CN110270102B

CN110270102B - Functional rotary toy

Info

Publication number: CN110270102B
Application number: CN201810403602.XA
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: 2024-04-05
Anticipated expiration: 2038-04-28
Also published as: CN110270102A

Abstract

The invention discloses a functional rotary toy, which comprises: 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 is configured to lock the functional piece when the rotating speed of the rotating body is larger 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 functional rotary toy disclosed by the embodiment of the invention, the locking device is arranged on the rotary body, and the locking device is used for controlling the triggering of the functional pieces, so that the functional pieces can be triggered when the functional rotary toy is played by a single person or one toy, the functional pieces can be triggered for executing functions, the playing interestingness is strong, and the stimulating and surprise sensory experience is brought to a player.

Description

Functional rotary toy

Technical Field

The invention relates to the technical field of entertainment toys, in particular to a functional rotary toy.

Background

At present, the rotating body functional toy is popular among children, wherein the main functional rotating body toy is a fight deformation top.

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

Disclosure of Invention

The present invention aims to solve at least one of the technical problems existing in the prior art. Therefore, the invention provides the functional rotary toy, which has strong play method interestingness, and the single toy can be deformed and has a simple structure.

A functional rotary toy according to an embodiment of the present invention includes: 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 is configured to lock the functional piece when the rotating speed of the rotating body is larger 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 functional rotary toy disclosed by the embodiment of the invention, the locking device is arranged on the rotary body, and the locking device is used for controlling the triggering of the functional pieces, so that the functional pieces can be triggered when the functional rotary toy is played by a single person or one toy, the functional pieces can be triggered for executing functions, the playing interestingness is strong, and the stimulating and surprise sensory experience is brought to a player.

According to one embodiment of the present invention, the locker includes: a locking mechanism for locking the functional member; the centrifugal locking mechanism comprises a centrifugal throwing block which is arranged on the rotating body in a swinging way, 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; and when the rotating speed of the rotating body is higher than the first set rotating speed, the centrifugal 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 throwing block triggers the locking mechanism.

According to an alternative example of the present invention, the centrifugal latch mechanism includes: 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 alternative example of the present invention, the centrifugal latch mechanism includes: 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 still another optional example of the present invention, the centrifugal lock mechanism includes a plurality of centrifugal slingers, at least two centrifugal slingers are arranged in pairs, the two centrifugal slingers in pairs are arranged in central symmetry with respect to the rotation axis, and the two centrifugal slingers in pairs are attracted to each other by the first magnetic attraction member.

According to still another alternative example of the present invention, the locker includes: 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 triggering.

In some alternative examples, the self-locking mechanism includes: 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 throwing block to enable the gravity center part to be far away from the rotating axis during the self-locking position, and the self-locking push plate releases the centrifugal throwing block during the unlocking position; the first elastic piece is connected between the rotating body and the self-locking push plate so as to push the self-locking push plate towards the unlocking position.

In some alternative examples, the self-locking mechanism includes: the lock catch is used for clamping the self-locking push plate on 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 function rotary toy further includes: the rotating tip is arranged at the bottom of the rotating body in a vertically floating mode, and the lock catch can be triggered to unlock when the rotating tip floats upwards relative to the rotating body.

In some alternative examples, the locking mechanism includes: the rotary table is rotatably arranged on the rotary body and is provided with a locking part and a matching part; the second elastic piece is connected between the rotating body and the rotating disc to drive the rotating disc to rotate towards the direction of locking the functional piece by the locking part; when the centrifugal throwing block presses the matching part, the rotary table can be pushed to rotate towards the direction of unlocking the functional piece by the locking part.

Further, a notch is formed in the inner peripheral wall of the rotary disc, a matching inclined plane is formed in one side, surrounding the rotary axis, of the notch, the matching inclined plane forms the matching part, and a driving inclined plane matched with the matching inclined plane is formed in the centrifugal throwing block.

According to another embodiment of the invention, the function comprises: the turnover piece is arranged at the bottom of the rotating body, the turnover piece is locked by the locking device, and the turnover piece rotates relative to the rotating body after the locking device is unlocked so that the functional rotary toy can empty and turn.

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

Further, the delay device 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 in the initial position, the functional piece is released by the unlocking plate in 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 energy storage mechanism stores energy when the unlocking plate slides from the unlocking position to the initial position, and the energy storage mechanism drives the unlocking plate to slide towards the unlocking position when releasing energy.

According to an alternative embodiment of the present invention, the functional element is at least one of a sound generating element, a light emitting element and an operating element.

Further, the functional element includes a plurality of operating elements, the plurality of operating elements are configured to be sequentially unfolded when the locking device is triggered, and of two operating elements adjacent in the unfolding sequence, the operating element which is unfolded earlier is used for locking the operating element which is unfolded later, and the operating element which is unfolded first is locked by the locking device.

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 foregoing and/or additional aspects and advantages of the invention will become apparent and may be better understood from the following description of embodiments taken in conjunction with the accompanying drawings in 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 function rotary toy according to the 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 schematic view of a portion of a functional rotary toy according to an embodiment of the present invention;

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

FIG. 7 is a schematic view of a portion of the functional elements of a functional rotary toy according to an embodiment of the present invention;

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

FIG. 9 is a schematic illustration of a portion of the functional elements of a functional rotary toy according to another perspective in accordance with an embodiment of the present invention;

FIG. 10 is a schematic view of a portion of the functional elements of a deformed state of the functional rotary toy according to another view angle of the present invention;

FIG. 11 is a side view of a portion of the construction of a functional rotary toy according to an embodiment of the present invention;

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

FIG. 13 is a schematic view showing a state of a centrifugal latch mechanism and a locking mechanism of the function rotary toy according to the embodiment of the present invention;

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

FIG. 15 is a schematic view showing a state of the centrifugal lock mechanism and the locking mechanism of the function rotary toy according to another view angle of the embodiment of the present invention;

FIG. 16 is a schematic view showing another state of the centrifugal lock mechanism and the lock mechanism of the function rotary toy according to another view angle of the embodiment 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 diagram 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 a function rotary toy according to an embodiment of the present invention;

FIG. 20 is another state diagram of a locker of a function rotary toy according to an embodiment of the present invention;

FIG. 21 is a partially exploded view of the rotary body of the function rotary toy according to the embodiment of the present invention;

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

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

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

FIG. 25 is a schematic view of an unlocking plate of a 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 partially exploded view of the rotary body of the function rotary toy according to the embodiment of the present invention;

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

FIG. 29 is a schematic view of the functional rotary toy of the embodiment of the present invention in a firing state;

FIG. 30 is a schematic view showing a partial structure of a functional member and a locker of a functional rotary toy according to an embodiment of the present invention;

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

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

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

Reference numerals:

functional rotary toy 1

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

Function member 20, firing head 210, central shaft 220, firing spring 230, rotary spring 240,

Latch 30, lock mechanism 310, latch 310, dial 313, latch 3131, recess 3131a, mating portion 3132, second elastic member 314, first latch 311, first trigger 3111, catch 3111a, first spring 3112, second latch 312, second trigger 3121, latch 3122a, second spring 3123, and second latch,

Centrifugal lock mechanism 320, centrifugal throwing block 321, gravity center portion 3211, driving inclined plane 3212, first magnetic attraction piece 322, second magnetic attraction piece 323

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

A locking plate 340, a claw 341,

Top cover 40, clip hole 410, slide plate 50,Protrusion 510, end 513,The third elastic member 520, the toy body 2, the flipping member 41, the cam shaft 411, the deforming member 42, the rear wing 421, the outer wing 422, the outer wing 4221, the inner wing 423, the inner wing 4231, the head member 424, the antenna 425, the swing link 426, the bracket 43, the face housing 44, the mounting hole 45, the first hole 451, the second hole 452, the,

Delay device 5, unlocking plate 51,Unlocking hook side 511, unlocking rack 512,Unlocking gear 52, energy storage mechanism 53.

Detailed Description

Embodiments of the present invention are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the invention.

In the description of the present invention, it should 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", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, features defining "first", "second" may include one or more such features, either explicitly or implicitly. In the description of the present invention, unless otherwise indicated, the meaning of "a plurality" is two or more.

In the description of the present invention, it should be noted that the terms "mounted," "connected," and "coupled" are to be construed broadly, as well as, for example, fixedly coupled, or otherwise defined and defined

Detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

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

As shown in fig. 1 to 4, the functional rotary toy 1 according to the embodiment of the present invention includes a rotary body 10, a functional element 20, and a locker 30, wherein the functional element 20 is provided on the rotary body 10 and rotatable with the rotary body 10, the locker 30 is provided on the rotary body 10 and rotatable with the rotary body 10, and the locker 30 is configured such that, when the rotation speed of the rotary body 10 is greater than a first set rotation speed, the locker 30 locks the functional element 20, and when the rotation speed of the rotary body 10 is reduced to the first set rotation speed, the locker 30 triggers the functional element 20.

Specifically, since the locker 30 may lock or release the function piece 20, and the locker 30 is formed such that the locker 30 locks the function piece 20 when the rotation speed of the rotating body 10 is greater than the first set rotation speed, and the locker 30 releases the function piece 20 when the rotation speed of the rotating body 10 is reduced to the first set rotation speed. That is, when the function rotary toy 1 rotates at a high speed (i.e., the rotation speed is greater than the first set speed), the locker 30 locks the function piece 20 due to the centrifugal force, so that the function piece 20 is in a locked and folded state, and when the rotation speed is gradually slowed down (i.e., reduced to less than the first set rotation speed) or stopped, the locker 30 removes the locking of the function piece 20 due to the loss of the centrifugal force, so that the function piece 20 is triggered.

Therefore, the function rotary toy 1 can realize specific functions (such as instantaneous deformation, bouncing, launching and the like) at specific rotation speeds, particularly, the triggering of the locking device 30 on the function rotary toy 1 does not need to be from the impact of other toys outside, the corresponding functions can be realized through the self rotation speed reduction of the function rotary toy 1, the function rotary toy can be independently and automatically deformed when one toy is used, a player can play alone, the player does not need to group when wanting to play at any time, a plurality of players play together to play, play and judge the match, the experience of the player is improved, and the playing method is diversified.

According to the functional rotary toy 1 provided by the embodiment of the invention, the locking device 30 is arranged on the rotary body 10, and the locking device 30 is used for controlling the triggering of the functional pieces 20, so that the functional pieces 20 can be triggered when the functional rotary toy 1 is played by a single person or one toy, the functional pieces 20 can be triggered for executing functions for multiple times, the playing interestingness is strong, and the stimulating and surprise sensory experience is brought to a player.

As shown in fig. 1 to 4, according to an embodiment of the present invention, the locker 30 includes a locking mechanism 310 and a centrifugal locker mechanism 320, the locking mechanism 310 is used to lock the function 20, the centrifugal locker mechanism 320 includes a centrifugal slinger 321, the centrifugal slinger 321 is swingably provided on the rotating body 10, the centrifugal slinger 321 has a gravity center portion 3211, when the rotating body 10 rotates, the gravity center portion 3211 swings toward or away from a rotation axis of the rotating body 10 by gravity or centrifugal force, the centrifugal slinger 321 releases the locking mechanism 310 when the rotation speed of the rotating body 10 is greater than a first set rotation speed, and the centrifugal slinger 321 triggers the locking mechanism 310 when the rotation speed of the rotating body 10 is reduced to the first set rotation speed.

Further, when the rotational speed of the rotating body 10 is greater than the first set rotational speed, the center of gravity portion 3211 of the centrifugal slinger 321 swings away from the rotational axis of the rotating body 10 due to the larger centrifugal force at high speed, that is, the center of gravity portion 3211 is slinged away from the rotational axis of the rotating body 10, the centrifugal slinger 321 is separated from the locking mechanism 310, and when the rotational speed of the rotating body 10 gradually drops below the first set rotational speed or the rotating body 10 stops rotating, the center of gravity portion 3211 approaches towards the rotational axis of the rotating body 10 due to the loss of centrifugal force and the gravity of the center of gravity portion 3211, that is, the center of gravity portion 3211 drops and closes around the rotational axis of the rotating body 10, so that the centrifugal slinger 321 cooperates with the locking mechanism 310 to trigger the locking mechanism 310, for example, the centrifugal slinger 321 cooperates with the locking mechanism 310 to drive the locking mechanism 310 to rotate.

Thus, through the rotation speed change of the rotating body 10, the functions of toy deformation and the like in the rotation process of the functional rotary toy 1 are realized by utilizing the relation between the centrifugal action of the centrifugal locking mechanism 320 and the gravity of the rotating body, and the external force action is not needed to be used for striking, so that the structure is quite simple, the playing is convenient, the deformation time of the functional rotary toy 1 is greatly uncertain, the surprise and mystery of the functional rotary toy 1 are increased, and the sensory experience of a player is improved.

According to an alternative example of the present invention, the centrifugal latch mechanism 320 includes a first magnetic attraction piece 322 provided on the centrifugal slinger 321 to drive the heavy core 3211 to swing toward the rotation axis, and the centrifugal latch mechanism 320 further includes a second magnetic attraction piece 323 provided on the rotating body 10 between the centrifugal slinger 321 and the rotation axis.

It will be appreciated that when the rotational speed of the rotating body 10 is less than the first set rotational speed, the center of gravity portion 3211 of the centrifugal slinger 321 is subjected to a smaller centrifugal force, and the center of gravity portion 3211 swings in a direction close to the rotational axis of the rotating body 10 due to the gravity, but the structure that the center of gravity portion 3211 swings is highly unstable, and the phenomenon that the centrifugal slinger 321 drives the locking mechanism 310 to release the functional piece 20 when the rotating body 10 is stopped is likely to occur, so that the playing satisfaction of the functional rotary toy 1 is greatly reduced. The centrifugal throwing block 321 is provided with the first magnetic attraction piece 322, and the rotary body 10 is provided with the second magnetic attraction piece 323, so that when the rotating speed of the rotary body 10 is smaller than the first set rotating speed, the gravity center portion 3211 swings towards the rotating shaft direction of the rotary body 10 under the dual action of gravity and magnetic force, when the rotating speed of the rotary body 10 is smaller than the first set rotating speed, the centrifugal throwing block 321 can drive the locking mechanism 310 to release the functional piece 20 faster, and the player experience satisfaction of the functional rotary toy 1 is improved.

As shown in fig. 13 to 16, according to an alternative example of the present invention, the centrifugal lock mechanism 320 includes a plurality of centrifugal slingers 321, at least two centrifugal slingers 321 are arranged in pairs, or may be arranged in a plurality of pairs, and the two centrifugal slingers 321 in pairs are arranged in a central symmetry manner with respect to the rotation axis, when the rotation speed of the rotating body 10 is smaller than the first set rotation speed, due to weakening by centrifugal action, the centrifugal slingers 321 in pairs swing in a direction of self gravity falling toward a direction close to the rotation axis of the rotating body 10, but in this way, the structure of swinging by gravity driving the heavy portion 3211 has higher instability, and when the rotating body 10 will stop, the centrifugal slingers 321 can trigger the lock mechanism 310, so that the playing satisfaction of the functional rotary toy 1 is greatly reduced.

Further, the two centrifugal slingers in the pair are attracted to each other by the first magnetic attraction piece 322, for example, the first magnetic attraction piece 322 may be disposed on the side of the two centrifugal slingers 321 in the pair facing each other, so that when the rotation speed of the rotator 10 is less than the first set rotation speed, the gravity center portion 3211 swings towards the rotation axis of the rotator 10 under the dual action of gravity and magnetic force, that is, further approaches each other under the attraction action of the magnetic force (the furled state of the two centrifugal slingers 321 as shown in fig. 14 and 16), so that when the rotation speed of the rotator 10 is less than the first set rotation speed, the centrifugal slingers 321 can trigger the locking mechanism 310 relatively quickly, thereby improving the satisfaction of the player experience of the functional rotary toy 1.

As shown in fig. 18 to 20, according to another alternative example of the present invention, the locker 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, and the self-locking mechanism 330 releases the centrifugal locking mechanism 320 after triggering, specifically, when the functional rotary toy 1 is in a stationary or player's non-playing state, the two centrifugal slings 321 paired at this time are in a separated state 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 stored 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 contracts inwards towards the rotating body 10 to separate the two centrifugal throwing blocks 321 in pairs, and the centrifugal locking mechanism 320 is released, so that the functional rotary toy 1 can be in a storage state, and the centrifugal locking mechanism 320 can be in a locking or triggering state through the self-locking mechanism 330, so that the playing method is simple and easy to implement.

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 a self-locking position and an unlocking position, specifically, the self-locking push plate 331 pushes the centrifugal slinger 321 to move the center of gravity portion 3211 away from the rotation axis in the self-locking position, the self-locking push plate 331 releases the centrifugal slinger 321 in the unlocking position, and the first elastic member 332 is connected between the rotating body 10 and the self-locking push plate 331 to push the self-locking push plate 331 toward the unlocking position.

Further, the two sides of the self-locking push plate 331 are provided with the linkage protrusions 3311, when the functional rotary toy 1 is in a static state or a player is not playing, one end of the self-locking push plate 331 extends out of the rotary body 10, the self-locking push plate 331 is pushed inwards towards the rotary body 10 by hand, that is, the self-locking push plate 331 slides towards the self-locking position from the unlocking position, when the self-locking push plate 331 slides to the self-locking position, the linkage protrusions 3311 on the self-locking push plate 331 push the paired two centrifugal throwing blocks 321, so that the gravity center portion 3211 is far away from the rotary axis, at the moment, the first elastic piece 332 is under the action of the stretched elastic force, the function of pulling the self-locking push plate 331 towards the unlocking position is achieved due to the action trend of the restoring elastic force of the first elastic piece 332, and when no other action is achieved, the self-locking push plate 331 pushes the self-locking push plate 331 towards the unlocking position, and then the centrifugal throwing blocks 321 are released.

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

According to yet another alternative example of the present invention, the self-locking mechanism 330 includes a lock catch 334, where the lock catch 334 is connected to the rotating body 10 by a torsion spring, so that the lock catch 334 is always in a state of being close to the self-locking push plate 331, and a protrusion 3312 matching with the lock catch 334 is provided on a side of the self-locking push plate 331 facing the lock catch 334, so that when the self-locking push plate 331 is pushed into the rotating body 10, the lock catch 334 can clamp the self-locking push plate 331 in a self-locking position by being clamped with the protrusion 3312, and further push the gravity center portion 3211 of the centrifugal slinger 321 to be in a separated state.

It should be noted that, the lock 334 releases the self-locking push plate 331 under the action of centrifugal force or after the collision triggering, specifically, the lock 334 is separated from the protrusion 3312 under the action of centrifugal force or after the 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 catches 334 are matched and connected with the self-locking push plate 331, so that the self-locking push plate 331 can be kept in a retracted state, and the gravity center portions 3211 of the two centrifugal throwing blocks 321 in pairs 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 functional rotary toy 1 further includes a rotary tip 110, the rotary tip 110 is provided at the bottom of the rotary body 10 so as to float up and down, after the functional rotary toy 1 is launched during playing, when the functional rotary toy 1 contacts the ground, the rotary tip 110 floats upward at the bottom of the rotary body 10, and when the rotary tip 110 floats upward relative to the rotary body 10, the lock 334 is triggered, that is, when the rotary tip 110 is collided with the outside, the lock 334 is triggered, so that the lock 334 is unlocked, the self-locking push plate 331 slides outward, and further, the centrifugal throwing block 321 is released, and of course, since the rotational speed of the rotary body 10 is higher, the gravity center portion 3211 of the centrifugal throwing block 321 is in a separated state under the effect of centrifugal force, so that the rotary tip 110 is triggered to be unlocked by the collision, thereby being ready for the following deformation of the functional rotary toy 1, etc., and simultaneously, the lock 334 is triggered automatically when playing, and a better playing experience is provided.

In some alternative examples, locking mechanism 310 includes a turntable 313, turntable 313 is rotatably provided on rotary body 10, and turntable 313 is provided with a locking portion 3131 and a mating portion 3132; a second elastic member 314, the second elastic member 314 being connected between the rotating body 10 and the rotating disk 313 to drive the rotating disk 313 to rotate toward the locking portion 3131 to lock the functional member 20; when the centrifugal slinger 321 presses the matching part 3132, the turntable 313 can be pushed to rotate towards the direction of unlocking the functional piece 20 by the locking part 3131.

As shown in fig. 13 to 16, in some alternative examples, the locking mechanism 310 includes a turntable 313 and a second elastic member 314, the turntable 313 is rotatably provided on the rotating body 10, the turntable 313 is provided with a locking portion 3131 and a mating portion 3132, specifically, the turntable 313 is formed in a ring-shaped structure and is rotatably connected with the rotating body 10, the locking portion 3131 includes at least two locking portions in pairs, and the two locking portions 3131 are oppositely provided on the turntable 313.

Further, the mating portion 3132 is configured to be correspondingly mated with the centrifugal throwing block 321, the second elastic member 314 is connected between the rotating body 10 and the turntable 313, when the rotation speed of the functional rotary toy 1 is greater than the set rotation speed, the centrifugal throwing block 321 is thrown away under the centrifugal action, the mating portion 3132 is separated from the centrifugal throwing block 321, the locking mechanism 310 is released, the locking mechanism 310 rotates in a direction of driving the turntable 313 to lock the unfolding member towards the locking portion 3131 under the elastic force of the second elastic member 314, when the rotation speed of the functional rotary toy 1 is less than the set rotation speed, the centrifugal throwing block 321 is mutually closed under the action of gravity and magnetic attraction, and at this time, the centrifugal throwing block 321 is mated with the mating portion 3132, so that when the centrifugal throwing block 321 presses the mating portion 3132, the turntable 313 can be pushed to rotate in a direction of unlocking the unfolding member towards the locking portion 3131.

The rotating body 10 is further provided with the functional element 20 (i.e., the functional element 20 is the bracket 43 at this time), the functional element 20 includes two pairs of functional elements, the functional elements are oppositely arranged on the outer peripheral wall of the rotating body 10, the locking portion 3131 is provided with the concave portion 3131a, the upper end of the functional element 20 is matched and connected with the concave portion 3131a to lock the functional element 20, and when the upper end of the functional element 20 is separated from the concave portion 3131a, the functional element 20 rotates under the action of the torsion spring, and at this time, the functional element 20 is unfolded to the outside of the rotating body 10.

Therefore, by utilizing the centrifugal throwing block 321, the rotary table 313 and the second elastic piece 314 to lock or release the unfolding pieces, the function rotary toy 1 can be independently and automatically deformed in the rotating process, thereby bringing uncertain surprise experience to players and greatly improving the playing interestingness.

Further, a notch is provided on an inner peripheral wall of the turntable 313, a mating bevel is provided on one side of the notch in a direction surrounding the rotation axis, the mating bevel forms a mating portion 3132, a driving bevel 3212 mating with the mating bevel is provided on the centrifugal slinger 321, the driving bevel 3212 is consistent with a tilting direction of the mating bevel, and the turntable 313 is pushed to rotate when the driving bevel 3212 contacts and mates with the mating bevel.

Specifically, the matching portion 3132 is configured to correspondingly match with the driving inclined plane 3212, when the rotational speed of the functional rotary toy 1 is greater than the first set rotational speed, the centrifugal throwing block 321 is thrown away under the centrifugal action, at this time, the driving inclined plane 3212 approaches to the inner side of the turntable 313, the matching portion 3132 is separated from the driving inclined plane 3212, and the locking mechanism 310 is released, when the rotational speed of the functional rotary toy 1 is less than the first set rotational speed, the centrifugal throwing blocks 321 approach to each other under the self gravity and the magnetic attraction, so that the centrifugal throwing blocks 321 press the matching portion 3132, at this time, the driving inclined plane 3212 is connected with the matching portion 3132 in a matching manner, and the turntable 313 can be driven to rotate towards the direction of the locking portion 3131 for unlocking the unfolding member. The driving inclined surface 3212 of the centrifugal throwing block 321 is matched with the matching part 3132, so that the locking mechanism 310 can be released or the locking mechanism 310 can be driven to rotate, and then the unfolding piece can be released or locked, and the matching structure is quite simple.

As shown in fig. 11 and 12, according to an embodiment of the present invention, the function piece 20 includes a flip piece 41, wherein the flip piece 41 is disposed at the outer bottom of the rotator, and the flip piece 41 is locked by the locker 30 in a normal state, and the flip piece 41 rotates and expands outwards relative to the rotator 10 after the locker 30 is unlocked, so that the function rotary toy 1 achieves the effect of emptying and flipping, and gives a surprise playing experience to a player.

According to still another embodiment of the present invention, the function rotary toy 1 further includes a delay device 5, the delay device 5 is respectively connected to the locker 30 and the function piece 20, the delay device 5 is configured to delay the unlocking action of the locker 30 on the function piece 20, and if the delay device 5 is not provided, the function rotary toy 1 may not stand stably and easily topple due to the fact that the two function pieces 20 of the rotary body 10 are not yet opened completely when the function rotary toy 1 is emptied and overturned, and this situation can be effectively avoided by adding the delay device 5.

Specifically, the delay device 5 is used for delaying the unlocking action of the locking device 30 on the functional pieces 20, so that the unlocking action of the locking device 30 on the functional pieces 20 becomes slow, namely, after the two functional pieces 20 of the functional rotary toy 1 are completely opened, the functional pieces 20 rotate, the functional rotary toy 1 is ensured to overturn again under the premise of standing stably, and the problem that the functional rotary toy 1 is easy to topple when the direct overturn is not delayed 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 kept at the initial position when the locking device 30 is locked, the unlocking plate 51 can lock the functional piece 20 when the initial position is achieved, the functional piece 20 is kept in a folded state, the unlocking plate 51 releases the functional piece 20 when the unlocking plate 51 is in the unlocking position, an unlocking rack 512 is disposed on one side of the unlocking plate 51, the unlocking gear 52 is meshed with the unlocking rack 512, the energy storage mechanism 53 is connected with 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 drives the unlocking plate 51 to slide towards the unlocking position when the energy storage mechanism 53 releases energy.

Specifically, the unlocking gear 52 is connected to the output end of the energy storage mechanism 53, an unlocking hook edge 511 is disposed on one side of the outer wall of the unlocking plate 51, an unlocking rack 512 is disposed on one side of the inner wall of the unlocking plate 51 far from the unlocking hook edge 511, the unlocking rack 512 is used for being meshed with the unlocking gear 52, the unlocking hook edge 511 is located at an end 513 of the unlocking plate 51, one end of the unlocking plate 51 far from the unlocking hook edge 511 can contact with the functional piece 20, the latch device 30 is matched with the upper end of the functional piece 20, at this time, the functional piece 20 is in a retracted state, the functional piece 20 pushes the unlocking plate 51 to be locked to an initial position in the retracted state, in the initial position, the energy storage mechanism 53 is in the energy storage state, the unlocking hook edge 511 is far from the sliding plate 50 (the sliding plate 50 is connected with the third elastic piece 520 and the sliding plate 50 is connected with the third elastic piece 520) in the rotating body 10), and the functional piece 20 is received at the bottom of the rotating body 10 through the card of the sliding plate 50.

The locker 30 releases the upper part of the function piece 20At the end, the functional piece 20 is unfolded towards the outer side of the rotating body 10 under the action of the torsion spring, the functional piece 20 releases the limit of 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 drives the unlocking plate 51 to slide towards the unlocking position through the unlocking rack 512 meshed with the unlocking gear 52, The unlocking hook edge 511 and the convex part 510 of the sliding plate 50 act to make the sliding plate 50 move to the third elastic member 520 Is arranged in the direction of the displacement of the (c),until the slide plate 50 is disengaged from the functional element 20, the functional element 20 is rotated to the outside by the torsion spring.

Like this, through the mutual cooperation of energy storage mechanism 53, unblock gear 52 and unblock board 51, by the energy storage mechanism 53 energy storage when unblock position slides towards initial 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 the unblock board 51 and slide towards the unblock position, release function piece 20, the process of energy storage mechanism 53 drive unblock board 51 makes rotatory toy 1 of function realize delaying the upset, and then avoid rotatory toy 1 of function to empty easily the phenomenon emergence when the upset for the upset deformation of rotatory toy 1 of function is more stable, further guarantees reliability and the interest of playing of toy.

According to an alternative embodiment of the present invention, the functional element 20 may be at least one of sounding elements, for example, multiple kinds of sound effects, multiple kinds of music, voice, etc. that can be triggered, and enhance the hearing experience, or at least one of lighting elements, that is, trigger multiple kinds of light response effects, that is, different colors of light, to enhance the visual perception of the player, or at least one of action elements, for example, actions such as instant deformation, bouncing, launching, etc., or a unfolding element that is deformed, a launching device that is launched, etc., so as to bring multiple kinds of surprise and fresh experiences to the player.

Further, the function member 20 includes a plurality of operation members configured to be sequentially deployed when the locker 30 is triggered, and of two operation members adjacent in a deployment sequence, a previously deployed operation member is used to lock a subsequently deployed operation member, and a first deployed operation member is locked by the locker 30.

Specifically, when the locking device 30 is triggered first, two actuating elements located on the outer peripheral wall of the bottom of the rotary body 10 are firstly unfolded, then the actuating elements at the bottom of the rotary body 10 are triggered, so that the actuating elements at the bottom are unfolded, the function rotary toy 1 can be emptied and turned over, the actuating elements above the rotary body 10 are further triggered by the swinging rod 426 to be unfolded outwards while the actuating elements at the bottom are rotated outwards, the actuating elements above the top are sequentially unfolded under the triggering of the adjacent previous actuating elements, the actuating elements which are unfolded earlier are used for locking the actuating elements which are unfolded later, and the actuating elements which are unfolded later are sequentially unfolded, so that the locking device 30 is only required to trigger the actuating elements which are unfolded earlier, on one hand, the structure is simple, the layout is compact, and on the other hand, in the process that the actuating elements are unfolded outwards in sequence, a player can observe the deformation process of the function rotary toy 1, and the action elements which are unfolded later are used for locking the action is used for locking the actuating elements, and the action toy has surprise and pleasant sensory experience.

For example, the action piece is a deformation piece 42, the deformation piece 42 may include an outer fin piece 422, an inner fin piece 423, a rear fin piece 421 and a head piece 424, the turnover piece 41 locks the rear fin piece 421 through a swing rod 426, the rear fin piece 421 locks the outer fin piece 422, an outer fin baffle 4221 is arranged on the outer fin piece 422 and is used for stopping and locking the inner fin piece 423, an inner fin baffle 4231 is arranged on the inner fin piece 423 and is used for locking the head piece 424, the turnover piece 41 triggers the rear fin piece 421 after unlocking, the rear fin piece 421 is lifted upwards under the action of a torsion spring of the turnover piece 41, so that the blocking of the outer fin piece 4221 is released, the outer fin piece 422 is opened outwards under the action of the torsion spring of the turnover piece 422, the blocking of the inner fin piece 423 is further released, and the front piece 424 is triggered to jack the face shell 44 after unlocking, so that the deformation piece 42 is triggered successively as long as the turnover piece 41 is unlocked, and a better playing experience is provided.

It should be noted that the feeler 425 may also be provided on the head 424, so that after the head 424 is triggered to move forward, the feeler 425 protrudes, thus making the toy more visualized after deformation.

It should be noted that, the rotating body 10 is detachably connected with the functional element 20, the functional element 20 is provided with a mounting hole 45, the mounting hole 45 is configured as a through hole formed by communicating the first hole body 451 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 extends into the first hole body 451 first, and then the functional element 20 is rotated to enable the hook to be clamped at the edge of the second hole body 452, so that the matching connection between the rotating body 10 and the functional element 20 can be realized.

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

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

The deformed gyroscope of the embodiment has two states, the state of normal rotation and the folded state of the unfolded member is shown in fig. 1, the deformed state of the unfolded functional member 20 is shown in fig. 3, wherein the unfolded member is the functional member 20, and the gyroscope body is the rotator 10.

As shown in fig. 1 to 4, the deformation gyro of the present embodiment includes a gyro body, an expansion piece, and a locker 30.

Specifically, the expanding member is provided on the gyro body, the expanding member has two states of folding and expanding, the expanding member is kept in the folding state when locked, the deformed gyro is formed into a revolution body at this time, for example, the deformed gyro may be in an upright egg shape, a spherical shape or the like, the expanding member is in the open state when released, the deformed gyro is formed into a cartoon shape at this time, specifically, the expanding member is locked or released by the locking device 30, when the rotational speed of the gyro body is greater than the set rotational speed, the expanding member is locked by the locking device 30, and when the rotational speed of the gyro body is reduced to be less than the set rotational speed or stopped, the expanding member is released by the locking device 30.

Wherein the locker 30 comprises 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 piece, the self-locking mechanism 330 is matched with the centrifugal locking mechanism 320 to lock the centrifugal locking mechanism 320, and the self-locking mechanism 330 releases the centrifugal locking mechanism 320 after triggering.

The centrifugal latch mechanism 320 includes two centrifugal slingers 321 arranged on the gyro body in a swinging manner, and two first magnetic attraction pieces, wherein each centrifugal slinger 321 is provided with a gravity center portion 3211, and the first magnetic attraction pieces 322 are arranged on the centrifugal slinger 321 to drive the gravity center portions 3211 to swing towards the rotation axis. When the gyro body rotates, the center of gravity portion 3211 may swing toward or away from the rotation axis of the gyro body. The centrifugal slinger 321 triggers the locking mechanism 310 when the rotation speed of the gyro body is reduced to the set rotation speed, and the centrifugal slinger 321 releases the locking mechanism 310 when the rotation speed of the gyro body is greater than the set rotation speed.

The locking mechanism 310 includes a turntable 313 and a second elastic member 314, which are respectively matched with two centrifugal slinging blocks 321, a locking portion 3131 and a matching portion 3132 are arranged on the turntable 313, the turntable 313 is rotatably arranged on the top body, a driving inclined surface 3212 matched with the matching portion 3132 is arranged on the centrifugal slinging block 321, when the centrifugal slinging block 321 is pressed into the notch, the driving inclined surface 3212 drives the turntable 313 to rotate towards the direction of the locking portion 3131 to unlock the unfolding member, when the driving inclined surface 3212 of the centrifugal slinging block 321 is separated from the matching portion 3132, and the second elastic member 314 drives the turntable 313 to rotate towards the direction of the locking portion 3131 to lock the unfolding member.

The locking mechanism 310 further includes a sliding plate 50, the sliding plate 50 extends upwards along the inner wall of the top body, two ends of the sliding plate 50 extend to the support 43, when the turntable 313 moves towards the unlocking support 43, the support 43 is unfolded, the upper end of the support 43 is stopped at the end 513 of the sliding plate 50, an inclined slope is arranged on the side portion of the end 513 to facilitate the upper end of the support 43 to slide downwards to be matched with the end 513, the sliding plate 513 is pushed to move towards the direction of compressing the third elastic piece 520, and the overturning piece 41 is unlocked further, so that the overturning piece 41 rotates around the top body.

The self-locking mechanism 330 includes a self-locking push plate 331, a first elastic member 322, and a lock 334. The self-locking push plate 331 is slidably arranged in the top body between a self-locking position and an unlocking position, the self-locking push plate 331 pushes the centrifugal throwing block 321 when in self-locking position, the gravity center portion 3211 is far away from the rotation axis, the self-locking push plate 331 releases the centrifugal throwing block 321 when in unlocking position, the first elastic piece 322 is connected between the top 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-locking position, and the self-locking push plate 331 is released when the lock catch 334 is triggered.

The unfolding piece comprises a turnover piece 41, a deformation piece 42 and a support 43, wherein the locking device 30 is used for locking and unlocking the support 43, the support 43 is used for supporting feet of a top body after being unfolded, the locking device 30 is used for locking or unlocking the turnover piece 41, under a normal state, the locking device 30 locks the turnover piece 41, the locking device 30 rotates around the top body after unlocking the turnover piece 41 to realize the vacation turnover of the deformed top, and after the turnover piece 41 rotates, the cam shaft 411 triggers the deformation piece 42 to deform.

When the deformed top of the embodiment of the invention is played, before the deformed top is launched, if the deformed top is not in a storage state, the self-locking push plate 331 is pushed by hand, so that the deformed top is in the storage state, the gravity center parts 3211 of the paired two centrifugal throwing blocks 321 are in a separation state, after preparation, the deformed top is launched, at the moment, the deformed top can rotate at a high speed on the ground, the rotation speed of the top body is greater than the set rotation speed, the lock catches 334 release the self-locking push plate 331 under the action of centrifugal force or after collision triggering, the gravity center parts 3211 of the paired two centrifugal throwing blocks 321 are still in the separation state under the action of the larger centrifugal force, the rotation speed of the deformed top can gradually decrease along with the progress of the rotation process, when the rotation speed is smaller than the set rotation speed, at the moment, the gravity center parts 3211 of the two centrifugal throwing blocks 321 are gradually closed under the action of gravity and magnetic force, the driving inclined planes 3212 of the centrifugal throwing blocks 321 and the matching parts 3132 of the rotary table 313 are matched to drive the rotary table 313 to rotate, the upper ends of the brackets 43 are released, the brackets 43 can be outwards opened under the action of torsion springs to form foot supports of the deformed gyroscope, meanwhile, the upper ends of the brackets 43 are stopped against the end 513 of the sliding plate 50 to further push the sliding plate 50 to move in the direction of compressing the third elastic piece 520, the overturning piece 41 is further unlocked, and the overturning piece 41 rotates around the rotary shaft under the action of torsion springs to realize the empty overturning of the deformed gyroscope.

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

The specific structure of a deformed 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 gyro of the present embodiment includes a gyro body, a development member, a locker 30 and a delay device 5.

The centrifugal latch mechanism 320 includes two centrifugal slingers 321 arranged on the gyro body in a swinging manner, and two first magnetic attraction pieces 322, wherein each centrifugal slinger 321 is provided with a gravity center portion 3211, and the first magnetic attraction pieces 322 are arranged on the centrifugal slinger 321 to drive the gravity center portions 3211 to swing towards the rotation axis. When the gyro body rotates, the center of gravity portion 3211 may swing toward or away from the rotation axis of the gyro body. The centrifugal slinger 321 triggers the locking mechanism 310 when the rotation speed of the gyro body is reduced to the set rotation speed, and the centrifugal slinger 321 releases the locking mechanism 310 when the rotation speed of the gyro body is greater than the set rotation speed.

The locking mechanism 310 includes a turntable 313 and a second elastic member 314, which are respectively matched with two centrifugal slinging blocks 321, a locking portion 3131 and a matching portion 3132 are arranged on the turntable 313, the turntable 313 is rotatably arranged on the top body, a driving inclined surface 3212 matched with the matching portion 3132 is arranged on the centrifugal slinging block 321, when the centrifugal slinging block 321 is pressed into the notch, the driving inclined surface 3212 drives the turntable 313 to rotate towards the direction of the locking portion 3131 for unlocking the unfolding member, when the driving inclined surface 3212 of the centrifugal slinging block 321 is separated from the matching portion 3132, and the second elastic member 314 drives the turntable to rotate towards the direction of the locking portion 3131 for locking the unfolding member.

The self-locking mechanism 330 includes a self-locking push plate 331, a first elastic member 322, and a lock 334. The self-locking push plate 331 is slidably arranged in the top body between a self-locking position and an unlocking position, the self-locking push plate 331 pushes the centrifugal throwing block 321 when in self-locking position, the gravity center portion 3211 is far away from the rotation axis, the self-locking push plate 331 releases the centrifugal throwing block 321 when in unlocking position, the first elastic piece 322 is connected between the top 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-locking position, and the self-locking push plate 331 is released when the lock catch 334 is triggered.

The delay device 5 is connected between the locking device 30 and the unfolding piece and is used for delaying the unlocking action of the locking device 30 on the unfolding piece, 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 top 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 the energy storage mechanism 53 releases energy, the locking device 30 locks the unlocking plate 51 at the initial position, the unfolding piece is locked, and the unfolding piece is released when the unlocking plate 51 is in the unlocking position.

Locking mechanism 310 also includes a sliding plate 50, a protruding portion 510 is disposed on one side of sliding plate 50, an unlocking plate 51 is disposed on one side of protruding portion 510, and an unlocking hook edge 511 is disposed on one side of unlocking plate 51 facing protruding portion 510, when the locking device unlocks the unfolding piece, energy storage mechanism 53 drives unlocking plate 51 to slide towards the unlocking position when releasing energy, and when unlocking hook edge 511 acts on protruding portion 510, unlocking plate 51 can push sliding plate 50 to slide, and then release turnover piece 41, so that turnover piece 41 rotates around the gyro body.

When the deformed top is played, before the deformed top is launched, if the deformed top is not in a storage state, the self-locking push plate 331 is pushed by hands, so that the deformed top is in the storage state, the gravity center portions 3211 of the two centrifugal throwing blocks 321 in pairs are in a separation state, after preparation, the deformed top is launched, at the moment, the deformed top can rotate at a high speed on the ground, the rotating speed of the top body is higher than the set rotating speed, the lock catches 334 are acted by centrifugal force or can release the self-locking push plate 331 after collision triggering, the gravity center portions 3211 of the two centrifugal throwing blocks 321 in pairs are still in the separation state under the action of the larger centrifugal force, the rotating speed of the deformed top along with the rotating process gradually drops until the deformed top is smaller than the set rotating speed, at the moment, the driving inclined planes 3212 of the centrifugal throwing blocks 321 and the matching portions 3132 of the rotating discs 313 are gradually close under the action of self-gravity and magnetic force, the upper ends of the supporting frames 43 are released, the supporting frames 43 can be outwards opened under the action of torsion springs, the supporting leg parts 53 are formed, and the energy storage devices can be completely released after the deformed top is completely, the energy storage device is unlocked, and the turnover pieces 43 can be completely unlocked, and the turnover position of the supporting frames 43 can be completely released, and the turnover pieces can be completely unlocked.

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

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

The launching gyro of this embodiment has two states, fig. 28 shows a normal rotation state, fig. 29 shows a state in which the top cover 40 is opened and the toy body 2 flies out, wherein in this embodiment the launching device is the functional piece 20, and the gyro body is the rotator 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 top body, the launching device comprises a launching head 210 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 under the locking state, the launching device can drive the launching head 210 to move towards the launching position under the releasing state so as to apply ejection force to the toy body 2, the locking device 30 is arranged on the top body, the locking device 30 locks the launching device when the rotating speed of the top body is larger than the set rotating speed, and the locking device 30 releases the launching device when the rotating speed of the top body is reduced to the set rotating speed.

The locker 30 includes a locking mechanism 310, a centrifugal locking 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 locking mechanism 320 to lock the centrifugal locking mechanism 320, and the self-locking mechanism 330 releases the centrifugal locking mechanism 320 after triggering.

The centrifugal latch mechanism 320 includes two centrifugal slingers 321 arranged on the gyro body in a swinging manner, two first magnetic attraction pieces 322 and two second magnetic attraction pieces 323, each centrifugal slinger 321 is provided with a gravity center portion 3211, and the first magnetic attraction pieces 322 are arranged on the centrifugal slinger 321 to drive the gravity center portions 3211 to swing towards the rotation axis. The second magnetic attraction piece 323 is arranged on the top body and is positioned between the centrifugal throwing block 321 and the rotation axis. When the gyro body rotates, the center of gravity portion 3211 may swing toward or away from the rotation axis of the gyro body. The centrifugal slinger 321 triggers the locking mechanism 310 when the rotation speed of the gyro body is reduced to the set rotation speed, and the centrifugal slinger 321 releases the locking mechanism 310 when the rotation speed of the gyro body is greater than the set rotation speed.

The locking mechanism 310 includes a first locking piece 311 and a second locking piece 312 that can be respectively matched with the two centrifugal throwing blocks 321, the first locking piece 311 includes a first triggering piece 3111 and a first spring 3112, the first triggering piece 3111 is rotatably arranged on the gyro body, one end of the first triggering piece 3111 is formed into a clamping hook 3111a, a first spring 3112 is arranged between the other end and the gyro body, and a clamping groove matched with the clamping hook 3111a is arranged on the transmitting device. The second locking member 312 includes a second triggering member 3121, a locking member 3122, and a second spring 3123, the second triggering member 3121 being connected to the locking member 3122, the locking member 3122 being slidably disposed on the gyro body and having a locking position for locking the launching device and a release position for releasing the launching device, the second triggering member 3121 being formed as a lever, the second triggering member 3121 being rotatably disposed on the gyro body, the second spring 3123 being disposed between one end of the second triggering member 3121 and the gyro body, the locking member 3122 having a locking piece 3122a, the locking piece 3122a being engaged with the launching device to lock the launching device in the locked position, and the locking piece 3122a being disengaged from the launching device to release the launching device in the released 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 top body between a self-locking position and an unlocking position, the self-locking push plate 331 pushes the centrifugal throwing block 321 when in the self-locking position, the gravity center portion 3211 is far away from the rotation axis, the self-locking push plate 331 releases the centrifugal throwing block 321 when in the unlocking position, the first elastic piece 322 is connected between the top 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, and the unlocking piece 333 releases the self-locking push plate 331 when triggered.

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 a closed state, the locking plate 340 is pushed to slide in a direction separating from the top cover 40 when the launching device is released, and the fourth elastic member is connected between the top body and the locking plate 340 to keep the locking plate 340 in cooperation with the top cover 40.

The transmitting device comprises a central shaft body 220, a transmitting elastic piece 240 and a rotating elastic piece 240, wherein an upward open mounting cavity is defined in the central shaft body 220, the transmitting head 210 is arranged in the mounting cavity, the first locking piece 311 and the second locking piece 312 are both locked on the central shaft body 220, and the transmitting elastic piece 240 is connected between the gyro body and the central shaft body 220 to eject the central shaft body 220 upward. The rotary elastic member 240 is connected between the central shaft 220 and the transmitting head 210 so that the transmitting head 210 rotates the toy body 2.

The gyro body comprises a gyro needle 110 which can be arranged at the bottom in a vertically floating manner, and the gyro needle 110 can trigger the unlocking piece 333 when moving upwards relative to the gyro body. The elastic arm 120 is formed on the top body around the transmitting 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 transmitting head 210 from reversing. 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 in which the top cover 40 encloses the launching device and a closed state in which the top cover 40 is rotated to the open state when the launching device is released.

The playing method of the transmitting gyroscope of the embodiment is as follows:

before the launching top is launched, 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 rotary elastic piece 240 is in an energy storage state, and it is noted that the twisting direction of the toy body 2 is 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, so that the top cover 40 moves from an unlocking position to a self-locking position, the gravity center portions 3211 of the two centrifugal throwing blocks 321 are kept at positions far away from the rotation shaft of the top body under the action of the self-locking push plate 331, and at the moment, due to the locking effect of the unlocking piece 333, the self-locking plate is locked in the self-locking position, so that the gravity center portions 3211 of the centrifugal throwing blocks 321 cannot be used by themselves, and meanwhile, the locking mechanism 310 cannot receive triggering, and the middle shaft body 220 can be well locked.

After the preparation is made, the player can use the gyro emitter to accelerate the transmitting gyro, and the locking effect unlocked by the gyro emitter can not occur the phenomenon that the locking mechanism 310 is triggered to cause the toy body 2 to be emitted in the acceleration process, that is, the player accelerates the transmitting gyro for a plurality of times at the moment, so that the initial rotating speed of the transmitting gyro is very fast to improve the fight force.

When the player adopts the emitter to emit the emitting gyroscope, at the moment that the emitting gyroscope falls down, the gyroscope needle 110 is impacted by the ground to retract upwards so as to trigger the unlocking piece 333 to release the self-locking push plate 331, the self-locking push plate 331 returns to the unlocking position, the centrifugal throwing block 321 can swing freely at the moment, but as the rotating speed of the gyroscope body is higher, the centrifugal effect of the centrifugal throwing block 321 is larger, the centrifugal throwing block 321 can still be kept still, but as the rotating speed of the gyroscope body is reduced, the centrifugal effect of the centrifugal throwing block 321 is gradually reduced, when the rotating speed of the centrifugal throwing block 321 is reduced to be smaller than the set speed, the two centrifugal throwing blocks 321 swing towards the direction close to the rotating shaft of the gyroscope body under the action of gravity and the suction force of the corresponding first magnetic attraction piece 322 and the second magnetic attraction piece 323, and when one centrifugal throwing block 321 triggers the first triggering piece 3111, a clamping hook 3111a on the first triggering piece 3111 is separated from a clamping groove on the center shaft body 220 according to the lever principle; while the other centrifugal slinger 321 triggers the second triggering member 3121, the second triggering member 3121 will push the locking member 3122 to slide according to the lever principle, so that the locking member 3122a on the locking member 3122 is disengaged from the central shaft 220. Therefore, the first locking piece 311 and the second locking piece 312 release the middle shaft body 220, the middle shaft body 220 moves upwards under the action of the transmitting elastic piece 240, and the middle shaft body 220 pushes the locking plate 340 to move while moving upwards, so that the claw 341 on the locking plate 340 is separated from the clamping hole 410 of the top cover 40, and at the same time, the top cover 40 is opened, and the toy body 2 ejects the transmitting top upwards and continues to rotate under the combined action of the upward movement of the middle shaft body 220 and the rotating elastic piece 240.

Other constructions 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 of the present specification, reference to the terms "one embodiment," "some embodiments," "illustrative embodiments," "examples," "specific examples," or "some examples," etc., means 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 invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. 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: many changes, modifications, substitutions and variations may be made to the embodiments without departing from the spirit and principles 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 is configured to lock the functional piece when the rotating speed of the rotating body is higher 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;

the locking device comprises:

a locking mechanism for locking the functional member;

the centrifugal locking mechanism comprises a centrifugal throwing block which is arranged on the rotating body in a swinging way, 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;

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

further comprises: and the delay device is respectively connected with the locking device and the functional piece and is configured to delay the unlocking action of the locking device on the functional piece.

2. The functional rotary toy of claim 1, wherein the centrifugal latching 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.

3. The functional rotary toy of claim 2, wherein the centrifugal latching 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.

4. The functional rotary toy according to claim 2, wherein the centrifugal lock mechanism comprises a plurality of centrifugal slingers, at least two centrifugal slingers are arranged in pairs, the two centrifugal slingers in pairs are arranged in central symmetry with respect to the rotation axis, and the two centrifugal slingers in pairs are attracted to each other by the first magnetic attraction member.

5. The function rotary toy of claim 1, 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 triggering.

6. The functional rotary toy of claim 5, 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 throwing block to enable the gravity center part to be far away from the rotating axis during the self-locking position, and the self-locking push plate releases the centrifugal throwing block during the unlocking position;

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

7. The functional rotary toy of claim 6, wherein the self-locking mechanism comprises: the lock catch is used for clamping the self-locking push plate on the self-locking position, and the lock catch releases the self-locking push plate under the action of centrifugal force or after collision triggering.

8. The functional rotary toy of claim 7, further comprising: the rotating tip is arranged at the bottom of the rotating body in a vertically floating mode, and the lock catch is triggered to unlock when the rotating tip floats upwards relative to the rotating body.

9. The function rotary toy of claim 1, wherein the locking mechanism comprises:

The rotary table is rotatably arranged on the rotary body and is provided with a locking part and a matching part;

the second elastic piece is connected between the rotating body and the rotating disc to drive the rotating disc to rotate towards the direction of locking the functional piece by the locking part; wherein,

when the centrifugal throwing block presses the matching part, the rotary table is pushed to rotate towards the direction of unlocking the functional piece by the locking part.

10. The function rotary toy according to claim 9, wherein a notch is provided in an inner peripheral wall of the turntable, a mating slope is provided on one side of the notch in a direction surrounding the rotation axis, the mating slope constitutes the mating portion, and a driving slope mated with the mating slope is provided on the centrifugal slinger.

11. The function rotary toy according to claim 1, wherein the function member includes: the turnover piece is arranged at the bottom of the rotating body, the turnover piece is locked by the locking device, and the turnover piece rotates relative to the rotating body after the locking device is unlocked so that the functional rotary toy can empty and turn.

12. The function rotary toy of claim 11, 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 is locked by the unlocking plate in the initial position, the functional piece is released by the unlocking plate in 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 energy storage mechanism stores energy when the unlocking plate slides from the unlocking position to the initial position, and the energy storage mechanism drives the unlocking plate to slide towards the unlocking position when releasing energy.

13. The function rotary toy according to any one of claims 1 to 12, wherein the function member is at least one of a sound emitting member, a light emitting member, and an operating member.

14. The function rotary toy according to claim 13, wherein the function member includes a plurality of operation members configured to be sequentially unfolded when the locker is triggered, the operation member previously unfolded being used to lock the operation member later unfolded, and the operation member first unfolded being locked by the locker, among the two operation members adjacent in the unfolding order.