CN205586552U - Self -driven top and because primary and secondary top of this self -driven top - Google Patents

Abstract

The utility model relates to a top toy technical field, in particular to self -driven top and because primary and secondary top of this self -driven top, this self -driven top have drive arrangement, trigger its drive arrangement when landing after being launched out and triggered on it is as sub - top aunt top, the drive arrangement drive the casing rotates to this aunt's top that increases sub - top breaks away from the kinetic energy that lands.

Description

A kind of self-driven gyro and primary and secondary gyro based on this self-driven gyro

Technical field

The invention relates to toy top technical field, particularly to a kind of self-driven gyro and primary and secondary gyro based on this self-driven gyro.

Background technology

Chinese patent CN201110389906.3 discloses a kind of separable combined toy gyroscope, this toy top includes main gyro (female gyro) and auxiliary gyro (sub-gyro), auxiliary gyro can be arranged on main gyro, in main gyro rotation process, auxiliary gyro can be made to eject from main gyro by the way of remote control or touch-control, so that main gyro and auxiliary gyro the most individually rotate.Compared with traditional mode, this gyro has more interest, and game mode is the most polynary.

But, during actually used, after auxiliary gyro ejects from main gyro, its velocity of rotation is the highest, trace it to its cause, on the one hand being that auxiliary gyro usually just can spin off after major and minor gyro rotates certain time together from main gyro, in rotation process, kinetic energy can constantly reduce, and when therefore departing from, general kinetic energy is the most not high enough, on the other hand, the launching of auxiliary gyro, land during, auxiliary gyro self also can lose certain kinetic energy, further causes the decline of speed.Therefore, after main gyro separates with auxiliary gyro, the general rotation time of auxiliary gyro is comparatively short, is short of power.

Summary of the invention

The purpose of the invention be to avoid above-mentioned weak point of the prior art and provide a kind of can be as the self-driven gyro of sub-gyro, this gyro can have enough kinetic energy when rotating alone after female gyro departs from.

The purpose of the invention is achieved through the following technical solutions:

Providing a kind of self-driven gyro, including housing, including top foot and driving means, described driving means is triggered by described top foot and drives described housing into rotation.

Wherein, described driving means includes that mechanical energy storing device, described mechanical energy storing device are released energy and driven described housing into rotation when driving means triggers.

Wherein, described driving means also includes that locking mechanism, described top foot trigger described locking mechanism when being pressed, and makes mechanical energy storing device described in described locking mechanism locking, or makes described locking mechanism that described mechanical energy storing device is released locking；Described in described locking mechanism locking during mechanical energy storing device, described mechanical energy storing device stops releasing energy.

Wherein, described mechanical energy storing device is clockwork spring, and described locking mechanism is arrangement of clutch, this arrangement of clutch includes dish and clutch lower wall in clutch, in described clutch in the middle of dish and clutch lower wall, one is in transmission connection with the inner ring of clockwork spring, and another is in transmission connection with the outer ring of clockwork spring.

Wherein, the outer ring of described clockwork spring connects dish in described clutch by pin.

Wherein, in described clutch, dish is provided with screens groove or the screens hole of the bearing of trend setting along its center axis, the bearing of trend of described pin central axis of dish in described clutch is arranged, the first end of this pin is fixing with the outer ring of described clockwork spring to be connected, the second end of described pin is inserted in described screens groove or screens hole, makes dish in described clutch can move along described pin.

Wherein, the inner ring of described clockwork spring is in transmission connection mutually with described housing, and described housing is connected with described clutch lower wall transmission by mediation member, and described top foot connects with described mediation member transmission.

Wherein, the inner ring of described clockwork spring connects has ratchet, described housing to be provided with ratchet, and described ratchet is connected in described ratchet, makes the inner ring of described clockwork spring be connected with described housing.

Wherein, described mediation member includes central shaft and chuck part, and the top of described central shaft is fixing with described housing to be connected, and the bottom of this central shaft is connected with described chuck part；Described clutch lower wall is provided with the draw-in groove that can match with described chuck part.

Wherein, described clutch lower wall includes main body panel portion and support tube portion, and described draw-in groove is located at described main body panel portion, and described support tube portion has barrel chamber, and this barrel chamber connects described draw-in groove, and described top is worn and is located in described barrel chamber, and connects with described chuck part transmission.

Wherein, described mediation member also includes transmission column piece, the top of this transmission column piece is fixing with described chuck part to be connected, the top of described top foot is provided with the cavity matched with described transmission column piece, the degree of depth of described cavity, less than or equal to the length of described transmission column piece, makes described top foot be connected with described chuck part transmission by described transmission column piece.

Wherein, the cavity wall of described barrel chamber is provided with oblique chute and straight runner, described oblique chute is located between adjacent two straight runner, the degree of depth of described straight runner is more than the degree of depth of described oblique chute, the outer wall of described top foot is provided with the slide block matched with described straight runner and described oblique chute, is provided with guide edge between adjacent oblique chute and straight runner.

Wherein, also include bottom, described clutch is connected by spring between dish with described bottom.

Wherein, in described clutch, dish and clutch lower wall are respectively arranged with the gear teeth, and the gear teeth of dish can engage each other with the gear teeth of described clutch lower wall in described clutch, the described gear teeth include helical teeth limit and position-limited edge, the central axial direction of this position-limited edge dish or clutch lower wall in described clutch is arranged, and described helical teeth limit forms angle with described position-limited edge.

Also providing for a kind of primary and secondary gyro, including female gyro and sub-gyro, described sub-gyro is detachably mounted to described female gyro, it is characterised in that: described sub-gyro is the self-driven gyro of any of the above described one.

Wherein, the bottom of described sub-gyro is provided with counterpart, and described female gyro is provided with the storage tank for housing described counterpart, is provided with catch means, counterpart described in described catch means clamping in described storage tank.

Wherein, described counterpart includes that projection, described catch means include being arranged at the barrier sheet of storage tank notch, and described barrier sheet stops described projection thus is limited in storage tank by described counterpart.

Wherein, described catch means includes stirring button, described in stir and when button is struck, drive described barrier sheet to rotate with the described projection that staggers, thus release projection spacing.

Wherein, the bottom land of described storage tank is provided with elastic force apparatus, and described elastic force apparatus applies elastic force to above-mentioned counterpart.

The beneficial effect of the invention: the invention provides a kind of self-driven gyro and the primary and secondary gyro being sub-gyro with this self-driven gyro, this self-driven gyro can be pressed when landing after being ejected from female gyro as sub-gyro, thus trigger its driving means and be triggered, driving means drives described housing into rotation, increases sub-gyro with this and departs from the rotational kinetic energy after landing from female gyro.

Accompanying drawing explanation

Utilize accompanying drawing that the invention is described further, but the embodiment in accompanying drawing does not constitute any restriction to the invention, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to obtain other accompanying drawing according to the following drawings.

Fig. 1 is the structural representation of female gyro of the invention.

Fig. 2 is the decomposition texture schematic diagram of female gyro of the invention.

Fig. 3 is the structural representation of the sub-gyro of the invention.

Fig. 4 is the decomposition texture schematic diagram of the sub-gyro of the invention.

Fig. 5 is the cross-sectional view of the sub-gyro of the invention.

Fig. 6 is the sub-gyro cross-sectional view in a disassembled state of the invention.

Fig. 7 is the cross-sectional view of the clutch lower wall of the sub-gyro of the invention.

Fig. 1 to Fig. 7 includes:

11 stir button, 12 storage tanks, 13 barrier sheets, 101 bottoms, 2 counterparts, 21 projections, 3 going barrels, 31 card bases, 4 ratchets, 5 shells, Dish in 6 clutches, 7 clutch lower walls, 71 oblique chutes, 72 straight runners, 73 draw-in grooves, 74 barrel chamber, 75 support tube portions, 76 main body panel portions, 8 central shafts, 81 chuck part, 82 transmission column pieces, 9 top feet, 91 slide blocks, 92 cavitys.

Detailed description of the invention

With the following Examples the invention is further described.

The invention detailed description of the invention, including female gyro and sub-gyro, as shown in Figure 1, female gyro offers opening up storage tank 12, as shown in Figure 2, storage tank 12 is provided by the revolving part being arranged in female gyro, and the both wings of revolving part protrude from female gyro appearance and formed and stir button 11, stirs this and stirs button 11 and can rotate this revolving part.The middle part of this revolving part is a cylindrical portion, the inner chamber of cylindrical portion i.e. storage tank 12, is formed with two barrier sheets 13 at the edge of opening of cylindrical portion, and two barrier sheet 13 phases erect and put.Additionally, be additionally provided with compression spring in the bottom of storage tank 12.

As it is shown on figure 3, be provided with counterpart 2 at the bottom top foot 9 of sub-gyro, counterpart 2 can be placed in storage tank 12 just, and the outer circumferential side of counterpart 2 has the projection 21 that evagination is formed.When primary and secondary gyro to be made rotates together, being inserted in storage tank 12 by the counterpart 2 of sub-gyro, revolving part rotation is barred from the top of projection 21 to barrier sheet 13, during therefore counterpart 2 is limited in storage tank 12.Departing from from female gyro when to make sub-gyro, it is only necessary to stir button 11, make revolving part rotate and stagger the position of projection 21 to barrier sheet 13, projection 21 loses stop, and therefore under the effect of compression spring, sub-gyro can be bounced off from female gyro.

As shown in Figure 4 and Figure 6, it is provided with going barrel 3 in sub-gyro, in going barrel 3, is provided with clockwork spring (not shown).Going barrel 3 be provided above ratchet 4, being provided with on shell 5 can be with the ratchet (not shown) of ratchet 4 phase clamping, the inner ring of aforementioned clockwork spring is connected with ratchet 4, ratchet 4 can be driven when clockwork spring releases energy to rotate, ratchet 4 drives the ratchet arranged on shell 5 to rotate, and then the shell 5 of band mover gyro rotates.It addition, clockwork spring cochain can also be given by rotation case 5, clockwork spring is made to tighten up.

As shown in Figures 4 to 6, in sub-gyro, arrangement of clutch and mediation member it are additionally provided with.This arrangement of clutch includes dish 6 and clutch lower wall 7 in the clutch for produce clutch action.The outer ring of clockwork spring is in transmission connection with dish in clutch 6 by card base 31.Concrete, in clutch, dish 6 is provided with screens groove or the screens hole of the bearing of trend setting along its center axis, the bearing of trend of pin 31 central axis of dish 6 in clutch is arranged, the first end of this pin 31 is fixing with the outer ring of clockwork spring to be connected, the second end of pin 31 is inserted in screens groove or screens hole, makes dish 6 in clutch can move along card base 31.Another as it is shown in fig. 7, clutch lower wall 7 includes main body panel portion 76 and support tube portion 75, main body panel portion 76 is formed with draw-in groove 73, and support tube portion 75 is formed with barrel chamber 74, and this barrel chamber 74 connects draw-in groove 73；Top foot 9 is arranged in barrel chamber 74, and can move up and down.Mediation member includes central shaft 8, chuck part 81 and transmission column piece 82: the top of central shaft 8 is fixing with shell 5 to be connected, and the bottom of central shaft 8 is connected with chuck part 81；Chuck part 81 is located in clutch between dish 6 and clutch lower wall 7, and coordinates with aforementioned draw-in groove 73；The top of transmission column piece 82 is fixing with chuck part 81 to be connected, and bottom coordinates with top foot 9.And below clutch lower wall 7, it is additionally provided with bottom 101, aforementioned clutch is connected by spring (not shown) between dish 6 with bottom 101.Thus, when moving on top foot 9, can be by transmission column piece 82 jack-up, chuck part 81 is made to depart from the draw-in groove 73 of clutch lower wall 7, and then chuck part 81 meeting is by dish in clutch 6, central shaft 8 and shell 5 jack-up, also departing between dish 6 and clutch lower wall 7 in clutch, thus clockwork spring is released, shell 5 rotates under the effect of clockwork spring inner ring；When top foot 9 moves down, in clutch, dish 6 moves down return under the effect of aforementioned spring and again engages with clutch lower wall 7 or engage, and the return that moves down of clutch lower wall 7 also drives chuck part 81 again to block in the draw-in groove 73 accessing clutch lower wall 7, then due to engaging between dish 6 and clutch lower wall 7 in clutch, the most do not exist and relatively rotate, chuck part is passed through again due to clutch lower wall, central shaft, shell and realize transmission with clockwork spring inner ring and coordinate, in clutch, dish also achieves with clockwork spring outer ring and is in transmission connection, therefore releasing of clockwork spring will be made to be prevented, and then make shell 5 stop operating, now by rotation case 5, clockwork spring can be carried out cochain (even if clockwork spring tightens up), so that clockwork spring accumulation of energy again.

Top foot 9 can realize pushing up and moving down by pressing alternately.As shown in Figures 5 to 7, the top of top foot 9 is provided with the cavity 92 matched with transmission column piece 82, the degree of depth of cavity 92 is less than or equal to the length of transmission column piece 82, thus can be in the case of guaranteeing the certain freedom of movement of top foot 9, the transmission realized between top foot 9 with transmission column piece 82 coordinates, and then can realize the gearing of dish 6 in chuck part 81 and clutch.The outer wall of top foot 9 is provided with the slide block 91 matched with described straight runner 72 and described oblique chute 71, the cavity wall of barrel chamber 74 is provided with oblique chute 71 and straight runner 72, tiltedly chute 71 is located between adjacent two straight runner 72, the degree of depth of straight runner 72, more than the degree of depth of described oblique chute 71, is provided with guide edge between adjacent oblique chute 71 and straight runner 72.Therefore, under the effect of aforementioned guide edge, the slide block 91 on top foot 9 outer wall can move back and forth in this into the barrel chamber, and can replace be limited in oblique chute 71 and straight runner 72, make top foot 9 can occur on push up and move down.Such as: during during beginning, the slide block 91 of top foot 9 is positioned at oblique chute 71, the most once pressing top foot 9, then slide block 91 can slide in straight runner 72 under the effect of guide edge, thus top foot can move down, if pressing top foot 9 the most again, then top foot 9 can slide in another oblique chute 71 under the effect of guide edge, thus top foot realizes upper top.

In aforementioned clutch, the forward surface of dish 6 and clutch lower wall 7 is provided with the gear teeth worked in coordination, and the gear teeth of dish 6 can engage each other with the gear teeth of described clutch lower wall 7 in described clutch, the described gear teeth include helical teeth limit and position-limited edge, the central axial direction of this position-limited edge dish 6 or clutch lower wall 7 in described clutch is arranged, and described helical teeth limit forms angle with described position-limited edge.Therefore, when making clockwork spring tighten up with hands rotation case 5, effect due to position-limited edge, making shell 5 by being only capable of driving clutch lower wall 7 to rotate in one direction with the linkage effect of clutch lower wall 7 to central shaft, chuck part, the direction of this rotation is i.e. the direction that shell 5 drives that clockwork spring inner ring makes clockwork spring tighten up；That is when making clockwork spring tighten up with hands rotation case 5, due to the effect of position-limited edge, limit the rotation direction of clutch lower wall 7, and then also limit the rotation direction of shell 5, make shell 5 can only rotate toward the direction that make clockwork spring tighten up.In the case where there, the slide block 91 of top foot 9 is in straight runner 72, and chuck part 81 is arranged in draw-in groove 73, dish 6 and clutch lower wall 7 clamping in clutch.Due to the restriction of the gear teeth of dish 6 and clutch lower wall 7 in clutch, in clutch, dish 6 and clutch lower wall 7 are merely capable of rotating in one direction, and link in dish 6 and clockwork spring outer ring in clutch, clutch lower wall 7 links with clockwork spring inner ring, therefore, by reasonably arranging, i.e. may be limited in the case of this dish 6 and relatively rotating of clutch lower wall 7 in clutch and be merely capable of making clockwork spring tighten up (i.e. energy storage), and can not rotate towards the direction making clockwork spring loosen (i.e. release can).I.e. having locked clockwork spring makes clockwork spring can not release energy.

Group gyro is hit by a bullet from female gyro after separating out and landing, top foot 9 is pressed once by ground, the slide block 91 of top foot 9 moves to oblique chute 71, central shaft 8 is promoted to rise, chuck part 81 and the draw-in groove 73 of central shaft 8 depart from and drive dish 6 in clutch to depart from clutch lower wall 7, now the inner ring of clockwork spring no longer links with clutch lower wall 7, in clutch, dish 6 the most no longer engages with clutch lower wall 7, therefore, now clockwork spring is no longer limited, clockwork spring is released energy thus is driven ratchet 4 to rotate, and ratchet 4 rotates and drives gyro shell 5 to rotate.

When game over or player want the rotation terminating sub-gyro, can the most again press top foot 9, under the effect of return spring, the slide block 91 of top foot 9 moves to straight runner 72, and chuck part 81 is reset in draw-in groove 73, dish 6 and clutch lower wall 7 clamping in clutch, now clockwork spring is again limited and is stopped releasing energy, and player passes through rotation case 5, extremely can be with driving pawl 4, and then drive clockwork spring inner ring to make clockwork spring tighten up, increase the energy of clockwork spring storage.

It should be noted that, the present embodiment have employed this mechanical energy storing device of clockwork spring based on reasons such as production costs, but according to actual product situation, other kinds of energy storage device can also be set, can even is that electronic energy storage devices, as long as can be triggered when top foot 9 lands and is pressed and release can for this energy storage device.

Finally should be noted that; above example is only in order to illustrate the technical scheme of the invention; rather than the restriction to the invention protection domain; although having made to explain to the invention with reference to preferred embodiment; it will be understood by those within the art that; the technical scheme of the invention can be modified or equivalent, without deviating from the spirit and scope of the invention technical scheme.

Claims (19)

1. a self-driven gyro, including housing, it is characterised in that: including top foot and driving means, described driving means is triggered by described top foot and drives described housing into rotation.

Self-driven gyro the most as claimed in claim 1, it is characterised in that: described driving means includes that mechanical energy storing device, described mechanical energy storing device are released energy and driven described housing into rotation when driving means triggers.

Self-driven gyro the most according to claim 2, it is characterized in that, described driving means also includes locking mechanism, described top foot triggers described locking mechanism when being pressed, make mechanical energy storing device described in described locking mechanism locking, or make described locking mechanism that described mechanical energy storing device is released locking；Described in described locking mechanism locking during mechanical energy storing device, described mechanical energy storing device stops releasing energy.

Self-driven gyro the most as claimed in claim 3, it is characterized in that: described mechanical energy storing device is clockwork spring, described locking mechanism is arrangement of clutch, this arrangement of clutch includes dish and clutch lower wall in clutch, in described clutch in the middle of dish and clutch lower wall, one is in transmission connection with the inner ring of clockwork spring, and another is in transmission connection with the outer ring of clockwork spring.

Self-driven gyro the most according to claim 4, it is characterised in that the outer ring of described clockwork spring connects dish in described clutch by pin.

Self-driven gyro the most according to claim 5, it is characterized in that, in described clutch, dish is provided with screens groove or the screens hole of the bearing of trend setting along its center axis, the bearing of trend of described pin central axis of dish in described clutch is arranged, the first end of this pin is fixing with the outer ring of described clockwork spring to be connected, the second end of described pin is inserted in described screens groove or screens hole, makes dish in described clutch can move along described pin.

Self-driven gyro the most according to claim 4, it is characterised in that the inner ring of described clockwork spring is in transmission connection mutually with described housing, described housing is connected with described clutch lower wall transmission by mediation member, and described top foot connects with described mediation member transmission.

Self-driven gyro the most according to claim 7, it is characterised in that the inner ring of described clockwork spring connects has ratchet, described housing to be provided with ratchet, and described ratchet is connected in described ratchet, makes the inner ring of described clockwork spring be connected with described housing.

Self-driven gyro the most according to claim 7, it is characterised in that described mediation member includes central shaft and chuck part, the top of described central shaft is fixing with described housing to be connected, and the bottom of this central shaft is connected with described chuck part；Described clutch lower wall is provided with the draw-in groove that can match with described chuck part.

Self-driven gyro the most according to claim 9, it is characterized in that, described clutch lower wall includes main body panel portion and support tube portion, described draw-in groove is located at described main body panel portion, described support tube portion has barrel chamber, this barrel chamber connects described draw-in groove, and described top is worn and is located in described barrel chamber, and connects with described chuck part transmission.

11. self-driven gyros according to claim 10, it is characterized in that, described mediation member also includes transmission column piece, the top of this transmission column piece is fixing with described chuck part to be connected, the top of described top foot is provided with the cavity matched with described transmission column piece, the degree of depth of described cavity, less than or equal to the length of described transmission column piece, makes described top foot be connected with described chuck part transmission by described transmission column piece.

12. self-driven gyros according to claim 10, it is characterized in that, the cavity wall of described barrel chamber is provided with oblique chute and straight runner, described oblique chute is located between adjacent two straight runner, the degree of depth of described straight runner is more than the degree of depth of described oblique chute, the outer wall of described top foot is provided with the slide block matched with described straight runner and described oblique chute, is provided with guide edge between adjacent oblique chute and straight runner.

13. self-driven gyros according to claim 4, it is characterised in that also include bottom, described clutch is connected by spring between dish with described bottom.

14. self-driven gyros according to claim 4, it is characterized in that, in described clutch, dish and clutch lower wall are respectively arranged with the gear teeth, and the gear teeth of dish can engage each other with the gear teeth of described clutch lower wall in described clutch, the described gear teeth include helical teeth limit and position-limited edge, the central axial direction of this position-limited edge dish or clutch lower wall in described clutch is arranged, and described helical teeth limit forms angle with described position-limited edge.

15. 1 kinds of primary and secondary gyros, including female gyro and sub-gyro, described sub-gyro is detachably mounted to described female gyro, it is characterised in that: described sub-gyro is the self-driven gyro in claim 1-14 described in any one claim.

16. a kind of primary and secondary gyros as claimed in claim 15, it is characterized in that: the bottom of described sub-gyro is provided with counterpart, described female gyro is provided with the storage tank for housing described counterpart, is provided with catch means, counterpart described in described catch means clamping in described storage tank.

17. a kind of primary and secondary gyros as claimed in claim 16, it is characterised in that: described counterpart includes that projection, described catch means include being arranged at the barrier sheet of storage tank notch, and described barrier sheet stops described projection thus is limited in storage tank by described counterpart.

18. primary and secondary gyros as claimed in claim 17 a kind of, it is characterised in that: described catch means includes stirring button, described in stir and when button is struck, drive described barrier sheet to rotate with the described projection that staggers, thus release projection spacing.

19. a kind of primary and secondary gyros as claimed in claim 16, it is characterised in that: the bottom land of described storage tank is provided with elastic force apparatus, and described elastic force apparatus applies elastic force to above-mentioned counterpart.