KR20160061957A - Yo-yo ball with friction motion energy storage and acceleration functions - Google Patents

Abstract

The present invention relates to a yo-yo ball having two rotary bodies and a connection shaft and having a friction energy storage and acceleration function, wherein one of the rotary bodies has a disk body and a side cover, Wherein the disk body is brought into contact with the outer contact surface to form a frictional contact with the friction surface of the friction body, Friction rolling is used to implement the energy storage for the friction kinetic energy accumulator. After energy storage, the disc body is out of contact with the outer contact surface, and the friction energy storage device emits energy to drive the two disc bodies to rotate synchronously in the opposite direction to the direction of the cloud, So that the rope is too short, it can be rotated at high speed after throwing the ball body, and is not affected by the acceleration area after the ball body is thrown. So even a tiny player can play with a tall guy with a yo-yo ball and complete various cool moves. Requirements for players of different ages and different height can be met. Compared to conventional yoyo balls, yoyo balls with friction kinetic energy accumulation and acceleration increase the number of new modes of operation and new play methods, are more interesting, and play methods are more varied.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a yoke ball having a friction energy accumulating and accelerating function,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a yaw ball, and more particularly, to a yaw ball having a friction kinetic energy accumulation and acceleration function.

In the current market, the yo-yo ball basically consists of two rotating bodies and a connecting shaft connecting the two rotating bodies, and then the rope is wrapped around the two rotating bodies. The yo-yo ball body is thrown completely at an angle so that the yo-yo ball body can quickly turn at the end of the rope. However, a keyed user limited by the return system and bearing system of the yo-yo ball can not play with the rope to throw the yo-yo ball body. This is because the length of the rope is directly proportional to the user's key. For a tall user, after the ball body is thrown, the ball body is accelerated at a predetermined speed and there is sufficient acceleration area to complete various cool operations. However, for a tall user, the operation can not be completed because the acceleration area is too short after the ball body is thrown and the rotation speed of the ball body is not sufficiently fast.

It is an object of the present invention to provide a yoyo ball which solves the above problems, is smoothly designed and very interesting and has a friction kinetic energy accumulation and acceleration function capable of storing energy manually.

The technical solution of the present invention is implemented as follows:

1. A yo-yo ball having two rotary bodies and a connection shaft connecting the two rotary bodies, wherein the rotary body has a disk body and a side cover, Wherein one of the disk bodies is provided with a friction kinetic energy storage device, one end of the friction kinetic energy storage device is connected to the disk body, the other end is connected to the side cover, By pinching the side cover of the disc body, the disc body is brought into contact with the outer contact surface to implement an energy storage for the friction kinetic energy storage device by friction rolling; After energy storage, the disc body is out of contact with the outer contact surface, and the frictional kinetic energy storage device emits energy to drive the two disc bodies to rotate synchronously in the opposite direction to the rolling direction.

In order to reduce the unnecessary loss of energy emitted by the friction kinetic energy storage device, in the present invention, one of the disc bodies is provided therein with a direction limiting device disposed at a position where the side cover is connected to the friction kinetic energy storage device, One end of the direction limiting device is connected to the side cover and the other end is connected to a friction kinetic energy accumulating device, the limited rotational direction by the direction limiting device is equal to the energy accumulation direction of the friction kinetic energy accumulating device, The disc body contacts the outer contact surface and implements energy accumulation for the friction kinetic energy storage device by the friction cloud in a limited rotational direction by the direction restricting device.

In order to prevent damage to the friction kinetic energy storage device due to excessive energy accumulation, in the present invention, one of the disc bodies is provided with an overload protection device disposed therein at a position where the side cover is connected to the friction kinetic energy storage device, One end of the overload protection device is connected to the side cover and the other end is connected to the friction energy storage device; When the energy accumulation to the friction energy storage device is overloaded by pinching the side cover, under the operation of the overload protection device, the side cover is disengaged from the friction kinetic energy storage device, whereby energy storage for the friction kinetic energy storage device Interruption is implemented.

In order to prevent unnecessary loss of energy emitted by the friction kinetic energy storage device and to prevent damage to the friction kinetic energy storage device due to excessive energy accumulation, in the present invention, one of the disk bodies has a side cover attached to the friction kinetic energy storage device A direction limiting device and an overload protecting device disposed at a connected position are provided therein, one end of the direction limiting device is connected to a friction kinetic energy accumulator and the other end is connected to an overload protecting device, and the other end of the overload protecting device is connected to a side cover The direction of rotation limited by the direction limiting device is the same as the energy accumulation direction of the friction kinetic energy storage device and the disc body is brought into contact with the outer contact surface by pinching the side cover of the two rotating bodies, The frictional kinetic energy accumulation field Implement the energy accumulated for the; When the energy accumulation for the frictional kinetic energy storage device is overloaded, under the operation of the overload protection device, the side cover is disengaged from the direction limiting device, thereby stopping the energy accumulation for the frictional kinetic energy storage device.

The direction restricting device includes a plurality of direction restricting blocks, a mounting disc on which all the direction restricting blocks are mounted, and a gear disc on which an internal helical gear tooth is provided concavely, Rotatably connected to the mounting disc and protruding above the mounting disc; The gear disk is covered on the directional restricting blocks and in this way the restricting catch of the directional restricting blocks is fixed in one direction to the internal helical gear tooth to limit rotation of the gear disk in one direction; One end of the friction kinetic energy storage device is connected to the gear disk, and the overload protection device is connected to the mounting disk.

In order to reduce the number of parts as much as possible, the overload protection device comprises a circular ring convexly provided on the arc surface and an internal gearing engaged with the convex gear, Grooved convex key is provided in the middle of the circular ring, the side cover is matched with the elongated convex key and the connected elongated key-grooves are provided in unison, and the energy accumulation for the friction kinetic energy accumulator is overloaded, The ring is stressed and distorted so that the convex gear is disengaged from the internal gearing, which causes the direction limiting device and the friction kinetic energy storage device to rotate with the disk body, and the friction kinetic energy storage device stops accumulating energy.

The energy accumulating device of the present invention includes an energy accumulating spring and a spring case, the energy accumulating spring is disposed in a spring case, the outer end of the energy accumulating spring is fixedly connected to the spring case, The energy accumulation direction of the energy accumulating spring is the same as the rotational direction limited by the direction limiting device, and the spring case is fixedly connected to the disk body.

In addition, a through hole is formed in the center of the spring case, a lower portion of the gear disk is provided with a lug which passes through the through hole and enters the spring case, a plurality of arc type pieces are provided along the periphery of the lug, A gap is maintained constant between the arc type piece and the lug, and a hook is provided at the lower end of the arc type piece; After the lug of the gear disk is inserted into the through hole of the spring case, the hook extends out of the through hole and fastens the through hole to the side. In this way, the gear disk is connected to the spring case, Is fixedly connected to the arc type piece of the gear disk.

In order to improve the smooth performance of the rotation of the disc body, a bearing base is mounted on the center of the gear disc, on which the bearing is mounted, and the connecting shaft is inserted into and connected to the center hole of the bearing.

To prevent damage to the disk body due to frequent friction and to prevent energy from accumulating due to frictional friction due to the small friction coefficient of the disk body, the disk mouse edge of the disk body is connected to a friction ring fixed to the disk body by screws Wherein the diameter of the friction ring is larger than the disc mouth diameter of the disc body, the side cover is covered on the outer side of the friction ring, and the side cover is connected to the connecting shaft by bolts.

In the present invention, a frictional kinetic energy accumulator is provided in one of the disk bodies of the rotating body, one end of the frictional kinetic energy accumulator is connected to the disk body, the other end is connected to the side cover, The disc bodies contact the outer contact surface to implement energy accumulation for the friction kinetic energy storage device by the friction cloud. After energy storage, the disc body is out of contact with the outer contact surface, and the friction energy storage device emits energy to drive the two disc bodies to rotate synchronously in the opposite direction to the direction of the cloud, And is emitted to effect rotation of the body. In this way, the yoyo ball body can rotate without throwing the yoyo ball body into the rope. Even if the rope is too short, the ball body can be rotated at high speed after being thrown, which will not be affected by the acceleration area after the ball body is thrown. Therefore, even a single player can play a game with his / her player with this yoyo ball, and can complete various wonderful movements. Requirements for players of different ages and different tiers can be met. Compared to conventional yo-yo balls, yoyo balls with friction kinetic energy accumulation and acceleration increase the number of new operating modes and new play modes, are more interesting, and play methods are more diverse. In addition, one of the disc bodies is provided with a directional restriction device and an overload protection device therein, so that unnecessary loss of energy emitted by the friction kinetic energy storage device is reduced, the rotation period of the yaw ball is effectively improved, The accumulation can prevent damage to the friction kinetic energy storage device, and the service life of the yaw ball can be effectively extended. The disc mouse of the disc body is connected to a friction ring whose diameter is larger than the disc mouse diameter of the disc body. Thus, during energy storage by friction, frictional contact occurs between the friction ring and the contact surface, and the disc body can be better protected from friction and damage to further extend the useful life of the yaw ball, and the friction coefficient of the friction ring , The energy accumulation effect is improved by not slipping during the rolling friction, and when the energy accumulation effect is reduced, the friction ring is simply replaced. YoYoBalls are designed to be sleek, to increase the number of ways to play with YoYoBo as well as the requirements of single-user users for entertainment, to be very interesting, to meet children's entertainment needs and psychological needs to find something new, To give creativity to the whole range, and yo-ball makes it attractive to children for a long time.

The present invention will be further described with reference to the accompanying drawings.
1 is a three-dimensional schematic structural view of the present invention.
2 is a schematic structural cross-sectional view of the present invention.
3 is a schematic view of the decomposition structure of the present invention.
4 is a schematic structural view of a side cover, an overload protecting device and a direction limiting device of the present invention.

As shown in Figs. 1 to 4, a yo-yo ball having a friction energy accumulating and accelerating function including a connecting shaft 2 connecting two rotating bodies 1 and the two rotating bodies 1, One of the rotating bodies 1 includes a disk body 11 and a side cover 12. The disk body 11 is rotatable relative to the side cover 12 and the disk bodies 11, Wherein one end of the friction energy storage device 3 is connected to the disk body 11 and the other end of the friction energy storage device 3 is connected to the side cover 12, By pinching the side cover 12 of the two rotating bodies 1, the disc bodies 11 come into contact with the outer contact surface to realize energy accumulation for the friction kinetic energy accumulator 3 by friction rolling do. After energy storage, the disc body 11 is out of contact with the outer contact surface and the friction energy storage device 3 emits energy to drive the two disc bodies 11 to rotate synchronously in the opposite direction to the rolling direction , At this time, the side cover 12 is peeled to realize the rotation of the entire yo-yo ball body. Thus, the yo-yo ball body can rotate without throwing the yo-yo ball body into the rope. Even if the rope is too short, the ball body can be rotated at high speed after being thrown, which is not affected by the acceleration area after the ball body is thrown. So even a tiny player can play with a tall guy with a yo-yo ball and complete various cool moves. Requirements for players of different ages and different height can be met. Compared to conventional yoyo balls, yoyo balls with friction kinetic energy accumulation and acceleration increase the number of new modes of operation and new play methods, are more interesting, and play methods are more varied.

As shown in Fig. 3, in this embodiment, one of the disc bodies 11 has a direction limiting device 4 disposed at a position where the side cover 12 is connected to the friction kinetic energy storage device 3, A protective device 5 is provided therein. In this embodiment, the direction limiting device 4 includes four direction limiting blocks 41, a mounting disc 42 on which all the direction limiting blocks 41 are mounted, and an inner spiral gear tooth 431 that are concave And the direction limiting block 41 is fixed to the pin hole 421 by the pin bolt 9. The pin hole 421 is formed in the bottom surface of the mounting disk 42, . In this way, the orientation limiting blocks 41 are automatically rotationally connected to the bottom surface of the mounting disc 42 and protrude above the mounting disc 42. The gear disk 43 is covered on the directional restricting blocks 41 and in this way the limiting catches of the directional restricting blocks 41 are fixed to the internal helical gear teeth 431, The limiting hooks are fixed to the inner helical gear teeth 431 so that the gear disk 43 can not rotate and the rotation of the gear disk 43 in one direction Lt; / RTI > The gear disk 43 of the direction limiting device 4 is connected to one end of the friction kinetic energy accumulator 3. The overload protection device 5 of this embodiment includes a circular ring 51 in which the convex gear 511 is convex on an arc surface and an internal gear ring 52 meshing with the convex gear 511, The internal gearing 52 is disposed on the top surface of the mounting disk 42. That is, the mounting disc 42 and the internal gear ring 52 adopt a single body design, thereby reducing the number of parts, reducing costs, and making the structure more compact. A short ring block key 512 is provided in the middle of the center ring 51 and a narrow key-groove 121 matched and connected with the short ring block key 512 is provided coincident with the side cover 12, Three convex teeth 511 of the ring 51 are provided. In the case of excessive energy storage in the frictional kinetic energy storage device 3, that is, when friction clouds are basically impossible, if the user continues to force it, the circular ring 51 can be deformed under stress, 511 are disengaged from the internal gearing 52 so that the side cover 12 can not restrict the mounting disk 42 and the overall direction restricting device 3 is put in the disengaged state, So that the friction kinetic energy accumulator 3 stops energy accumulation.

2 and 3, the energy storage device 3 of this embodiment includes an energy accumulation spring 31 and a spring case 32, the energy accumulation spring 31 is a spiral spring, Is placed on the case 32, and the outer end of the spring is fixed to the spring case 32. The spring case 32 includes a cave body 322 and a cover body 321. The case body 322 has a notch 323 formed at its edge and an outer end of the energy accumulation spring 31 is connected to the notch 323 And three lugs 324 are formed with holes along the periphery of the cover body 321; After the cover body 321 is covered on the case body 322, they are aligned and screwed and secured by the holes on the lug 324 and the screw holes on the disk body 11. [ A through hole (320) is formed in the center of the spring case (32). The lower end of the gear disk 43 of the direction restricting device 4 is provided with a lug 430 passing through the through hole 320 and entering the spring case 32 and spaced along the outer periphery of the lug 430 A gap is maintained between the arc type piece 432 and the lug 430 and a hook 433 is provided at the lower end of each of the arc type pieces 432 / RTI > After the lug 430 of the gear disk 43 is inserted into the through hole 320 of the spring case 32, the hook 433 extends out of the through hole 320 and fastens the through hole to the side, So that the gear disk 43 is connected to the spring case 32. The inner end of the energy accumulating spring 31 is fixedly connected to the arc-shaped piece 432 of the gear disk 43; A bearing base 434 having a bearing 6 mounted on the center of the gear disk 43 is provided and the connecting shaft 2 is inserted and connected to the center hole of the bearing 6. The disk mouth edge of the disk body 11 is connected to the friction ring 7 and the friction coefficient of the friction ring 7 is larger than the friction coefficient of the disk body 11 and the friction ring 7 Are provided with countersinks and the screws through the countersinks are screwed into the screw holes at the disk mouse edge of the disk body 11 to thereby realize a fixed connection. Since the diameter of the friction ring 7 is larger than the diameter of the disk mouth of the disk body 11, frictional contact occurs between the friction ring 7 and the contact surface during energy accumulation by friction, Can be better protected from friction and damage, extend the useful life of the yo-yo ball, and have a high coefficient of friction of the friction ring (7), so that it does not slip during the friction cloud, improving the energy accumulation effect and reducing the energy accumulation effect The friction ring 7 is simply replaced. The decorative ring edge 8 formed with the arc convex rib 81 downward is sleeveed near the edge of the outer friction surface of the friction ring 7 and the arc convex rib 81 is formed in the friction ring 7, Arc-shaped slot holes 71 into which the decorative ring edge 8 is inserted are provided coincidentally. In this way, the decorative ring rim 8 is fixedly attached to the friction ring 7.

4, the side cover 12 of the present embodiment is covered on the outer surface of the friction ring 7, a countersink 122 is formed in the center of the side cover 12, A circular hole 513 is provided in the center of the elongated block key 512 of the elongated block key 512 and a thin key-groove 514 shorter than the elongated block key 512 is recessed at the lower end of the elongated block key 512 / RTI > In this embodiment, a through hole is provided in the center of the mounting disc 42 and in the center of the lug 430 of the gear disk 43, respectively, and the connecting shaft passes through the through hole. In this embodiment, the end of the connecting shaft 2 is designed to be the elongated convex key 21 matched with the elongated key-groove 514 at the lower end of the circular ring 51, A screw hole 22 is provided. After the connecting shaft 2 passes through the through holes of the mounting disc 42 and the gear disc 43, the elongated convex key 21 at its end is inserted into the elongated key-groove 514 of the circular ring 51 A bolt passing through the countersink 122 of the side cover 12 and the circular hole 513 of the circular ring 51 outside the side cover 12 is inserted into the connecting shaft 2, And screwed into the screw hole 22 of the screw. Further, in this embodiment, a main bearing is disposed between the two rotating bodies 1 of the yo-yo ball, and the rope of the yo-yo ball is wound around the main bearing.

How to play yo-yo ball is as follows:

When the yo-yo ball is wrapped around the yo-yo ball with the rope, the side cover 12 is pinched on both sides of the yo-yo ball body, and the yo-yo ball is placed on the desk or the ground or other external contact surface, the friction ring 7 is brought into contact with the contact surface, . If it is easy to roll forward without too much resistance, it means that the rolling direction is not the energy accumulation direction for the friction kinetic energy accumulator (3). Since the gear disk 43 of the direction limiting device 4 is not restricted by the direction restricting block 41, there is no rolling resistance. That is, the gear disk 43 can rotate relative to the side cover 12. In other words, the gear disk 43, the energy accumulation spring 31 and the spring case 32 can rotate the disk body 11 synchronously with the rotation of the disk, and thus store the energy in the energy accumulation spring 31 I can not. Therefore, it can be judged that it is appropriate to roll in the opposite direction, that is, backward. In this case, the gear disk 43 is limited by the direction restricting block 41 and therefore can not rotate. Therefore, the inner end of the energy accumulating spring 31 is fixed, while the outer end of the energy accumulating spring 31 rotates along the disk body 11, and the energy accumulating spring 31 starts to store energy. If it can not be further rearward, it means that the energy accumulation to the energy accumulating spring 31 is full. In this case, the forcible ring 51 is subjected to a too large torsional force, and therefore, the convex tooth 511 is disengaged from the internal gearing 52 of the mounting disk 42. [ Therefore, the mounting disk 42 and the gear disk 43 rotate with respect to the disk body, thereby effectively preventing the energy accumulation spring 31 from being damaged due to excessive energy accumulation. After the energy accumulation is full, the frictional resistance of the friction ring 7 is released and the energy accumulation spring 31 is released in the opposite direction So that the disc body 11 is driven to rotate in the opposite direction. Likewise, when the gear disk 43 rotates in the opposite direction, it is not limited by the direction restriction block 41, and therefore the gear disk 43 and the disk body 11 rotate synchronously; Now when you release the yo-yo ball, the yoy ball falls along the rope, and finally rotates at the end of the rope at high speed, and a variety of cooler movements are also done.

The present invention has been described with reference to embodiments, but the description is not intended to limit the invention. Various other embodiments, with reference to the description of the invention, will be apparent to those skilled in the art, and these variations are within the defined claims.

Claims (10)

A yo-yo ball having a friction energy accumulating and accelerating function including two rotating bodies (1) and a connecting shaft (2) connecting the two rotating bodies (1)
One of the rotating bodies 1 has a disc body 11 and a side cover 12. The disc body 11 rotates relative to the side cover 12 and one of the disc bodies 1 Wherein one end of the friction energy storage device 3 is connected to the disk body 11 and the other end is connected to the side cover 12 and the two rotating bodies By pinching the side cover 12 of the friction energy storage device 3, the disk body 11 comes into contact with the outer contact surface and realizes an energy storage for the friction kinetic energy storage device 3 by friction rolling; After energy storage, the disc body 11 is out of contact with the outer contact surface, and the friction energy storage device 3 emits energy to drive the two disc bodies 11 to rotate synchronously Wherein the yaw ball has a friction energy accumulation and acceleration function. The method according to claim 1,
One of the disc bodies 11 is provided therein with a direction restricting device 4 disposed at a position where the side cover 12 is connected to the friction kinetic energy storage device 3 and one end of the direction restricting device 4 And the other end is connected to the friction energy storage device 3. The direction of rotation limited by the direction restriction device 4 is equal to the energy accumulation direction of the friction kinetic energy accumulator 3, The disk body 11 is brought into contact with the outer contact surface by the pinch of the side cover 12 of the rotating body 1 and the frictional kinetic energy accumulator 3). The yoyo balls having a friction energy accumulating and accelerating function. The method according to claim 1,
One of the disk bodies 11 is provided therein with an overload protection device 5 disposed at a position where the side cover 12 is connected to the friction energy storage device 3 and one end of the overload protection device 5 To the side cover (12), and the other end to a friction kinetic energy storage device (3); When the energy accumulation to the friction energy storage device 3 is overloaded by pinching the side cover 12, under the operation of the overload protection device, the side cover 12 is disengaged from the friction kinetic energy storage device 3 , Thereby stopping energy accumulation for the friction kinetic energy storage device (3) is realized. The method according to claim 1,
One of the disc bodies 11 is provided therein with a direction restricting device 4 and an overload protecting device 5 disposed at positions where the side cover 12 is connected to the friction kinetic energy storage device 3, One end of the device 4 is connected to the friction energy storage device 3 and the other end is connected to the overload protection device 5. The other end of the overload protection device 5 is connected to the side cover 12, The rotation direction limited by the device 4 is the same as the energy accumulation direction of the friction kinetic energy storage device 3 and the disk body 11 is pinched by the pinching of the side cover 12 of the two rotating bodies 1, To implement energy accumulation for said friction kinetic energy accumulator (3) by friction clouds in a limited rotational direction by means of a direction restricting device (4); Under the operation of the overload protection device 5, the side cover 12 is disengaged from the direction limiting device 4 when the energy accumulation for the friction energy storage device 3 is overloaded, Characterized in that an energy accumulation interruption to the device (3) is implemented. 5. The method of claim 4,
The direction limiting device 4 includes a plurality of direction limiting blocks 41, a mounting disc 42 on which all the direction limiting blocks 41 are mounted, and a gear disk 42 on which the internal helical gear teeth 431 are concavely provided The direction limiting block 41 is automatically rotatably connected to the lower end of the mounting disk 42 by the pin bolt 40 and protrudes above the mounting disk 42; The gear disk 43 is covered on the directional restricting blocks 41 and in this way the restricting latches of the directional restricting blocks 41 are fixed to the internal helical gear teeth 431 in one direction, To rotate in one direction; Characterized in that one end of the friction energy storage device (3) is connected to the gear disk (43) and the overload protection device (5) is connected to the mounting disk (42) . 6. The method of claim 5,
The overload protection device 5 has a circular ring 51 provided with convex teeth 511 convex on an arc surface and an internal gear ring 52 engaged with the convex gear 511, 52 are disposed on the upper surface of the mounting disk 42 and a round convex key 512 is provided in the center of the circular ring 51. The side cover 12 is provided with a truncated conical key 512, When the energy accumulation to the friction kinetic energy accumulator 3 is overloaded, the circular ring 51 is stressed and distorted so that the convex gear 511 is in contact with the inner gearing 52 Whereby the direction limiting device 4 and the friction kinetic energy storage device 3 are rotated with the disk body 11 and the frictional kinetic energy storage device 3 stops the energy accumulation Yoyo balls with kinetic energy accumulation and acceleration. The method according to any one of claims 2, 4, 5, and 6,
The friction energy storage device 3 is provided with an energy accumulation spring 31 and a spring case 32. The energy accumulation spring 31 is disposed in the spring case 32, The inner end of the energy accumulating spring 31 is fixedly connected to the direction limiting device 4 and the energy accumulating direction of the energy accumulating spring 31 is connected to the direction limiting device 4), and the spring case (32) is fixedly connected to the disk body (11). 8. The method of claim 7,
A through hole 320 is formed in the center of the spring case 32 and a lug 430 is provided under the gear disk 43 through the through hole 320 to enter the spring case 32, A plurality of arc-shaped pieces 432 are provided along the periphery of the lug 430 and a gap is maintained between the arc-shaped piece 432 and the lug 430, A hook 433 is provided at the lower end; After the lug 430 of the gear disk is inserted into the through hole 320 of the spring case 32, the hook 433 extends out of the through hole 320 and fastens the through hole to the side, Characterized in that the disk 43 is embodied to be connected to the spring case 32 and the inner end of the energy accumulating spring 31 is fixedly connected to the arc type piece 432 of the gear disk 43. [ And yoyo balls with acceleration. 9. The method of claim 8,
Characterized in that a bearing support (434) is provided in which the bearing (6) is mounted in the center of the gear disk (43) and the connecting shaft (2) is inserted and connected to the center hole of the bearing (6) Yoyo ball with acceleration function. The method according to claim 1,
The disk mouth edge of the disk body 11 is connected to a friction ring 7 fixed to the disk body 11 by a screw and the diameter of the friction ring 7 is larger than the disk mouse diameter of the disk body 11 Characterized in that a side cover (12) is covered on the outer surface of the friction ring (7) and the side cover (12) is connected to the connecting shaft (2) by bolts. Having a yo-yo ball.

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