CN105169709A - Gyro toy component - Google Patents

Abstract

The invention provides a gyro toy component which comprises a gyro and a gyro accelerator matched with the gyro. The gyro comprises a gyro shell, a gyro shaft, a sleeve, a first gear and a gyro tip component, the gyro shaft is fixedly connected below the gyro shell, the sleeve is socketed on the gyro shaft in a relatively rotatable manner, the first gear is fixedly connected on the gyro shaft, the gyro tip component is fixedly connected at the lower end of the gyro shaft, the gyro accelerator comprises a first clamping arm and a second clamping arm which are mutually hinged elastically, a clamping portion used for clamping the sleeve is formed on a side opposite to movable ends of the first clamping arm and the second clamping arm, an acceleration gear set and an automatic winder are mounted in the first clamping arm and are in transmission connection, a rope is wound on the automatic winder, and the tail end of the rope is fixedly connected with a pull ring arranged outside the first clamping arm. By the gyro toy component, a novel, convenient, quick and safe method of playing the gyro is provided.

Description

A kind of toy top assembly

Technical field

The present invention relates to toy art, be specifically related to a kind of toy top assembly.

Background technology

Gyro is a National Sport project, common classical spinning top, is roughly by wood, plastic cement or metal inverted conical shape, is be coiled on gyro with cotton rope, does spinning movement after throwing away, utilize the mode whipping gyro, makes it continue to rotate.Due to the limitation of classical spinning top playing method and the problem such as sight is not enough, the time one is long, and player will lose the interest of playing, and is unfavorable for the popularization of this National Sport project.

But utilize the cotton rope be wound around to make gyro obtain the mode of initial rotary speed, the process being wound around on the one hand cotton rope is very loaded down with trivial details, cotton rope is not the used time easily ties a knot yet on the other hand; Therefore cotton rope be treated as a very troublesome problem.In addition, whip a top utilizing whip make its accelerate rotate time, also easily lash the people of surrounding, there is certain danger.

Therefore, prior art needs further to be improved.

Summary of the invention

The object of the invention is to, for problems of the prior art, provide a kind of toy top assembly, such that the playing method of gyro is more novel, convenient, safety.

For achieving the above object, the present invention is by the following technical solutions:

A kind of toy top assembly, the gyro accelerator comprising gyro and match with gyro, described gyro comprises gyro housing, is fixedly connected on the gyroaxis below gyro housing, the sleeve that can be socketed in the relative rotation on gyroaxis, be fixedly connected on the first gear on gyroaxis and be fixedly connected on the top point assembly of lower end of gyroaxis;

Described gyro accelerator comprises the first jig arm and second jig arm of mutual elastic hinge joint, the movable end opposite side of described first jig arm and the second jig arm forms one for clamping the clamping part of described sleeve, is provided with accelerating gear group and automatic winder in described first jig arm; Described accelerating gear group and automatic winder are in transmission connection, and described automatic winder is wound with cotton rope, and the end of cotton rope is fixedly connected with the draw ring that is arranged at the first jig arm outside;

When described clamping part clamps described sleeve, the first gears meshing on described accelerating gear group and gyro;

When being pulled cotton rope by draw ring, automatic winder rotates forward and drives accelerating gear group to rotate;

When unclamping draw ring, automatic winder automatic reverse rotates and reclaims cotton rope.

Further, described first jig arm comprises the first jig arm upper shell and the first jig arm lower house of engaging mutually, and the second jig arm comprises the first jig arm upper shell and the second jig arm lower house of engaging mutually; Form a cavity between described first jig arm upper shell and the first jig arm lower house, in cavity, described accelerating gear group and automatic winder are installed.

Further, described accelerating gear group comprises driving gear, duplicate gear and driven gear, and the axle of described driving gear and driven gear is fixedly supported between the first jig arm upper shell and the first jig arm lower house; Described driving gear and automatic winder are in transmission connection, and driven gear is arranged near clamping part and part is exposed to outside clamping part; Also be provided with the arc chute offered along driving gear circumference between first jig arm upper shell and the first jig arm lower house, the axle of described duplicate gear is arranged in arc chute; Gear larger on described duplicate gear engages with driving gear, when driving gear rotates, duplicate gear is slided in arc chute along driving gear circumference; When duplicate gear slides into one end of arc chute, gear less on duplicate gear engages with driven gear, and when duplicate gear slides into other positions of arc chute, duplicate gear and driven gear are not in contact with each other.

Further, described accelerating gear group comprises and is fixedly connected on upper cover plate in the first jig arm and lower cover, and is arranged at driving gear, duplicate gear and the driven gear between upper cover plate and lower cover; The axle of described driving gear and driven gear is fixedly supported between the first jig arm upper shell and the first jig arm lower house or between upper cover plate and lower cover; Described driving gear and automatic winder are in transmission connection, and driven gear is arranged near clamping part and part is exposed to outside the first jig arm; Described upper cover plate and lower cover have the arc chute offered along driving gear circumference, and the axle of described duplicate gear is arranged in arc chute; Gear larger on described duplicate gear engages with driving gear, when driving gear rotates, duplicate gear is slided in arc chute along driving gear circumference; When duplicate gear slides into one end of arc chute, gear less on duplicate gear engages with driven gear, and when duplicate gear slides into other positions of arc chute, duplicate gear and driven gear are not in contact with each other.

Further, described automatic winder comprises clockwork spring and spiral groove; Described spiral groove is connected with driving gear coaxial rigid, and spiral groove is wound around cotton rope; Described clockwork spring is fixedly connected with the axle of driving gear.

Further, gyro housing comprises upper shell, lower house and axial restraint assembly, and described axial restraint assembly passes from the middle part of upper shell and lower house, axially rivets fixing by upper shell and lower house;

Described axial restraint assembly comprises upper end cover, bottom end cover and key, upper end cover is installed on the upper surface middle part of upper shell, bottom end cover is installed in the middle part of the lower surface of lower house, and described key passes from the middle part of upper shell and lower house, and the two ends of key connect and fix with upper end cover and bottom end cover respectively.

Further, the upper end of described gyroaxis is fixedly connected on the bottom surface of bottom end cover, and the lower end of gyroaxis successively through sleeve and the first gear, and is fixedly connected with top point assembly; Wherein, sleeve and gyroaxis flexible connection, the first gear and gyroaxis are rigidly connected.

Further, described top point assembly comprise inner hollow top point housing, be installed in top point housing and the connector be fixedly connected with gyroaxis and be connected in the top obelisk body of top point housing bottom; The lower end of described top obelisk body is hemisphere, and the upper end of top obelisk body is provided with a radial Access Division of protruding, and the Access Division of top obelisk body is connected in top point housing, and the lower end of top obelisk body is exposed from the bottom of top point housing; Described connector offsets with the upper end of top obelisk body in top point housing.

Further, a spring is also provided with between described connector and top obelisk body.

Further, the upper end of described sleeve has a radial limit eaves protruded.

A kind of toy top assembly provided by the invention, for gyro provides novelty, convenient, safe new playing method; The present invention adopts the mode of cotton rope driven gear transmission to start gyro, replaces cotton rope to be in the past wound around and the Starting mode thrown away, and be also designed with automatic winder in gyro accelerator with this, eliminates the complicated processes being manually wound around cotton rope; Meanwhile, gyro can also be picked up in gyro rotary course and again accelerate, the accelerated mode replacing whip in the past to lash with this, enhances the security in play activity and convenience.

In gyro, by arranging the first gear on gyroaxis, make it possible to drive gyro to rotate by gear-driven mode.Meanwhile, by arranging sleeve, can be that gyro provides support when driving gyro, and gyro accelerator can be used to pick up gyro accelerate when not affecting gyro and rotating.

In gyro accelerator, automatic winder and accelerating gear group are be combined with each other, given full play to the characteristic that both are respective; In accelerating gear group, by simple, effective gear arrangement mode, accelerate function for gyro provides single direction rotation; In automatic winder, on the one hand for accelerating gear group provides driving source, synchronous reset can be realized with accelerating gear group again on the other hand, in the process of reset, not affect the rotation of gyro; Repeatedly can be accelerated gyro by draw ring.

Accompanying drawing explanation

Fig. 1 is the using state reference diagram of a kind of toy top assembly that the embodiment of the present invention provides.

Fig. 2 is the stereogram of the gyro in the embodiment of the present invention.

Fig. 3 is the side view of the gyro in the embodiment of the present invention.

Fig. 4 is the exploded perspective figure of the gyro in the embodiment of the present invention.

Fig. 5 is the side explosive view of the gyro in the embodiment of the present invention.

Fig. 6 is the overall structure schematic diagram of the gyro accelerator in the embodiment of the present invention.

Fig. 7 is the internal structure schematic diagram of the first jig arm in the gyro accelerator in the embodiment of the present invention.

Fig. 8 is the explosive view of the gyro accelerator in the embodiment of the present invention.

Fig. 9 is the mounting structure schematic diagram of the first jig arm and accelerating gear group in the gyro accelerator in the embodiment of the present invention.

Detailed description of the invention

Below in conjunction with accompanying drawing and specific embodiment, technical scheme of the present invention is described in detail.

As shown in Figure 1, the invention provides a kind of toy top assembly, it comprise gyro and with gyro with the use of gyro accelerator.

As shown in Figures 2 to 5, described gyro comprises gyro housing 1, is fixedly connected on the gyroaxis 2 below gyro housing 1, the sleeve 3 that can be socketed in the relative rotation on gyroaxis 2, is fixedly connected on the first gear 4 on gyroaxis 2 and is fixedly connected on the top point assembly 5 of lower end of gyroaxis 2.

Gyro housing 1 comprises upper shell 11, lower house 12 and axial restraint assembly, and described axial restraint assembly passes from the middle part of upper shell 11 and lower house 12, axially rivets fixing by upper shell 11 and lower house 12.Particularly, described axial restraint assembly comprises upper end cover 131, bottom end cover 133 and key 132, upper end cover 131 is installed on the upper surface middle part of upper shell 11, bottom end cover 133 is installed in the middle part of the lower surface of lower house 12, described key 132 passes from the middle part of upper shell 11 and lower house 12, and the two ends of key 132 connect and fix with upper end cover 131 and bottom end cover 133 respectively.

Further, described upper end cover 131 axle center place is also provided with a keycap 130.In the present embodiment, described keycap 130 is threadedly connected to the axle center place of upper end cover 131; When needs take apart gyro housing 1 keep in repair time, can be taken out by turn keycap 130, upper end cover 131 is separated with key 132 by the axle center place then by scratching dynamic upper end cover 131, and then completes the dismounting of gyro housing 1.

Further, described upper shell 11 and lower house 12 be closed formation one cavity mutually, and be provided with collision luminescence component 14 in cavity, described collision luminescence component 14 comprises the collision detection switch 140, LED lamp drive circuit and the LED that connect successively; The joint, side of upper shell 11 and lower house 12 is provided with perforate, and described collision detection switch 140 exposes from tapping.

Described collision detection switch 140 can have one or more, and the joint, side of upper shell 11 and lower house 12 is evenly distributed with the perforate of respective amount.In the embodiment of the present invention, described collision detection switch 140, for having flexible mechanical detection switch, only has one; The joint, side of upper shell 11 and lower house 12 is provided with a corresponding perforate.When gyro collides wall or other barriers in rotary course, the collision detection switch 140 being slightly exposed to tapping is pressed, and then activates LED lamp drive circuit, makes LED luminous.When playing, can also, by the collision between two gyros, make LED luminous; Further, delayed luminescence and flash of light special efficacy can also be realized by LED lamp drive circuit, increase interest and the visual impact of gyro.

Further, the upper end of described gyroaxis 2 is fixedly connected on the bottom surface of bottom end cover 133, and the lower end of gyroaxis 2 successively through sleeve 3 and the first gear 4, and is fixedly connected with top point assembly 5; Wherein, the flexible connection for can relatively rotate between sleeve 3 with gyroaxis 2, is rigidly connected for relatively-stationary between the first gear 4 and gyroaxis 2.

Described top point assembly 5 comprise inner hollow top point housing 52, be installed in top point housing 52 and the connector 51 be fixedly connected with gyroaxis 2 and the top obelisk body 54 be connected in bottom top point housing 52; The lower end of described top obelisk body 54 is hemisphere, and the upper end of top obelisk body 54 is provided with a radial Access Division of protruding, and the Access Division of top obelisk body 54 is connected in top point housing 52, and the lower end of top obelisk body 54 is exposed from the bottom of top point housing 52; Described connector 51 offsets with the upper end of top obelisk body 54 in top point housing 52.

In another embodiment of the present invention, as improvement, a spring can also be set between described connector 51 and top obelisk body 54, for playing certain cushioning effect when gyro lands, strengthen stability when gyro rotates simultaneously.

As improvement, in the gyro that the embodiment of the present invention provides, the upper end of sleeve 3 also has a radial limit eaves protruded.The object arranging limit eaves is in order to avoid encountering gyro housing 1 when using gyro accelerator to pick up or put down gyro, affecting the balance of gyro.

As shown in Figure 6, described gyro accelerator comprises two jig arm 61, be respectively the first jig arm 611 and the second jig arm 612, one end of first jig arm 611 and the second jig arm 612 is by the mutual elastic hinge joint of torsion spring, the other end of the first jig arm 611 and the second jig arm 612 is movable end, and the movable end opposite side of the first jig arm 611 and the second jig arm 612 forms one for clamping the clamping part 62 of gyro.Particularly, the movable end opposite side of described first jig arm 611 and the second jig arm 612 forms half circular depression respectively, and the semi-cylindrical canyon portion of two jig arm 61 forms clamping part 62 jointly.

As shown in Figure 7 and Figure 8, described first jig arm 611 comprises the first jig arm upper shell 6121 and the second jig arm lower house 6122 that the first jig arm upper shell 6111 of mutually engaging and the first jig arm lower house 6112, second jig arm 612 comprise engaging mutually.The first jig arm upper shell 6111 is eliminated in Fig. 7, show the internal structure of the first jig arm 611, as shown in the figure, form a cavity between described first jig arm upper shell 6111 and the first jig arm lower house 6112, accelerating gear group 63 and automatic winder are installed in cavity.Described accelerating gear group 63 is in transmission connection with automatic winder, and described automatic winder is wound with cotton rope, and the end of cotton rope is fixedly connected with the draw ring 64 that is arranged at the first jig arm 611 outside.

When the clamping part 62 of gyro accelerator clamps the sleeve 3 on gyro, described accelerating gear group 63 engages with the first gear 4 on gyro; When being pulled cotton rope by draw ring 64, automatic winder rotates forward and drives accelerating gear group 63 to rotate; When unclamp draw 64 ring time, automatic winder automatic reverse rotate reclaim cotton rope.

Further, as shown in Figure 9, described accelerating gear group 63 comprises and is fixedly connected on upper cover plate 6311 in the first jig arm 611 and lower cover 6312, and is arranged at driving gear 6321, duplicate gear 6322 and the driven gear 6323 between upper cover plate 6311 and lower cover 6312; The axle of described driving gear 6321 and driven gear 6323 is fixedly supported between the first jig arm upper shell 6111 and the first jig arm lower house 6112 or between upper cover plate 6311 and lower cover 6312.In the present embodiment, upper cover plate 6311 and lower cover 6312 are fixedly connected on the inwall of the first jig arm lower house 6112 by screw; The axle of described driving gear 6321 and driven gear 6323, through upper cover plate 6311 and lower cover 6312, is fixedly supported on the inwall of the first jig arm upper shell 6111 and the first jig arm lower house 6112.The effect of upper cover plate 6311 and lower cover 6312 carries out axial limiting to each gear, prevents mutual dislocation between gear, the compactness of impact engagement.

Further, described upper cover plate 6311 and lower cover 6312 are respectively equipped with the arc chute offered along driving gear 6321 circumference, the position of two arc chutes is relative, the two ends of the axle of described duplicate gear 6322 are arranged in two arc chutes respectively, and can slide along the circumference of driving gear 6321 in arc chute; One end of arc chute is near driven gear 6323, can engage each other with driven gear 6323 when making duplicate gear 6322 be positioned at this end, the other end driven gear 6323 dorsad of arc chute, when making duplicate gear 6322 slide into other positions and driven gear 6323 be not in contact with each other.In other embodiments of the invention, can also arc chute be arranged on the inwall of the first jig arm upper shell 6111 and the first jig arm lower house 6112, but do like this and need the length of the axle increasing duplicate gear 6322 could realize installing, make the installation of duplicate gear 6322 unstable; Therefore, the present embodiment have employed the embodiment be more preferably.

Further, described driving gear 6321 and automatic winder are in transmission connection, and driven gear 6323 is arranged near clamping part 62 and part is exposed to outside the first jig arm 611.Described duplicate gear 6322 comprises small one and large one two gears that coaxial rigid connects; Wherein, gear larger on duplicate gear 6322 engages with driving gear 6321, when driving gear 6321 rotates, the meshing relation of gear larger on duplicate gear 6322 and driving gear 6321, makes duplicate gear 6322 slide along driving gear 6321 circumference in arc chute; When duplicate gear 6322 slides into one end of close driven gear 6323 on arc chute, gear less on duplicate gear 6322 engages with driven gear 6323, when duplicate gear 6322 slides into other positions of arc chute, duplicate gear 6322 and driven gear 6323 are not in contact with each other.

Further, described automatic winder comprises clockwork spring 650 and spiral groove; Described spiral groove is connected with driving gear 6321 coaxial rigid, and spiral groove is wound around cotton rope; Described clockwork spring 650 is fixedly connected with the axle of driving gear 6321.In the drawings, because spiral groove to be arranged at below driving gear 6321 and one connects, therefore spiral groove is blocked by driving gear 6321, not shown.

Further, the middle part of described lower cover 6312 is protruding, and form a disc cell body, form an accommodation space between described disc cell body and the first jig arm lower house 6112, described clockwork spring 650 is installed in the accommodation space of disc cell body.The axle of described driving gear 6321, through lower cover 6312, is fixedly connected with clockwork spring 650.

Further, in described first jig arm 611, the outside relative with clamping part 62 is provided with an opening, and opening part is provided with a cable-through hole 640, and one end of cotton rope is fixed on spiral groove, after being wound around a few, the other end of cotton rope passes cable-through hole 640 and is fixedly connected with draw ring 64 in the first jig arm 611 outside.

When toy top assembly provided by the invention uses, clamped the sleeve 3 of gyro by the clamping part 62 of gyro accelerator, now, the driven gear 6323 in accelerating gear group 63 just engages with the first gear 4 on gyro.By pulling draw ring 64, cotton rope is made to drive spiral groove to rotate forward; When spiral groove rotates forward, also drive driving gear 6321 to rotate forward, and then promotion duplicate gear 6322 slide in arc chute near one end of driven gear 6323 simultaneously; When duplicate gear 6322 slides into the end of arc chute, gear less on duplicate gear 6322 engages with driven gear 6323, and then drives driven gear 6323 to rotate; When driven gear 6323 rotates, then drive the first gear 4 on gyro to rotate in the lump, namely impel gyro to start to rotate.

When cotton rope pull-out certain length, unclamp draw ring 64, the clockwork spring 650 in automatic winder makes spiral groove and driving gear 6321 rotate backward; Recovery cotton rope is rotated backward on the one hand by spiral groove, slided to the one end away from driven gear 6323 in arc chute by the promotion duplicate gear 6322 that rotates backward of driving gear 6321 on the other hand, when duplicate gear 6322 leaves the end of arc chute, duplicate gear 6322 and driven gear 6323 remove engagement, are not in contact with each other.Gyro and driven gear 6323, due to rotatory inertia, are rotated further in the lump.

When cotton rope is all recovered in spiral groove, can again accelerate again to pull draw ring 64.By repeatedly accelerating to pull draw ring 64, accelerating gear group 63 constantly repeats above-mentioned single-direction transmission process at faster speed, can increase the rotatory inertia of gyro, makes it to accelerate to rotate.

After unclamping the jig arm 61 of gyro accelerator, namely gyro drops on ground and rotates.When the rotary speed of gyro weakens, sleeve 3 can be clamped by gyro accelerator again, gyro is picked up; And again pull draw ring 64 by acceleration, make gyro accelerate to rotate.

A kind of toy top assembly provided by the invention, for gyro provides novelty, convenient, safe new playing method; The present invention adopts the mode of cotton rope driven gear transmission to start gyro, replaces cotton rope to be in the past wound around and the Starting mode thrown away, and be also designed with automatic winder in gyro accelerator with this, eliminates the complicated processes being manually wound around cotton rope; Meanwhile, gyro can also be picked up in gyro rotary course and again accelerate, the accelerated mode replacing whip in the past to lash with this, enhances the security in play activity and convenience.

In gyro, by arranging the first gear on gyroaxis, make it possible to drive gyro to rotate by gear-driven mode.Meanwhile, by arranging sleeve, can be that gyro provides support when driving gyro, and gyro accelerator can be used to pick up gyro accelerate when not affecting gyro and rotating.

In gyro accelerator, automatic winder and accelerating gear group are be combined with each other, given full play to the characteristic that both are respective; In accelerating gear group, by simple, effective gear arrangement mode, accelerate function for gyro provides single direction rotation; In automatic winder, on the one hand for accelerating gear group provides driving source, synchronous reset can be realized with accelerating gear group again on the other hand, in the process of reset, not affect the rotation of gyro; Repeatedly can be accelerated gyro by draw ring.

The above embodiment only have expressed several embodiment of the present invention, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to the scope of the claims of the present invention.It should be pointed out that for the person of ordinary skill of the art, without departing from the inventive concept of the premise, can also make some distortion and improvement, these all belong to protection scope of the present invention.Therefore, the protection domain of patent of the present invention should be as the criterion with claims.

Claims (10)

1. a toy top assembly, it is characterized in that, the gyro accelerator comprising gyro and match with gyro, described gyro comprises gyro housing, is fixedly connected on the gyroaxis below gyro housing, the sleeve that can be socketed in the relative rotation on gyroaxis, be fixedly connected on the first gear on gyroaxis and be fixedly connected on the top point assembly of lower end of gyroaxis;

Described gyro accelerator comprises the first jig arm and second jig arm of mutual elastic hinge joint, the movable end opposite side of described first jig arm and the second jig arm forms one for clamping the clamping part of described sleeve, is provided with accelerating gear group and automatic winder in described first jig arm; Described accelerating gear group and automatic winder are in transmission connection, and described automatic winder is wound with cotton rope, and the end of cotton rope is fixedly connected with the draw ring that is arranged at the first jig arm outside;

When described clamping part clamps described sleeve, the first gears meshing on described accelerating gear group and gyro;

When being pulled cotton rope by draw ring, automatic winder rotates forward and drives accelerating gear group to rotate;

When unclamping draw ring, automatic winder automatic reverse rotates and reclaims cotton rope.

2. toy top assembly according to claim 1, is characterized in that, described first jig arm comprises the first jig arm upper shell and the first jig arm lower house of engaging mutually, and the second jig arm comprises the first jig arm upper shell and the second jig arm lower house of engaging mutually; Form a cavity between described first jig arm upper shell and the first jig arm lower house, in cavity, described accelerating gear group and automatic winder are installed.

3. toy top assembly according to claim 2, it is characterized in that, described accelerating gear group comprises driving gear, duplicate gear and driven gear, and the axle of described driving gear and driven gear is fixedly supported between the first jig arm upper shell and the first jig arm lower house; Described driving gear and automatic winder are in transmission connection, and driven gear is arranged near clamping part and part is exposed to outside clamping part; Also be provided with the arc chute offered along driving gear circumference between first jig arm upper shell and the first jig arm lower house, the axle of described duplicate gear is arranged in arc chute; Gear larger on described duplicate gear engages with driving gear, when driving gear rotates, duplicate gear is slided in arc chute along driving gear circumference; When duplicate gear slides into one end of arc chute, gear less on duplicate gear engages with driven gear, and when duplicate gear slides into other positions of arc chute, duplicate gear and driven gear are not in contact with each other.

4. toy top assembly according to claim 2, it is characterized in that, described accelerating gear group comprises and is fixedly connected on upper cover plate in the first jig arm and lower cover, and is arranged at driving gear, duplicate gear and the driven gear between upper cover plate and lower cover; The axle of described driving gear and driven gear is fixedly supported between the first jig arm upper shell and the first jig arm lower house or between upper cover plate and lower cover; Described driving gear and automatic winder are in transmission connection, and driven gear is arranged near clamping part and part is exposed to outside the first jig arm; Described upper cover plate and lower cover have the arc chute offered along driving gear circumference, and the axle of described duplicate gear is arranged in arc chute; Gear larger on described duplicate gear engages with driving gear, when driving gear rotates, duplicate gear is slided in arc chute along driving gear circumference; When duplicate gear slides into one end of arc chute, gear less on duplicate gear engages with driven gear, and when duplicate gear slides into other positions of arc chute, duplicate gear and driven gear are not in contact with each other.

5. toy top assembly according to claim 4, is characterized in that, described automatic winder comprises clockwork spring and spiral groove; Described spiral groove is connected with driving gear coaxial rigid, and spiral groove is wound around cotton rope; Described clockwork spring is fixedly connected with the axle of driving gear.

6. toy top assembly according to claim 1, is characterized in that, gyro housing comprises upper shell, lower house and axial restraint assembly, and described axial restraint assembly passes from the middle part of upper shell and lower house, axially rivets fixing by upper shell and lower house;

Described axial restraint assembly comprises upper end cover, bottom end cover and key, upper end cover is installed on the upper surface middle part of upper shell, bottom end cover is installed in the middle part of the lower surface of lower house, and described key passes from the middle part of upper shell and lower house, and the two ends of key connect and fix with upper end cover and bottom end cover respectively.

7. toy top assembly according to claim 6, is characterized in that, the upper end of described gyroaxis is fixedly connected on the bottom surface of bottom end cover, and the lower end of gyroaxis successively through sleeve and the first gear, and is fixedly connected with top point assembly; Wherein, sleeve and gyroaxis flexible connection, the first gear and gyroaxis are rigidly connected.

8. toy top assembly according to claim 6, is characterized in that, described top point assembly comprise inner hollow top point housing, be installed in top point housing and the connector be fixedly connected with gyroaxis and be connected in the top obelisk body of top point housing bottom; The lower end of described top obelisk body is hemisphere, and the upper end of top obelisk body is provided with a radial Access Division of protruding, and the Access Division of top obelisk body is connected in top point housing, and the lower end of top obelisk body is exposed from the bottom of top point housing; Described connector offsets with the upper end of top obelisk body in top point housing.

9. toy top assembly according to claim 8, is characterized in that, is also provided with a spring between described connector and top obelisk body.

10. toy top assembly according to claim 6, is characterized in that, the upper end of described sleeve has a radial limit eaves protruded.