CN208389361U - The gyro of combination can be facilitated - Google Patents

Abstract

The utility model discloses the gyro that one kind can facilitate combination, gyro includes the first module, the second module, clamping structure and lock-connection structure.Clamping structure includes clamping pawl and shackle member, clamping pawl is located in the first module, shackle member is located in the second module, shackle member has engagement position and engaging position, be clamped pawl engagement position it is engageable and be detached from shackle member, clamping pawl fastens in engaging position and shackle member, and it is movable between engagement position and engaging position in shackle member to be clamped pawl.Lock-connection structure includes lock-connecting piece, and lock-connecting piece is located in one of them of the first module and the second module, and lock-connecting piece is movable between block position and evacuation position.When blocking position, lock-connecting piece can block engagement position, and when avoiding position, lock-connecting piece avoids engagement position.The gyro according to the present utility model for facilitating combination conveniently and efficiently can be installed and be split to the first module and the second module, simplified the difficulty of gyro recombination, increased the playability of gyro.

Description

The gyro of combination can be facilitated

Technical field

The utility model relates to toy arts, more particularly to a kind of gyro that can facilitate combination.

Background technique

Toy gyroscope is a kind of depth by the favorite toy of numerous teenagers, and existing toy top mainly includes gyro Lid, various ring bodies, connecting shaft, axle bed and top point after all parts are overlapped mutually, are screwed on integrally using connection axle thread.For Guarantee to be connected firmly, the process that connection axle thread is screwed on, which is generally required by tool, to be screwed.

There are some gyroscope structures at present, is that connection is realized by rotary clamp connection structure, utilizes rotary clamp connection structure Rotation torsion is big and feature big with the mutual frictional force of each component when being clamped is connected and fixed to realize, and securely not readily removable, thus A complete gyro is collectively formed in each component.But it because torsion needed for the rotary clamp connection structure is larger, therefore needs by very Big strength could be dismantled by tool, thus during being at play replacement component carry out the operation such as recombinating it is still number It is tired, more time can be occupied, to influence the continuity and interest of entire play activity；And after prolonged use, should Gyro still deposits the possibility scattered during rotation, and there are security risks.

Utility model content

The utility model is intended to solve at least some of the technical problems in related technologies.For this purpose, this reality It is proposed that a kind of gyro that can facilitate combination, the gyro can simplify gyro recombination difficulty, increase gyro playability with novel.

According to the gyro for facilitating combination of the utility model embodiment, the gyro include the first module, the second module, Clamping structure and lock-connection structure.Wherein, the clamping structure includes that clamping pawl and shackle member, the clamping pawl are located at described first In module, the shackle member is located in second module, and there is the shackle member engagement position and engaging position, the clamping pawl to exist The engagement position is engageable and is detached from the shackle member, and the clamping pawl fastens in the engaging position and the shackle member, institute It is movable between the engagement position and the engaging position in the shackle member to state clamping pawl.The lock-connection structure includes interlocking Part, the lock-connecting piece are located in one of them of first module and second module, and the lock-connecting piece is in block position Movable between evacuation position, at the block position, the lock-connecting piece can block the engagement position, in the evacuation position The lock-connecting piece avoids the engagement position when setting.

According to the gyro for facilitating combination of the utility model embodiment, the setting of clamping structure makes the first module and second Module fast demountable, the setting of lock-connection structure can be lockked after being clamped the first module and the second module, be avoided after playing for a long time It scatters, simplifies the difficulty of gyro recombination, increase the playability of gyro.

In some embodiments, the lock-connection structure includes return springs, and the return springs are described for driving Lock-connecting piece is movable towards the block position.

Optionally, the lock-connecting piece is the interlocking ring being arranged around the rotation axis of the gyro.

Optionally, the return springs are multiple, and multiple return springs are only against institute circumferentially spacedly It states on interlocking ring.

In some embodiments, the lock-connecting piece is movably disposed on the direction along the rotation axis of the gyro On in the top needle.

In some embodiments, another of first module and second module are equipped with locked groove, when described Lock-connecting piece when being located at the block position lock-connecting piece be stuck at the locked groove.

In some embodiments, the gyro includes the defence body that gyro main body and bottom have top point body, described anti- Imperial body is detachably arranged in the bottom of the gyro main body, the clamping structure be located at the gyro main body and the defence body it Between；When the clamping pawl is located at the bottom of the gyro main body, the shackle member is located at the top of the defence body；When described When clamping pawl is located at the top of the defence body, the shackle member is located at the bottom of the gyro main body.

Optionally, the gyro main body includes central axis, rosette and Tuo Gai.The central axis be located at the clamping pawl or The top of shackle member described in person；The rosette is located at the top of the central axis；The top lid is located at the top of the rosette Portion, the top are covered equipped with snapping foot, and the snapping foot passes through the rosette and snaps on the central axis.

Optionally, the top point body is detachably arranged on the defence body.

In some embodiments, the shackle member is successively arranged socket and edge in the circumferential direction along the gyro, described Socket constitutes the engagement position, and the edge constitutes the engaging position, and the clamping pawl can rotate after spigot insertion And it is stuck on the edge.

Optionally, the edge is located on the internal perisporium or periphery wall of the shackle member, on the peripheral wall of the shackle member It is equipped with the socket positioned at the circumferential side of the edge, the circumferential other side of the edge is located on the peripheral wall of the shackle member Equipped with the block for being clamped pawl described in backstop.

Optionally, the shackle member is the clamping ring being arranged around the rotation axis of the gyro, is set on the clamping ring There are multiple sockets and multiple edges, multiple sockets, which replace with multiple edges along the circumferential direction of the gyro, to be set It sets.

The additional aspect and advantage of the utility model will be set forth in part in the description, partially will be from following description In become obvious, or recognized by the practice of the utility model.

Detailed description of the invention

The above-mentioned and/or additional aspect and advantage of the utility model from the description of the embodiment in conjunction with the following figures will Become obvious and be readily appreciated that, in which:

Fig. 1 is the perspective view according to the gyro of the utility model one embodiment.

Fig. 2 is the broken away view of the first module and the second module according to the gyro of the utility model one embodiment.

Fig. 3 is according to the clamping structure of the utility model one embodiment, lock-connection structure and the explosive view for defending body.

Fig. 4 is the gyro main body and the assembly relation of clamping structure, lock-connection structure according to the utility model one embodiment Figure.

Fig. 5 is the explosive view according to the gyro main body of the utility model one embodiment.

Fig. 6 is the assembling relationship figure according to the defence body and top point body of the utility model one embodiment.

Fig. 7 is the perspective view according to the gyro of the utility model another embodiment.

Fig. 8 is the structure chart of the gyro main body and shackle member according to the utility model another embodiment.

Fig. 9 is the broken away view of the first module and the second module according to the gyro of the utility model another embodiment.

Appended drawing reference:

Gyro 100,

First module 1, the second module 2,

Clamping structure 3, clamping pawl 31, locked groove 311, clamping protrusion 312, clamping wall 313, shackle member 32, edge 321, Socket 322, block 323,

Lock-connection structure 4, lock-connecting piece 41, retention bead 411, grasping part 412, interlocking protrusion 413, return springs 42,

Gyro main body 5, central axis 51, snap groove 511, rosette 52, snapping groove 521, top lid 53, snapping foot 531,

Defend body 6, grafting channel 61, rotating channel 62, limiting groove 63, stretch out slot 64,

Top point body 7, rotation protrusion 71.

Specific embodiment

The embodiments of the present invention are described below in detail, examples of the embodiments are shown in the accompanying drawings.Below by The embodiment being described with reference to the drawings is exemplary, it is intended to for explaining the utility model, and should not be understood as practical new to this The limitation of type.

Below with reference to the accompanying drawings the gyro 100 for facilitating combination according to the utility model embodiment is described.

As Figure 1-Figure 2, according to the gyro 100 for facilitating combination of the utility model embodiment, comprising: the first module 1, the second module 2, clamping structure 3 and lock-connection structure 4.

As shown in Figures 2 and 3, clamping structure 3 includes clamping pawl 31 and shackle member 32, and clamping pawl 31 is located at the first module 1 On, shackle member 32 is located in the second module 2.Shackle member 32 has engagement position and engaging position, and clamping pawl 31 is engageable in engagement position With disengaging shackle member 32, clamping pawl 31 fastens in engaging position and shackle member 32, is clamped pawl 31 in shackle member 32 in engagement position It is movable between engaging position.

That is, being clamped pawl 31 when the first module 1 and the second module 2 separate and shackle member 32 being also to be separated from each other 's.If it is intended to the first module 1 and the second module 2 are assembled, need to be clamped pawl 31 against the engagement position of shackle member 32. Because clamping pawl 31 can engage and be detached from shackle member 32 in engagement position, show that engaging position is clamping pawl 31 and 32 phase of shackle member The starting point of engagement, also terminating point.Will clamping pawl 31 along the activity of shackle member 32, and from engagement position to the side of engaging position To activity, being clamped pawl 31 can engage always with shackle member 32.When being clamped engaging position of 31 activity of pawl to shackle member 32, at this time Engagement state make be clamped pawl 31 be stuck in it is stronger in shackle member 32, so that the first module 1 and the second module 2 are assembled in one It rises.And pawl 31 will be clamped from engaging position to the fastening state when direction activity of engagement position, being clamped between pawl 31 and shackle member 32 Slowly become loosely, when the engagement position of shackle member 32 is arrived in 31 activity of clamping pawl, clamping pawl 31 can be detached from shackle member 32, from And the first module 1 and the second module 2 are dismantled.

It can thus be seen that the setting of clamping structure 3, makes the first module 1 and the second module 2 can be this with fast assembling-disassembling Disassembly and assembly structure does not need not needing using screw by tool yet, very easy, laborsaving.

As shown in Figure 6 and Figure 8, lock-connection structure 4 includes lock-connecting piece 41, and lock-connecting piece 41 is located at the first module 1 and the second module 2 One of them on, lock-connecting piece 41 block position and evacuation position between it is movable, when blocking position, lock-connecting piece 41 can be sealed Interlocking coincidence, when avoiding position, lock-connecting piece 41 avoids engagement position.

That is, lock-connecting piece 41 can with clamping pawl 31 on one module, lock-connecting piece 41 can also and shackle member 32 the same as on one module.

What needs to be explained here is that lock-connecting piece 41 can block engagement position when blocking position, refer to locking in block position Fitting 41 can stop to be clamped pawl 31 into engagement position, perhaps stop clamping pawl 31 from engagement position activity to engaging position or hinder Block card connects pawl 31 from engaging position activity to engagement position.

From the above analysis as can be seen that since engagement position is the starting point for being clamped pawl 31 and engaging with shackle member 32, When lock-connecting piece 41 is located at block position, if clamping pawl 31 is separated with shackle member 32, clamping pawl 31 can not cross lock Fitting 41, i.e. clamping pawl 31 can not be engaged with shackle member 32；If clamping pawl 31 is engaged with shackle member 32, it is clamped pawl 31 can not cross lock-connecting piece 41, i.e. clamping pawl 31 can not be separated with shackle member 32.When lock-connecting piece 41 is located at evacuation position, because Lock-connecting piece 41 avoids engagement position, and it is exactly free for being clamped the clamping of pawl 31 and shackle member 32 at this time and being detached from.As can be seen that lock The setting of binding structure 4 can enable clamping structure 3 be firmly held in clamped condition, avoid in lower clamping structure 3 of playing for a long time Automatically it loosens.

First module 1 is linked together with the second module 2 by clamping structure 3 and 4 collective effect of lock-connection structure, and control is passed through Lock-connection structure 4 processed can control the state of clamping structure 3, so that whether the first module 1 of control can freely tear open with the second module 2 Dress and securely clamping.

According to the gyro 100 for facilitating combination of the utility model embodiment, the first mould is made by the setting of clamping structure 3 2 fast demountable of block 1 and the second module；It, can jail after being clamped the first module 1 and the second module 2 by the setting of lock-connection structure 4 Solid lock is lived, and avoids scattering after playing for a long time, is simplified the difficulty of the recombination of gyro 100, is increased the playability of gyro 100.

In the utility model embodiment, it is clamped there are many pawl 31 and 32 frame modes of shackle member.For example, shackle member 32 can To be formed as a kind of helicla flute in the second module 12, clamping pawl 31 can screw in or screw out the helicla flute, to realize clamping Pawl 31 accesses or is detached from the helicla flute.In some embodiments, helicla flute can all be formed by being clamped pawl 31 and shackle member 32, wherein One is inside groove, the other is outer groove.

In another example shackle member 32 is formed as the periphery wall of the second module 12 or screwing on internal perisporium or end face Slot.This, which screws slot, has opening, and opening constitutes engagement position.This screws slot with inner terminal, and inner terminal constitutes engaging position.This is screwed The extension path of slot can be any reasonable shape, such as linear, arc-shaped, waveform, and shackle member 31 is formed as The above-mentioned fixture block etc. for screwing slot can be screwed in.

Further for example, clamping pawl 31 and shackle member 32 can also form hook etc. that can be hooked together.

In certain embodiments, as shown in Fig. 2, the first module 1 is located at the top of the second module 2, it is clamped 31 He of pawl Shackle member 32 is located at the side toward each other of the first module 1 and the second module 2, i.e. clamping pawl 31 is located at the first module 1 Bottom, shackle member 32 is located at the top of the second module 2.Certainly, gyroscope structure is without being limited thereto in the utility model embodiment, example In embodiment shown in Fig. 9, the position of the first module 1 and the second module 2 be can be interchanged, be clamped pawl 31 and shackle member 32 with Exchange.In another example shackle member 32 can also be located at the interior of the second module 2 when clamping pawl 31 is located at the bottom of the first module 1 Portion or bottom cooperate after clamping pawl 31 needs to be inserted into the second module 2 with the dismounting of shackle member 32.

Specifically, clamping pawl 31 may be integrally formed in the first module 1, and clamping pawl 31 can also be removable by screw etc. Connection type interlocking is unloaded in the first module 1.

Shackle member 32 may be integrally formed in the second module 2, and shackle member 32 can also be detachably connected by screw etc. Mode interlocking is in the second module 2.

In some embodiments of the utility model, as shown in Figures 2 and 3, shackle member 32 is in the circumferential direction along gyro 100 On be successively arranged socket 322 and edge 321, socket 322 constitutes engagement position, and edge 321 constitutes engaging position, and clamping pawl 31 can be from inserting It rotates and is stuck on edge 321 after being inserted at mouth 322.The structure of shackle member 32 in this way is simpler, handling ease.

Specifically, edge 321 can be located on the internal perisporium or periphery wall of shackle member 32, and the peripheral wall of shackle member 32 is upper It is equipped with socket 322 in the circumferential side of edge 321, the circumferential other side that edge 321 is located on the peripheral wall of shackle member 32, which is equipped with, to be used In the block 323 of backstop clamping pawl 31.The setting of this socket 322 and block 323 easily can show clamping to player Screw-in/back-out direction, facilitates player to play, and block 323 can play the role of limit.

Specifically, as shown in figure 3, shackle member 32 is clamping ring, edge 321 is located on the inner wall of clamping ring.It is clamped pawl 31 Periphery wall be equipped with clamping protrusion 312, when being clamped raised 312 face socket 322, clamping pawl 31 be can be inserted into clamping ring. Here for ease of description, being known as being clamped wall 313 by the part for not setting clamping protrusion 312 on 31 periphery wall of pawl is clamped, it is clamped wall 313 It is equivalent to the part that edge 321 is avoided on clamping 31 periphery wall of pawl.Optionally, the edge 321 in shackle member 32 is only against clamping On wall 313, i.e., clamping structure 3 forms close contacting fit after matching, and structural compactness can be improved with smooth rotation.

In this embodiment, shackle member 32 is the clamping ring being arranged around the rotation axis of gyro 100, and clamping ring is equipped with Multiple sockets 322 and multiple edges 321, multiple sockets 322 are arranged alternately with multiple edges 321 along the circumferential direction of gyro 100.Accordingly Ground, clamping protrusion 312 also are provided with multiple with clamping wall 313.Multiple sockets 322 are conducive to dispersion with being provided with for multiple edges 321 Interaction force after clamping pawl 31 engages with shackle member 32, so that clamping structure 3 is more stable.

In some embodiments of the utility model, as shown in Figure 3 and Figure 4, lock-connection structure 4 includes return springs 42, Return springs 42 are for driving lock-connecting piece 41 towards the activity of block position.That is, if not actively by 41 band of lock-connecting piece It moves to evacuation position, then lock-connecting piece 41 will be always held at block position under the elastic force of return springs 42, to make first Module 1 and the second module 2 can be connected securely.And when player needs to dismount, the elastic force of return springs 42 can be overcome, it will Lock-connecting piece 41 drives to evacuation position.

Lock-connecting piece 41 is controlled using return springs 42, one side lock-connecting piece 41 can be always in no artificially adjustment It is maintained at block position, is conducive to the fastness for keeping clamping；On the other hand, when need by lock-connecting piece 41 exchange to evacuation position When the strength that needs it is smaller, the weaker player of physical strength also can easily dismount.In addition, return springs 42 make interlocking relative to other Part 41 is maintained at for the component of block position, solid, durable, long service life.

Specifically, as shown in figure 9, lock-connection structure 4 can be located in the first module 1；As shown in Fig. 2, lock-connection structure 4 can also To be located in the second module 2.

When lock-connection structure 4 is located in the second module 2, lock-connecting piece 41 can be maintained under the promotion of return springs 42 and connect At coincidence.Such as when blocking position, lock-connecting piece 41 is got lodged in just at socket 322, clamping pawl 31 can not cross lock-connecting piece 41 And it is inserted into socket 322 or is extracted from socket 322.When needing to dismount, lock-connecting piece 41 can be stirred, lock-connecting piece 41 is made to exit socket 322, guarantee that lock-connecting piece 41 will not influence the cooperation of clamping structure 3.

When lock-connection structure 4 is located in the first module 1, engaged with the second module 2 by clamping structure 3 in the first module 1 When, lock-connecting piece 41 can be maintained at engagement position under the promotion of return springs 42.Such as lock-connecting piece 41 can be stuck in socket just At 322, at this time if to dismantle the first module 1 and the second module 2, activity clamping pawl 31 is needed, but since lock-connecting piece 41 blocks At socket 322, cause clamping pawl 31 that can not go to engagement position.When needing to dismount, lock-connecting piece 41 can be stirred, moves back lock-connecting piece 41 Socket 322 out guarantee that lock-connecting piece 41 will not influence the cooperation of clamping structure 3.

Certainly, for driving lock-connecting piece 41 that can not also use return springs 42 towards the block movable component in position, Such as two suction parts can be used, a suction part is located at the first module 1 or the corresponding block position of the second module 2, separately One suction part is located on lock-connecting piece 41.When the first module 1 and the second module 2 engage, lock-connecting piece 41 can be in two suction parts Under the action of be maintained at block position, lock-connecting piece 41 can be stirred when needing to dismantle, and overcome suction so that lock-connecting piece 41 exits Block position.

In another example lock-connecting piece 41 is bayonet lock, bayonet lock can remove from the first module 1, the second module 2, and bayonet lock can also be with It is arranged in the first module 1 or the second module 2.When the first module 1 and the second module 2 engage, bayonet lock is stuck in locking bit Place is set, bayonet lock can be extracted when needing to dismantle, bayonet lock is made to thread off, so that lock-connecting piece 41 exits block position, guarantees lock-connecting piece 41 It will not influence the cooperation of clamping structure 3.

In certain embodiments, as shown in Figure 3 and Figure 4, lock-connecting piece 41 is the rotation axis setting around gyro 100 Interlocking ring, the center of gravity of such lock-connecting piece 41 be readily designed to be located at rotation axis on, be conducive in this way keep gyro 100 rotation Turn stability.

Specifically, as shown in Figure 3 and Figure 4, interlocking ring is located in the second module 2, return springs 42 be located at interlocking ring with Between second module 2, wherein return springs 42 are multiple, and the circumferentially spaced opening and closing of multiple return springs 42 is against interlocking ring On.The effect of multiple return springs 42 can enhance the balance when movement of lock-connecting piece 41.

Optionally, return springs 42 can be spring, and the effect of spring power is to drive lock-connecting piece 41 towards envelope Lock position is mobile, the lasting, high reliablity using spring force.

Further, lock-connecting piece 41 is movably disposed at the first module 1 on the direction along the rotation axis of gyro 100 Or second in module 2.This motion mode, space layout are easy.

In certain embodiments, as shown in Fig. 3, Fig. 4 and Fig. 6, lock-connecting piece 41 is equipped with retention bead 411, limit Protrusion 411 can be for multiple and successively compartment of terrain is located in the outer periphery of lock-connecting piece 41.

Specifically, lock-connecting piece 41 is located in the second module 2, limits limiting groove between shackle member 32 and the second module 2 63, retention bead 411 is limited in limiting groove 63, to limit the sliding scale of retention bead 411.

Further, lock-connecting piece 41 is limited in the space formed between shackle member 32 and the second module 2, and lock-connecting piece 41 can move along the rotation axis of gyro 100.

In the example of fig. 3, retention bead 411 is there are two extreme position, when retention bead 411 limiting groove 63 most When lower end, lock-connecting piece 41 is in evacuation position, and when retention bead 411 is at the top of limiting groove 63, lock-connecting piece 41 is being blocked Position.

Wherein, retention bead 411 is moved along limiting groove 63, and lock-connecting piece 41 can be made in the rotation along gyro 100 It is more steady when being moved on the direction of axis.And retention bead 411 and limiting groove 63 are equipped with multiple, can make lock-connecting piece 41 It is more uniformly stressed, movement is more stable.

Certainly, lock-connecting piece 41 can also be located in the first module 1, correspondingly, be could be formed with and limited in the first module 1 The limiting groove that protrusion 411 matches, when retention bead 411 is matched with limiting groove, lock-connecting piece 41 is confined within card Connect in the space that pawl 31 and the first module 1 are formed, and lock-connecting piece 41 can along limiting groove gyro 100 rotation axis Direction is mobile.

Further, as shown in Figure 3 and Figure 4, grasping part 412 can be equipped on lock-connecting piece 41, grasping part 412 is located at interlocking It in the outer periphery of part 41, and can stretch out outside gyro 100, when needing to dismount the first module 1 and the second module 2, by stirring Lock-connecting piece 41 can be moved to evacuation position by grasping part 412.Correspondingly, as shown in Figure 3 and Figure 9, which is installed In first module 1 or the second module 2, equipped with the stretching slot 64 stretched out for grasping part 412.

In some embodiments of the utility model, when lock-connecting piece 41 is located in the second module 2, set in the first module 1 There is locked groove 311, lock-connecting piece 41 is stuck at locked groove 311 when lock-connecting piece 41 is located at block position.By by lock-connecting piece 41 and lock Access slot 311 cooperates, and lock-connecting piece 41 preferably can be maintained at block position.Certainly, when lock-connecting piece 41 is located in the first module 1 When, locked groove 311 can also be equipped in the second module 2.

As shown in figure 3, being formed with interlocking protrusion 413 on the internal perisporium of lock-connecting piece 41, interlocking protrusion 413 can be with locked groove 311 cooperations make clamping pawl 31 dock coincidence in engaging position with shackle member 32 and are blocked.Interlocking protrusion 413 can be in interlocking On the inner wall of part 41 successively be spaced apart be equipped with it is multiple, correspondingly, locked groove 311 can also be equipped with it is multiple, guarantee locking it is reliable Property.

Some embodiments according to the present utility model, as shown in Fig. 1 and Fig. 2, Fig. 7 and Fig. 9, gyro 100 includes gyro master Body 5 and defence body 6, the bottom of defence body 6 have top point body 7, and defence body 6 is removably located at the bottom of gyro main body 5, clamping Structure 3 is located between gyro main body 5 and defence body 6.

As shown in Fig. 2, shackle member 32 is located at the top of defence body 6 when clamping pawl 31 is located at the bottom of gyro main body 5； As shown in Fig. 9 and Fig. 8, when being clamped pawl 31 and being located at the top for defending body 6, shackle member 32 is located at the bottom of gyro main body 5.Also It is to say, gyro main body 5 is screwed on by clamping structure 3 and defence body 6, wherein defend body 6 that can circumferentially be freely rotated, it can also be with It is to be fixed together with top point body 7.

Specifically, as shown in figure 5, gyro main body 5 includes central axis 51, rosette 52 and Tuo Gai 53.The bottom of central axis 51 Portion is equipped with clamping pawl 31 or shackle member 32, the top of central axis 51 are equipped with rosette 52, and top lid 53 is mounted on rosette 52 top, top lid 53 are equipped with snapping foot 531, and snapping foot 531 passes through rosette 52 and snaps on central axis 51.Optionally, Rosette 52 is equipped with snapping groove 521, and central axis 51 is equipped with snap groove 511, after snapping foot 531 passes through snapping groove 521 It is inserted into snap groove 511, rosette 52 is fixed between top lid 53 and central axis 51.

Wherein snapping foot 531 can be equipped with multiple, and multiple groups snapping foot 531 is conducive to assembly knot with the engaging of snap groove 511 The stabilization of structure.

In this embodiment, as shown in fig. 6, top point body 7 is detachably arranged on defence body 6, top point body 7 and defence body 6 It can also be by the way of being screwed on.For example, 7 outer wall of top point body is equipped with rotation protrusion 71, defend on the inner wall of body 6 to form grafting Channel 61 and rotating channel 62, after rotation protrusion 71 is inserted into defence body 6 along grafting channel 61, rotation top point body 7 makes to rotate Protrusion 71 is rotated along rotating channel 62, is realized top point body 7 and is defendd being screwed on for body 6.When need to split top point body 7 and defence body When 6, it is only necessary to reversely rotate top point body 7, separate top point body 7 and defence body 6 then along grafting channel 61.

The specific structure and gyro of gyro 100 in one specific embodiment of the utility model are described below with reference to Fig. 1-Fig. 6 100 in installation and the detailed process in split process.

As depicted in figs. 1 and 2, gyro 100 includes gyro main body 5, defence body 6, top point body 7, clamping structure 3 and interlocking knot Structure 4.Gyro main body 5 is detachably connected to the top of defence body 6 by clamping structure 3, and lock-connection structure 4 is located on defence body 6 And for lockking clamping structure 3, top point body 7 is detachably connected to the bottom of defence body 6.

Specifically, as shown in figure 5, gyro main body 5 includes central axis 51, rosette 52 and Tuo Gai 53, top lid 53 is equipped with Snapping foot 531, the inner wall of rosette 52 are equipped with the snapping groove 521 passed through for snapping foot 531, and central axis 51 is equipped with button Access slot 511 can be clamped with snap groove 511 and the cooperation of snapping foot 531, realize the assembly of central axis 51, rosette 52 and top lid 53. Wherein snapping foot 531 is multiple, and multiple groups snapping foot 531 is conducive to the stabilization of assembling structure with the engaging of snap groove 511.

Specifically, as shown in fig. 6, the inner wall of defence body 6, which is equipped with, to be inserted along rotation protrusion 71 is equipped on 7 outer wall of top point body Road 61 and rotating channel 62 are connected, rotation protrusion 71 can be inserted into from grafting channel 61 and be screwed in rotating channel 62.

Specifically, as shown in figs 2-4, clamping structure 3 includes clamping pawl 31 and shackle member 32, is clamped the upper surface of pawl 31 It is formed with threaded hole, can cooperate with the tapped through hole of corresponding position on central axis 51, pass through screw connection.The following table of shackle member 32 Face is formed with threaded hole, can cooperate with the tapped through hole on defence body 6, be connected through a screw thread.

As shown in figure 3, defence body 6 is equipped with the open ring shaped movable chamber in top, lock-connection structure 4 includes lock-connecting piece 41, lock Fitting 41 is annular and is located at that the ring shaped movable is intracavitary, and shackle member 32 is formed as being clamped ring and lid is enclosed in the top of the ring shaped movable chamber Portion, so that body 6 and shackle member 32 be defendd to limit the activity space of lock-connection structure 4.

As shown in figure 4, lock-connection structure 4 includes return springs 42, return springs 42 are spring.Specifically, such as Fig. 3 institute Showing, the periphery wall of lock-connecting piece 41 is equipped with retention bead 411, it is formed with limiting groove 63 on the outer wall of above-mentioned ring shaped movable chamber, Retention bead 411 can move up and down in limiting groove 63, install bullet between the bottom wall and retention bead 411 of limiting groove 63 Spring.

More specifically, as shown in figure 3, lock-connecting piece 41 is equipped with interlocking protrusion 413 and grasping part 412, interlocking protrusion 413 are set At the top of lock-connecting piece 41, grasping part 412 is located at 41 bottom of lock-connecting piece, and defence body 6, which is equipped with, stretches out slot 64, and grasping part 412 can It is reached outside gyro 100 from slot 64 is stretched out.

More specifically, as shown in figure 3, clamping pawl 31 is formed as round, the outer peripheral surface of clamping pawl 31, which is equipped with, to be arranged alternately Clamping protrusion 312 and clamping wall 313, be clamped pawl 31 outer peripheral surface on be additionally provided with locked groove 311.

Socket 322, edge 321 and block 323 are successively arranged on the internal perisporium of shackle member 32.When the clamping insertion clamping of pawl 31 When on part 32, clamping pawl 31 applies a downward pressure to lock-connecting piece 41, so that spring generates deformation, lock-connecting piece 41 is mobile To evacuation position, it is clamped pawl 31 at this time and is in engagement position, then spinning top main body 5, clamping protrusion 312 is moved along edge 321 It moves to block 323, is clamped pawl 31 at this time and is in engaging position.

When clamping protrusion 312 leaves engagement position, lock-connecting piece 41 is jacked up by spring, and interlocking protrusion 413 is matched with locked groove 311 It closes, lock-connecting piece 41 is in block position, and clamping pawl 31 can not continue to rotate relative to shackle member 32 at this time, the connection of gyro 100 It is locked.

When needing to split on gyro 100, player's manual operation pulls downward on grasping part 412, so that spring bullet again Property deformation, at this time lock-connecting piece 41 be moved to evacuation position, then reversely rotate gyro main body 5, will clamping pawl 31 from engaging position revolve Engagement position is gone to, pawl 31 then will be clamped from shackle member 32 to extraction, and complete the fractionation to gyro 100.

Fig. 7-Fig. 9 is the specific structure of gyro 100 in another specific embodiment of the utility model.The gyro 100 and figure Gyroscope structure shown in 1- Fig. 6 is substantially the same, and same section repeats no more.In the embodiment, the disassembly process of gyro 100 with it is above-mentioned Embodiment is identical, also repeats no more here.

The difference is that the first module 1 is located at the lower section of the second module 2 in the embodiment of Fig. 7-Fig. 9, that is, it is clamped pawl 31 are located on defence body 6, and shackle member 32 is located in gyro main body 5.In this embodiment, lock-connection structure 4 is still located at defence body 6 On.

In the description of the present invention, it should be understood that term " on ", "lower", "top", "bottom", "inner", "outside", The orientation or positional relationship of the instructions such as " circumferential direction ", " axial direction " is to be based on the orientation or positional relationship shown in the drawings, merely to just In description the utility model and simplify description, rather than the device or element of indication or suggestion meaning there must be specific side Position is constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.

In addition, term " first ", " second " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or Implicitly include at least one this feature.The meaning of " plurality " is at least two, such as two in the description of the present invention, It is a, three etc., unless otherwise specifically defined.

In the present invention unless specifically defined or limited otherwise, term " installation ", " connected ", " connection ", " Gu It is fixed " etc. terms shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integral；It can be Mechanical connection is also possible to be electrically connected or can communicate each other；It can be directly connected, the indirect phase of intermediary can also be passed through Even, the connection inside two elements or the interaction relationship of two elements be can be, unless otherwise restricted clearly.For this For the those of ordinary skill in field, the concrete meaning of above-mentioned term in the present invention can be understood as the case may be.

In the description of this specification, the description of reference term " embodiment ", " example " etc. mean combine the embodiment or Example particular features, structures, materials, or characteristics described are contained at least one embodiment or example of the utility model. In the present specification, the schematic representation of the above terms does not necessarily have to refer to the same embodiment or example.Moreover, description Particular features, structures, materials, or characteristics may be combined in any suitable manner in any one or more of the embodiments or examples. In addition, without conflicting with each other, those skilled in the art can by different embodiments described in this specification or The feature of example and different embodiments or examples is combined.

Although the embodiments of the present invention have been shown and described above, it is to be understood that above-described embodiment is Illustratively, it should not be understood as limiting the present invention, those skilled in the art are in the scope of the utility model Inside it can make changes, modifications, alterations, and variations to the above described embodiments.

Claims (12)

1. the gyro that one kind can facilitate combination, which is characterized in that the gyro includes:

First module；

Second module；

Clamping structure, the clamping structure include: that clamping pawl and shackle member, the clamping pawl are located in first module, institute It states shackle member to be located in second module, the shackle member has engagement position and engaging position, and the clamping pawl is in the engagement Position is engageable and is detached from the shackle member, and the clamping pawl fastens in the engaging position and the shackle member, the clamping pawl It is movable between the engagement position and the engaging position in the shackle member；

Lock-connection structure, the lock-connection structure include lock-connecting piece, and the lock-connecting piece is located at first module and second module One of them on, the lock-connecting piece block position and evacuation position between movable, the lock at the block position Fitting can block the engagement position, and at the evacuation position, the lock-connecting piece avoids the engagement position.

2. the gyro according to claim 1 for facilitating combination, which is characterized in that the lock-connection structure includes: reset bullet Property part, the return springs are for driving the lock-connecting piece movable towards the block position.

3. the gyro according to claim 2 for facilitating combination, which is characterized in that the lock-connecting piece is around the gyro Rotation axis setting interlocking ring.

4. the gyro according to claim 3 for facilitating combination, which is characterized in that the return springs be it is multiple, it is more A return springs are only against on the interlocking ring circumferentially spacedly.

5. the gyro according to claim 1 for facilitating combination, which is characterized in that the lock-connecting piece is along the gyro It is movably disposed on the direction of rotation axis in first module or second module.

6. the gyro according to claim 1 for facilitating combination, which is characterized in that first module and second mould Another of block is equipped with locked groove, and when the lock-connecting piece is located at the block position, the lock-connecting piece is stuck in the locked groove Place.

7. the gyro according to claim 1 for facilitating combination, which is characterized in that the gyro include: gyro main body with And bottom has the defence body of top point body, the defence body is detachably arranged in the bottom of the gyro main body, the clamping knot Structure is located between the gyro main body and the defence body；It is described when the clamping pawl is located at the bottom of the gyro main body Shackle member is located at the top of the defence body；When the clamping pawl is located at the top of the defence body, the shackle member is located at The bottom of the gyro main body.

8. the gyro according to claim 7 for facilitating combination, which is characterized in that the gyro main body includes:

Central axis, the clamping pawl or the shackle member are located at the bottom of the central axis；

Rosette, the rosette are located at the top of the central axis；

Top lid, the top lid are located at the top of the rosette, and the top is covered equipped with snapping foot, and the snapping foot passes through described Rosette snaps on the central axis.

9. the gyro according to claim 7 for facilitating combination, which is characterized in that the top point body is detachably arranged in institute It states on defence body.

10. the gyro according to claim 1 for facilitating combination, which is characterized in that the shackle member is along the gyro Circumferential direction on be successively arranged socket and edge, the socket constitutes the engagement position, and the edge constitutes the engaging position, described Clamping pawl can be rotated after spigot insertion and is stuck on the edge.

11. the gyro according to claim 10 for facilitating combination, which is characterized in that the edge is located at the shackle member Internal perisporium or periphery wall on, on the peripheral wall of the shackle member positioned at the edge circumferential side be equipped with the socket, institute It states and is equipped with the block for being clamped pawl described in backstop positioned at the circumferential other side of the edge on the peripheral wall of shackle member.

12. the gyro according to claim 10 for facilitating combination, which is characterized in that the shackle member is around the top The clamping ring of the rotation axis setting of spiral shell, the clamping ring is equipped with multiple sockets and multiple edges, multiple described Socket is arranged alternately with multiple edges along the circumferential direction of the gyro.