CN118253097A - Emitter and gyro toy - Google Patents

Abstract

The application discloses a launcher which comprises a launching seat and a launching track, wherein a launching port is arranged in the launching seat, the launching port is communicated with the launching track, an ejection block matched with a gyroscope is arranged in the launching track in a sliding manner, a first elastic piece is connected between the ejection block and the launching track, and a rack used for driving the gyroscope to rotate is arranged in the launching track; when energy is stored, the ejection block moves into the emission port, the ejection block is connected with the emission seat, and the first elastic piece stores energy; during launching, the ejection block is separated from the launching seat, the first elastic piece releases energy and drives the ejection block to slide along the launching track, and the top moves relative to the rack and drives the top to rotate. The application also discloses a gyroscopic toy. The application has simple operation and is easy to be put on hand.

Description

Emitter and gyro toy

Technical Field

The application relates to the technical field of toys, in particular to a launcher and a gyroscopic toy.

Background

Gyroscopic toys are popular in children's sports fields, where gyroscopes rely on an initial speed and rotational kinetic energy imparted to rotate.

At present, the existing gyroscopes need to be driven to rotate and launch through a launcher, generally, the gyroscopes are connected to a launch block of the launcher, the gyroscopes are driven to rotate through repeated winding, and when the rotation speed of the gyroscopes reaches a certain value, the gyroscopes are launched out through the launch block. However, the existing gyroscopic toy can drive the gyroscopes to rotate only by repeating the winding, so that the operation is complex and laborious.

Therefore, it is necessary to design a launcher and a gyroscopic toy which are easy to operate and easy to handle.

Disclosure of Invention

The application aims to overcome the defects of the prior art and provide the launcher and the gyroscopic toy which are simple to operate and easy to get on hands.

The technical scheme of the application provides a launcher, which comprises a launching seat and a launching track, wherein a launching port is arranged in the launching seat, the launching port is communicated with the launching track, an ejection block matched with a gyroscope is arranged in the launching track in a sliding manner, a first elastic piece is connected between the ejection block and the launching track, and a rack used for driving the gyroscope to rotate is arranged in the launching track;

when energy is stored, the ejection block moves into the emission port, the ejection block is connected with the emission seat, and the first elastic piece stores energy;

during launching, the ejection block is separated from the launching seat, the first elastic piece releases energy and drives the ejection block to slide along the launching track, and the top moves relative to the rack and drives the top to rotate.

Optionally, a first locking component is arranged on the ejection block, a locking bayonet is arranged on the ejection track, and a supporting piece for triggering the first locking component to unlock is arranged on the top;

the first locking assembly comprises an unlocking state and a locking state;

when the top is mounted on the ejection block, the support triggers the first locking assembly to the unlocked state, the first locking assembly is separated from the locking bayonet, and the ejection block can pass through the locking bayonet;

When the first locking assembly is in the locking state, the first locking assembly is clamped into the locking bayonet and limits the ejection block to slide when the ejection block passes through the locking bayonet.

Optionally, the first locking assembly comprises a locking block and a second elastic piece, the locking block is in sliding connection with the ejection block, and the second elastic piece is connected between the locking block and the ejection block;

When the first locking assembly is in the unlocking state, the supporting piece is in contact with the locking block and compresses the second elastic piece;

When the first locking assembly is in the locking state, the second elastic piece pushes the locking block to be clamped into the locking bayonet when the ejection block passes through the locking bayonet.

Optionally, a sliding groove for accommodating the top is formed in the launching track, the rack is arranged on the inner side of the sliding groove, and at least one locking bayonet is arranged on the side wall of the sliding groove.

Optionally, the both sides of sliding tray are equipped with the direction spout respectively, the ejector pad includes pushing part and sliding part, the sliding part sets up the both sides of pushing part, the sliding part slidable sets up in the direction spout, the pushing part is in the sliding tray, first locking subassembly sets up in the sliding part.

Optionally, a blocking piece is further arranged on the ejection block, the blocking piece is rotatably connected with the ejection block, a guide block is arranged on the blocking piece, a guide groove is arranged on the emission track, and the guide block can slide along the guide groove;

The guide groove comprises a first guide groove and a second guide groove, the first guide groove is arranged along the emission direction of the emission track, the second guide groove is arranged at one end of the emission track, which is far away from the emission seat, the first end of the second guide groove is communicated with the first guide groove, and the second end of the second guide groove is arranged in the direction far away from the ejection block.

Optionally, a communication port for the blocking piece to pass through is formed in the side wall of the sliding groove;

when the guide block is positioned in the first guide groove, at least part of the blocking piece extends into the sliding groove through the communication port, and the blocking piece limits the top to be separated from the ejection block along the emission direction;

when the guide block is positioned in the second guide groove, the blocking piece is separated from the sliding groove, and the top can be separated from the ejection block.

Optionally, a second locking component is arranged in the transmitting seat;

when the energy is stored, the ejection block moves into the emission port, the second locking component is connected with the ejection block, and the first elastic piece stores energy;

during launching, the second locking component is separated from the ejection block, and the first elastic piece releases energy and drives the ejection block to slide along the launching track.

Optionally, the second locking component comprises an unlocking button and a buckling piece, the buckling piece is movably connected to the transmitting seat, and the unlocking button is linked with the buckling piece;

When energy is stored, the ejection block moves into the emission port, and the clamping piece is clamped with the ejection block;

during launching, the unlocking button triggers the fastener to act, and the fastener is separated from the ejection block.

The invention also discloses a gyroscopic toy, which comprises a gyroscope and the emitter;

the top comprises a top body and a top seat, a unidirectional limiting component used for limiting unidirectional rotation of the top body is arranged between the top body and the top seat, and the unidirectional limiting component is connected between the top body and the top seat;

when the tourbillon rotates towards a first direction, the unidirectional limiting assembly can unlock and enable the tourbillon and the tourbillon to rotate relatively;

When the top seat rotates towards the second direction, the one-way limiting assembly locks the top body and the top seat, and the top body and the top seat are relatively fixed;

wherein the first direction is opposite to the second direction.

After the technical scheme is adopted, the method has the following beneficial effects:

According to the launcher disclosed by the application, after the top is moved to the launching port, the first elastic piece is in an energy storage state, when the top is launched, the ejection block is only required to be triggered to be separated from the launching seat, the first elastic piece can release energy and push the ejection block to slide in the launching direction and drive the top to be launched outwards, and when the top slides in the launching direction, the top can be driven to rotate due to the cooperation of the rack and the top, so that a player does not need to reciprocally chain the top and drive the top to rotate in the launching process, the top can be driven to rotate simultaneously in the launching process, the operation is simple, the top is easy to use, and the playability is high.

Drawings

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

FIG. 1 is a schematic diagram of the overall structure of an emitter in one embodiment of the invention;

FIG. 2 is a schematic diagram of the internal structure of a transmitter in one embodiment of the invention;

FIG. 3 is a schematic view of a guide slot in one embodiment of the present invention;

FIG. 4 is a schematic view of a second locking assembly in one embodiment of the present invention;

FIG. 5 is a schematic view of the overall structure of a top in one embodiment of the present invention;

FIG. 6 is an exploded view of a top in one embodiment of the present invention;

FIG. 7 is a schematic view of the internal structure of a top in one embodiment of the invention;

FIG. 8 is a schematic view of a first locking member in one embodiment of the invention;

FIG. 9 is a schematic view of a second latch member in one embodiment of the present invention;

FIG. 10 is an exploded view of the support of the top in one embodiment of the present invention.

Reference numeral control table:

Tourbillon 1:

the second locking piece 11, the gear ring 111, the helical teeth 112 and the first connecting hole 12;

Peg-top seat 2:

The first locking member 21, the rotating portion 211, the second connecting hole 2111, the elastic piece 212, the clamping portion 2121, the first connecting portion 2122, the second connecting portion 2123, the guiding inclined surface 2124, the limiting surface 2125, the first connecting post 22, the top portion 23, the driving gear 231, and the top portion 232;

Support 3:

the fitting groove 30, the first supporting portion 31, the first limiting portion 311, the first supporting portion 312, the second supporting portion 32, the second limiting portion 321, the axial limiting piece 322, and the second supporting portion 323;

Top cover 4: a second connection post 41;

transmitting seat 5:

A transmitting port 50, a second locking assembly 51, an unlocking button 511, a buckle 512, a third elastic member 513, and a grip 52;

Firing track 6:

The locking bayonet 60, the first elastic member 61, the rack 62, the sliding groove 63, the guide chute 64, the guide groove 65, the first guide groove 651, the second guide groove 652;

Ejector block 7:

Mounting port 70, first locking assembly 71, locking block 711, pushing portion 72, sliding portion 73, stopper 74, guide block 741.

Detailed Description

Specific embodiments of the present application will be further described below with reference to the accompanying drawings.

It is to be readily understood that, according to the technical solutions of the present application, those skilled in the art may replace various structural modes and implementation modes with each other without changing the true spirit of the present application. Accordingly, the following detailed description and drawings are merely illustrative of the application and are not intended to limit or restrict the application in its entirety or to apply for the application.

Terms of orientation such as up, down, left, right, front, rear, front, back, top, bottom, etc. mentioned or possible to be mentioned in the present specification are defined with respect to the configurations shown in the drawings, which are relative concepts, and thus may be changed according to different positions and different use states thereof. These and other directional terms should not be construed as limiting terms. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present application, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between the two components. The above-described specific meanings belonging to the present application are understood as appropriate by those of ordinary skill in the art.

In one embodiment of the invention, as shown in fig. 1 and 2, an emitter is disclosed, which comprises an emitter seat 5 and an emitter rail 6, wherein an emitter opening 50 is arranged in the emitter seat 5, the emitter opening 50 is communicated with the emitter rail 6, an ejector block 7 for being matched with a gyroscope is arranged in the emitter rail 6 in a sliding manner, a first elastic piece 61 is connected between the ejector block 7 and the emitter rail 6, and a rack 62 for driving the gyroscope to rotate is arranged in the emitter rail 6;

during energy storage, the ejection block 7 moves into the emission port 50, the ejection block 7 is connected with the emission seat 5, and the first elastic piece 61 stores energy;

during launching, the ejection block 7 is separated from the launching seat 5, the first elastic piece 61 releases energy and drives the ejection block 7 to slide along the launching track 6, and the top moves relative to the rack 62 and drives the top to rotate.

Further, as shown in fig. 1, the launching pad 5 is connected to the first end of the launching track 6, and the launching port 50 in the launching pad 5 can be communicated with the launching track 6, and the top can be launched from the launching port 50 toward the launching track 6 and finally can be launched outwards from the second end of the launching track 6. Wherein, rack 62 arranges along the first end to the second end of launching track 6, is equipped with the drive gear with rack 62 complex on the top, and when the top slides along launching track 6, the drive gear on the top meshes with rack 62 to the top can be in the in-process of sliding through rack 62 and drive gear cooperation drive rotation.

Further, the launching track 6 is a straight track, and the rack 62 is a straight rack 62 arranged on the launching track 6.

Alternatively, the launching track 6 is an arcuate track, and correspondingly, the rack 62 is an arcuate rack 62 that mates with the arcuate track.

Preferably, as shown in fig. 1, the overall design of the launcher is sword-shaped, wherein the launching track 6 is arranged at the position of the sword body, the launching seat 5 is arranged at the position of the hand guard, and the position of the sword handle is also provided with a holding handle 52 so as to be convenient for a player to hold and play. Through designing into sword shape structure for the design sense of transmitter itself improves, except can regard as the transmitter to play the use, also can regard as sword shape toy to play, has higher playability, can fully transfer player's interest.

In the launcher disclosed by the application, a player installs the top on the ejector block 7 and pushes the top and the ejector block 7 from the second end of the launching track 6 to the first end of the launching track 6, so that the top and the ejector block 7 move into the launching port 50, at this time, the ejector block 7 drives the first elastic member 61 to deform, so that the first elastic member 61 is in an energy storage state, and the ejector seat 5 is connected with the ejector block 7, so that the ejector block 7 can be kept in the launching port 50. When the gyro needs to be launched, the launching seat 5 is controlled to be separated from the ejection block 7, at this time, the first elastic piece 61 releases energy and drives the ejection block 7 to slide from the launching port 50 to the second end of the launching track 6, synchronously, the gyro is driven to rotate under the action of the rack 62, and finally the rotating gyro can be launched outwards from the second end of the launching track 6. According to the application, a player does not need to reciprocally chain and drive the gyro to rotate in the process of launching, and can drive the gyro to rotate simultaneously in the process of launching the gyro, so that the operation is simple, the player can easily get on the hand, and the playability is high.

As shown in fig. 2, the first elastic member 61 is a tension spring disposed in the launching track 6, one end of the tension spring is connected to the launching track 6, the other end of the tension spring is connected to the ejector block 7, and when the ejector block 7 moves to the position of the launching port 50, the ejector block 7 drives the tension spring to stretch and store energy.

In some embodiments of the present invention, as shown in fig. 2, the ejector block 7 is provided with a first locking assembly 71, the launching track 6 is provided with a locking bayonet 60, and the top is provided with a support 3 for triggering the unlocking of the first locking assembly 71;

The first locking assembly 71 includes an unlocked state and a locked state;

when the top is mounted on the ejector block 7, the support 3 triggers the first locking assembly 71 to an unlocked state, the first locking assembly 71 is separated from the locking bayonet 60, and the ejector block 7 can pass through the locking bayonet 60;

When the first locking assembly 71 is in the locked state, the first locking assembly 71 snaps into the locking bayonet 60 and restricts the ejector 7 from sliding when the ejector 7 passes the locking bayonet 60.

Further, as shown in fig. 2, the ejector block 7 is provided with a mounting hole 70 for mounting a top, wherein the bottom of the top is mounted in the mounting hole 70, and the support 3 on the top is connected with the first locking assembly 71 and triggers the first locking assembly 71 to unlock. When the first locking assembly 71 is in the unlocked state, the first locking assembly 71 and the locking bayonet 60 are separated from each other, so that the ejection block 7 can slide along the launching track 6, and when the ejection block 7 passes through the position of the locking bayonet 60, the first locking assembly 71 is not blocked into the locking bayonet 60, and a player can push the top and the ejection block 7 to the position of the launching port 50. If the top is not mounted in the ejector block 7 or the ejector block 7 is mounted with other objects, the first locking component 71 keeps the locking state, and when the ejector block 7 moves to the position of the locking bayonet 60, the first locking component 71 is locked into the locking bayonet 60, so that the ejector block 7 cannot slide along the launching track 6. Through the design, the ejector block 7 can be prevented from being filled with other objects, and then the ejector can be prevented from emitting other objects, so that the safety of the toy is improved.

In some embodiments of the present invention, as shown in fig. 2, the first locking assembly 71 includes a locking block 711 and a second elastic member, the locking block 711 being slidably coupled to the ejector block 7, the second elastic member being coupled between the locking block 711 and the ejector block 7;

When the first locking assembly 71 is in the unlocked state, the support 3 contacts the locking block 711 and compresses the second elastic member;

When the first locking assembly 71 is in the locked state, the second elastic member pushes the locking block 711 to be snapped into the locking bayonet 60 when the ejector block 7 passes the locking bayonet 60.

Further, the locking block 711 and the ejector block 7 can move relatively, wherein the locking block 711 can slide along a direction perpendicular to the ejector block 7. Wherein, when the top is loaded to the ejector block 7, the supporting piece 3 in the top contacts with the locking block 711 and pushes the locking block 711 to move away from the top, so that the first locking assembly 71 is in an unlocked state, at this time, when the ejector block 7 passes through the locking bayonet 60, the locking block 711 cannot be blocked into the locking bayonet 60, so that the ejector block 7 can be moved into the launch opening 50. When the top is separated from the ejector block 7, or other objects are mounted on the ejector block 7, the locking block 711 is driven to abut against the side wall of the launching track 6 under the action of the elastic force of the second elastic member, and when the ejector block 7 moves to the position of the locking bayonet 60, the locking block 711 can be pushed to be clamped into the locking bayonet 60 under the action of the elastic force of the second elastic member, so that the movement of the ejector block 7 is limited.

The second elastic member is a spring disposed between the lock block 711 and the ejector block 7.

In some embodiments of the invention, as shown in fig. 2, a sliding groove 63 for accommodating a spinning top is provided in the launching track 6, a rack 62 is provided inside the sliding groove 63, and at least one locking bayonet 60 is provided on a side wall of the sliding groove 63.

Further, as shown in fig. 2, a slide groove 63 is provided in the middle of the launching track 6, and the upper end and the front end of the slide groove 63 are opened, wherein the bottom of the top can be inserted into the slide groove 63 from the upper end of the slide groove 63, and the top can slide along the slide groove 63. And the rack 62 is arranged at the inner side of the sliding groove 63, a driving gear on the top can be matched with the rack 62 after being inserted into the sliding groove 63, and when the top moves along the sliding groove 63, the rack 62 drives the top to rotate.

In addition, a plurality of locking bayonets 60 can be provided, and preferably, one locking bayonet 60 is provided at each of the front, middle and rear portions of the side wall of the slide groove 63.

In some embodiments of the present invention, as shown in fig. 2, guide sliding grooves 64 are provided at both sides of the sliding groove 63, respectively, the ejector block 7 includes a pushing portion 72 and a sliding portion 73, the sliding portion 73 is provided at both sides of the pushing portion 72, the sliding portion 73 is slidably provided in the guide sliding groove 64, the pushing portion 72 is in the sliding groove 63, and the first locking assembly 71 is provided in the sliding portion 73.

Further, as shown in fig. 2, a guiding chute 64 is provided on each of the left and right sides of the sliding groove 63, the guiding chute 64 is parallel to the sliding groove 63, an arc-shaped mounting opening 70 for mounting the top is provided at the front end of the pushing portion 72 of the ejector block 7, the top can be mounted in the mounting opening 70, the supporting piece 3 in the top can be abutted against the mounting opening 70, and the bottom of the top extends into the sliding groove 63 through the mounting opening 70. The pushing part 72 is located in the sliding groove 63, two sides of the pushing part 72 are respectively connected with the sliding part 73, and the sliding part 73 is slidably connected in the guiding chute 64, so as to support the pushing part 72 and drive the pushing part 72 to slide. Wherein, the first locking assembly 71 is disposed in the sliding portion 73 at one side thereof, the locking block 711 at least partially stretches into the mounting opening 70 under the action of the second elastic member, and when the top is mounted into the mounting opening 70, the supporting member 3 of the top pushes the locking block 711 to move in a direction away from the mounting opening 70, so that the locking block 711 cannot be blocked into the locking bayonet 60. When the top is not mounted, at least part of the locking block 711 extends into the mounting opening 70, meanwhile, the locking block 711 abuts against the side wall of the sliding groove 63 under the action of the elastic force of the second elastic member, and when the ejection block 7 moves to the position of the locking bayonet 60, the second elastic member can push the locking block 711 to be clamped into the locking bayonet 60.

In some embodiments of the present invention, as shown in fig. 2, the ejector block 7 is further provided with a blocking member 74, the blocking member 74 is rotatably connected with the ejector block 7, the blocking member 74 is provided with a guide block 741, the launching track 6 is provided with a guide groove 65, and the guide block 741 can slide along the guide groove 65;

As shown in fig. 3, the guide groove 65 includes a first guide groove 651 and a second guide groove 652, the first guide groove 651 is arranged along the firing direction of the firing track 6, the second guide groove 652 is provided at an end of the firing track 6 remote from the firing seat 5, a first end of the second guide groove 652 communicates with the first guide groove 651, and a second end of the second guide groove 652 is provided in a direction away from the ejector block 7.

Further, a blocking member 74 is provided on the other sliding portion 73, and one end of the blocking member 74 is hinged to the sliding portion 73, and the other end thereof can be inserted into the mounting opening 70 and can block the top from being separated from the mounting opening 70. Wherein the first guide groove 651 is disposed in the emission direction, and the second guide groove 652 is provided at the front end of the emission track 6 and extends in a direction away from the slide groove 63. The ejector block 7 can drive the blocking piece 74 to slide when sliding, meanwhile, the guide block 741 on the blocking piece 74 can slide along the first guide groove 651 and the second guide groove 652, when the guide block 741 is positioned in the first guide groove 651, the part of the blocking piece 74 stretches into the mounting opening 70, and the blocking piece 74 can limit the top to be separated from the mounting opening 70 at the moment, so that the top is ensured not to be separated from the ejector block 7 in the rotation acceleration process. When the ejection block 7 moves to the end of the launching track 6 away from the launching seat 5, the guiding block 741 enters the second guiding groove 652, the blocking piece 74 leaves the mounting opening 70 under the guiding action of the second guiding groove 652, and the top can be separated from the mounting opening 70 under the inertia action and launched outwards.

Optionally, a blocking member 74 is slidably attached to the ejector block 7, and the blocking member 74 is capable of sliding toward a position away from/near the mounting port 70.

In some embodiments of the present invention, the side wall of the sliding groove 63 is provided with a communication port through which the blocking member 74 passes;

when the guide block 741 is positioned in the first guide groove 651, at least part of the blocking member 74 extends into the sliding groove 63 through the communication port, and the blocking member 74 restricts the top from being separated from the ejector block 7 in the launching direction;

When the guide block 741 is positioned in the second guide groove 652, the stopper 74 is disengaged from the slide groove 63, and the top can be separated from the ejector block 7.

Further, when the guide block 741 is positioned in the first guide groove 651, at least a portion of the stopper 74 can be inserted into the mounting groove through the communication port, thereby making it possible to keep the restraining gyro separated from the ejector block 7. When the guide block 741 is positioned in the second guide groove 652, the stopper 74 moves away from the mounting hole 70 and is separated from the mounting hole 70, so that the top can be separated from the ejector block 7.

In some embodiments of the present invention, as shown in fig. 4, a second locking assembly 51 is provided in the transmitting seat 5;

During energy storage, the ejection block 7 moves into the emission port 50, the second locking assembly 51 is connected with the ejection block 7, and the first elastic piece 61 stores energy;

During firing, the second locking assembly 51 is separated from the ejector block 7, and the first elastic member 61 releases the energy and drives the ejector block 7 to slide along the firing track 6.

Wherein, when the ejector block 7 moves to the ejection port 50, the ejector block 7 is connected by the second locking assembly 51, so that the first elastic member 61 can maintain the energy storage state. During launching, the second locking assembly 51 is controlled to be unlocked, so that the second locking assembly 51 is separated from the ejection block 7, and the first elastic piece 61 can drive the ejection block 7 to slide towards the launching direction after releasing energy, so that the top is launched.

In some embodiments of the present invention, as shown in fig. 4, the second locking assembly 51 includes an unlocking button 511 and a fastening member 512, the fastening member 512 is movably connected to the transmitting seat 5, and the unlocking button 511 is linked with the fastening member 512;

during energy storage, the ejection block 7 moves into the emission port 50, and the clamping piece 512 is clamped with the ejection block 7;

When the ejector is launched, the unlocking button 511 triggers the fastener 512 to act, and the fastener 512 is separated from the ejector block 7.

Further, a third elastic member 513 is disposed between the fastening member 512 and the launching seat 5, and when the ejector block 7 moves to the launching port 50, the fastening member 512 is kept clamped with the ejector block 7 under the elastic force of the third elastic member 513, so as to limit the movement of the ejector block 7. During the launching, the player only needs to press the unlocking button 511, so that the clamping piece 512 is separated from the ejection block 7, the first elastic piece 61 can drive the ejection block 7 to move towards the launching direction, the operation is simple and convenient, and the difficulty of the hand on the ejection block is low.

The invention also discloses a gyroscopic toy, which comprises a gyroscope and the emitter;

As shown in fig. 5 and 6, the top comprises a top body 1 and a top seat 2, a unidirectional limiting component for limiting unidirectional rotation of the top body 1 is arranged between the top body 1 and the top seat 2, and the unidirectional limiting component is connected between the top body 1 and the top seat 2;

when the tourbillon 2 rotates towards the first direction, the unidirectional limiting component can unlock and enable the tourbillon 1 and the tourbillon 2 to rotate relatively;

When the tourbillon 2 rotates towards the second direction, the one-way limiting component locks the tourbillon 1 and the tourbillon 2, and the tourbillon 1 and the tourbillon 2 are relatively fixed;

wherein the first direction is opposite to the second direction.

Further, the gyro seat 2 is provided with a driving gear 231 matched with the rack 62 in the launcher, when the launcher is ready to launch, a player needs to relatively move the driving gear 231 to the rear end position of the rack 62, and during the launching process, the driving gear 231 relatively moves to the front end of the rack 62 from the rear end position of the rack 62 through the relative movement of the driving gear 62 and the driving gear 231, so that the driving gear 231 rotates and drives the gyro to rotate.

Further, when the player is ready to launch, he holds the peg-top and relatively moves the driving gear 231 from the front end of the rack 62 to the rear end of the rack 62, and at this time, the driving gear 231 drives the peg-top seat 2 to rotate in the first direction under the action of the rack 62, and the unidirectional limiting assembly is in the unlocking state, so that the peg-top body 1 and the peg-top seat 2 can relatively rotate, and when the player holds the peg-top body 1, the peg-top body 1 can not rotate, so that the player can conveniently hold. During the transmission, the driving gear 231 drives the gyro seat 2 to rotate towards the second direction under the action of the rack 62, and the unidirectional limiting assembly is in a locking state at the moment, so that the gyro body 1 and the gyro seat 2 are relatively fixed, and the gyro seat 2 can drive the gyro body 1 to synchronously rotate towards the second direction, so that the normal use function of the gyro can not be influenced. The counterclockwise direction shown in fig. 6 is a first direction, and the clockwise direction shown in fig. 6 is a second direction.

In some embodiments of the invention, as shown in fig. 6, the one-way limit assembly comprises a first locking element 21 and a second locking element 11, the first locking element 21 being arranged on the top seat 2, the second locking element 11 being arranged on the top body 1;

When the gyro seat 2 rotates in the first direction, the first locking piece 21 and the second locking piece 11 are unlocked, and the gyro body 1 and the gyro seat 2 can relatively rotate;

when the gyro seat 2 rotates in the second direction, the first locking piece 21 and the second locking piece 11 are locked, and the gyro body 1 and the gyro seat 2 are relatively fixed.

Further, the gyro seat 2 is coaxial with the gyro body 1 and can relatively rotate around the same rotation axis. The first locking piece 21 and the second locking piece 11 are symmetrically arranged by taking the rotation axis as a center, so that the gravity center of the top is ensured to be stable in the rotation process, and deflection cannot occur.

When the gyro seat 2 is driven to rotate in the first direction, the first locking piece 21 and the second locking piece 11 are unlocked, and the gyro seat 2 and the gyro body 1 can rotate relatively, so that a player can conveniently hold the gyro body 1. When the gyro seat 2 is driven to rotate in the second direction, the first locking piece 21 and the second locking piece 11 are locked, and at this time, the gyro seat 2 and the gyro body 1 are relatively fixed, so that the gyro seat 2 can drive the gyro body 1 to rotate in the second direction.

In some embodiments of the present invention, as shown in fig. 8, the first locking member 21 includes a rotation portion 211 and an elastic piece 212, a plurality of elastic pieces are connected to the outer circumference of the rotation portion 211 at intervals, and the rotation portion 211 is fixedly connected to the gyro seat 2;

as shown in fig. 9, the second locking member 11 includes a ring gear 111, a plurality of helical teeth 112 inclined in the same direction are provided in the ring gear 111 at intervals, and a bayonet is formed between adjacent helical teeth 112;

When the top seat 2 rotates towards the first direction, the elastic piece 212 is separated from the bayonet, and the top seat 2 and the top body 1 can relatively rotate;

when the gyro seat 2 rotates in the second direction, the elastic piece 212 is clamped into the bayonet, and the gyro seat 2 and the gyro body 1 are relatively fixed.

Further, as shown in fig. 8, a plurality of elastic pieces 212 are provided, the plurality of elastic pieces 212 are respectively provided on the rotation portion 211 at equal intervals, and the plurality of elastic pieces 212 are symmetrically provided centering on the rotation axis. The helical teeth 112 are provided in plurality, and the helical teeth 112 are symmetrically arranged with the rotation axis as the center at equal intervals. When the top seat 2 rotates towards the first direction, the elastic piece 212 is not clamped into the bayonet, and at this time, the top seat 2 and the top body 1 can rotate relatively, so that the top body 1 can be kept stationary when a player holds the top body 1 and moves to the transmitting position, and the holding operation is convenient. During launching, the top seat 2 is driven to rotate towards the second direction through the rack 62, and at the moment, the elastic piece 212 is clamped into the bayonet, so that the top body 1 and the top seat 2 are kept relatively fixed, and the top can normally rotate.

In some embodiments of the present invention, as shown in fig. 8, the elastic sheet 212 includes a clamping portion 2121, where the clamping portion 2121 is elastically movably connected to the rotating portion 211 and is movable in a direction away from/toward the rotating portion 211, and the clamping portion 2121 is provided with a guiding inclined surface 2124 and a limiting surface 2125;

when the gyroscope 2 rotates in the first direction, the guide inclined surface 2124 contacts the helical teeth 112 and guides the clamping portion 2121 to separate from the bayonet;

When the gyro seat 2 rotates in the second direction, the limiting surface 2125 contacts the helical teeth 112 and makes the clamping portion 2121 clamped into the bayonet.

Further, the locking portion 2121 can move away from/close to the rotating portion 211, wherein a certain angle is formed between the guiding inclined surface 2124 of the locking portion 2121 and the axial cross section of the rotating portion 211, and the limiting surface 2125 is parallel to the axial cross section of the rotating portion 211. Since the helical teeth 112 are inclined toward the same direction, when the gyro holder 2 rotates in the first direction, the guide inclined surface 2124 contacts the face opposite to the obtuse angle of the helical teeth 112, so that the clamping portion 2121 can relatively move along the side face of the helical teeth 112 when the gyro holder 2 rotates, so that the clamping portion 2121 can be separated from the bayonet, and the gyro holder 2 and the gyro body 1 can relatively rotate, thereby realizing that the player can hold the relatively stationary gyro body 1 for operation in the process of pushing the gyro to the transmitting position. When the gyro seat 2 rotates in the second direction, the limiting surface 2125 contacts with the opposite surface of the helical tooth 112, so that the clamping portion 2121 is clamped into the bayonet, and at this time, the gyro seat 2 can drive the gyro body 1 to rotate in the second direction together, so that the normal rotation of the gyro is not affected.

In some embodiments of the present invention, as shown in fig. 8, the elastic piece 212 further includes a first connecting portion 2122 and a second connecting portion 2123, the first connecting portion 2122 extends outward along the radial direction of the rotating portion 211, a first end of the second connecting portion 2123 is connected to the first connecting portion 2122, a second end of the second connecting portion 2123 is connected to the clamping portion 2121, and a movable space for the second connecting portion 2123 is provided between the second connecting portion 2123 and the first connecting portion 2122.

Further, the first connecting portion 2122, the second connecting portion 2123 and the clamping portion 2121 are integrally formed in a plastic structure, one end of the second connecting portion 2123 is fixedly connected with one end of the first connecting portion 2122 away from the rotating portion 211, so that a movable space is formed between the second connecting portion 2123 and the rotating portion 211, when the clamping portion 2121 receives a force towards the rotating portion 211, the second connecting portion 2123 can elastically deform in the movable space towards the rotating portion 211, and the clamping portion 2121 moves towards a direction close to the rotating portion 211, so that the clamping portion 2121 is separated from the bayonet when the gyroscope seat 2 rotates towards the first direction, and relative rotation between the gyroscope seat 2 and the gyroscope body 1 can be achieved. When no external force acts, the clamping portion 2121 moves towards a direction away from the rotating portion 211 under the action of the elastic force of the second connecting portion 2123, so that the clamping portion 2121 can be kept clamped in the bayonet, and when the gyroscope seat 2 rotates towards the second direction, the clamping portion 2121 can be kept clamped in the bayonet, so that the gyroscope seat 2 and the gyroscope body 1 can synchronously rotate.

Still further, a plurality of elastic pieces 212 are disposed on the rotation portion 211 at equal intervals, so that when the gyro seat 2 rotates in the second direction, the clamping portions 2121 on the plurality of elastic pieces 212 can be clamped into the bayonets, and connection stability between the gyro body 1 and the gyro seat 2 is ensured.

Alternatively, the clamping portion 2121 is slidably connected to the rotating portion 211, and the clamping portion 2121 can slide along a radial direction of the rotating portion 211, and a spring is connected between the clamping portion 2121 and the rotating portion 211, and can apply a force to the clamping portion 2121 in a direction away from the rotating portion 211. When the gyro seat 2 rotates in the first direction, the clamping portion 2121 slides in a direction approaching the rotating portion 211 under the action of the guide inclined surface 2124 while compressing the spring, so that the clamping portion 2121 can be separated from the bayonet. When the gyro seat 2 rotates in the second direction, the clamping portion 2121 keeps clamped into the bayonet under the action of the spring, so that the gyro seat 2 and the gyro body 1 remain fixed.

Optionally, the rotating portion 211 is a ratchet, and a plurality of pawls are disposed on the top seat 2, where the plurality of pawls are symmetrically disposed on the top seat 2 with a rotation center of the ratchet, and when the top seat 2 rotates in a first direction through cooperation of the ratchet and the pawls, no transmission can be performed between the top seat 2 and the top body 1, and when the top seat 2 rotates in a second direction, transmission can be performed between the top seat 2 and the top body 1.

In some embodiments of the present invention, as shown in fig. 7, the gyro seat 2 further includes a first connection post 22 and a gyro tip 23, the first connection post 22 is connected between the rotation portion 211 and the gyro tip 23, the bottom of the gyro body 1 is provided with a first connection hole 12, the first connection post 22 penetrates the first connection hole 12, and the bottom of the rotation portion 211 abuts against the upper surface of the bottom of the gyro body 1.

Further, as shown in fig. 7, the first connecting hole 12 is provided at the center of the ring gear 111, the diameter of the first connecting hole 12 is slightly larger than the diameter of the first connecting post 22, and smaller than the diameter of the rotating portion 211, and the first connecting post 22 penetrates the first connecting hole 12 so that the first connecting post 22 can rotate in the first connecting hole 12. When the rotary part 211 is installed, the rotary part 211 is installed inside the gear ring 111, and the bottom of the rotary part 211 is propped against the upper surface of the bottom of the tourbillon 1, so that a limit is formed between the rotary part 211 and the bottom of the tourbillon 1. When the external rack 62 drives the top 23 to rotate, the top 23 drives the rotating part 211 to rotate through the first connecting post 22.

Still further, as shown in fig. 6 and 7, the top 23 includes a top 232 and a driving gear 231, wherein a mounting opening 70 is provided at the bottom of the driving gear 231, the top 232 is detachably mounted in the mounting opening 70, and at least a portion of the top 232 is located outside the driving gear 231, so that the top 232 can be conveniently replaced, when the top 232 is severely worn, a player can detach the old top 232 for replacement as required, and can replace the top 232 with different materials or shapes according to the needs of the player, for example, the top 232 in the shape of a rolling ball can be selected, or the top 232 in the shape of a cone can be selected, so that the playability of the top toy can be improved.

In addition, the driving gear 231 is used for matching with the rack 62 in the launcher, and the rotation of the driving gear 231 can be realized by pulling the rack 62, so as to drive the tourbillon 2 and the tourbillon 1 to rotate. The driving gear 231 and the first connecting post 22 are screwed and fixed by a coaxially arranged screw.

In some embodiments of the present invention, as shown in fig. 6 and 7, the top cover 4 further includes a second connecting post 41 disposed on the top cover 4, a second connecting hole 2111 is disposed in the rotating portion 211, a stopper 2112 disposed along a radial direction of the rotating portion 211 is disposed in the second connecting hole 2111, the top cover 4 is fixedly connected with the top body 1, the second connecting post 41 is inserted into the second connecting hole 2111, and a bottom of the second connecting post 41 abuts against the stopper 2112.

Further, the top cover 4 covers the top of the top body 1, so as to protect the internal components of the top body 1 and improve the overall modeling and aesthetic appearance of the top toy. Wherein, top lid 4 is in the same place with top body 1 fixed connection through modes such as buckle or screw, wherein, be provided with second spliced pole 41 at the center of top lid 4, be provided with second spliced pole 2111 at the center of rotation portion 211, the diameter of second spliced pole 2111 is slightly greater than the diameter of second spliced pole 41, the inboard of second spliced pole 2111 inwards extends and is provided with stopper 2112, second spliced pole 41 inserts in second spliced pole 2111 and the bottom of second spliced pole 41 is supported and is pressed on stopper 2112, consequently, can restrict the radial activity of rotation portion 211 through second spliced pole 41, also can play the axial activity of spacing rotation portion 211.

In some embodiments of the invention, as shown in fig. 6 and 10, there is also included a support 3, the support 3 being rotatably connected to the first connecting post 22, the support 3 being connected between the bottom of the tourbillon 1 and the tourbillon tip 23.

Wherein, support piece 3 sets up between top portion 23 and top body 1, can cooperate the use with the transmitter through support piece 3.

In some embodiments of the present invention, as shown in fig. 10, the support 3 includes a first connection portion 2122 supporting portion 31 and a second connection portion 2123 supporting portion 32, the first connection portion 2122 supporting portion 31 is connected to the second connection portion 2123 supporting portion 32, and a fitting groove 30 for fitting with the emitter is formed between the first connection portion 2122 supporting portion 31 and the second connection portion 2123 supporting portion 32.

Further, the cross-sectional shape of the plane of the support 3 perpendicular to its axis of rotation is circular, the mating groove 30 is an annular groove provided around the circumference of the support 3, and during driving, the clamping member or the bearing member of the launcher can be cooperatively connected with the mating groove 30 so that the gyro base can be fixed in the launch position of the launcher during driving.

Alternatively, the cross-sectional shape of the support 3 perpendicular to the plane of its axis of rotation may also be of a different shape, the mating groove 30 being arranged in the radial direction of the spindle, in which case a plug structure on the launcher can be inserted into the mating groove 30 to limit the rotation of the support 3 while enabling the gyro base to be fixed in the launch position of the launcher in the driving.

In some embodiments of the present invention, as shown in fig. 10, the first connection portion 2122 supporting portion 31 includes a first limiting portion 311, the second connection portion 2123 supporting portion 32 includes a second limiting portion 321, and the first limiting portion 311 is connected to the second limiting portion 321 and limits the relative rotation of the first connection portion 2122 supporting portion 31 and the second connection portion 2123 supporting portion 32.

Further, the first limiting part 311 and the second limiting part 321 are connected, so that the first connecting part 2122 supporting part 31 and the second connecting part 2123 supporting part 32 cannot rotate relatively, and the supporting piece 3 can be connected with the emitter more stably during driving.

In some embodiments of the present invention, as shown in fig. 10, the first limiting portion 311 is one of a slot or a connector, the second limiting portion 321 is the other of the slot or the connector, and the connector is inserted into the slot and limits the relative rotation of the first connecting portion 2122 supporting portion 31 and the second connecting portion 2123 supporting portion 32.

Preferably, as shown in fig. 10, the first limiting portion 311 is a clamping groove provided on the first connecting portion 2122 supporting portion 31, at least one clamping groove is provided outside the first connecting portion 2122 supporting portion 31 and is provided along the axial direction of the first connecting portion 2122 supporting portion 31, and the second limiting portion 321 is an inserting piece provided on the second connecting portion 2123 supporting portion 32, at least one inserting piece is provided extending upward along the axial direction of the second connecting portion 2123 supporting portion 32. When the first connecting portion 2122 supporting portion 31 and the second connecting portion 2123 supporting portion 32 are combined, the plug is inserted into the clip groove so that the first connecting portion 2122 supporting portion 31 and the second connecting portion 2123 supporting portion 32 cannot relatively rotate about their rotational axes.

Preferably, when the connector is inserted into the clamping groove, the outer wall of the connector is flush with the outer wall of the second connecting portion 2123 supporting portion 32 and forms the wall surface of the mating groove 30.

Alternatively, the first limiting portion 311 may also be a limiting hole disposed on the first connecting portion 2122 supporting portion 31, where the limiting hole is disposed along the axial direction of the first connecting portion 2122 supporting portion 31, and the second limiting portion 321 is an inserting piece disposed on the second connecting portion 2123 supporting portion 32, where the inserting piece is inserted into the limiting hole, so as to limit the relative rotation of the first connecting portion 2122 supporting portion 31 and the second connecting portion 2123 supporting portion 32.

Optionally, the first connecting portion 2122 supporting portion 31 may further include a first sleeve body, the second connecting portion 2123 supporting portion 32 may further include a second sleeve body, the first sleeve body is sleeved on the outer periphery of the second sleeve body or the second sleeve body is sleeved on the outer periphery of the first sleeve body, the first limiting portion 311 is a first fixing hole formed in the first sleeve body, the second limiting portion 321 is a second fixing hole formed in the second sleeve body, the first fixing hole and the second fixing hole are both radially formed, the first fixing hole and the second fixing hole are coaxial, and the first connecting portion 2122 supporting portion 31 and the second connecting portion 2123 supporting portion 32 can be connected through a pin shaft or a screw passing through the first fixing hole and the second fixing hole, so that the first connecting portion 2122 supporting portion 31 and the second connecting portion 2123 supporting portion 32 cannot rotate relatively.

Alternatively, the first and second connection parts 2122 and 2123 are supported by screws axially disposed to fix the first and second connection parts 2122 and 2123 and 32.

In some embodiments of the present invention, as shown in fig. 10, the second limiting part 321 is provided with an axial limiting member 322, and when the first limiting part 311 is connected to the second limiting part 321, the axial limiting member 322 is connected to the first connecting part 2122 supporting part 31 and limits the first connecting part 2122 supporting part 31 and the second connecting part 2123 supporting part 32 from being axially separated.

Further, as shown in fig. 10, the axial limiting member 322 is a buckle body disposed at an upper end of the second limiting portion 321, and when the first limiting portion 311 is connected to the second limiting portion 321, the buckle body is clamped on the first connecting portion 2122 supporting portion 31, so as to limit the first connecting portion 2122 supporting portion 31 and the second connecting portion 2123 supporting portion 32 from being separated in an axial direction.

Alternatively, the first limiting portion 311 is a first screw member disposed on the first supporting portion 2122 and the second limiting portion 321 is a second screw member disposed on the second supporting portion 2123, and the first screw member is screwed with the second screw member to fix the first supporting portion 2122 and the second supporting portion 2123.

In some embodiments of the present invention, as shown in fig. 9, the first connection portion 2122 supporting portion 31 includes a first limiting portion 312 extending radially outward, and the second connection portion 2123 supporting portion 32 includes a second limiting portion 323 extending radially outward, and the mating groove 30 is formed between the first limiting portion 312 and the second limiting portion 323.

Preferably, as shown in fig. 10, the first limiting portion 312 is an annular structure disposed on the outer wall of the supporting portion 31 of the first connecting portion 2122, and the second limiting portion 323 is an annular structure disposed on the outer wall of the supporting portion 32 of the second connecting portion 2123.

Optionally, the first limiting portion 312 and the second limiting portion 323 are each disposed to extend radially outward. Multiple sets of first and second stop portions 312, 323 may be provided to support the gyro base in the launch position of the launcher.

The foregoing is only illustrative of the principles and preferred embodiments of the present application. It should be noted that several other variants are possible to those skilled in the art on the basis of the principle of the application and should also be considered as the scope of protection of the present application.

Claims (10)

1. The launcher is characterized by comprising a launching seat (5) and a launching track (6), wherein a launching port (50) is formed in the launching seat (5), the launching port (50) is communicated with the launching track (6), an ejection block (7) matched with a top is arranged in the launching track (6) in a sliding mode, a first elastic piece (61) is connected between the ejection block (7) and the launching track (6), and a rack (62) used for driving the top to rotate is arranged in the launching track (6);

during energy storage, the ejection block (7) moves into the emission port (50), the ejection block (7) is connected with the emission seat (5), and the first elastic piece (61) stores energy;

During launching, the ejection block (7) is separated from the launching seat (5), the first elastic piece (61) releases energy and drives the ejection block (7) to slide along the launching track (6), and the top moves relative to the rack (62) and drives the top to rotate.

2. The launcher according to claim 1, characterized in that said ejector block (7) is provided with a first locking assembly (71), said launching track (6) is provided with a locking bayonet (60), said top is provided with a support (3) for triggering the unlocking of said first locking assembly (71);

The first locking assembly (71) includes an unlocked state and a locked state;

When the top is mounted on the ejection block (7), the support (3) triggers the first locking assembly (71) to the unlocking state, the first locking assembly (71) is separated from the locking bayonet (60), and the ejection block (7) can pass through the locking bayonet (60);

When the first locking assembly (71) is in the locking state, the first locking assembly (71) is clamped into the locking bayonet (60) and limits the ejection block (7) from sliding when the ejection block (7) passes through the locking bayonet (60).

3. The launcher according to claim 2, characterized in that said first locking assembly (71) comprises a locking block (711) and a second elastic member, said locking block (711) being slidingly connected with said ejector block (7), said second elastic member being connected between said locking block (711) and said ejector block (7);

When the first locking assembly (71) is in the unlocked state, the support (3) is in contact with the locking block (711) and compresses the second elastic member;

When the first locking assembly (71) is in the locking state, the second elastic piece pushes the locking block (711) to be clamped into the locking bayonet (60) when the ejection block (7) passes through the locking bayonet (60).

4. The launcher according to claim 2, characterized in that a sliding groove (63) for accommodating the top is provided in the launching track (6), the rack (62) is provided inside the sliding groove (63), and at least one locking bayonet (60) is provided on a side wall of the sliding groove (63).

5. The launcher according to claim 4, characterized in that both sides of the sliding groove (63) are respectively provided with a guiding chute (64), the ejector block (7) comprises a pushing portion (72) and a sliding portion (73), the sliding portion (73) is arranged at both sides of the pushing portion (72), the sliding portion (73) is slidably arranged in the guiding chute (64), the pushing portion (72) is arranged in the sliding groove (63), and the first locking assembly (71) is arranged in the sliding portion (73).

6. The launcher according to claim 4, characterized in that the ejector block (7) is further provided with a blocking member (74), the blocking member (74) is rotatably connected with the ejector block (7), the blocking member (74) is provided with a guide block (741), the launching track (6) is provided with a guide groove (65), and the guide block (741) can slide along the guide groove (65);

The guide groove (65) comprises a first guide groove (651) and a second guide groove (652), the first guide groove (651) is arranged along the emission direction of the emission track (6), the second guide groove (652) is arranged at one end of the emission track (6) far away from the emission seat (5), the first end of the second guide groove (652) is communicated with the first guide groove (651), and the second end of the second guide groove (652) is arranged in a direction far away from the ejection block (7).

7. The emitter according to claim 6, characterized in that the side wall of the sliding channel (63) is provided with a communication opening for the passage of the blocking member (74);

When the guide block (741) is positioned in the first guide groove (651), at least part of the blocking piece (74) extends into the sliding groove (63) through the communication opening, and the blocking piece (74) limits the top from being separated from the ejection block (7) along the emission direction;

When the guide block (741) is positioned in the second guide groove (652), the blocking piece (74) is separated from the sliding groove (63), and the top can be separated from the ejection block (7).

8. The emitter according to claim 1, characterized in that the emitter seat (5) has a second locking assembly (51) provided therein;

When the energy is stored, the ejection block (7) moves into the emission port (50), the second locking assembly (51) is connected with the ejection block (7), and the first elastic piece (61) stores energy;

During launching, the second locking assembly (51) is separated from the ejection block (7), and the first elastic piece (61) releases energy and drives the ejection block (7) to slide along the launching track (6).

9. The emitter according to claim 8, characterized in that said second locking assembly (51) comprises an unlocking button (511) and a clasp (512), said clasp (512) being movably connected to said emitter seat (5), said unlocking button (511) being linked to said clasp (512);

When energy is stored, the ejection block (7) moves into the emission port (50), and the clamping piece (512) is clamped with the ejection block (7);

When the ejector is launched, the unlocking button (511) triggers the fastener (512) to act, and the fastener (512) is separated from the ejection block (7).

10. A gyroscopic toy comprising a gyroscope and the transmitter of any one of claims 1-9;

The top comprises a top body (1) and a top seat (2), wherein a unidirectional limiting component used for limiting unidirectional rotation of the top body (1) is arranged between the top body (1) and the top seat (2), and the unidirectional limiting component is connected between the top body (1) and the top seat (2);

when the tourbillon (2) rotates towards a first direction, the unidirectional limiting assembly can unlock and enable the tourbillon (1) and the tourbillon (2) to rotate relatively;

When the top seat (2) rotates towards the second direction, the one-way limiting assembly locks the top body (1) and the top seat (2), and the top body (1) and the top seat (2) are relatively fixed;

wherein the first direction is opposite to the second direction.