CN219963918U - Hand-operated gyro toy - Google Patents

Abstract

The utility model relates to a hand-operated gyro toy, which comprises a shell, wherein the shell is of a cylindrical structure with one end open, and a hand-operated device, a clamping device and a pushing device are arranged in the shell; the hand shaking device is in driving connection with the clamping device, and one end of the hand shaking device extends out of the shell; the clamping device is rotatably arranged in the shell and is used for movably clamping the top; the pushing device is telescopically arranged in the shell, and is used for pushing the top out of one end of the opening of the shell. The hand-operated gyro toy disclosed by the utility model is novel in design, can continuously rotate and accelerate the gyro in a hand-operated driving mode, is novel and interesting in playing method, and greatly improves the interestingness and entertainment of the toy.

Description

Hand-operated gyro toy

Technical Field

The utility model relates to the technical field of toys, in particular to a hand-operated gyroscopic toy.

Background

As a toy for intellectual development and amusement, the quality and function of the toy are increasingly pursued by users as the living standard of people is continuously improved. Wherein, the gyroscopic toy attracts a large group of fan users by virtue of the unique playing method.

At present, the existing gyroscopic toy generally adopts a rack acceleration mode to accelerate and rotate a gyroscopic, specifically, the accelerating rack penetrates through a driving gear, then the rack is pulled to drive the driving gear to rotate, the driving gear drives the gyroscopic to rotate and accelerate, and then the gyroscopic after rotating energy storage is ejected. However, such a launching toy which drives the top to rotate and accelerate through the accelerating rack, because of the travel limit of the accelerating rack, the acceleration obtained by the top is smaller, and the rotating time of the ejected top is shorter, so that the interest and entertainment of the launching toy are not strong.

Disclosure of Invention

Based on the above, the utility model aims to overcome the defects of the prior art, and provides a hand-operated gyro toy which is novel in design, can continuously rotate and accelerate a gyro in a hand-operated driving mode, is novel and interesting in playing method, and greatly improves the interestingness and entertainment of the toy.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

the hand-operated gyroscopic toy comprises a shell, wherein the shell is of a cylindrical structure with one end open, and a hand-operated device, a clamping device and a pushing and shooting device are arranged in the shell; the hand shaking device is in driving connection with the clamping device, and one end of the hand shaking device extends out of the shell; the clamping device is rotatably arranged in the shell and is used for movably clamping the top; the pushing device is telescopically arranged in the shell, and is used for pushing the top out of one end of the opening of the shell.

As an implementation mode, the hand shaking device comprises a hand shaking rod, the shell is provided with a hand shaking bearing, one end of the hand shaking rod is in driving connection with the clamping device, the other end of the hand shaking rod penetrates through the hand shaking bearing and stretches out of the shell, and the part of the hand shaking rod is rotatably arranged in the hand shaking bearing.

As an implementation mode, the hand crank comprises a driving connecting rod and a hand crank connecting rod, one end of the driving connecting rod is in driving connection with the clamping device, the other end of the driving connecting rod penetrates through the hand crank bearing and stretches out of the shell, and one end of the hand crank connecting rod is fixedly connected with the driving connecting rod.

As one embodiment, a clamping bearing is arranged in the shell, and the clamping device is rotatably arranged on the clamping bearing; one end of the hand rocker is in driving connection with the clamping device.

As an implementation mode, the hand shaking device comprises a driving gear, the driving gear is coaxially and rigidly connected with the hand shaking rod, the clamping device is coaxially connected with a driven gear, and the driving gear is in driving connection with the driven gear.

As an embodiment, one or more transmission gears are in transmission connection between the driving gear and the driven gear.

As one implementation mode, a pair of arc-shaped sliding grooves are formed in the shell, a clutch gear is slidably connected in the pair of arc-shaped sliding grooves, and the clutch gear is in meshed connection with the driving gear; when the driving gear rotates in the forward direction, the driving gear drives the clutch gear to rotate and drives the clutch gear to slide to one end of the arc chute, which is close to the driven gear, so that the clutch gear is in meshed connection with the driven gear; when the driving gear reversely rotates, the driving gear drives the clutch gear to rotate and drives the clutch gear to slide to one end of the arc chute, which is far away from the driven gear, so that the clutch gear is not contacted with the driven gear.

As one embodiment, the clamping device comprises a magnetic sleeve, the magnetic sleeve is of a cylindrical structure with an opening at one end, and one end of the magnetic sleeve, provided with the opening, is magnetically connected with the gyroscope; the hand shaking device is in driving connection with one end of the magnetic attraction sleeve, which is far away from the opening of the magnetic attraction sleeve.

As one embodiment, the pushing device comprises a pushing rod and a return spring, one end of the pushing rod extends out of the shell and is provided with a pressing part, the other end of the pushing rod is provided with a pushing part, the pushing part is arranged around the outer periphery side of the magnetic sleeve, and the pushing rod is arranged in the shell in a telescopic way through the return spring.

As an embodiment, the outer side walls of the housing are respectively symmetrically provided with two holding parts.

Compared with the prior art, the hand-operated gyro toy has the beneficial effects that:

according to the utility model, the gyroscope is accelerated and stored for a plurality of times by adopting an acceleration mode of rotating and storing energy by driving the gyroscope by hand, so that the gyroscope can obtain more rotation potential energy, and the rotation time of the ejected gyroscope is longer; the hand-operated rod can directly drive the clamping device to rotate, the clamping device drives the top to rotate, and finally the top is pushed out from one end of the opening of the shell through the pushing and shooting rod; furthermore, the hand crank of the utility model can drive and accelerate the clamping device in a gear set transmission mode; therefore, the toy is novel in design, unique in shape and novel and interesting in playing method, and the interestingness and entertainment of the toy are greatly improved.

For a better understanding and implementation, the present utility model is described in detail below with reference to the drawings.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the hand-operated gyroscopic toy of the present utility model;

FIG. 2 is a schematic diagram of the internal structure of the hand-operated spinning top toy of the present utility model;

FIG. 3 is a schematic view of another internal structure of the hand-operated spinning top toy of the present utility model;

FIG. 4 is a schematic diagram of the connection of a hand shaking device and a clamping device of the hand shaking gyro toy of the present utility model;

FIG. 5 is another schematic diagram of the connection of the hand shaking device and the clamping device of the hand shaking gyro toy of the present utility model;

FIG. 6 is a schematic view of the magnetic sleeve of the hand-operated spinning top toy of the present utility model;

fig. 7 is a schematic structural view of a top of the hand-operated top toy of the present utility model.

Reference numerals illustrate: 10. a housing; 11. a hand bearing; 12. a limit slide bar; 13. a grip portion; 14. a gear box; 15. an arc chute; 16. a clutch gear; 20. a hand shaking device; 21. a hand rocker; 22. a drive link; 23. a hand-operated connecting rod; 24. a drive gear; 25. a transmission gear; 30. a clamping device; 31. a driven gear; 32. a magnetic sleeve; 33. a magnet unit; 40. a pushing and injecting device; 41. a pushing and shooting rod; 42. a return spring; 43. a pressing part; 44. a pushing and injecting part; 45. limiting sliding grooves; 50. a top; 51. a protrusion.

Detailed Description

For further illustration of the various embodiments, the utility model is provided with the accompanying drawings. The accompanying drawings, which are incorporated in and constitute a part of this disclosure, illustrate embodiments and together with the description, serve to explain the principles of the embodiments. With reference to these matters, one of ordinary skill in the art will understand other possible implementations and advantages of the present utility model.

In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "left", "right", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus are not to be construed as limiting the present utility model.

Referring to fig. 1 to 7, the present embodiment provides a hand-operated gyro toy, which includes a housing 10, wherein the housing 10 has a cylindrical structure with an opening at one end, and a hand-operated device 20, a clamping device 30 and a pushing device 40 are disposed inside the housing 10 of the present embodiment; the hand shaking device 20 is in driving connection with the clamping device 30, and one end of the hand shaking device 20 extends out of the shell 10; the clamping device 30 is rotatably arranged in the shell 10, and the clamping device 30 is used for movably clamping the top 50; the injection device 40 is telescopically disposed in the housing 10, and the injection device 40 is used for injecting the top 50 from the open end of the housing 10.

Therefore, in this embodiment, the accelerating mode of manually driving the top 50 to rotate and store energy is adopted to accelerate and store energy for multiple times, so that the top 50 can obtain more rotation potential energy, and the rotation time of the pushed top 50 is longer; specifically, the hand rocker 21 directly drives the clamping device 30 to rotate, and then the clamping device 30 drives the top 50 to rotate, and finally the top 50 is pushed out from one end of the opening of the shell 10 through the pushing and injecting rod 41; the hand-operated gyro toy of the embodiment has novel and interesting playing method, and the interest and entertainment of the toy are greatly improved.

Optionally, the hand device 20 of this embodiment includes a hand rocker 21, the housing 10 is provided with a hand bearing 11, one end of the hand rocker 21 is in driving connection with the clamping device 30, the other end of the hand rocker 21 passes through the hand bearing 11 and extends out of the housing 10, and a portion of the hand rocker 21 is rotatably disposed in the hand bearing 11.

The hand rocker 21 of the present embodiment may include, but is not limited to, a driving link 22 and a hand connecting rod 23, wherein one end of the driving link 22 is in driving connection with the clamping device 30, the other end of the driving link 22 passes through the hand bearing 11 and extends out of the housing 10, and one end of the hand connecting rod 23 is fixedly connected with one end of the driving link 22 extending out of the housing 10. In the present embodiment, the end of the housing 10 remote from the opening thereof is provided with a mounting hole in which the hand bearing 11 is disposed, and the hand link 23 may be, but is not limited to, an L-shaped structure.

Further, the housing 10 of the present embodiment is internally provided with a clamping bearing, and the clamping device 30 is rotatably disposed on the clamping bearing; one end of the hand rocker 21 is in driving connection with the clamping device 30. Specifically, in the present embodiment, the end of the driving link 22 far away from the hand-operated link 23 may be, but is not limited to, directly fixedly connected with the clamping device 30, so that the clamping device 30 can be directly driven to rotate by driving the hand-operated link 23 to move circumferentially, further synchronously driving the top 50 in the clamping device 30 to rotate and accelerate, and finally pushing the top 50 out of the opening end of the housing 10 by the pushing device 40.

In some preferred embodiments, the hand shaking device 20 comprises a drive gear 24, the drive gear 24 is rigidly connected coaxially with the hand shaking lever 21, the clamping device 30 is connected coaxially with a driven gear 31, and the drive gear 24 is in driving connection with the driven gear 31. Therefore, in this embodiment, the hand rocker 21 is engaged with the driven gear 31 coaxially connected to the clamping device 30 through the driving gear 24, when the hand connecting rod 23 is driven to move circumferentially, the driven gear 31 is driven to rotate through the driving gear 24, so as to drive the clamping device 30 and the top 50 in the clamping device 30 to rotate synchronously, and finally the top 50 is pushed out from the open end of the housing 10 through the pushing device 40.

That is, in this embodiment, a gear transmission structure is disposed between the hand shaking device 20 and the clamping device 30, and by adopting such a gear transmission structure, the transmission between the hand shaking device 20 and the clamping device 30 is smoother and more reliable, and the strength is saved, so as to bring better playing experience to the user.

Further, in this embodiment, a transmission gear 25 or a plurality of transmission gears 25 may be drivingly connected between the driving gear 24 and the driven gear 31, and by adding a transmission gear 25 between the driving gear 24 and the driven gear 31, the layout of each gear in the housing 10 can be made more reasonable, and the effort can be further saved. It should be noted that the number of the transmission gears 25 in this embodiment is not limited, and different numbers of transmission gears 25 may be adopted according to the actual production process, which is not described herein.

Therefore, the hand-operated gyro toy of the present embodiment can drive the hand-operated rocking lever 21 to move circumferentially in the forward direction or in the reverse direction to drive the gyro 50 to rotate and accelerate, for example, the hand-operated rocking lever 21 is driven to drive the clamping device 30 and the gyro 50 to rotate in the forward direction by driving the hand-operated rocking lever 21 in the clockwise direction, and the clamping device 30 and the gyro 50 are driven to rotate in the reverse direction by driving the hand-operated rocking lever 21 in the counterclockwise direction, so that the gyro 50 can be continuously rotated and accelerated as long as the hand-operated rocking lever 21 moves circumferentially in the same direction, thereby improving the interest and entertainment of the toy.

In addition, in some preferred embodiments, a gear box 14 is arranged inside the casing 10, the gear box 14 is provided with a pair of arc-shaped sliding grooves 15, a clutch gear 16 is slidably connected in the pair of arc-shaped sliding grooves 15, and the clutch gear 16 is in meshed connection with a driving gear 24; when the driving gear 24 rotates in the forward direction, the driving gear 24 drives the clutch gear 16 to rotate and drives the clutch gear 16 to slide to one end of the arc chute 15, which is close to the driven gear 31, so that the clutch gear 16 is in meshed connection with the driven gear 31; when the driving gear 24 rotates reversely, the driving gear 24 drives the clutch gear 16 to rotate and drives the clutch gear 16 to slide to one end of the arc chute 15 away from the driven gear 31, so that the clutch gear 16 and the driven gear 31 are not contacted with each other.

Thus, in this embodiment, by adding the slidable clutch gear 16 to the driving gear 24 and the driven gear 31, the driven gear 31 can be driven to rotate when the driving gear 24 rotates in the forward direction, and the driven gear 31 cannot be driven to rotate when the driving gear 24 rotates in the reverse direction, so that the hand rocker 21 of this embodiment can only move circumferentially in one direction to drive the clamping device 30 to rotate, and in the process of driving the clamping device 30 to rotate, if the hand rocker 21 is suddenly driven to move circumferentially in the reverse direction, the hand rocker 21 cannot reversely drive the clamping device 30 to rotate in the reverse direction. That is, the smart design of the clutch gear 16 in this embodiment can effectively prevent the hand rocking lever 21 from suddenly rotating in opposite directions to cause the drive gear 24 or the driven gear 31 to be damaged by jumping teeth, so that the hand rocking gyro toy in this embodiment is safer and more reliable.

It should be noted that, the driving mode between the driving gear 24 and the driven gear 31 of the present utility model is not limited to the driving mode of adding the driving gear 25 or the clutch gear 16, and the driving gear 25 may be used as a driving structure for both the driving gear and the clutch gear to achieve the function of driving the clamping device 30 to rotate through the hand rocker 21 in both forward and reverse directions, or the clutch gear 16 may be used as a driving structure for both the driving gear and the clutch gear to achieve the function of driving the clamping device 30 to rotate in one direction through the hand rocker 21.

Alternatively, in any of the above embodiments, the clamping device 30 includes a magnetic sleeve 32, where the magnetic sleeve 32 is a cylindrical structure with an opening at one end, and the end of the magnetic sleeve 32 with the opening is magnetically connected to the top 50; the hand shaking device 20 is drivingly connected to the end of the magnetic sleeve 32 remote from the opening thereof.

The opening of the magnetic sleeve 32 faces to one end of the opening of the housing 10, and a magnet unit 33 is disposed inside the magnetic sleeve 32, and the magnet unit 33 is magnetically attracted to and connected with the top 50. Correspondingly, the top of the top 50 is provided with a magnetic attraction unit, so that when the top of the top 50 is close to one end of the opening of the magnetic attraction sleeve 32, the top can be quickly attracted to the magnet unit 33 inside the magnetic attraction sleeve 32 through the magnetic attraction unit of the top, and the function of movably clamping the top 50 by the clamping device 30 is realized.

In order to make the connection between the top 50 and the magnetic sleeve 32 more compact, in this embodiment, the top of the top 50 is provided with a protrusion 51, the volume of the protrusion 51 is matched with the interior of the magnetic sleeve 32, the magnetic unit of the top 50 is disposed in the protrusion 51, and the magnet unit 33 of the magnetic sleeve 32 is specifically disposed at the top of the interior of the magnetic sleeve 32, so when the protrusion 51 of the top 50 is close to the opening of the magnetic sleeve 32, the top can be quickly adsorbed on the magnet unit 33 of the interior of the magnetic sleeve 32 through the magnetic unit of the top, and the protrusion 51 is matched with the interior of the magnetic sleeve 32 in a positioning manner, so that the top 50 is more tightly adsorbed in the magnetic sleeve 32.

It should be noted that, the protrusion 51 of the top 50 of the present embodiment may be, but is not limited to, a polygonal column structure; accordingly, the internal cavity of the magnetic sleeve 32 is also a polygonal cylindrical cavity structure, so that in the process that the magnetic sleeve 32 drives the top 50 to rotate, the top 50 is more tightly connected with the magnetic sleeve 32, and displacement is not easy to occur between the top and the magnetic sleeve.

Alternatively, in any of the above embodiments, the ejector 40 includes the ejector lever 41 and the return spring 42, one end of the ejector lever 41 protrudes outside the housing 10 and is provided with the pressing portion 43, the other end of the ejector lever 41 is provided with the ejector portion 44, the ejector portion 44 is provided around the outer peripheral side of the magnetic sleeve 32, and the ejector lever 41 is telescopically provided in the housing 10 by the return spring 42.

The casing 10 of the present embodiment is provided with a limit slide bar 12, and the injection rod 41 is provided with a limit slide groove 45 adapted to the limit slide bar 12, so that the injection rod 41 can be slidably sleeved on the limit slide bar 12 of the casing 10 through the limit slide groove 45.

In order to make the user grip the housing 10 better, in the present embodiment, the outer side walls of the housing 10 are symmetrically provided with two grip portions 13, respectively. Wherein the two grip portions 13 may be, but are not limited to, a concave structure.

The above examples merely represent a few embodiments of the present utility model, which are described in more detail and are not to be construed as limiting the scope of the inventive hand-operated gyroscopic toy. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model.

Claims (10)

1. A hand-operated gyroscopic toy, characterized in that:

the hand-operated device is characterized by comprising a shell, wherein the shell is of a cylindrical structure with one end open, and a hand-operated device, a clamping device and a pushing and shooting device are arranged in the shell; the hand shaking device is in driving connection with the clamping device, and one end of the hand shaking device extends out of the shell; the clamping device is rotatably arranged in the shell and is used for movably clamping the top; the pushing device is telescopically arranged in the shell, and is used for pushing the top out of one end of the opening of the shell.

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

the hand shaking device comprises a hand shaking rod, the shell is provided with a hand shaking bearing, one end of the hand shaking rod is in driving connection with the clamping device, the other end of the hand shaking rod penetrates through the hand shaking bearing and stretches out of the shell, and the part of the hand shaking rod is rotatably arranged in the hand shaking bearing.

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

the hand crank comprises a driving connecting rod and a hand crank connecting rod, one end of the driving connecting rod is in driving connection with the clamping device, the other end of the driving connecting rod penetrates through the hand crank bearing and stretches out of the shell, and one end of the hand crank connecting rod is fixedly connected with the driving connecting rod.

4. The hand-operated spinning top toy of claim 2, wherein:

the inside of the shell is provided with a clamping bearing, and the clamping device is rotatably arranged on the clamping bearing; one end of the hand rocker is in driving connection with the clamping device.

5. The hand-operated spinning top toy of claim 2, wherein:

the hand shaking device comprises a driving gear which is in coaxial rigid connection with the hand shaking rod, the clamping device is coaxially connected with a driven gear, and the driving gear is in driving connection with the driven gear.

6. The hand-operated spinning top toy of claim 5, wherein:

one or more transmission gears are in transmission connection between the driving gear and the driven gear.

7. The hand-operated spinning top toy of claim 5, wherein:

a pair of arc-shaped sliding grooves are formed in the shell, clutch gears are slidably connected in the arc-shaped sliding grooves, and the clutch gears are in meshed connection with the driving gears; when the driving gear rotates in the forward direction, the driving gear drives the clutch gear to rotate and drives the clutch gear to slide to one end of the arc chute, which is close to the driven gear, so that the clutch gear is in meshed connection with the driven gear; when the driving gear reversely rotates, the driving gear drives the clutch gear to rotate and drives the clutch gear to slide to one end of the arc chute, which is far away from the driven gear, so that the clutch gear is not contacted with the driven gear.

8. The hand-operated spinning top toy of claim 1, wherein:

the clamping device comprises a magnetic sleeve, the magnetic sleeve is of a cylindrical structure with an opening at one end, and one end of the magnetic sleeve, provided with the opening, is magnetically connected with the gyroscope; the hand shaking device is in driving connection with one end of the magnetic attraction sleeve, which is far away from the opening of the magnetic attraction sleeve.

9. The hand-operated playtop of claim 8, wherein:

the pushing and shooting device comprises a pushing and shooting rod and a reset spring, one end of the pushing and shooting rod extends out of the shell and is provided with a pressing part, the other end of the pushing and shooting rod is provided with a pushing and shooting part, the pushing and shooting part is arranged around the outer peripheral side of the magnetic attraction sleeve, and the pushing and shooting rod is arranged in the shell in a telescopic mode through the reset spring.

10. The hand-operated spinning top toy of claim 1, wherein:

two holding parts are symmetrically arranged on the outer side wall of the shell respectively.