CN110270108B - Gyro toy combination body and gyro kit with same - Google Patents

Abstract

The invention discloses a gyro toy combination body and a gyro kit with the same. The gyro toy combination body is an independent toy, and the gyro toy combination body can be overlapped on the gyro to be combined with the gyro into an overlapped gyro, and the gyro toy combination body comprises: a coupling body; a gyro coupling part provided on the coupling body to be coupled with the gyro; the movable piece can be unfolded or can be detachably arranged on the combined main body. According to the gyro toy combination body provided by the embodiment of the invention, the gyro is changed into a superposition gyro by arranging the gyro combination part on the combination main body; the combined main body is provided with the expandable or detachable movable piece, and the top is provided with the expandable or detachable movable piece after being changed into the superimposed top; when the movable part is used as a weapon, the superposition gyro has a richer attack form, so that the interest of the gyro toy is increased, and the participation degree and experience sense of players are improved.

Description

Gyro toy combination body and gyro kit with same

Technical Field

The invention relates to the technical field of toys, in particular to a gyroscopic toy combination body and a gyroscopic kit with the same.

Background

On a general gyroscopic toy, weapons are often provided to attack opponent players. Some toy gyroscopes trigger the deformation of the gyroscopes to pop up a eidolon doll during fight, however, after the eidolon doll is popped up, the gyroscopes stop rotating to lose fight force, so that the game competitiveness is reduced, and the player's participation is insufficient. Some toy gyroscopes can fix weapons on the top or the peripheral wall, so that the change form is few, the experience of consumers is weak, and the game interestingness is reduced.

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 a gyro toy combination body which can add a changing form to a gyro after being combined to the gyro so as to increase game interestingness.

The invention also aims at providing a gyro kit with the gyro toy combination.

According to an embodiment of the present invention, a gyro toy combination is an independent toy, the gyro toy combination can be superimposed on a gyro to combine with the gyro into a superimposed gyro, the gyro toy combination includes: a coupling body; the top combining part is arranged on the combining main body to be combined with the top; and the movable piece is arranged on the combined main body in a deployable or detachable way.

According to the gyro toy combination body provided by the embodiment of the invention, the gyro can be changed into a superposition gyro by arranging the gyro combination part on the combination main body; by arranging the expandable or detachable movable part on the combined main body, after the top is changed into the superposition top, the expandable or detachable movable part is provided, and when the movable part is used as a weapon, the superposition top has a richer attack form, so that the interestingness of the top toy is increased, and the participation degree and experience sense of players are improved.

In some embodiments, the movable member is rotatably connected to the coupling body, or the movable member is slidably connected to the coupling body, or the movable member is connected to the coupling body through a rope.

In some embodiments, the gyroscopic toy combination further comprises a movable elastic element acting on the movable element for normally driving the movable element to unwind or throw.

In some embodiments, the gyroscopic toy combination further comprises: the movable locking device is used for locking the movable piece at a movable initial position;

the movable unlocking piece is matched with the movable locking device, and the movable locking device is unlocked after the movable unlocking piece is triggered, so that the movable locking device releases the movable piece to enable the movable piece to be unfolded or thrown out.

Specifically, at least part of the movable piece is an elastomer, and after the movable locking device releases the movable piece, the movable piece is unfolded through restoring the original shape.

Further, a time delay unlocking device is arranged between the movable unlocking piece and the movable locking device.

Still further, the movable locking device includes: the movable lock disc is movably arranged in the combined main body, and the movable unlocking piece is connected with the movable lock disc; the locking elastic piece often drives the movable lock disc to move towards a locking position for locking the movable piece.

In some alternative embodiments, the movable lock collar is movable in the axial direction of the gyroscopic toy combination, or the movable lock collar is movable or rotatable in a plane perpendicular to the axis of rotation.

In some alternative embodiments, the movable unlocking member is exposed from the bottom of the coupling body or from the peripheral wall of the coupling body, and/or the movable unlocking member is a movable magnetic member.

In some optional embodiments, the movable lock disc is movable along an axial direction of the gyroscopic toy combination body, the locking elastic element is used for pressing the movable lock disc downwards, the movable unlocking element is connected with the movable lock disc, the movable unlocking element extends out or exposes from the bottom of the gyroscopic toy combination body, and the movable lock disc is provided with a clamping part for matching with the movable element.

Specifically, the clamping parts are a plurality of parts which are spaced along the circumferential direction, and the gyro toy combination body is provided with a plurality of corresponding movable parts.

Further, the movable unlocking piece is annular or discrete, and the movable unlocking piece is arranged around the top combining part.

In some embodiments, the gyroscopic toy complex may be superimposed on a top or peripheral wall of the top to combine with the top into the superimposed top.

Specifically, the gyroscopic toy combination body may be superimposed on top of the top, the gyroscopic toy combination body further comprising: and the accelerating part is arranged at the top of the combining main body so as to be combined with the transmitting head of the gyro transmitter.

Further, the top coupling portion includes a top coupling magnetic member, and the top coupling portion further includes a coupling groove or coupling protrusion that is fitted to the top or the outer peripheral wall of the top.

According to an embodiment of the invention, a gyro kit includes: the gyroscopic toy combination body is the gyroscopic toy combination body in the embodiment; the top is provided with a matching and combining part which is used for being matched with the top combining part.

According to the gyro kit provided by the embodiment of the invention, the gyro toy combination body is provided with the gyro combination part, so that the gyro toy combination body can be overlapped on the gyro to be combined into the overlapped gyro, and two independent toys can be combined into one independent toy. By arranging the expandable or detachable movable part on the combined main body, after the top is changed into the superposition top, the expandable or detachable movable part is provided, and when the movable part is used as a weapon, the superposition top has a richer attack form, so that the interestingness of the top toy is increased, and the participation degree and experience sense of players are improved.

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 diagram of the process of combining a top toy combination with a top to form a stacked top in one embodiment;

FIG. 2 is an exploded view of a stacked top in another embodiment;

FIG. 3 is an exploded view of a stacked top in yet another embodiment;

FIG. 4 is a schematic cross-sectional view of a stacked top in yet another embodiment;

FIG. 5 is a perspective view of the gyroscopic toy combination of example 1;

FIG. 6 is a schematic view of a part of the structure of the gyro toy combination of embodiment 1;

FIG. 7 is a perspective view of the gyro toy combination of example 2;

FIG. 8 is a schematic view of a part of the structure of the gyro toy combination of embodiment 2;

FIG. 9 is a perspective view of the gyro toy combination of example 3;

FIG. 10 is a schematic diagram of a top toy complex of example 3 in a stacked configuration after being combined with a top;

FIG. 11 is a schematic view of a part of the structure of a gyro toy combination in example 3;

fig. 12 is a schematic view of a gyroscopic toy combination, a gyroscope, a transmitter in one embodiment.

Reference numerals:

top toy combination 100,

A combination body 1, a movable cavity 10, a telescopic hole 11, a combination groove 12, a combination convex column 13, a central hole 14, zhou Xiangkou 15,

Top coupling part 2, top coupling magnetic member 21,

A movable member 3, a rope 31, a clamping hole 32, a clamping block 33,

Movable locking device 4, movable lock disk 41, locking part 411, locking elastic member 42,

A movable unlocking piece 6,

An accelerating part 7,

Gyro emitter 200, emitter head 201,

Top 300, mating joint 310.

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 "upper," "lower," "horizontal," "top," "bottom," "inner," "outer," "axial," "circumferential," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate description of the present invention and simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be configured and operated in a particular 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, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; 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.

The structure of the gyro toy combination 100 according to the embodiment of the present invention will be described below with reference to the accompanying drawings.

According to the gyro toy combination 100 of the embodiment of the present invention, as shown in fig. 1, the gyro toy combination 100 is a stand-alone toy, and the gyro toy combination 100 may be superimposed on the gyro 300 to be combined with the gyro 300 into a superimposed gyro. As shown in FIG. 1, both top toy combination 100 and top 300 may be played independently before being combined, and when combined into a stacked top, the stacked top is also an independent play body. Top 300 and the superimposed top may be considered as different tops, both of which may be rotated on the ground.

The manner in which gyroscopic toy complex 100 is superimposed on top 300 is not particularly limited, and gyroscopic toy complex 100 may be superimposed on top 300 when both are stationary, or gyroscopic toy complex 100 may be superimposed on top 300 when top 300 is rotated.

As shown in fig. 1, the gyro toy combination 100 includes: a coupling body 1, a top coupling part 2 and a movable member 3. The top coupling part 2 is provided on the coupling body 1 to be coupled with the top 300, and the movable member 3 is provided on the coupling body 1 to be expandable or detachable.

According to the gyro toy assembly 100 of the embodiment of the present invention, the gyro toy assembly 100 can be combined into a superimposed gyro by superimposing the gyro toy assembly 100 on the gyro 300 by providing the gyro combining part 2 on the combining body 1; by arranging the expandable or detachable movable piece 3 on the combined main body 1, after the top 300 is changed into the overlapped top, the expandable or detachable movable piece 3 is provided, and when the movable piece 3 is used as a weapon, the overlapped top has a richer attack form, so that the interestingness of the top toy is increased, and the participation degree and experience sense of players are improved.

In addition, when combined with top 300, top toy integrated body 100 itself may serve as a weight ring or an acceleration ring of top 300, so that the rotation state of the superimposed top with respect to top 300 may be changed. For example, when toy top assembly 100 is used as a mating ring for top 300, the assembly of toy top assembly 100 provides for a more stable rotation of the stacked top relative to top 300.

In some embodiments, the toy spinning top assembly 100 may also rotate at a high speed under the action of a foreign object, when the toy spinning top 300 rotates on the ground, the toy spinning top assembly 100 with a sudden higher speed is coupled to the toy spinning top 300, and the toy spinning top assembly 100 drives the toy spinning top 300 to rise, where the toy spinning top assembly 100 may be regarded as an acceleration ring.

In some embodiments, as shown in fig. 1 and 11, gyroscopic toy combination 100 may be added to the top of a top 300, where gyroscopic toy combination 100 further includes: and an acceleration part 7, the acceleration part 7 being provided at the top of the coupling body 1 to be coupled with the emitting head 201 of the gyro emitter 200. So that the gyro toy combination 100 can be used as an acceleration ring and the gyro toy combination 100 rotating at a high speed is transmitted to the gyro 300 through the gyro transmitter 200 when the gyro 300 rotates. When the gyro toy assembly 100 falls to the top of the gyro 300, the gyro toy assembly 100 is coupled to the top of the gyro 300 through the gyro coupling part 2 and drives the gyro 300 to increase the rotation speed.

Specifically, the acceleration section 7 is a member that enables the gyro toy combination 100 to be combined with the emitter head 201 of the gyro emitter 200. Similarly, a top accelerating portion (such as the structure shown by the reference numeral 301 in fig. 1) similar to the accelerating portion 7 is also disposed on the top of the top 300, and the top accelerating portion can be combined with the launching head 201 of the top launcher 200, so that the launching head 201 will rotate to drive the top 300 to rotate. In the example shown in fig. 1 and 11, the accelerating portion 7 on the gyro toy combination 100 and the gyro accelerating portion on the gyro 300 are identical in structure and size so as to accelerate and launch by the same gyro launcher 200. Here, the structure of the gyro emitter 200, the rotation principle of the emitter head 201, and the emission principle are all the prior art, and are not described herein.

Specifically, as shown in fig. 1, the accelerating portion 7 may be integrally formed as a boss combined with the top of the main body 1, the edge of the boss forming a plurality of protrusions. In some embodiments, to make the top launcher 200 more quickly and firmly combined with the top toy combination 100, magnetic elements are provided in the boss and the launcher head 201, respectively.

In the embodiment of the present invention, the superposition manner of the gyro toy combination 100 to the gyro 300 is very various. For example, as shown in fig. 1 and 2, the gyro toy combination 100 may be superimposed on the gyro 300 from above the gyro 300, so that when the gyro 300 rotates on the ground, the gyro toy combination 100 is thrown to the gyro 300 to be very easily superimposed, and the rotation state of the gyro 300 after the superimposition may be somewhat changed.

Wherein in the example of fig. 1, gyroscopic toy complex 100 may be stacked on top of top 300 such that the stacked top is not only weight-increased but also height-increased compared to the top prior to stacking, which is more powerful when compared to other tops.

In the example of fig. 2, gyroscopic toy complex 100 may be coupled to an outer peripheral wall of top 300 such that when top 300 is rotated, gyroscopic toy complex 100 may be sleeved on top 300 similar to a sleeve and then rotated together with top 300 after being coupled. Compared with the gyroscopes before superposition, the superposition gyroscopes have the advantages that the weight is increased, the periphery is also increased, and the attack range of the superposition gyroscopes when the superposition gyroscopes are in fight against other gyroscopes is larger.

Top toy combination 100 is coupled to top 300 from above top 300, as in the example of figures 1 and 2. In another example, toy top assembly 100 may be rolled sideways onto top 300 and then coupled to top 300 to form a stacked top. For example, as shown in fig. 3, the entire toy spinning top assembly 100 is arc-shaped, and the toy spinning top assembly 100 may be thrown onto a spinning top 300 from the side. In order to increase the difficulty of challenges, a plurality of gyro toy combination bodies 100 need to be thrown on the peripheral wall of the gyro 300, the gyro toy combination bodies 100 are combined to the gyro 300 at the same time, so that the rotation stability of the gyro 300 can be ensured, the gyro toy combination bodies 100 need to be fast in eye diseases when being combined to the gyro 300 for a plurality of times, and the accuracy requirement is higher, otherwise, the gyro 300 can be unbalanced and fall down, so that the combined playing method is suitable for playing by one person alone, and the manual playing ability and the observation force can be exercised.

In the embodiment of the present invention, the gyro coupling part 2 has various structures according to the coupling form of the gyro toy combination 100. It will be appreciated that top coupling portion 2 is a structure of top toy coupling body 100 for coupling top 300, and thus top 300 is also provided with a mating coupling portion 310 for mating with top coupling portion 2. Top interface 2 is structurally compatible with mating interface 310.

In some examples, top bond 2 includes a bond groove 12 or bond post 13 that mates with the top or peripheral wall of top 300. When the top combining part 2 is the combining groove 12, the matching combining part 310 is a corresponding bulge; when the top connecting portion 2 is the connecting boss 13, the mating connecting portion 310 is a corresponding boss.

For example, in the example of fig. 2, the coupling body 1 is formed in a circular ring shape, the coupling body 1 is provided with a coupling groove 12 on an inner peripheral wall thereof, and the mating coupling portion 310 is formed as a protrusion on an outer peripheral wall of the top 300. For example, in the example of fig. 7, the gyro toy combination 100 is formed in a disk shape, and the bottom of the gyro toy combination 100 is provided with the coupling boss 13, and the fitting coupling portion 310 is formed as a groove on the top of the gyro 300. Also for example, in the example of fig. 9, the gyro toy combination 100 is formed in a disk shape, and the bottom of the gyro toy combination 100 is provided with the combining groove 12, and the fitting combining portion 310 is formed as a protrusion on the top of the gyro 300.

In some examples, top bond 2 includes top bond magnet 21 and mating bond 310 also includes another bond magnet. Thus, when the top toy combination 100 approaches the top 300, the top toy combination 100 and the top toy combination can be combined quickly and stably under the attraction of magnetic force. And the magnetic force is combined, so that the magnetic release is not easy to be influenced by rotating speed or external impact to release.

In still other examples, top bond 2 includes both a male-female snap feature and a magnetic bond. For example, in fig. 4, the top coupling part 2 includes a coupling boss 13 provided at the bottom of the coupling body 1, and also includes a top coupling magnetic member 21 provided in the coupling boss 13. Correspondingly, the mating coupling portion 310 includes a groove provided at the top of the top 300 and a coupling magnetic member located under the groove.

In the embodiment of the present invention, the movable member 3 is retractably provided on the coupling body 1, or the movable member 3 is detachably provided on the coupling body 1. The former is shown in fig. 1, the movable member 3 is changeable from a contracted state to an expanded state, and the latter is shown in fig. 9 and 10, the movable member 3 is thrown out of the coupling body 1.

Here, the manner in which the movable member 3 is disposed on the coupling body 1, and the manner in which the movable member 3 is deployed or thrown out are also varied.

In some examples, as shown in fig. 1, the movable member 3 is rotatably connected to the coupling body 1, and the movable member 3 may be rotated by centrifugal force or may be rotated by triggering of the gyro 300. For example, when the rotation speed of the gyro toy assembly 100 is low, the movable member 3 is kept at the initial movable position, and when the gyro toy assembly 100 is coupled to the gyro 300 and the gyro 300 drives the gyro toy assembly 100 to adjust rotation, the movable member 3 is thrown out.

In other examples, the movable member 3 is slidably connected to the coupling body 1, and for example, the movable member 3 may be formed as a slider extending in a direction perpendicular to the rotation axis (i.e., in a radial direction), and the slider may be slid out by centrifugal force or may be slid out by triggering of the top 300.

In still other examples, as shown in fig. 9 to 10, the movable member 3 is connected to the coupling body 1 by a string 31. Alternatively, the movable member 3 is a sphere, which is not easily caught when another toy is attacked. Further alternatively, the rope body 31 is an elastic rope, so that the length of the rope body 31 can be changed along with the rotation speed, and the elastic rope drives the movable part 3 to form elastic attack on other toys, so that the attack mode is more active. The movable member 3 may be thrown out by centrifugal force or triggered by the top 300.

In still another example, after the movable member 3 slides out or is thrown out of the combined body 1, no connection exists between the movable member 3 and the combined body 1, and at this time, the movable member 3 is similar to a sub-shot which is emitted, and the attack distance is long.

In some embodiments, gyroscopic toy combination 100 may further include a movable elastic element (not shown) acting on movable element 3 for normally driving movable element 3 to unwind or throw away. Thus, once the movable member 3 is unlocked, the toy gyro assembly 100 can be unfolded or thrown out by the movable elastic member even if it is not rotating. For example, the movable member 3 is rotatably coupled to the coupling body 1, the movable elastic member is a torsion spring provided at a rotation shaft of the movable member 3, a stopper is provided at an unwinding side of the movable member 3, and when the gyro toy coupling body 100 is coupled to the gyro 300, the gyro 300 moves the stopper away from the unwinding side of the movable member 3, so that the movable member 3 rotates under the dual action of centrifugal force and the torsion spring. Here, the stopper may be a slidable magnetic attraction member, and the top 300 may move the stopper away by a magnetic force. Alternatively, the stopper is a lever member having one end for stopping the movable member 3, and when the gyro toy assembly 100 is coupled with the gyro 300, the gyro 300 is pushed against the other end of the lever member, so that the one end of the lever member is moved away from the deployment side of the movable member 3.

In some embodiments, as shown in fig. 5-11, gyroscopic toy combination 100 further comprises: a movable locking device 4 and a movable unlocking piece 6. The movable locking device 4 is used for locking the movable member 3 at the movable initial position, so that the movable member 3 can be stably kept at the movable initial position under the locking of the movable locking device 4 during the processes of packaging, transporting, accelerating through the gyro emitter 200 and the like of the gyro toy combination 100. The movable unlocking piece 6 is matched with the movable locking device 4, and the movable locking device 4 is unlocked after the movable unlocking piece 6 is triggered, so that the movable locking device 4 releases the movable piece 3 to enable the movable piece 3 to be unfolded or thrown out. Thus, the movable locking device 4 is unlocked only by triggering the movable unlocking member 6, and then the movable member 3 can be unfolded or thrown out.

By such a design, the gyro toy combination 100 can have various playing methods by various designs of the triggering modes of the movable unlocking member 6. For example, the movable unlocking member 6 may be designed as a vibration switch, and when the top toy combination 100 and the top 300 are combined to form a stacked top, if the stacked top collides with a foreign object or a fight toy, the vibration switch may be activated to unlock the movable locking device 4. For another example, the movable unlocking member 6 is a trigger switch provided on the top or the peripheral wall, and the trigger switch can unlock the movable locking device 4 when the gyro toy assembly 100 collides with an external object or a combat toy on the top or the peripheral wall.

In some embodiments, the movable member 3 may have more variations due to the movable locking device 4 and the movable unlocking member 6 provided in the gyro toy combination 100. For example, the movable member 3 may be an elastomer as a whole, or the movable member 3 may be a partially elastomer. The movable element 3 is in the unfolded state, naturally without constraint. When the movable locking device 4 acts on the movable piece 3, the movable piece 3 is elastically deformed and has potential energy. After the movable locking device 4 releases the movable piece 3, the movable piece 3 is restored to the original shape under the action of potential energy, so that the movable piece 3 forms an unfolding state.

In some embodiments, a time delay unlocking device (not shown) is provided between the movable unlocking member 6 and the movable locking device 4. Thus, when the movable unlocking member 6 is triggered, the movable locking device 4 can be unlocked after a period of time. The delay unlocking device can be a delay device used in the scheme of the gyroscope disclosed in the prior art, and the delay unlocking device is not listed here.

For example, in one example, the time delay unlocking device includes a buffer cylinder and a cylinder rod, the buffer cylinder is filled with buffer liquid, a part of the cylinder rod is located in the buffer cylinder and immersed in the buffer liquid, the cylinder rod is telescopic relative to the buffer cylinder, and the buffer liquid acts on the surface of the cylinder rod through liquid pressure. Wherein the buffer cylinder is adapted to be connected to one of the movable unlocking member 6 and the movable locking device 4, and the cylinder rod is adapted to be connected to the other of the movable unlocking member 6 and the movable locking device 4.

Taking the connection of the cylinder rod with the movable unlocking piece 6 as an example, when the cylinder rod is triggered and moves, as part of the cylinder rod is fitted in the buffer cylinder, buffer liquid is arranged in the buffer cylinder, and the buffer liquid acts on the surface of the cylinder rod through liquid pressure. That is, due to the damping friction of the buffer liquid, when the cylinder rod is triggered, the cylinder rod cannot be moved directly to the final position, but is slowly moved to the final position. This makes it impossible to directly move the movable locking device 4 for unlocking when the cylinder rod is triggered, but the movable locking device 4 can only perform a specific action after a certain time has elapsed after the cylinder rod is triggered.

In some embodiments, as shown in fig. 6, 8 and 11, the mobile locking device 4 comprises: a movable lock collar 41 and a locking elastic member 42. The movable lock disk 41 is movably provided in the coupling body 1, and the movable unlocking member 6 is connected to the movable lock disk 41. The movable lock collar 41 may be rotatably disposed in the coupling body 1 or may be slidably disposed in the coupling body 1, and is not particularly limited herein. The locking elastic member 42 often drives the movable lock plate 41 to move toward the locking position for locking the movable member 3, and optionally, the locking elastic member 42 is a spring or torsion spring. The movable lock disk 41 is disk-shaped as a whole, the movable lock disk 41 has large area, is more stable during movement, and is convenient for limiting the movement direction.

Here, the movable lock disk 41 may be movably disposed along the axial direction of the gyro toy combination 100 in accordance with the triggering manner of the movable unlocking member 6, so that the movable unlocking member 6 can unlock the movable locking device 4 when receiving the triggering force in the axial direction. Here, the axial direction refers to a direction along the rotation axis of the gyro toy combination 100.

The movable lock disk 41 is also movable in a plane perpendicular to the rotation axis, so that the movable lock release 6 can also unlock the movable lock device 4 when a trigger force is applied from the outer circumferential direction of the gyro toy combination 100.

The movable lock disk 41 is also rotatable in a plane perpendicular to the rotation axis, so that the movable lock release 6 can also unlock the movable lock device 4 when a trigger force is applied from the outer circumferential direction of the gyro toy combination 100.

In some alternative embodiments, the movable unlocking member 6 is exposed from the bottom of the coupling body 1 or from the peripheral wall of the coupling body 1, so that the gyro toy assembly 100 can trigger the movable locking device 4 to unlock when the bottom or the peripheral wall is collided with a foreign object.

In other alternative embodiments, the movable unlocking member 6 is a movable magnetic member (not shown). In this way, even if the movable unlocking member 6 is not exposed from the surface of the coupling body 1, the movable locking device 4 can be triggered to unlock by the action of the magnetic force with the foreign object.

In a further alternative embodiment, the movable unlocking member 6 is exposed from the surface of the combined body 1, and a movable magnetic attraction member is provided, so that the collision force and the magnetic force act simultaneously when the movable unlocking member contacts with a foreign object, and the movable locking device 4 is triggered to unlock.

The structure and variations of the gyroscopic play body 100 in three different embodiments are described below with reference to FIGS. 5-11.

Example 1:

as shown in fig. 5 and 6, the gyro toy combination 100 includes: the combined body 1, the top combining part 2, the movable piece 3, the movable locking device 4 and the movable unlocking piece 6.

The coupling body 1 has a substantially disk shape, a movable chamber 10 is provided in the coupling body 1, and a plurality of circumferences Xiang Kou are provided on the outer circumference of the coupling body 1. The movable pieces 3 are plural, the plural movable pieces 3 are respectively provided in the plural circumferences Xiang Kou, and each movable piece 3 is rotatably connected to the coupling body 1.

The top coupling part 2 includes a coupling groove 12 formed at the bottom of the coupling body 1.

The movable lock device 4 includes: a movable lock collar 41 and a locking elastic member 42. The movable lock disk 41 is disposed in the movable cavity 10 and is movable in the axial direction, and the locking elastic member 42 is used for pressing the movable lock disk 41 downward, and the movable unlocking member 6 is connected with the movable lock disk 41. Wherein, the bottom of combining main part 1 is equipped with flexible hole 11, and movable unlatching piece 6 stretches out from flexible hole 11. Wherein the movable unlocking pieces 6 are a plurality of and are spaced apart along the length, namely the movable unlocking pieces 6 are a plurality of discrete. The movable unlocking pieces 6 can be distributed around the top combining part 2, so that the top combining part can be triggered by stress at a plurality of places in a circle.

The movable lock disk 41 is provided with a plurality of clamping parts 411 for matching with the movable pieces 3, the plurality of clamping parts 411 are circumferentially spaced, and in fig. 6, the plurality of clamping parts 411 are in one-to-one correspondence with the movable pieces 3.

Specifically, one end of the movable member 3 is provided with a card hole 32, and the card position portion 411 is formed as a card post inserted into the card hole 32.

When the gyro toy assembly 100 is coupled to the top of the gyro 300, the coupling groove 12 is fitted over the protrusion of the top of the gyro 300. And the top of top 300 lifts up movable unlocking member 6, moving movable lock disk 41 upward, and locking elastic member 42 compresses. After the movable lock collar 41 is moved up, the locking portion 411 is disengaged from the locking hole 32 on one end of the movable member 3, so that the other end of the movable member 3 can be extended from the circumferential opening 15 by centrifugal force or by the movable elastic member.

Example 2:

fig. 7 and 8 show the structure of the gyro toy combination 100 of embodiment 2, and the structure of embodiment 2 is substantially the same as that of embodiment 1, and the same parts will not be repeated here.

Except that in embodiment 2, top bonding part 2 includes bonding posts 13 formed at the bottom of bonding body 1. In addition, the movable chamber 10 is provided with a central hole 14 at the bottom, and no longer with a telescopic hole 11. The movable unlocking piece 6 is annular, the movable unlocking piece 6 is connected to the inner side of the movable lock disk 41, and the movable unlocking piece 6 can be exposed from the central hole 14. In addition, one end of the movable member 3 is formed as a clip 33, and the clip 33 is clipped on the clipping portion 411.

When the gyro toy combination 100 is coupled to the top of the gyro 300, the coupling boss 13 is inserted into the groove of the top of the gyro 300. And a portion of the top of top 300 extends into central hole 14 and lifts movable unlocking member 6 upward, causing movable lock disk 41 to move upward and locking elastic member 42 to compress. After the movable lock plate 41 moves up, the locking block 33 at one end of the movable member 3 is released from the locking portion 411, so that the other end of the movable member 3 can be extended from the circumferential opening 15 by centrifugal force or by the movable elastic member.

Example 3:

fig. 9 to 10 show the structure of the gyro toy combination 100 of embodiment 3, and the structure of embodiment 3 is substantially the same as that of embodiment 1, and the same parts will not be repeated here.

Except that in embodiment 3, each movable member 3 is connected to the coupling body 1 by a string 31. Specifically, the movable member 3 is formed as a sphere, and the catching portion 411 is formed as a catching groove that catches the sphere.

When the gyro toy assembly 100 is coupled to the top of the gyro 300, the coupling groove 12 is fitted over the protrusion of the top of the gyro 300. And the top of top 300 lifts up movable unlocking member 6, moving movable lock disk 41 upward, and locking elastic member 42 compresses. After the movable lock collar 41 moves up, the locking part 411 is staggered from the maximum diameter of the sphere, and the small-sized part of the locking part 411 opposite to the sphere cannot be locked, so that the sphere is in a free state. The moveable member 3 may then be thrown away from the peripheral port 15 by centrifugal force.

The structure of a gyro kit according to an embodiment of the present invention is described below with reference to the accompanying drawings.

According to an embodiment of the invention, a gyro kit includes: gyro toy assembly 100 and gyro 300. Gyro toy assembly 100 is gyro toy assembly 100 according to the above embodiments, and the structure of gyro toy assembly 100 will not be described here. The top 300 is provided with a mating and combining portion 310 for mating with the top combining portion 2, and the specific structure of the top 300 is also described above, which will not be described here again.

So that the gyro toy assembly 100 can be superimposed on the gyro 300 and the gyro coupling part 2 is coupled with the coupling part 310, so that the gyro toy assembly 100 and the gyro 300 are simultaneously rotated to form a single gyro, i.e., a superimposed gyro.

According to the gyro kit of the embodiment of the present invention, by providing the gyro coupling part 2 on the gyro toy coupling body 100, the gyro toy coupling body 100 can be coupled to the gyro 300 to be superimposed, so that two separate toys can be coupled to one separate toy. By arranging the expandable or detachable movable piece 3 on the combined main body 1, after the top 300 is changed into the overlapped top, the expandable or detachable movable piece 3 is provided, and when the movable piece 3 is used as a weapon, the overlapped top has a richer attack form, so that the interestingness of the top toy is increased, and the participation degree and experience sense of players are improved.

In the description herein, reference to the term "embodiment," "example," 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 (14)

1. A gyroscopic toy combination which is a stand-alone toy, the gyroscopic toy combination being stackable onto a top to combine with the top into a stacked top, the gyroscopic toy combination comprising:

a coupling body;

the top combining part is arranged on the combining main body to be combined with the top;

the movable piece is arranged on the combined main body in a deployable or detachable manner;

further comprises: the movable locking device is used for locking the movable piece at a movable initial position;

the movable unlocking piece is matched with the movable locking device, and the movable locking device is unlocked after the movable unlocking piece is triggered, so that the movable locking device releases the movable piece to enable the movable piece to be unfolded or thrown out;

the movable elastic piece is used for normally driving the movable piece to be unfolded or thrown out.

2. The gyroscopic toy combination of claim 1, in which the moveable member is rotatably coupled to the combination body, or the moveable member is slidably coupled to the combination body, or the moveable member is coupled to the combination body via a tether.

3. The play set of claim 1, wherein at least a portion of the movable member is elastomeric and wherein the movable member expands by returning to its original shape after the movable member is released by the movable locking means.

4. The gyroscopic toy combination of claim 1, in which a time delay unlocking device is provided between the movable unlocking member and the movable locking device.

5. The gyroscopic toy combination of claim 1, in which the movable locking device comprises:

the movable lock disc is movably arranged in the combined main body, and the movable unlocking piece is connected with the movable lock disc;

the locking elastic piece often drives the movable lock disc to move towards a locking position for locking the movable piece.

6. The play set of claim 5, wherein the movable lock disk is movable in an axial direction of the play set or movable or rotatable in a plane perpendicular to an axis of rotation.

7. The gyroscopic toy combination of claim 5, wherein the movable unlocking member is exposed from a bottom of the combination body or from a peripheral wall of the combination body, and/or wherein the movable unlocking member is a movable magnetic attraction member.

8. The spinning top toy combination of claim 5, wherein the movable lock disk is movable along an axial direction of the spinning top toy combination, the locking elastic member is used for pressing the movable lock disk downwards, the movable unlocking member is connected with the movable lock disk, the movable unlocking member extends out or is exposed from the bottom of the spinning top toy combination, and the movable lock disk is provided with a clamping portion for being matched with the movable member.

9. The play set of claim 8, wherein the detent is a plurality of circumferentially spaced apart play pieces, the play set having a corresponding plurality of moving members.

10. The play set of claim 8, wherein the movable unlocking member is annular or discrete, and wherein the movable unlocking member is disposed around the play set.

11. The gyroscopic toy combination of any one of claims 1-10, wherein the gyroscopic toy combination is stackable onto a top or peripheral wall of the top to combine with the top into the stacked top.

12. The play set of claim 11, wherein the play set is stackable on top of the play set, the play set further comprising: and the accelerating part is arranged at the top of the combining main body so as to be combined with the transmitting head of the gyro transmitter.

13. The play set of claim 11, wherein the play set comprises a play set magnetic member, the play set further comprising a coupling groove or coupling boss that mates with the top or peripheral wall of the play set.

14. A gyroscopic kit comprising:

a gyroscopic toy combination according to any one of claims 1 to 13;

the top is provided with a matching and combining part which is used for being matched with the top combining part.