first is used to lock the operation member which is deployed later, and the operation member which is deployed first is locked by the locker.