CN212416970U

CN212416970U - Top toy assembly

Info

Publication number: CN212416970U
Application number: CN202020275754.9U
Authority: CN
Inventors: 张佩珊
Original assignee: Zhongshan Mingling Toys Product Co ltd
Current assignee: Zhongshan Mingling Toys Product Co ltd
Priority date: 2020-03-09
Filing date: 2020-03-09
Publication date: 2021-01-29
Anticipated expiration: 2030-03-09

Abstract

The utility model discloses a top toy subassembly, its characterized in that: the gyroscope comprises a gyroscope shell, a gyroscope sharp shaft connected below the gyroscope shell and a special-shaped groove arranged on the upper surface of the gyroscope shell; the gyroscope accelerator comprises an outer shell, a gyroscope accelerating module, a gyroscope positioning module and a gyroscope transmitting module, wherein the outer shell is provided with a gyroscope transmitting port and a gyroscope placing port, and the gyroscope transmitting port is communicated with the gyroscope placing port through a channel; the gyro positioning module is arranged in the channel and comprises a sliding block capable of moving along the channel and an arc-shaped stop block gyro acceleration module which can be relatively and elastically rotated and arranged at the end part of the sliding block through a return spring, wherein the gyro acceleration module comprises an acceleration gear set and a special-shaped cylinder which is in transmission connection with the acceleration gear set, and the shape and the size of the special-shaped cylinder are the same as those of the special-shaped groove; the top emission module is arranged in the inner cavity of the outer shell and comprises an elastic piece, and the elastic piece is connected between the inner cavity of the outer shell and the sliding block.

Description

Top toy assembly

Technical Field

The utility model relates to a top toy subassembly.

Background

Spinning top toys are very popular in playgrounds for children, and existing toy spinning tops have two structural components, one of which is composed of a spinning top body and a transmitter, wherein the spinning top body is rotated by means of initial speed and rotational kinetic energy given by the transmitter of the toy spinning top. In games or competitions, players often obtain more fun or victory of games by controlling the gyro toy body to knock down the gyro body of a partner or knock the gyro body of the partner out of a certain area, however, the existing gyro launcher is generally driven to launch by the long-tooth whip and needs to launch around the periphery of a gyro match plate in a short distance, and the long-tooth whip driven during the match is easy to be knocked to people around, and has certain danger.

SUMMERY OF THE UTILITY MODEL

To the defect that above-mentioned prior art exists, the to-be-solved technical problem of the utility model is: a spinning top toy assembly is provided which is more secure and capable of driving a launching spinning top from a greater distance.

A gyro toy assembly comprises a gyro and a gyro accelerator matched with the gyro, wherein the gyro comprises a gyro shell, a gyro tip shaft fixedly connected below the gyro shell and a special-shaped groove arranged on the upper surface of the gyro shell;

the gyroscope accelerator comprises an outer shell, a gyroscope accelerating module, a gyroscope positioning module and a gyroscope transmitting module, wherein the outer shell is provided with a gyroscope transmitting port and a gyroscope placing port, and the gyroscope transmitting port is communicated with the gyroscope placing port through a channel;

the gyroscope positioning module is arranged in the channel and comprises a sliding block capable of moving along the channel and an arc-shaped stop block capable of relatively and elastically rotating through a reset spring and arranged at the end part of the sliding block, an arc-shaped groove is formed in the end part, close to the arc-shaped stop block, of the sliding block, the arc-shaped groove and the arc-shaped stop block are combined to form a placing cavity for placing a gyroscope, a convex block is arranged on the outer arc of the arc-shaped stop block, and when the arc-shaped stop block moves along with the sliding block, the convex block abuts against the inner wall of a gyroscope emitting opening in the channel;

the gyroscope acceleration module comprises an acceleration gear set and a special-shaped cylinder in transmission connection with the acceleration gear set, the shape and size of the special-shaped cylinder are the same as those of the special-shaped groove, and a driving handle in transmission connection with the acceleration gear set is rotatably arranged on the outer shell;

the gyroscope emission module is arranged in the inner cavity of the outer shell and comprises an elastic piece, and the elastic piece is connected between the inner cavity of the outer shell and the sliding block so that the sliding block is driven by the elastic force of the elastic piece to move towards the gyroscope emission opening.

Further, top is module with higher speed still includes the door, the door have the cavity and with breach and through-hole that the cavity is linked together, set up in the cavity with higher speed the gear train, the door passes through reset spring elastic rotation and sets up on the shell body and the lid is arranged in the top and is placed the mouth, door one side is equipped with first draw-in groove, the top is placed a mouthful one side and is equipped with first fixture block corresponding first draw-in groove to make the fixed lock joint of door place on the mouth is placed to the top.

Furthermore, the first clamping block penetrates through the top placing opening, one side of the first clamping block extends to the inner cavity of the outer shell to form a third inclined plane, a bin gate button is elastically arranged on one side of the outer shell, one end of the bin gate button extends to the inner cavity of the outer shell close to the third inclined plane to form a fourth inclined plane, and therefore the fourth inclined plane abuts against the third inclined plane along with the movement of the bin gate button to drive the first clamping block to be away from the first clamping groove.

Further, the accelerating gear set comprises a first gear, a second gear, a third gear, a fourth gear and a fifth gear which are rotatably installed in the cavity, the special-shaped cylinder is connected with the first gear through a central shaft, the second gear is connected with the third gear through a central shaft, the fourth gear is connected with the fifth gear through a central shaft, the number of teeth of the second gear is greater than the number of teeth of the first gear and the number of teeth of the third gear, the first gear is meshed with the second gear, the number of teeth of the fourth gear is greater than the number of teeth of the third gear and the number of teeth of the fifth gear, the third gear is meshed with the fourth gear, one end of the special-shaped cylinder extends to the outer side of the bin door through a through hole, and one side of the fifth gear extends to the outer side of the bin door through a notch.

Furthermore, the driving handle is rotatably arranged on the outer shell, an arc-shaped rack is arranged on the driving handle and is positioned on the same central axis with the rotating shaft of the driving handle, an eighth gear meshed with the arc-shaped rack is rotatably arranged in the outer shell, a crown gear is arranged on one side of the eighth gear and is arranged on the same central axis, and the crown gear is meshed with the fifth gear.

Furthermore, a through groove penetrates through the sliding block, the through groove and the channel are arranged in the same axial direction, and a connecting rod is arranged in the through groove on the driving handle, so that the connecting rod is driven to abut against the sliding block to move to compress the elastic force of the elastic element by rotating the driving handle.

Furthermore, the gyroscope launching module also comprises an ejector rod and a driving button, wherein the ejector rod can be movably arranged in the inner cavity of the outer shell up and down, the upper end of the ejector rod penetrates through the outer shell and extends to the outer side of the outer shell, the driving button penetrates through the outer shell and extends to the outer side of the outer shell, one side surface of the driving button, which is positioned in the inner cavity of the outer shell, is a first inclined surface, and one side surface of the ejector rod, which is close to the first inclined surface, is a second inclined surface, so that the ejector rod is driven to move upwards by the fact that the first inclined; the cavity is internally provided with a circular guide pillar, the first gear is coaxially provided with a movable block matched with the inner cavity of the circular guide pillar, so that the first gear and the special-shaped cylinder can rotate along the inner cavity of the circular guide pillar while moving up and down, a movable rod extends from one side of the movable block, and one end of the movable rod penetrates through the bin gate and extends to the outer side to be abutted against the upper end of the ejector rod.

Further, the stalk portion that is used for holding has on the shell body, actuating button runs through to set up in the stalk portion, rotates to be provided with on lieing in the shell body and is used for covering the apron that puts the top transmission mouth, one side that actuating button is located the shell body inner chamber is equipped with first spur rack, the shell body inner chamber is located passageway one side and is equipped with the second spur rack that is used for contradicting the apron and makes its upset, the shell body inner chamber rotates and is provided with sixth gear and seventh gear, the number of teeth of sixth gear is greater than the number of teeth of seventh gear, sixth gear meshes with first spur rack mutually, seventh gear meshes with the second spur rack mutually.

Furthermore, the bottom of the placing cavity is abutted and provided with a movable seat through a spring, a second clamping block is arranged above the movable seat and extends to the outer side of the sliding block, and a second clamping groove is formed in the channel and is located below the gyro placing opening and corresponds to the second clamping block.

Preferably, the outer shell is shaped like a dinosaur toy.

To sum up, the utility model discloses for its beneficial effect of prior art is:

the utility model has simple structure, the gyro accelerator is provided with a gyro positioning module, a gyro accelerating module and a gyro transmitting module, when in use, the gyro is positioned and placed on the gyro positioning module, after the special-shaped cylinder of the gyro accelerating module is matched and connected with the special-shaped groove of the gyro, the initial speed and the rotation kinetic energy are given to the gyro through the matching of the driving handle driving transmission and the accelerating gear set, after the gyro rotates, the special-shaped cylinder of the gyro accelerating module is separated from the special-shaped groove of the gyro, and the elastic part elasticity of the gyro transmitting module drives the gyro positioning module and the gyro on the gyro positioning module to move synchronously, so that the slide block of the gyro positioning module moves along the channel, meanwhile, the arc-shaped stop block moves along the slide block, and the arc-shaped stop block moves and collides against the inner wall of the gyro transmitting opening in the channel through the convex block arranged on, the gyroscope which moves synchronously in the placing cavity flies out of the gyroscope emitting opening through the gap opened by the arc-shaped stop block through inertia, so that the gyroscope is driven to emit by a longer distance, the emitting direction of the gyroscope is appointed through the channel, and the gyroscope has higher safety.

Drawings

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

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

FIG. 3 is a schematic illustration of a partially exploded top toy assembly in accordance with an embodiment of the present invention;

FIG. 4 is a second perspective view of a top toy assembly according to an embodiment of the present invention;

fig. 5 is a second schematic cross-sectional view of a top toy assembly according to an embodiment of the present invention.

Fig. 6 is an exploded view of a toy top assembly according to an embodiment of the present invention.

Fig. 7 is an exploded view of fig. 6 according to an embodiment of the present invention.

Fig. 8 is a second exploded view of a top toy assembly according to an embodiment of the present invention.

Fig. 9 is a schematic cross-sectional view of fig. 8 according to an embodiment of the present invention.

Fig. 10 is an exploded view of fig. 8 according to an embodiment of the present invention.

Fig. 11 is a third exploded view of a toy top assembly according to an embodiment of the present invention.

Fig. 12 is a schematic perspective view of a gyroscope according to an embodiment of the present invention.

Fig. 13 is a fourth illustration of an exploded structure of a toy top assembly according to an embodiment of the present invention.

Fig. 14 is a third schematic sectional view of a top toy assembly according to an embodiment of the present invention.

Detailed Description

The invention will be further described with reference to the following description and embodiments in conjunction with the accompanying drawings:

as shown in fig. 1 to 14, the embodiment of the present invention preferably provides a toy gyroscope assembly, which includes a gyroscope 1 and a gyroscope accelerator 2 matched with the gyroscope 1, wherein the gyroscope 1 includes a gyroscope housing 3, a gyroscope tip shaft 54 fixedly connected below the gyroscope housing 3, and a special-shaped groove 4 disposed on the upper surface of the gyroscope housing 3;

the gyroscope accelerator 2 comprises an outer shell 5, a gyroscope accelerating module, a gyroscope positioning module and a gyroscope transmitting module, wherein the outer shell 5 is provided with a gyroscope transmitting port 6 and a gyroscope placing port 7, and the gyroscope transmitting port 6 is communicated with the gyroscope placing port 7 to form a channel 8;

the gyroscope positioning module is arranged in the channel 8 and comprises a sliding block 9 capable of moving along the channel 8 and an arc-shaped stop block 10 capable of relatively elastically rotating and arranged at the end part of the sliding block 9 through a return spring, an arc-shaped groove 11 is arranged at the end part of the sliding block 9 close to the arc-shaped stop block 10, the arc-shaped groove 11 and the arc-shaped stop block 10 are combined to form a placing cavity 12 for placing a gyroscope, a convex block 13 is arranged on the outer arc of the arc-shaped stop block 10, and when the arc-shaped stop block 10 moves along with the sliding block 9, the convex block 13 abuts against the inner wall of the gyroscope emission port 6 in the channel 8 so that the;

the gyro acceleration module comprises an acceleration gear set 14 and a special-shaped cylinder 15 in transmission connection with the acceleration gear set 14, wherein the shape and size of the special-shaped cylinder 15 are the same as those of the special-shaped groove 4, and a driving handle 16 in transmission connection with the acceleration gear set 14 is rotatably arranged on the outer shell 5;

the gyroscope emission module is arranged in the inner cavity of the outer shell 5 and comprises an elastic piece 17, the elastic piece 17 is a spring or a tension spring, the elastic piece 17 is connected between the inner cavity of the outer shell 5 and the sliding block 9 so as to drive the sliding block 9 to keep moving towards the direction of the gyroscope emission opening 6 through the elastic force of the elastic piece 17, the gyroscope accelerator 2 is provided with a gyroscope positioning module, a gyroscope accelerating module and a gyroscope emission module, when in use, the gyroscope 1 is positioned on the gyroscope positioning module, after the special-shaped column body 15 of the gyroscope accelerating module is matched and connected with the special-shaped groove 4 of the gyroscope 1, the initial speed and the rotation kinetic energy are given to the gyroscope 1 through the matching of the driving handle 16 driving and the accelerating gear set 14, after the gyroscope 1 rotates, the gyroscope positioning module and the gyroscope 1 on the gyroscope positioning module are driven to synchronously move through the special-shaped column body 15 of the gyroscope accelerating module and the special-shaped groove 4, so that top location module's slider 9 removes along passageway 8, and simultaneously, arc dog 10 removes along with slider 9, and arc dog 10 removes the top transmission mouth 6 inner walls that the conflict is located passageway 8 through the lug 13 that sets up on it, the relative rotation separation of realizing arc dog 10 is opened, cause and be flying out by top transmission mouth 6 through inertia through the breach that arc dog 10 separation was opened at the synchronous movement's of placing intracavity 12 top 1, thereby realize the distance drive transmission top far away, and the direction of launching of top has been appointed through passageway 8's direction, and more the security.

The top is module with higher speed still includes door 18, door 18 have cavity 19 and with breach 20 and through-hole 21 that cavity 19 is linked together, accelerating gear 14 sets up in cavity 19, door 18 sets up on shell body 5 and covers through reset spring elastic rotation and places mouth 7 in, door 18 one side is equipped with first draw-in groove 22, the top is placed mouth 7 one side and is equipped with first fixture block 23 corresponding first draw-in groove 22 to make door 18 fixed lock joint place on the mouth 7 is placed to the top.

First fixture block 23 runs through the setting and places on mouth 7 is placed to the top, and its one side extends to the 5 inner chambers of shell body and is equipped with third

inclined plane

24, 5 one side elasticity of shell body is provided with door button 25, door button 25 one end extends to and is equipped with fourth inclined plane 26 in the 5 inner chambers of shell body that are close to third inclined plane 24 to the messenger orders about first fixture block 23 and keeps away from first draw-in groove 22 along with door button 25 removal conflict third inclined plane 24 through fourth inclined plane 26, thereby realizes that door 18 is fixed the lock joint when placing on mouth 7 is placed to the top, presses door button 25 alright easily open door 18 through the staff.

The accelerating gear set 14 comprises a first gear 27, a second gear 28, a third gear 29, a fourth gear 30 and a fifth gear 31 which are rotatably installed in a cavity 19, the special-shaped cylinder 15 is connected with the first gear 27 through a central shaft, the second gear 28 is connected with the third gear 29 through a central shaft, the fourth gear 30 is connected with the fifth gear 31 through a central shaft, the number of teeth of the second gear 28 is greater than the number of teeth of the first gear 27 and the number of teeth of the third gear 29, the first gear 27 is meshed with the second gear 28, the number of teeth of the fourth gear 30 is greater than the number of teeth of the third gear 29 and the number of teeth of the fifth gear 31, the third gear 29 is meshed with the fourth gear 30, one end of the special-shaped cylinder 15 extends to the outer side of the door 18 through a through hole 21, one side of the fifth gear 31 extends to the outer side of the door 18 through a notch 20, and the transmission ratios of different gear sizes are achieved, the special-shaped cylinder 15 is driven to rotate in a variable speed mode.

The driving handle 16 is rotatably arranged on the outer shell 5, an arc-shaped rack 33 is arranged on the driving handle 16 and is positioned on the same central axis with a rotating shaft of the driving handle 16, an eighth gear 34 meshed with the arc-shaped rack 33 is arranged in the outer shell 5 in a rotating mode, a crown gear 35 is arranged on one side of the eighth gear 34 and is arranged on the same central axis, the crown gear 35 is meshed with the fifth gear 31, the cabin door 18 is fixedly buckled on the gyro placing opening 7, the crown gear 35 is meshed with the fifth gear 31, when the driving handle 16 is driven by a hand to rotate in a reciprocating mode, the eighth gear 34 is driven by the arc-shaped rack 33 to rotate, the fifth gear 31 is driven to rotate through the crown gear 35, and the driving handle 16 is driven to drive the accelerating gear set 14 to drive.

A through groove 36 penetrates through the sliding block 9, the through groove 36 and the channel 8 are arranged in the same axial direction, a connecting rod 37 is arranged in the through groove 36 on the driving handle 16, so that the connecting rod 37 is driven to abut against the sliding block 9 to move and compress the elastic force of the elastic piece 17 by rotating the driving handle 16, the connecting rod 37 abuts against the sliding block 9 to move by driving the driving handle 16 to rotate upwards, the sliding block 9 moves in the direction close to the gyro placing opening 7 to compress the elastic force of the elastic piece 17, meanwhile, the placing cavity 12 on the sliding block 9 moves to the gyro placing opening 7, when the gyro 1 is placed on the placing cavity 12, the position of the special-shaped groove 4 of the gyro 1 is opposite to the moving track of the special-shaped cylinder 15 rotating along with the bin gate 18, so that when the bin gate 18 is fixedly buckled on the gyro placing opening 7, the special-shaped cylinder 15 is matched and inserted and connected with the special-.

The gyroscope launching module further comprises a top rod 38 and a driving button 39, wherein the top rod 38 can be movably arranged in the inner cavity of the outer shell 5 up and down, the upper end of the top rod 38 penetrates through the outer shell 5 and extends to the outer side of the outer shell 5, the driving button 39 penetrates through the outer shell 5 and extends to the outer side of the outer shell 5, one side surface of the top rod 38, which is positioned in the inner cavity of the outer shell 5, is a first inclined surface 40, and one side surface of the top rod 38, which is close to the first inclined surface 40, is a second inclined surface 41, so that the top rod 38 is driven to move upwards by the first inclined surface 40 moving along; the cavity 19 is internally provided with a circular guide post 42, the first gear 27 is coaxially provided with a movable block 43 which is matched with the inner cavity of the circular guide post 42, so that the first gear 27 and the special-shaped cylinder 15 can rotate along the inner cavity of the circular guide post 42 while moving up and down, one side of the movable block 43 is extended with a movable rod 44, one end of the movable rod 44 penetrates through the bin gate 18 and extends to the outer side to be abutted against the upper end of the top rod 38, when the gyroscope 1 loaded in the gyroscope accelerator 2 rotates, the top rod 38 moves upwards to abut against the movable rod 44 and moves upwards, and the special-shaped cylinder 15 is separated from the special-shaped groove 4 of the gyroscope 1.

Have the stalk portion 45 that is used for holding on the shell body 5, actuating button 39 runs through to set up in stalk portion 45, rotate on lieing in shell body 5 and be provided with the apron 46 that is used for covering top emission mouth 6, one side that actuating button 39 is located the shell body 5 inner chamber is equipped with first rack 47, the shell body 5 inner chamber is located passageway 8 one side and is equipped with the second rack 48 that is used for contradicting apron 46 and makes its upset, shell body 5 inner chamber rotates and is provided with sixth gear 49 and seventh gear 50, sixth gear 49 tooth number is greater than the seventh gear 50 tooth number, sixth gear 49 meshes with first rack 47 mutually, seventh gear 50 meshes with second rack 48 mutually, improves the security through covering apron 46 on top emission mouth 6, and during the use, the staff presses actuating button 39 to make and remove through first rack 47, through the gear drive of sixth gear 49 with seventh gear 50, the second spur rack 48 is made to abut against the lid plate 46 to turn it upside down, thereby opening the top emitting port 6.

Placing chamber 12 bottom and supporting through the spring and being provided with sliding seat 51, sliding seat 51 top extends to the slider 9 outside and is equipped with second fixture block 52, it is equipped with second draw-in groove 53 to lie in the top and place mouthful 7 below and correspond second fixture block 52 on the passageway 8, support through the spring and hold and set up sliding seat 51, so that under placing chamber 12 and do not have top 1 state, second fixture block 52 receives the elasticity influence to keep the joint to support the state of holding at second draw-in groove 53, so that slider 9 can't remove, place intracavity 12 and place top 1 after, sliding seat 51 receives top 1's gravity influence compression elasticity, makes second fixture block 52 and second draw-in groove 53 be the detached state, makes slider 9 be the removal state, increases the factor of safety of toy.

The outer shell 5 is shaped like a dinosaur toy, which increases the interest of children playing and is shaped like a dinosaur when not in use.

The basic principles and main features of the present invention and the advantages of the present invention have been shown and described above, and it should be understood by those skilled in the art that the present invention is not limited by the above embodiments, and the description in the above embodiments and the description is only illustrative of the principles of the present invention, and the present invention can be modified in various ways without departing from the spirit and scope of the present invention, and these modifications and changes fall into the scope of the present invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A toy top assembly, comprising: the gyroscope comprises a gyroscope shell, a gyroscope sharp shaft fixedly connected below the gyroscope shell and a special-shaped groove arranged on the upper surface of the gyroscope shell;

2. A toy top assembly according to claim 1, wherein: the gyro acceleration module further comprises a bin gate, the bin gate is provided with a cavity, a notch and a through hole, the notch and the through hole are communicated with the cavity, the acceleration gear set is arranged in the cavity, the bin gate rotates through the elasticity of a reset spring and is arranged on the outer shell, the gyro placing opening is arranged in the cover, one side of the bin gate is provided with a first clamping groove, one side of the gyro placing opening corresponds to the first clamping groove and is provided with a first clamping block, and therefore the bin gate is fixedly fastened on the gyro placing opening.

3. A toy top assembly according to claim 2, wherein: the first clamping block penetrates through the gyro placing opening, one side of the first clamping block extends to the inner cavity of the outer shell to form a third inclined plane, a bin gate button is elastically arranged on one side of the outer shell, one end of the bin gate button extends to the inner cavity of the outer shell close to the third inclined plane to form a fourth inclined plane, and therefore the fourth inclined plane moves along with the bin gate button to abut against the third inclined plane to drive the first clamping block to be away from the first clamping groove.

4. A toy top assembly according to claim 2, wherein: the accelerating gear set comprises a first gear, a second gear, a third gear, a fourth gear and a fifth gear, the first gear is connected with the same central shaft, the second gear is connected with the same central shaft, the fourth gear is connected with the same central shaft, the second gear is greater than the first gear teeth and the third gear teeth, the first gear is meshed with the second gear, the fourth gear is greater than the third gear teeth and the fifth gear teeth, the third gear is meshed with the fourth gear, one end of the special-shaped cylinder extends to the outside of the bin door through a through hole, and one side of the fifth gear extends to the outside of the bin door through a notch.

5. A toy top assembly according to claim 4, wherein: the driving handle rotates and is arranged on the outer shell, an arc-shaped rack is arranged on the driving handle and is positioned on the same central axis with the rotating shaft of the driving handle, an eighth gear meshed with the arc-shaped rack is arranged in the outer shell in a rotating mode, a crown gear is arranged on one side of the eighth gear and is arranged on the same central axis with the fifth gear, and the crown gear is meshed with the fifth gear.

6. A toy top assembly according to claim 4, wherein: the sliding block is provided with a through groove in a penetrating mode, the through groove and the channel are arranged in the same axial direction, and a connecting rod is arranged in the through groove on the driving handle, so that the connecting rod is driven to abut against the sliding block to move and compress the elastic force of the elastic piece by rotating the driving handle.

7. A toy top assembly according to claim 4, wherein: the gyroscope launching module also comprises an ejector rod and a driving button, the ejector rod can be movably arranged in the inner cavity of the outer shell up and down, the upper end of the ejector rod penetrates through the outer shell and extends to the outer side of the outer shell, the driving button penetrates through the outer shell and extends to the outer side of the outer shell, one side surface, located in the inner cavity of the outer shell, of the driving button is a first inclined surface, one side surface, close to the first inclined surface, of the ejector rod is a second inclined surface, and therefore the ejector rod is driven to move upwards by the fact that the first inclined surface moves along with; the cavity is internally provided with a circular guide pillar, the first gear is coaxially provided with a movable block matched with the inner cavity of the circular guide pillar, so that the first gear and the special-shaped cylinder can rotate along the inner cavity of the circular guide pillar while moving up and down, a movable rod extends from one side of the movable block, and one end of the movable rod penetrates through the bin gate and extends to the outer side to be abutted against the upper end of the ejector rod.

8. A toy top assembly according to claim 7, wherein: have on the shell body and be used for the stalk portion of holding, actuating button runs through to set up in the stalk portion, rotates to be provided with on lieing in the shell body and is used for covering the apron of putting top transmission mouth, one side that actuating button is located shell body inner chamber is equipped with first spur rack, shell body inner chamber is located passageway one side and is equipped with the second spur rack that is used for contradicting the apron and makes its upset, shell body inner chamber rotates and is provided with sixth gear and seventh gear, the number of teeth of sixth gear is greater than the number of teeth of seventh gear, the sixth gear meshes with first spur rack mutually, the seventh gear meshes with the second spur rack mutually.

9. A toy top assembly according to claim 1, wherein: the top placing port is arranged on the channel, the bottom of the placing cavity is abutted and provided with a movable seat through a spring, a second clamping block is arranged above the movable seat and extends to the outer side of the sliding block, and a second clamping groove is formed in the channel and is located below the top placing port and corresponds to the second clamping block.