CN113877219A - Top toy suit - Google Patents

Abstract

The invention discloses a top toy suit, which comprises a device shell capable of being unfolded and folded, wherein a top launching device, a toy top and a top disk are arranged in the device shell. The top launcher and the top disk are installed on the shell, and the toy top is placed on the shell. When the device shell is in an unfolding state, the top launching device can drive the toy top to rotate and launch the toy top to the top disk. When the device shell is in a closed state, the top launching device, the toy top and the top disk are positioned inside the closed device shell. The top toy suit integrates the top emitting device, the toy top and the top disk on the device shell, and is convenient to play. When the device casing expandes, can launch the toy top and play in the top dish, the top dish provides the place for the toy top of playing, and the guide toy top is fought, has improved the enjoyment of playing. When the device shell is folded, the gyro launching device, the toy gyro and the gyro disk can be contained in the device shell, and the device shell is convenient to place.

Description

Top toy suit

Technical Field

The invention relates to the field of toys, in particular to a top toy set.

Background

With the development of the top toy, a plurality of toy products related to the top are on the market, generally comprising a top body, a top launcher and a top disk, and the three are basically separated in the existing products. The volume of the gyro disk body is the largest in the three, and the gyro disk body is inconvenient to carry and use, so most of players only take the gyro and the transmitter, and then play with the gyro transmission to ground, but the terrain on ground is complicated and various, and the fight between the gyro is realized to the difficult suitable ground of looking for, and the guide that lacks the gyro disk in addition is difficult to realize the fight of both sides gyro, and inconvenient playing easily loses the enjoyment of playing. Moreover, the spinning top is easily lost once unnoticed. And the shapes of the three parts are different, so that the storage is relatively occupied, and the storage is very inconvenient.

Based on the above technical problems, improvements thereof are required.

Disclosure of Invention

The technical scheme of the invention aims to provide a spinning top toy set which is convenient to place and play and improves the playing pleasure.

The invention provides a top toy suit, which comprises a device shell capable of being unfolded and folded, wherein a top launching device, a toy top and a top disk are arranged in the device shell; the top launcher and the top disk are mounted on the device housing, and the toy top is placed on the device housing; when the device shell is in an unfolded state, the top launching device can drive the toy top to rotate and launch the toy top into the top disk; when the device shell is in a closed state, the top launching device, the toy top and the top disk are positioned in the closed device shell.

Further, the device shell comprises a first shell and a second shell arranged opposite to the first shell, and the first shell is movably connected with the second shell so that the device shell can be unfolded and folded.

Further, the gyro emission device is disposed on the first housing, and the gyro disk is disposed on the second housing.

Further, a locking device is arranged on the device shell and comprises a first locking piece and a second locking piece detachably connected with the first locking piece; the first locking piece is connected to the first shell, and the second locking piece is connected to the second shell; when the device shell is in the closed state, the first locking piece is connected with the second locking piece, so that the device shell is locked.

Further, the locked device housing is in a box shape or a book shape.

Further, the first shell and the second shell are both provided with the gyro launching device and the gyro disk; when the device shell is unfolded, the gyro disk on the first shell is butted with the gyro disk on the second shell.

Further, at least two peripheries of the gyro disk are provided with baffles which are mounted on a wall of the device housing close to the gyro disk; the upper end of the baffle is positioned above the upper end of the gyro disk to prevent the toy gyro from separating from the gyro disk.

Furthermore, a mounting boss is arranged on the device shell, and the mounting boss is arranged adjacent to the gyro disk; the gyro emission device is installed on the installation boss.

Further, the top launcher comprises a launching seat, an accelerator and a launcher; the launching seat can be used for placing the toy gyroscope, the accelerating piece can drive the toy gyroscope to rotate, and the launching piece can launch the toy gyroscope on the launching seat into the gyroscope disk.

Furthermore, the accelerating part is a pull rope accelerator, and the pull rope accelerator comprises a pull ring, a pull rope, a wire spool and a transmission gear part; the wire spool and the transmission gear member are rotatably connected in the device housing, wherein the transmission gear member is engaged between the wire spool and the toy top; one end of the pull rope is wound on the wire spool, the other end of the pull rope is connected to a pull ring, and the pull ring is located on the outer side of the device shell.

Further, the top plate comprises a plate panel and a supporting division bar, and the supporting division bar is connected to the bottom of the plate panel to support the plate panel.

Furthermore, a control device is arranged in the device shell and comprises one or the combination of at least two of an emission control mechanism, a gyro disk control mechanism and a gyro control mechanism; the launching control mechanism is in linkage connection with the gyro launching device so as to control the launching direction of the gyro launching device; the gyroscope disc control mechanism is in linkage connection with the gyroscope disc so as to control the gyroscope disc to move; the top control mechanism is in linkage connection with the toy top to control the toy top to move.

Further, the firing control mechanism includes a first operating member and a first linkage member; the gyro launching device is rotatably connected with the device shell, and the first operating piece is movably connected with the device shell; the first linkage piece is movably connected in the device shell and connected between the first operating piece and the gyro launching device; when the first operating piece moves, the first linkage piece is driven to move, so that the gyro launching device rotates.

Further, the gyro disk control mechanism includes a second operating member and a second linkage member; the second operating piece is movably connected to the device shell, the gyro disk is movably connected to the device shell, and the second linkage piece is movably connected between the second operating piece and the gyro disk; when the second operation part moves, the second operation part drives the second linkage part to enable the gyro disk to move.

Further, the gyro control mechanism includes a third operating member and a third link member; the third operating piece is movably connected with the device shell and is connected with the third linkage piece; the third linkage piece is movably connected to the device shell, and part of the third linkage piece extends into the gyro disk and is linked with the toy gyro in the gyro disk.

By adopting the technical scheme, the method has the following beneficial effects:

the technical scheme of the invention provides a spinning top toy suit, which integrates a spinning top launching device, a toy spinning top and a spinning top disk on a device shell capable of being unfolded and folded, so that the spinning top toy suit can be integrally carried and is convenient to play. When the device casing expandes, can utilize top emitter to launch the toy top and play in top dish, top dish provides the place for the toy top of playing, and can guide the toy top to fight, has improved the enjoyment of playing. And when the device casing folds, can accomodate top emitter, toy top and top dish in the device casing, be convenient for place, also portable is difficult for losing.

Drawings

FIG. 1 is a perspective view of a top toy playset in accordance with an embodiment of the present invention;

FIG. 2 is a schematic view of the top toy playset of FIG. 1 in a closed position;

FIG. 3 is an exploded view of the top toy playset of FIG. 1;

FIG. 4 is a schematic view of a first housing, a top launcher and a launch control mechanism in an embodiment of the present invention;

FIG. 5 is an exploded view of a top launcher in accordance with an embodiment of the present invention;

FIG. 6 is a schematic view of a projectile in another embodiment of the present invention;

FIG. 7 is a schematic diagram of a spinning top according to an embodiment of the present invention;

FIG. 8 is a schematic view of a launch control mechanism in accordance with an embodiment of the present invention;

FIG. 9 is a schematic diagram of a spinning top disk control mechanism in accordance with an embodiment of the present invention;

FIG. 10 is a schematic view of a second operating member according to an embodiment of the present invention;

FIG. 11 is a schematic view of a pusher member in an embodiment of the invention;

FIG. 12 is a schematic view of a top toy playset according to another embodiment of the present invention;

FIG. 13 is a schematic view of the top toy playset of FIG. 12 in a closed position;

FIG. 14 is an exploded view of the top toy playset of FIG. 12;

fig. 15 is an exploded view of a gyro control mechanism according to an embodiment of the present invention.

Reference numerals:

top toy set 10

The first housing 11 of the device housing 1 is provided with a first locking piece 111 mounting boss 112

Top mount 1121 on the second housing 12 and the second lock 121 with a baffle 122

Toy top 2 top disk 3 disk panel 31 support parting bead 32

Pull ring 421 of launching base 41 and accelerator 42 of gyro launching device 4

Clutch gear 425 of pull rope 422 wire spool 423 transmission gear member 424

The firing member 43, the firing button 431, the driving block 432, and the pushing rod 433

Stop mechanism 5 connecting seat 51 stop lever 52 launching control mechanism 6

The first operating member 61 operates the rocker 611 and the rocker seat 612 the first linkage 62

The first sliding rod 621 and the second sliding rod 622 are connected with a gear 623 and a gyro disk control mechanism 7

Operation of the button 711 by the second operating member 71 causes the block 712 to draw the second link member 72

Connecting cord 721 pusher 722 first support bar 7221 second support bar 7222

Swinging link 7223 push block 7224 gyro control mechanism 8 third operating piece 81

Operation of the crank 811 and the third linkage 82 of the crank gear 812 link the gear member 821

Link lever 822

Detailed Description

The following further describes embodiments of the present invention with reference to the accompanying drawings.

It is easily understood that according to the technical solution of the present invention, those skilled in the art can substitute various structures and implementation manners without changing the spirit of the present invention. Therefore, the following detailed description and the accompanying drawings are merely illustrative of the technical aspects of the present invention, and should not be construed as limiting or restricting the technical aspects of the present invention.

The terms of orientation of up, down, left, right, front, back, top, bottom, and the like referred to or may be referred to in this specification are defined relative to the configuration shown in the drawings, and are relative terms, and thus may be changed correspondingly according to the position and the use state of the device. Therefore, these and other directional terms should not be construed as limiting terms.

As shown in fig. 1 to 3 and fig. 12 to 14, a top toy set 10 according to an embodiment of the present invention includes a device case 1 capable of being unfolded and folded, and a top launcher 4, a toy top 2, and a top plate 3 are provided in the device case 1.

The top launcher 4 and the top disk 3 are mounted on the device case 1, and the toy top 2 is placed on the device case 1.

When the device case 1 is in the unfolded state, the top launching device 4 can drive the toy top 2 to rotate and launch the toy top 2 into the top disk 3.

When the device case 1 is in the closed state, the top launcher 4, the toy top 2, and the top tray 3 are located inside the closed device case 1.

The top toy set 10 is convenient for people to play and improves the playing pleasure. The top toy set 10 comprises a device housing 1, a top launcher 4, a toy top 2 and a top plate 3. The device case 1 is used for mounting the top launcher 4, the toy top 2 and the top disk 3. The top launcher 4 is used for launching the toy top 2 to the top disk 3, the top disk 3 is used for the toy top 2 to rotate, and optionally, the middle of the disk surface of the top disk 3 is sunken downwards, so that the disk surface is inclined. In this way, the toy tops 2 in the top plate 3 can collide with each other toward the center of the top plate 3 by the action of gravity.

When the device case 1 is unfolded, the top launching device 4, the toy top 2 and the top disk 3 are exposed, and the top launching device 4 can launch the toy top 2 onto the top disk 3. The gyroscope disk 3 provides a place for the playing toy gyroscope 2, and is convenient to play. When the device case 1 is closed, the gyro launcher 4, the toy gyro 2, and the gyro disk 3 are stored in the device case 1, and are prevented from being lost.

In one embodiment, as shown in fig. 1-3 and 12-13, the device housing 1 includes a first housing 11 and a second housing 12 disposed opposite to the first housing 11, and the first housing 11 is movably connected to the second housing 12 to enable the device housing 1 to be unfolded and folded. Specifically, the device case 1 is composed of a first case 11 and a second case 12, and the first case 11 and the second case 12 are relatively movable. When the device shell 1 is unfolded, the second shell 12 moves to one side of the first shell 11, and the top launching device 4, the top disk 3 and the toy top 2 can be exposed. When the device shell 1 is folded, the second shell 12 moves to be stacked on the first shell 11, and the top launching device 4, the top disk 3 and the toy top 2 are positioned in the device shell 1 and protected by the first shell 11 and the second shell 12 to avoid damage.

Alternatively, the first housing 11 and the second housing 12 are rotatably connected, and when it is desired to unfold the device housing 1, the second housing 12 is rotated away from the first housing 11. When the device case 1 needs to be closed, the second case 12 is rotated in a direction to approach the first case 11.

Optionally, the first housing 11 and the second housing 12 may also be connected in a sliding manner, a sliding rail is disposed on the first housing 11, and the second housing 12 is matched with the sliding rail. When the device shell 1 needs to be unfolded, the second shell 12 is slid and pulled away in the direction away from the first shell 11, so that the second shell 12 and the first shell 11 are finally spliced into a whole, or the second shell 12 and the first shell 11 are separated into a single independent shell, or the second shell 12 and the first shell 11 are butted into a whole after the two are separated.

In one embodiment, as shown in fig. 1-3, the top launcher 4 is disposed on the first housing 11 and the top disk 3 is disposed on the second housing 12. So set up convenient overall arrangement top emitter 4 and top dish 3, make the overall arrangement more reasonable. The top launcher 4 and the top disk 3 are installed on different shells, so that a player can conveniently operate the top launcher 4, the top disk 3 can be designed to be larger, and the moving range of the toy top 2 is enlarged.

In one embodiment, as shown in fig. 1-2, the device housing 1 is provided with a locking device, which includes a first locking member 111 and a second locking member 121 detachably connected to the first locking member 111. The first lock 111 is connected to the first housing 11, and the second lock 121 is connected to the second housing 12. When the device shell 1 is in a folded state, the first locking piece 111 is connected with the second locking piece 121, so that the device shell 1 is locked, is convenient to carry and is not easy to lose.

Specifically, the top toy playset 10 further includes a locking arrangement including a first locking member 111 and a second locking member 121. The first lock 111 is connected to the first housing 11, and the second lock 121 is connected to the second housing 12. The first lock 111 is detachably connected to the second lock 121, and when the device housing 1 is in the closed state, the first lock 111 and the second lock 121 can be connected to lock the device housing 1 in the closed state. When it is necessary for the device case 1 to be in the unfolded state, the first lock member 111 is separated from the second lock member 121, and then the second case 12 is moved.

In one embodiment, as shown in fig. 1-2 and 12-13, the locked device housing 1 is in the shape of a box or book. When the apparatus casing 1 is in the closed state again, the appearance of the apparatus casing 1 is a box shape or a book shape. The shape structure of box or books is stable, can steadily place, is difficult for empting, also conveniently carries.

In one embodiment, as shown in fig. 12-14, the first housing 11 and the second housing 12 are each provided with a top launcher 4 and a top disk 3. When the device housing 1 is unfolded, the gyro disk 3 on the first housing 11 and the gyro disk 3 on the second housing 12 are butted against each other.

Specifically, the first housing 11 and the second housing 12 are symmetrically disposed. The first housing 11 is provided with a gyro emitting device 4 and a gyro disk 3, and the second housing 12 is also provided with the gyro emitting device 4 and the gyro disk 3. When the device shell 1 is unfolded, the two gyro disks 3 are mutually butted to form a whole, and the two gyro launching devices 4 can respectively launch the toy gyro 2 to the corresponding gyro disks 3, so that the two toy gyros 2 fight against each other. So set up, enable two players to play simultaneously, increase the enjoyment of playing.

In one embodiment, the top toy playset 10 includes at least two device housings 1, each device housing 1 having a top launcher 4, a toy top 2, and a top plate 3 disposed therein. When the device housing 1 is in the unfolded state, any two gyro disks 3 can be butted.

The top toy set 10 is illustrated as including two device housings 1. Both device housings 1 are provided with a top launcher 4, a toy top 2 and a top disk 3. When the two device shells 1 are in the unfolding state, the two gyro disks 3 can be butted to form a whole, and the two gyro launching devices 4 are opposite. So set up, can many people participate in playing, improve the enjoyment of playing.

Alternatively, a removable flap is provided on the second housing 12, which is removed before the two gyro disks 3 are docked, and then docked. Wherein, the bottom wall of the second shell 12 is provided with a butt joint part, when in butt joint, the butt joint parts of the two second shells 12 are connected, so that the two second shells 12 are firmly connected,

in one embodiment, as shown in fig. 1, 3 and 12, at least two peripheries of the spinning top disk 3 are provided with baffles 122, the baffles 122 being mounted on a wall of the device housing 1 close to the spinning top disk 3. The upper end of the baffle 122 is located above the upper end of the top plate 3 to stop the toy top 2 from separating from the top plate 3.

As shown in fig. 1 and 3, the top disk 3 is disposed on the second housing 12, and a baffle 122 is connected to the second housing 12, and the baffle 122 is located around the top disk 3 and has a height higher than that of the top disk 3. Thus, when the toy top 2 rotates on the top plate 3, the baffle 122 can block the toy top 2 and place the toy top 2 to be separated from the top plate 3.

As shown in fig. 12, the gyro disk 3 is provided on both the first housing 11 and the second housing 12, and therefore the baffle 122 is provided on both the first housing 11 and the second housing 12.

In one embodiment, as shown in fig. 1-4 and 12, the device housing 1 is provided with a mounting boss 112, and the mounting boss 112 is disposed adjacent to the top disk 3. The gyro emission device 4 is mounted on the mounting boss 112.

Specifically, as shown in fig. 1 to 4, the first housing 11 includes a housing base and a mounting boss 112, and the mounting boss 112 is connected to the housing base to provide a mounting position for the gyro emission device 4. The mounting boss 112 also increases the height of the top launcher 4, so that the top launcher 4 can be aligned with the top plate 3, and when the toy top 2 is launched, the toy top 2 can smoothly move to the top plate 3. As shown in fig. 12, the first housing 11 and the second housing 12 are each provided with a mounting boss 112.

In one embodiment, as shown in fig. 1 to 3, a top mounting portion 1121 is disposed on the mounting boss 112, and the toy top 2 is mounted in the top mounting portion 1121.

Specifically, the mounting boss 112 is provided with a top embedding portion 1121, the top embedding portion 1121 is formed by being recessed downward from the surface of the mounting boss 112, and a part of the toy top 2 is clamped on the top embedding portion 1121, so that the toy top 2 is kept stable. The standby toy top 2 is convenient to store and place so as to participate in fighting at any time.

In one embodiment, as shown in fig. 1-3, a stopping mechanism 5 is disposed on the device housing 1, the stopping mechanism 5 includes a connecting seat 51 and a stopping rod 52 capable of opening in one direction, the stopping rod 52 is rotatably connected to the connecting seat 51, and the stopping rod 52 is located between the top launcher 4 and the top disk 3. When the top launcher 4 launches the toy top 2, the stopper lever 52 can be opened, so that the toy top 2 can enter the top plate 3. When the toy top 2 is positioned on the top disk 3, the blocking lever 52 is closed to block the toy top 2 and prevent the toy top 2 from rotating to the position of the top launcher 4.

Specifically, the connecting seat 51 is hinged between the first housing 11 and the second housing 12. The blocking lever 52 is rotatably coupled to the coupling base 51. The stop lever 52 can only be opened in one direction, when the toy top 2 is launched, the toy top 2 pushes the stop lever 52 to rotate, so that the stop lever 52 is opened, the first shell 11 and the second shell 12 are communicated, and the toy top 2 enters the top disk 3. Then, the stop lever 52 is turned off again, and the stop lever 52 cannot rotate when the toy top 2 touches the stop lever 52 again. So arranged, the toy top 2 in the top disk 3 is prevented from reentering the first housing 11.

In one embodiment, as shown in fig. 1 and 3-5, top launcher 4 includes a launcher 41, an accelerator 42, and a launcher 43. The launching seat 41 can be used for placing the toy top 2, the accelerating piece 42 can drive the toy top 2 to rotate, and the launching piece 43 can launch the toy top 2 on the launching seat 41 into the top disk 3.

Specifically, the launching device is composed of a launching pad 41, an accelerator 42, and a launcher 43, the launching pad 41 is attached to the device case 1, and the toy top 2 can be placed on the launching pad 41. The accelerating piece 42 is used for driving the toy top 2 to rotate and accelerate, and is installed on the launching seat 41, and the accelerating driving end of the accelerating piece 42 is connected with the toy top 2 on the launching seat 41. The launcher 43 is used to launch the toy top 2, so that the toy top 2 is separated from the launching seat 41. The launching output of the launcher 43 is capable of pushing the toy top 2. The top launcher 4 integrates the function of driving the toy top 2 to rotate and the function of launching the toy top 2, thereby facilitating the operation of the player and reducing the space volume.

Optionally, the launching seat 41 includes a first seat body and a second seat body, the first seat body and the second seat body are connected to form a seat body cavity, and at least part of the launching element 43 and at least part of the accelerating element 42 are installed in the seat body cavity.

Alternatively, the acceleration member 42 is a motor-driven structure including a driving switch connected to the driving motor through an electric wire, a driving motor, and a driving transmission member connected between a motor shaft of the driving motor and the toy top 2. After the driving switch is closed, the driving motor is started, and the driving motor drives the gyroscope to rotate through the driving transmission part. Of course, the accelerating element 42 may have other structures as long as it can drive the spinning top to rotate.

Alternatively, as shown in the figure, the launcher 43 is a push mechanism, and the launcher 43 includes a launch button 431, a transmission block 432, and a push rod 433 for pushing the toy top 2. A push rod 433 is slidably coupled to the device case 1, and a driving block 432 is coupled to the push rod 433 and positioned below the firing button 431. The emission button 431 is connected with the device shell 1 in a sliding mode, when the emission button 431 is pressed, the emission button 431 presses the transmission block 433 downwards, the transmission block 432 drives the push rod 433 to slide, and the push rod 433 pushes the toy top 3. The side of the transmission block 432 facing the firing button 431 is beveled. In another embodiment, the driving block 432 is a driving wheel rotatably connected to the pushing rod 433, a pressing block extending downward is connected to the firing button 431, and the pressing block is in contact with the driving wheel when the firing button 431 moves downward. Of course, the launching member 43 may have other structures as long as it can push the toy top 2 onto the top disk 3.

In one embodiment, as shown in fig. 1 and 3-5, the accelerating element 42 is a pull cord accelerator that includes a pull ring 421, a pull cord 422, a spool 423, and a transmission gear element 424. The wire spool 423 and the transmission gear member 424 are rotatably coupled within the device case 1, wherein the transmission gear member 424 is engaged between the wire spool 423 and the toy top 2. One end of the pulling rope 422 is wound on the wire spool 423, and the other end is connected to the pulling ring 421, and the pulling ring 421 is located outside the device case 1.

Specifically, the wire spool 423 is rotatably connected to the launching seat 41, one end of the pulling rope 422 is connected to the wire spool 423 and is partially wound around the wire spool 423, and the other end of the pulling rope 422 is connected to the pulling ring 421. When a player holds the pull ring 421 and pulls the pull rope 422, the pull rope 422 can drive the spool 423 to rotate. The transmission gear member 424 is composed of at least one gear, which is engaged between the wire spool 423 and the top. The rotation toward the wire spool 423 drives the transmission gear 424 to rotate, and the transmission gear 424 rotates the toy top 2. The accelerating member 42 thus provided is simple in structure and is not easily damaged by purely mechanical transmission.

Optionally, a return spring is connected to the spool 423, and the pull cord 422 is connected to the return spring. A clutch gear 425 is connected between the wire spool 423 and the transmission gear member 424. The launching base 41 is provided with an arc-shaped slot, and the clutch gear 425 is connected in the arc-shaped slot and can slide and rotate in the arc-shaped slot. The clutch gear 425 is engaged with the wire spool 423. When the pulling rope 422 is pulled, the wire spool 423 rotates in a forward direction, and the clutch gear 425 is driven to move towards the transmission gear member 424, and the clutch gear 425 is engaged between the wire spool 423 and the transmission gear member 424. The reset spring piece is stressed and deformed to generate elastic potential energy. When the pull ring 421 is released, the return spring piece releases potential energy to drive the wire spool 423 to rotate reversely, and the pull rope 422 is wound on the wire spool 423 again. The wire spool 423 drives the clutch gear 425 to move away from the transmission gear 424, so that the clutch gear 425 and the transmission gear 424 are separated. So set up, can stimulate stay cord 422 repeatedly, make toy top 2 rotate towards same direction all the time, continuously accelerate toy top 2.

In one embodiment, as shown in fig. 1, 3 and 7, the spinning top disk 3 includes a disk panel 31 and support spacers 32, each of which is attached to the bottom of the disk panel 31 to support the disk panel 31.

Specifically, the spinning top disk 3 is composed of a disk panel 31 and a support spacer 32, the disk panel 31 is located in the device case 1, and the support spacer 32 is connected to the bottom of the disk panel 31 and contacts with the bottom wall of the device case 1 to support the disk panel 31. The support spacers 32 raise the disk panel 31 so that the edge of the disk panel 31 can be flush with the bottom of the toy top 2 on the launching seat 41. Thus, when launching the toy top 2, the toy top 2 can enter the disk panel 31 more stably.

In one embodiment, as shown in fig. 1-3, 8-9, and 14-15, a control device is further disposed within the device housing 1, the control device including one or a combination of at least two of the launch control mechanism 6, the top disk control mechanism 7, and the top control mechanism 8. The emission control mechanism 6 is linked with the gyro emission device 4 to control the emission direction of the gyro emission device 4. The gyro disk control mechanism 7 is linked with the gyro disk 3 to control the movement of the gyro disk 3. The top control mechanism 8 is linked with the toy top 2 to control the toy top 2 to move.

Specifically, the control device includes any one of the emission control mechanism 6, the gyro disk control mechanism 7 and the gyro control mechanism 8, or a combination of any two of them, or all three of them. The device is designed according to actual needs, so that the functions of the control device are enriched, and different operations are realized.

The emission control mechanism 6 is used for adjusting the emission direction, wherein the emission base 41 is movably connected to the device shell 1, and the output end of the emission control mechanism 6 is connected with the emission base 41 and can drive the emission base 41 to move.

Alternatively, the launching pad 41 is rotatably connected to the device housing 1 via a pad shaft, and when the pad shaft is arranged horizontally, the launching pad 41 rotates up and down. When the seat body shaft is vertically arranged, the emission seat 41 rotates left and right.

The gyro disk control mechanism 7 is used for controlling the movement of the gyro disk 3, wherein the gyro disk 3 is movably connected to the device shell 1, the output end of the gyro disk control mechanism 7 is connected with the gyro disk 3, and the movement of the gyro disk 3 can be controlled by the gyro disk control mechanism 7 to change the movement direction of the gyro on the gyro disk 3.

Alternatively, the spinning top disk control mechanism 7 includes a spinning disk rotatably attached to the device case 1 and a spinning disk lever on which the spinning top disk 3 is mounted. The turntable rod is connected with the turntable, and the turntable can be rotated by stirring the turntable rod, so that the gyroscope disk 3 is driven to rotate. The top disk 3 is provided with the baffle 122, and when the top disk 3 rotates, the baffle can collide the toy top 2, so that the toy top 2 changes direction.

The top control mechanism 8 is used for controlling the top to move, when the toy top 2 rotates in the top disk 3, a player can change the moving direction of the toy top 2 through the top control mechanism 8 to fight, and the control degree of the player on the toy top 2 is improved.

In one embodiment, as shown in FIGS. 3-5 and 8, the firing control mechanism 6 includes a first operating member 61 and a first linkage member 62. The top emitting device 4 is rotatably connected to the device housing 1, and the first operating member 61 is movably connected to the device housing 1. The first linkage member 62 is movably connected within the apparatus casing 1 and between the first operation member 61 and the top launcher 4. When the first operating element 61 moves, the first linking element 62 is driven to move, so that the top emission device 4 rotates.

Specifically, the launching pad 41 is rotatably connected to the device housing 1, and the first operating member 61 and the first linkage member 62 are both movably connected to the device housing 1, wherein one end of the first linkage member 62 is connected to the first operating member 61, and the other end is connected to the launching pad 41. When the first operating element 61 is operated to move, the first operating element 61 drives the first linkage element 62 to move, and the first linkage element 62 drives the launching base 41 to move, so that linkage between the first operating element 61 and the launching base 41 is realized. Thus, the position of the launching seat 41 can be conveniently adjusted, so that the toy top 2 on the launching seat 41 can be launched towards the expected direction.

Alternatively, the first operating element 61 is an operating slider, which is connected to the device housing 1 in a sliding manner. The first linkage member 62 is a linkage rack, the linkage rack is slidably connected to the device housing 1, and a seat gear is disposed on the launching seat 41. Wherein the operation slide block is connected with a linkage rack, and the linkage rack is meshed with the seat gear. When the angle of the launching seat 41 is to be adjusted, the control operation slider slides.

In one embodiment, as shown in fig. 4 and 8, the first operating member 61 includes an operating rocker 611, and the operating rocker 611 is rotatably connected to the apparatus housing 1. The first linkage 62 comprises a first slide bar 621, a second slide bar 622 and a connecting gear 623. The first sliding bar 621 is connected to the operation rocker 611 and slidably connected to the device case 1. The second slide bar 622 is connected to the gyro emission device 4 and slidably connected to the device case 1. The connecting gear 623 is engaged between the first slide bar 621 and the second slide bar 622.

Specifically, the first link 62 is composed of a first slide bar 621, a second slide bar 622, and a connecting gear 623. The first sliding bar 621 is slidably connected to the device housing 1, the second sliding bar 622 is slidably connected to the device housing 1, and the first sliding bar 621 and the second sliding bar 622 are disposed at an interval. The connecting gear 623 is rotatably connected to the apparatus housing 1 and is located between the first slide bar 621 and the second slide bar 622. The connecting gear 623 is engaged between the first slide bar 621 and the second slide bar 622.

The operating rocker 611 is connected to the first sliding rod 621, and the second sliding rod 622 is connected to the launching seat 41. When the launching base 41 is controlled to rotate, the operating rocker 611 drives the first sliding rod 621 to slide, the first sliding rod 621 drives the second sliding rod 622 to slide through the connecting gear 623, and then the second sliding rod 622 drives the launching base 41 to rotate. The linkage piece arranged in this way has good transmission effect, and the launching seat 41 can rotate stably.

Optionally, the first operating member 61 further includes a rocker base 612, the operating rocker 611 is connected to the rocker base 612, the rocker base 612 is rotatably connected to the mounting boss 112, and the rocker base 612 is rotatable left and right. The rocker base 612 is connected with an assembly rod extending towards the first sliding rod 621, the first sliding rod 621 is provided with a through hole, and at least part of the assembly rod is located in the through hole and is in clearance fit with the through hole. When the assembling rod swings along with the rocker base 612, the assembling rod pushes the hole wall of the through hole to push the first sliding rod 621 to slide.

Optionally, the launching base 41 is a sector, and the arc-shaped edge of the sector is provided with a connecting tooth, and the second sliding rod 622 is engaged with the connecting tooth.

Optionally, a connecting rod extending from the launching seat 41 is disposed on the second slide bar 622. The launching seat 41 is provided with a receiving groove with an opening facing the connecting rod, and at least part of the connecting rod is positioned in the receiving groove. When the connecting rod drives the launching seat 41 to rotate, the connecting rod can be abutted to the groove wall of the accommodating groove. Thus preventing over-rotation of the launching pad 41.

In one embodiment, as shown in fig. 1, 3 and 9-10, the spinning top disk control mechanism 7 includes a second operating member 71 and a second linkage member 72. The second operating element 71 is movably connected to the apparatus casing 1, the spinning top disk 3 is movably connected to the apparatus casing 1, and the second linkage element 72 is movably connected between the second operating element 71 and the spinning top disk 3. When the second operating element 71 is activated, the second operating element 71 drives the second linkage member 72 to activate the spinning top 3. So set up, simple structure makes things convenient for manufacturing.

Specifically, the spinning top disk 3 is movably attached to the apparatus casing 1, the second operation member 71 is located on one side of the spinning top disk 3, one end of the second linkage member 72 is connected to the second operation member 71, and the other end is located below the spinning top disk 3 and can be connected to the spinning top disk 3. The player can drive the second linkage member 72 to move by operating the second operating member 71, and the second linkage member 72 drives the spinning plate 3 to move. When the top disk 3 moves, the moving direction of the toy top 2 in the top disk 3 is influenced. In this way, the player can control the toy top 2 to move, participate in the toy top 2 fight, and not just watch. Thus, the playing pleasure is improved.

In one embodiment, as shown in fig. 9-11, the second operating member 71 includes an operating button 711 and a pulling block 712, and the second linkage member 72 includes a connecting cord 721 and a pushing member 722. An operating button 711 and a pulling block 712 are movably connected to the device shell 1, a pushing member 722 is positioned below the gyro disk 3 and movably connected with the device shell 1, and a connecting rope 721 is connected between the pulling block 712 and the pushing member 722. The operating member can drive the pulling block 712 to move, so that the pushing member 722 pushes the gyro disk 3 to change the moving direction of the gyro on the gyro disk 3.

Specifically, the top disk 3 moves in such a manner that a part of the top disk 3 tilts up and inclines. The operation button 711 is slidably attached to the apparatus case 1 to slide up and down, and the drag block 712 is rotatably attached to the apparatus case 1 below the operation button 711. The drag block 712 has a first drag portion and a second drag portion vertically connected to the first drag portion, and when the operation button 711 slides downward, the operation button 711 can press the first drag portion to rotate and tilt the second drag portion. A connecting cord 721 is connected between the second linkage and the pusher 722. When the second pulling portion rotates and tilts, the connecting rope 721 is pulled, and the connecting rope 721 drives the pushing member 722 to push the gyro disk 3 upward, so that the gyro disk 3 tilts. The toy top 2 on the top disk 3 moves toward the non-tilted side under the action of gravity.

Alternatively, the pushing member 722 is a pushing rod rotatably connected to the device case 1, one end of the pushing rod is a pushing portion, the other end is a rope connecting portion, and the connecting rope 721 is connected to the rope connecting portion. The connecting rope 721 pulls the push rod to rotate, so that the pushing portion swings upward to push the gyro disk 3.

Optionally, the pushing member 722 is a lifting mechanism including a first support bar 7221, a second support bar 7222, a swing link 7223, a push block 7224, and a sliding link 7225 rotatably coupled to the swing link 7223. The swing link 7223 is rotatably connected to the apparatus case 1, and the slide link 7225 is slidably connected to the apparatus case 1. The push block 7224 is positioned above the connection of the swing link 7223 and the slide link 7225, the first support lever 7221 is rotatably connected between the swing link 7223 and the push block 7224, and the second support lever 7222 is rotatably connected between the slide link 7225 and the push block 7224. The connecting rope 721 is connected with the sliding connecting rod 7225, and when the connecting rope 721 drives the sliding connecting rod 7225 to slide, the push block 7224 moves upwards or downwards. Specifically, the swing link 7223 and the slide link 7225 are in a cross shape and are rotatably connected by a first rotation shaft. The bottom end of the swing link 7223 is rotatably connected to the device case 1 through a second rotating shaft, and the top end of the swing link 7223 is rotatably connected to the first support rod 7221 through a third rotating shaft. The bottom end of the slide link 7225 is slidably connected to the device case 1, and the top end of the slide link 7225 is rotatably connected to the second support rod 7222 through a fourth rotation shaft. The top end of the first support bar 7221 and the top end of the second support bar 7222 are rotatably connected to the push block 7224 by a fifth rotation shaft. The connection rope 721 is connected to the bottom end of the slide link 7225. When the connecting rope 721 drives the bottom end of the sliding link 7225 to slide in a direction close to the swinging link 7223, the first support bar 7221, the second support bar 7222, the swinging link 7223 and the sliding link 7225 swing upward, and the push block 7224 is pushed to move upward.

In one embodiment, as shown in fig. 12 and 14-15, the gyro control mechanism 8 includes a third operating member 81 and a third link 82. The third operating member 81 is movably connected to the apparatus casing 1 and is connected to the third link 82. The third link 82 is movably connected to the device case 1, and a part of the third link 82 extends into the top plate 3 to be linked with the toy top 2 in the top plate 3. When the player operates the third operating member 81, the third operating member 81 drives the third linkage member 82 to move, and the third linkage member 82 drives the toy top 2 in the top plate 3 to move. The toy top 2 can move along the expected direction of the player, and better participate in battle. And the player is changed from a battle observer to a battle participant, thereby improving the playing pleasure.

In one embodiment, as shown in fig. 14 to 15, the third operating member 81 includes an operating lever 811 and a lever gear 812, the operating lever 811 is movably connected to the apparatus housing 1, the lever gear 812 is connected to a lower end of the operating lever 811, and the third link 82 includes a link gear member 821 and a link lever 822, and the link gear member 821 is engaged between the link lever 822 and the lever gear 812.

Specifically, the operation rocker 811 is rotatably attached to the apparatus housing 1 via a rocker shaft to which the rocker gear 812 is attached. The linkage 822 is rotatably connected to the device case 1 by a linkage shaft. The linkage gear member 821 is composed of a plurality of gears engaged with each other, one end of the linkage gear member 821 is engaged with the crank shaft, and the other end is engaged with the linkage shaft. The linkage rod 822 can rotate forward and backward by operating the forward and backward rotation of the rocking handle 811. A control part extending towards the gyro disk 3 is arranged on the linkage rod 822, and the control part extends into the gyro disk 3. When the linkage rod 822 rotates, the control part can be linked with the toy gyroscope 2 on the gyroscope disc 3, so that the gyroscope changes the direction. So set up, top control mechanism 8 simple structure through operation rocking handle 811 control top removal, and it is more convenient to operate.

Optionally, a first magnetic element is arranged on the control part, which is located below the spinning disk 3. Correspondingly, the second magnetic part is arranged in the toy top 2, the first magnetic part and the second magnetic part generate attraction force by utilizing the principle of magnetic attraction, and the control part attracts the toy top 2 to move when moving. So set up, avoid control part and 2 collision contacts of toy top, reduce 2 damages to toy top to and reduce the interference to 2 migration range of toy top.

The invention is further described below in two specific embodiments.

The first embodiment is as follows:

referring to fig. 1-11, a first embodiment of the present invention discloses a spinning top toy set 10 comprising a device housing 1, a toy spinning top 2, a spinning top disk 3, a spinning top launcher 4, a launch control mechanism 6, and a spinning top disk control mechanism 7.

The device housing 1 includes a first housing 11, a second housing 12, and a connection housing 13. The connecting housing 13 is hinged between the first housing 11 and the second housing 12 so that the device housing 1 can be opened and closed. The device housing 1 is provided with a locking device comprising a first locking member 111 connected to the first housing 11 and a second locking member 121 connected to the second housing 12. When the device case 1 is closed, the first case 11 is superimposed on the second case 12, and the first lock member 111 is connected to the second lock member 121, so that the device case 1 is locked. The locked device housing 1 is box-shaped.

The gyro transmitter 4 and the transmission control mechanism 6 are mounted on the first casing 11, and the gyro disk 3 is mounted on the second casing 12. When the device case 1 is unfolded, the gyro launching device 4, the launching control mechanism 6 and the gyro disk 3 are exposed. When the device shell 1 is closed, the gyro disk launching device 4, the launch control drum 6 and the gyro disk 3 are positioned in the device shell 1.

The gyro launcher 4 includes a launcher 41, an accelerator 42, and a launcher 43. The launching pad 41 is attached to the device case 1, and the toy top 2 can be placed on the launching pad 41. The launching seat 41 includes a first seat body and a second seat body, the first seat body and the second seat body are connected to form a seat body cavity, and at least a portion of the launching element 43 and at least a portion of the accelerating element 42 are installed in the seat body cavity.

The launching member 43 includes a launching button 431, a driving block 432, and a pushing rod 433 for pushing the toy top 2. A push rod 433 is slidably coupled to the device case 1, and a driving block 432 is coupled to the push rod 433 and positioned below the firing button 431. The emission button 431 is connected with the device shell 1 in a sliding mode, when the emission button 431 is pressed, the emission button 431 presses the transmission block 433 downwards, the transmission block 432 drives the push rod 433 to slide, and the push rod 433 pushes the toy top 3.

The accelerator 42 is a pull cord accelerator including a pull ring 421, a pull cord 422, a wire spool 423, and a transmission gear member 424. The wire spool 423 is rotatably connected to the launching seat 41, one end of the pulling rope 422 is connected to the wire spool 423 and is partially wound on the wire spool 423, and the other end of the pulling rope 422 is connected to the pulling ring 421. When a player holds the pull ring 421 and pulls the pull rope 422, the pull rope 422 can drive the spool 423 to rotate. The transmission gear member 424 is composed of at least one gear, which is engaged between the wire spool 423 and the top. The rotation toward the wire spool 423 drives the transmission gear 424 to rotate, and the transmission gear 424 rotates the toy top 2.

The launching control mechanism 6 is mounted on the first housing 11, and the launching base 41 is rotatably connected to the first housing 11. The emission control mechanism 6 includes a first operating member 61 and a first link member 62, the first operating member 61 includes an operating rocker 611, and the operating rocker 611 is rotatably connected to the first housing 11. The first link 62 is composed of a first slide bar 621, a second slide bar 622, and a connecting gear 623. The first slide bar 621 and the second slide bar 622 are arranged at intervals, and the connecting gear 623 is engaged between the first slide bar 621 and the second slide bar 622. The operating rocker 611 is connected to the first sliding rod 621, and the second sliding rod 622 is connected to the launching seat 41. The operating rocker 611 drives the first sliding rod 621 to slide, the first sliding rod 621 drives the second sliding rod 622 to slide through the connecting gear 623, and then the second sliding rod 622 drives the launching base 41 to rotate.

The gyro disk control mechanism 7 includes a second operation member 71 and a second linkage member 72. The second operating member 71 includes an operating button 711 and a pulling block 712, and the second link member 72 includes a connecting cord 721 and a pushing member 722. The top disk 3 is movably connected to the second housing 12, and a part of the top disk 3 tilts in the moving mode of the top disk 3 to be inclined. The operation button 711 is slidably coupled to the first housing 11, and slides up and down, and the pulling block 712 is rotatably coupled to the first housing 11 and located below the operation button 711. When the operation button 711 slides downward, the pulling block 712 pulls the connecting rope 721, and the connecting rope 721 drives the pushing member 722 to push the spinning disk 3 upward, so that the spinning disk 3 tilts up. The toy top 2 on the top disk 3 moves toward the non-tilted side under the action of gravity.

Example two:

referring to fig. 12-15, a second embodiment of the present invention discloses a top toy set 10 comprising a device housing 1, a toy top 2, a top disk 3, a top launcher 4 and a top control mechanism 8.

The device case 1 includes a first case 11 and a second case 12, and the first case 11 and the second case 12 are hinged. Both the first housing 11 and the second housing 12 are provided with a gyro disk 3, a gyro launcher 4, and a gyro control mechanism 8. After the device shell 1 is unfolded, the two gyro disks 3 are adjacently spliced into a whole. For a specific structure of the gyro emitting device 4, please refer to the description related to the first embodiment, which is not repeated herein.

The gyro control mechanism 8 includes a third operating member 81 and a third link 82, the third operating member 81 includes an operating lever 811 and a lever gear 812, and the third link 82 includes a link gear piece 821 and a link lever 822. The operation rocker 811 is rotatably attached to the first housing 11 via a rocker shaft to which the rocker gear 812 is attached. The linkage 822 is rotatably connected to the device case 1 by a linkage shaft. The linkage gear member 821 is composed of a plurality of gears engaged with each other, one end of the linkage gear member 821 is engaged with the crank shaft, and the other end is engaged with the linkage shaft. The linkage rod 822 can rotate forward and backward by operating the forward and backward rotation of the rocking handle 811. A control part extending towards the gyro disk 3 is arranged on the linkage rod 822, and the control part extends into the gyro disk 3. When the linkage rod 822 rotates, the control part can be linked with the toy gyroscope 2 on the gyroscope disc 3, so that the gyroscope changes the direction. Wherein, be provided with first magnetism on the control part and inhale the piece, toy top 2 is inside to be provided with the second magnetism and inhale the piece.

In summary, the invention discloses a top toy suit 10, which comprises a device shell 1 capable of being unfolded and folded, wherein a top launching device 4, a toy top 2 and a top disk 3 are arranged in the device shell 1. The top launcher 4 and the top disk 3 are mounted on the housing, and the toy top 2 is placed on the housing. When the device case 1 is in the unfolded state, the top launching device 4 can drive the toy top 2 to rotate and launch the toy top 2 into the top disk 3. When the device case 1 is in the closed state, the top launcher 4, the toy top 2, and the top tray 3 are located inside the closed device case 1. When the device shell 1 of the top toy set 10 is unfolded, the top disk 3 provides a place for the playing toy top 2, guides the playing toy top 2 to fight, and improves the playing fun. When the device shell 1 is folded, the top launching device 4, the toy top 2 and the top disk 3 can be contained in the device shell 1, and the device shell is convenient to place.

According to the needs, the above technical schemes can be combined to achieve the best technical effect.

The foregoing is considered as illustrative only of the principles and preferred embodiments of the invention. It should be noted that, for those skilled in the art, several other modifications can be made on the basis of the principle of the present invention, and the protection scope of the present invention should be regarded.

Claims (15)

1. A top toy suit (10) is characterized by comprising a device shell (1) which can be unfolded and folded, wherein a top launching device (4), a toy top (2) and a top disk (3) are arranged in the device shell (1);

the top launcher (4) and the top disk (3) are mounted on the device housing (1), and the toy top (2) is placed on the device housing (1);

when the device shell (1) is in an unfolded state, the top launching device (4) can drive the toy top (2) to rotate and launch the toy top (2) into the top disk (3);

when the device shell (1) is in a closed state, the top launching device (4), the toy top (2) and the top plate (3) are positioned inside the closed device shell (1).

2. The spinning top toy playset (10) according to claim 1, characterized in that the device housing (1) comprises a first housing (11) and a second housing (12) arranged opposite to the first housing (11), the first housing (11) being movably connected to the second housing (12) to enable the device housing (1) to be unfolded and folded.

3. The spinning top toy kit (10) according to claim 2, characterized in that the spinning top launcher (4) is provided on the first housing (11) and the spinning top disk (3) is provided on the second housing (12).

4. The top toy playset (10) according to claim 2, wherein a locking device is provided on the device housing (1), the locking device comprising a first locking member (111) and a second locking member (121) detachably connected to the first locking member (111);

the first locking piece (111) is connected to the first housing (11), and the second locking piece (121) is connected to the second housing (12);

when the device shell (1) is in the closed state, the first locking piece (111) is connected with the second locking piece (121) so that the device shell (1) is locked.

5. The spinning top playset (10) according to claim 4, characterized in that the locked device housing (1) is in the shape of a box or a book.

6. The toy top set (10) according to claim 2, characterized in that said first shell (11) and said second shell (12) are each provided with said top launcher (4) and said top disk (3);

when the device housing (1) is unfolded, the gyro disk (3) on the first housing (11) and the gyro disk (3) on the second housing (12) are butted.

7. The spinning top toy kit (10) according to claim 1, characterized in that at least two peripheries of the spinning top disk (3) are provided with baffles (122), said baffles (122) being mounted on a housing wall of the device housing (1) close to the spinning top disk (3);

the upper end of the baffle (122) is positioned above the upper end of the gyro disk (3) to stop the toy gyro (2) from separating from the gyro disk (3).

8. The toy top set (10) according to claim 1, characterized in that a mounting boss (112) is provided on the device housing (1), said mounting boss (112) being provided adjacent to the top plate (3);

the gyro emission device (4) is installed on the installation boss (112).

9. The spinning top toy kit (10) according to claim 1, characterized in that the spinning top launcher (4) comprises a launching seat (41), an accelerator (42) and a launcher (43);

the launching seat (41) can be used for placing the toy top (2), the accelerating piece (42) can drive the toy top (2) to rotate, and the launching piece (43) can launch the toy top (2) on the launching seat (41) into the top disk (3).

10. The top toy playset (10) of claim 9 wherein the accelerator member (42) is a pull cord accelerator comprising a pull ring (421), a pull cord (422), a wire spool (423), and a transmission gear member (424);

the wire spool (423) and the transmission gear member (424) are rotatably connected within the device housing (1), wherein the transmission gear member (424) is engaged between the wire spool (423) and the toy top (2);

one end of the pull rope (422) is wound on the wire spool (423), the other end of the pull rope is connected to a pull ring (421), and the pull ring (421) is positioned on the outer side of the device shell (1).

11. The top toy playset (10) according to claim 1, characterized in that the top plate (3) comprises a plate panel (31) and a support division bar (32), the support division bar (32) being connected at the bottom of the plate panel (31) to support the plate panel (31).

12. The top toy kit (10) according to claim 1, wherein a control device is further provided within the device housing (1), the control device comprising one or a combination of at least two of a launch control mechanism (6), a top disk control mechanism (7) and a top control mechanism (8);

the launching control mechanism (6) is in linkage connection with the gyro launching device (4) so as to control the launching direction of the gyro launching device (4);

the gyroscope disc control mechanism (7) is in linkage connection with the gyroscope disc (3) to control the gyroscope disc (3) to move;

the top control mechanism (8) is in linkage connection with the toy top (2) to control the toy top (2) to move.

13. The spinning top toy kit (10) of claim 12, wherein the launching control mechanism (6) includes a first operating member (61) and a first linkage member (62);

the gyro launching device (4) is rotatably connected with the device shell (1), and the first operating piece (61) is movably connected to the device shell (1);

the first linkage piece (62) is movably connected in the device shell (1) and is connected between the first operating piece (61) and the top emitting device (4);

when the first operating piece (61) moves, the first linkage piece (62) is driven to move, so that the gyro launching device (4) rotates.

14. The spinning top toy kit (10) according to claim 12, wherein the top plate control mechanism (7) comprises a second operating member (71) and a second linkage member (72);

the second operating part (71) is movably connected to the device shell (1), the gyro disk (3) is movably connected to the device shell (1), and the second linkage part (72) is movably connected between the second operating part (71) and the gyro disk (3);

when the second operation piece (71) moves, the second operation piece (71) drives the second linkage piece (72) to enable the gyro disk (3) to move.

15. The spinning top toy kit (10) according to claim 12, wherein the spinning top control mechanism (8) comprises a third operating member (81) and a third linkage member (82);

the third operating part (81) is movably connected with the device shell (1) and is connected with the third linkage (82);

the third linkage piece (82) is movably connected to the device shell (1), and a part of the third linkage piece (82) extends into the gyroscope disc (3) and is linked with the toy gyroscope (2) in the gyroscope disc (3).

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