CN204016758U - Three sections of separate type gyros - Google Patents

Abstract

This utility model provides a kind of three sections of separate type gyros, comprising: middle part axially arranges the first rotary flyweights of a connecting axle perforate, and the first rotary flyweights comprises the driven wheel that is located at its top; Comprise the emitter that is provided with uncovered cavity, emitter is placed in the top of the first rotary flyweights, and driven wheel is placed in uncovered cavity; The sidewall of emitter is provided with launch hole, and launch hole is communicated with uncovered cavity; The center of base arranges a rotating shaft perforate, arranges one second rotating shaft in rotating shaft perforate; Base is placed in the bottom of the first rotary flyweights; Connect rotating shaft activity and run through connecting axle perforate, the upper end connecting rotating shaft is fixedly connected with emitter, and the lower end connecting rotating shaft is fixedly connected with base.By said structure, this utility model spinning time duration is more lasting, grasps simple, launches easily.

Description

Three sections of separate type gyros

Technical field

This utility model relates to a kind of gyro, particularly a kind of three sections of separate type gyros.

Background technology

The power trigger mechanism of existing gyro is generally all arranged on the bottom of gyro, the design comprising the existing gyro of such design can cause some problem following: it is convenient not to grip, gyro can not be put down after causing extracting tooth bar out in good time, bad impact is caused on gyro gyrating mass; Power trigger mechanism is arranged on the rotation that bottom have impact on gyro, gyro is rotated and can not keep the longer time; The rotational time of gyro can not be lasting.

Utility model content

This utility model object is to overcome the deficiencies in the prior art, there is provided a kind of three sections of separate type gyros, its driven wheel is arranged on the top of gyro entirety and has three sections of separate type, makes this utility model spinning time duration more lasting, grasp simple, launch easily.

In order to achieve the above object, this utility model is by the following technical solutions:

A kind of three sections of separate type gyros, comprising:

One first rotary flyweights, comprises the driven wheel that is arranged on its center top; The middle part of described first rotary flyweights axially arranges a connecting axle perforate;

One emitter, comprise a uncovered cavity, described emitter is placed in the top of the first rotary flyweights, and described driven wheel is placed in uncovered cavity; The sidewall of described emitter is provided with at least one launch hole corresponding with driven wheel, and described launch hole is communicated with described uncovered cavity;

One base, the center of described base arranges a rotating shaft perforate, and arranging one in described rotating shaft perforate can the second rotating shaft of axially-movable in rotating shaft perforate; Described base is placed in the bottom of described first rotary flyweights; And

One connects rotating shaft, and the activity of described connection rotating shaft runs through connecting axle perforate, and connecting axle perforate is extended at the two ends of described connection rotating shaft, and the upper end of described connection rotating shaft is fixedly connected with emitter, and the lower end of described connection rotating shaft is fixedly connected with base.

As preferably, described first rotary flyweights comprises flywheel main body and the first rotating shaft; Described first rotating shaft comprises the driven wheel being arranged on its axle head;

Described flywheel main body comprises:

One chassis, comprises dish chamber; Described first rotating shaft is arranged on the middle part in described dish chamber;

At least two pieces of flywheel sheets, described flywheel sheet is along the circumferential direction removably mounted on dish chamber; Described flywheel sheet comprises feature sheet, and described feature sheet is in outside described chassis; And

One fixation kit for the first rotating shaft, chassis and flywheel sheet are assembled into one.

As preferably, be provided with the first through hole in the middle part of the inwall in the dish chamber on described chassis, the inwall in described dish chamber is along the circumferential direction provided with at least bicrescentic installation recess; Described first through hole extends the through hole that relative two round tube holes putting rooms are formed for one;

Described flywheel sheet also comprises substrate and the first mounting blocks, and described first mounting blocks is vertical with substrate; Described flywheel sheet is arranged on corresponding installation recess by the lower end of the first mounting blocks; Described feature sheet is the arc-like sheet vertical with substrate, and described arc-like sheet is centered around the outside on chassis;

Described fixation kit comprises:

One rotating shaft holder, comprise base plate and be arranged on the axle bed on base plate, the lateral wall of described axle bed is provided with external screw thread; The second through hole that one runs through base plate and axle bed is offered in the middle part of described rotating shaft holder radial direction; The free end of described axle bed runs through described first through hole, and described base plate is stuck in the bottom on chassis; The two side that the second through hole on described axle bed is relative is respectively arranged with groove-shaped notch; Described two groove-shaped notchs are affixed with the import of putting room respectively;

Described first rotating shaft comprises the stable foot that an axis body, axis body both sides axial plane in opposite directions extends, and described driven wheel is arranged on the end of axis body, and described first rotating shaft center arranges an axial aperture; Described axis body is arranged in the second through hole, and described axial aperture is communicated with the second through hole; Described stable foot card entry slot v notch v is also placed in storing room;

One reinforcing ring, is provided with third through-hole in the middle part of described reinforcing ring, and the edge of described third through-hole is provided with the spacing breach supplying the upper end of the first mounting blocks to pass; Described reinforcing ring is placed on described flywheel sheet, and the upper end of described first mounting blocks is through described spacing breach; The edge of described reinforcing ring extends a circle positive stop strip; Described reinforcing ring is surrounded clamping by the arc-like sheet of described flywheel sheet;

One ring block, the middle part of described ring block is the recess of an evagination, and the center of described recess is provided with fourth hole, and on the ring block of described recess side, corresponding flywheel sheet is provided with at least two and installs through hole; Described ring block is placed on described reinforcing ring, and described fourth hole is set in described axle bed and puts room; Described positive stop strip surrounds clamping ring block, and corresponding installation through hole is inserted in the upper end of described first mounting blocks; And

One compact heap, is provided with fifth hole in the middle part of described compact heap, and the inwall of described fifth hole is provided with female thread; Described compact heap and described axle bed thread connection; Described compact heap is placed in recess, and described compact heap compresses the bottom surface of stablizing foot and recess;

First through hole, the second through hole, third through-hole, fourth hole, fifth hole and axial aperture are coaxial and jointly form connecting axle perforate.

As preferably, described base comprises:

One pedestal, described pedestal is arranged a uncovered cavity, arranges a screens in described uncovered cavity; In the middle part of the inwall of described uncovered cavity, clematis stem hole is set; Described clematis stem hole is rotating shaft perforate;

One connects folder, and comprising two can the elasticity branch of opening or drawing close, and the root of described branch is arranged in described screens, and the plane residing for the described opening connecting folder and uncovered cavity is parallel; The middle part phase convex of described two branches surrounds a circular hole;

One separates lock dog, and comprise interconnective briquetting and start block, the free end of described startup block is arrow portion; The corresponding screens in edge of described uncovered cavity arranges an installation gap, and described startup block snaps in installation gap, and the free end of two branches is pressed close in described arrow portion, and the inwall of described uncovered cavity and the free end of two branches clamp arrow portion;

One lid, described cover cap is combined on described pedestal, and described lid compresses described startup block; The middle part of described lid arranges the 7th through hole; And

One connects rotating shaft pipe box, and described connection rotating shaft pipe box is placed in the below of described circular hole and close-fitting is placed in clematis stem hole;

Groove is enclosed close to the lateral wall formation one of end in the lower end of described connection rotating shaft, and the lower end of described connection rotating shaft is run through the 7th through hole, circular hole successively and connects rotating shaft pipe box, and the middle part of described two branches snaps in groove.

As preferably, described clematis stem hole is the perforate of secondary ladder, and the diameter of the first order shoulder hole in clematis stem hole is greater than the diameter of the second level shoulder hole in clematis stem hole;

Described connection rotating shaft pipe box close-fitting is placed in the first order shoulder hole in clematis stem hole; Described second rotating shaft is roughly in rivet-like, and the head of described second rotating shaft is stuck in the first order shoulder hole in clematis stem hole, and the axle body pine of described second rotating shaft is joined the second level shoulder hole that runs through clematis stem hole and extends outside bottom pedestal; The distance of the cascaded surface in the lower end surface of described connection rotating shaft and described clematis stem hole is slightly larger than the head thickness of described second rotating shaft.

As preferably, described installation recess is provided with six, and described flywheel sheet is provided with six pieces, described installation through hole six.

As preferably, the end face of described compact heap is provided with the pilot hole inserted for supplying external tool.

As preferably, the roof of described uncovered cavity arranges an installing hole; Upper end sidewall last week of described connection rotating shaft, the upper end of described connection rotating shaft was connected with described installing hole close-fitting to arranging some longitudinal raised lines.

As preferably, the lateral wall of described emitter is provided with some horizontal raised lines.

As preferably, the top center of described emitter is provided with a rotation den, and the edge of described rotation den is around arranging a rotating ring.

Compared with prior art, this utility model has following beneficial effect:

Said structure forms three sections of separate type of the present utility model, and when driven wheel is driven, namely driven wheel drives the first rotary flyweights to rotate, and when the second rotating shaft contact is used for the card of gyro rotation or ground etc., overall gyro rotates; Now, the frictional force suffered by first paragraph rotary flyweights is very little, greatly reduces kinetic energy rejection, allows gyro possess the rotational time more lasting than like product and stability.The driven wheel of the first rotating shaft upper end and emitter composition upper end emitting module structure, upper end emitting module structure, makes player grasp simply, launches easily.The structure of flywheel sheet and base is easy to assemble, freely easy; Flywheel sheet freely can be changed and make gyro can have different personalized moulding or functional mode etc.

Accompanying drawing explanation

Fig. 1 is the structural representation of three sections of separate type gyros described in the utility model;

Fig. 2 is the explosive view of three sections of separate type gyros described in the utility model;

Fig. 3 is the decomposing schematic representation a of the partial structurtes of three sections of separate type gyros described in the utility model;

Fig. 4 is the decomposing schematic representation b of the partial structurtes of three sections of separate type gyros described in the utility model;

Fig. 5 is the decomposing schematic representation c of the partial structurtes of three sections of separate type gyros described in the utility model;

Fig. 6 is the decomposing schematic representation d of the partial structurtes of three sections of separate type gyros described in the utility model;

Fig. 7 is the decomposing schematic representation e of the partial structurtes of three sections of separate type gyros described in the utility model;

Fig. 8 is the cross-sectional schematic of the partial structurtes of three sections of separate type gyros described in the utility model;

Fig. 9 is the use schematic diagram of three sections of separate type gyros described in the utility model.

In figure:

1-the first rotary flyweights; 11-flywheel main body; 111-chassis; 1111-the first through hole; 11111-put room; 1112-recess is installed; 112-rotating shaft holder; 1121-base plate; 1122-axle bed; 1123-the second through hole; 1124-groove-shaped notch; 113-flywheel sheet; 1130-substrate; 1131-the first mounting blocks; 1132-arc-like sheet; 114-reinforcing ring; 1141-third through-hole; 1142-spacing breach; 115-ring block; 1151-fourth hole; 1152-through hole is installed; 1153-recess; 116-compact heap; 1161-fifth hole; 1162-pilot hole; 12-the first rotating shaft; 121-axis body; 122-stablize foot; 123-driven wheel; 124-axial aperture; 2-emitter; 21-upper cover; 22-lower plate; 23-launch hole; 24-horizontal raised line; 25-rotate den; 26-rotating ring; 3-base; 31-pedestal; 311-uncovered cavity; 312-the clematis stem hole; 32-connect folder; 321-circular hole; 33-connect rotating shaft pipe box; 34-separate lock dog; 341-start block; 3411-arrow portion; 342-briquetting; 35-lid; 4-connect rotating shaft; 41-longitudinal raised line; 42-groove; 5-the second rotating shaft; 6-tooth bar.

Now the utility model is described in further detail with specific embodiment by reference to the accompanying drawings.

Detailed description of the invention

As shown in Figures 1 to 9, be a kind of three sections of separate type gyros described in the utility model, mainly comprise the first rotary flyweights 1, emitter 2, base 3 and connect rotating shaft 4.

First rotary flyweights 1 comprises flywheel main body 11 and the first rotating shaft 12.

Flywheel main body 11 comprises:

One chassis 111, comprises dish chamber, is provided with the first through hole 1111 in the middle part of the inwall in dish chamber; The inwall in dish chamber is along the circumferential direction provided with the installation recess 1112 of six protuberances; The through hole that two round tube holes putting room 11111 that first through hole 1111 is relative for an edge extends are formed.

One rotating shaft holder 112, comprise base plate 1121 and be arranged on the axle bed 1122 on base plate 1121, the lateral wall of axle bed 1122 is provided with external screw thread; The second through hole 1123 that one runs through base plate 1121 and axle bed 1122 is offered at the radial middle part of rotating shaft holder 112; The free end of axle bed 1122 runs through the first through hole 1111 and enters dish chamber, and base plate 1121 is stuck in the bottom on chassis 111; The two side that the second through hole 1123 on axle bed 1122 is relative is respectively arranged with groove-shaped notch 1124; Composition graphs 3 and Fig. 4, two groove-shaped notchs 1124 are affixed with the import of putting room 11111 respectively, and in Fig. 3, aminoacyl site puts the import in room 11111.

Six pieces of flywheel sheets 113, each block flywheel sheet 113 comprises substrate 1130, arc-like sheet 1132 and the first mounting blocks 1131; First lateral vertical of substrate 1130 is provided with on the installation recess 1112 of lower end insertion correspondence of the first mounting blocks 1131, first mounting blocks 1131, installs on recess 1112 even flywheel sheet 113 is arranged on; Substrate 1130 be provided with an arc-like sheet 1132 with the first side the second lateral vertical in opposite directions, arc-like sheet 1132 is in outside chassis 111; Arc-like sheet 1132 is centered around outside chassis.The upper and lower side of the first mounting blocks 1131 extends along the direction, two sides of substrate 1130.Arc-like sheet 1132 is a kind of feature sheet decorating or realize whipping top function, and it can with other replacement such as shape, form, the cosmetic sheet etc. of such as plane.

The center that first rotating shaft 12 comprises the stable foot 122 that an axis body 121, axis body 121 both sides axial plane in opposite directions extends and driven wheel 123, first rotating shaft 12 being horizontally set on axis body 121 top arranges axial aperture 124; Axis body 121 is fit into (lower end of the first rotating shaft 12 is fit into the second through hole 1123 from the aperture of axle bed 1122 side) in the second through hole 1123, stablize foot 122 card entry slot v notch v 1124 and protrude outside the second through hole 1123 sidewall, projection is placed in puts room 11111; Axial aperture 124 is communicated with the second through hole 1123 and forms connecting axle perforate; Driven wheel 123 is on rotating shaft holder 112.

One reinforcing ring 114, is provided with third through-hole 1141 in the middle part of reinforcing ring 114, the edge of third through-hole 1141 is provided with the spacing breach 1142 supplying the upper end of the first mounting blocks 1131 to pass; Reinforcing ring 114 is placed on flywheel sheet 113, and the first mounting blocks 1131 upper end is through spacing breach 1142; The edge of reinforcing ring 114 extends a circle positive stop strip; Reinforcing ring 114 is surrounded clamping by the arc-like sheet 1132 of flywheel sheet 113.

As shown in Figure 4, a ring block 115, the middle part of ring block 115 is the recess 1153 of an evagination, and the center of recess 1153 is provided with fourth hole 1151, and on the ring block 115 of the side of recess 1153, corresponding flywheel sheet 113 is provided with six and installs through hole 1152; Ring block 115 is placed on reinforcing ring 114, and fourth hole 1151 is set in axle bed 1122 and puts room 11111; Corresponding installation through hole 1152 is inserted in the upper end that positive stop strip surrounds clamping ring block 115, first mounting blocks 1131; In above-mentioned installation, the recess 1153 of ring block 115 embedded in the depression surrounded by dish chamber, flywheel sheet 113 and reinforcing ring 114.

One compact heap 116, is provided with fifth hole 1161 in the middle part of compact heap 116, the inwall of fifth hole 1161 is provided with female thread; Compact heap 116 and axle bed 1122 thread connection; Compact heap 116 is placed in recess 1153, and compact heap 116 compresses the bottom surface of stablizing foot 122 and recess 1153.The end face of compact heap 116 is provided with pilot hole 1162.

Said structure, the first through hole 1111, second through hole 1123, third through-hole 1141, fourth hole 1151, fifth hole 1161 and axial aperture 124 are coaxial and jointly form connecting axle perforate; Wherein, the first through hole 1111, third through-hole 1141, fourth hole 1151, fifth hole 1161 are enclosed within the second through hole 1123, and third through-hole 1141, fourth hole 1151, fifth hole 1161 overlap outside axial aperture 124.

The activity of connection rotating shaft 4 runs through connecting axle perforate and connecting axle perforate (namely through in the second through hole 1123 and axial aperture 124, two ends pass the first rotary flyweights 1) is extended at its two ends; Namely connect rotating shaft 4 to be communicated with pine with axial aperture 124 and the second through hole 1123 and to join (namely joining with connecting axle perforate pine).

Wherein, recess 1112, flywheel sheet 113 are installed and through hole 1152 are installed for one_to_one corresponding setting.

Emitter 2 comprises upper cover 21 and lower plate 22, and upper cover 21 is arranged on composition one in lower plate 22.The uncovered cavity 311 of an opening in the lower plate 22 of emitter 2 is comprised at emitter 2, the sidewall of emitter 2 is provided with two launch holes 23 (launch hole 23 refers to two relative and apertures be communicated with uncovered cavity 311), and launch hole 23 is communicated with uncovered cavity 311.Emitter 2 is placed in the top of the first rotary flyweights 1, and the uncovered cavity 311 of emitter 2 covers driven wheel 123, makes driven wheel 123 be placed in uncovered cavity 311; Launch hole 23 is corresponding with driven wheel 123.The lateral wall of emitter 2 is provided with some horizontal raised lines 24.The top of emitter 2 is provided with a rotation den 25, rotates the edge of den 25 around arranging a rotating ring 26.The roof of uncovered cavity 311 arranges an installing hole; Connecting upper end sidewall last week of rotating shaft 4 to arranging some longitudinal raised lines 41, connecting rotating shaft 4 upper end and running through the first rotary flyweights and then insert installing hole, and realize close-fitting by the effect of longitudinal raised line 41 with installing hole and be connected.

Base 3 is placed in the bottom of the first rotary flyweights 1; Base 3 comprises:

One pedestal 31, pedestal 31 is arranged a uncovered cavity 311, arranges a screens in uncovered cavity 311; In the middle part of the inwall of uncovered cavity 311, clematis stem hole 312 is set; Clematis stem hole 312 is a secondary ladder perforate, and the diameter of the first order shoulder hole in clematis stem hole 312 is greater than the diameter of the second level shoulder hole in clematis stem hole 312; Clematis stem hole 312 is rotating shaft perforate.

One connects folder 32, connect folder 32 comprise two can the elasticity branch of opening or drawing close, the root connecting the branch of folder 32 is arranged in screens, and the plane residing for opening connecting folder 32 and uncovered cavity 311 is parallel; The middle part phase convex of two branches surrounds a circular hole.

One separates lock dog 34, and solution lock dog 34 comprises briquetting 342 and starts block 341, the vertical connection mutually of briquetting 342 and startup block 341; The corresponding screens in uncovered edge of uncovered cavity 311 arranges an installation gap, starts block 341 and snaps in installation gap; Starting the free end of block 341 is arrow portion 3411, and the free end of two branches is pressed close in the arrow portion 3411 starting block 341, and the plane residing for opening starting block 341 and uncovered cavity 311 is parallel.The inwall of uncovered cavity 311 and the free end of two branches clamp arrow portion 3411; Start block 341 and protrude a part in the outside (this part is not connected with briquetting 342) of pedestal 31, startup block 341 can be moved horizontally in installation gap.

One lid 35, lid 35 covers on pedestal 31, and lid 35 compresses and starts block 341, and the middle part of lid 35 arranges the 7th through hole.

One connects rotating shaft pipe box 33, connects rotating shaft pipe box 33 and is placed in the below of circular hole and close-fitting is placed in the first order shoulder hole in clematis stem hole 312.

One second rotating shaft 5, second rotating shaft 5 is roughly in rivet-like, and the head of the second rotating shaft 5 is stuck in the first order shoulder hole in clematis stem hole 312, and the axle body pine of the second rotating shaft 5 is joined the second level shoulder hole that runs through clematis stem hole 312 and extends outside bottom pedestal 31; Second rotating shaft 5 and clematis stem hole form pine and join, and automatically can not deviate from clematis stem hole.

As shown in Figure 8, the lower end connecting rotating shaft 4 forms a circle groove 42 close to the lateral wall of end, connects and runs through the 7th through hole, circular hole successively after the lower end of rotating shaft 4 passes the first rotary flyweights and connect rotating shaft pipe box 33; The middle part of two branches snaps in groove 42, connects rotating shaft 4 lower end and is connected rotating shaft pipe box 33 and interfixes, and the lower end surface of connection rotating shaft 4 is concordant with the lower end surface being connected rotating shaft pipe box 33; Connect the head thickness of distance slightly larger than described second rotating shaft 5 of the cascaded surface in the lower end surface of rotating shaft 4 and described clematis stem hole 312.Fig. 8 is gyro when vertically standing on ground, and the second rotating shaft 5 upper end contact connects the lower end surface of rotating shaft 4.

Application principle of the present utility model:

The flywheel main body 11 that first rotary flyweights 1 comprises and the first rotating shaft 12, the entirety that both compositions one interfix, structural principle is: rotating shaft holder 112 is fit into the first through hole 1111, the base plate 1121 of rotating shaft holder 112 is stuck in bottom chassis 111, then compact heap 116 and axle bed 1122 thread connection, even if chassis 111, rotating shaft holder 112 and compact heap 116 interfix.Flywheel sheet 113 is arranged on chassis 111, then compressed by reinforcing ring 114 and ring block 115, and ring block 115 is set in axle bed 1122, the first rotating shaft 12 is arranged on the second through hole 1123 of axle bed 1122, has compressed three stable feet 122 and ring block 115 finally by compact heap 116.Thus flywheel sheet 113, reinforcing ring 114, ring block 115 and the first rotating shaft 12 are interfixed with chassis 111, rotating shaft holder 112 and compact heap 116.Just shape is in aggregates for first rotary flyweights 1.

Connect rotating shaft 4 activity and run through connecting axle perforate, connection rotating shaft 4 and the first rotary flyweights 1 are mutually movable; The two ends connecting rotating shaft 4 interfix with emitter 2 and base 3 respectively.

In base 3, the second rotating shaft 5 and clematis stem hole 312 pine are joined.

Said structure forms three sections of separate type of this utility model three sections of separate type gyros.

Driven wheel 123 and the emitter 2 of the first rotating shaft 12 upper end form upper end emitting module structure, and emitting module, in upper end, makes player's part convenient to grasp.

First rotary flyweights 1 is structure easy to assemble: by the first mounting blocks 1131 as connecting portion, is then fixed by the detachable of reinforcing ring 114, ring block 115 and compact heap 116, makes flywheel sheet 113 freely install and to dismantle, also can replace.So user changes flywheel sheet 113 to realize different modes of playing, function or making gyro possess different outward appearances.The flywheel sheet 113 of the first rotary flyweights 1, reinforcing ring 114, ring block 115, first rotating shaft 12, chassis 111, rotating shaft holder 112 simple combination, finally by compact heap 116 and rotary fixing base thread connection, even if overall fixing, easy accessibility.

Base 3 is an easily detachable structure, as long as to base 3 center position pressing briquetting 342, the tip starting the arrow portion 3411 of block 341 can be inserted between two branches of connection folder 32, thus drives two branches to open, and namely the area of circular hole becomes large; Now, the middle part of two branches is deviate from from the groove 42 of the lower end of connection rotating shaft 4; Finally will connect rotating shaft 4 to pull-up, and just connection rotating shaft 4 can be detached base 3.Connection rotating shaft 4 is fit into base 3, namely the lower end connecting rotating shaft 4 is only needed to insert the 7th through hole, then circular hole is inserted, circular hole has elasticity due to self so can be stretched, the lower end connecting rotating shaft 4 is passed through smoothly, and the middle part of two branches snaps in groove 42, finally connect rotating shaft 4 and insert connection rotating shaft pipe box 33.

Application of the present utility model:

Tooth bar 6 is inserted launch hole 23 then to detach (as shown in Figure 9, when tooth bar 6 inserts, tooth bar 6 stretches out the two ends of launch hole 23), under the drive of tooth bar 6, driven wheel 123 rotates; Driven wheel 123 rotates and namely drives the first rotary flyweights 1 to rotate; After gyro lands, gyro entirety is rotated.

Wherein, due to the first rotary flyweights 1 start after can possess high centrifugal force, even if connecting rotating shaft 4 and the first rotary flyweights 1 is pine when joining, as long as connect the central rotation point of rotating shaft 4 at the first rotary flyweights 1, flywheel just can oneself stable rotation; In theory, connection rotating shaft 4 and base 3 (comprising the second rotating shaft 5) should be non-rotary, but in fact, there is frictional force with being connected between rotating shaft 4 and base 3 (comprising the second rotating shaft 5) in the first rotary flyweights 1, so after the first rotary flyweights 1 starts, connect rotating shaft 4 and base 3 (comprising the second rotating shaft 5) to exist owing to there being less frictional force, also can follow and slowly rotate, and the first rotary flyweights 1 can not be affected rotate.

Feature of the present utility model:

1, due to the structure of three sections of separate type and upper end emitting module, when gyro is rotated the first rotary flyweights 1 be disturbed little, even if grasp the running that emitter (indirectly grasp and connect rotating shaft 4) does not disturb the first rotary flyweights 1 yet when rotating, gyro launches simpler and safety, and in game process, player also freely can grasp gyro and is placed into the position being applicable to attacking or defending.

2, due to three sections of separate type, when rotated, even if be inverted by three sections of separate type gyros, gyro also can continue to rotate.When being inverted, that the rotating ring at emitter top contacts with by the card rotated in Give gyro, now under the impact of the first rotary flyweights 1, connect rotating shaft 4 constantly to move thus drive emitter motion, in this process, rotating ring can automatic motion search equilibrium point, and due to face contact, thus three sections of separate type gyros can move formation cruelly walks always; Inverted three sections of separate type gyros also can realize rotation of the present utility model defence playing method.

3, the second rotating shaft 5 is as the strong point of gyro entirety, and it can make cabling in three sections of separate type gyro rotary courses, walk groove; Three sections of separate type gyros can be made to rotate at palm; And, two three sections of separate type gyros can also realize superposing the playing method rotated, namely first three sections of separate type gyro is first made to rotate, and the axle head of the second rotating shaft 5 of these first three sections of separate type gyro is inserted the rotation den 25 of second three sections of separate type gyro (second three sections of separate type gyro is rotating), now two three sections of separate type gyros just rotate together; In like manner can superpose three, four etc.Can continue after superposition to rotate, because gyro starts rear first rotary flyweights obtain powerful kinetic energy and centrifugal force, this makes gyro have high stability, even if the gyro of high speed rotating is superposed, gyro also can keep high stability to rotate, and this makes this toy top playing method novel and various.

4, due to three sections of separate type, gyro is placed vertically after starting, and by the contacts side surfaces ground of the first rotary flyweights 1, gyro can high speed rolls forward.

5, due to the rotation den 25 at three sections of separate type and emitter top, the mode rotating den 25 also can be inserted by cusp in level land and control gyro and move and play.

6, because the easy accessibility of base 3 and the first rotary flyweights 1 is simple and easy, three stage structure is dismantled very easy, pressing briquetting 342 and can realize dismounting, with changing different upper end emitters, base 3 etc., personalized gyro can be made;

7, due to flywheel sheet 113 easy accessibility, make flywheel sheet 113 can be freely assembled, realize different effects, form different personalized gyros.

Part-structure effect:

The rotation den 25 at emitter top: for other toy with the use of.

Horizontal raised line 24 on emitter: facilitate the hand-held gyro of player.

Two launch holes 23: two insert the position of tooth bar 6, make driven wheel 123 from rotating by different directions.

Pilot hole 1162: be the patchhole of external instrument, for insertion tool, compact heap 116 back-outed.

This utility model is not limited to above-mentioned embodiment, if do not depart from spirit and scope of the present utility model to various change of the present utility model or modification, if these are changed and modification belongs within claim of the present utility model and equivalent technologies scope, then this utility model is also intended to comprise these changes and variation.

Claims (10)

1. three sections of separate type gyros, is characterized in that, comprising:

One first rotary flyweights, comprises the driven wheel that is arranged on its center top; The middle part of described first rotary flyweights axially arranges a connecting axle perforate;

One emitter, comprise a uncovered cavity, described emitter is placed in the top of the first rotary flyweights, and described driven wheel is placed in uncovered cavity; The sidewall of described emitter is provided with at least one launch hole corresponding with driven wheel, and described launch hole is communicated with described uncovered cavity;

One base, the center of described base arranges a rotating shaft perforate, and arranging one in described rotating shaft perforate can the second rotating shaft of axially-movable in rotating shaft perforate; Described base is placed in the bottom of described first rotary flyweights; And

One connects rotating shaft, and the activity of described connection rotating shaft runs through connecting axle perforate, and connecting axle perforate is extended at the two ends of described connection rotating shaft, and the upper end of described connection rotating shaft is fixedly connected with emitter, and the lower end of described connection rotating shaft is fixedly connected with base.

2. three sections of separate type gyros according to claim 1, is characterized in that, described first rotary flyweights comprises flywheel main body and the first rotating shaft; Described first rotating shaft comprises the driven wheel being arranged on its axle head;

Described flywheel main body comprises:

One chassis, comprises dish chamber; Described first rotating shaft is arranged on the middle part in described dish chamber;

At least two pieces of flywheel sheets, described flywheel sheet is along the circumferential direction removably mounted on dish chamber; Described flywheel sheet comprises feature sheet, and described feature sheet is in outside described chassis; And

One fixation kit for the first rotating shaft, chassis and flywheel sheet are assembled into one.

3. three sections of separate type gyros according to claim 2, is characterized in that,

Be provided with the first through hole in the middle part of the inwall in the dish chamber on described chassis, the inwall in described dish chamber is along the circumferential direction provided with at least bicrescentic installation recess; Described first through hole extends the through hole that relative two round tube holes putting rooms are formed for one;

Described flywheel sheet also comprises substrate and the first mounting blocks, and described first mounting blocks is vertical with substrate; Described flywheel sheet is arranged on corresponding installation recess by the lower end of the first mounting blocks; Described feature sheet is the arc-like sheet vertical with substrate, and described arc-like sheet is centered around the outside on chassis;

Described fixation kit comprises:

One rotating shaft holder, comprise base plate and be arranged on the axle bed on base plate, the lateral wall of described axle bed is provided with external screw thread; The second through hole that one runs through base plate and axle bed is offered in the middle part of described rotating shaft holder radial direction; The free end of described axle bed runs through described first through hole, and described base plate is stuck in the bottom on chassis; The two side that the second through hole on described axle bed is relative is respectively arranged with groove-shaped notch; Described two groove-shaped notchs are affixed with the import of putting room respectively;

Described first rotating shaft comprises the stable foot that an axis body, axis body both sides axial plane in opposite directions extends, and described driven wheel is arranged on the end of axis body, and described first rotating shaft center arranges an axial aperture; Described axis body is arranged in the second through hole, and described axial aperture is communicated with the second through hole; Described stable foot card entry slot v notch v is also placed in storing room;

One reinforcing ring, is provided with third through-hole in the middle part of described reinforcing ring, and the edge of described third through-hole is provided with the spacing breach supplying the upper end of the first mounting blocks to pass; Described reinforcing ring is placed on described flywheel sheet, and the upper end of described first mounting blocks is through described spacing breach; The edge of described reinforcing ring extends a circle positive stop strip; Described reinforcing ring is surrounded clamping by the arc-like sheet of described flywheel sheet;

One ring block, the middle part of described ring block is the recess of an evagination, and the center of described recess is provided with fourth hole, and on the ring block of described recess side, corresponding flywheel sheet is provided with at least two and installs through hole; Described ring block is placed on described reinforcing ring, and described fourth hole is set in described axle bed and puts room; Described positive stop strip surrounds clamping ring block, and corresponding installation through hole is inserted in the upper end of described first mounting blocks; And

One compact heap, is provided with fifth hole in the middle part of described compact heap, and the inwall of described fifth hole is provided with female thread; Described compact heap and described axle bed thread connection; Described compact heap is placed in recess, and described compact heap compresses the bottom surface of stablizing foot and recess;

First through hole, the second through hole, third through-hole, fourth hole, fifth hole and axial aperture are coaxial and jointly form connecting axle perforate.

4. three sections of separate type gyros according to the arbitrary claim of claims 1 to 3, it is characterized in that, described base comprises:

One pedestal, described pedestal is arranged a uncovered cavity, arranges a screens in described uncovered cavity; In the middle part of the inwall of described uncovered cavity, clematis stem hole is set; Described clematis stem hole is rotating shaft perforate;

One connects folder, and comprising two can the elasticity branch of opening or drawing close, and the root of described branch is arranged in described screens, and the plane residing for the described opening connecting folder and uncovered cavity is parallel; The middle part phase convex of described two branches surrounds a circular hole;

One separates lock dog, and comprise interconnective briquetting and start block, the free end of described startup block is arrow portion; The corresponding screens in edge of described uncovered cavity arranges an installation gap, and described startup block snaps in installation gap, and the free end of two branches is pressed close in described arrow portion, and the inwall of described uncovered cavity and the free end of two branches clamp arrow portion;

One lid, described cover cap is combined on described pedestal, and described lid compresses described startup block; The middle part of described lid arranges the 7th through hole; And

One connects rotating shaft pipe box, and described connection rotating shaft pipe box is placed in the below of described circular hole and close-fitting is placed in clematis stem hole;

Groove is enclosed close to the lateral wall formation one of end in the lower end of described connection rotating shaft, and the lower end of described connection rotating shaft is run through the 7th through hole, circular hole successively and connects rotating shaft pipe box, and the middle part of described two branches snaps in groove.

5. three sections of separate type gyros according to claim 4, is characterized in that,

Described clematis stem hole is the perforate of secondary ladder, and the diameter of the first order shoulder hole in clematis stem hole is greater than the diameter of the second level shoulder hole in clematis stem hole;

Described connection rotating shaft pipe box close-fitting is placed in the first order shoulder hole in clematis stem hole; Described second rotating shaft is roughly in rivet-like, and the head of described second rotating shaft is stuck in the first order shoulder hole in clematis stem hole, and the axle body pine of described second rotating shaft is joined the second level shoulder hole that runs through clematis stem hole and extends outside bottom pedestal; The distance of the cascaded surface in the lower end surface of described connection rotating shaft and described clematis stem hole is slightly larger than the head thickness of described second rotating shaft.

6. three sections of separate type gyros according to claim 3, is characterized in that, described installation recess is provided with six, and described flywheel sheet is provided with six pieces, described installation through hole six.

7. three sections of separate type gyros according to claim 3, is characterized in that, the end face of described compact heap are provided with the pilot hole inserted for supplying external tool.

8. three sections of separate type gyros according to claim 1, is characterized in that, the roof of described uncovered cavity arranges an installing hole; Upper end sidewall last week of described connection rotating shaft, the upper end of described connection rotating shaft was connected with described installing hole close-fitting to arranging some longitudinal raised lines.

9. three sections of separate type gyros according to claim 1, is characterized in that, the lateral wall of described emitter is provided with some horizontal raised lines.

10. three sections of separate type gyros according to claim 1, is characterized in that, the top center of described emitter is provided with a rotation den, and the edge of described rotation den is around arranging a rotating ring.