CN203540045U - Toy top capable of bouncing - Google Patents
Toy top capable of bouncing Download PDFInfo
- Publication number
- CN203540045U CN203540045U CN201320679585.5U CN201320679585U CN203540045U CN 203540045 U CN203540045 U CN 203540045U CN 201320679585 U CN201320679585 U CN 201320679585U CN 203540045 U CN203540045 U CN 203540045U
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- bouncing
- movable sleeve
- spiral shell
- sea whelk
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Abstract
The utility model provides a toy top capable of bouncing. The toy top capable of bouncing comprises a top cover located on the upper portion, a top piece located below the top cover, a top base used for fixing the top piece, and a top tip located on the bottom. The toy top capable of bouncing is characterized in that a movable bouncing part is arranged between the top base and the top tip, the movable bouncing part is fixedly connected with the top tip and can be connected with the top base in a vertically bouncing mode, in this way, when the top falls to the ground from an ejector, the movable bouncing part and the top tip move upwards under the counter-acting force of gravity, then the elasticity is recovered, the movable bouncing part and the top tip move downwards to restore, then the movable bouncing part and the top tip move upwards again under the action of inertia force, the process is repeated, and bouncing is achieved. The toy top capable of bouncing is extremely interesting, a player can hit a top of an opponent downwards through bouncing of the top during competition, the top of the opponent can be damaged more easily, the offensive capability of the top is improved greatly, the winning rate is higher, the playing method of the top is novel, the top is popular with more players, and the manipulative ability and competitive ability of children can be developed.
Description
Technical field
The utility model relates to a kind of toy gyroscope, specifically a kind of toy gyroscope bouncing.
Background technology
Existing toy gyroscope, basic playing method is by transmitter, this gyro to be transmitted in plane, then gyro rotates, to rotate and attack mutually to carry out contest by both sides further, with this, improve the enjoyment of playing, and victory or defeat key is the angle-of-attack of rotating speed and sea whelk, if can bounce, from upper and lower, attacks the other side's gyro, more easily win, but existingly for the toy gyroscope that resists contest, do not possess bouncing function.Separately there is a kind of toy gyroscope of playing separately, although can bounce, but need specific gyro chassis to assist, mainly that the top point of this toy gyroscope is designed to inclined-plane with the contact-making surface on gyro chassis, corresponding gyro chassis is also designed to slope, thereby make this toy gyroscope because of both oblique relations of plane, produce spring when rotating, clearly this toy gyroscope can only be played separately, cannot resist contest, but also be subject to the restriction on gyro chassis, limitation is large, carries inconvenience, is difficult to obtain for a long time player's favor again.
Summary of the invention
For the existing problem of above-mentioned prior art, the purpose of this utility model is to provide a kind of toy gyroscope bouncing that can be used for resisting the raising winning rate of contest and strengthen the interest of playing.
For achieving the above object, the technical scheme that the utility model adopts is: a kind of toy gyroscope bouncing, include be positioned at top blind nut, be positioned at the sea whelk of blind nut below, for the spiral shell seat of fixing sea whelk and be positioned at the top point of below, be characterized in being provided with spring movable part between described spiral shell seat and top point, described spring movable part and top point affixed and with spiral shell seat up and down springing is connected and realizes the movable part drive top point that bounces and pop up and beat.
Wherein, above-mentioned spring movable part comprise the movable sleeve that is connected with above-mentioned top point and between movable sleeve and above-mentioned spiral shell seat elastic component, by described elastic component, realize movable sleeve and top point and after certain distance, can reset downwards and move up again and form spring-like movement under inertia being moved upwards up to.
Elastic component of the present utility model is the magnetite that a pair of homopolarity is relative, described two magnetites by upper magnetite seat and lower magnetite seat, be fixed on above-mentioned spiral shell seat respectively and movable sleeve on, magnetite when described movable sleeve moves up on it is realized movable sleeve reset downwards with the magnetite of spiral shell seat and under inertia, is moved up again and form spring-like movement near producing the active force of homopolar-repulsion; Described elastic component can also be for being installed on the spring between movable sleeve and spiral shell seat; Also can be hydraulic means or pneumatic shuttle.
When moving down, movable sleeve departs from the gyro on top, above-mentioned spring movable part also includes retainer ring, described retainer ring and spiral shell seat spin fixing by bolt, described movable sleeve is between retainer ring and spiral shell seat and can in the space of between, move up and down.
In order to realize movable sleeve, can synchronize and rotate with spiral shell seat, the bottom of above-mentioned movable sleeve is cylinder, the convex pin that is provided with of described cylinder top edge, on above-mentioned spiral shell seat, correspondence is provided with slot, and described pin inserts in slot and realizes the relative spiral shell seat of movable sleeve and can only move up and down.
In order to realize top point, be fixedly connected with movable sleeve, above-mentioned top point is installed on a top point seat, described top point seat both sides are provided with Elastic buckle, and on above-mentioned movable sleeve, correspondence is provided with button hole, by Elastic buckle and button hole, are interlockingly connected and are realized affixed integral with movable sleeve top point.
For the parts that make this gyro have attack performance and to realize this gyro top are fixedly connected with, above-mentioned sea whelk includes counterweight sea whelk and attacks sea whelk, described attack sea whelk and the amalgamation of counterweight sea whelk phase, the top of described sea whelk is provided with on sea whelk to be overlapped, the below of sea whelk is provided with sea whelk and traps, and on described sea whelk, cover is trapped and respectively sea whelk is linked in together and spun mutually and realized affixed integral to blind nut, sea whelk and spiral shell seat by above-mentioned blind nut and spiral shell seat with sea whelk.
The utility model is owing to adopting the design that is provided with spring movable part between spiral shell seat and top point, by sharp to spring movable part and top affixed and with spiral shell seat being connected of resilient movement up and down, therefore when gyro is when transmitter lands, spring movable part and top point move up under the reaction force of gravity, then elasticity is recovered downward reset movement again, under inertia force effect, move up again again, so repeatedly, form spring-like movement, has interest, and when antagonism contest, can hit the other side's gyro downwards by takeofing, thereby more easily destroy the other side's gyro, greatly increased the aggressiveness of gyro, make winning rate higher, and its playing method novelty, can obtain liking of more players, again because the sea whelk of this gyro includes counterweight sea whelk and attack sea whelk, wherein counterweight sea whelk can increase gyro weight, the spring that makes this gyro is stronger and more steady while being impacted, and can increase the attack of this gyro, thereby further improve the aggressive and interesting of this gyro and attack sea whelk.In sum, the toy gyroscope bouncing described in the utility model, its design is ingenious, spring movable part and gyro are combined into one cleverly, make this gyro possess bouncing function, have the interest of game, allow player obtain in play larger winning rate, can also cultivate child's manipulative ability and competitiveness simultaneously.
Below in conjunction with drawings and Examples, the utility model is described in further detail.
Accompanying drawing explanation
Fig. 1 is perspective view of the present utility model.
Fig. 2 is sectional structure schematic diagram of the present utility model.
Fig. 3 is decomposition texture schematic diagram of the present utility model.
The specific embodiment
As shown in Figure 1 to Figure 3, a kind of toy gyroscope bouncing described in this embodiment, include the blind nut 1 that is positioned at top, be positioned at the sea whelk 2 of blind nut 1 below, for the spiral shell seat 3 of fixing sea whelk 2 and be positioned at the top point 8 of below, feature is to be provided with spring movable part between this spiral shell seat 3 and top point 8, spring movable part and top sharp 8 affixed and with spiral shell seat 3 up and down springing be connected, therefore when gyro is when transmitter lands, spring movable part and top point 8 move up under the reaction force of gravity, then elasticity is recovered downward reset movement again, under inertia force effect, move up again again, so repeatedly, form spring-like movement, has interest, and when antagonism contest, can hit the other side's gyro downwards by takeofing, thereby more easily destroy the other side's gyro, greatly increased the aggressiveness of gyro, make winning rate higher, and its playing method novelty, can obtain liking of more players.
As shown in Figure 2, the spring movable part of this embodiment comprise with top point 8 movable sleeves that are connected 6 and between movable sleeve 6 and spiral shell seat 3 elastic component 5, the elastic component 5 of this embodiment is the magnetite 51 that a pair of homopolarity is relative, this two magnetite 51 by upper magnetite seat 52 and lower magnetite seat 53, be fixed on spiral shell seat 3 respectively and movable sleeve 6 on, when movable sleeve 6 moves up, be that gyro takeoffs when liftoff, magnetite 51 on it also moves up also near the magnetite 51 on spiral shell seat 3, because can repelling each other, homopolarity produces relative active force, thereby make movable sleeve 6 reset gyro is landed downwards, now mutual expelling force weakens, so movable sleeve 6 again moves up again under the inertia force effect of the collision that lands, then under magnetite 51 effects, reset downwards again, so repeatedly form spring-like movement.The lower magnetite seat 53 of this embodiment be circular pedestal and with the one-body molded design of movable sleeve 6, upper magnetite seat 52 is the circular pedestal of a cylindrical indentation, the bottom correspondence of spiral shell seat 3 is provided with keeps supplying the cavity volume 31 that magnetite seat 52 packs into, this circle pedestal is that flexible glue system becomes, its external diameter is slightly larger than the cavity volume 31 that spiral shell seat 3 bottoms arrange, internal diameter is slightly less than the diameter of magnetite 51, thereby can guarantee that magnetite 51 is firmly arranged on spiral shell seat 3 bottoms by this circle pedestal.
As shown in Figure 3, the spring movable part of this embodiment also includes retainer ring 4, this retainer ring 4 spins fixing with spiral shell seat 3 by bolt, movable sleeve 6 is between retainer ring 4 and spiral shell seat 3 and can in the space of between, move up and down, and then the gyro that departs from top while avoiding movable sleeve 6 to move down.The bottom of the movable sleeve 6 of this embodiment is cylinder, and cylindrical top convexes with screens 61 to the periphery, and the interior ring bottom correspondence of retainer ring 4 is provided with back-up ring 41, and movable sleeve 6 is moved downward to when the back-up ring 41 of below is encountered in screens 61 and stops moving down.The interior ring of this retainer ring 4 is provided with four screw hole columns 42, on spiral shell seat 3, corresponding being provided with for bolt stretched into the circular hole 32 spinning with screw hole column 42, the position of the corresponding screw hole column 42 of the cylinder first half of movable sleeve 6 is provided with arc recess 62, screens 61 upper surfaces of movable sleeve 6 are designed to inclined plane, and retainer ring 4 is inserted in the position of the back-up ring 41 that makes retainer ring 4 between screens 61 and arc recess 62 bottom surfaces from movable sleeve 6 tops.The convex pin 63 that is provided with of this cylinder top edge, on spiral shell seat 3, correspondence is provided with slot 33, and pin 63 is inserted in slot 33, can synchronize and rotate, and spiral shell seat 3 can only move up and down relatively thereby realize movable sleeve 6 with spiral shell seat 3.The top point 8 of this embodiment is installed on a top point seat 7, and these top point seat 7 both sides are provided with Elastic buckle 74, and on movable sleeve 6, correspondence is provided with button hole 64, by Elastic buckle 74 and button hole 64, is interlockingly connected and is realized affixed integral with movable sleeve 6 top point 8.The sea whelk 2 of this embodiment includes counterweight sea whelk 21 and attacks sea whelk 22, this attack sea whelk 22 and the 21 phase amalgamations of counterweight sea whelk, wherein counterweight sea whelk 21 can increase gyro weight, the spring that makes this gyro is stronger and more steady while being impacted, and attack sea whelk 22, can increase the attack of this gyro, the top of sea whelk 2 is provided with on sea whelk overlaps 23, the below of sea whelk 2 is provided with sea whelk and traps 24, overlaps 23 and trap and 24 respectively sea whelk 2 be linked in together and spun mutually and realized affixed integral to blind nut 1, sea whelk 2 and spiral shell seat 3 by blind nut 1 and spiral shell seat 3 with sea whelk on sea whelk.
Although the utility model is to describe with reference to specific embodiment, this description not meaning that is construed as limiting the utility model.With reference to description of the present utility model, other of the disclosed embodiments change, and all can expect for those skilled in the art, and this variation should belong in affiliated claim limited range.
Claims (10)
1. the toy gyroscope that can bounce, include be positioned at top blind nut (1), be positioned at the sea whelk (2) of blind nut (1) below, for the spiral shell seat (3) of fixing sea whelk (2) and be positioned at the top point (8) of below, it is characterized in that being provided with spring movable part between described spiral shell seat (3) He Tuojian (8), described spring movable part affixed with top point (8) and with spiral shell seat (3) up and down springing be connected and realize spring movable part and drive top point to pop up to beat.
2. the toy gyroscope bouncing according to claim 1, it is characterized in that above-mentioned spring movable part comprise the movable sleeve (6) being connected with above-mentioned top point (8) and be positioned at movable sleeve (6) and above-mentioned spiral shell seat (3) between elastic component (5), by described elastic component (5), realize movable sleeve (6) and top point (8) and after certain distance, can reset downwards and move up again and form spring-like movement under inertia being moved upwards up to.
3. the toy gyroscope bouncing according to claim 2, it is characterized in that above-mentioned elastic component (5) is the relative magnetite (51) of a pair of homopolarity, described two magnetites (51) are fixed on by upper magnetite seat (52) and lower magnetite seat (53) respectively that above-mentioned spiral shell seat (3) is upper and movable sleeve (6) upper, and the magnetite (51) when described movable sleeve (6) moves up on it is realized movable sleeve (6) and resetted downwards and under inertia, move up again and form spring-like movement near the active force of generation homopolar-repulsion with the magnetite (51) of spiral shell seat (3).
4. the toy gyroscope bouncing according to claim 3, it is characterized in that above-mentioned lower magnetite seat (53) for circular pedestal and with the one-body molded design of above-mentioned movable sleeve (6), above-mentioned upper magnetite seat (52) is the circular pedestal of a cylindrical indentation, and the bottom correspondence of above-mentioned spiral shell seat (3) is provided with keeps supplying the cavity volume (31) that magnetite seat (52) packs into.
5. the toy gyroscope bouncing according to claim 2, it is characterized in that above-mentioned spring movable part also includes retainer ring (4), it is fixing that described retainer ring (4) and spiral shell seat (3) spin by bolt, and described movable sleeve (6) is positioned between retainer ring (4) and spiral shell seat (3) and space that can between moves up and down.
6. the toy gyroscope bouncing according to claim 5, the bottom that it is characterized in that above-mentioned movable sleeve (6) is cylinder, described cylindrical top convexes with screens (61) to the periphery, the interior ring bottom correspondence of above-mentioned retainer ring (4) is provided with back-up ring (41), and described movable sleeve (6) is moved downward to when the back-up ring (41) of below is encountered in screens (61) and stops moving down.
7. the toy gyroscope bouncing according to claim 6, the interior ring that it is characterized in that above-mentioned retainer ring (4) is provided with four screw hole columns (42), the upper correspondence of above-mentioned spiral shell seat (3) is provided with for above-mentioned bolt and stretches into the circular hole (32) spinning with screw hole column (42), the position of the corresponding screw hole column of the cylinder first half (42) of above-mentioned movable sleeve (6) is provided with arc recess (62), screens (61) upper surface of described movable sleeve (6) is designed to inclined plane, described retainer ring (4) is inserted in and makes the back-up ring (41) of retainer ring (4) be positioned at the position between screens (61) and arc recess (62) bottom surface from movable sleeve (6) top.
8. the toy gyroscope bouncing according to claim 6, it is characterized in that the convex pin (63) that is provided with of above-mentioned cylinder top edge, the upper correspondence of above-mentioned spiral shell seat (3) is provided with slot (33), and described pin (63) inserts in slot (33) and realizes the relative spiral shell seat of movable sleeve (3) and can only move up and down.
9. the toy gyroscope bouncing according to claim 2, it is characterized in that above-mentioned top point (8) is installed on a top point seat (7), described top point seat (7) both sides are provided with Elastic buckle (74), the upper correspondence of above-mentioned movable sleeve (6) is provided with button hole (64), by Elastic buckle (74) and button hole (64), is interlockingly connected and is realized affixed integral to top point (8) and movable sleeve (6).
10. the toy gyroscope bouncing according to claim 1, it is characterized in that above-mentioned sea whelk (2) includes counterweight sea whelk (21) and attacks sea whelk (22), described attack sea whelk (22) and counterweight sea whelk (21) phase amalgamation, the top of described sea whelk (2) is provided with cover (23) on sea whelk, the below of sea whelk (2) is provided with sea whelk trap (24), on described sea whelk cover (23) trap with sea whelk (24) respectively sea whelk (2) is linked in together also and spins mutually and realize blind nut (1) by above-mentioned blind nut (1) and spiral shell seat (3), sea whelk (2) and spiral shell seat (3) are affixed integral.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201320679585.5U CN203540045U (en) | 2013-10-31 | 2013-10-31 | Toy top capable of bouncing |
Applications Claiming Priority (1)
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CN201320679585.5U CN203540045U (en) | 2013-10-31 | 2013-10-31 | Toy top capable of bouncing |
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CN203540045U true CN203540045U (en) | 2014-04-16 |
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CN201320679585.5U Withdrawn - After Issue CN203540045U (en) | 2013-10-31 | 2013-10-31 | Toy top capable of bouncing |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103566593A (en) * | 2013-10-31 | 2014-02-12 | 广东奥飞动漫文化股份有限公司 | Bounceable toy gyro |
WO2016026302A1 (en) * | 2014-08-16 | 2016-02-25 | 广东奥飞动漫文化股份有限公司 | Combined toy gyroscope capable of splitting automatically |
-
2013
- 2013-10-31 CN CN201320679585.5U patent/CN203540045U/en not_active Withdrawn - After Issue
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103566593A (en) * | 2013-10-31 | 2014-02-12 | 广东奥飞动漫文化股份有限公司 | Bounceable toy gyro |
WO2015062427A1 (en) * | 2013-10-31 | 2015-05-07 | 广东奥飞动漫文化股份有限公司 | Bouncing toy spin-top |
CN103566593B (en) * | 2013-10-31 | 2016-09-14 | 广东奥飞动漫文化股份有限公司 | A kind of toy gyroscope bounced |
WO2016026302A1 (en) * | 2014-08-16 | 2016-02-25 | 广东奥飞动漫文化股份有限公司 | Combined toy gyroscope capable of splitting automatically |
US9802134B2 (en) | 2014-08-16 | 2017-10-31 | Guangdong Alpha Animation & Culture Co., Ltd. | Automatic detachable combined toy gyro |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20140416 Effective date of abandoning: 20160914 |
|
C25 | Abandonment of patent right or utility model to avoid double patenting |