CN201880359U

CN201880359U - Toy gyro

Info

Publication number: CN201880359U
Application number: CN2010205644587U
Authority: CN
Inventors: 氏田治久; 前田竹明
Original assignee: Tomy Co Ltd
Current assignee: Tomy Co Ltd
Priority date: 2010-04-19
Filing date: 2010-10-15
Publication date: 2011-06-29
Anticipated expiration: 2020-10-15
Also published as: EP2377589A1; US20110256795A1; JP3160638U; CA2717257A1

Abstract

The utility model relates to a toy gyro which can stop rotating suddenly when begins to shake along with the slowdown of rotational speed due to the contact with a game surface, can rotate continuously, and can rotate longer than the toy gyro of a competitor. The toy gyro (A) comprises an axial region (41), a rotating plate (5) and fasteners (44 and 53), wherein the axial region (41) is provided with a circular cross section and is suitable for being in contact with the game surface (b) of a game board (B) to serve as a rotating center when the toy gyro (A) rotates; the rotating plate (5) is provided with an insertion hole (51) with the internal diameter larger than the external diameter of the axial region (41), and the rotating plate (5) is attached to the axial region (41) in a way of rotating around the axial region (41) freely when the axial region (41) is inserted in and penetrates the insertion hole (51); and the fasteners (44 and 53) are used for allowing the rotating plate (5) to rotate freely and prevent the rotating plate (5) from separating from the axial region (41) when the rotating plate (5) is attached to the axial region (41).

Description

Toy gyroscope

Technical field

The utility model relates to toy gyroscope, more specifically, relates to the toy gyroscope with the function of rotating with the velocity of rotation continuation of slowing down.

Background technology

In the past, having been proposed by the application's applicant can be by rearranging the toy gyroscope (for example registering No. 3149383 with reference to Japanese Utility Model) that component parts easily changes operator scheme, and was put to practicality.The middle level parts of the height of the upper strata parts of this toy gyroscope by will having the function of attacking adversary's toy gyroscope, decision toy gyroscope and determine the lower part of the motor pattern of this toy gyroscope on cribbage-board to be laminated.A plurality of lower part of truncated cone shape are equipped with and have the difform axial region that stretches out downwards.By one of lower part being replaced with another lower part that has with the variform axial region of its axial region, can change the operator scheme on cribbage-board.

In this traditional toy gyroscope, although can change operator scheme on the cribbage-board by replacing lower part, but this toy gyroscope can begin to rock along with velocity of rotation slows down, and the upper strata parts can contact with the play surface of cribbage-board, thereby cause the problem that may stop earlier than adversary toy gyroscope in its rotation of when match.

Summary of the invention

The utility model is finished in view of the above problems.Therefore, the purpose of this utility model is to provide a kind of new toy gyroscope, its rotation can not contact with play surface and stops suddenly owing to top section when this toy gyroscope begins to rock along with velocity of rotation slows down, but can continue rotation, thereby rotate more for a long time than adversary toy gyroscope, although may just rotate for a long time a little.

For addressing the above problem,, provide a kind of rotation on cribbage-board and the toy gyroscope of playing according to the utility model.This toy gyroscope comprises: axial region has circular cross section and is suitable for contacting with the play surface of cribbage-board and pivot when rotating as toy gyroscope; Rotor plate has the patchhole of internal diameter greater than the external diameter of axial region, and rotor plate is attached on the axial region in the mode of freely rotating around axial region when axial region is inserted through patchhole; And fastener, be used for when rotor plate is attached on the axial region, allowing that rotor plate freely rotates and prevent that rotor plate breaks away from from axial region.

Of the present utility model preferred embodiment in, patchhole is located at the center of rotor plate, and rotor plate forms down truncated cone shape, patchhole is positioned at down the center of truncated cone shape.

Of the present utility model preferred embodiment in, fastener comprises: be located at axial region outer surface the joint protuberance and at the downside of rotor plate around commissura portion that patchhole forms.

Of the present utility model preferred embodiment in, rotor plate is included in the cylindrical wall that its upper surface forms in the mode that protrudes upward around the edge of patchhole, and, this wall has the internal diameter greater than the external diameter of axial region, and has a height less than the length of axial region, to allow that rotor plate tilts with respect to axial region, rotor plate is put each other with axial region and is contacted when rotor plate tilts.

Of the present utility model preferred embodiment in, wall has the otch that is formed at wherein, and is outwardly-bent when axial region is inserted through the patchhole of rotor plate.

Of the present utility model preferred embodiment in, toy gyroscope also comprises: the middle layer segment, the coupling components that has axial region and the underclad portion that cooperates with middle layer segment and top section and middle layer segment are linked together of height with top section, decision toy gyroscope of the function of attacking adversary's toy gyroscope.

According to the utility model, when the velocity of rotation of toy gyroscope reduced, rotor plate at first contact with the play surface of cribbage-board and in the main body of short time supporting toy gyro, with the delay main body of toy gyroscope and contacting of play surface.Therefore, can be implemented in the toy gyroscope that can not stop the rotation immediately and therefore with the contest of adversary's toy gyroscope the time, have advantage when velocity of rotation descends.

Description of drawings

Figure 1A and 1B are perspective view and the front view of diagram according to an embodiment of toy gyroscope of the present utility model;

Fig. 2 is the decomposition diagram of the toy gyroscope shown in Figure 1A and the 1B;

Fig. 3 A to 3D is respectively perspective view, vertical view, front view and the upward view that shows the first attack parts of the top section that constitutes toy gyroscope;

Fig. 4 A to 4D is respectively perspective view, vertical view, front view and the upward view that shows the second attack parts of the top section that constitutes toy gyroscope;

Fig. 5 A and 5B are respectively perspective view and the front views observed from the top that shows the middle layer segment that constitutes toy gyroscope;

Fig. 6 A and 6B be respectively the diagram underclad portion that constitutes toy gyroscope all from the decomposition diagram and the perspective view of beneath;

Fig. 7 A and 7B be respectively show the rotor plate be incorporated into underclad portion respectively from the top with from the perspective view of beneath;

Fig. 8 A to 8C is the axial region of diagram underclad portion and the front view of the relation between the rotor plate, and rotor plate is drawn with the cross section, and Fig. 8 D and 8E are the enlarged drawings of irising out

part

8D and 8E of Fig. 8 C;

Fig. 9 A to 9D is the front view of the process of diagram assembly toy gyro;

Figure 10 A is the figure that the mode of operation of toy gyroscope of the present utility model on cribbage-board is shown, and Figure 10 B is the enlarged drawing of irising out part 10B of Figure 10 A, and Figure 10 C is the figure that the mode of operation of traditional toy gyroscope on cribbage-board is shown.

The specific embodiment

Figure 1A and 1B have shown an embodiment according to toy gyroscope of the present utility model.Toy gyroscope A comprises: have function of attacking adversary's toy gyroscope and the top section 1 that is made of the first attack parts 10 and the second attack parts 20; The middle layer segment 2 of the height of decision toy gyroscope; Has the underclad portion 3 that is suitable for the axial region 41 that contacts with the play surface of cribbage-board; And coupling components 4 (see figure 2)s of the screw shaped that top section 1 and middle layer segment 2 are linked together.

Shown in Fig. 3 A to 3D, the first attack parts 10 are disc-shaped parts of being made by synthetic resin, and have the mating holes portion 11 that is formed centrally therein, and described later second auxiliary section 22 of attacking parts 20 is matched with this.Radially opposite side in mating holes portion 11 is formed with pair of engaging recess 11a, engages and positions with the 22a of bridge portion when it is used for cooperating in the auxiliary section 22 that mating holes portion 11 and second attacks parts 20.And, first external diameter of attacking parts 10 forms less than second external diameter of attacking parts 20, be formed with attack portion 12 around first periphery of attacking the upper surface of parts 10, this attack portion 12 is made of the part of the injustice that protrudes upward, this uneven part has vertical attack function, promptly when the lower surface with adversary's toy gyroscope contacts from below attack.First attacks parts 10 also is provided with pair of semicircular shaped joined wall 14 at its lower surface, this joined wall 14 is symmetrically formed in the outside of mating holes portion 11, so that cooperate, attack parts 10 with first in view of the above and be firmly held on the second attack parts 20 with the second interior perimeter surface of attacking parts 20.

Shown in Fig. 4 A to 4D, second to attack parts 20 are disc-shaped parts of metal, have the hexagonal mating holes portion 21 that is formed centrally therein, and the top of middle layer segment 2 is matched with this, and auxiliary section 22 forms above mating holes portion 21.Auxiliary section 22 comprises 22a of bridge portion that radially forms and the bulge 22b that forms circle and outwards protrude at the center of the 22a of bridge portion, is formed with opening 24 at the center of bulge 22b, and the screw division 4a of coupling components 4 inserts in this opening 24.And, attack portion 25 is formed at the outer surface of the second attack parts 20 in outwards outstanding mode, this attack portion 25 is made of the part of outwardly directed injustice, and this uneven part has the beam attack function, attacks with the contacts side surfaces of adversary's toy gyroscope the time.

Shown in Fig. 5 A and 5B, middle layer segment 2 forms cylindrical, and has inner wall surface, is formed with screw thread 31 on this inner wall surface, thereby forms screwed hole 32, and the screw division 4a of coupling components 4 described later is screwed into screwed hole 32.And the last outer surface of middle layer segment 2 outwards expands, and forms roughly hexagonal bulge 33, and this bulge 33 cooperates with the second mating holes portion 21 that attacks parts 20, to prevent that circumferential offset takes place when connecting.

Middle layer segment 2 also is provided with pair of engaging extension 36 on the outer surface of the lower end of cylindrical portion 34, this pair of engaging extension 36 forms respectively and engages with the pair of engaging accommodation section 43 that is formed at underclad portion 3 described later.

As shown in Figure 6A, underclad portion 3 forms down truncated cone shape, and has the level cross-sectionn and be circular axial region 41, the pivot of the downside that this axial region 41 is formed on underclad portion 3 with as toy gyroscope A rotation the time.Axial region 41 has the rotor plate 5 that is mounted thereon, and shown in Fig. 6 B, rotor plate 5 is attached as around axial region 41 and freely rotates.

A pair of arcuate openings 42 with respect to the axis point symmetry of axial region 41 be formed at the outside of axial region 41, the part of the inwall of each opening 42 is stretched out to axial region 41, engages accommodation section 43 to form.Therefore, when underclad portion 3 layer segment 2 and when circumferentially rotating from the below is coupled to, the joint extension 36 of middle layer segment 2 engages with the accommodation section 43 that engages of corresponding underclad portion 3, thereby underclad portion 3 can be fixed on the middle layer segment 2.

And the axial region 41 of underclad portion 3 has and is formed at its terminal pair of engaging protuberance 44, and this pair of engaging protuberance 44 radially outward stretches out, as first part of fastener described later.These engage protuberance 44 and are arranged to engage with the commissura portion 53 of the central circular patchhole 51 that is formed at rotor plate 5, make when axial region 41 is inserted through the patchhole 51 of rotor plate 5, and rotor plate 5 can not break away from from axial region 41.Therefore, the commissura portion 53 of rotor plate 5 is as second part of fastener described later.

Rotor plate 5 forms roughly truncated cone shape, makes the tapering be inclined upwardly from the center towards its periphery, shown in Fig. 7 A and 7B.Rotor plate 5 has the patchhole 51 at the center of being formed at, and comprise cylindrical wall 52, this patchhole 51 has the diameter of external diameter of the axial region 41 of underclad portion of being slightly larger than 3, and cylindrical wall 52 is formed at the upper surface of rotor plate 5 in the mode that protrudes upward around the edge of patchhole 51.Cylindrical wall 52 has the pair of notches 54 that is formed at wherein, and this pair of notches 54 forms when the axial region 41 of underclad portion 3 is inserted through patchhole 51 outwardly-bent, is beneficial to the insertion of axial region 41.

Shown in Fig. 7 B, patchhole 51 forms the diameter of the diameter of downside greater than upside, so that form the commissura portion 53 of second part that constitutes fastener, is used for being connected rear defence with axial region 41 at rotor plate 5 and ends rotor plate 5 from axial region 41 disengagings.

Shown in Fig. 8 A, the internal diameter W1 that the wall 52 of rotor plate 5 has is slightly larger than the external diameter W2 of axial region 41, height L1 is less than the length L 2 of axial region 41, make the rotor plate 5 that is attached on the axial region 41 can freely rotate when protuberance 44 engages with engaging of axial region 41 in its commissura portion 53, shown in Fig. 8 B, and make rotor plate 5 to tilt with respect to axial region 41.This structure can contact rotor plate 5 and axial region when rotor plate 5 tilts at 41, and shown in Fig. 8 C to 8E, rather than face contacts, thereby can reduce the frictional resistance between rotor plate 5 and the axial region 41 as far as possible.

When assembling has the toy gyroscope A of said structure, shown in Fig. 9 A, at first select to be used for first of top section 1 and attack the parts 10 and second attack parts 20, layer segment 2 and the underclad portion.Afterwards, attack parts 10 with first and be engaged on the second attack parts 20, then middle layer segment 2 is engaged in second from the below and attacks the parts 20, shown in Fig. 9 B from the top.

Then, the screw division 4a of coupling components 4 is inserted through the opening 24 of the second attack parts 20, and the screwed hole 32 of layer segment 2 during it is screwed into, thereby with first attack parts 10 be stacked in second attack top section 1 on the parts 20 be fixed on the layer segment 2, shown in Fig. 9 C.Under this state, under the effect of coupling components 4, the first attack parts 10 and second are attacked parts 20 pressure and are contacted, and the second attack parts 20 contact with middle layer segment 2 pressure, make that top section 1 and middle layer segment 2 are fixed to one another, can not produce play.

Then, with the opening 42 relative also insertions of the joint extension 36 of the cylindrical portion 34 of layer segment 2 in being formed at and underclad portion 3 wherein, and underclad portion 3 is rotated along circumferential with respect to middle layer segment 2, so that engaging extension 36 engages with the bottom side that engages accommodation section 43, finish the assembling of the toy gyroscope A that constitutes by top section 1, middle layer segment 2 and underclad portion 3 thus, shown in Fig. 9 D.

Starting the toy gyroscope A of assembling like this by the starter (not shown), make it when the play surface b of cribbage-board B high speed rotating or rotation (seeing Figure 10 A), the toy gyroscope A of high speed rotating uprightly rotates around axial region 41 owing to gyroscopic effect, and move (rotating) at play surface b, thereby on cribbage-board B, play with adversary's toy gyroscope (not shown) while rotating.Along with the velocity of rotation decline of toy gyroscope A, toy gyroscope A no longer can keep erect posture and rock while rotating.

Under the situation of traditional toy gyroscope, starting traditional toy gyroscope A ' by the starter (not shown), when its play surface b at cribbage-board B is rotated at a high speed, toy gyroscope A ' moves when play surface b uprightly rotates, and when the velocity of rotation of toy gyroscope A ' descends, toy gyroscope A ' can not keep erect posture and rock while rotating, shown in Figure 10 C.Rocking when beginning to take place, toy gyroscope A ' enter the top section 1 of the diameter maximum of toy gyroscope ' with play surface b state of contact, cause the velocity of rotation of toy gyroscope A ' to be slowed down suddenly, make the rotation of toy gyroscope A ' stop.

Different with it, in the toy gyroscope A of illustrated embodiment of the present utility model, shown in Figure 10 A and 10B, rotor plate 5 contacts with play surface b, and the axial region 41 of toy gyroscope A is by wall 52 supports of rotor plate 5, limit the inclination of axial region 41 thus, make toy gyroscope A can continue rotation, and the top section 1 of the diameter maximum of toy gyroscope A can not contact with play surface b.Yet the velocity of rotation of this toy gyroscope A can descend gradually, causes the rotor plate 5 no longer can supporting toy gyro A, and then causes top section 1 to contact with play surface b, and the rotation of toy gyroscope A finally stops.

As mentioned above, make toy gyroscope A high speed rotating or rotation, and after the sloping portion of the play surface b of cribbage-board B started it, toy gyroscope A along with slowing down, velocity of rotation began to rock then keeping orthostatism during the rotation at a high speed.At this moment, rotor plate 5 contacts with play surface b prior to top section 1, makes rotor plate 5 supporting toy gyro A, and therefore can postpone contacting of top section 1 and play surface b.Therefore, toy gyroscope A can continue rotation with the time more much longer than adversary toy gyroscope.

In addition, under the state of rotor plate 5 supporting toy gyro A, the wall 52 of rotor plate 5 contacts each other with the axial region 41 of underclad portion 3, rather than the face contact, thereby can reduce frictional resistance as much as possible.Therefore, according to the utility model, can realize prolonging the toy gyroscope of rotational time, it is simple in structure, only the rotor plate of truncated cone shape is attached to the axial region of toy gyroscope.

Claims

1. a toy gyroscope (A) rotates to play on cribbage-board, comprising:

Axial region (41) has circular cross section, and is suitable for contacting with the play surface (b) of cribbage-board (B) and pivot when rotating as described toy gyroscope (A);

Rotor plate (5), have the patchhole (51) of internal diameter greater than the external diameter of described axial region (41), described rotor plate (5) is attached on the described axial region (41) in the mode of freely rotating around described axial region (41) when described axial region (41) is inserted through described patchhole (51); And

Fastener (44,53) is used for allowing that described rotor plate (5) freely rotates and preventing that described rotor plate (5) breaks away from from described axial region (41) when described axial region (41) is gone up when described rotor plate (5) is attached at.

2. toy gyroscope according to claim 1 (A) is characterized in that, described patchhole (51) is located at the center of described rotor plate (5), and described rotor plate (5) forms down truncated cone shape, and described patchhole (51) is positioned at described center of falling truncated cone shape.

3. toy gyroscope according to claim 1 and 2 (A), it is characterized in that described fastener comprises: be located at described axial region (41) outer surface joint protuberance (44) and at the downside of described rotor plate (5) around commissura portion (53) that described patchhole (51) forms.

4. toy gyroscope according to claim 3 (A) is characterized in that, described rotor plate (5) is included in the cylindrical wall (52) that its upper surface forms in the mode that protrudes upward around the edge of described patchhole (51), and,

Described wall (52) has the internal diameter (W1) greater than the external diameter (W2) of described axial region (41), and has a height (L1) less than the length (L2) of described axial region (41), to allow that described rotor plate (5) tilts with respect to described axial region (41), described rotor plate (5) contacts each other with described axial region (41) when described rotor plate (5) tilts.

5. toy gyroscope according to claim 4 (A) is characterized in that, described wall (52) has the otch (54) that forms therein, and is outwardly-bent when described axial region (41) is inserted through the patchhole (51) of described rotor plate (5).

6. toy gyroscope according to claim 1 and 2 (A), it is characterized in that, described toy gyroscope (A) also comprises top section (1), the middle layer segment (2) that determines the height of described toy gyroscope (A) with the function of attacking adversary's toy gyroscope, have described axial region (41) and with described in the underclad portion (3) that cooperates of layer segment (2) and the coupling components (4) that described top section (1) and described middle layer segment (2) are linked together.

7. toy gyroscope according to claim 3 (A), it is characterized in that described toy gyroscope (A) also comprises: have the function of attacking adversary's toy gyroscope top section (1), determine the height of described toy gyroscope (A) middle layer segment (2), have described axial region (41) and with described in the underclad portion (3) that cooperates of layer segment (2) and the coupling components (4) that described top section (1) and described middle layer segment (2) are linked together.

8. toy gyroscope according to claim 4 (A), it is characterized in that described toy gyroscope (A) also comprises: have the function of attacking adversary's toy gyroscope top section (1), determine the height of described toy gyroscope (A) middle layer segment (2), have described axial region (41) and with described in the underclad portion (3) that cooperates of layer segment (2) and the coupling components (4) that described top section (1) and described middle layer segment (2) are linked together.

9. toy gyroscope according to claim 5 (A), it is characterized in that described toy gyroscope (A) also comprises: have the function of attacking adversary's toy gyroscope top section (1), determine the height of described toy gyroscope (A) middle layer segment (2), have described axial region (41) and with described in the underclad portion (3) that cooperates of layer segment (2) and the coupling components (4) that described top section (1) and described middle layer segment (2) are linked together.