CN110270105B - Gyroscope assembly and toy with same - Google Patents

Abstract

The invention discloses a gyro assembly and a toy with the gyro assembly, wherein the gyro assembly comprises: the top base body is provided with a movable piece; the top cover is detachably connected with the top base body and is configured to trigger the movable piece on the top base body to move when being overlapped on the top base body. According to the gyro assembly provided by the embodiment of the invention, the upper gyro cover and the gyro base body are adopted to carry out matched play, when the upper gyro cover is overlapped on the gyro base body, the movable piece on the gyro base body is triggered to move, the participation degree of a player is mobilized, surprise experience can be brought to the player, and the play interestingness is improved.

Description

Gyroscope assembly and toy with same

Technical Field

The invention relates to the technical field of toys, in particular to a top assembly and a toy with the top assembly.

Background

The gyro matrix toy in the related art generally changes the motion trail of the gyro matrix through the gyro matrix fight touch switch or by adopting a mode of converting the top tip by centrifugal force, and the player has insufficient participation, poor experience and insufficient playing interestingness.

Disclosure of Invention

The present invention aims to solve at least one of the technical problems existing in the prior art.

Therefore, the invention provides the gyro assembly, which has strong interest and surprise experience.

The invention also provides a toy with the gyro combination.

According to an embodiment of the first aspect of the present invention, a gyro assembly includes: the top base body is provided with a movable piece; the top cover is detachably connected with the top base body and is configured to trigger the movable piece on the top base body to move when being overlapped on the top base body.

According to the gyro assembly provided by the embodiment of the invention, the upper gyro cover and the gyro base body are adopted to carry out matched play, when the upper gyro cover is overlapped on the gyro base body, the movable piece on the gyro base body is triggered to move, the participation degree of a player is mobilized, surprise experience can be brought to the player, and the play interestingness is improved.

According to one embodiment of the invention, the gyro base includes: a first body; the movable piece is arranged on the first body and can move relative to the first body; the trigger piece is arranged on the first body and can trigger the movable piece to move.

According to an alternative example of the present invention, the gyro base further includes: the elastic reset piece is arranged on the first body, the movable piece is connected with the trigger piece and can keep synchronous movement, the movable piece moves downwards when the trigger piece is triggered downwards, and the elastic reset piece drives the movable piece to reset upwards when the trigger piece is released.

According to another optional example of the present invention, the gyro base further includes: the latch mechanism, latch mechanism establishes on the first body, latch mechanism with the moving part cooperation links to each other in order to lock the moving part, go up the top cover with when the top base member cooperation latch mechanism with the moving part breaks away from in order to release the moving part, latch mechanism includes: the sleeve lock device is arranged below the trigger piece and is in stop connection with the trigger piece, and when the trigger piece is triggered, the trigger piece pushes the sleeve lock device to move along the radial direction so as to release the movable piece; the first elastic piece is connected between the movable piece and the first body, and the first elastic piece is converted into an energy release state from an energy storage state when the movable piece is released by the sleeve lock device.

Further, the lock device includes: the first set of locking pieces and the second set of locking pieces are arranged towards each other and are arranged around the periphery of the bottom of the triggering piece in a surrounding mode, two ends of the triggering piece are respectively connected with the first set of locking pieces and the second set of locking pieces in a blocking mode, and the triggering piece respectively pushes the first set of locking pieces and the second set of locking pieces to move along the radial direction so as to release the movable piece when sliding downwards; the second elastic piece is connected between the first set of locking pieces and the second set of locking pieces.

According to another optional example of the present invention, the lock device is provided with a hook, and the hook is clamped on the movable member for locking the movable member.

According to another optional example of the invention, the movable member comprises: the sliding part is positioned outside the first body, the sliding part can slide up and down between a locking position and a releasing position, the sliding part is clamped on the sleeve locking device when the sliding part is positioned at the locking position, and the sliding part is clamped on the inner wall of the first body when the sliding part is positioned at the releasing position.

Further, the movable member includes: the turnover piece is connected to the periphery of the sliding piece through a rotating shaft, and the turnover piece can rotate outwards away from the first body relative to the sliding piece.

Further, the gyro assembly further includes: the third elastic piece is connected between the sliding piece and the overturning piece, and the third elastic piece is converted into an energy releasing state from an energy storage state when the overturning piece overturns outwards.

According to still another alternative example of the present invention, the turnover member includes a plurality of turnover members uniformly arranged along an outer circumference of the sliding member, the sliding member is provided with mounting grooves, and each turnover member is correspondingly arranged in the mounting groove.

According to yet another alternative example of the present invention, the movable member includes: the launching piece is detachably arranged on the sliding piece, and the launching piece is separated from the sliding piece to pop outwards when the sliding piece slides from the locking position to the releasing position.

Further, the emitting piece comprises a plurality of emitting pieces which are uniformly arranged along the periphery of the sliding piece, the sliding piece is provided with mounting grooves, and each emitting piece is correspondingly arranged in each mounting groove.

According to another optional example of the present invention, a hook is disposed on a side of the transmitting member facing the sliding member, and a clamping portion is disposed on an inner edge of the avoiding space of the sliding member, and the hook is correspondingly matched with the clamping portion.

According to another embodiment of the present invention, the gyro assembly includes: the first magnetic attraction piece is arranged in the gyro base body; the second magnetic attraction piece is arranged in the upper top cover, and the top base body and the upper top cover are connected through magnetic attraction cooperation between the first magnetic attraction piece and the second magnetic attraction piece.

Further, the first body includes: a base, the first magnetic attraction piece is arranged on the base, and the first elastic piece is connected between the base and the sliding piece; the ring body is arranged on the periphery of the base in a surrounding mode; the limiting piece is connected with the inner wall of the ring body, the limiting piece and the base are vertically arranged at intervals, and the base, the ring body and the limiting piece jointly define the accommodating cavity.

According to still another embodiment of the present invention, the gyro assembly further includes: and the reset mechanism is arranged in the first body, and drives the sliding piece to slide upwards from the release position to the locking position when the reset mechanism is triggered.

Further, the reset mechanism includes: one end of the reset trigger piece extends out of the base part and extends upwards; the reset rod is connected in the accommodating cavity in a swinging way, one end of the reset rod is connected with the reset triggering piece in a stopping way, the other end of the reset rod is configured into a tilting part, and the tilting part is stopped against the lower surface of the clamping ring to drive the sliding piece to slide upwards when the reset triggering piece triggers the reset rod to swing.

According to yet another alternative example of the present invention, the upper top cover includes: the second body is configured to be matched with the gyro base body, the second magnetic attraction piece is arranged in the second body, the upper gyro cover defines an accommodating space, and the top of the gyro base body can be matched in the accommodating space.

Further, a protruding portion is arranged on one side, facing the gyro base body, of the second body, and the protruding portion is configured to trigger the trigger piece to slide downwards when the upper gyro cover is overlapped on the gyro base body.

According to still another embodiment of the present invention, the slider includes: the lower end of the top sleeve extends out of the first body and extends downwards, and the top sleeve can slide up and down between the locking position and the releasing position; the bottom support sleeve is connected to the top sleeve and keeps synchronous sliding with the top sleeve.

According to a second aspect of the present invention, a toy according to an embodiment includes: a transmitter; the gyro assembly according to the above embodiment, the gyro assembly includes: the top base member and go up the top lid, be equipped with first lock dish on the top base member, the transmitter pass through first lock dish with the top base member links to each other, it covers to go up the top and be equipped with the second lock dish, the transmitter pass through the second lock dish with go up the top lid links to each other.

According to the toy disclosed by the embodiment of the invention, the upper top cover and the top base body are adopted to play in a matched manner, when the upper top cover is overlapped on the top base body, the movable piece on the top base body is triggered to move, the participation degree of a player is mobilized, surprise experience can be brought to the player, and the play interestingness is 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 an exploded schematic view of a top assembly according to an embodiment of the present invention;

FIG. 2 is an exploded cross-sectional view of a top assembly according to an embodiment of the present invention;

FIG. 3 is an exploded cross-sectional view of a top assembly according to another embodiment of the present invention;

FIG. 4 is a cross-sectional view of a top assembly according to an embodiment of the present invention;

FIG. 5 is another exploded cross-sectional view of a top assembly according to an embodiment of the present invention;

FIG. 6 is another schematic view of a top assembly according to an embodiment of the present invention;

FIG. 7 is another schematic view of a top assembly according to an embodiment of the present invention;

FIG. 8 is an exploded cross-sectional view of a top assembly according to yet another embodiment of the present invention;

FIG. 9 is another schematic view of a top assembly according to yet another embodiment of the present invention;

FIG. 10 is an exploded cross-sectional view of a top assembly according to yet another embodiment of the present invention;

FIG. 11 is an exploded view of a top assembly according to yet another embodiment of the present invention;

FIG. 12 is an exploded view of another view of a top assembly according to yet another embodiment of the present invention;

FIG. 13 is another exploded cross-sectional view of a top assembly according to yet another embodiment of the present invention;

FIG. 14 is a cross-sectional view of an upper top cover of a top assembly according to an embodiment of the present invention;

fig. 15 is a schematic view of a toy according to an embodiment of the present invention;

Fig. 16 is a cross-sectional view of a portion of the structure of a toy according to an embodiment of the present invention.

Reference numerals:

the top assembly 1000, the transmitter 2000,

gyro base 100, first body 10, base 11, projection 112, ring 12, annular groove 121, stopper 13, first lock collar 14, fixed gyro needle 15, base 16,

the movable member 20, the sliding member 21, the mounting groove 21a, the mounting groove 21b, the second through hole 21c, the engagement portion 211, the top cover 222, the snap ring 2221, the bearing 2222, the shoe 223, the gland 224, the flip member 22, the snap protrusion 221, the third elastic member 225, the emitting member 23, the snap hook 231,

the trigger 30, the trigger portion 31, the return elastic member 40,

the locking mechanism 50, the lock gear 51, the first lock gear 511, the second lock gear 512, the mating portion 5111, the second elastic member 513, the hook portion 514, the first elastic member 52,

upper top 200, second body 210, protrusion 220, second locking plate 230,

the first magnetic attraction member 400, the second magnetic attraction member 500,

reset mechanism 600, reset trigger 610, reset lever 620, cocking 621.

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.

A top assembly 1000 according to an embodiment of the first aspect of the present invention is described below with reference to fig. 1-16.

As shown in fig. 1, a gyro assembly 1000 according to an embodiment of the present invention includes a gyro base 100 and an upper gyro cover 200. Specifically, the movable member 20 is disposed on the gyro base 100, and the upper gyro cover 200 is detachably connected to the gyro base 100, where the upper gyro cover 200 is configured such that, when the upper gyro cover 200 is folded on the gyro base 100, the upper gyro cover 200 can trigger the movable member 20 on the gyro base 100 to perform a movement, and the movement may be downward extension, outward ejection, outward turning, etc.

According to the gyro assembly 1000 of the embodiment of the present invention, two components of the upper gyro cover 200 and the gyro base 100 are adopted to perform cooperative play, when the upper gyro cover 200 is overlapped on the gyro base 100, the movable piece 20 on the gyro base 100 is triggered to perform movement, that is, the upper gyro cover 200 and the upper and lower gyro base 100 can trigger the movable piece 20 on the gyro base 100 to change, so that not only the participation of a player is better mobilized, but also surprise experience is brought to the player, and play interest is improved. In addition, when in fight and play, the upper top cover 200 is overlapped to trigger the movable piece 20 to change, so that the top of the opponent can be attacked (impacted), the effect of disturbing the normal rotation of the top of the opponent is achieved, and the winning rate of the top of the opponent is improved.

According to one embodiment of the present invention, gyro base 100 includes first body 10, movable member 20, and trigger member 30. Specifically, the movable member 20 is disposed on the first body 10, and the movable member 20 is movable relative to the first body 10, the trigger member 30 is connected to the first body 10, and the trigger member 30 may also be disposed on the second body 210 of the upper top cover 200, where the action of the trigger member 30 may trigger the movable member 20 to move, as shown in fig. 2, after the trigger member 30 is triggered, the movable member 20 is released to enable the movable member 20 to slide downward, or as shown in fig. 3, after the trigger member 30 is triggered, the movable member 20 is pressed to move downward.

As shown in fig. 2, according to an alternative example of the present invention, the gyro base 100 further includes a restoring elastic member 40, the restoring elastic member 40 is provided on the first body 10, the movable member 20 is connected to the trigger member 30, and the movable member 20 and the trigger member 30 may be kept moving synchronously, when the upper gyro cover 200 is overlapped on the gyro base 100, the upper gyro cover 200 presses down the trigger member 30, the trigger member 30 moves downward while the movable member 20 moves downward, and the restoring elastic action of the restoring elastic member 40 may drive the movable member 20 to restore upward when the trigger member 30 is released.

As shown in fig. 2, the gyro assembly 1000 includes a fixed tourbillon 15, a tourbillon sleeve 222, a restoring elastic member 40 and a base 16. When the upper top cover 200 is superimposed on the gyro base 100, the upper top cover 200 presses the trigger 30 on the gyro base 100 to move downward, and the trigger 30 presses the top cover 222 to move downward and contact the combat disc at the same time when moving downward, and the fixed pins 15 are hidden in the top cover 222 and separated from the combat disc. At this time, the top cover 222 is changed from the initial state to the attack state.

When the top cover 200 leaves the gyro base 100, the trigger member 30 moves upward to reset under the elastic action of the reset elastic member 40, the top cover 222 moves upward to reset under the elastic action of the reset elastic member 40, the gyro base 100 returns to the initial state, and the top cover 222 also returns to the initial state. In this way, top cover 200 is superimposed on top base 100 to change top cover 222 from the initial state to the attack state.

As shown in fig. 3, according to another alternative example of the present invention, the gyro base 100 further includes a latch mechanism 50, wherein the latch mechanism 50 is provided on the first body 10, and the latch mechanism 50 is cooperatively connected with the movable member 20 to latch the movable member 20 in an initial state, and the latch mechanism 50 is disengaged from the movable member 20 to release the movable member 20 when the upper gyro cover 200 is combined with the gyro base 100.

Specifically, the latch mechanism 50 includes a latch device 51 and a first elastic member 52, where the latch device 51 is disposed below the trigger member 30, the latch device 51 is in abutting connection with the trigger member 30, when the trigger member 30 is triggered, the trigger member 30 may push the latch device 51 to move along a radial direction to release the movable member 20, as shown in fig. 3, the trigger member 30 may push the latch device 51 to move outward along a radial direction, where the outward refers to a direction away from the central axis of the gyro base 100, and the latch mechanism 50 may lock and release the movable member 20, so that the movable member 20 may be switched from an initial state to an attack state.

Further, the first elastic member 52 is connected between the movable member 20 and the first body 10, when the lock device 51 releases the movable member 20, the first elastic member 52 is changed from the energy storage state to the energy release state, and the elastic restoring action of the first elastic member 52 can drive the movable member 20 to move downward, so as to drive the movable member 20 to change to the attack state.

Further, the lock set 51 includes a first lock set 511, a second lock set 512 and a second elastic member 513, where the first lock set 511 and the second lock set 512 are disposed towards each other, and the first lock set 511 and the second lock set 512 are enclosed around the bottom periphery of the trigger 30, two ends of the trigger 30 are respectively connected with the first lock set 511 and the second lock set 512 in a blocking manner, as shown in fig. 3, the first lock set 511 is located at the left side of the second lock set 512, the left end of the trigger 30 is in blocking contact with the first lock set 511, and the right end of the trigger 30 is in blocking contact with the second lock set 512.

When the trigger piece 30 slides downwards, the two ends of the trigger piece 30 push the first lock set 511 and the second lock set 512 to move outwards in the radial direction respectively, so as to release the movable piece 20, the second elastic piece 513 is connected between the first lock set 511 and the second lock set 512, in the natural state of the second elastic piece 513, the first lock set 511 and the second lock set 512 cooperate with each other to lock the movable piece 20, after the trigger piece 30 is triggered, the first lock set 511 and the second lock set 512 are pushed to move outwards in the radial direction so as to overcome the elastic action of the second elastic piece 513, and thus, when a child plays, the child only needs to touch and press the trigger piece 30, or the upper top cover 200 is overlapped on the gyro base 100 to trigger the trigger piece 30, so that the movable piece 20 can be changed.

Further, the triggering part 31 is provided on the triggering part 30, the matching parts 5111 are respectively provided on the first set of locking parts 511 and the second set of locking parts 512, the triggering part 31 and the matching parts 5111 can be in abutting matching, the triggering part 31 can be in abutting matching with the matching parts 5111, and the triggering part 30 can better act on the first set of locking parts 511 and the second set of locking parts 512 through matching between the triggering part 31 and the matching parts 5111.

According to another alternative example of the present invention, the latch device 51 is provided with the hook 514, the hook 514 may be clamped on the movable member 20 to lock the movable member 20, as shown in fig. 4, specifically, the first latch device 511 and the second latch device 512 are provided with the hook 514, the two hook 514 are oppositely arranged to clamp the movable member 20, so as to lock the movable member 20, effectively prevent the movable member 20 from being separated from the latch device 51 in the initial state, and ensure the fit of the movable member 20 on the latch device 51.

According to another alternative example of the present invention, the movable member 20 includes a sliding member 21, at least a portion of the sliding member 21 is located outside the first body 10, the sliding member 21 is slidable up and down between a locking position and a releasing position, specifically, the sliding member 21 is engaged on the lock gear 51 when the sliding member 21 is located at the locking position, and the sliding member 21 is engaged on an inner wall of the first body 10 when the sliding member 21 is located at the releasing position.

When the top cover 200 is folded on the top base 100, the trigger piece 30 is triggered to move downward, so as to push the lock sleeving device 51 to move outward to release the sliding piece 21, the sliding piece 21 can extend downward, and at the moment, the sliding piece 21 is switched from an initial state to an attack state, and meanwhile, as the top cover 200 is folded on the top base 100, the movement track of the top is changed, and surprise experience is brought to a player.

As shown in fig. 4, a snap ring 2221 is disposed on the sliding member 21, the snap ring 2221 may be formed as an annular structure protruding from the outer peripheral wall of the sliding member 21, a first through hole is disposed on the inner wall of the first body 10, the sliding member 21 may pass through the first through hole and protrude out of the first body 10, the hook 514 of the lock device 51 may be clamped at the lower surface of the snap ring 2221, so that the sliding member 21 is in the locking position, when the lock device 51 releases the sliding member 21, and the snap ring 2221 of the sliding member 21 is clamped at the edge of the first through hole when the sliding member 21 slides down to the releasing position, and the inner wall of the first body 10 has a limiting effect on the sliding member 21.

According to a further alternative example of the present invention, an annular groove 121 is provided under the first body 10, the outer circumference of the sliding member 21 is embedded in the annular groove 121 when the sliding member 21 is engaged with the first body 10, the sliding member 21 and the first body 10 form an integral structure when engaged, the appearance is more integrated, and the sliding member 21 is separated from the first body 10 when moving downward, thereby enhancing the surprise experience when a player plays.

As shown in fig. 3 to 7, further, the movable member 20 includes a turnover member 22, the turnover member 22 is coupled to the outer circumference of the sliding member 21 by a rotation shaft, the turnover member 22 is rotatable outwardly away from the first body 10 with respect to the sliding member 21, specifically, the turnover member 22 is engaged in the annular groove 121 when the sliding member 21 and the first body 10 are engaged, and the turnover member 22 is turned open by a rotational centrifugal force or self gravity when the sliding member 21 slides downward.

Therefore, when in fight and play, the flip piece 22 is triggered to turn outwards to be opened by overlapping the upper top cover 200, so that the flip piece 22 can be utilized to attack (collide) the lower part of the opposite side top, the effect of disturbing the normal rotation of the opposite side top is achieved, and the winning rate of the own top is improved.

Further, the gyro assembly 1000 further includes: the third elastic piece 225, the third elastic piece 225 is connected between the sliding piece 21 and the turning piece 22, when the turning piece 22 turns outwards, the third elastic piece 225 is converted from an energy storage state into an energy release state, the turning piece 22 can be driven to open outwards, driving force can be provided for turning and opening the turning piece 22 through the third elastic piece 225, the lower part of the opposite gyro can be better attacked (collided) during fight, and the attack effect is more obvious.

According to another alternative example of the present invention, an annular groove 121 is provided under the first body 10, and a catching protrusion 221 is provided on the flip member 22, as shown in fig. 3 to 5, when the outer circumference of the slider 21 is fitted in the annular groove 121, the catching protrusion 221 of the flip member 22 is caught in the annular groove 121, so that the elastic action of the third elastic member 225 can be overcome, so that the flip member 22 is fitted on the slider 21, and at this time, the flip member 22 and the outer side wall of the slider 21 together form the lower surface of the gyro base 100, so that the gyro base 100 has a better appearance experience.

As shown in fig. 6 and 7, further, the turning pieces 22 include a plurality of turning pieces 22 which are uniformly spaced along the circumference of the sliding piece 21, and a plurality of mounting grooves 21a are formed in the sliding piece 21, as shown in fig. 6, three mounting grooves 21a are formed in the sliding piece 21, and the turning pieces 22 include three, each turning piece 22 can be matched in a corresponding mounting groove 21a, specifically, when the clamping protrusion 221 is located in the annular groove 121, each turning piece 22 is respectively folded in a corresponding mounting groove 21a, so that the gyro base 100 is a complete and smooth object in the initial state, the turning pieces 22 can be turned outwards simultaneously after being triggered, not only can experience a surprise to a player, but also the attack force on the lower part of the opposite gyro after the turning pieces 22 are turned open is stronger, and the attack accuracy is improved.

According to still another alternative example of the present invention, the flip member 22 is coupled to the outer circumference of the slide member 21 through a rotation shaft, and the third elastic member 225 is coupled between the slide member 21 and the flip member 22 to drive the flip member 22 to flip open outwardly, specifically, when the slide member 21 slides down, the slide member 21 is separated from the first body 10, the first body 10 releases the flip member 22, and the third elastic member 225 drives the flip member 22 to flip open outwardly in a direction away from the slide member 21, as shown in an unfolded schematic view of the flip member 22 in fig. 7.

Further, the overturning piece 22 is formed into an arc-shaped structure matched with the outer side wall of the sliding piece 21, and when the overturning piece 22 is matched with the sliding piece 21, the overturning piece 22 and the outer side wall of the sliding piece 21 form smooth transition outer wall surfaces, so that the appearance experience is good.

As shown in fig. 8 to 12, according to another alternative example of the present invention, the movable member 20 includes a transmitting member 23, the transmitting member 23 is detachably disposed on the sliding member 21, when the sliding member 21 is in a locked state, the transmitting member 23 is engaged with the sliding member 21, when the sliding member 21 slides from the locked position to the released position, the transmitting member 23 is separated from the sliding member 21 and is ejected outwards, as shown in fig. 8, the transmitting member 23 may be blocked in the annular groove 121, when the top cover 20010 hits the top base 100, the sliding member 21 is triggered to slide downwards, the sliding member 21 is disengaged from the first body 10, and as a result of centrifugal force generated by rotation of the top base 100, the transmitting member 23 may be thrown out and separated from the first body 10, giving a surprise experience to a player, and of course, an ejecting member may be disposed in the first body 10 to eject the transmitting member 23. When in fight and play, the top cover 200 is overlapped on the top base body 100 to trigger the transmitting piece 23 to be ejected outwards, so that the transmitting piece 23 attacks (impacts) the top of the other party, thereby achieving the effect of disturbing the normal rotation of the top of the other party and improving the winning rate of the top of the other party.

Further, the plurality of emitting elements 23 include a plurality of emitting elements 23 arranged at intervals along the peripheral circumference of the sliding element 21, a plurality of mounting grooves 21b are provided on the outer side of the sliding element 21, as shown in fig. 9, two mounting grooves 21b are provided on the outer side of the sliding element 21, two emitting elements 23 are mounted on the sliding element 21, each emitting element 23 is respectively fitted in a corresponding mounting groove 21b, and the shape of the mounting groove 21b is matched with the shape of the emitting element 23, so that when the top cover 200 is overlapped on the top base 100, the plurality of emitting elements 23 on the top base 100 can be all ejected outwards, and the top of the other party can be attacked in a plurality of directions simultaneously, so that the interference effect on the top of the other party is more remarkable, and the attack accuracy is higher.

Optionally, a side of the emitter 23 facing the slider 21 (an inner side of the emitter 23 as shown in fig. 8 and 10) is provided with a hook 231, a second through hole 21c is provided in the mounting groove 21b, the second through hole 21c is adapted to pass through the hook 231, a side of an edge of the second through hole 21c away from the emitter 23 is provided with a clamping portion 211, the hook 231 can be in clamping fit with the clamping portion 211 after passing through the second through hole 21c, so that the emitter 23 is matched in the mounting groove 21b, further, an edge of the emitter 23 is clamped in the annular groove 121, and the emitter 23 is reliably connected to the gyro base 100 when the slider 21 is matched and connected with the first body 10.

Further, the emitting piece 23 is formed into an arc-shaped structure matched with the outer side wall of the sliding piece 21, when the emitting piece 23 is matched with the sliding piece 21, the emitting piece 23 and the outer side wall of the sliding piece 21 form a smooth transition outer peripheral side wall, and the appearance is good.

According to another embodiment of the present invention, top assembly 1000 includes a first magnetic attraction member 400 and a second magnetic attraction member 500, wherein first magnetic attraction member 400 is disposed in top base 100, second magnetic attraction member 500 is disposed in top cover 200, and top base 100 and top cover 200 are cooperatively connected by magnetic attraction between first magnetic attraction member 400 and second magnetic attraction member 500.

Further, the first magnetic attraction piece 400 may be located at the top of the gyro base 100, or the first magnetic attraction piece 400 may be located near the top of the gyro base 100, and the first magnetic attraction piece 400 and the second magnetic attraction piece 500 may interact with each other so that the upper top cover 200 may be fitted on the gyro base 100, so that the upper top cover 200 is stacked on the gyro base 100.

Therefore, the first magnetic attraction piece 400 and the second magnetic attraction piece 500 are matched by utilizing the magnetic attraction principle, so that the upper top cover 200 and the top base body 100 are matched and connected by the magnetic attraction effect between the first magnetic attraction piece 400 and the second magnetic attraction piece 500, namely, the upper top cover 200 and the top base body 100 are enabled to realize the upper top body 1000 and the lower top body 1000 by attraction of the magnets of the first magnetic attraction piece 400 and the second magnetic attraction piece 500, the matching connection mode is simple, the two can be matched automatically by utilizing the magnetic attraction effect, and the interestingness of the toy is enhanced.

Further, the first body 10 includes a base 11, a ring body 12, and a stopper 13. Wherein the first magnetic attraction piece 400 is arranged on the base 11, the first elastic piece 52 is connected between the base 11 and the sliding piece 21, the ring body 12 is arranged around the base 11, the limiting piece 13 is connected with the inner wall of the ring body 12, the limiting piece 13 and the base 11 are arranged at intervals in the vertical direction, the base 11, the ring body 12 and the limiting piece 13 jointly define a containing cavity, the limiting piece 13 is configured to be an inner bottom wall of the containing cavity, and therefore the clamping ring 2221 of the sliding piece 21 can only move up and down in the containing cavity, and the sliding piece 21 is prevented from sliding out of the first body 10.

Further, the lower end of the base 11 extends downward to form a protruding portion 112, a cavity is defined in the top cover 222, the protruding portion 112 is insertable into the cavity, the first elastic member 52 is located in the cavity and connected between the protruding portion 112 and the top cover 222, the upper end of the fixed needle 15 is inserted into the protruding portion 112, and the fixed needle 15 extends downward through the top cover 222.

Optionally, the gyro base 100 further includes a pressing cover 224, the pressing cover 224 is fixed at the bottom of the bottom support 223, the pressing cover 224 and the bottom support 223 can be integrally formed, and the pressing cover 224 and the bottom support 223 jointly define a telescopic hole, so that the lower surface of the gyro base 100 is smoother and smoother, and the appearance experience of the toy is improved.

According to yet another alternative example of the present invention, gyro body 100 further includes bearing 2222, bearing 2222 is sleeved on gyro tip sleeve 222, bearing 2222 is supported between gyro tip sleeve 222 and bottom bracket 223, and bearing 2222 is supported between gyro tip sleeve 222 and gland 224, so that on one hand, the tightness of the bottom of gyro body 100 can be improved, and on the other hand, the structure can be made more reliable.

According to yet another embodiment of the present invention, top assembly 1000 further includes a reset mechanism 600, reset mechanism 600 being disposed within first body 10, reset mechanism 600 driving slider 21 to slide back up from the release position to the locking position when reset mechanism 600 is triggered.

Further, the reset mechanism 600 includes a reset trigger 610 and a reset lever 620, wherein one end of the reset trigger 610 (the upper end of the reset trigger 610 shown in fig. 5 and 13) extends out of the base 11 and extends upward, the reset lever 620 is swingably connected in the accommodating cavity, one end of the reset lever 620 (the radially outer end of the reset lever 620 shown in fig. 5 and 13) is connected with the reset trigger 610 in a stop manner, the other end of the reset lever 620 (the radially inner end of the reset lever 620 shown in fig. 5 and 13) is configured as a tilting portion 621, and when the reset trigger 610 triggers the reset lever 620 to swing, the tilting portion 621 is stopped against the lower surface of the snap ring 2221 of the slider 21 to drive the slider 21 to slide upward, wherein the radially inner end refers to the end facing the central axis of the gyro base 100, and the radially outer end refers to the other end far away from the central axis of the gyro base 100.

As shown in fig. 5 and 13, the reset triggering pieces 610 include two reset levers 620, each reset triggering piece 610 is correspondingly matched with the corresponding reset lever 620, and two modes of resetting the sliding piece 21 by adopting the reset mechanism 600 are adopted, wherein one mode is to directly press the two reset triggering pieces 610 by hand, as shown in fig. 5 and 13, at this time, the reset lever 620 can rotate around the rotating shaft thereof, and the tilting part 621 can tilt the sliding piece 21, so that the sliding piece 21 moves upwards until the top clamping ring 2221 of the sliding piece 21 is clamped with the sleeve locking device 51 again, thereby realizing resetting.

As shown in fig. 15 and 16, another resetting method is to connect the transmitter 2000 with the gyro base 100 to realize automatic resetting, after the transmitting head of the transmitter 2000 is mounted on the gyro base 100, the transmitting head edge of the transmitter 2000 is stopped against two resetting triggers 610, and the resetting triggers 610 are pressed down to rotate the resetting rod 620, tilt the sliding member 21, and make the top clamping ring 2221 of the sliding member 21 and the sleeve locking device 51 re-clamped to realize resetting.

Thus, the top sleeve 222 may be automatically reset by hand pressing or depression of the emitter 2000.

According to still another alternative example of the present invention, the upper top cover 200 includes the second body 210, and the second body 210 is matched with the top base 100, that is, the second body 210 may be covered on the top base 100, the second magnetic attraction member 500 is disposed in the second body 210, the upper top cover 200 defines an accommodating space, and the top of the top base 100 may be fitted in the accommodating space, so that the upper top cover 200 may be conveniently overlapped on the top base 100, so that the upper top cover 200 may be better fitted with the top base 100.

Further, a protrusion 220 is provided on a side of the second body 210 facing the gyro base body 100 (a lower side of the second body 210 as shown in fig. 5), and the protrusion 220 is configured such that the trigger 30 can be triggered to slide downward when the upper gyro cover 200 is overlapped on the gyro base body 100, and the sliding member 21 can be released by the trigger latch device 51.

According to still another embodiment of the present invention, the slider 21 includes a top cover 222 and a shoe 223, the bottom end of the top cover 222 extends downward beyond the first body 10, the top cover 222 is slidable up and down between a locking position and a releasing position, the shoe 223 is connected to the top cover 222, and the shoe 223 and the top cover 222 keep sliding synchronously, i.e., the shoe 223 slides downward when the top cover 222 slides downward, and the shoe 223 slides upward when the top cover 222 slides upward.

As shown in fig. 4, in this embodiment, the weapon refers to the turning piece 22 that can be fitted on the collet 223, when the upper top cover 200 is stacked on the gyro base 100, by the opposite pole attraction effect of the first magnetic attraction piece 400 and the second magnetic attraction piece 500, the trigger piece 30 is triggered to move down to push the latch device 51 to release the top cover 222, that is, the top cover 222 slides down from the locking position to the releasing position, so that the upper top cover 200 and the gyro base 100 are combined up and down to change the movement track of the gyro, the collet 223 will extend along with the top cover 222, and when the collet 223 extends down, the weapon is released from the annular groove 121 of the ring body 12, so that the weapon is released by the third elastic piece 225 (for example, a torsion spring) and rotates 180 degrees around the rotation shaft to open. After the weapon is opened, the weapon and the collet 223 are integrated to freely rotate around the gyro assembly 1000 along with the bearing 2222, and when in playing, the flip piece 22 is triggered to turn outwards to be opened by overlapping the upper gyro cover 200, so that the flip piece 22 can be utilized to attack (collide) the lower part of the opposite gyro, the effect of disturbing the normal rotation of the opposite gyro is achieved, and the winning rate of the own gyro is improved.

As shown in fig. 10, in this embodiment, the weapon finger can be engaged with the launching member 23 on the collet 223, when the upper top cover 200 is superimposed on the gyro base 100, by the opposite pole attraction of the first magnetic attraction member 400 and the second magnetic attraction member 500, the trigger member 30 is triggered to move down to push the top cover 222 to lock, so that the top cover 222 and the collet 223 are released and extend downward simultaneously, when the collet 223 extends downward, the weapon is disengaged from the annular groove 121 of the ring body 12, and after the weapon is released, the weapon can be launched by virtue of the high-speed rotation centrifugal force of the gyro base 100, so that the upper top cover 200 and the gyro base 100 realize the upper top and lower top combination 1000, thereby changing the movement track of the gyro base 100 and launching the weapon. When the player plays, the upper top cover 200 is overlapped to trigger the emission piece 23 to be emitted outwards, so that the emission piece 23 attacks (impacts) the top of the other party, the effect of disturbing the normal rotation of the top of the other party is achieved, and the winning rate of the top of the player is improved.

Further, a fixed top needle 15 is fixed on the base 11 of the top assembly 1000, a top cover 222 is sleeved on the fixed top needle 15, and the top cover 222 can slide up and down relative to the fixed top needle 15, as shown in fig. 3, the upper end of the fixed top needle 15 is fixed on the base 11, the top cover 222 is fixed on a bottom support 223, and when the bottom support 223 slides up and down relative to the base 11, the top cover 222 also slides relative to the fixed top needle 15.

When the upper top cover 200 is stacked on the top base 100, the bottom support 223 is separated from the base 11 and slides downward, the top cover 222 also slides downward relative to the fixed top needle 15, the lower end of the fixed top needle 15 is located in the top cover 222, that is, the bottom support 223 and the top cover 222 extend downward, and the lower end of the top cover 222 supports and rotates the top base 100. When gyro base 100 is free to rotate (i.e., upper gyro cover 200 and gyro base 100 are not engaged), shoe 223 slides upward and engages with base 11, top sleeve 222 also slides upward relative to fixed top needle 15, such that the lower end of fixed top needle 15 extends out of top sleeve 222, and the lower end of fixed top needle 15 supports and rotates gyro base 100.

A toy according to a second aspect of the present invention includes a transmitter 2000 and a gyro assembly 1000 according to the above-described embodiments. The gyro assembly 1000 includes a gyro base 100 and an upper gyro cover 200, a first lock disc 14 is disposed on the gyro base 100, the transmitter 2000 may be cooperatively connected with the gyro base 100 through the first lock disc 14, a second lock disc 230 is disposed on the upper gyro cover 200, and the transmitter 2000 may be cooperatively connected with the upper gyro cover 200 through the second lock disc 230.

Specifically, first, gyro base 100 is mounted on transmitter 2000, and the pull cord grip on transmitter 2000 is pulled out a plurality of times, so that gyro base 100 is rotated at a high speed and gyro base 100 is launched into a combat disk. Then, the upper top cover 200 is mounted on the launcher 2000, and the pull rope handle on the launcher 2000 is pulled to rotate the upper top cover 200 at a high speed, so that the upper top cover 200 can be superimposed on the gyro base 100 after aligning with the gyro base 100. When the top cover 200 is superimposed on the gyro base 100, the top cover 222 of the gyro base 100 is triggered to stretch out and deform, and the weapon (the turning piece 22 or the launching piece 23) is triggered to eject, so that the rotating movement track of the gyro base 100 is changed, and the attack state is changed.

In addition, the upper top cover 200 can be rotated at a high speed by the launcher 2000, and the gyro assembly 1000 is realized when the launcher 2000 accelerates and launches the upper top cover 200 so that the upper top cover 200 is superimposed on the gyro base 100, thereby achieving the purpose of accelerating the rotation speed of the gyro base 100, and thus improving the effect of gyro fighter.

Thus, on one hand, the upper top cover 200 and the top base 100 can be combined up and down to accelerate the rotation speed, and on the other hand, the movement track of the top can be triggered and changed by the upper and lower combined bodies, so that the state of the top cover 222 can be changed and the weapon can be launched; in addition, the top cover 222 can be automatically reset by manual operation or by pressing the trigger piece 30 through the emitter 2000, and the top and bottom layer top assembly 1000 can be accurately realized by the principle of opposite pole attraction of the magnets.

According to the toy disclosed by the embodiment of the invention, the upper top cover 200 and the top base 100 are adopted to perform matched playing, when the upper top cover 200 is overlapped on the top base 100, the movable piece 20 on the top base 100 is triggered to move, the participation of a player is mobilized, surprise experience can be brought to the player, and playing interestingness is improved. In addition, when in fight and play, the movable piece 20 is triggered to change by overlapping the upper top cover 200, so that the top of the opponent can be attacked (impacted), the effect of disturbing the normal rotation of the top of the opponent is achieved, and the winning rate of the top of the opponent is improved.

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element in question must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present invention.

In the description of the present invention, "plurality" means two or more.

Other constructions and operations of the top assembly 1000 and toys having the same according to embodiments of the present invention are known to those of ordinary skill in the art and will not be described in detail herein.

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

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

Claims (19)

1. A top assembly comprising:

the top base body is provided with a movable piece;

the upper top cover is detachably connected with the top base body and is configured to trigger a movable piece on the top base body to move when being overlapped on the top base body;

the gyro base body includes:

a first body;

the movable piece is arranged on the first body and moves relative to the first body;

the trigger piece is arranged on the first body and triggers the movable piece to move; the gyro base body further includes: the elastic reset piece is arranged on the first body, the movable piece is connected with the trigger piece and keeps synchronous movement, the movable piece moves downwards when the trigger piece is triggered downwards, and the elastic reset piece drives the movable piece to reset upwards when the trigger piece is released.

2. The gyroscopic assembly of claim 1, wherein said gyroscopic base further comprises: the latch mechanism, latch mechanism establishes on the first body, latch mechanism with the moving part cooperation links to each other in order to lock the moving part, go up the top cover with when the top base member cooperation latch mechanism with the moving part breaks away from in order to release the moving part, latch mechanism includes:

the sleeve lock device is arranged below the trigger piece and is in stop connection with the trigger piece, and when the trigger piece is triggered, the trigger piece pushes the sleeve lock device to move along the radial direction so as to release the movable piece;

the first elastic piece is connected between the movable piece and the first body, and the first elastic piece is converted into an energy release state from an energy storage state when the movable piece is released by the sleeve lock device.

3. The top assembly of claim 2, wherein the boot lock device comprises:

the first set of locking pieces and the second set of locking pieces are arranged towards each other and are arranged around the periphery of the bottom of the triggering piece in a surrounding mode, two ends of the triggering piece are respectively connected with the first set of locking pieces and the second set of locking pieces in a blocking mode, and the triggering piece respectively pushes the first set of locking pieces and the second set of locking pieces to move along the radial direction so as to release the movable piece when sliding downwards;

The second elastic piece is connected between the first set of locking pieces and the second set of locking pieces.

4. The top assembly of claim 2, wherein the latch means is provided with a hook portion, and the hook portion is engaged with the movable member for locking the movable member.

5. The top assembly of claim 2, wherein the moveable member comprises: the sliding part is positioned outside the first body, the sliding part slides up and down between a locking position and a releasing position, the sliding part is clamped on the sleeve locking device when the sliding part is positioned at the locking position, and the sliding part is clamped on the inner wall of the first body when the sliding part is positioned at the releasing position.

6. The top assembly of claim 5, wherein the moveable member comprises: the turnover piece is connected to the periphery of the sliding piece through a rotating shaft, and the turnover piece rotates outwards away from the first body relative to the sliding piece.

7. The gyroscopic assembly of claim 6, further comprising: the third elastic piece is connected between the sliding piece and the overturning piece, and the third elastic piece is converted into an energy releasing state from an energy storage state when the overturning piece overturns outwards.

8. The top assembly of claim 6, wherein the turnover member comprises a plurality of turnover members uniformly arranged along the periphery of the sliding member, the sliding member is provided with mounting grooves, and each turnover member is correspondingly arranged in each mounting groove.

9. The top assembly of claim 5, wherein the moveable member comprises: the launching piece is detachably arranged on the sliding piece, and the launching piece is separated from the sliding piece to pop outwards when the sliding piece slides from the locking position to the releasing position.

10. The top assembly of claim 9, wherein the emitting member includes a plurality of emitting members uniformly arranged along an outer periphery of the sliding member, the sliding member is provided with mounting grooves, and each of the emitting members is correspondingly provided in the mounting groove.

11. The top assembly of claim 9, wherein a hook is disposed on a side of the transmitting member facing the sliding member, and a fastening portion is disposed on an inner edge of the mounting groove of the sliding member, and the hook is correspondingly fitted on the fastening portion.

12. The top assembly of claim 5, comprising:

The first magnetic attraction piece is arranged in the gyro base body;

the second magnetic attraction piece is arranged in the upper top cover, and the top base body and the upper top cover are connected through magnetic attraction cooperation between the first magnetic attraction piece and the second magnetic attraction piece.

13. The top assembly of claim 12, wherein the first body comprises:

a base, the first magnetic attraction piece is arranged on the base, and the first elastic piece is connected between the base and the sliding piece;

the ring body is arranged on the periphery of the base in a surrounding mode;

the limiting piece is connected with the inner wall of the ring body, the limiting piece and the base are vertically arranged at intervals, and the base, the ring body and the limiting piece jointly define a containing cavity.

14. The gyroscopic assembly of claim 13, further comprising: and the reset mechanism is arranged in the first body, and drives the sliding piece to slide upwards from the release position to the locking position when the reset mechanism is triggered.

15. The top assembly of claim 14, wherein the reset mechanism comprises:

One end of the reset trigger piece extends out of the base part and extends upwards;

the reset rod is connected in the accommodating cavity in a swinging way, one end of the reset rod is connected with the reset triggering piece in a stopping way, the other end of the reset rod is configured into a tilting part, and the tilting part is stopped against the lower surface of the clamping ring to drive the sliding piece to slide upwards when the reset triggering piece triggers the reset rod to swing.

16. The top assembly of claim 12, wherein the top cover comprises: the second body is configured to be matched with the gyro base body, the second magnetic attraction piece is arranged in the second body, the upper gyro cover defines an accommodating space, and the top of the gyro base body is matched in the accommodating space.

17. The top assembly of claim 16, wherein a protrusion is provided on a side of the second body facing the top base, the protrusion being configured to trigger the trigger member to slide downward when the top cover is folded over the top base.

18. The top assembly of claim 5, wherein the slider comprises:

The lower end of the top sleeve extends out of the first body and extends downwards, and the top sleeve slides up and down between the locking position and the releasing position;

the bottom support sleeve is connected to the top sleeve and keeps synchronous sliding with the top sleeve.

19. A toy, comprising:

a transmitter;

the top assembly of any one of claims 1-18, comprising: the top base member and go up the top lid, be equipped with first lock dish on the top base member, the transmitter pass through first lock dish with the top base member links to each other, it covers to go up the top and be equipped with the second lock dish, the transmitter pass through the second lock dish with go up the top lid links to each other.