CN210121342U - Superposed gyroscope - Google Patents

Abstract

The utility model discloses a stack top, stack top are formed by top and the combination of last top toy stack, and top and last top toy are independent toy, and wherein, the top includes: the gyroscope comprises a gyroscope main body, an upper gyroscope combining part and a movable gyroscope tip, wherein the upper gyroscope combining part is arranged at the top of the gyroscope main body, and the movable gyroscope tip is movably arranged at the bottom of the gyroscope main body; the top toy comprises: the gyroscope comprises an upper gyroscope body, a gyroscope combining part and a movable part, wherein the gyroscope combining part is arranged on the upper gyroscope body to be combined with the upper gyroscope combining part, and the movable part is arranged on the upper gyroscope body in an unfolding or detachable manner; when the top toy is combined to the top of the top, the top triggers the movable piece to move, and the top toy triggers the movable top tip to move. The utility model enriches the playing method of the top and has more playability. And increase activity top point and moving part for the stack top possesses movement track transform and shape transform ability, has strengthened holistic interest and entertainment experience greatly and has felt.

Description

Superposed gyroscope

Technical Field

The utility model relates to a toy technical field especially relates to a stack top.

Background

The existing mainstream gyro toy mainly changes the movement track of a gyro through a gyro fight touch switch or a centrifugal force transformation gyro tip, and the mode of gyro tip transformation is stiff and has weak controllability, so that the experience of people is weak. The existing superposed gyroscope only realizes acceleration of the gyroscope through superposition of the upper gyroscope cover and the gyroscope, and in addition, the attack or defense form can not be changed, so that the product is not interesting enough and has poor playability, and the entertainment interest of people can not be aroused.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, the utility model provides a stack top to solve the dull controllability difference of current top transform mode, the whole low problem of interest of top.

According to the utility model discloses stack top, stack top combines to form by top and last top toy stack, the top with it is independent toy to go up top toy, wherein, the top includes: the gyroscope comprises a gyroscope main body, an upper gyroscope combining part and a movable gyroscope tip, wherein the upper gyroscope combining part is arranged at the top of the gyroscope main body, and the movable gyroscope tip is movably arranged at the bottom of the gyroscope main body; the top toy comprises: the gyroscope comprises an upper gyroscope body, a gyroscope combining part and a movable part, wherein the gyroscope combining part is arranged on the upper gyroscope body so as to be combined with the upper gyroscope combining part, and the movable part is arranged on the upper gyroscope body in an unfolding or detachable manner; wherein, when the top toy is combined on the top of the top, the top triggers the movable piece to move, and the top toy triggers the movable top tip to move.

According to the utility model discloses stack top through setting up top toy, can stack together with the top and rotate, has richened the method of playing of top, has more the object for appreciation nature. And increase activity top point and moving part for the stack top possesses movement track transform and appearance transform ability, has strengthened the holistic interest of stack top and the amusement experience feels, and the controllability of top transform is stronger simultaneously, also has more visual impact effect when rotatory playing.

In some embodiments, the top further comprises: a tip holder for holding the movable tip in a tip initial position, and a tip trigger for driving the tip holder to unlock after triggering; the top toy further comprises: the movable unlocking piece is matched with the movable locking device, and the movable locking device is unlocked after being triggered to release the movable locking device so that the movable locking device releases the movable part to enable the movable part to be unfolded or thrown out.

Further, when the top toy is coupled to the top of the spinning top, the top-tip trigger and the movable unlocking piece interact to unlock each other.

Further, the movable unlocking piece is exposed from the bottom of the upper gyroscope body, and the gyroscope point trigger piece is exposed from the top of the gyroscope main body; and/or the movable unlocking piece and the gyro-tip triggering piece are both triggering magnetic attracting pieces.

In some embodiments, a time-delay unlocking device is arranged between the movable unlocking piece and the movable locking device, and/or a time-delay triggering device is arranged between the top tip triggering piece and the top tip holding piece.

In some embodiments, the movable member is rotatably connected to the upper top body, or the movable member is slidably connected to the upper top body, or the movable member is connected to the upper top body through a rope, or at least a portion of the movable member is an elastic body, and after the movable member is triggered, the movable member is unfolded by restoring its original shape.

In some embodiments, the movable locking device comprises: the movable lock disc is movably arranged in the upper gyroscope body, the movable unlocking piece is connected with the movable lock disc, and a clamping part used for matching the movable piece is arranged on the movable lock disc; and the locking elastic piece drives the movable locking disc to move towards a locking position for locking the movable piece.

In some embodiments, the top of the top toy is provided with a top accelerating part, and the top accelerating part are both used for being combined with a transmitting head of a top transmitter.

Further, top joint portion is including establishing top in the top acceleration portion combines magnetic part, top joint portion still includes the top recess, the cooperation of top acceleration portion is in the top recess, it combines magnetic part including establishing to go up top in the top acceleration portion.

In some embodiments, the bottom of the gyroscopic body is formed as a main tip, the mobile tip being configured as a telescopic tip that is telescopic with respect to the main tip.

In some embodiments, the gyroscope includes a gyroscope needle disposed in the gyroscope body and having a bottom portion protruding from the bottom portion of the gyroscope body, the movable gyroscope tip is formed as a sleeve externally fitted over the gyroscope needle, an extending spring for pushing the sleeve downward is disposed between the sleeve and the gyroscope needle, the gyroscope tip holder is clamped on the sleeve, and the gyroscope tip trigger is stopped against the gyroscope tip holder.

Furthermore, the gyroscope also comprises a reset assembly arranged on the gyroscope main body, one end of the reset assembly extends out of the gyroscope main body, the other end of the reset assembly acts on the sleeve, and the sleeve is pushed to be clamped on the gyroscope tip holder when the reset assembly is triggered.

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

Drawings

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

FIG. 1 is a schematic perspective view of a stacked gyroscope in one embodiment;

FIG. 2 is a top view of a stacked gyroscope in one embodiment;

FIG. 3 is a sectional view taken along line A-A of FIG. 2;

FIG. 4 is a sectional view taken along line B-B of FIG. 2;

FIG. 5 is a first perspective view of the top toy of one embodiment;

FIG. 6 is a second perspective view of the top toy of the embodiment shown in FIG. 5 (with the case removed);

FIG. 7 is a first perspective view of another embodiment of the top toy;

FIG. 8 is a second perspective view of the top toy of the embodiment shown in FIG. 7 (with the case removed);

FIG. 9 is a first perspective view of a top toy according to yet another embodiment;

fig. 10 is a second perspective view of the top toy of the embodiment shown in fig. 9 (with the case removed).

Reference numerals:

a superposed top 100,

A top 10,

A top body 11, a main top tip 111, a fixed seat 112,

An upper gyroscope coupling part 12, an upper gyroscope coupling magnetic member 121,

A movable top tip 13, a transition step 13a, a first sleeve 131, a second sleeve 132, a stop part 133,

A top holder 14, a first slope 141, a second slope 142,

The gyro-tip trigger 15, the abutting portion 151,

A gyro acceleration part 16,

A gyroscope needle 17,

A reset component 18, a reset element 181, a shifting block 182,

An upper top toy 20,

The upper gyroscope body 21, the box body 211, the notch 2111, the long and thin groove 2112, the cover body 212, the connecting column 2121, the containing cavity 213, the positioning column 214,

A top coupling part 22, a top coupling magnetic member 221, an upper top groove 222,

The movable piece 23, a round hole 231, a clamping convex 232,

A movable locking device 24, a movable lock plate 241, a blocking part 2411, a limit column 2412, a claw 2413, a locking elastic piece 242,

A movable unlocking piece 25,

An upper gyro acceleration part 26,

Extension spring 30, return spring 40, rope 50.

Detailed Description

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

In the description of the present invention, it is to be understood that the terms "center", "upper", "lower", "horizontal", "top", "bottom", "inner", "outer", "circumferential", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are used merely for convenience of description and simplification of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Furthermore, features defined as "first" and "second" may explicitly or implicitly include one or more of the features for distinguishing between descriptive features, non-sequential, non-trivial and non-trivial.

In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

A stack top 100 according to an embodiment of the present invention is described below with reference to fig. 1 to 10.

As shown in fig. 1 to 3, according to the stacked top 100 of the embodiment of the present invention, the stacked top 100 is formed by stacking and combining a top 10 and an upper top toy 20, and the top 10 and the upper top toy 20 are independent toys. As shown in FIG. 3, the independent top toy 20 may play as a flying saucer, the independent top 10 may rotate on the ground, and the stacked top 100 is another top that may rotate on the ground.

The top 10 includes: top main part 11, upper top joint part 12 and activity top 13, upper top joint part 12 is established at the top of top main part 11, and activity top 13 movably establishes the bottom at top main part 11. By adding the movable top tip 13, the top 10 can change the top tip state at the bottom of the top body 11 through the movement of the movable top tip 13 in addition to the rotation function of the prior top, thereby changing the rotation state of the top 10.

The top toy 20 comprises: an upper gyroscope body 21, a gyroscope combining part 22 and a movable element 23. The top combining part 22 is arranged on the upper top body 21 to be combined with the upper top combining part 12, so that the reliable and stable combination of the top 10 and the upper top toy 20 is ensured. The movable element 23 is disposed on the upper gyro body 21 in an expandable or detachable manner, so that the upper gyro toy 20 has a certain deformation capability in appearance through the movable element 23, and the whole rotation is more cool and dazzling. Of course, the movable member 23 of the top toy 20 may also act as a weapon to increase aggressiveness when deployed or thrown out in the fight with the fighting gyroscope.

Wherein, when the top toy 20 is coupled to the top of the top 10, the top 10 triggers the movement of the movable element 23, and the top toy 20 triggers the movement of the movable top tip 13. It will be understood that the movement of the movable element 23 and of the movable tip 13 is triggered by the mutual coupling of the top toy 20 and the top 10, so as to make the tip-change of the top 10, the shape-change of the top toy 20 more controllable and the stability during deformation higher.

There are various ways of changing the rotation state of the spinning top 10 by the movement of the movable top tip 13. For example, the top 10 rotates with the movable top tip 13 touching the ground when playing alone, and the stack top 100 rotates with the movable top tip 13 touching the ground when the top toy 20 is coupled to the top 10, but the movable top tip 13 is elongated or shortened, so that the center of gravity of the stack top 100 is raised or lowered, and the stack top 100 behaves differently in wartime when the height of the center of gravity is changed.

For example, when the top 10 is rotated by itself, the movable top tip 13 is rotated to contact with the ground, and when the top toy 20 is coupled to the top 10, the movable top tip 13 is retracted into the body of the top 10, and the top 10 is rotated to contact with the ground by the top tip at the bottom thereof, so that the area of the superimposed top 100 contacting with the ground at the bottom thereof is changed with respect to the top 10.

Also for example, top 10 has a fixed top pin with which top 10 rotates touchdown when rotated alone. When the top toy 20 is coupled to the top 10, the movable peg-top protrudes from the top 10. After the movable gyro needle is extended, the gyro 10 can rotate in a touchdown manner by the movable gyro needle, or the gyro 10 can rotate in a touchdown manner by the fixed gyro needle and the movable gyro needle simultaneously. Such that the bottom touchdown area or touchdown position of the superimposed top 100 may vary with respect to top 10. In some schemes, when the bottom of the gyroscope is provided with a fixed gyroscope needle and a movable gyroscope needle which are arranged side by side, the gyroscope can be slightly inclined when rotating, so that the two gyroscope needles can alternately touch the ground when the gyroscope rotates, namely, the gyroscope support position is alternately changed.

In summary, the top 10 combines the movement change of the movable top tip 13 of the top toy 20 and the change of the overall movement state of the superimposed top 100, so that the superimposed top 100 is highly interesting and versatile in playing.

Moreover, the change of the rotation state of the superimposed gyro 100, in combination with the change of the overall shape of the superimposed gyro 100 (the movable member 23 is unfolded or thrown away), can provide more play for the superimposed gyro 100. For example, when the movable element 23 is used as a weapon, the player needs to find an appropriate timing, which can increase the rotation speed of the top by the combination, change the rotation state of the top by the combination (i.e., change the tactical policy, consider changing from attack type to defense type, or from defense type to attack type), and increase the attack form by the combination (i.e., attack the fighting top by the movable element 23). Many changes very much test the player's ability to meet an urgent need, also can temper the player's ability to operate and long-term strategic thinking ability.

According to the utility model discloses stack top 100 through setting up top toy 20, can superpose together with top 10 and rotate, has richened the method of playing of top, has more the object of playing. And increase activity top point 13 and moving part 23 for stack top 100 possesses rotation state transform and appearance transform ability, has strengthened the holistic interest of stack top 100 and has experienced the sense with the amusement, and the controllability of top transform is stronger simultaneously, also has more visual impact effect during rotatory playing.

In some embodiments, as shown in fig. 3, top 10 further comprises: a tip holder 14 and a tip trigger 15. The tip holder 14 is intended to hold the movable tip 13 in the initial position of the tip, i.e. to ensure that, in the non-triggered state, the position of the movable tip 13 does not change, being in a fixed state, avoiding uncontrolled and random movements of the movable tip 13. The tip triggering member 15 drives the tip holder 14 to unlock after triggering. In this way, the tip holder 14 and the tip trigger 15 ensure that the movable tip 13 is only triggered to move when the top 10 and the top toy 20 are in the combined state, thus achieving reliable control of the movable tip 13.

Of course, in the embodiment of the present invention, the arrangement of the peg-tip holder 14 and the peg-tip trigger 15 on the peg-top 10 may be eliminated. For example, the bottom of the gyro body 11 is formed as a main tip 111, the movable tip 13 is configured as a telescopic tip which is telescopic with respect to the main tip 111, and the movable tip 13 is freely telescopic, and the top of the movable tip 13 can protrude out of the gyro body 11. When the gyroscope 10 rotates on the ground alone, the telescopic gyroscope tip is pushed inside the main gyroscope tip 111 by the ground pressure. When the upper toy gyroscope 20 is coupled to the gyroscope 10, the upper toy gyroscope 20 presses the telescopic gyroscope tip downwards, so that the telescopic gyroscope tip protrudes from the main gyroscope tip 111.

In some embodiments, as shown in fig. 3, the top toy 20 further comprises: a movable locking device 24 and a movable unlocking member 25. The movable locking device 24 is used to lock the movable member 23 at the movable initial position, that is, to ensure that the position of the movable member 23 is not changed and is in a fixed state when the movable member is not triggered, so as to prevent the movable member 23 from moving freely in an uncontrolled manner. The movable unlocking piece 25 is matched with the movable locking device 24, and after the movable unlocking piece 25 is triggered, the movable locking device 24 is unlocked, so that the movable locking device 24 releases the movable piece 23, and the movable piece 23 is unfolded or thrown out. In this way, the movable locking device 24 and the movable unlocking member 25 ensure that the movable member 23 is triggered to be expanded or separated only in the state where the spinning top 10 and the upper spinning top toy 20 are combined with each other, thereby realizing reliable control of the movable member 23.

Further, when the upper top toy 20 is coupled to the top of the top 10, the top-tip trigger 15 and the movable unlocking piece 25 interact to unlock each other. The positions of the top tip triggering piece 15 and the movable unlocking piece 25 are correspondingly arranged, so that when the upper top toy is combined with the top toy 20 and the top toy 10, the movable top tip 13 and the movable piece 23 are simultaneously triggered, and the visual impact is stronger and more shocking during playing.

Further, the movable unlocking piece 25 is exposed from the bottom of the upper gyro body 21, and the gyro-tip triggering piece 15 is exposed from the top of the gyro body 11. When the top toy 20 is combined with the top 10, the movable unlocking piece 25 exposed at the bottom of the top toy 20 first contacts the top tip triggering piece 15 exposed at the top of the top body 11, and can respectively unlock the movable top tip 13 and the movable piece 23 after interaction.

In addition, the movable unlocking part 25 and the gyro-tip triggering part 15 can also be both triggered magnetic attraction parts, so that the movable unlocking part 25 and the gyro-tip triggering part 15 are driven to move under the action of the magnetic attraction force. On one hand, the contraposition requirements of the gyroscope 10 and the upper gyroscope toy 20 are reduced, on the other hand, the magnetic force is utilized to improve the triggering effect, and the triggering accuracy is improved.

In other embodiments, the movable unlocking piece 25 and the gyro-tip triggering piece 15 are both magnetic triggering pieces, the movable unlocking piece 25 is disposed at the bottom of the upper gyro body 21 and is not exposed, and the gyro-tip triggering piece 15 is disposed at the top of the gyro body 11 and is not exposed. Thus, when the top toy 20 is combined with the top 10, the interaction between the movable unlocking piece 25 and the top tip triggering piece 15 can be realized only by the action of the magnetic attraction force, and the function of unlocking the movable top tip 13 and the movable piece 23 can also be realized. By adopting the mode, through holes for exposure do not need to be manufactured on the top toy 20 and the top 10, so that the manufacturing procedures are reduced, and the production and the manufacturing are facilitated.

In some embodiments, a time-delay unlocking device is provided between the movable unlocking piece 25 and the movable locking device 24, or a time-delay triggering device is provided between the gyro-tip triggering piece 15 and the gyro-tip holding piece 14. In some embodiments, a time-delay unlocking device is provided between the movable unlocking piece 25 and the movable locking device 24, and a time-delay triggering device is also provided between the tip triggering piece 15 and the tip holding piece 14.

The time delay unlocking device and the time delay triggering device can adopt the time delay device used in the prior published gyro scheme, and the arrangement of the time delay device ensures that the movement of the movable gyro tip 13 and/or the movement of the movable part 23 are triggered after the gyro 10 and the upper gyro toy 20 are combined into the superposed gyro 100 for a period of time, so that the movement is triggered after the rotation state of the superposed gyro 100 is more stable, and the stable rotation of the superposed gyro 100 is favorably kept.

The time delay devices in the existing gyro schemes are not listed. For example, in one example, the time delay device comprises a buffer cylinder and a cylinder rod, wherein the buffer cylinder is filled with buffer solution, a part of the cylinder rod is positioned in the buffer cylinder and is immersed in the buffer solution, the cylinder rod can extend and retract relative to the buffer cylinder, and the buffer solution acts on the surface of the cylinder rod through liquid pressure. Wherein the cushion cylinder may be connected to one of the movable unlocking piece 25 and the movable locking device 24, and the cylinder rod may be connected to the other of the movable unlocking piece 25 and the movable locking device 24.

Taking the example of the cylinder rod being connected to the movable unlocking member 25, when the cylinder rod is triggered and moves, since part of the cylinder rod is engaged in the buffer cylinder, the buffer cylinder is provided with a buffer solution, and the buffer solution acts on the surface of the cylinder rod through liquid pressure. That is, when the cylinder rod is triggered, the cylinder rod cannot move directly to the final position, but slowly moves to the final position due to the damping friction of the buffer liquid. This prevents the movable latch 24 from moving directly to unlock when the cylinder rod is triggered, but the movable latch 24 can only perform certain actions after a period of time has elapsed after the cylinder rod is triggered.

In the embodiment of the present invention, the movable element 23 is disposed on the upper gyroscope body 21 in an expandable manner, or the movable element 23 is disposed on the upper gyroscope body 21 in a detachable manner. The former is shown in fig. 6 and 8, the movable element 23 can change from a retracted state to an extended state, and the latter is shown in fig. 10, the movable element 23 can throw the upper mass 21.

Here, the arrangement of the movable element 23 on the upper gyro 21 and the trigger manner of the expansion or throwing-out of the movable element 23 are various.

In some embodiments, the mobile element 23 is pivotally connected to the upper mass 21. After the movable element 23 is triggered to release the restriction, the movable element 23 rotates out of the upper gyroscope body 2 under the action of centrifugal force or other forces during the rotation of the upper gyroscope toy 20.

Specifically, when the movable member 23 is rotatably connected to the upper mass 21, a torsion spring (not shown) may be disposed on the movable member 23, so that when the movable member 23 is unlocked, the movable member 23 is rapidly opened by the action of the torsion spring.

In some embodiments, the movable element 23 is slidably connected to the upper mass 21, so that after the movable element 23 is triggered to release the restriction, the movable element 23 slides out of the upper mass 21 under the action of centrifugal force or other forces during the rotation of the upper toy top 20.

In some embodiments, the movable element 23 is connected to the upper mass 21 by the rope 50, and after the movable element 23 is triggered and released from the restriction, during the rotation of the upper mass toy 20, the movable element 23 is thrown off the upper mass 21 under the action of centrifugal force and remains connected to the upper mass 21 by the rope 50. Optionally, the rope 50 is an elastic rope, so that the length of the rope 50 can be changed with the rotation speed, and the elastic rope drives the lower movable member 23 to elastically attack other toys, so that the attack mode is more active.

In another example, after the movable element 23 slides out or throws off the upper gyroscope body 21, there is no connection between the movable element 23 and the upper gyroscope body 21, and at this time, the movable element 23 is similar to a shot which is shot out, and the attack distance is long. In some embodiments, at least a portion of the movable member 23 is an elastic body, i.e., the movable member 23 may be an elastic body as a whole, or the movable member 23 may be only a portion of an elastic body. The movable element 23 is in the deployed state, naturally without constraint. When the movable locking device 24 acts on the movable member 23, the movable member 23 is elastically deformed and has potential energy. After the movable element 23 is triggered and the movable locking device 4 releases the movable element 3, the movable element 3 recovers the original shape under the action of potential energy, that is, the movable element 23 is unfolded by recovering the original shape.

In some embodiments, as shown in fig. 3, the movable locking device 24 includes: a movable lock plate 241 and a locking elastic member 242. The movable lock disc 241 is movably arranged in the upper gyroscope body 21, the movable unlocking piece 25 is connected with the movable lock disc 241, and a clamping part 2411 for matching with the movable piece 23 is arranged on the movable lock disc 241; the locking spring 242 normally urges the movable lock plate 241 toward the locked position for locking the moveable member 23. It can be understood that, after the movable unlocking member 25 is triggered, the movable locking disc 241 is pushed to move upwards, so that the blocking portion 2411 is disengaged from the movable member 23, and the movable member 23 is released from being limited, and the locking elastic member 242 ensures that the movable locking disc 241 is reset, so as to realize the re-limitation of the movable member 23.

In other embodiments, as shown in fig. 3, the upper gyroscope body 21 includes a box body 211 and a cover body 212, the box body 211 and the cover body 212 cooperate to form a receiving cavity 213, and the movable locking device 24 is disposed in the receiving cavity 213. The box body 211 is provided with a notch 2111, so that the movable piece 23 is unfolded or separated from the notch 2111 after being unlocked.

In a specific example, as shown in fig. 5 and 6, the upper gyroscope 21 is provided with a positioning post 214, the movable element 23 is sleeved on the positioning post 214 to rotate around the positioning post 214, one end of the movable element 23 is provided with a circular hole 231, and a retaining portion 2411 on the movable lock disc 241 is formed to cooperate with the circular hole 231 to form a limiting post 2412. Therefore, when the movable lock plate 241 moves upward, the limit post 2412 disengages from the circular hole 231, so as to unlock the movable member 23, and the movable member 23 can rotate out under the action of centrifugal force. Meanwhile, the locking elastic member 242 may be a spring, the locking elastic member 242 is located between the cover body 212 and the movable locking plate 241, and the movable unlocking member 25 is connected to the movable locking plate 241 and extends out of the box body 211, so that when the spinning top 10 is combined with the upper spinning top toy 20, the movable unlocking member 25 is triggered by contacting the spinning top 10.

In a specific example, as shown in fig. 7 and 8, a positioning column 214 is disposed on the upper mass 21, the movable element 23 is sleeved on the positioning column 214, a locking protrusion 232 is disposed at one end of the movable element 23, and a locking portion 2411 on the movable lock disc 241 is formed as a claw 2413 which is matched with the locking protrusion 232. Therefore, when the movable lock plate 241 moves upward, the locking claw 2413 disengages from the locking protrusion 232, so as to unlock the movable element 23, and the movable element 23 can rotate out under the action of centrifugal force. Meanwhile, the locking elastic members 242 may be springs, a plurality of locking elastic members 242 are spaced apart along the circumferential direction of the movable lock plate 241, and the locking elastic members 242 are disposed between the movable lock plate 241 and the cover body 212. In addition, the movable unlocking member 25 may be formed in a circular ring shape and coupled to the inner side of the movable locking disk 241. Wherein, the bottom opening of the containing cavity 213, when the spinning top 10 is combined with the upper spinning top toy 20, the top of the spinning top 10 can extend into the containing cavity 213 from the opening to extrude the movable unlocking piece 25, and the movable unlocking piece 25 is triggered to move upwards, so as to drive the movable locking disc 241 to move upwards.

In a specific example, as shown in fig. 9 and 10, the movable element 23 may be a ball thrower, the ball thrower is connected to the upper mass 21 through a rope 50, an elongated slot 2112 extending in the circumferential direction is provided on the box body 211, and one end of the elongated slot 2112 extends to the notch 2111. The ball throwing is received in the slot 2111 and the line 50 is received in the elongated slot 2112. When the upper toy gyroscope 20 rotates, the spin ball is thrown outward, and the rope 50 is thrown out of the elongated slot 2112 along with the spin ball. In addition, screens portion 2411 is C shape, and the opening part width of the screens portion 2411 of C shape is less than the diameter of getting rid of the ball to guarantee to block and get rid of the ball. The movable unlocking piece 25 is connected to the movable lock disk 241 and extends out of the box body 211, so that when the spinning top 10 is combined with the upper spinning top toy 20, the movable unlocking piece 25 is triggered, the movable lock disk 241 moves upwards, the C-shaped clamping portion 2411 is separated from the ball throwing fit, and the moving piece 23 is released.

In addition, in order to facilitate the connection between the rope 50 and the cover 212, a connection post 2121 may be disposed on the cover 212, and one end of the rope 50 is tied to the connection post 2121, so that the rope 50 can be detached and replaced.

Specifically, the movable member 23 may be provided in plurality. Here, no further limitation is imposed on the number of movable pieces 23. For example, the movable members 23 may be provided in three, and may be spaced apart along the circumferential direction of the movable lock disk 241. So that by increasing the number of moving parts 23, the visual effect of the opening of the moving parts 23 can be enhanced.

In some embodiments, as shown in fig. 3, the top of the top toy 20 is provided with a top acceleration portion 26, the top of the top 10 is provided with a top acceleration portion 16, and both the top acceleration portion 26 and the top acceleration portion 16 are used to combine with the emitting head of the top launcher. That is, the gyro acceleration part 16 is combined with the emitting head of the gyro emitter, and can be used to emit and rotate the gyro 10 at a high speed. The upper gyro accelerating portion 26 may be combined with the launching head of the gyro launcher to accelerate the upper gyro toy 20 and launch it onto the gyro 10 to be stacked. The mode is simple to operate and convenient to use, and the rotating speed of the stacked gyroscope can be further improved by accelerating the upper gyroscope toy 20, so that the rotating time is prolonged, and the playing of people is facilitated.

Further, as shown in fig. 3, the gyro combination portion 22 includes a gyro combination magnetic member 221 disposed in the upper gyro acceleration portion 26, the gyro combination portion 22 further includes an upper gyro groove 222, the gyro acceleration portion 16 is fitted in the upper gyro groove 222, and the upper gyro combination portion 12 includes an upper gyro combination magnetic member 121 disposed in the gyro acceleration portion 16. Through the cooperation of top acceleration portion 16 and last top recess 222, this kind of groove complex mode has guaranteed top 10 and the accurate location of last top toy 2, is favorable to combining. Due to the magnetic attraction between the top combining magnetic part 221 and the upper top combining magnetic part 121, the top accelerating part 16 is magnetically attracted into the upper top groove 22, and the combining ability of the top 10 and the upper top toy 2 is enhanced remarkably.

Specifically, the top binding magnetic member 221 and the upper top binding magnetic member 121 may be magnets. By adopting the mode, the preparation is simple, the materials are convenient to obtain, and the cost is favorably saved.

In the embodiment of the present invention, the movable top 13 may move in a form of a telescopic movement in the axial direction, or a horizontal movement in a direction perpendicular to the axial direction. For example, a plurality of translation gyro needles are arranged in the gyro 10, and when the gyro is not triggered, the bottoms of the plurality of translation gyro needles are gathered into a bundle, and at this time, the gyro tip formed by the plurality of translation gyro needles is thinner at the bottom of the gyro 10. The bottoms of the plurality of translation gyro needles are scattered after being triggered, and the gyro tip formed by the plurality of translation gyro needles at the bottom of the gyro 10 is thicker.

In some embodiments, as shown in fig. 3, the bottom of the top body 11 is formed as a main top tip 111, and the top 10 is rotated on the ground by the main top tip 111 of the bottom after being launched. The movable tip 13 is configured as a telescopic tip that is telescopic with respect to the main tip 111, that is to say that, when the tip is shifted, the main tip 111 is in a first tip state when it lands; when the movable tip 13 extends and retracts with respect to the main tip 111, the shape of the main tip 111 is changed, constituting a second state of the tip. The two gyro-tip states are transformed to change the motion state of the superimposed gyro 100.

In some embodiments, as shown in fig. 3, the spinning top 10 comprises a spinning top needle 17 arranged inside the spinning top body 11 and having a bottom portion protruding from the bottom portion of the spinning top body 11, the movable spinning top 13 being formed as a sleeve that is sleeved on the spinning top needle 17. It will be understood that, when the bottom of the sleeve is located on the upper side of the bottom of the peg-top 17, the peg-top 17 alone constitutes the main peg-top 111 at the bottom of the peg-top body 11, forming a first peg-top state; when the sleeve moves downwards when released, the sleeve is flush with the bottom of the peg-top needle 17 and constitutes the main peg-top 111 of the peg-top body 11, forming a second peg-top state. An extension spring 30 for pushing the sleeve downwards is arranged between the sleeve and the gyroscope needle 17, and the sleeve is tightly clamped on the gyroscope tip holder 1 in an initial state under the action of the elastic force of the extension spring 30 so as to fix the position of the sleeve. The tip triggering element 15 rests against the tip holder 14 for unlocking the tip holder 14.

In a particular embodiment, as shown in fig. 3, the movable top tip 13 comprises a first sleeve 131, a second sleeve 132, the first sleeve 131 being connected to the second sleeve 132 and the connection being formed with a transition step 13 a. Wherein, the second sleeve 132 is sleeved on the gyro needle 17 and sleeved on the bottom of the gyro body 11, and the movable gyro tip 13 is limited on the gyro body 11 by the transition step 13 a. The fixing seat 112 is arranged in the top body 11, and the fixing seat 112 is fitted in the first sleeve 131, so that the movable top 13 can be guided up and down along the fixing seat 112. The extension spring 30 is provided in the first sleeve 131, and one end of the extension spring 30 is supported on the fixing base 112 and the other end is supported on the transition step 13 a. In addition, the peg 17 is fixed to the fixing base 112.

Next, as shown in fig. 3, a return spring 40 is supported between the gyro-tip holder 14 and the gyro body 11. The tip holder 14 has a first inclined portion 141 at an end close to the movable tip 13, and a second inclined portion 142 at an end close to the tip trigger 15, the movable tip 13 includes a stopping portion 133 capable of cooperating with the first inclined portion 141, and the tip trigger 15 is provided with a stopping portion 151 cooperating with the second inclined portion 142. Thus, in the initial state, the abutting portion 133 abuts against the upper end of the first inclined portion 141, the extension spring 30 is in a compressed state, and the gyro-tip triggering member 15 is exposed from the top of the gyro 10. When the gyro-tip trigger 15 is subjected to a downward acting force, the gyro-tip retainer 14 is pushed to move horizontally and compress the return spring 40 through the cooperation of the abutting portion 151 and the second inclined portion 142, at this time, the first inclined portion 141 and the abutting portion 133 are completely separated from abutting, the extension spring 30 is restored and stretched, so that the movable gyro-tip 13 moves downward to extend the gyro-needle 17, and the gyro-tip is converted from the first gyro-tip state into the second gyro-tip state.

Further, as shown in fig. 4, the spinning top 10 further includes a reset assembly 18 disposed on the spinning top body 11, one end of the reset assembly 18 extends out of the spinning top body 11 and the other end acts on the sleeve, and the reset assembly 18 pushes the sleeve to be clamped on the spinning top holder 14 when being triggered. In this way, the return of the movable top 13 is achieved.

In a preferred embodiment, as shown in fig. 4, the reset assembly 18 comprises a reset member 181 and a shifting block 182, wherein the reset member 181 is slidably disposed on the top body 11 and extends out of the top body 11. The shifting block 182 is rotatably connected in the top body 11, one end of the shifting block 182 is supported on the reset member 181, and the other end abuts against the bottom of the abutting portion 133. When resetting, the reset piece 181 is pressed down to turn the shifting block 182 upwards, the other end of the shifting block 182 shifts the movable gyro tip 13 to move upwards through the stopping part 133, and the stopping part 133 is matched with the inclined surface of the first inclined part 141, so that the gyro tip retaining piece 14 is pushed to move horizontally, the stopping part 133 passes over the first inclined part 141 and is supported on the upper end of the first inclined part 141 again, and the reset of the movable gyro tip 13 is realized.

In some examples, when the top 10 is combined with the top toy 20, the reset element 181 is located inside the top recess 222 and does not contact the top wall of the top recess 222, so as not to affect the operation of the reset assembly 18.

Three specific embodiments of the present invention are described below.

Example one

As shown in fig. 1 to 6, a stacking top 100 includes a top 10 and an upper top toy 20.

The gyroscope 10 includes a gyroscope body 11, an upper gyroscope combining portion 12 is disposed at an upper end of the gyroscope body 11, a gyroscope accelerating portion 16 is disposed at an upper end of the upper gyroscope combining portion 12, and an upper gyroscope combining magnetic member 121 is disposed in the gyroscope accelerating portion 16. The lower end of the gyro body 11 is formed with a main gyro tip 111, the main gyro tip 111 is provided with a movable gyro tip 13 capable of moving up and down, the movable gyro tip 13 is formed into a sleeve, and a gyro needle 17 is sleeved in the sleeve. The gyro body 11 is further provided with a gyro tip holder 14 matched with the movable gyro tip 13, and the gyro tip holder 14 is matched with a gyro tip trigger 15 extending out of the gyro body 11. The movable top 13 includes a first sleeve 131, a second sleeve 132, and a stop portion 133. The upper and lower ends of the gyro-tip holder 14 are respectively provided with a second slope portion 142 and a first slope portion 141. The bottom of the gyroscopic tip triggering element 15 is provided with an abutment 151. The end of the gyroscopic tip holder 14 remote from the gyroscopic axis of rotation is provided with a return spring 40. The top body 11 is further provided with a reset assembly 18, the reset assembly 18 comprises a reset piece 181 and a shifting block 182, the reset piece 181 vertically slides on the top body 11 and is exposed outwards, one end of the shifting block 182 is supported at the bottom of the reset piece 181, and the other end of the shifting block 182 is supported at the bottom of the stopping part 133.

The top toy 20 comprises a top body 21, a top accelerating part 26 on the top of the top body 21, a top combining part 22 arranged on the lower side of the top accelerating part 26, and a top combining magnetic part 221 which is arranged on the upper side of the top combining part 22 and comprises a top groove 222. In addition, the top body 11 includes a case 211 and a cover 212, the case 211 and the cover 212 are fitted to form a receiving cavity 213, and three notches 2111 are provided on the outer periphery of the case 211. A movable lock disc 241 is arranged in the accommodating cavity 213, three spaced positioning pillars 214 are circumferentially arranged on the upper gyroscope body 21, the positioning pillars 214 are rotatably connected with a movable part 23, a round hole 231 is arranged on the movable part 23, and a limit pillar 2412 is arranged on the movable lock disc 241. A locking elastic member 242 is provided at the center between the movable locking plate 241 and the case body 211. The upper top groove 222 is formed at the bottom of the box body 211, and the movable unlocking member 25 is connected to the movable locking plate 241 in a columnar shape and extends out of the bottom of the box body 211.

Example two

As shown in fig. 7 and 8, an upper gyro toy 20 includes an upper gyro body 21, an upper gyro acceleration portion 26 is disposed on the top of the upper gyro body 21, a gyro combination portion 22 is disposed on the lower side of the upper gyro acceleration portion 26, and the gyro combination portion 22 includes an upper gyro groove 222 and a gyro combination magnetic member 221 disposed on the upper side of the upper gyro groove 222. In addition, the top body 11 includes a case 211 and a cover 212, the case 211 and the cover 212 are fitted to form a receiving cavity 213, and three notches 2111 are provided on the outer periphery of the case 211. A movable lock disc 241 is arranged in the accommodating cavity 213, three spaced positioning columns 214 are circumferentially arranged on the upper gyroscope body 21, a movable part 23 is rotatably connected to each positioning column 214, a clamping protrusion 232 is arranged on each movable part 23, a clamping claw 2413 is arranged on each movable lock disc 241, and a locking elastic part 242 is circumferentially arranged between each movable lock disc 241 and the box body 211. The upper top groove 222 is formed at the bottom of the box body 211, and the movable unlocking member 25 is connected to the movable locking plate 241 in a columnar shape and extends out of the bottom of the box body 211.

EXAMPLE III

As shown in fig. 9 and 10, the top toy 20 includes a top body 21, a top acceleration portion 26 is disposed on the top of the top body 21, a top combining portion 22 is disposed on the lower side of the top acceleration portion 26, and the top combining portion 22 includes a top recess 222 and a top combining magnetic member 221 disposed on the upper side of the top recess 222. In addition, the top body 11 includes a case 211 and a cover 212, the case 211 and the cover 212 are fitted to form a housing chamber 213, three notches 2111 are provided on the outer periphery of the case 211, and a long and narrow groove 2112 communicating with the notches 2111 is provided on the case 211. A movable lock disc 241 is arranged in the accommodating cavity 213, three spaced clamping portions 2411 are arranged in the circumferential direction of the movable lock disc 241, the movable piece 23 is a ball throwing device which is connected to the cover body 212 through a rope body 50, and the ball throwing device is clamped in a clamping opening formed in the clamping portion 2411. A locking elastic member 242 is provided at the center between the movable locking plate 241 and the case body 211. The upper top groove 222 is formed at the bottom of the box body 211, and the movable unlocking member 25 is connected to the movable locking plate 241 in a columnar shape and extends out of the bottom of the box body 211.

In one embodiment the play of the toy is:

step 1, firstly, the gyroscope 10 is installed on the emitter, and the pull rope handle of the emitter is pulled out outwards for multiple times, so that the gyroscope 10 rotates at a high speed and the gyroscope 10 is emitted into the fighting plate.

And step 2, mounting the upper top toy 20 on the launcher, pulling the launcher to rotate the upper top toy 20 at a high speed, aligning the upper top toy with the top 10, and launching the upper top toy to be superposed on the top 10.

When the upper top toy 20 is superposed on the top 10, the movable top tip 13 of the top 10 is triggered to stretch and deform, so that the rotating motion track of the top is changed to become an attack state. The moving tip 13, while being extended, throws away the moving element 23 acting as a "weapon", starting to follow the free rotation of the gyroscope body to attack the opponent.

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

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

Claims (12)

1. A stacked top is characterized in that the stacked top is formed by stacking and combining a top and an upper top toy, the top and the upper top toy are independent toys, wherein,

the top includes: the gyroscope comprises a gyroscope main body, an upper gyroscope combining part and a movable gyroscope tip, wherein the upper gyroscope combining part is arranged at the top of the gyroscope main body, and the movable gyroscope tip is movably arranged at the bottom of the gyroscope main body;

the top toy comprises: the gyroscope comprises an upper gyroscope body, a gyroscope combining part and a movable part, wherein the gyroscope combining part is arranged on the upper gyroscope body so as to be combined with the upper gyroscope combining part, and the movable part is arranged on the upper gyroscope body in an unfolding or detachable manner; wherein,

when the upper top toy is combined to the top of the top, the top triggers the movable piece to move, and the upper top toy triggers the movable top to move.

2. The superimposed gyroscope of claim 1, further comprising: a tip holder for holding the movable tip in a tip initial position, and a tip trigger for driving the tip holder to unlock after triggering;

the top toy further comprises: the movable unlocking piece is matched with the movable locking device, and the movable locking device is unlocked after being triggered to release the movable locking device so that the movable locking device releases the movable part to enable the movable part to be unfolded or thrown out.

3. The superposition top of claim 2, wherein the top-tip trigger and the movable unlocking element interact to unlock each other when the top toy is coupled to the top of the top.

4. A superimposed gyroscope according to claim 3, characterized in that the movable unlocking element emerges from the bottom of the upper gyroscope body and the gyroscope tip trigger emerges from the top of the gyroscope body; and/or the presence of a gas in the gas,

the movable unlocking piece and the gyro-tip triggering piece are both triggering magnetic attracting pieces.

5. A superimposed gyroscope according to claim 2, characterized in that a time-delay unlocking device is provided between the movable unlocking element and the movable locking device and/or a time-delay triggering device is provided between the gyroscope-tip triggering element and the gyroscope-tip holding element.

6. A superimposed gyroscope according to claim 1, wherein the movable element is pivotally connected to the upper gyroscope body, or is slidably connected to the upper gyroscope body, or is connected to the upper gyroscope body by a rope, or is at least partially an elastic body, and the movable element is deployed by returning to its original shape after being triggered.

7. The superimposed gyroscope of claim 2, wherein the movable locking means comprises:

the movable lock disc is movably arranged in the upper gyroscope body, the movable unlocking piece is connected with the movable lock disc, and a clamping part used for matching the movable piece is arranged on the movable lock disc;

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

8. A superimposed gyroscope according to claim 1, wherein the top of the top toy is provided with a top acceleration portion, the top of the gyroscope is provided with a top acceleration portion, and both the top acceleration portion and the top acceleration portion are used for being combined with a transmitting head of a gyroscope transmitter.

9. A stacked gyroscope according to claim 8, characterised in that the gyroscope coupling portion comprises a gyroscope coupling magnetic member provided within the upper gyroscope acceleration portion, the gyroscope coupling portion further comprising an upper gyroscope recess,

the top accelerating part is matched in the upper top groove, and the upper top combining part comprises an upper top combining magnetic part arranged in the top accelerating part.

10. A superimposed gyroscope according to any one of claims 1 to 9, characterized in that the bottom of the gyroscope body is formed as a main gyroscope tip, the movable gyroscope tip being configured as a telescopic gyroscope tip which is telescopic with respect to the main gyroscope tip.

11. The superposition top of claim 2, comprising a top pin provided in the top body and having a bottom protruding from a bottom of the top body,

the movable gyroscope point is formed into a sleeve sleeved on the gyroscope needle, an extension spring for pushing the sleeve downwards is arranged between the sleeve and the gyroscope needle, the gyroscope point retaining piece is clamped on the sleeve, and the gyroscope point trigger piece is stopped against the gyroscope point retaining piece.

12. The superimposed gyroscope of claim 11, further comprising a reset assembly provided on the gyroscope body, one end of the reset assembly protruding from the gyroscope body and the other end acting on the sleeve, the reset assembly pushing the sleeve to snap onto the gyroscope tip holder when triggered.

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