CN210904942U - Top toy - Google Patents

Abstract

The utility model belongs to the toy field discloses a top toy, including top and transmitter, the transmitter includes locking mechanical system, energy storage mechanism, ejection mechanism, driving release mechanism and initiative release mechanism. The locking mechanism is arranged in the emitter and detachably connects the gyroscope to the emitter; the energy storage mechanism provides driving force for driving the emitter and provides rotary driving force for the gyroscope; the ejection mechanism is selectively connected with the locking mechanism; one end of the travelling crane unlocking mechanism is abutted against the locking mechanism, and the other end of the travelling crane unlocking mechanism can extend outwards along the emitter; the active unlocking mechanism is matched and connected with the locking mechanism, and can stretch out and draw back along the inside and the outside of the emitter; when the travelling crane unlocking mechanism and the active unlocking mechanism are not triggered, the gyroscope is fixed on the emitter by the locking mechanism; when one of the travelling crane unlocking mechanism and the active unlocking mechanism is triggered, the locking mechanism is separated from the gyroscope, and the gyroscope is separated from the emitter under the action of the ejection mechanism. The utility model discloses the method of playing is novel.

Description

Top toy

Technical Field

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

Background

Spinning-top toys are toy products that are well liked by children. The top toy comprises a top and a transmitter, wherein the transmitter is used for accelerating and storing energy for the top, when the rotating speed of the top reaches a certain speed, the top is separated from the transmitter, the top is released, and then the top continues to rotate on the contact surface. The prior spinning top toy has single playing method and low interest.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a top toy, the playing method is novel, and is interesting strong.

In order to realize the purpose, the following technical scheme is provided:

a top toy comprising:

a top;

a transmitter, said transmitter comprising:

the locking mechanism is arranged in the emitter, and the gyroscope is detachably connected to the emitter through the locking mechanism;

an energy storage mechanism configured to provide a travel driving force to the transmitter while providing a rotational driving force to the top;

the ejection mechanism is selectively connected with the locking mechanism, and when the locking mechanism is separated from the spinning top, the ejection mechanism ejects the spinning top from the emitter;

the driving unlocking mechanism is abutted against the locking mechanism at one end, and the other end of the driving unlocking mechanism can extend outwards along the emitter;

the active unlocking mechanism is matched and connected with the locking mechanism and can stretch out and draw back along the inside and the outside of the emitter;

when the travelling crane unlocking mechanism and the active unlocking mechanism are not triggered, the gyroscope is fixed on the emitter by the locking mechanism;

when one of the travelling crane unlocking mechanism and the active unlocking mechanism is triggered, the locking mechanism is separated from the gyro, and the gyro is separated from the emitter under the action of the ejection mechanism.

Furthermore, locking mechanical system includes first locking piece, first locking piece pass through the torsional spring with the transmitter pin joint, be equipped with on the first locking piece can stretch out the transmitter and with the first joint portion of top joint.

Furthermore, locking mechanical system still includes the second locking piece, the second locking piece with the cooperation of first locking piece to can follow the linkage of first locking piece, be equipped with on the second locking piece can stretch out the transmitter and with the second joint portion of top joint.

Further, the energy storage mechanism comprises a power storage gear, a movable gear and an output gear, the power storage gear is meshed with the movable gear, the movable gear can move relative to the output gear under the driving of the power storage gear to be meshed with or separated from the output gear, and the gyroscope can be in transmission connection with the output gear.

Furthermore, a rotating structure is arranged on the emitter, the energy storage mechanism further comprises a transmission gear set, an input end gear of the transmission gear set is connected with the output gear, and an output end gear of the transmission gear set is coaxially and fixedly connected with the rotating structure.

Further, the ejection mechanism comprises an ejection piece and an elastic piece, and the first locking piece can be matched with or separated from the ejection piece;

when the ejector is matched, the ejector is positioned in the emitter;

when the spinning top is separated, the ejection piece extends out of the emitter under the action of the elastic piece and ejects the spinning top.

Furthermore, a driving inclined plane is arranged on the active unlocking mechanism and matched with the first locking piece, the free end of the active unlocking mechanism extends out of the emitter, and the driving inclined plane is configured to drive the first locking piece to rotate and is separated from the gyroscope.

Further, the top includes the top body and locates this internal flywheel subassembly of top, flywheel subassembly can for the top body rotates, the first end of flywheel subassembly stretches out the upper portion of top body, the second end of flywheel subassembly stretches out the lower part of top body, the tip of first end is equipped with first top point, the tip of second end is equipped with the second top point.

Further, the part of the first end extending out of the top body is in transmission connection with the output gear.

Further, the transmitter is in a vehicle shape.

Compared with the prior art, the utility model provides an among the top toy, locking mechanical system and top cooperation lock top detachably on the transmitter, and energy storage mechanism can carry out the energy storage to top and transmitter simultaneously, provides rotary drive for the top, provides the drive power of traveling for the transmitter. After the energy storage is finished, the whole gyro toy is released, the emitter can move forwards, and the gyro toy is played as a similar trolley; in the process of forward movement, the travelling crane unlocking mechanism is triggered by collision, the travelling crane unlocking mechanism drives the locking mechanism to be separated from the gyroscope, the ejection mechanism ejects the gyroscope from the ejector to realize ejection of the gyroscope, the ejector and the gyroscope after separation continue to move, and in the process, the ejector is used as a movable similar trolley toy and a gyroscope ejector.

Or after the energy storage is finished, the whole gyro toy is turned over without releasing the gyro toy, the active unlocking mechanism on the emitter is directly triggered, the active unlocking mechanism drives the locking mechanism to be separated from the gyro, so that the gyro is unlocked, the ejection mechanism ejects the gyro from the emitter simultaneously to realize the emission of the gyro, and in the process, the emitter is only used as the emitter for storing and emitting the gyro.

The utility model discloses structural design is ingenious, and the method of playing is various, and is interesting strong.

Drawings

FIG. 1 is a first isometric view of a top toy according to an embodiment of the present invention;

FIG. 2 is a second isometric view of a top toy according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a spinning top according to an embodiment of the present invention;

fig. 4 is an exploded view of a spinning top according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a vehicle body according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a top toy (hidden vehicle body) according to an embodiment of the present invention;

fig. 7 is a left side view of a top toy (hiding the body and the top) provided by the embodiment of the present invention;

fig. 8 is a right side view of a top toy (hiding the body and top) according to an embodiment of the present invention;

fig. 9 is a schematic structural diagram of a locking mechanism according to an embodiment of the present invention.

Reference numerals:

100-top; 200-a transmitter; 300-a top toy;

1-a gyroscope body;

11-tourbillon; 111-gyro-tip bearing; 12-a top cover; 121-bulge;

2-a flywheel assembly;

21-a transmission part; 22-a first top tip; 23-a second top tip;

3-a vehicle body;

31-a receiving tank; 311-limit card slot; 312-a first through-hole; 313-a second through-hole;

314-a first via; 315-second via;

4-a chassis;

41-vehicle wheels; 42-a first stop; 43-a second stop; 44-a third stop; 45-a sliding groove;

5-an energy storage mechanism;

51-power storage gear; 52-a loose gear; 53-output gear; 531-drive card slot; 54-a pull cord;

55-a drive gear set; 551-input gear; 552-output gear;

6-a locking mechanism;

61-a first locking member; 611-a first clamping part; 612-snap flange;

62-a second locking element; 621-a second clamping part; 622-clamping groove;

71-an ejector;

8-a travelling crane unlocking mechanism; 81-a first runner; 82-a second chute;

9-an active unlocking mechanism; 91-a third runner;

10-torsion spring.

Detailed Description

In order to make the technical problems, technical solutions adopted and technical effects achieved by the present invention clearer, the embodiments of the present invention will be described in further detail with reference to the accompanying drawings, and obviously, the described embodiments are only some embodiments, not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by the skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Wherein the terms "first position" and "second position" are two different positions.

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

As shown in fig. 1 to 3, the present embodiment provides a spinning top toy 300 including a spinning top 100 and a transmitter 200. The transmitter 200 is used as a transmitter for storing and transmitting the energy of the gyroscope 100, and the transmitter can move on the contact surface under the condition of being stored with energy, and the embodiment takes the transmitter 200 as a vehicle shape for explanation. Of course, in other embodiments, the transmitter 200 may have other shapes, as long as it has a rotating structure or other moving structure capable of moving on the contact surface. The combination of spinning top 100 and transmitter 200 may be used as both spinning top toy 300 and a toy vehicle.

Referring to fig. 3 and 4, a spinning top 100 includes a spinning top body 1 and a flywheel assembly 2. The gyroscope body 1 is of a split structure and comprises a gyroscope body 11 and a gyroscope cover 12. The gyroscope body 11 is a bowl-shaped structure, and the gyroscope cover 12 is arranged on the gyroscope body 11 in a covering mode. The flywheel component 2 is arranged in the gyro body 1. The first end of the flywheel assembly 2 extends out of the middle part of the top cover 12, and the second end extends out of the top tip shaft sleeve 111 at the bottom of the top body 11. The flywheel assembly 2 can rotate relative to the top body 1 under the drive of external force.

Referring to fig. 1, 2 and 5, the transmitter 200 includes a vehicle body 3 and a vehicle chassis 4. The body 3 is provided with a receiving groove 31 for receiving the top 100. Specifically, the top 100 is placed upside down in the receiving groove 31, i.e., the top cover 12 is located at the bottom of the receiving groove 31. Inside the vehicle body 3 and on the chassis 4, there are provided a locking mechanism 6, an energy storage mechanism 5 and an ejection mechanism (see fig. 6).

The groove wall of the accommodating groove 31 is provided with a first through hole 312 and a second through hole 313, and the end of the locking mechanism 6 can extend into the accommodating groove 31 through the first through hole 312 and/or the second through hole 313 so as to clamp and fix the top body 1 in the accommodating groove 31. Meanwhile, the top cover 12 is circumferentially provided with a plurality of clamping protrusions 121, the side wall of the accommodating groove 31 is provided with a plurality of limiting clamping grooves 311, and the limiting clamping grooves 311 are matched with the clamping protrusions 121 to circumferentially limit the top body 1.

The energy storage mechanism 5 can simultaneously store energy for the transmitter 200 and the top 100, so that the wheels 41 on the chassis 4 and the flywheel assembly 2 in the top 100 rotate. The ejection mechanism is arranged in the vehicle body 3 and is positioned below the accommodating groove 31. The ejector mechanism is selectively connectable to the locking mechanism 6. Specifically, when the locking mechanism 6 is not triggered, the locking mechanism 6 is matched with the ejection mechanism, and the ejection mechanism is positioned in the vehicle body 3. When the locking mechanism 6 is triggered, the locking mechanism 6 is separated from the ejection mechanism, and the ejection mechanism extends into the accommodating groove 31 and ejects the top 100 from the launcher 200.

The transmitter 200 may also optionally include a drive release mechanism 8 and/or an active release mechanism 9 (see fig. 1). After the energy storage is completed, the whole top toy 300 is released, and the launcher 200 runs forward on the contact surface, at this time, the top toy 300 is played as a trolley. One end of the crane unlocking mechanism 8 abuts against the locking mechanism 6, and the other end can extend outwards along the transmitter 200. Preferably, one end of the traveling crane unlocking mechanism 8 protrudes out of the front end of the traveling direction of the vehicle body 3, and in the process that the launcher 200 moves forwards, after the traveling crane unlocking mechanism 8 is triggered by collision, the traveling crane unlocking mechanism 8 drives the locking mechanism 6 and the ejection mechanism to be linked, so that the spinning top 100 is unlocked and the spinning top 100 is ejected from the launcher 200, the launching of the spinning top 100 is realized, and then the spinning top 100 and the launcher 200 continue to rotate on the contact surfaces respectively. Obviously, one end of the trip unlocking mechanism 8 may also extend outward from the side, above or behind the launcher 200, as long as it is ensured that it can be triggered by a collision during the running of the launcher 200.

Or, after the energy storage is completed, the launcher 200 is not released, the whole gyro toy 300 is inverted, namely, the chassis of the launcher 200 faces upwards, the driving unlocking mechanism 8 or the active unlocking mechanism 9 on the launcher is directly triggered, and the gyro 100 can also be launched. When the active unlocking mechanism 9 is triggered, the active unlocking mechanism 9 drives the locking mechanism 6 and the ejection mechanism to be linked, the gyroscope 100 is unlocked and transmitted, and the transmitter 200 serves as a gyroscope 100 transmitter. It should be noted that, after the top 100 is launched, the launcher 200 stored energy can also be released again as a trolley.

As can be seen from the above, when neither the traveling unlocking mechanism 8 nor the active unlocking mechanism 9 is triggered, the locking mechanism 6 fixes the gyroscope 100 to the transmitter 200; when one of the travelling crane unlocking mechanism 8 and the active unlocking mechanism 9 is triggered, the locking mechanism 6 is separated from the spinning top 100, and the spinning top 100 is separated from the emitter 200 through the action of the ejection mechanism.

Specifically, referring to fig. 6 and 7, the energy accumulating mechanism 5 described above includes an accumulating gear 51, a loose gear 52, and an output gear 53. The power accumulating gear 51 is engaged with the loose gear 52. The power accumulating gear 51 is connected to a pull rope 54 by a coil spring or a clockwork spring, and the power accumulating gear 51 is rotated by pulling the pull rope 54. The pulling rope 54 extends from the rear of the vehicle body 3, and the pulling rope 54 is conveniently pulled. The chassis 4 is provided with a sliding groove 45, and the movable gear 52 can slide along the sliding groove 45 under the driving of the power storage gear 51, and further is meshed with or separated from the output gear 53.

When the pull rope 54 is pulled, the power accumulating gear 51 rotates and accumulates energy in the coil spring or the clockwork spring, and the power accumulating gear 51 drives the loose gear 52 to mesh with the output gear 53. When the pull rope 54 is released, the power accumulating gear 51 is rotated in the reverse direction by the coil spring or the clockwork spring, and drives the loose gear 52 to be separated from the output gear 53. The pull rope 54 is repeatedly pulled to continuously accelerate the energy storage of the output gear 53.

Further, a transmission slot 531 is disposed on the rotating shaft of the output gear 53. The bottom of holding tank 31 is equipped with first through-hole 314 (see fig. 5), and the first end that above-mentioned flywheel subassembly 2 stretches out top lid 12 stretches into automobile body 3 inside and with transmission draw-in groove 531 joint by first through-hole 314 to realize output gear 53 and flywheel subassembly 2's transmission and be connected, constantly accelerate the energy storage to flywheel subassembly 2 through output gear 53. Specifically, the flywheel assembly 2 is provided with a transmission portion 21 (see fig. 4) at a first end thereof, which is engaged with the transmission notch 531. Preferably, the transmission part 21 is a square shaft, and the transmission clamping groove 531 is a square groove, so that circumferential clamping transmission of the transmission part and the transmission clamping groove is realized. The end of the first end is provided with a first top tip 22, and the first top tip 22 is hemispherical. The top 100 is ejected from the launcher 200 by the ejection mechanism and then rotates around the first top tip 22.

Referring to fig. 8, the energy storage mechanism 5 further includes a transmission gear set 55 to drive the wheels 41 on the chassis 4 to rotate. Specifically, the input end gear 551 of the transmission gear set 55 is meshed with the output gear 53, and the output end gear 552 (see fig. 7) is coaxially and fixedly connected with one front wheel on the chassis 4, i.e., the output gear 53 accelerates and stores energy to the front wheel through the transmission gear set 55. In this embodiment, the transmission gear set 55 is provided with five stages of gears. Of course, in other embodiments, the number of gears in the gear train 55 may be adjusted according to the actual situation. It should be noted that the transmitter 200 is not limited to a vehicle shape, as long as the transmitter 200 is provided with a rotating structure, and the output gear 552 of the transmission gear set 55 can be in transmission connection with the rotating structure and drive the transmitter 200 to move.

Further, referring to fig. 6 and 7, the locking mechanism 6 includes a first locking member 61. The lower portion of the first locking member 61 is semicircular. The first locking member 61 is pivotally connected to the chassis 4 by a torsion spring 10 (see fig. 8). The traveling unlocking mechanism 8 is slidably disposed on the chassis 4, and one end of the traveling unlocking mechanism, which is far away from the front end of the vehicle body 3, abuts against the non-pivoting portion of the first locking member 61. The first locking member 61 is provided at an upper portion thereof with a first catching portion 611.

When the driving unlocking mechanism 8 is not triggered, the first locking member 61 pushes the driving unlocking mechanism 8 under the action of the torsion spring 10, and one end of the driving unlocking mechanism 8, which is far away from the first locking member 61, extends out of the front end of the vehicle body 3, and meanwhile, the first clamping part 611 extends into the accommodating groove 31 from the first through hole 312 on the groove wall of the accommodating groove 31 and is clamped with the gyroscope body 1, so that the gyroscope 100 is fixed in the accommodating groove 31, and the locking mechanism 6 is in a locking state.

When the part of the traveling crane unlocking mechanism 8 extending out of the vehicle body 3 is triggered by collision, the traveling crane unlocking mechanism 8 slides relative to the vehicle chassis 4 and moves towards the inside of the vehicle body 3, the traveling crane unlocking mechanism 8 pushes the first locking piece 61 to overcome the elastic force action of the torsion spring 10 and rotate around the pivot joint part of the first locking piece relative to the vehicle chassis 4, so that the first clamping part 611 retracts into the vehicle body 3, and the gyroscope 100 is unlocked.

The chassis 4 is provided with a first limiting member 42 and a second limiting member 43. The traveling crane unlocking mechanism 8 is provided with a first sliding chute 81 and a second sliding chute 82 which are respectively matched with the first limiting member 42 and the second limiting member 43. The first limiting member 42 is used for limiting the stroke of the driving unlocking mechanism 8 when the driving unlocking mechanism 8 is not triggered. The second limiting member 43 is used for limiting the stroke of the driving unlocking mechanism 8 when the driving unlocking mechanism 8 is triggered. Of course, in addition to the limiting function, the first limiting member 42 and the second limiting member 43 also function to guide the movement of the traveling unlock mechanism 8.

To improve the locking stability of top 100, locking mechanism 6 may optionally further include a second locking member 62. The second locking member 62 is provided with a locking groove 622, and the first locking member 61 is provided with a locking flange 612. The snap flanges 612 are engaged with the snap grooves 622 (see fig. 9) to allow the second locking member 62 to be interlocked with the first locking member 61. Still be equipped with two second joint portions 621 on the second locking piece 62, second joint portion 621 stretches into holding tank 31 by the second through hole 313 of holding tank 31 cell wall to with top body 1 joint or separation.

The ejection mechanism is disposed adjacent to the first locking member 61. The ejector mechanism may optionally include an ejector 71 and a resilient member (not shown). The ejector 71 is preferably cylindrical. The resilient member is preferably a spring. A second through hole 315 is formed in the body 3 at the bottom of the accommodating groove 31 and opposite to the ejection member 71. The lower inner wall of the first locking member 61 is provided with a first protrusion (not shown), and the outer wall of the ejector 71 is provided with a second protrusion (not shown). When the locking mechanism 6 is in a locking state, the first bulge presses against the second bulge, the tubular ejection piece 71 covers the elastic piece on the chassis 4, and the ejection mechanism is in an unfired state. After the locking mechanism 6 is unlocked by the travelling crane unlocking mechanism 8, the first protrusion is separated from the second protrusion, the elastic piece pushes the ejection piece 71 upwards, the ejection piece 71 extends into the accommodating groove 31 through the second through hole 315, and ejects the gyroscope 100 from the emitter 200, so that the gyroscope 100 is emitted. The launched gyroscope 100 rotates about the first gyroscope tip 22.

Referring to fig. 7, the active unlocking mechanism 9 is disposed on a side portion of the vehicle body 3, and the active unlocking mechanism 9 is slidably disposed on the chassis 4. The chassis 4 is provided with a third limiting member 44, the active unlocking mechanism 9 is provided with a third sliding groove 91 matched with the third limiting member 44, and the third limiting member 44 limits the stroke of the active unlocking mechanism 9. One end of the active unlocking mechanism 9 can abut against the first locking member 61, and the end is provided with a driving inclined surface which is matched with the first locking member 61.

When the active unlocking mechanism 9 is not triggered, the first locking member 61 pushes against the active unlocking mechanism 9 under the action of the torsion spring 10, so that one end of the traveling crane unlocking mechanism 8, which is far away from the first locking member 61, extends out of the vehicle body 3. The top toy 300 is turned over, namely the chassis 4 of the launcher 200 faces upwards, then the active unlocking mechanism 9 is triggered, the active unlocking mechanism 9 moves towards the inside of the vehicle body 3, the first locking piece 61 is pushed by the driving inclined surface to overcome the action of the torsion spring 10 and rotate around the pivoting part of the chassis 4 relative to the vehicle, and the second locking piece 62 and the ejection mechanism are linked with the first locking piece 61, so that the top 100 is unlocked and launched. The end of the freewheel assembly 2 that protrudes beyond the second end of the top-tip bushing 111 serves as the second top-tip 23. The launched gyroscope 100 rotates about the second gyroscope tip 23.

It should be noted that, in other embodiments, the gyroscope 100 may be placed in the accommodating slot 31, that is, the gyroscope body 11 is located at the bottom of the accommodating slot 31, and the second end of the flywheel assembly 2 is provided with a similar structure of the transmission portion 21 and is connected to the rotation of the output gear 53. In this way, when the travelling crane unlocking mechanism 8 is triggered, the launched gyroscope 100 rotates around the second gyroscope tip 23; when the active unlocking mechanism 9 is triggered, the launched top 100 rotates about the first top tip 22.

In the toy top 300 of the present embodiment, the top 100 has the first top tip 22 and the second top tip 23, and the energy storage mechanism 5, the locking mechanism 6 and the ejection mechanism are disposed in the launcher 200. The top body 1 is locked in the accommodating groove 31 by the locking mechanism 6, and the first end of the flywheel assembly 2 in the top 100 is in transmission connection with the energy storage mechanism 5. The energy storage mechanism 5 accelerates the flywheel assembly 2 and the wheel 41 on the transmitter 200. After the energy storage is finished, the whole gyro toy 300 can be directly released, the emitter 200 walks on the contact surface, and the gyro toy 300 is played as a trolley at this stage; in the process that the launcher 200 moves forward, the traveling crane unlocking mechanism 8 is triggered by collision, the traveling crane unlocking mechanism 8 unlocks the locking mechanism 6 and the ejection mechanism, the gyroscope 100 is ejected from the launcher 200, the gyroscope 100 which falls to the ground rotates around the first gyroscope tip 22, and the launcher 200 continues to move forward as a trolley. Or after the energy storage is finished, the whole gyro toy 300 is not released, the driving unlocking mechanism 8 or the active unlocking mechanism 9 is directly triggered, only the gyro 100 is released, at the moment, the emitter 200 is only used as the emitter of the gyro 100, and then the emitter 200 with certain kinetic energy can be released. The overall structure design is ingenious, and the method of playing is various, and is interesting strong.

It should be noted that the foregoing is only a preferred embodiment of the present invention and the technical principles applied. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail with reference to the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the scope of the present invention.

Claims (10)

1. A top toy, comprising:

a top (100);

-a transmitter (200), said transmitter (200) comprising:

the locking mechanism (6) is arranged in the emitter (200), and the spinning top (100) is detachably connected to the emitter (200) through the locking mechanism (6);

an energy storage mechanism (5), the energy storage mechanism (5) being configured to provide a travel driving force to the transmitter (200) while providing a rotational driving force to the spinning top (100);

an ejection mechanism selectively connectable to the locking mechanism (6), the ejection mechanism ejecting the spinning top (100) from the launcher (200) when the locking mechanism (6) is separated from the spinning top (100);

a travelling crane unlocking mechanism (8), one end of the travelling crane unlocking mechanism (8) is abutted with the locking mechanism (6), the other end of the travelling crane unlocking mechanism can extend outwards along the launcher (200), and the travelling crane unlocking mechanism (8) is configured to be selectively triggered in the process of movement of the launcher (200);

the active unlocking mechanism (9), the active unlocking mechanism (9) is matched and connected with the locking mechanism (6), and the active unlocking mechanism (9) can stretch out and draw back along the inside and the outside of the launcher (200);

when the driving unlocking mechanism (8) and the active unlocking mechanism (9) are not triggered, the locking mechanism (6) fixes the spinning top (100) on the transmitter (200);

when one of the travelling crane unlocking mechanism (8) and the active unlocking mechanism (9) is triggered, the locking mechanism (6) is separated from the spinning top (100), and the spinning top (100) is separated from the emitter (200) through the action of the ejection mechanism.

2. The spinning top toy of claim 1, wherein the locking mechanism (6) comprises a first locking member (61), the first locking member (61) is pivotally connected to the launcher (200) through a torsion spring (10), and the first locking member (61) is provided with a first engaging portion (611) capable of extending out of the launcher (200) and engaging with the spinning top (100).

3. The spinning top toy of claim 2, wherein the locking mechanism (6) further comprises a second locking member (62), the second locking member (62) is engaged with the first locking member (61) and can be linked with the first locking member (61), and a second clamping portion (621) which can extend out of the emitter (200) and is clamped with the spinning top (100) is arranged on the second locking member (62).

4. The spinning top toy according to claim 1, characterized in that the energy storage mechanism (5) comprises an energy storage gear (51), a movable gear (52) and an output gear (53), the energy storage gear (51) is meshed with the movable gear (52), the movable gear (52) can move relative to the output gear (53) under the driving of the energy storage gear (51) to be meshed with or separated from the output gear (53), and the spinning top (100) can be in transmission connection with the output gear (53).

5. The spinning top toy of claim 4, characterized in that the transmitter (200) is provided with a rotating structure, the energy storage mechanism (5) further comprises a transmission gear set (55), an input end gear (551) of the transmission gear set (55) is connected with the output gear (53), and an output end gear (552) of the transmission gear set (55) is coaxially and fixedly connected with the rotating structure.

6. The spinning top toy of claim 2, wherein said ejection mechanism includes an ejector (71) and a resilient member, said first locking member (61) being engageable with or disengageable from said ejector (71);

when mated, the ejector (71) is positioned within the launcher (200);

when the top is separated, the ejection piece (71) extends out of the emitter (200) under the action of the elastic piece and ejects the top (100).

7. The spinning top toy of claim 2, wherein the active unlocking mechanism (9) is provided with a driving bevel, the driving bevel is engaged with the first locking member (61), a free end of the active unlocking mechanism (9) extends out of the launcher (200), and the driving bevel is configured to drive the first locking member (61) to rotate and separate from the spinning top (100).

8. The spinning top toy of claim 5, characterized in that the spinning top (100) comprises a spinning top body (1) and a flywheel assembly (2) arranged in the spinning top body (1), the flywheel assembly (2) can rotate relative to the spinning top body (1), a first end of the flywheel assembly (2) extends out of the upper part of the spinning top body (1), a second end of the flywheel assembly (2) extends out of the lower part of the spinning top body (1), a first spinning top tip (22) is arranged at the end part of the first end, and a second spinning top tip (23) is arranged at the end part of the second end.

9. The spinning top toy according to claim 8, characterized in that the portion of the first end protruding out of the spinning top body (1) is in driving connection with the output gear (53).

10. The spinning top toy according to any one of claims 1-9, wherein the launcher (200) is in a vehicle configuration.

Images