CN217645833U - Top toy - Google Patents

Abstract

The utility model discloses a top toy, including top transmitter and top body, the top transmitter includes casing, accelerating unit and transmitting element, and accelerating unit is used for accelerating the top body of installing on the top transmitter, and transmitting element is used for launching the top body after accelerating, still includes the safety lock subassembly, and the safety lock subassembly includes at least including locking state and unlocking state, and the transmitting element is including launching the piece, and top toy is at least including launching state and the state of loading into the chest: when the spinning top is in a loading state, the spinning top body is installed at the ejection piece and is in transmission connection with the accelerating unit, the ejection piece retracts backwards to a pre-launching position, and the safety lock assembly is in an unlocking state for unlocking the ejection piece; when the spinning top is in a launching state, the launching unit is used for launching the spinning top body, the launching piece extends forwards, and the safety lock assembly is in a locking state of locking the launching piece at the extending position. The utility model discloses can prevent that the top transmitter from being used for launching other objects and causing the harm to the player.

Description

Top toy

Technical Field

The utility model relates to the technical field of toys, in particular to a top toy.

Background

The top toy usually comprises a launcher and a top body, and the top body is ejected by an ejection piece of the launcher after being installed on the launcher, so that the launching of the top body is realized. The ejection piece launches the spinning top body when extending forwards, then keeps in the state of extending, and after the spinning top body is installed on the ejection piece again, pushes the ejection piece to retract backwards and reset.

After the existing ejection piece is extended, other ejectable objects are possibly loaded on the emitter and are pushed backwards to retract, and at the moment, the gyro body is not installed on the emitter, so that potential safety hazards are generated.

Therefore, there is a need for a top toy with a locking ejector, which prevents the top launcher of the top toy from being used to launch other objects and causing harm to the player.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art's is not enough, provides a top toy that realizes launching piece locking, prevents that top emitter of top toy from being used for launching other objects and causing the harm to the player.

The technical scheme of the utility model a top toy is provided, including top transmitter and top body, the top transmitter includes casing, accelerating unit and transmitting element, accelerating unit is used for installing on the top transmitter top body accelerates, transmitting element is used for with higher speed after the top body launches, still includes safety lock subassembly, the safety lock subassembly includes at least including lock status and unblock state, transmitting element is including launching the piece, top toy is at least including launch status and the state of loading into the chamber:

when the spinning top is in a loading state, the spinning top body is installed at the ejection piece, an unlocking piece on the spinning top body triggers the safety lock assembly to be in an unlocking state for unlocking the ejection piece, the ejection piece retracts to a pre-launching position after being unlocked, and the spinning top body is in transmission connection with the accelerating unit;

when the spinning top is in the launching state, the launching unit is used for launching the spinning top body, the ejection piece extends forwards, and the safety lock assembly is in a locking state of locking the ejection piece at the extending position.

Further, the accelerating unit comprises a pull ring, a pull rope, a winder and an accelerating gear set, one end of the pull rope is connected with the pull ring, the other end of the pull rope is connected with the winder, the winder is connected with the accelerating gear set, and during loading, the accelerating gear set is used for being in transmission connection with the gyroscope body.

Furthermore, the launching unit further comprises a launching spring, an ejection locking block and a launching key, the launching spring is connected with the ejection piece, the ejection locking block is used for locking and releasing the ejection piece, and the launching key is connected with the ejection locking block;

when the ejection lock block is in the loading state, the ejection piece is locked at the pre-ejection position by the ejection lock block, and the ejection spring is compressed;

and in the launching state, the launching key triggers the ejection locking block to release the ejection piece, and the launching spring ejects the ejection piece forwards.

Furthermore, the ejection piece comprises two fork arms, a gyro mounting groove and a lock rod, the gyro mounting groove is used for mounting the gyro body and is positioned between the two fork arms, the ejection locking block comprises a locking spring and a lock groove, the lock rod is inserted into the lock groove,

when the lock is in the loading state, the locking spring pushes the locking groove downwards, and the locking groove is tightly clamped with the locking rod;

when the lock rod is in the transmitting state, the transmitting key pushes the lock groove to move upwards, the locking spring is compressed, and the lock groove is loosely matched with the lock rod.

Further, the launching unit further comprises a limiting piece, and the limiting piece is mounted on the ejection piece;

when the spinning top is in the loading state, the limiting piece is used for limiting the spinning top body on the ejection piece;

in the launch state, the restricting member releases the restriction of the top body.

Further, the limiting piece and the ejection piece are rotatably connected through a torsion spring;

when the spinning top is in the loading state, the ejector piece retracts to the pre-shooting position, and the limiting piece is pushed by the shell and is abutted against the spinning top body;

during the launch state, launch the piece and stretch out to the extended position, the casing releases the restriction piece, the torsional spring drives the restriction piece rotates to it is right to remove the restriction of top body.

Further, the safety lock assembly comprises a lock and a stopper, wherein the lock is mounted on the ejection piece;

in the locked state, the locking piece is matched with the blocking piece;

during the unblock state, the top body is installed on the ejection piece, the unblock piece triggers the latch fitting, the latch fitting move with block the position that the piece separates.

Further, the safety lock assembly further comprises a linkage piece, wherein the linkage piece is installed on the ejection piece and is located inside the outline edge of the ejection piece and connected with the locking piece.

Further, the linkage piece can move along the front-back direction of the ejection piece, and the locking piece can move along the up-down direction of the ejection piece;

in the locking state, the linkage piece is in a forward moving state and is positioned inside the outline edge of the ejection piece, and the locking piece extends downwards to be matched with the blocking piece;

when the unlocking state is realized, the linkage piece is in a backward moving state and pushes the locking piece to move upwards, and the locking piece is separated from the blocking piece.

Furthermore, the unlocking piece on the top body is a circle of convex ring arranged on the bottom of the top body, when the top body is installed on the ejection piece, the convex ring extends into the inside of the outline edge of the ejection piece, and the safety lock assembly is triggered to be switched to the unlocking state.

After adopting above-mentioned technical scheme, have following beneficial effect:

when the gyroscope emitter in the utility model is in the initial state of the gyroscope body to be assembled, the safety lock component locks the ejection piece at the extension position; only when the gyro body matched with the gyro launcher is installed on the ejector, the safety lock component can unlock the ejector, so that the ejector can retract to a pre-launching position. Therefore, the safety performance of the gyro emitter can be effectively improved, and the damage to the player caused by other objects emitted by the gyro emitter when the player operates improperly can be avoided.

Drawings

The disclosure of the present invention will become more readily understood by reference to the drawings. It should be understood that: these drawings are for illustrative purposes only and are not intended to limit the scope of the present disclosure. In the figure:

FIG. 1 is a schematic view of the loading state of a top toy according to an embodiment of the present invention;

FIG. 2 is a schematic view of a launching configuration of a toy top according to an embodiment of the present invention;

FIG. 3 is a schematic view of an acceleration unit, a firing unit, and a safety lock assembly in an embodiment of the present invention;

fig. 4 is a schematic diagram of a transmitting unit according to an embodiment of the present invention;

fig. 5 is a schematic diagram of another view angle of the emitting unit in an embodiment of the present invention;

FIG. 6 is an enlarged partial view of FIG. 5;

fig. 7 is a schematic view of an internal structure of a top toy and a top body in a loaded state according to an embodiment of the present invention;

FIG. 8 is a partially enlarged view of a top toy and a top body in an loaded state according to an embodiment of the present invention;

FIG. 9 is a partially enlarged view of the top toy and the top body in the loaded state from another perspective according to an embodiment of the present invention;

figure 10 is a schematic view of an ejector and a safety lock assembly in an embodiment of the invention;

fig. 11 is a partially enlarged view of fig. 10.

Reference numerals comparison table:

the gyro transmitter 10:

a housing 1: the device comprises a handle 11, an animal head 12 and a top accommodating cavity 13;

the accelerating unit 2 comprises a pull ring 21, a pull rope 22, a winder 23 and an accelerating gear set 24;

the transmitting unit 3: the ejection piece 31, the ejection spring 32, the ejection locking block 33, the ejection key 34, the limiting piece 35, the torsion spring 36, the fork arm 311, the gyro mounting groove 312, the lock lever 313, the locking spring 331, the lock groove 332, the unlocking inclined surface 332a and the unlocking poking piece 341;

the safety lock assembly 4: the locking piece 42, the linkage piece 43, the blocking piece 44, the first inclined surface 421 and the first inclined surface 431;

the top body 20: unlocking piece 201 and top gear 202.

Detailed Description

The following description of the embodiments of the present invention will be made with reference to the accompanying drawings.

It is easily understood that, according to the technical solution of the present invention, a plurality of structural modes and implementation modes that can be mutually replaced by those of ordinary skill in the art can be achieved without changing the spirit of the present invention. Therefore, the following detailed description and the accompanying drawings are only exemplary illustrations of the technical solutions of the present invention, and should not be construed as limiting or restricting the technical solutions of the present invention in its entirety or as a limitation of the present invention.

The directional terms upper, lower, left, right, front, rear, front, back, top, bottom and the like that are or may be mentioned in this specification are defined relative to the configurations shown in the drawings, and are relative concepts that may be changed accordingly depending on the position and the use state of the device. Therefore, these and other directional terms should not be construed as limiting terms.

In some embodiments of the present invention, as shown in fig. 1-3, a top toy, including a top launcher 10 and a top body 20, the top launcher 10 includes a housing 1, an accelerating unit 2 and a launching unit 3, the accelerating unit 2 is used for accelerating the top body 20 installed on the top launcher 10, the launching unit 3 is used for launching the top body 20 after accelerating, and further includes a safety lock assembly 4, the safety lock assembly 4 includes at least a locking state and an unlocking state, the launching unit 3 includes an ejector 31, the top toy includes at least a launching state and an loading state:

when the spinning top is loaded, the spinning top body 20 is installed at the ejection piece 31, the unlocking piece 201 on the spinning top body 20 triggers the safety lock assembly 4 to be in an unlocking state for unlocking the ejection piece 31, the ejection piece 31 retracts to a pre-launching position after being unlocked, and the spinning top body 20 is in transmission connection with the accelerating unit 2;

in the launching state, the launching unit 3 is used for launching the gyro body 20, the ejection piece 31 extends forwards, and the safety lock assembly 4 is in a locking state for locking the ejection piece 31 at the extending position.

Specifically, as shown in fig. 3, the acceleration unit 2, the launching unit 3, and the safety lock assembly 4 are all mounted in the housing 1. When the spinning top body 20 is mounted on the ejection member 31 of the launcher 10 and the ejection member 31 is retracted backwards to the pre-launching position, the accelerating unit 2 is just in transmission connection with the spinning top body 20, and the accelerating unit 2 can accelerate the spinning top body 20. When the spinning top body 20 accelerates to a certain speed, the launching unit 3 is triggered, the launching piece 31 of the launching unit 3 launches forwards, and the spinning top body 20 is launched out.

As shown in FIG. 1, the top body 20 is loaded into the launcher 10, and the safety lock assembly 4 unlocks the ejector 31, so that the ejector 31 is pushed back by the top body 20 and retracted to the pre-launching position.

As shown in fig. 2, the transmitter 10 is in a transmitting state. The ejection piece 31 is ejected forwards and extends out, and the spinning top body 20 is ejected. The safety lock assembly 4 then locks the ejector 31 in the extended position. At this time, if the ejector 31 is pushed by a hand or other object to move backward, the ejector 31 is locked and cannot move backward. Only after the top body 20 is mounted on the ejector 31, the unlocking piece 201 of the top body 20 triggers the safety lock assembly 4 to unlock, so that the ejector 31 can move backwards again and retract to the pre-launching position, preventing the top launcher from being used to launch other objects, such as: toy bullets, toy arrows, etc., causing harm to players.

As shown in fig. 7, in this embodiment, the unlocking piece 201 on the top body 20 is a ring of convex ring disposed on the bottom of the top body 20, and when the top body 20 is mounted on the ejector 31, the convex ring extends into the inside of the contour edge of the ejector 31 and triggers the safety lock assembly to switch to the unlocking state.

In an embodiment of the present invention, as shown in fig. 3, the accelerating unit 2 includes a pull ring 21, a pull rope 22, a reel 23 and an accelerating gear set 24, one end of the pull rope 22 is connected to the pull ring 21, the other end is connected to the reel 23, the reel 23 is connected to the accelerating gear set 24, and the accelerating gear set 24 is used for being connected to the top body 20 in a transmission manner when in a loading state.

Specifically, as shown in fig. 1-2, the pull ring 21 is located outside the housing 1, so that the user can conveniently handle the pull ring 21.

When the user pulls the pull ring 21, the pull ring 21 drives the pull rope 22, the pull rope 22 drives the winder 23 to rotate, the winder 23 drives the accelerating gear set 24 to rotate, the accelerating gear set 24 comprises a plurality of transmission gears, one of the gears of the accelerating gear set 24 is meshed with the gyro gear 202 on the gyro body 20, and therefore the gyro body 20 can be driven to accelerate by repeatedly and rapidly pulling the pull ring 21.

As shown in fig. 7 and 9, one gear of the accelerating gear set 24 extends below the ejecting member 31 and meshes with the top gear 202 of the top body 20.

Alternatively, the acceleration unit 2 may also accelerate the spinning top body 20 in other manners. For example: by repeatedly pulling the pull handle, the pull handle drives the rack to move back and forth, and the rack drives the accelerating gear set to rotate.

In an embodiment of the present invention, as shown in fig. 3-5, the launching unit 3 further includes a launching spring 32, an ejection lock block 33 and a launching button 34, the launching spring 32 is connected to the ejection member 31, the ejection lock block 33 is used for locking and releasing the ejection member 31, and the launching button 34 is connected to the ejection lock block 33;

when in a loading state, the ejection locking block 33 locks the ejection piece 31 at a pre-ejection position, and the ejection spring 32 is compressed;

in the shooting state, the shooting key 34 triggers the shooting locking piece 33 to release the shooting piece 31, and the shooting spring 32 shoots the shooting piece 31 forwards.

Specifically, the launching spring 32 is installed at the rear end of the ejector 31, the front end of the ejector 31 is used for installing the spinning top body 20, the ejector lock block 33 is connected with the middle of the ejector 31, and the two launching keys 34 are respectively connected with the left side and the right side of the ejector lock block 33.

In the loaded state, the ejector 31 is pushed backward, the firing spring 32 is compressed, and the ejector lock 33 locks the ejector 31 in the pre-firing position.

When the spinning top is launched, the launching key 34 is pressed, the launching key 34 drives the launching locking block 33 to release the launching piece 31, the launching piece 31 launches forwards under the action of the launching spring 32, and the launching piece 31 launches the spinning top body 20.

Further, as shown in fig. 4, the ejector 31 includes two fork arms 311, a top mounting groove 312 and a lock lever 313, the top mounting groove 312 is used for mounting the top body 20, which is located between the two fork arms 311, the ejector lock block 33 includes a lock spring 331 and a lock groove 332, the lock lever 313 is inserted into the lock groove 332,

when the lock is in the loading state, the locking spring 331 pushes the locking groove 332 downwards, and the locking groove 332 is clamped with the locking rod 313;

in the firing state, the firing button 34 pushes the locking groove 332 to move upward, the locking spring 331 is compressed, and the locking groove 332 is loosely engaged with the locking bar 313.

Specifically, as shown in fig. 6, the launch button 34 includes an unlocking member 341, the lock slot 332 is provided with an unlocking inclined surface 332a, and the unlocking member 341 abuts against the unlocking inclined surface 332 a.

In the loading state, the locking spring 331 applies downward force to the locking groove 332, so that the locking groove 332 is clamped with the locking rod 313 downwards, and the ejector 31 is locked at the pre-shooting position.

When the shooting is performed, the unlocking toggle member 341 of the shooting key 34 pushes the unlocking inclined surface 332a of the locking groove 332 to move upwards, the locking groove 332 overcomes the pushing force of the locking spring 331, at this time, the locking groove 332 is loosely matched with the locking rod 313, the locking groove 332 unlocks the locking rod 313, and the shooting member 31 shoots forwards.

Alternatively, the ejector lock piece 33 and the ejector 31 can be locked in other ways. For example: by means of the latch hook and the latch groove, when the shoot button 34 triggers the eject latch 33, the latch hook is separated from the latch groove.

In an embodiment of the present invention, as shown in fig. 4, the launching unit 3 further includes a limiting member 35, and the limiting member 35 is installed on the ejecting member 31;

in the loading state, the limiting piece 35 is used for limiting the top body 20 on the ejection piece 31;

in the launch state, the restriction member 35 releases the restriction of the top body 20.

Further, as shown in fig. 4 and 7, the restricting member 35 is rotatably connected to the ejecting member 31 by a torsion spring 36;

when the spinning top is loaded, the ejector 31 retracts to the pre-launching position, and the limiting piece 35 is pushed by the shell 1 and is abutted against the spinning top body 20;

in the launch state, the ejection member 31 extends to the extended position, the case 1 releases the restriction member 35, and the torsion spring 36 drives the restriction member 35 to rotate and releases the restriction on the spinning top body 20.

Specifically, as shown in fig. 1, in the loaded state, the restricting member 35 is pushed by the housing 1 in accordance with the retraction of the ejector 31.

As shown in fig. 7, the restricting member 35 is rotatably mounted on one of the fork arms 311 of the ejector 31 by a torsion spring 36. The shell 1 pushes and rotates the limiting piece 35 towards the inner side of the fork arm 311, so that the limiting piece 35 is abutted against the unlocking piece 201 of the spinning top body 20, the spinning top body 20 is kept on the ejector 31, and the spinning top body 20 is prevented from being separated from the ejector 31 in the acceleration process.

As shown in fig. 2, in the launch state, the ejection member 31 extends to the extended position, the housing 1 releases the limiting member 35, the torsion spring 36 drives the limiting member 35 to rotate toward the outside of the fork arm 311, and the top body 20 is separated from the top body 20, and at this time, the top body 20 can be launched.

Alternatively, the rotation of the limiting member 35 can also be achieved by providing a male member, for example: a protrusion is provided on the inner wall of the case 1, and when the limiting member 35 contacts with the protrusion, the protrusion pushes the limiting member 35 to rotate inward, and abuts against the top body 20.

In an embodiment of the present invention, as shown in fig. 10-11, the safety lock assembly 4 includes a locking member 42, a linking member 43 and a blocking member 44, the locking member 42 and the linking member 43 are installed on the ejector 31, the linking member 43 is located inside the contour edge of the ejector 31, and the locking member 42 is connected to the linking member 43;

in the locked state, lock 43 engages stop 44;

when the spinning top is unlocked, the spinning top body 20 is mounted on the ejection piece 31, the unlocking piece 201 pushes the linkage piece 43, and the linkage piece 43 drives the locking piece 42 to move to a position separated from the blocking piece 44.

Specifically, as shown in fig. 10, the stopper 44 is located on the bottom surface of the ejector 31, the stopper 44 is not directly connected to the ejector 31, and the ejector 31 can move back and forth relative to the stopper 44. The blocking member 44 is a plate member for mounting the accelerating gear train 24 of the launcher 10, and the ejector 31 cannot be retracted backward when the locking member 42 interferes with the blocking member 44.

The linkage piece 43 is positioned below the ejection piece 31, and after the linkage piece 43 extends forwards, the front end of the linkage piece 43 is flush with the edge of the gyro mounting groove 312 of the ejection piece 31, or slightly retracts inwards, when the gyro body 20 is mounted in the gyro mounting groove 312 of the ejection piece 31, the unlocking piece 201 of the gyro body 20 extends into the lower part of the ejection piece 31 and collides with the linkage piece 43, the unlocking piece 201 pushes the linkage piece 43 to move backwards, and the linkage piece 43 pushes the locking piece 42 to separate the locking piece 42 from the blocking piece 44.

Further, as shown in fig. 10, the interlocking member 43 is mounted on the ejector 31 and can move in the front-rear direction of the ejector 31, and the locking member 42 is mounted on the ejector 31 and can move in the up-down direction of the ejector 31;

in the locked state, the linkage member 43 is in a forward-moving state and is located inside the contour edge of the ejector 31, and the locking member 42 extends downward to engage with the blocking member 44;

in the unlocked state, the link 43 is in the backward movement state and pushes the locking member 42 to move upward, and the locking member 42 is separated from the blocking member 44.

Specifically, in the locked state, the locking member 42 protrudes downward to abut against the stopper 44, and the locking member 42 pushes the link member 43 to protrude forward to approach the bottom of the top mounting groove 12 or protrude out of the bottom of the top mounting groove 11.

When the top body 20 enters the top mounting groove 12, the top body 20 contacts the link 43 and pushes the link 43 to move backwards, the link 43 pushes the lock piece 42 to move upwards, so that the lock piece 42 is separated from the blocking piece 44 to be unlocked, and the ejector 31 can retract backwards.

Further, as shown in fig. 11, a first inclined surface 431 is provided on the link 43, a second inclined surface 421 is provided on the lock 42, the first inclined surface 421 contacts with the second inclined surface 431, and the first inclined surface 421 pushes the second inclined surface 431 in the unlocking state.

Specifically, in the locked state, the locking member 42 moves downward, and the second inclined surface 421 pushes the first inclined surface 431, so that the link member 43 moves forward;

in the unlocked state, the link 43 is pushed backward by the top body 20, and the first inclined surface 431 pushes the second inclined surface 421, so that the locking piece 42 moves upward.

Further, as shown in fig. 11, the locking member 42 is provided with a locking surface 422, and in the locked state, the locking surface 422 is in contact with the stopper 44.

Specifically, the locking surface 422 is a plane in the vertical direction, and can abut against the side edge of the blocking member 44.

When the top body 20 does not trigger the linkage 43, if the ejector 31 is pushed only backwards, the ejector 31 drives the locking piece 42 to have a tendency to move backwards. However, the locking surface 422 now interferes with the blocking member 44, so that the ejector 31 cannot move backward. Since the link 43 does not apply an upward pushing force to the locking piece 42, the locking piece 42 cannot be moved upward to be unlocked.

Preferably, a biasing spring (not shown) is further included, and in the locked state, the biasing spring urges the locking member 42 to extend downward, and the locking member 42 urges the link member 43 to extend forward.

The biasing spring always applies a downward pushing force on the latch 42 so that the latch 42 remains extended downward or has a tendency to move downward.

In the locked state, the pressing spring pushes the locking piece 42 to protrude downward, and the second inclined surface 421 of the locking piece 42 pushes the first inclined surface 431 of the link 43 to protrude forward.

In the unlocked state, the link 43 pushes the locking member 42 to move upward, and the locking member 42 presses the biasing spring, so that the biasing spring is compressed.

In this embodiment, the safety lock assembly can be retracted backwards only when the top body 20 enters the ejection member 31 through the linkage of the ejection member 31, the locking member 42 and the linkage member 43, so as to avoid the misoperation of children.

Alternatively, the safety lock assembly 3 may also be provided without the linkage 43, the lock 42 extending to the lower edge of the ejector 31, so that the unlocking member 201 directly drives the unlocking of the lock 42.

In an embodiment of the present invention, as shown in fig. 1-2, the housing 1 includes a handle 11 and an animal head 12, a mouth of the animal head 12 is provided with a gyro accommodating cavity 13, the accelerating unit 2 and the launching unit 3 are installed in the animal head 12, and at least a part of the launching member 31 is located in the gyro accommodating cavity 13.

Specifically, the casing 1 of the top launcher 10 comprises a handle 11 and an animal head 12, the animal head 12 is arranged at the front end of the handle 11, and when the user uses the top launcher, the user can hold the handle 11 by hand, so that the top launcher is convenient to operate. Be equipped with top in the animal head 12 and hold chamber 13, top holds chamber 13 and is used for holding top body 20, and top body 20 is accelerated and is launched in top holds chamber 13.

In this embodiment, the top launcher 10 has a shape with an animal head 12, and the top accommodating cavity 13 is disposed at the mouth of the animal head 12 to simulate the shape of the animal head 12 with the mouth open. When the spinning top body 20 is installed in the spinning top accommodation chamber 13, it looks like a figure held by an animal. When the top body 20 is launched, the image is spit out of the mouth. When the spinning top toy is played by children, the spinning top toy feels more interesting, so that the spinning top toy is more attractive and interesting.

Optionally, the safety lock assembly 4 of the present invention can also be applied to other shaped or acceleration top toys.

What has been described above is merely the principles and preferred embodiments of the present invention. It should be noted that, for a person skilled in the art, on the basis of the principle of the present invention, several other modifications can be made, and the scope of the present invention should be viewed.

Claims (10)

1. A top toy, includes top transmitter and top body, the top transmitter includes casing, accelerating unit and transmitting unit, accelerating unit is used for to installing on the top transmitter the top body accelerates, transmitting unit is used for launching after will accelerating the top body, its characterized in that still includes the safety lock subassembly, the safety lock subassembly includes at least including locking state and unblock state, transmitting unit is including launching the piece, the top toy includes launching state and loading state at least:

when the spinning top is in a loading state, the spinning top body is installed at the ejection piece, an unlocking piece on the spinning top body triggers the safety lock assembly to be in an unlocking state for unlocking the ejection piece, the ejection piece retracts to a pre-emission position after being unlocked, and the spinning top body is in transmission connection with the accelerating unit;

when the gyroscope is in the emission state, the emission unit is used for emitting the gyroscope body, the ejection piece extends forwards, and the safety lock assembly is in a locking state of locking the ejection piece at the extending position.

2. The spinning top toy of claim 1, wherein the accelerating unit comprises a pull ring, a pull rope, a reel and an accelerating gear set, one end of the pull rope is connected with the pull ring, the other end of the pull rope is connected with the reel, the reel is connected with the accelerating gear set, and the accelerating gear set is in transmission connection with the spinning top body in the loading state.

3. The top toy of claim 1, wherein the launching unit further comprises a launching spring, a launch lock block and a launching button, the launching spring is connected with the launch piece, the launch lock block is used for locking and releasing the launch piece, and the launching button is connected with the launch lock block;

when the ejection lock block is in the loading state, the ejection piece is locked at the pre-ejection position by the ejection lock block, and the ejection spring is compressed;

and in the launching state, the launching key triggers the ejection locking block to release the ejection piece, and the launching spring ejects the ejection piece forwards.

4. The spinning top toy of claim 3, wherein the ejector includes two prongs, a spinning top mounting slot for mounting the spinning top body between the two prongs, and a lock bar inserted into the lock slot,

when the lock is in the loading state, the locking spring pushes the locking groove downwards, and the locking groove is tightly clamped with the locking rod;

when the lock is in the emission state, the emission key pushes the lock groove to move upwards, the locking spring is compressed, and the lock groove is loosely matched with the lock rod.

5. The spinning top toy of claim 1, wherein the launching unit further comprises a limiting member mounted on the ejector;

when the spinning top is in the loading state, the limiting piece is used for limiting the spinning top body on the ejection piece;

in the launch state, the restricting member releases the restriction of the top body.

6. The top toy of claim 5, wherein the limiter member is rotatably coupled to the ejector member by a torsion spring;

when the spinning top is in a loading state, the ejection piece retracts to the pre-ejection position, and the limiting piece is pushed by the shell and abuts against the spinning top body;

when the spinning top is in the launching state, the ejection piece extends to the extending position, the limiting piece is released by the shell, and the torsional spring drives the limiting piece to rotate and releases the limitation on the spinning top body.

7. The top toy of claim 1, wherein the safety lock assembly includes a lock mounted on the ejector and a blocker;

in the locked state, the locking piece is matched with the blocking piece;

during the unblock state, the top body is installed on the ejection piece, the unblock piece triggers the latch fitting, the latch fitting move with block the position that the piece separates.

8. The top toy of claim 7, wherein the safety lock assembly further comprises a linkage member mounted on the ejector and located inside the ejector contoured edge and connected to the lock member.

9. The top toy of claim 8, wherein the linkage member is movable in a forward and backward direction of the ejector, and the locking member is movable in an up and down direction of the ejector;

when the ejection piece is in the locking state, the linkage piece is in a forward moving state and is positioned inside the outline edge of the ejection piece, and the locking piece extends downwards to be matched with the blocking piece;

when the unlocking state is realized, the linkage piece is in a backward moving state and pushes the locking piece to move upwards, and the locking piece is separated from the blocking piece.

10. The top toy of any one of claims 1-9, wherein the unlocking member on the top body is a ring of protrusions disposed on a bottom of the top body, the protrusions extending into an interior of a contoured edge of the ejector when the top body is mounted on the ejector, triggering the safety lock assembly to switch to the unlocked state.

Images