CN204699390U - A kind of gyro of entertaining fission - Google Patents

Abstract

The utility model discloses an interesting fission gyroscope, which is characterized in that it comprises at least three gyroscope bodies, and clamping parts and elastic parts are arranged in these gyroscope bodies, and these gyroscope bodies are superimposed on each other and are clamped and fixed by the clamping parts to form Combining the gyroscope and keeping the elastic member in an elastic compression state at the same time, the combined gyroscope is impacted during the rotation process or the clamping member is released through control so that the gyro body located above is ejected under the elastic force of the elastic member to form various The gyro bodies rotate independently, and each gyro body is separated one by one from the bottom, so that the overall aggressiveness is greatly increased, the winning rate is higher, and the fun is stronger than the existing toy tops, and the gameplay is more innovative and interesting. Attract more players to love. This interesting fission top has ingenious design, compact structure, free combination, and diversified operations, which can win the favor of children.

Description

An interesting fission spinning top

technical field

The utility model relates to a toy top, in particular to a fun fission top.

Background technique

Existing toy tops basically all consist of a single top, which includes a shaft sleeve body, a screw cover, a screw piece and a top tip, and is connected with the top cover by a top launcher to launch the top to rotate. In order to increase or improve the performance of the gyroscope, so that your gyro can win the opponent in the competition, most of the existing toy gyroscopes are designed to be assembled and strengthened, and the gyroscope is designed to be easily disassembled. It can be installed and lengthened, so that the top can be easily and quickly disassembled for replacement or adding accessories. However, no matter how it is modified and strengthened, the toy top only uses one top to rotate against during play, so its winning rate is still difficult to obtain. It has been greatly improved, and it is very common for toy tops to be disassembled and assembled, so such tops have gradually lost their novelty, and it is difficult to win the favor of players for a long time. At present, there is a toy top that is a separable combined toy top, which is a fissionable toy top designed by the inventor. However, when the toy top is fissioned, it is only divided into two, that is, two top bodies rotate separately. Therefore, the fun is relatively weak, and the winning rate of the confrontation is relatively low.

Contents of the invention

Aiming at the problems in the above-mentioned prior art, the purpose of this utility model is to provide a spinning top that can be separated into a plurality of spinning tops, which can greatly improve the winning rate of confrontation and enhance the fun of playing.

In order to achieve the above-mentioned purpose, the technical solution adopted by the utility model is: a fun fission gyroscope, which is characterized in that it includes at least three gyroscope bodies, and the gyroscope body is provided with a clamping piece and an elastic piece, and the gyroscope body Superimposed on each other and clamped and fixed by clips to form a combined gyroscope, and at the same time make the elastic member in a state of elastic compression, the combined gyroscope is hit during the rotation process or the gyroscope located above is realized by controlling the clips to be released. The gyro bodies are ejected under the elastic force of the elastic member to form each gyro body to rotate independently.

Wherein, the clamping piece is one of the upward-moving unlocking clamping piece, the rotating unlocking clamping piece or the controllable unlocking clamping piece. Different clamping pieces are different in operation and unlocking, and each has its own characteristics. As an interesting point, when multiple gyroscopes are superimposed, different combinations can be used to achieve different fission methods.

The combined gyroscope of the present utility model includes a first gyroscope body, a second gyroscope body and a third gyroscope body. Both the second gyroscope body and the third gyroscope body are provided with clamping parts and elastic parts. The first gyroscope body It is connected to the upper end of the second gyro body, and the second gyro body is movably connected to the upper end of the third gyro body.

In order to realize that the first gyro is also separated when the second gyro is separated from the third gyro and touches the ground, the clip in the second gyro is an upward-moving unlocking clip, and the gyro of the second gyro The tip is elastically and telescopically connected to the lower part of the second gyro body, the upward movement unlocking clip is connected with the top tip, and the first gyro body is fixed on the top through the upward movement unlocking clip. The upper end of the second gyro body, when the gyro point of the second gyro body touches the ground and retracts upward, it drives the upward movement of the unlocking clip to release the clamping of the first gyro body, so that the first gyro body and the second gyro body are separated from each other. Turn individually.

Further, in order to ensure the stability of the gyroscope, the upward-moving unlocking clip includes a clip, and the clip is located on the upper part of the second top of the second gyro body, and the lower end of the clip is an inclined surface, so The upper part of the second top is correspondingly equipped with a wedge-shaped block and the inclined surface of the clip to cooperate with the second top. When the second top touches the ground and retracts upward, the clip moves outward. The reset spring for moving and resetting, the upper end of the clamping foot is provided with a hook, and the lower part of the first gyro body is correspondingly provided with a card position, and the upward movement of the unlocking card is realized by the card hook and the card position. The gyro body is fixed on the upper end of the second gyro body.

The method for controlling the separation of the second gyroscope in the present invention can be as follows: the clamping part in the third gyroscope body is a controllable unlocking clamping part, and the controllable unlocking clamping part includes a limit fixer and a sensing mechanism, The second gyroscope is connected to the upper end of the third gyroscope and fixed by the limiter, and the sensing mechanism is triggered by induction to drive the limiter to release the clamping of the second gyroscope to realize the second gyroscope It is separated from the third gyroscope and rotates independently.

Wherein the limit fixture is a rotary clamping fixture, a mobile clamping fixture or a bolt fixture, and the sensing mechanism includes an inductor, a motor and a power supply, and when the inductor receives the induction, the circuit is connected to make the The power supply drives the motor to work, and the motor works to drive the rotating clamping fixer to rotate or the moving clamping fixer to move or the plug fixer to be plugged in and out. And the sensor can also have many different ways, and the sensor is an electric sensor, a photosensitive sensor, a magnetron sensor, a thermal sensor or a sound-activated sensor.

The method for controlling the separation of the second gyroscope in the present invention can also be: the clamping piece on the third gyroscope is a rotation unlocking clamping piece, and the rotation unlocking clamping piece is arranged on the screw piece of the third gyroscope, The screw piece of the second gyro is correspondingly provided with a lower clamping position, and the second gyroscope is superimposed on the upper end of the third gyroscope and then pressed down and rotated so that the lower clamping position is engaged with the clamping piece and fixed. When the screw piece of the second gyroscope is impacted, a rotation dislocation occurs, so that the rotation unlocking clip releases the clamping of the second gyroscope, so that the second gyroscope and the third gyroscope are separated and rotate independently.

In addition, the separation method of the utility model to control the second gyroscope can also be an upward movement unlocking method, that is, when the combined gyroscope is launched to the ground, if the tip of the third gyroscope touches the ground, the lock on the second gyroscope body will be released. Clamping realizes that the second gyro body and the third gyro body are separated from each other and rotate independently.

The elastic part of the utility model includes a spring installed in the middle of the gyro body, and when the upper gyro body is superimposed on the lower gyro body, the spring located in the lower gyro body is squeezed and is in an elastically compressed state.

Since the utility model adopts at least three gyroscopes superimposed on each other and fixed by clamping parts to form a combined gyroscope, and at the same time makes the elastic parts in the gyroscope in an elastic compression state, so if the combined gyroscope is hit during rotation, or Manually control the clamping parts to release the clamping connection, so that the upper gyro body is ejected under the elastic force of the elastic part in the lower gyro body to form a separate rotation, and each gyro body is separated one by one from the bottom. , so that the overall aggressiveness is greatly increased, the winning rate is higher, and the fun is stronger than the existing toy top, the gameplay is more innovative and interesting, and can attract more players; Different card connection methods have different operations when releasing the card connection. Therefore, through the combination of different card connection methods, the fission operations of the combined gyroscopes formed are different, so players can choose according to their own preferences. Combination in different ways, so that the winning rate of your combination spinning top is higher. The interesting fission spinning top of the utility model has ingenious design, free combination, diversified operation, and great fun of games. It can be used in battle games, allowing players to obtain a greater winning rate. ability.

Below in conjunction with accompanying drawing and embodiment the utility model is further described.

Description of drawings

Fig. 1 is a three-dimensional structural schematic diagram of Embodiment 1 of the utility model.

Fig. 2 is a schematic cross-sectional structural view of Embodiment 1 of the utility model.

Fig. 3 is a schematic diagram of an exploded structure of Embodiment 1 of the present utility model.

FIG. 4 is a schematic diagram of an exploded structure of a third gyroscope in Embodiment 1 of the present invention.

Fig. 5 is a schematic diagram of the exploded structure of the second gyroscope according to the first embodiment of the present invention.

Fig. 6 is a schematic diagram of an exploded structure of the first gyroscope according to Embodiment 1 of the present invention.

Fig. 7 is a schematic diagram of the three-dimensional structure of the second embodiment of the utility model.

Fig. 8 is a schematic cross-sectional structure diagram of Embodiment 2 of the present utility model.

Detailed ways

As shown in Figures 1 to 8, the fun fission gyroscope of the present invention includes at least three gyroscope bodies, and clips and elastic members 4 are arranged in these gyroscope bodies. After clamping and fixing, a combined top is formed, and the elastic member 4 is in an elastically compressed state at the same time. During the rotation, the combined top is hit or the clamping part is released by control to realize the elastic force of the upper top body on the elastic part 4. Under the action, it is ejected to form each gyro body to rotate independently, and each gyro body is separated one by one from the bottom, so that the overall aggressiveness is greatly increased, the winning rate is higher, and the fun is stronger than the existing toy top , the gameplay is more innovative and interesting, which can attract more players. Further, the clamping part of the utility model can be one of the upwardly moving unlocking clamping part 5, the rotating unlocking clamping part 6 or the controllable unlocking clamping part 7, and different clamping parts have different operation and unlocking. The same, each has its own characteristics and interesting points, so when multiple gyroscopes are superimposed, different combinations can be used to achieve different fission methods and operation methods, improve the fun of playing, and make more combinations available. It will not affect its fun because it is too single.

Embodiment one:

As shown in Figures 1 to 3, the combined gyro of this embodiment includes a first gyro body 1, a second gyro body 2 and a third gyro body 3, wherein both the second gyro body 2 and the third gyro body 3 are provided with There are clamping parts and elastic parts 4 , the first gyro body 1 is connected to the upper end of the second gyro body 2 , and the second gyro body 2 is movably connected to the upper end of the third gyro body 3 . When separating, be that the second gyro body 2 is separated from the third gyro body 3 earlier, and then the first gyro body 1 is separated from the second gyro body 2, wherein the separation of the second gyro body 2 and the third gyro body 3 is through It is artificially controlled, and the separation of the first gyro body 1 and the second gyro body 2 is carried out immediately when the second gyro body 2 touches the ground.

As shown in FIG. 4 , the clamping member in the third gyroscope body 3 of this embodiment is a controllable unlocking clamping member 7, and the controllable unlocking clamping member 7 includes a limiter 71 and a sensing mechanism 8, The second gyro body 2 is connected to the upper end of the third gyro body 3 and fixed by the limit fixer 71, and the sensing mechanism 8 is triggered by induction to drive the limit fixer 71 to release the clamping of the second gyro body 2 to achieve The second gyro body 2 and the third gyro body 3 are separated from each other and rotate independently. The limiting fixture 71 of this embodiment is a rotary clamping fixture, and the sensing mechanism 8 of this embodiment includes an inductor that is inductive to an external induction source, a motor 81 that drives the rotary clamping fixture 71 to rotate, and a motor 81 power supply 82, when the inductor receives the induction of the external induction source, the circuit of the motor 81 and the power supply 82 is communicated, and now the motor 81 works and drives the rotating clamping fixture 71 to rotate and then release the second gyroscope 2. Clamping realizes that the second gyroscope 2 is ejected under the elastic force of the elastic member 4 . The inductor of this embodiment is a magnetic control induction circuit, and this magnetic control induction circuit is made up of EPROM, magnetic control switch, capacitor and resistance, and motor circuit is made up of motor 81, capacitor, triode and resistance in addition, and power supply circuit is made up of power supply 82, switch , capacitance and resistance, the external induction source of this embodiment corresponds to the induction rod with a magnet at the end, when the magnet at the end of the induction rod is close to the combined gyroscope in rotation, the magnetic control switch in the magnetic control induction circuit is affected by the magnet The magnetic force attracts and closes, so that the induction circuit is in a connected state, and the magnetic control induction circuit sends a signal to the PA0 pin of the EPROM, and the EPROM controls the motor 81 in the motor circuit through the PB0 pin to work after receiving the signal. The above circuits are integrated on the same circuit board 83, and the circuit board 83 is also provided with a power control switch 84. The circuit board 83 is installed on the side of the third gyro body 3, and the motor 81 is installed in the middle of the third gyro body 3. position, and the power supply 82 is installed on the side of the motor 81.

As shown in Figure 5, the elastic member 4 of this embodiment is arranged in the third gyroscope body 3, the elastic member 4 includes a spring 41 and an ejection seat 42, the spring 41 is sleeved outside the rotating clamping fixture 71, and the ejection seat 42 is installed above the spring 41. When the second gyro body 2 is clamped on the rotating clamping fixture 71, the spring 41 and the ejection seat 42 are pressed downward; When the clamping state is released after rotation, the ejection seat 42 moves upward under the elastic force of the spring 41, and at the same time ejects the second gyro body 2; Seat 32, lower screw sleeve 33, upper screw sleeve 34, screw piece 35 and mounting seat 36, wherein sensing mechanism 8 is installed and fixed in the mounting base 36, and this mounting base 36 is fixed between lower screw sleeve 33 and upper screw sleeve 34 , the ejection seat 42 can be moved up and down between the upper screw sleeve 34 and the mounting seat 36, and the ejection seat 42 can move upwards to extend out of the upper screw sleeve 34 and limit its upward separation from the third gyro body 3 by the upper screw sleeve 34, The screw piece 35 is sleeved between the upper screw sleeve 34 and the mounting base 36 . As shown in Figure 6, the motor 81 of this embodiment is placed horizontally below the rotating clamping fixture 71, and the rotating shaft end of the motor 81 is connected with a toggle piece 85, and the toggle piece 85 is a cylinder and Lugs 851 are protruded on both sides of the symmetrical body, and the bottom edge of the rotating clip holder 71 is provided with a convex edge 711 corresponding to the position of the toggle piece 85. The lugs 851 of the toggle piece 85 are driven by the rotating shaft of the motor 81 to rotate. To the flange 711 of the rotary clamping fixture 71 and then drive the rotary clamping fixture 71 to rotate to release the clamping of the second gyroscope body 2; the rotary clamping fixture 71 is provided with a return spring 72 to make the rotary clamping fixed The device 71 can reverse and reset after rotating. When the toggle piece 85 continues to rotate, the lug 851 will gradually leave the flange 711. Under the action of the elastic force, it reverses and resets, and returns to the initial position, waiting for the other lug 851 of the toggle piece 85 to drive the rotating locking fixture 71 to rotate again. In this embodiment, a metal block 852 is provided at the front end of the toggle piece 85, and a self-stop detection device 9 installed in the third gyroscope 3 is arranged above the metal block 852. Correspondingly, a circuit board 83 is provided with The detection circuit, the detection circuit is connected to the PA1 pin of the EPROM by a self-stop detection switch with one end grounded and the other. 852 will be intermittently in contact with the two contact pins 91 during the rotation of the toggle piece 85. When the metal block 852 rotates to the state where it does not contact the two contact pins 91, the self-stop detection switch in the circuit is disconnected, and the EPROM detects When the switch is turned off, a control signal is sent to control the motor 81 to stop working, so as to reduce the unnecessary loss of the power supply 82; The contact state of contact pin 91. A spline-shaped snap-in hole 73 is opened in the middle of the rotating snap-in fixer 71 of this embodiment, and the upper edge side wall of the snap-in hole 73 is provided with a cut-in hypotenuse 74 . Correspondingly, there is a spline-shaped locking protrusion 221. When the second gyro body 2 is inserted downward into the third gyro body 3, the locking protrusion 221 first squeezes and cuts into the hypotenuse 74, thereby generating a component force so that the rotating locking fixture 71 is locked. Drive the rotation, and when the carding hole 73 is aligned with the carding protrusion 221, the carding protrusion 221 is snapped into the carding hole 73, and after the carding, the rotating clamping fixture 71 is automatically reversed and reset under the action of the reset spring 72 to realize the carding protrusion 221 Fastened in the clamping hole 73, at this moment the second gyro body 2 and the third gyro body 3 are combined into one body.

As shown in FIG. 5 , the locking member in the second gyroscope body 2 of this embodiment is an upward-moving unlocking locking member 5 . The second gyroscope body 2 comprises a second top tip 21, a lower screw seat 22, an upper screw seat 23, an attack ring 24 and an axle sleeve 25, the upper screw seat 23 and the lower screw seat 22 butt up and down and are fixed by screws, the attack ring 24 The inner ring surface of the ring is provided with a convex key 241, and the upper edge of the lower screw seat 22 is provided with a concave position 222 downward. The screw seat 23 is fixedly connected with the lower screw seat 22 so that the attack ring 24 is sleeved on the outside between the upper screw seat 23 and the lower screw seat 22, and the attack ring 24 will not rotate relative to the upper and lower screw seats; Inside between the screw seat 23 and the lower screw seat 22, a post is provided on the bottom surface of the shaft sleeve 25, and a socket 223 is correspondingly provided in the lower screw seat 22, and the shaft sleeve is realized by inserting the post and the socket 223. 25 is connected with the lower screw seat 22, and the shaft sleeve 25 is fixed by the upper screw seat 23 and the lower screw seat 22; the second top 21 is installed on the lower screw seat 22, and its spring 41 is arranged on the upper screw seat 23 and the position between the sleeve 25. The middle of the lower screw seat 22 of this embodiment is provided with a mounting seat 224, and the second top 21 extends from the middle of the bottom of the mounting seat 224 to the bottom of the lower screw seat 22. The upward movement unlocking clip 5 of this embodiment Correspondingly include two clip feet 51, the clip feet 51 form a semi-circular ring, the two clip feet 51 are respectively located on both sides of the upper part of the second top tip 21, the lower end of the inner circular surface of the clip foot 51 is designed as an inclined surface 52, the second top tip The upper part of 21 is correspondingly equipped with a wedge-shaped block 211 to cooperate with the inclined surface 52 of the clip 51, so that when the second top 21 touches the ground and retracts upward, the two clips 51 move outward respectively, and the clip 51 moves outward to release the pairing. The clamping of the first gyro body 1 causes the first gyro body 1 to be ejected and separated; a return spring 53 is connected to the outer surface of the clamp foot 51, and the clamp foot 51 can be moved to the middle to reset by the reset spring 53. The second top tip 21 protrudes the second top tip 21 downward. The upper end of the inner ring of the locking foot 51 is protrudingly provided with a hook 54, and the lower part of the first gyroscope body 1 is correspondingly provided with a locking position 10, and the locking position 10 is locked by the locking hook 54 to realize upward movement and unlocking of the locking member 5. Fix the first gyro body 1 on the upper end of the second gyro body 1 .

As shown in Figure 6, the first gyroscope body 1 of this embodiment comprises a first gyroscope 11, a gyro piece 12 and a screw cover 13, and the gyro cover 13 is screwed on the upper end of the gyro piece 12, and the first gyro tip 11 and the gyro piece 12 It is connected and fixed by screws, and the card position 10 matched with the hook 54 is set on the first top 11, and the first top 11 extends into the second top body 2 and engages with the upward-moving unlocking clip 5. , and the bottom of the top plate 12 stretches into the hole of the upper screw seat 23 to compress the spring 41 .

The fission principle of the combined gyroscope is as follows: the combined gyroscope will rotate at a high speed after being launched by the transmitter. Players can, according to their own judgment, bring the induction stick close to the position of the rotating third gyroscope body 3 during the game, so that the induction circuit Turn on, the motor 81 works to drive the rotary clamping fixture 71 to rotate, and releases the clamping connection to the second gyro body 2. At this moment, the second gyro body 2 bounces upward under the action of the spring seat 42 and the spring 41, and in its Under the action of rotational inertia force, it deviates from the third gyro body 3, and finally lands and continues to rotate. When the second gyro point 21 of the second gyro body 2 touches the ground, the second gyro point 21 shrinks upwards and pushes the two locking feet 51 to move outward. Furthermore, the locking feet 51 are released from the clamping of the first gyro body 1, so that the first gyro body 1 is ejected under the elastic force of the elastic member 4 of the second gyro body 2, and finally the three gyro bodies are separately rotated separately, thereby Forming a way of three against one greatly improves the winning rate of the game, and at the same time improves the controllability and fun of the top toy against the game, and can cultivate children's hands-on ability, judgment ability and competition ability.

Embodiment two:

As shown in Fig. 7 and Fig. 8, the combined gyro of this embodiment also includes a first gyro body 1, a second gyro body 2 and a third gyro body 3, wherein both the second gyro body 2 and the third gyro body 3 A clamping piece and an elastic piece 4 are provided, the first gyro body 1 is connected to the upper end of the second gyro body 2 , and the second gyro body 2 is movably connected to the upper end of the third gyro body 3 . When separating, be that the second gyro body 2 is separated from the third gyro body 3 earlier, and then the first gyro body 1 is separated from the second gyro body 2, wherein the separation of the second gyro body 2 and the third gyro body 3 is through It is resistant to impact, and the separation of the first gyro body 1 and the second gyro body 2 is carried out immediately when the second gyro body 2 touches the ground.

The third gyro body 3 of this embodiment includes a screw piece 35, a shaft sleeve body 37 and a third top 31, the screw piece 35 is designed as a ring body, and the rotating unlocking clip 6 is arranged on the screw piece 35, specifically In order to be arranged on the upper clamping edge 61 on the upper part of the inner ring edge of the screw piece 35, in this embodiment, a connecting plate is protruded on the inner ring edge of the screw piece 35, and four connecting plates evenly distributed in a ring are arranged in total, and the ends of the connecting plate Both left and right sides are provided with an upper card edge 61, so the upper card edge 61 and the connecting plate are in a "T" shape, and the lower surface of the upper card edge 61 is provided with a hemispherical convex point 62, and the outer ring of the screw piece 35 The ring wall is provided with concavo-convex lines, which are used to increase the appearance of the gyroscope, and at the same time make the gyroscope have a certain aggressiveness; the elastic member 4 of this embodiment is arranged on the sleeve body 37 of the third gyro body, and the sleeve body 37 There is a concave cavity for the elastic part 4 to be accommodated, and the upper end of the elastic part 4 protrudes from the sleeve body 37 so that the elastic part 4 is in a compressed state when the second gyro body 2 is connected to the third gyro body 3 . The elastic member 4 of this embodiment includes a ring seat 42 and a spring 41, the ring seat 42 extends downwards with snap feet 43, and the wall of the cavity of the sleeve body 37 is provided with a strip for snapping the snap feet 43. The ring seat 42 can move in the bar-shaped button groove by inserting the buckle foot 43 into the bar-shaped button groove, and the spring 41 is installed between the ring seat 42 and the cavity to realize the ring seat 42 can move elastically. The second gyro body 2 of this embodiment includes a second top 21, a lower screw seat 22, an upper screw seat 23, an attack ring 24 and a shaft sleeve 25, and the upper screw seat 23 and the lower screw seat 22 are butted up and down and fixed by screws. The inner ring surface of the attack ring 24 is provided with a convex key 241, and the upper edge of the lower screw seat 22 is provided with a concave position 222 downwards. When the attack ring 24 is placed on the lower screw seat 22, the convex key 241 extends into the concave position 222. Among them, the attack ring 24 is sleeved outside between the upper screw seat 23 and the lower screw seat 22 through the fixed connection of the upper screw seat 23 and the lower screw seat 22, and the attack ring 24 will not rotate relative to the upper and lower screw seats. The bottom of the lower screw seat 22 corresponds to the lower card edge 225 designed to cooperate with the upper card edge 61, and two hemispherical concave points are arranged on the upper surface of each lower card edge 225 corresponding to the hemispherical convex point 62. The attack ring of this embodiment 24 outer sidewalls are provided with a plurality of attacking parts, and the attacking parts protrude on the sidewall of the spiral piece 35, and the attacking ring 24 is used as the attacking spiral piece of the whole combined top. When assembling the two gyroscopes in this embodiment, the lower clamping edge 225 of the lower screw base 22 is misaligned with the upper clamping edge 61 on the screw piece 35, that is, the lower clamping edge 225 is aligned with the two sets of upper clamping edges 61 on the screw piece 35. The gap between them, and then move closer together. At this time, the lower card edge 225 of the lower screw seat 22 passes through the gap and is below the upper card edge 61 of the screw plate 35. At this time, the second gyro body 2 can be rotated according to the direction in which you want to launch the gyro. Realize snapping with the 3rd gyro body 3, if you want to make the gyro rotate clockwise, then the second gyro body 2 is rotated counterclockwise relative to the 3rd gyro body 3, so that the lower clamping edge 225 on the right side and the upper side on the left side The card edge 61 is snapped together, and at the same time, the hemispherical concave point near the inside is matched with the hemispherical convex point 62 of the upper card edge 61; Rotate clockwise, so that the lower card edge 225 on the left side is engaged with the upper card edge 61 on the right side, and at the same time match the hemispherical concave point near the inside with the hemispherical convex point 62 on the upper card edge 61 . Therefore, in the playing process, when the toy top is hit for the first time and the impact force reaches to make the attack ring 24 rotate, the second top body 2 will not be separated from the third top body 3 immediately, but the lower screw base 22 The hemispherical concave point on the outside cooperates with the hemispherical salient point 62 of the screw piece 35 until the impact ring 24 is rotated again. At this time, the hemispherical convex point 62 slides out of the hemispherical concave point, and the upper card edge 61 and the lower card edge 225 Also completely misaligned, the elastic member 4 recovers elastically, and then the second gyro body 2 is ejected, thereby forming the separation of the second gyro body 2 and the third gyro body 3 . The clamping part in the second gyroscope body 2 of this embodiment is also the upward-moving unlocking clamping part 5 . The structural styles of the upward-moving unlocking clip 5 and the corresponding second top 21 connected to the upward-moving unlocking clip 5 in this embodiment are the same as those in Embodiment 1, and the structure of the corresponding first top 1 is also the same. The structure is the same as that of the first gyroscope 1 in Embodiment 1, so it will not be repeated here.

The fission principle of the combined gyroscope is as follows: the combined gyroscope rotates at a high speed after being launched by the transmitter, and when the combined gyroscope collides with the opposing gyroscope, the second gyroscope body 2 and the first gyroscope body 1 are dislocated relative to the third gyroscope body 3 Rotate, after two collisions and dislocations, the second gyro body 2 is separated from the third gyro body 3 together with the first gyro body 1, and is ejected under the elastic force of the elastic part 4 of the third gyro body 3, and when the second gyro body When the second top 21 of 2 touches the ground, it will release the clamping of the first top 1, so that the first top 1 will be ejected under the elastic force of the elastic part 4 of the second top 2, and finally three tops will be formed. The spinners rotate separately, enclosing and attacking the opponent's spinning top, which greatly improves the winning rate.

Although the invention has been described with reference to specific embodiments, such description is not meant to limit the invention. With reference to the description of the present utility model, other changes of the disclosed embodiments are expected by those skilled in the art, and such changes shall fall within the scope defined by the appended claims.

Claims (10)

1. the gyro of an entertaining fission, it is characterized in that: include at least three gyrostats, shackle member and elastic component (4) is provided with in described gyrostat, described gyrostat mutually superposes and connects and fixes rear formation combination gyro by shackle member, make elastic component (4) be in elastic compression simultaneously, described combination gyro clashed in rotary course or by control to make shackle member remove clamping and realizing be positioned at above gyrostat launch to come under the elastic force effect of elastic component (4) and form each gyrostat and rotate separately separately.

2. the gyro of entertaining fission according to claim 1, is characterized in that: described shackle member is above transfer from one place to another under escort the one in pintle hook lock fitting (5), rotation unblock shackle member (6) or controlled unblock shackle member (7).

3. the gyro of entertaining fission according to claim 1, it is characterized in that: described combination gyro includes the first gyrostat (1), the second gyrostat (2) and the 3rd gyrostat (3), shackle member and elastic component (4) is equipped with in described second gyrostat (2) and the 3rd gyrostat (3), described first gyrostat (1) is connected to the second gyrostat (2) upper end, and described second gyrostat (2) is movably connected on the 3rd gyrostat (3) upper end.

4. the gyro of entertaining fission according to claim 3, it is characterized in that: the shackle member in described second gyrostat (2) transfers from one place to another under escort pintle hook lock fitting (5) on being, second top point (21) of described second gyrostat (2) can be connected to the bottom of the second gyrostat (2) elastic telescopic, transfer from one place to another under escort pintle hook lock fitting (5) on described to be connected with described second top point (21), described first gyrostat (1) is by transfering from one place to another under escort (5) clamping of pintle hook lock fitting on described and being fixed on the second gyrostat (2) upper end, second top point (21) of described second gyrostat (2) land upwards retraction time drive and transfer from one place to another under escort pintle hook lock fitting (5) and remove clamping to the first gyrostat (1), thus realize the first gyrostat (1) and the second gyrostat (2) and be separated and rotate separately separately.

5. the gyro of entertaining fission according to claim 4, it is characterized in that: transfer from one place to another under escort pintle hook lock fitting (5) on described and include card base (51), described card base (51) is positioned at the top of the second top point (21) of the second gyrostat (2), the lower end of described card base (51) is inclined plane (52), the top correspondence of described second top point (21) be provided with wedge (211) coordinate with the inclined plane (52) of card base (51) and realize the second top point (21) land upwards contracting time card base (51) outwards move, the lateral surface of described card base (51) is connected with the back-moving spring (53) that card base (51) can be made to centre to move reset, the upper end of described card base (51) is provided with grab (54), the bottom correspondence of described first gyrostat (1) is provided with screens (10), by grab (54) realize with screens (10) phase clamping described on transfer from one place to another under escort pintle hook lock fitting (5) the first gyrostat (1) be fixed on described second gyrostat (2) upper end.

6. the gyro of entertaining fission according to claim 3, it is characterized in that: the shackle member in described 3rd gyrostat (3) is controlled unblock shackle member (7), described controlled unblock shackle member (7) includes limit fixator (71) and sensing mechanism (8), described second gyrostat (2) is connected to the 3rd gyrostat (3) upper end and is fixed by described limit fixator (71), described sensing mechanism (8) is sensed to be triggered and drives limit fixator (71) to remove to realize the clamping of the second gyrostat (2) the second gyrostat (2) to be separated with the 3rd gyrostat (3) to rotate separately separately.

7. the gyro of entertaining fission according to claim 6, it is characterized in that: described limit fixator (71) is rotary clamping fixator, mobile clamping fixator or inserted pin gripping apparatus, described sensing mechanism (8) includes inductor, motor (81) and power supply (82), connecting circuit when described inductor receives induction makes power supply (82) drive motor (81) work, and motor (81) work drives described rotary clamping fixator to rotate or mobile clamping fixator moves or inserted pin gripping apparatus plug.

8. the gyro of entertaining fission according to claim 7, is characterized in that: described inductor is electric inductor, light-inductive device, magnetic control inductor, thermal sensing device or acoustic control inductor.

9. the gyro of entertaining fission according to claim 3, it is characterized in that: the shackle member on described 3rd gyrostat (3) unlocks shackle member (6) for rotating, described rotation unlocks shackle member (6) and is arranged on the sea whelk (31) of the 3rd gyrostat (3), the upper correspondence of attack ring (24) of described second gyrostat (2) is provided with lower screens (241), described second gyrostat (2) be added to the 3rd gyrostat (3) upper end after make lower screens (241) unlock shackle member (6) phase clamping with rotation and fix by pressing down and rotating, produce when the attack ring (24) of described second gyrostat (2) is subject to clashing into and rotate dislocation and make rotation unlock shackle member (6) to remove and the clamping of the second gyrostat (2) realized to the second gyrostat (2) and be separated with the 3rd gyrostat (3) and rotate separately separately.

10. the gyro of entertaining fission according to claim 3, it is characterized in that: described elastic component (4) includes the spring (41) be arranged in the middle of gyrostat, the spring (41) being positioned at lower end gyrostat when the gyrostat of upper end is added to the gyrostat of lower end is extruded and is in elastic compression.