CN218011013U - Spinning top toy - Google Patents

Abstract

The utility model relates to a gyro toy, which comprises a gyro accelerator and a gyro body movably connected with the gyro accelerator; the gyroscope accelerator comprises a shell, and a driving device, a clamping assembly and a pushing assembly which are arranged in the shell, wherein the driving device comprises a shell and an accelerating gear set, the accelerating gear set is rotatably arranged in the shell, a gravity block is slidably arranged on the shell, and the gravity block is in transmission connection with the accelerating gear set; the clamping assembly is in transmission connection with the accelerating gear set and is used for movably clamping the gyroscope body; the push-shooting assembly is used for pushing the gyro body; when the gravity block slides on the shell in a reciprocating mode through swinging, the gravity block drives the accelerating gear set to rotate, and then the clamping assembly is driven to rotate. The utility model discloses a top toy design benefit carries out a lot of drive through the mode of swaing with higher speed, and easy and simple to handle for the playing method of top is novel more interesting, convenient good and easy to play.

Description

Spinning top toy

Technical Field

The utility model relates to the technical field of toys, in particular to a top toy.

Background

As the toy is used as a tool for intelligence development and entertainment, with the continuous improvement of the living standard of people, the pursuit of users for the quality and the function of the toy is higher and higher. The ejection toy mainly based on the spinning top attracts a large group of fan users by means of the cartoon films and the unique playing method of the cartoon films.

However, current ejection toy adopts the mode that the rack accelerates to accelerate rotatory to the top usually, specifically passes drive gear through the rack earlier, then stimulates the rack and then drives drive gear and rotate, and rethread drive gear drives the top and rotates with higher speed. The gyro toy can only be accelerated once, and cannot be accelerated for the second time after the rack is pulled out, so that the gyro cannot obtain more rotation potential energy; in addition, through the accelerated drive mode of rack, the user must adopt both hands just can operate, so for the drive of top is more loaded down with trivial details with higher speed, wastes time and energy, has reduced the interest of top toy.

SUMMERY OF THE UTILITY MODEL

Based on this, the utility model aims to overcome the not enough of prior art, provide a top toy, its design benefit carries out a lot of drive through the mode of swaing with higher speed, and easy and simple to handle for the playing method of top is novel more interesting, convenient fun.

In order to realize the purpose, the utility model discloses a technical scheme be:

a gyro toy comprises a gyro accelerator and a gyro body movably connected with the gyro accelerator; the gyroscope accelerator comprises a shell, and a driving device, a clamping assembly and a pushing assembly which are arranged in the shell, wherein the driving device comprises a shell and an accelerating gear set, the accelerating gear set is rotatably arranged in the shell, a gravity block is slidably arranged on the shell, and the gravity block is in transmission connection with the accelerating gear set; the clamping assembly is in transmission connection with the accelerating gear set and is used for movably clamping the gyroscope body; the push-shooting assembly is used for pushing the gyro body; when the gravity block slides on the shell in a reciprocating mode through swinging, the gravity block drives the accelerating gear set to rotate, and then the clamping assembly is driven to rotate.

In one embodiment, the acceleration gear set is rotatably disposed inside the housing, a first opening is disposed on one side of the housing, and at least a portion of the acceleration gear set extends out of the first opening of the housing; and a first driving rack is arranged on one side of the gravity block and is in transmission connection with a part of the acceleration gear set extending out of the opening of the shell in a matching manner.

As an embodiment, the acceleration gear set includes a first driving gear, a first clutch gear and a driving gear, the housing is provided with a first arc-shaped chute, the first driving gear and the driving gear are respectively rotatably disposed in the housing, and the first driving gear is engaged with the first clutch gear; the first clutch gear is slidably arranged in the first arc-shaped sliding groove, and is meshed with the driving gear when sliding to one end of the first arc-shaped sliding groove, and is not contacted with the driving gear when sliding to other positions of the first arc-shaped sliding groove; at least one part of the first driving gear extends out of the first opening of the shell, and the part of the first driving gear extending out of the first opening is in transmission connection with the first driving rack of the gravity block in a matching manner.

As an embodiment, a second opening is formed in the other side of the housing, a second driving rack is formed in the other side of the gravity block, the accelerating gear set further comprises a second driving gear and a second clutch gear, the housing is provided with a second arc-shaped chute, the second clutch gear is slidably disposed in the second arc-shaped chute, and the second clutch gear is engaged with the second driving gear; when the second clutch gear slides to one end of the second arc-shaped sliding groove, the second clutch gear is meshed with the driving gear, and when the second clutch gear slides to other positions of the second arc-shaped sliding groove, the second clutch gear is not in contact with the driving gear.

As an embodiment, at least a portion of the second driving gear extends out of the second opening of the housing, and a portion of the second driving gear extending out of the second opening is in transmission connection with the second driving rack of the gravity block; the second driving gear, the second clutch gear and the second arc-shaped sliding groove are symmetrically arranged relative to the driving gear respectively.

As an embodiment, two sides of the housing are respectively provided with a guide sliding rod in parallel, and two sides of the gravity block are respectively sleeved on the guide sliding rods on two sides of the housing in a sliding manner.

As an embodiment, the clamping assembly includes a magnetic attraction sleeve, and the magnetic attraction sleeve is in transmission connection with the acceleration gear set; the sleeve is inhaled to magnetism is lower extreme open-ended tubular structure, and inhales telescopic inner wall top and be provided with magnetism and inhale the unit, the top of top body is provided with the magnet unit, and the top body through the magnet unit at its top with it inhales telescopic magnetism and inhales the unit and adsorbs the connection.

As an implementation manner, the clamping assembly further includes a transmission gear box and a driven gear rotatably disposed in the transmission gear box, the transmission gear box is fixed below an acceleration gear set of the driving device, the driven gear is in transmission connection with the acceleration gear set, and the driven gear is coaxially and fixedly connected with the magnetic attraction sleeve.

In one embodiment, one or more transmission gears are arranged between the driven gear and the accelerating gear set, and the driven gear, the one or more transmission gears and the accelerating gear set are in transmission connection in sequence.

As an implementation mode, the shell is a cavity structure with an upper opening and a lower opening, the ejection component comprises an ejection rod and a return spring, the upper end of the ejection rod is located at the upper opening of the shell, the middle of the ejection rod is connected with the inner wall of the shell through the return spring, and the lower end of the ejection rod is located on the periphery side of the magnetic attraction sleeve.

Therefore, the utility model discloses a top toy, drive arrangement adopts the mode of back and forth swing to shake the gravity piece, and then makes the gravity piece incessantly rotate with higher speed to the acceleration gear train, specifically drives acceleration gear train with higher speed respectively through the drive rack of gravity piece one side or both sides, and one or two clutch gear in the acceleration gear train have guaranteed the unidirectional rotation of drive gear, and then have avoided leading to the two-way rotation of drive gear because of the back and forth swing of gravity piece, thus make the operation of drive gear keep unidirectional rotation all the time; and then drive the centre gripping subassembly through drive arrangement and rotate, the centre gripping subassembly can drive the top body simultaneously and rotate the energy storage to launch away through the top that the subassembly will rotate after the energy storage, make the utility model discloses a top toy is easy and simple to handle, and the drive system is novel interesting, has expanded drive arrangement's functional and interesting, has higher market spreading value.

For a better understanding and practice, the invention is described in detail below with reference to the accompanying drawings.

Drawings

FIG. 1 is a schematic view of the internal structure of the top toy of the present invention;

FIG. 2 is a schematic view of another internal structure of the top toy of the present invention;

FIG. 3 is a schematic view of the external structure of the top toy of the present invention;

FIG. 4 is a schematic view of a top accelerator of the top toy of the present invention;

FIG. 5 is a schematic view of the structure of the launching assembly of the top toy of the present invention;

FIG. 6 is a schematic view of the connection between the driving device and the spinning top body of the spinning top toy of the present invention;

FIG. 7 is a schematic structural view of a driving device of the top toy of the present invention;

FIG. 8 is another schematic structural view of the driving device of the top toy of the present invention;

FIG. 9 is an exploded view of the driving device of the top toy of the present invention;

FIG. 10 is a schematic structural view of a housing of a driving device of a top toy according to the present invention;

FIG. 11 is a schematic view showing the structure of an acceleration gear set of the driving device of the top toy of the present invention;

FIG. 12 is a bottom view of the clamping assembly of the toy top of the present invention;

FIG. 13 is a schematic view of the internal structure of the clamping assembly of the toy top of the present invention;

FIG. 14 is a schematic structural view of a top body of the top toy of the present invention;

FIG. 15 is an exploded view of the top body of the top toy of the present invention;

fig. 16 is a schematic view of the connection between the driving device and the top body according to embodiment 3 of the present invention.

Detailed Description

To further illustrate the embodiments, the present invention provides the accompanying drawings. The accompanying drawings, which are incorporated in and constitute a part of this disclosure, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the embodiments. With these references, one of ordinary skill in the art will appreciate other possible implementations and advantages of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "left", "right", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description and to simplify the description, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be considered limiting of the present invention.

Example 1

Referring to fig. 1 to 15, fig. 1 is a schematic view of an internal structure of a top toy of the present invention; FIG. 2 is another schematic view of the internal structure of the top toy of the present invention; FIG. 3 is a schematic view of the external structure of the top toy of the present invention; FIG. 4 is a schematic view of a top accelerator of the top toy of the present invention; FIG. 5 is a schematic structural view of a launching assembly of the top toy of the present invention; FIG. 6 is a schematic view of the connection between the driving device and the spinning top body of the spinning top toy of the present invention; FIG. 7 is a schematic view of the driving device of the top toy of the present invention; FIG. 8 is another schematic structural view of the driving device of the top toy of the present invention; FIG. 9 is an exploded view of the driving device of the top toy of the present invention; FIG. 10 is a schematic structural view of a housing of a driving device of a top toy according to the present invention; FIG. 11 is a schematic structural view of an accelerating gear set of the driving device of the top toy of the present invention; FIG. 12 is a bottom view of the clamping assembly of the toy top of the present invention; FIG. 13 is a schematic view of the internal structure of the clamping assembly of the toy top of the present invention; FIG. 14 is a schematic view of a top body of the top toy of the present invention; fig. 15 is an exploded view of the top body of the top toy of the present invention.

The embodiment provides a spinning top toy, which comprises a spinning top accelerator 100 and a spinning top body 200 movably connected with the spinning top accelerator 100; the gyro accelerator 100 comprises a shell 10, and a driving device 20, a clamping assembly 30 and a pushing assembly 40 which are arranged in the shell 10, wherein the driving device 20 comprises a shell 21 and an acceleration gear set 22, the acceleration gear set 22 is rotatably arranged in the shell 21, a gravity block 23 is slidably arranged on the shell 21, and the gravity block 23 is in transmission connection with the acceleration gear set 22; the clamping assembly 30 is in transmission connection with the accelerating gear set 22, and the clamping assembly 30 is used for movably clamping the spinning top body 200; the push-shooting assembly 40 is used for pushing the gyro body 200; when the gravity block 23 slides back and forth on the housing 21 by swinging, the gravity block 23 drives the acceleration gear set 22 to rotate, thereby driving the clamping assembly 30 to rotate.

Specifically, the acceleration gear set 22 is rotatably disposed inside the housing 21, a first opening is disposed on one side of the housing 21, and at least a portion of the acceleration gear set 22 protrudes out of the first opening of the housing 21; a first driving rack 231 is arranged on one side of the gravity block 23, and the first driving rack 231 is in transmission connection with a part of the acceleration gear set 22 extending out of the opening of the housing 21 in a matching manner.

In order to ensure that the output end of the acceleration gear set 22 can rotate in one direction when the gravity block 23 slides back and forth on the housing 21, the acceleration gear set 22 of this embodiment includes a first driving gear 24, a first clutch gear 25 and a driving gear 26, the housing 21 is provided with a first arc-shaped sliding slot 211, the first driving gear 24 and the driving gear 26 are respectively and rotatably disposed in the housing 21, and the first driving gear 24 is engaged with the first clutch gear 25; the first clutch gear 25 is slidably disposed in the first arc-shaped sliding slot 211, when the first clutch gear 25 slides to one end of the first arc-shaped sliding slot 211, the first clutch gear 25 is engaged with the driving gear 26, and when the first clutch gear 25 slides to other positions of the first arc-shaped sliding slot 211, the first clutch gear 25 is not in contact with the driving gear 26.

Further, at least a portion of the first driving gear 24 extends out of the first opening of the housing 21, and a portion of the first driving gear 24 extending out of the first opening is in transmission connection with the first driving rack 231 of the gravity block 23. In order to enable the gravity block 23 to better drive the first driving gear 24 during the reciprocating sliding, the first opening of the present embodiment is disposed in the middle of one side of the housing 21, and the length of the first driving rack 231 of the present embodiment is slightly longer than half of the length of one side of the housing 21, so that when the gravity block 23 reciprocates, since the first opening is located in the middle of one side of the housing 21 and the length of the first driving rack 231 is just longer than half of the length of one side of the housing 21, the first driving rack 231 is always engaged with the first driving gear 24, and the stroke of the first driving rack 231 that can drive the first driving gear 24 to rotate during the reciprocating sliding is half of the length of one side of the housing 21, so that the gravity block 23 can better drive the first driving gear 24.

It should be noted that the first opening of the present embodiment is not limited to be opened in the middle of one side of the housing 21, and may also be opened in other positions on one side of the housing 21, and accordingly, the length of the first driving rack 231 of the present embodiment is not limited to the above length, and driving racks with other lengths may also be selected.

Thus, the accelerating gear set 22 of the present embodiment is provided with the first slidable clutch gear 25, and the housing 21 is provided with the first arc-shaped sliding slot 211 matched with the first clutch gear 25, so that the rotating shaft of the first clutch gear 25 can slide in the first arc-shaped sliding slot 211. In addition, the first driving gear 24 and the first clutch gear 25 of the present embodiment are always engaged, so that when the gravity block 23 slides along the left direction, the first driving rack 231 drives the first driving gear 24 to rotate clockwise, and at the same time, the first driving gear 24 drives the first clutch gear 25 to rotate counterclockwise, at this time, the first clutch gear 25 slides to one end of the first arc-shaped chute 211 close to the driving gear 26 under the pushing action of the first driving gear 24 and is engaged with the driving gear 26, and at the same time, the first clutch gear 25 and the driving gear 26 are always engaged due to the pushing action of the first driving gear 24. That is, when the weight block 23 slides to the left, the first driving rack 231 rotates the first pinion gear 24, the first clutch gear 25, and the driving gear 26 in turn.

When the gravity block 23 slides along the right direction, the first driving rack 231 drives the first driving gear 24 to rotate counterclockwise, and at the same time, the first driving gear 24 drives the first clutch gear 25 to rotate clockwise, at this time, the first clutch gear 25 slides to the end of the first arc-shaped sliding groove 211 away from the driving gear 26 under the pushing action of the first driving gear 24, and is not in contact with the driving gear 26, and the first clutch gear 25 is separated from the driving gear 26 all the time due to the pushing action of the first driving gear 24. That is, when the weight block 23 slides to the right, the first driving rack 231 drives the first driving gear 24 and the first clutch gear 25, and the driving gear 26 keeps rotating in the original direction because it is separated from the first clutch gear 25.

Therefore, in this embodiment, the position of the first arc-shaped sliding chute 211 is skillfully arranged, and when the first clutch gear 25 moves to one end of the first arc-shaped sliding chute 211, the first clutch gear 25 is engaged with the driving gear 26, and when the first clutch gear 25 slides to other positions of the first arc-shaped sliding chute 211, the first clutch gear 25 is not in contact with the driving gear 26, so that the gravity block 23 always keeps the rotation direction of the driving gear 26 unchanged during the reciprocating sliding.

In addition, in the speed-up gear set 22 of the present embodiment, one or more first driven gears 241 may be connected between the first driving gear 24 and the first clutch gear 25 in a transmission manner.

Optionally, two ends of one side of the housing 21 having the first opening are respectively provided with a first protruding block 214, a guide sliding rod 213 is disposed between the two first protruding blocks 214, and the gravity block 23 is slidably sleeved on the guide sliding rod 213 of the housing 21. In this embodiment, a first guide seat 234 is disposed between the first driving rack 231 of the gravity block 23 and the gravity block 23, and a first guide hole is disposed on the first guide seat 234 and slidably sleeved in the guide sliding rod 213.

Therefore, the housing 21 of the embodiment can serve as a mounting structure of the guide sliding rod 213 and also as a limiting structure of the first driving rack 231 by providing the two first protruding blocks 214, so that the first driving rack 231 can be effectively prevented from sliding out of the guide sliding rod 213, and the reciprocating sliding of the gravity block 23 is safe and effective.

In order to make the gravity block 23 slide more smoothly, in this embodiment, one or more sliding wheels 233 are disposed at the bottom of the gravity block 23, and the gravity block 23 is slidably disposed on the upper surface of the housing 21 through the one or more sliding wheels 233, so that surface-to-surface contact friction is avoided between the gravity block 23 and the housing 21, and the gravity block 23 slides more smoothly relative to the housing 21.

In order to further ensure the smooth and stable sliding of the gravity block 23, the other side of the housing 21 of the present embodiment is also provided with the guide sliding rod 213, and the guide sliding rods 213 on the two sides of the housing 21 are arranged in parallel; correspondingly, the two ends of the other side of the housing 21 are respectively provided with a second projection 215, the guide sliding rod 213 is arranged between the two second projections 215, the bottom of the other side of the gravity block 23 is provided with a second guide seat 235, and the second guide seat 235 is provided with a second guide hole, so that the two sides of the gravity block 23 are slidably sleeved on the guide sliding rods 213 at the two sides of the housing 21 through the first guide hole and the second guide hole respectively. The combination of one or more sliding wheels 233 on the bottom of the weight block 23 makes the weight block 23 slide more stably and smoothly relative to the housing 21, which also facilitates the meshing driving between the first driving rack 231 of the weight block 23 and the acceleration gear set 22.

In this embodiment, the gyro accelerator 100 includes a housing 10 with an upper opening and a lower opening, the casing 21 of the driving device 20 is fixed inside the housing 10, the clamping assembly 30 includes a transmission gear box 31 and a magnetic sleeve 32, the transmission gear box 31 is fixed below the casing 21 of the driving device 20, a through hole is formed at the bottom of the casing 21, a driven gear 33 is rotatably disposed in the transmission gear box 31, and the driven gear 33 is engaged with the driving gear 26 of the driving device 20; the magnetic sleeve 32 is arranged below the transmission gear box 31, and the magnetic sleeve 32 is coaxially and fixedly connected with the driven gear 33. Thus, the magnetic sleeve 32 of the present embodiment is used for attracting and holding the top body 200.

Further, in this embodiment, sleeve 32 is inhaled to magnetism is the tubular structure of lower extreme open-ended, and the inner wall top of inhaling sleeve 32 is provided with magnetism and inhales unit 34, in addition, upwards the protrusion sets up magnetism in the middle of the top body 200 of this embodiment and inhales projection 50, the inside of inhaling projection 50 is provided with magnet unit 51, so, inhale magnetism in the sleeve 32 and inhale unit 34 can be used to adsorb top have magnet unit 51's top body 200 and adsorb this top body 200 fixedly through magnetism. From this, the gyro accelerator 100 of this embodiment can drive the driven gear 33 through the drive gear 26 of drive arrangement 20 and rotate, drives the magnetism simultaneously and inhales sleeve 32 and rotate, and then drives its gyro body 200 that adsorbs the centre gripping through magnetism and inhale sleeve 32 and rotate the energy storage.

In order to guarantee the connection stability between top body 200 and the magnetism sleeve 32 of inhaling, in this embodiment, top body 200's magnetism is inhaled projection 50 and is polygonal cylinder structure, correspondingly, the inside of magnetism sleeve 32 is polygonal cavity structures, so, when magnetism sleeve 32 and top body 200 adsorb and be connected, can effectively prevent both at the pivoted in-process mutual displacement that takes place through polygonal cylinder structural design.

In addition, the ejection assembly 40 of the present embodiment includes an ejection rod 41 and a return spring 42, the upper end of the ejection rod 41 is located at the upper end opening of the housing 10, the middle part of the ejection rod 41 is connected to the inner wall of the housing 10 through the return spring 42, and the lower end of the ejection rod 41 is located at the outer peripheral side of the magnetic sleeve 32, so that the ejection rod 41 moves downward and compresses the return spring 42 by pressing the upper end of the ejection rod 41 downward, and simultaneously the lower end of the ejection rod 41 moves downward rapidly and can eject the spinning top in the magnetic sleeve 32 out of the lower end opening of the housing 10; after the upper end of the injection rod 41 is released, the injection rod 41 is rapidly moved up and restored by the restoring spring 42.

Further, in order to reduce the friction force generated when the ejecting rod 41 ejects the top body 200, in this embodiment, the bottom of the ejecting rod 41 is provided with the arc-shaped pushing ring 43, the arc-shaped pushing ring 43 is located on the outer peripheral side of the magnetic sleeve 32, and the bottom of the arc-shaped pushing ring 43 is respectively provided with the plurality of pulleys 44 at intervals, so that when the arc-shaped pushing ring 43 of the ejecting rod 41 is about to touch the top body 200 that tells the rotation, the plurality of pulleys 44 at the bottom of the arc-shaped pushing ring 43 can firstly contact the top body 200 and drive the plurality of pulleys 44 to rotate under the high-speed rotation of the top body 200, so that the friction force generated when the ejecting rod 41 ejects the top body 200 can be greatly reduced, and the rotation potential energy of the top body 200 is further preserved.

In this embodiment, the driving device 20 continuously swings left and right by holding the shell 10 of the gyro accelerator 100 with a hand of a user, and then under the action of inertia, the gravity block 23 continuously slides left and right with the shell 10 to perform reciprocating motion, and simultaneously drives the acceleration gear set 22 to rotate, so that the driving gear 26 of the acceleration gear set 22 drives the driven gear 33 to rotate, and finally drives the gyro body 200 in the magnetic sleeve 32 to rotate for energy storage, and the gyro body 200 after energy storage can be ejected through the ejection rod 41.

Furthermore, this embodiment is through setting up the magnetism connected mode between magnetic sleeve 32 and the top body 200 for top body 200 after pushing away the shooting can retrieve fast and continue to accelerate the energy storage, only need to inhale magnetic sleeve 32's opening and aim at the magnetic projection 50 of top body 200 in the rotation roughly can adsorb top body 200 again and the centre gripping in magnetic sleeve 32 under both magnetic effects fast during specific operation, and rotate top body 200 with higher speed again through wave shell 10 about once more, thereby make the utility model discloses a top toy has recreational and playability more.

Optionally, in the present embodiment, one or more third driven gears 35 may be disposed between the driven gear 33 and the driving gear 26. In order to clearly distinguish the swinging direction of the gravity block 23, the housing 10 of the present embodiment is provided with two recesses 11 at two sides thereof, and the connecting line of the two recesses 11 is parallel to the sliding direction of the gravity block 23, so that the user can distinguish the swinging direction of the gravity block 23 by holding the two recesses 11.

From this, the top toy of this embodiment, its drive arrangement 20 adopts the mode of back and forth swing to wave gravity piece 23, and then make gravity piece 23 incessantly carry out acceleration rotation to acceleration gear group 22, it is specifically driven acceleration gear group 22 through the first drive rack 231 of gravity piece 23 one side, and first clutch gear 25 among the acceleration gear group 22 has then guaranteed drive gear 26's unidirectional rotation, and then avoided leading to drive gear 26's bidirectional rotation because gravity piece 23's back and forth swing, thereby make drive gear 26's operation keep unidirectional rotation always, and drive driven gear 33 and magnetism sleeve 32 synchronous rotation, and then carry out the energy storage with higher speed to the top body 200 of adsorbing in the magnetism sleeve 32, top body 200 after the energy storage pushes away from the lower extreme opening of shell 10 through push rod 41 at last. Therefore, the utility model discloses a top toy is easy and simple to handle, and the driving method is novel interesting, has expanded drive arrangement 20's functionality and interest, has higher market spreading value.

Example 2

Referring to fig. 1 to fig. 15, the present embodiment is substantially the same as embodiment 1, except that: the other side of the housing 21 of this embodiment is provided with a second opening, the other side of the gravity block 23 is provided with a second driving rack 232, the accelerating gear set 22 further includes a second driving gear 27 and a second clutch gear 28, the housing 21 is provided with a second arc-shaped chute 212, the second clutch gear 28 is slidably disposed in the second arc-shaped chute 212, and the second clutch gear 28 is engaged with the second driving gear 27; when the second clutch gear 28 slides to one end of the second arc-shaped chute 212, the second clutch gear 28 is engaged with the driving gear 26, and when the second clutch gear 28 slides to other positions of the second arc-shaped chute 212, the second clutch gear 28 and the driving gear 26 are not in contact with each other.

In this embodiment, at least a portion of the second driving gear 27 extends out of the second opening of the housing 21, and a portion of the second driving gear 27 extending out of the second opening is in transmission connection with the second driving rack 232 of the gravity block 23; the second driving gear 27, the second clutch gear 28 and the second arc-shaped sliding groove 212 are respectively and symmetrically arranged with respect to the first driving gear 24, the first clutch gear 25 and the first arc-shaped sliding groove 211 relative to the driving gear 26.

That is, compared with embodiment 1, the housing 21 of the present embodiment is provided with a second opening and a second arc-shaped sliding chute 212, the second opening is arranged in the middle of the other side of the housing 21, and the second arc-shaped sliding chute 212 and the first arc-shaped sliding chute 211 are symmetrically arranged relative to the driving gear 26; the accelerating gear set 22 of the present embodiment is provided with a plurality of second driving gears 27 and second clutch gears 28, and the positions of the second driving gears 27 and the second clutch gears 28 are also symmetrically arranged with respect to the driving gears 26 as the first driving gears 24 and the first clutch gears 25 in embodiment 1; correspondingly, the other side of the gravity block 23 is provided with a second driving rack 232, the second guide seat 235 is arranged between the second driving rack 232 and the gravity block 23, and the second driving rack 232 and the first driving rack 231 are symmetrically arranged relative to the housing 21.

Therefore, when the gravity block 23 of the present embodiment slides along the left direction, the first driving rack 231 drives the first driving gear 24 to rotate clockwise, and simultaneously the first driving gear 24 drives the first clutch gear 25 to rotate counterclockwise, at this time, the first clutch gear 25 slides to one end of the first arc-shaped chute 211 close to the driving gear 26 under the pushing action of the first driving gear 24 and is engaged with the driving gear 26, and simultaneously, the first clutch gear 25 and the driving gear 26 are engaged with each other all the time due to the pushing action of the first driving gear 24. The second driving rack 232 drives the second driving gear 27 to rotate counterclockwise, and at the same time, the second driving gear 27 drives the second clutch gear 28 to rotate clockwise, at this time, the second clutch gear 28 slides to the end of the second arc-shaped chute 212 far away from the driving gear 26 under the pushing action of the second driving gear 27 and is not in contact with the driving gear 26, and the second clutch gear 28 is always separated from the driving gear 26 due to the pushing action of the second driving gear 27.

That is, when the weight block 23 slides the first driving rack 231 and the second driving rack 232 to the left, the first driving rack 231 rotates the driving gear 26, and the second clutch gear 28 idles so that the second driving rack 232 does not rotate the driving gear 26 because the second clutch gear 28 is not in contact with the driving gear 26.

When the gravity block 23 slides along the right direction, the first driving rack 231 drives the first driving gear 24 to rotate counterclockwise, and at the same time, the first driving gear 24 drives the first clutch gear 25 to rotate clockwise, at this time, the first clutch gear 25 slides to the end of the first arc-shaped sliding groove 211 away from the driving gear 26 under the pushing action of the first driving gear 24, and is not in contact with the driving gear 26, and the first clutch gear 25 is separated from the driving gear 26 all the time due to the pushing action of the first driving gear 24. The second driving rack 232 drives the second driving gear 27 to rotate clockwise, meanwhile, the second driving gear 27 drives the second clutch gear 28 to rotate counterclockwise, at this time, the second clutch gear 28 slides to one end, close to the driving gear 26, of the second arc-shaped chute 212 under the pushing action of the second driving gear 27 and is meshed with the driving gear 26, and the second clutch gear 28 is always meshed with the driving gear 26 under the pushing action of the second driving gear 27, so that the second driving rack 232 can sequentially drive the second driving gear 27, the second clutch gear 28 and the driving gear 26 to rotate.

That is, when the weight block 23 slides the first driving rack 231 and the second driving rack 232 to the right, the first driving rack 231 rotates the first driving gear 24 and the first clutch gear 25 to idle due to the separation between the first clutch gear 25 and the driving gear 26. And the second driving rack 232 drives the second driving gear 27, the second clutch gear 28 and the driving gear 26 to rotate in sequence, and the driving gear 26 keeps rotating in the original direction. And, under the driving of the second driving rack 232, the second driving gear 27 continuously drives the driving gear 26 to rotate through the second clutch gear 28, so that the gravity block 23 always performs unidirectional driving energy storage on the driving gear 26 in the process of reciprocating sliding.

Therefore, in the present embodiment, the first driving gear 24, the first clutch gear 25, the first arc-shaped chute 211, the second driving gear 27, the second clutch gear 28, and the second arc-shaped chute 212 are respectively symmetrically disposed with respect to the driving gear 26, and the first driving rack 231 and the second driving rack 232 of the gravity block 23 are respectively symmetrically disposed with respect to the housing 21, so that the driving gear 26 always keeps the rotation direction when the gravity block 23 performs the reciprocating sliding.

Further, one or more second driven gears 271 can be connected between the second driving gear 27 and the second clutch gear 28 in a transmission manner. In order to better connect the driven gears 33 of the transmission gear box 31, the driving gear 26 of the present embodiment may also be in transmission connection with one or more output gears 29.

From this, the top toy of this embodiment, its drive arrangement 20 adopts the mode of reciprocating motion to wave gravity piece 23, and then make gravity piece 23 incessantly carry out acceleration rotation to acceleration gear set 22, it is specifically accelerated to drive acceleration gear set 22 through the drive rack structure of gravity piece 23 both sides respectively, and two clutch gear in the acceleration gear set 22 have then guaranteed drive gear 26's unidirectional rotation, and then avoided leading to drive gear 26's bidirectional rotation because gravity piece 23's reciprocating motion, thereby make drive gear 26's operation keep unidirectional rotation always, and drive driven gear 33 and magnetism sleeve 32 synchronous revolution, and then carry out the energy storage with higher speed to the top body 200 that adsorbs in the magnetism sleeve 32, top body 200 after will storing energy is ejected from the lower extreme opening of shell 10 through ejection pole 41 at last. Therefore, the utility model discloses a top toy is easy and simple to handle, and the driving method is novel interesting, has expanded drive arrangement 20's functionality and interest, has higher market spreading value.

Example 3

Referring to fig. 16, fig. 16 is a schematic view of a connection between a driving device and a top body according to embodiment 3 of the present invention. This example is substantially the same as example 1 or example 2, except that: the bottom of the sleeve 322 is inhaled to magnetism of this embodiment is provided with the magnetic unit 342 of annular cockscomb structure, the upper surface of the top body 300 of this embodiment is provided with the magnetic unit 60 of annular cockscomb structure, so, the magnetic unit 60 magnetic adsorption of the top body 300 of this embodiment accessible top is on the magnetic unit 342 of the sleeve 322 is inhaled to magnetism, and inhale the interlock of each other of unit 342 through magnetic unit 60 and magnetism, make the magnetic sleeve 322 of this embodiment and top body 300 more firm relatively in synchronous pivoted in-process, difficult emergence displacement.

The above examples are merely illustrative of several embodiments of the present invention, and the description thereof is specific and detailed, but not intended to be construed as limiting the scope of the spinning top toy. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention.

Claims (10)

1. A top toy, which is characterized in that:

the gyroscope comprises a gyroscope accelerator and a gyroscope body movably connected with the gyroscope accelerator; the gyroscope accelerator comprises a shell, and a driving device, a clamping assembly and a pushing assembly which are arranged in the shell, wherein the driving device comprises a shell and an accelerating gear set, the accelerating gear set is rotatably arranged in the shell, a gravity block is slidably arranged on the shell, and the gravity block is in transmission connection with the accelerating gear set; the clamping assembly is in transmission connection with the accelerating gear set and is used for movably clamping the gyroscope body; the push-shooting assembly is used for pushing the gyro body;

when the gravity block slides on the shell in a reciprocating manner by swinging, the gravity block drives the accelerating gear set to rotate, and then the clamping assembly is driven to rotate.

2. The spinning top toy of claim 1, wherein:

the accelerating gear set is rotatably arranged in the shell, a first opening is formed in one side of the shell, and at least one part of the accelerating gear set extends out of the first opening of the shell; and a first driving rack is arranged on one side of the gravity block and is in transmission connection with a part of the acceleration gear set extending out of the opening of the shell in a matching manner.

3. The spinning top toy of claim 2, wherein:

the acceleration gear set comprises a first driving gear, a first clutch gear and a driving gear, the shell is provided with a first arc-shaped sliding groove, the first driving gear and the driving gear are respectively and rotatably arranged in the shell, and the first driving gear is meshed with the first clutch gear; the first clutch gear is slidably arranged in the first arc-shaped sliding groove, and is meshed with the driving gear when sliding to one end of the first arc-shaped sliding groove, and is not contacted with the driving gear when sliding to other positions of the first arc-shaped sliding groove; at least one part of the first driving gear extends out of the first opening of the shell, and the part of the first driving gear extending out of the first opening is in transmission connection with the first driving rack of the gravity block in a matching mode.

4. The spinning top toy of claim 3, wherein:

the other side of the shell is provided with a second opening, the other side of the gravity block is provided with a second driving rack, the accelerating gear set further comprises a second driving gear and a second clutch gear, the shell is provided with a second arc-shaped sliding groove, the second clutch gear is slidably arranged in the second arc-shaped sliding groove, and the second clutch gear is meshed with the second driving gear; when the second clutch gear slides to one end of the second arc-shaped sliding groove, the second clutch gear is meshed with the driving gear, and when the second clutch gear slides to other positions of the second arc-shaped sliding groove, the second clutch gear is not in contact with the driving gear.

5. The spinning top toy of claim 4, wherein:

at least one part of the second driving gear extends out of the second opening of the shell, and the part of the second driving gear extending out of the second opening is in matched transmission connection with the second driving rack of the gravity block; the second driving gear, the second clutch gear and the second arc-shaped sliding groove are respectively and symmetrically arranged relative to the first driving gear, the first clutch gear and the first arc-shaped sliding groove.

6. The spinning top toy of claim 1, wherein:

the two sides of the shell are respectively provided with a guide sliding rod in parallel, and the two sides of the gravity block are respectively sleeved on the guide sliding rods on the two sides of the shell in a sliding manner.

7. The spinning top toy of claim 1, wherein:

the clamping assembly comprises a magnetic suction sleeve, and the magnetic suction sleeve is in transmission connection with the accelerating gear set; the magnetic attraction sleeve is of a cylindrical structure with an open lower end, the top of the inner wall of the magnetic attraction sleeve is provided with a magnetic attraction unit, the top of the gyroscope body is provided with a magnet unit, and the gyroscope body is connected with the magnetic attraction unit of the magnetic attraction sleeve in an adsorption mode through the magnet unit at the top of the gyroscope body.

8. The spinning top toy of claim 7, wherein:

the clamping assembly further comprises a transmission gear box and a driven gear which is rotatably arranged in the transmission gear box, the transmission gear box is fixed below an accelerating gear set of the driving device, the driven gear is in transmission connection with the accelerating gear set, and the driven gear is coaxially and fixedly connected with the magnetic attraction sleeve.

9. The spinning top toy of claim 8, wherein:

one or more transmission gears are arranged between the driven gear and the accelerating gear set, and the driven gear, the one or more transmission gears and the accelerating gear set are sequentially in transmission connection.

10. The spinning top toy of claim 7, wherein:

the shell is upper and lower open-ended cavity structures, it penetrates subassembly including pushing away penetrates pole and reset spring to push away, the upper end that pushes away the pole is located the upper end opening of shell, the middle part that pushes away penetrates the pole passes through reset spring and the interior wall connection of shell, the lower extreme that pushes away penetrates the pole is located the telescopic periphery side is inhaled to magnetism.

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