CN204275483U - A kind of sideslip energy storage gyro - Google Patents

Abstract

The utility model discloses a kind of sideslip energy storage gyro, relate to toy technique field.Described gyro comprises flywheel group, the central shaft of rotatable support in shell of shell and inside thereof; Described flywheel group to be set on described central shaft can with central shaft synchronous axial system, described gyro also comprises the gear drive being positioned at enclosure and the friction pulley being partly positioned at enclosure, described shell side is provided with opening, described friction pulley protrudes the edge of described opening, described friction pulley provides driving force for gear drive, described gear drive drives central axis and then drives described flywheel group to rotate, and described flywheel group is rotated and described shell can be driven to rotate.The sideslip energy storage gyro gyro aid overcome in the past in the utility model is not easily carried with, is operated inconvenience, flimsy shortcoming.

Description

A kind of sideslip energy storage gyro

Technical field

The utility model relates to toy technique field, particularly relates to a kind of sideslip energy storage gyro.

Background technology

Existing gyro, all needs before rotation to carry out energy storage by the aid such as tie rod, transmitter, when child goes out to play, must carry the aid beyond gyroscope body, and described aid takes up space and is far longer than gyroscope body, carries inconvenience.Therefore just above problem, needs to design a kind of simply light gyro, need not aid, and can pass through the direct energy storage of self structure, the gyro aid overcome in the past is not easily carried with, unhandy shortcoming.

Utility model content

The purpose of this utility model is to propose a kind of sideslip energy storage gyro, structure is simple, need not external auxiliary instrument just can directly energy storage, there is the advantage that easy to carry, convenient operation, rotation are lasting.

For reaching this object, the utility model by the following technical solutions:

A kind of sideslip energy storage gyro, comprise flywheel group, the central shaft of shell and inside thereof, described flywheel group is set on described central shaft, described gyro also comprises the gear drive being positioned at enclosure and the friction pulley being partly positioned at enclosure, described shell side is provided with opening, described friction pulley protrudes the edge of described opening, and described friction pulley provides driving force for gear drive, and described gear drive drives central axis.

Further technical scheme, described gear drive comprises the first gear, the second gear, the 3rd gear and tooth rest, described first gear and the second geared sleeve are located on the axle that is installed between described tooth rest and shell, described first gear is coaxially fixedly connected with described friction pulley, described 3rd geared sleeve is established on center shaft, described second gear is between the first gear and the 3rd gear, and engages with the two.

Further technical scheme, described gyro also comprises clutch and stage clip, and described clutch sleeve is established on center shaft, and described flywheel group is on the clutch sheathed, the end face of described clutch and the 3rd gear contacts with each other, and the two end face contacted with each other is provided with the intermeshing gear teeth; Described stage clip one end and the 3rd gear are away from the end contact of clutch.

Further technical scheme, described gyro also comprises two bearings, and described bearing is located at the two ends of central shaft, and fixes on the housing.

Further technical scheme, is provided with flywheel supporting plate between described bearing near clutch and clutch, and described flywheel supporting plate to be enclosed within described central shaft and and clutch engagement.

Further technical scheme, described shell is divided into pressing plate and upper cover, described pressing plate is connected with upper cover latch, the position that described pressing plate outer surface coincides with center shaft axis arranges groove, the position that described upper exterior surface coincides with center shaft axis is provided with top point, when gyro rotates, described top point contacts with earth surface or with the groove on gyro described in another.

Further technical scheme, the center of described first gear is provided with lug boss, and described friction pulley is set on described lug boss, is interference fit between described friction pulley and lug boss.

Further technical scheme, the end face of described first gear is provided with projection, and the end face of described friction pulley is provided with the hole of matching with described projection, described projection and described hole interference fit.

Further technical scheme, the gear teeth on the end face of described clutch and the 3rd Gear Contact are conical tooth.

Further technical scheme, described top point surface is covered with metal level.

The beneficial effects of the utility model:

The sideslip energy storage gyro that the utility model provides, comprises shell side and is protruding with friction pulley, utilizes manual sliding friction to take turns, make friction pulley driven gear, rotated by gear driven central shaft, when friction pulley stops slide outside, flywheel group on central shaft still relies on inertial rotation, release energy storage, and top point finds support point, gyro then can maintain rotation status, this kind of gyro need not use the auxiliary equipment such as tie rod, transmitter, and easy to carry, structure is simple, reasonable in design, stronger is recreational; Arrange clutch on center shaft in addition, the impulsive force that when can prevent friction pulley from stopping instantaneously, gear can be strengthened and suffering situation about even fractureing of wearing and tearing occurs, and effectively extends the life-span of gyro.

Accompanying drawing explanation

Fig. 1 is the cross-sectional view of the sideslip energy storage gyro that the utility model detailed description of the invention provides;

Fig. 2 is the decomposition texture schematic diagram of the sideslip energy storage gyro that the utility model detailed description of the invention provides;

Fig. 3 is the structural representation of the 3rd gear that the utility model detailed description of the invention provides.

Wherein, 1, upper cover; 2, pressing plate; 3, flywheel group; 4, central shaft; 5, friction pulley; 6, opening; 7, the first gear; 8, the second gear; 9, the 3rd gear; 10, tooth rest; 11, clutch; 12, stage clip; 13, bearing; 14, flywheel supporting plate; 15, top point; 16, groove; 17, the gear teeth; 18, lug boss; 19, protruding; 20, hole.

Detailed description of the invention

The technical solution of the utility model is further illustrated by detailed description of the invention below in conjunction with accompanying drawing.

Fig. 1 and Fig. 2 is the section Sum decomposition structural representation of the sideslip energy storage gyro that the utility model detailed description of the invention provides respectively.As depicted in figs. 1 and 2, a kind of sideslip energy storage gyro, comprise upper cover 1 and pressing plate 2, upper cover 1 and pressing plate 2 are fastened togather the cavity of formation side with opening 6, and be provided with central shaft 4 between described pressing plate 2 and upper cover 1, the extended line of central shaft 4 axis and the point of intersection of upper cover 1 are provided with top point 15, groove 16 is provided with the point of intersection of pressing plate 2, described top point 15 outsides are covered with metal level, and described metal level can prevent the wearing and tearing of top point, strengthens the life-span of gyro.Described central shaft 4 two ends are provided with bearing 13, and described two bearings 13 are individually fixed on described pressing plate 2 and upper cover 1.Flywheel supporting plate 14, clutch 11, the 3rd gear 9 and stage clip 12 is arranged with successively from upper cover end to pressing plate end between two bearings 13 on described central shaft 4, the gear teeth 17 that the end face that clutch 11 contacts with the 3rd gear 9 is equipped with, and the gear teeth 17 are conical tooth, as shown in Figure 3, the two is meshed together by conical tooth.Wherein clutch 11 is arranged with flywheel group 3, described flywheel supporting plate 14 pairs of flywheel groups 3 play positioning action, and the 3rd gear 9 engages with the second gear 8, and the second gear 8 and the first gear 7 engage transmission successively.Described first gear 7 and the second gear 8 are set on the axle between tooth rest 10 and pressing plate 2, the centre of the first gear 7 is provided with lug boss 18, described lug boss 18 is arranged with friction pulley 5, interference fit between lug boss 18 and friction pulley 5, the end face of described first gear 7 is provided with protruding 19, the end face of described friction pulley 5 is provided with and described protruding 19 holes of matching 20, hole 20 interference fit described in described projection and 19, first gear 7 and friction pulley 5 connect as one, friction pulley 5 protrudes the edge of the opening 6 of upper cover 1 and pressing plate 2 formation, hand can stir friction pulley 5, when stirring friction pulley 5, rotated by gear drive flywheel driven group 3, the rotating band central shaft 4 of flywheel group 3 rotates, when rotating between the bearing 13 at central shaft 4 and its two ends, there is certain frictional force, under the effect of frictional force, the shell of gyro rotates thereupon.By the gear drive between three gears and clutch 11, flywheel group 3 is rotated according to described structure, here other gear drives rational in infrastructure can also be selected, engage with central shaft 4 as direct geared can be made, promote central shaft 4 to rotate, thus drive the flywheel group 3 on it to rotate to obtain centrifugal force.

When the gyro using this detailed description of the invention to provide is played, only needs one hold the shell of gyro upper cover 1 and pressing plate 2 formation, another hand stirs friction pulley 5, friction pulley 5 is made to drive the first gear 7 to rotate, afterwards due to the drive connection between gear, 3rd gear 9 can be with dynamic clutch 11 to rotate around central shaft 4, the flywheel group 3 be enclosed within clutch 11 is rotated thereupon, when stopping stirring friction pulley 5, the flywheel group 3 of gyro inside is due to inertia, still can do rotation to discharge the energy stored along central shaft 4, the rotation of flywheel group 3 produces centrifugal force, top point 15 is landed, and central shaft 4 is perpendicular to horizontal plane, gyro shell can rotate under the drive of flywheel group 3.Because top point 15 is coaxial with the groove 16 on pressing plate 2, multiple gyro can be realized and stack rotation, can test and promote the sense of equilibrium and the manipulative ability of child.

Clutch 11 in this specific embodiment plays the effect reducing gear wear.When gyro normally rotates, the conical tooth on the end face that clutch 11 contacts with the 3rd gear 9 is engaged closely, makes the two as same entirety.But when flywheel group 3 High Rotation Speed, braking exposes friction pulley 5, clutch 11 is still with the centrifugal force High Rotation Speed of flywheel group 3, and the 3rd gear 9 is owing to declining with friction pulley 5 speed that links, the torsion rotated around central shaft 4 is produced between clutch 11 and the 3rd gear 9, due to the effect of power therebetween, be subjected to displacement between the conical tooth of now clutch 11 and the 3rd gear 9 engagement place, 3rd gear 9 centrally axle 4 moves to the direction of stage clip 12, stage clip 12 is stressed contraction, torsion is to produce the form release of pressure to stage clip 12, until torsion is less than margin of safety, clutch 11 meeting and the 3rd gear 9 same entirety of engaging again, greatly limit can reduce gear wear like this, increase toy life.

Above-mentionedly only the specific embodiment of the utility model to be illustrated; but can not as protection domain of the present utility model; every according to the change of the equivalence done by design spirit in the utility model or to modify or equal proportion zooms in or out, all should think and fall into protection domain of the present utility model.

Claims (10)

1. a sideslip energy storage gyro, comprises the flywheel group (3) of shell and inside thereof, the central shaft of rotatable support in shell (4), described flywheel group (3) to be set on described central shaft (4) can with central shaft (4) synchronous axial system, it is characterized in that, described gyro also comprises the gear drive being positioned at enclosure and the friction pulley (5) being partly positioned at enclosure, described shell side is provided with opening (6), described friction pulley (5) protrudes the edge of described opening (6), described friction pulley (5) provides driving force for gear drive, described gear drive band central shaft (4) is rotated and then is driven described flywheel group (3) to rotate, the rotation of described flywheel group (3) can drive described shell to rotate.

2. sideslip energy storage gyro according to claim 1, it is characterized in that, described gear drive comprises the first gear (7), second gear (8), 3rd gear (9) and tooth rest (10), described first gear (7) and the second gear (8) are set on the axle that is installed between described tooth rest (10) and shell, described first gear (7) is coaxially fixedly connected with described friction pulley (5), described 3rd gear (9) is set on central shaft (4), described second gear (8) is between the first gear (7) and the 3rd gear (9), and engage respectively with the two.

3. sideslip energy storage gyro according to claim 2, it is characterized in that, described gyro also comprises clutch (11) and stage clip (12), described clutch (11) is set on central shaft (4), described flywheel group (3) is set on clutch (11), described clutch (11) contacts with each other with the end face of the 3rd gear (9), and the two end face contacted with each other is provided with the intermeshing gear teeth (17); Described stage clip (12) one end and the 3rd gear (9) are away from the end contact of clutch (11).

4. sideslip energy storage gyro according to claim 3, is characterized in that, described gyro also comprises two bearings (13), and described bearing (13) is located at the two ends of central shaft (4), and fixes on the housing.

5. sideslip energy storage gyro according to claim 4, it is characterized in that, be provided with flywheel supporting plate (14) between the described bearing (13) near clutch (11) and clutch (11), described flywheel supporting plate (14) is enclosed within described central shaft (4) and goes up and coordinate with clutch (11).

6. according to the arbitrary described sideslip energy storage gyro of claim 1-5, it is characterized in that, described shell is divided into pressing plate (2) and upper cover (1), described pressing plate (2) is connected with upper cover (1) buckle, described pressing plate (2) outer surface arranges groove (16) with the position of central shaft (4) axes coincide, described upper cover (1) outer surface is provided with top point (15) with the position of central shaft (4) axes coincide, when gyro rotates, described top point (15) contacts with earth surface or with the groove (16) on gyro described in another.

7. sideslip energy storage gyro according to claim 2, it is characterized in that, the center of described first gear (7) is provided with lug boss (18), described friction pulley (5) is set on described lug boss (18), is interference fit between described friction pulley (5) and lug boss (18).

8. sideslip energy storage gyro according to claim 2, it is characterized in that, the end face of described first gear is provided with projection (19), the end face of described friction pulley (5) is provided with the hole (20) of matching with described projection (19), described projection (19) and described hole (20) interference fit.

9. sideslip energy storage gyro according to claim 3, is characterized in that, the gear teeth (17) on the end face that described clutch (11) contacts with the 3rd gear (9) are conical tooth.

10. sideslip energy storage gyro according to claim 6, is characterized in that, described top point (15) surface is covered with metal level.