CN220294112U - Energy storage type toy top - Google Patents

Abstract

The utility model relates to an energy storage type toy top, which comprises a shell, a unidirectional driving mechanism, an energy storage mechanism and a triggering mechanism, wherein the shell is provided with a first driving mechanism and a second driving mechanism; an opening is formed in one end of the shell, a clamping part is arranged in the opening, and the clamping part is used for movably clamping the top; the unidirectional driving mechanism is rotatably arranged inside the shell, and part of the unidirectional driving mechanism extends out of the shell; the energy storage mechanism is movably arranged in the shell, and the unidirectional driving mechanism is in driving connection with the energy storage mechanism. According to the energy storage type toy top, the unidirectional driving mechanism drives the energy storage mechanism to store energy, and the triggering mechanism drives the energy storage mechanism to release rotational potential energy so as to drive the top to rotate quickly while driving the top to go out from the clamping part, so that playability of the toy is effectively improved; in addition, through accomodating the top in the inside of casing for the wholeness of toy top is better, effectively improves the aesthetic property of toy.

Description

Energy storage type toy top

Technical Field

The utility model relates to the technical field of toys, in particular to an energy storage type toy top.

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.

The existing toy launcher mostly has the function of launching objects, and most of existing toy launchers adopt a rack direct acceleration mode to accelerate and rotate a top, specifically, the top is accelerated in a rotating mode by enabling an acceleration rack to penetrate through a driving gear of the top, and then the top after rotating energy storage is launched. However, such a gyro emitter is simple to play and has low playability and aesthetic appearance due to the exposed racks.

Disclosure of Invention

Based on the above, the utility model aims to overcome the defects of the prior art, and provides the energy storage type toy top, which is characterized in that the energy storage mechanism is driven by the unidirectional driving mechanism to store energy, and the energy storage mechanism is driven by the triggering mechanism to release rotation potential energy so as to drive the top to separate from the clamping part and simultaneously drive the top to rotate rapidly, thereby effectively improving the playability of the toy; in addition, through accomodating the top in the inside of casing for the wholeness of toy top is better, effectively improves the aesthetic property of toy.

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

an energy storage type toy top comprises a shell, a unidirectional driving mechanism, an energy storage mechanism and a triggering mechanism; an opening is formed in one end of the shell, a clamping part is arranged in the opening, and the clamping part is used for movably clamping the top; the unidirectional driving mechanism is rotatably arranged inside the shell, and part of the unidirectional driving mechanism extends out of the shell; the energy storage mechanism is movably arranged in the shell, and the unidirectional driving mechanism is in driving connection with the energy storage mechanism;

when the unidirectional driving mechanism rotates under external force, the unidirectional driving mechanism synchronously drives the energy storage mechanism to rotate for energy storage, and the triggering mechanism is used for driving the energy storage mechanism to be separated from the unidirectional driving mechanism, so that the separated energy storage mechanism drives the gyroscope to rotate and pushes the gyroscope out of one end of the opening of the shell.

As one implementation mode, a limit sleeve is arranged in the shell, and the limit sleeve is of a cylindrical structure with two open ends; the energy storage mechanism comprises an energy storage rotating shaft and an energy storage torsion spring, the energy storage rotating shaft is telescopically arranged in the limit sleeve, the energy storage torsion spring is sleeved on the outer wall of the energy storage rotating shaft, one end of the energy storage torsion spring is fixedly connected with the energy storage rotating shaft, and the other end of the energy storage torsion spring is fixedly connected with the limit sleeve.

As one embodiment, the unidirectional driving mechanism comprises a ratchet wheel rotating piece, a pawl sleeve and a jacking spring, wherein the ratchet wheel rotating piece is rotatably arranged on the shell, one end of the ratchet wheel rotating piece extends out of the shell and is provided with a rotating part, and the other end of the ratchet wheel rotating piece is provided with a ratchet wheel part; one end of the pawl sleeve is provided with a pawl part, and the pawl part is in meshed connection with the ratchet part; the jacking spring is sleeved on the outer periphery of the pawl sleeve, one end of the jacking spring is propped against one end, far away from the ratchet wheel, of the pawl part, and the other end of the jacking spring is arranged in the shell.

As an implementation mode, the pawl sleeve is of a middle through structure with two open ends, a key groove is formed in one end, far away from the pawl part, of the pawl sleeve, a key position matched with the limiting sliding groove is formed in one end of the energy storage rotating shaft, and the key position can be slidably arranged in the key groove along the length direction of the energy storage rotating shaft.

As an implementation mode, the triggering mechanism comprises a triggering connecting rod and a telescopic spring, wherein a through hole is formed in the middle of the ratchet rotating piece, one end of the triggering connecting rod penetrates through the through hole of the ratchet rotating piece and stretches into the pawl sleeve to lean against the end part of the energy storage rotating shaft, the other end of the triggering connecting rod stretches out of the ratchet rotating piece and is fixedly connected with a pressing cap, the telescopic spring is sleeved on the triggering connecting rod, and two ends of the telescopic spring are fixedly connected with the pressing cap and the ratchet rotating piece respectively;

when the pressure cap is pressed by external force, the trigger connecting rod is driven to push the energy storage rotating shaft to slide out of the key groove of the ratchet sleeve, and one end of the energy storage rotating shaft, which is far away from the ratchet sleeve, extends out of the limit sleeve.

As an implementation mode, the energy storage rotating shaft is far away from one end of the ratchet sleeve and is provided with an inserting block, the top of the top is provided with an inserting groove matched with the inserting block, when one end of the energy storage rotating shaft extends out of the limiting sleeve, the inserting block of the energy storage rotating shaft extends into the inserting groove of the top to drive the top to separate from the clamping part, and meanwhile the energy storage rotating shaft can rotate rapidly under the action of the energy storage torsion spring, so that the energy storage rotating shaft drives the top to rotate when driving the top to separate from the clamping part.

As an implementation mode, the clamping part comprises a plurality of elastic claws, and the elastic claws are uniformly arranged on the outer side wall of the limiting sleeve, which is far away from one end of the triggering mechanism; the top of top is equipped with a plurality of the cyclic annular draw-in groove of elasticity jack catch looks adaptation, cyclic annular draw-in groove with a plurality of elasticity jack catch cooperation joint.

As one implementation mode, one end of the limit sleeve is provided with a notch, and one end of the energy storage torsion spring is fixedly arranged in the notch of the limit sleeve; the outside portion of limit sleeve is equipped with the installation department, limit sleeve passes through the installation department is fixed the inside of casing.

As one implementation mode, a limiting ring is arranged in the shell, and one end edge of the pawl part, which is far away from the jacking spring, is abutted against the limiting ring; the inside of casing is equipped with spacing recess, the periphery wall of ratchet portion is equipped with spacing bulge loop, spacing bulge loop rotationally sets up in the spacing recess.

In one embodiment, the housing has a cylindrical structure with one end open, and a grip portion is provided on the outer side of the housing.

Compared with the prior art, the energy storage type toy top has the beneficial effects that:

according to the utility model, the unidirectional driving mechanism drives the energy storage mechanism to store energy, and the triggering mechanism drives the energy storage mechanism to release rotation potential energy so as to drive the top to separate from the clamping part and simultaneously drive the top to rotate rapidly, so that the playability of the toy is effectively improved; in addition, through accomodating the top in the inside of casing for the wholeness of toy top is better, effectively improves the aesthetic property of toy.

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 an energy storage toy top according to the present utility model;

FIG. 2 is a schematic diagram of an energy storage toy top according to the present utility model;

FIG. 3 is a schematic diagram of an energy storage toy top according to the present utility model;

FIG. 4 is a schematic diagram of an energy storage toy top according to the present utility model;

fig. 5 is a schematic structural view of the energy storage type toy top of the present utility model.

Reference numerals illustrate: 10. a housing; 11. a grip portion; 12. a limit sleeve; 13. a clamping part; 14. a notch; 15. a mounting part; 16. a limit groove; 20. a unidirectional driving mechanism; 21. a ratchet wheel rotating member; 22. a pawl sleeve; 23. a jack-up spring; 24. a rotating part; 25. a ratchet part; 26. a pawl portion; 27. a limit convex ring; 30. an energy storage mechanism; 31. an energy storage rotating shaft; 32. an energy storage torsion spring; 33. inserting blocks; 40. a trigger mechanism; 41. triggering a connecting rod; 42. a telescopic spring; 43. pressing the cap; 50. a top; 51. an annular clamping groove; 52. a slot.

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 5, the present embodiment provides an energy storage type toy top, which includes a housing 10, a unidirectional driving mechanism 20, an energy storage mechanism 30 and a triggering mechanism 40; an opening is arranged at one end of the shell 10, a clamping part 13 is arranged in the opening, and the clamping part 13 is used for movably clamping the top 50; the unidirectional drive mechanism 20 is rotatably disposed inside the housing 10, and a portion of the unidirectional drive mechanism 20 protrudes outside the housing 10; the energy storage mechanism 30 is movably arranged in the shell 10, and the unidirectional driving mechanism 20 is in driving connection with the energy storage mechanism 30; when the unidirectional driving mechanism 20 rotates under an external force, the unidirectional driving mechanism 20 synchronously drives the energy storage mechanism 30 to store energy in a rotating way, and the triggering mechanism 40 is used for driving the energy storage mechanism 30 to separate from the unidirectional driving mechanism 20, so that the separated energy storage mechanism 30 drives the top 50 to rotate and pushes the top 50 out from one end of the opening of the shell 10.

Specifically, a limiting sleeve 12 is arranged in the shell 10 of the embodiment, and the limiting sleeve 12 is of a cylindrical structure with two open ends; the energy storage mechanism 30 comprises an energy storage rotating shaft 31 and an energy storage torsion spring 32, the energy storage rotating shaft 31 is telescopically arranged in the limit sleeve 12, the energy storage torsion spring 32 is sleeved on the outer wall of the energy storage rotating shaft 31, one end of the energy storage torsion spring 32 is fixedly connected with the energy storage rotating shaft 31, and the other end of the energy storage torsion spring 32 is fixedly connected with the limit sleeve 12.

Wherein, the clamping portion 13 of the present embodiment includes a plurality of elastic claws, and the plurality of elastic claws are uniformly arranged on an outer sidewall of one end of the limiting sleeve 12 away from the triggering mechanism 40; the top of the top 50 is provided with an annular clamping groove 51 adapted to a plurality of elastic claws, and the annular clamping groove 51 is clamped with a plurality of elastic claws in a matching way. In addition, one end of the limiting sleeve 12 in the embodiment is provided with a notch 14, and one end of the energy storage torsion spring 32 is fixedly arranged in the notch 14 of the limiting sleeve 12; an installation part 15 is arranged at the outer side part of the limit sleeve 12, and the limit sleeve 12 is fixed in the shell 10 through the installation part 15.

Therefore, in this embodiment, the plurality of elastic claws can be matched with the annular clamping groove 51 of the top 50, so that the top 50 is extended into the shell 10 from the opening of the shell 10, and the annular clamping groove 51 of the top 50 is sleeved into the plurality of elastic claws, so that the top 50 can be temporarily clamped on the clamping part 13 of the limiting sleeve 12; in addition, one end of the energy storage torsion spring 32 is fixed in the notch 14 of the limit sleeve 12, so that the energy storage torsion spring 32 has the energy storage function, and is convenient for resetting after releasing energy, and the position of the energy storage rotating shaft 31 in the limit sleeve 12 is maintained.

Alternatively, the unidirectional driving mechanism 20 includes a ratchet wheel rotating member 21, a ratchet sleeve 22 and a jack spring 23, the ratchet wheel rotating member 21 is rotatably disposed on the housing 10, one end of the ratchet wheel rotating member 21 extends out of the housing 10 and is provided with a rotating portion 24, and the other end of the ratchet wheel rotating member 21 is provided with a ratchet wheel portion 25; one end of the pawl sleeve 22 is provided with a pawl part 26, and the pawl part 26 is in meshed connection with the ratchet part 25; the jacking spring 23 is sleeved on the outer periphery of the pawl sleeve 22, one end of the jacking spring 23 abuts against one end of the pawl portion 26, which is far away from the ratchet portion 25, and the other end of the jacking spring 23 is arranged inside the housing 10.

Wherein, a limiting ring is arranged in the shell 10, and one end edge of the pawl part 26 far away from the jacking spring 23 is abutted against the limiting ring; the inside of the shell 10 is provided with a limit groove 16, the peripheral wall of the ratchet part 25 is provided with a limit convex ring 27, and the limit convex ring 27 is rotatably arranged in the limit groove 16. In addition, the detent sleeve 22 is a middle-through structure with two open ends, a key slot is provided in one end of the detent sleeve 22, which is far away from the detent portion 26, one end of the energy storage rotating shaft 31 is provided with a key position adapted to the limit sliding groove, and the key position is slidably provided in the key slot along the length direction of the energy storage rotating shaft 31.

Therefore, in this embodiment, the ratchet wheel member 21 is rotated to extend out of the rotating portion 24 outside the housing 10, so that the ratchet sleeve 22 can be driven to rotate synchronously, and the energy storage rotating shaft 31 is driven to rotate by the ratchet sleeve 22, and the energy storage rotating shaft 31 drives the energy storage torsion spring 32 to twist tightly to store rotational potential energy in the rotating process, so that after the key position of the energy storage rotating shaft 31 is pushed out of the key slot of the ratchet sleeve 22, the energy storage rotating shaft 31 has no other binding force, and the rotational potential energy can be released under the reset action of the energy storage torsion spring 32.

Further, the triggering mechanism 40 of the present embodiment includes a triggering link 41 and a telescopic spring 42, a through hole is formed in the middle of the ratchet rotating member 21, one end of the triggering link 41 passes through the through hole of the ratchet rotating member 21 and extends into the pawl sleeve 22 to abut against the end of the energy storage rotating shaft 31, the other end of the triggering link 41 extends out of the ratchet rotating member 21 and is fixedly connected with a pressing cap 43, the telescopic spring 42 is sleeved on the triggering link 41, and two ends of the telescopic spring 42 are respectively fixedly connected with the pressing cap 43 and the ratchet rotating member 21; therefore, when the pressing cap 43 is pressed by an external force, the pressing cap 43 can drive the trigger connecting rod 41 to push the energy storage rotating shaft 31 to slide out of the key groove of the ratchet sleeve, and one end of the energy storage rotating shaft 31 far away from the ratchet sleeve extends out of the limit sleeve 12.

Optionally, an insert block 33 is disposed at an end of the energy storage rotating shaft 31 away from the ratchet sleeve, an insert groove 52 matched with the insert block 33 is disposed at a top of the top 50, when one end of the energy storage rotating shaft 31 extends out of the limit sleeve 12, the insert block 33 of the energy storage rotating shaft 31 extends into the insert groove 52 of the top 50 to drive the top 50 to separate from the clamping portion 13, and meanwhile, the energy storage rotating shaft 31 can rotate rapidly under the action of the energy storage torsion spring 32, so that the energy storage rotating shaft 31 drives the top 50 to rotate while driving the top 50 to separate from the clamping portion 13.

That is, in this embodiment, the trigger link 41 is driven by pressing the cap downwards to push the key position of the energy storage rotating shaft 31 out of the key slot of the detent sleeve 22, the insert 33 is inserted into the insert slot 52 at the top of the top 50 to drive the top 50 out of the holding portion 13 in the process of moving down the energy storage rotating shaft 31, and meanwhile, the energy storage rotating shaft 31 can drive the top 50 to rotate in the falling process under the high-speed rotation of the energy storage torsion spring 32, so that the effect that the energy storage mechanism 30 can be driven to separate from the unidirectional driving mechanism 20 through the trigger mechanism 40 and the energy storage mechanism 30 drives the top 50 to rotate and pushes the top 50 out of the open end of the housing 10 is achieved.

Therefore, the unidirectional driving mechanism 20 drives the energy storage mechanism 30 to store energy, and the triggering mechanism 40 drives the energy storage mechanism 30 to release rotational potential energy to drive the top 50 to be separated from the clamping part 13 and simultaneously rapidly drive the top 50 to rotate, so that playability of the toy is effectively improved; in addition, by housing the top 50 inside the case 10, the toy top is better in integrity, effectively improving the aesthetic appearance of the toy.

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 energy storage toy top. 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. An energy storage type toy top is characterized in that:

comprises a shell, a unidirectional driving mechanism, an energy storage mechanism and a triggering mechanism; an opening is formed in one end of the shell, a clamping part is arranged in the opening, and the clamping part is used for movably clamping the top; the unidirectional driving mechanism is rotatably arranged inside the shell, and part of the unidirectional driving mechanism extends out of the shell; the energy storage mechanism is movably arranged in the shell, and the unidirectional driving mechanism is in driving connection with the energy storage mechanism;

when the unidirectional driving mechanism rotates under external force, the unidirectional driving mechanism synchronously drives the energy storage mechanism to rotate for energy storage, and the triggering mechanism is used for driving the energy storage mechanism to be separated from the unidirectional driving mechanism, so that the separated energy storage mechanism drives the gyroscope to rotate and pushes the gyroscope out of one end of the opening of the shell.

2. The energy storage toy top of claim 1, wherein:

a limiting sleeve is arranged in the shell, and the limiting sleeve is of a cylindrical structure with two open ends; the energy storage mechanism comprises an energy storage rotating shaft and an energy storage torsion spring, the energy storage rotating shaft is telescopically arranged in the limit sleeve, the energy storage torsion spring is sleeved on the outer wall of the energy storage rotating shaft, one end of the energy storage torsion spring is fixedly connected with the energy storage rotating shaft, and the other end of the energy storage torsion spring is fixedly connected with the limit sleeve.

3. The energy-storage toy top of claim 2, wherein:

the one-way driving mechanism comprises a ratchet wheel rotating piece, a pawl sleeve and a jacking spring, wherein the ratchet wheel rotating piece is rotatably arranged on the shell, one end of the ratchet wheel rotating piece extends out of the shell and is provided with a rotating part, and the other end of the ratchet wheel rotating piece is provided with a ratchet wheel part; one end of the pawl sleeve is provided with a pawl part, and the pawl part is in meshed connection with the ratchet part; the jacking spring is sleeved on the outer periphery of the pawl sleeve, one end of the jacking spring is propped against one end, far away from the ratchet wheel, of the pawl part, and the other end of the jacking spring is arranged in the shell.

4. The energy-storing toy top of claim 3, wherein:

the pawl sleeve is of a middle through structure with two open ends, a key groove is formed in one end, far away from the pawl part, of the pawl sleeve, a key position matched with the key groove is formed in one end of the energy storage rotating shaft, and the key position can be slidably arranged in the key groove along the length direction of the energy storage rotating shaft.

5. The energy-storage toy top of claim 4, wherein:

the trigger mechanism comprises a trigger connecting rod and a telescopic spring, wherein a through hole is formed in the middle of the ratchet rotating piece, one end of the trigger connecting rod penetrates through the through hole of the ratchet rotating piece and stretches into the pawl sleeve to lean against the end part of the energy storage rotating shaft, the other end of the trigger connecting rod stretches out of the ratchet rotating piece and is fixedly connected with a pressing cap, the telescopic spring is sleeved on the trigger connecting rod, and two ends of the telescopic spring are fixedly connected with the pressing cap and the ratchet rotating piece respectively;

when the pressing cap is pressed by external force, the triggering connecting rod is driven to push the energy storage rotating shaft to slide out of the key groove of the pawl sleeve, and one end, far away from the pawl sleeve, of the energy storage rotating shaft extends out of the limit sleeve.

6. The energy-storage toy top of claim 5, wherein:

the energy storage pivot keep away from pawl telescopic one end is equipped with the inserted block, the top of top be equipped with inserted block complex slot, works as the one end of energy storage pivot stretches out when limit sleeve's outside, the inserted block of energy storage pivot stretches into the slot of top is in order to drive the top breaks away from the card holds the portion, simultaneously the energy storage pivot is in energy storage torsional spring's effect can rotate fast, so that the energy storage pivot is in the drive the top breaks away from the card holds the portion and drives the top rotates.

7. The energy-storage toy top of claim 6, wherein:

the clamping part comprises a plurality of elastic claws, and the elastic claws are uniformly arranged on the outer side wall of one end, far away from the trigger mechanism, of the limit sleeve; the top of top is equipped with a plurality of the cyclic annular draw-in groove of elasticity jack catch looks adaptation, cyclic annular draw-in groove with a plurality of elasticity jack catch cooperation joint.

8. The energy-storage toy top of claim 2, wherein:

one end of the limiting sleeve is provided with a notch, and one end of the energy storage torsion spring is fixedly arranged in the notch of the limiting sleeve; the outside portion of limit sleeve is equipped with the installation department, limit sleeve passes through the installation department is fixed the inside of casing.

9. The energy-storing toy top of claim 3, wherein:

a limiting ring is arranged in the shell, and the edge of one end, away from the jacking spring, of the pawl part abuts against the limiting ring; the inside of casing is equipped with spacing recess, the periphery wall of ratchet portion is equipped with spacing bulge loop, spacing bulge loop rotationally sets up in the spacing recess.

10. The energy storage toy top of claim 1, wherein:

the shell is of a cylindrical structure with one end open, and a holding part is arranged on the outer side of the shell.