CN113877218B - Fight top device - Google Patents

Abstract

The invention discloses a fight top device, which comprises a device shell, a top launching device, a toy top, a top disc and a control device, wherein the device shell is provided with a top shell; the top launching device and the top disc are arranged on the device shell, and the top launching device can launch the toy top onto the top disc; the control device is linked with the toy top and can control the moving direction of the toy top. The fight top device provides a field for fight of the toy top and is convenient for playing. The control device can control the moving direction of the toy top, improves the interactivity of a player and the toy top, enables the player to better control the toy top to participate in fight, and improves play fun.

Description

Fight top device

Technical Field

The invention relates to the field of toys, in particular to a fight top device.

Background

Gyroscopic toys are a common toy, and multiple players can launch their gyroscopes out to perform collision and fight. In general, when in battle, the gyroscopes are launched to the ground for playing, and corresponding battle fields are lacked, so that the battle is inconvenient. In the fight, a player can only watch the gyros to randomly fight, and even if the gyros disk with a fixed form, which is formed by using the prior plastic suction, fight, the movement of the gyros cannot be controlled; in addition, in the process of launching the top into the top plate, the falling points of the top cannot be effectively controlled, so that the existing product cannot control the fight of the top autonomously, the interaction with the top is lacking, and the play fun is reduced.

Based on the above technical problems, improvements are needed.

Disclosure of Invention

The technical scheme of the invention aims to provide the fight top device which is convenient to play and improves interactivity and play fun.

The invention provides a fight top device, which comprises a device shell, a top launching device, a toy top, a top disc and a control device; the top launching device and the top disc are arranged on the device shell, and the top launching device can launch the toy top onto the top disc; the control device is linked with the toy top and can control the moving direction of the toy top.

Further, the gyro emission device comprises an emission seat, an acceleration piece and an emission piece; the launching seat is arranged on the device shell, is arranged adjacent to the gyro disc, and can be placed on the launching seat; the accelerating piece is connected with the device shell and can drive the toy gyroscope on the transmitting seat to rotate; the transmitting piece is connected with the device shell and can transmit the toy top on the transmitting seat to the top plate.

Further, the control device comprises a launch control mechanism comprising a first operating member and a first linkage member; the first operating piece is movably connected to the device shell, the launching seat is movably connected to the device shell, and the first linkage piece is movably connected between the first operating piece and the launching seat; the first operation piece drives the first linkage piece to control the launching seat to move so as to control the launching position and direction of the toy gyroscope.

Further, the first linkage piece comprises a first sliding rod, a second sliding rod and a connecting gear; the first sliding rod is in sliding connection with the device shell, the second sliding rod is in sliding connection with the device shell, and the connecting gear is meshed between the first sliding rod and the second sliding rod; the first operating piece is connected with the first sliding rod, and the transmitting seat is connected with the second sliding rod.

Further, the control device also comprises a top control mechanism, wherein the top control mechanism comprises a second operating piece, a transmission piece and a second linkage piece; the second operating piece is movably connected with the device shell, the second linkage piece is movably connected with the device shell, and the transmission piece is movably connected between the second operating piece and the second linkage piece; the second linkage piece comprises a linkage part extending into the gyro disc, and the linkage part is linked with the toy gyro to control the toy gyro to move on the gyro disc.

Further, a first magnetic attraction piece is arranged on the toy top, and a second magnetic attraction piece is arranged on the linkage part; the linkage part is positioned below the gyro disc, and the first magnetic attraction piece and the second magnetic attraction piece can be attracted to each other so as to drive the toy gyro to move.

Further, the second linkage piece is rotatably connected or slidably connected with the device shell, and connecting teeth are arranged on the second linkage piece; the second operating piece is connected with an operating rod gear, and the transmission piece is a transmission gear piece; the transmission gear member is engaged between the lever gear and the connection teeth.

Further, the control device comprises a gyro disc control mechanism, wherein the gyro disc control mechanism comprises a third operating piece, a third linkage piece and a connecting piece; the third operating piece is arranged on one side of the top launching device, the third linkage piece is linked with the top disc, one end of the connecting piece is connected with the third operating piece, and the other end of the connecting piece is connected with the third linkage piece; and the third operation piece can be operated to drive the third linkage piece to control the gyro disc to move.

Further, the third operating member comprises an operating button, the connecting member comprises a connecting rope, and the third linkage member comprises a lifting pushing member; the connecting rope is connected between the operating button and the lifting pushing piece; when the operation button is pressed down, the connecting rope pulls the lifting pushing piece to push the gyro disc upwards, so that the gyro disc is inclined.

Further, the third operating member comprises at least two operating buttons, the connecting member comprises at least two connecting ropes, and the third linkage member comprises at least two lifting pushing members; each connecting rope is connected between the corresponding operating button and the corresponding lifting pushing piece; each lifting pushing piece pushes different parts of the gyro disc.

Further, the device case can be opened and closed, and the gyro emission device can emit the toy gyro onto the gyro disc when the device case is in the opened state. When the device housing is in a closed state, the top launcher, the top disk and the toy top are housed inside the device housing.

Further, the device housing includes a first housing and a second housing; the first housing and the second housing are hinged to enable the device housing to be opened and closed.

Further, the gyro emission device is disposed on the first housing, and the gyro disc is disposed on the second housing.

Further, a butt joint piece is arranged on the device shell, and when the butt joint pieces on the two device shells are in butt joint, the gyro discs on the two second shells are spliced into an integral fight disc.

Further, the first shell and the second shell are respectively provided with the top launching device and the top disc; when the device shell is in the open state, the gyro disc on the first shell is in butt joint with the gyro disc on the second shell.

Further, the device housing further comprises a connection housing hinged between the first housing and the second housing; the connecting shell is provided with a baffle door capable of being opened and closed, and the baffle door is rotationally connected with the connecting shell and is positioned between the top launching device and the top disc; when the top launching device launches the toy top, the baffle door is opened; when the toy top is positioned on the top disc, the baffle door is closed.

By adopting the technical scheme, the method has the following beneficial effects:

the technical scheme of the invention provides a fight top device, wherein a control device is arranged on a device shell integrated with a top launching device and a top disc, and the movement direction of a toy top can be controlled by the control device, including the launching drop point of the toy top, the movement direction of the toy top in the top disc and the like. The top control device can control the falling point and the moving direction of the toy top, improves the interactivity of a player and the toy top, enables the player to better and autonomously control the toy top to participate in the fight, and improves the play fun. The gyro disc provides a place for the toy gyro to fight, and is convenient to play.

Drawings

FIG. 1 is a perspective view of a battle top assembly according to one embodiment of the present invention;

FIG. 2 is a schematic view of the battle top assembly of FIG. 1 in a closed position;

FIG. 3 is an exploded view of the battle top assembly of FIG. 1;

FIG. 4 is a perspective view of a battle top assembly according to another embodiment of the present invention;

FIG. 5 is a schematic view of the battle top assembly of FIG. 4 in a closed position;

FIG. 6 is an exploded view of the battle top assembly of FIG. 4;

FIG. 7 is a schematic diagram of a top launcher and launching control mechanism according to an embodiment of the present invention;

FIG. 8 is a schematic view of a launching pad, an accelerator, and a launching member according to an embodiment of the present invention;

FIG. 9 is a schematic diagram of an emission control mechanism according to an embodiment of the present invention;

FIG. 10 is a schematic diagram of a gyro control mechanism according to an embodiment of the present invention;

FIG. 11 is a schematic diagram of a gyro control mechanism according to an embodiment of the present invention;

FIG. 12 is a schematic diagram of a spinning top disk control mechanism according to an embodiment of the invention;

FIG. 13 is a schematic view of a third linkage according to an embodiment of the present invention;

FIG. 14 is a schematic partial cross-sectional view of a toy top according to one embodiment of the present invention;

FIG. 15 is a schematic view of a second housing, a docking member, and a top plate in accordance with an embodiment of the present invention.

Reference numerals:

battle top device 10

Device housing 1 first housing 11 second housing 12 is connected to housing 13

Butt joint part 14 gyro emitter 2 emitter seat 21 accelerator part 22

Pulling member 221 driving wheel member 222 clutch gear 223 driving gear member 224

The transmission block 232 of the transmitting button 231 of the transmitting member 23 pushes the rod 233

First magnetic attraction piece 31 of toy top 3 top disk 4 emission control mechanism 5

The first operating member 51 is mounted to the base 511 and the operating lever 512 mounts the lever 513

The first slide rod 521 of the first linkage member 52 passes through the through hole 5211 and the second slide rod 522

Connecting gear 523 gyro control mechanism 6 second operation piece 61 operates lever gear 611

Connecting teeth 632 of linkage part 631 of second linkage part 63 of transmission part 62

Second magnetic attraction piece 6311 gyro disc control mechanism 7 third operation piece 71 third linkage piece 72

The first support bar 721 and the second support bar 722 of the connecting piece 73 swing the connecting rod 723

Sliding connecting rod 724 pushing block 725 baffle door 8

Detailed Description

Specific embodiments of the present invention 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 invention, those skilled in the art may replace various structural modes and implementation modes with each other without changing the true spirit of the present invention. Accordingly, the following detailed description and drawings are merely illustrative of the invention and are not intended to be exhaustive or to limit the invention to the precise form disclosed.

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.

As shown in fig. 1 to 6, a fighting gyro device 10 according to an embodiment of the present invention includes a device housing 1, a gyro emission device 2, a toy gyro 3, a gyro disc 4, and a control device.

The gyro emission device 2 and the gyro disk 4 are mounted on the device housing 1, and the gyro emission device 2 is capable of emitting the toy gyro 3 onto the gyro disk 4.

The control device is linked with the toy top 3 and can control the moving direction of the toy top 3.

The fighting gyro device 10 can be used for gyro fighting play, and can control the activity of the toy gyro 3 during play, thereby facilitating player control.

The fight top device 10 is composed of a device shell 1, a top launching device 2, a toy top 3, a top disk 4 and a control device. The device housing 1 a gyro emission device 2, a gyro disc 4 and a control device are mounted on the device housing 1, wherein the gyro emission device 2 and the control device are located on one side of the gyro disc 4. The toy top 3 can be launched onto the top plate 4 by the top launcher 2, and the top plate 4 is used for the toy top 3 to rotate, optionally, the middle of the top plate 4 is concave downwards, so that the top plate is inclined. In this way, the toy gyros 3 in the gyro disk 4 can approach each other toward the middle of the gyro disk 4 under the action of gravity to collide with each other.

Alternatively, toy top 3 is placed on device housing 1, and top launcher 2 includes a release button, a spring, a launcher plate, and a locking element. The locking piece is unlocked by pressing the release button, and then the spring pushes the transmitting plate, so that the transmitting plate pushes the top to leave the supporting seat. Of course, the gyro emission device 2 may have other structures as long as it can emit a gyro.

The control device is linked with the toy top 3, and a player can control the toy top 3 to move through the control device, for example, change the launching angle of the toy top 3 to change the falling point or change the moving direction of the toy top 3 on the top plate 4. So set up, make things convenient for the player to control toy top 3 and fight, made the player have the interdynamic with toy top 3, and not just simply watched to the enjoyment of playing has been improved.

Alternatively, the top launcher 2 is rotatably attached to the device housing 1, and the toy top 3 is placed on the top launcher 2. The control device is a control handle, the control handle is connected to the control device, and a player holds the control handle to control the top launching device 2 to rotate and adjust the launching direction of the toy top 3.

Optionally, the control device comprises an air outlet cylinder and an air cylinder piston, and the air cylinder piston is inserted into the air outlet cylinder. An air tap facing to the gyro disc 4 is arranged on the device shell 1, and an air outlet of the air outlet cylinder is communicated with the air tap. By operating the inflator piston to slide, air flow can be generated, the air flow is blown to the gyro disc 4 through the air tap, and the air flow pushes the gyro to change the moving direction. A plurality of air nozzles are arranged on the device shell 1, and each air nozzle is correspondingly connected with one air outlet cylinder.

In one embodiment, as shown in fig. 6-8, top launcher 2 includes a launcher 21, an acceleration member 22, and a launcher 23. The launching seat 21 is installed on the device shell 1 and is adjacent to the gyro disc 4, and the toy gyro 3 can be placed on the launching seat 21. The acceleration member 22 is connected to the device housing 1 and is capable of driving the toy top 3 on the launching seat 21 to rotate. The launching piece 23 is connected with the device housing 1 and can launch the toy top 3 on the launching seat 21 onto the top plate 4.

Specifically, the gyro emission device 2 is composed of an emission base 21, an acceleration member 22, and an emission member 23. The launching seat 21 is used for stably placing the toy top 3, the launching seat 21 is adjacent to the top plate 4, and the toy top 3 can be immediately positioned on the top plate 4 when leaving the launching seat 21. The accelerating element 22 is used for driving the toy top 3 to rotate, and the accelerating output end of the accelerating element 22 is connected with the toy top 3. The launching piece 23 is used for launching the toy top 3 onto the top plate 4, and the launching output end of the launching piece 23 is connected with the toy top 3. The gyro emission device 2 integrates the acceleration part 22 and the emission part 23, so that the layout is more reasonable, and the space occupation is reduced.

Alternatively, the emitting seat 21 includes a first seat body and a second seat body, which are connected to form a seat body cavity, and at least part of the emitting member 23 and at least part of the accelerating member 22 are installed in the seat body cavity. Two clamping pieces are arranged on the transmitting seat 21, and the toy top 3 is clamped between the two clamping pieces. When the launching member 23 launches the toy top 3, the launching member 23 pushes the toy top 3 out of the grip member. The clamping member may be a clamping plate rotatably connected to the transmitting seat 21 or an elastic rubber block having elasticity.

Alternatively, the acceleration member 22 includes a pulling member 221, a driving wheel member 222, a clutch gear 223, and a connecting gear member 224. The pulling member 221 is slidably connected in the device housing 1, one end of the pulling member 221 extends out of the device housing 1, the other end is connected with the driving wheel member 222, and when the pulling member 221 is operated to slide, the pulling member 221 drives the driving wheel member 222 to rotate. The transmitting seat 21 is provided with an arc chute, a gear shaft of the clutch gear 223 is connected in the arc chute, and the clutch gear 223 can slide and rotate. The connecting gear 224 is composed of a plurality of gear meshes, which mesh with the toy top 3. When the pulling member 221 slides in a direction away from the driving member 222, the driving member 222 rotates in a forward direction. The driving wheel 222 drives the clutch gear 223 to rotate in the forward direction, and drives the clutch gear 223 to move in the direction approaching the connecting gear 224, so that the clutch gear 223 is meshed with the connecting gear 224. After the clutch gear 223 is meshed with the connecting gear member 224, the clutch gear 223 drives the connecting gear member 224 to rotate the toy top 3. When the pulling member 221 slides in a direction approaching the driving member 222, the driving member 222 rotates in a second direction, i.e., reversely. The driving wheel 222 drives the clutch gear 223 to rotate reversely, and drives the clutch gear 223 to move away from the connecting gear 224. The clutch gear 223 is separated from the connecting gear 224, and the clutch gear 223 does not drive the connecting gear 224 to rotate. Thus, the toy top 3 can be rotated only in one direction when the pulling member 221 is operated to slide reciprocally. The player can operate the pulling member 221 to drive the toy top 3 to continuously spin up, and the faster the pulling member 221 is operated to slide, the faster the toy top 3 rotates.

Alternatively, as shown in fig. 6 and 8, the launching member 23 includes a launching button 231, a driving block 232, and a push rod 233 for pushing the toy top 3. The push rod 233 is slidably coupled to the device housing 1, and the transmission block 232 is coupled to the push rod 233 and is positioned below the firing button 231. The launching button 231 is slidably connected with the device housing 1, when the launching button 231 is pressed, the launching button 231 presses down the transmission block 233, the transmission block 232 drives the push rod 233 to slide, and the push rod 233 pushes the toy top 3. The driving block 232 is a wedge-shaped block, and a surface thereof facing the firing button 231 is a slope. In another embodiment, the driving block 232 may also be composed of a driving rod and a driving wheel. The transmission rod is connected in a sliding way, and the transmission wheel is connected with the transmission rod in a rotating way and is positioned at one side of the transmission rod. The transmitting button 231 slides up and down, a pressing block is connected to the bottom of the transmitting button 231, and the pressing block can be in contact with the driving wheel. When the launching button 231 is pressed, the launching button 231 drives the pressing block to move downwards, the pressing block contacts with the driving wheel, and the driving rod is pushed to slide, so that the driving rod pushes the pushing rod 233. When the pressing block is contacted with the driving wheel, the driving wheel rotates.

In one embodiment, as shown in fig. 6-9, the control device comprises a launch control mechanism 5, the launch control mechanism 5 comprising a first operating member 51 and a first linkage member 52. The first operating member 51 is movably coupled to the device housing 1, the launching pad 21 is movably coupled to the device housing 1, and the first linkage member 52 is movably coupled between the first operating member 51 and the launching pad 21. The first operation piece 51 drives the first linkage piece 52 to control the movement of the launching seat 21 so as to control the launching position and direction of the toy top 3.

Specifically, the first operating member 51 and the first linking member 52 are both movable on the device housing 1, and one end of the first linking member 52 is connected to the first operating member 51, and the other end is connected to the radiation seat 21. The first operation piece 51 is controlled to drive the first linkage piece 52 to move, and then the first linkage piece 52 drives the launching seat 21 to move, so that the launching direction of the toy top 3 is changed. The setting is so convenient for the player to adjust, through the manual regulation of player, has further improved player's participation.

Alternatively, the emitter 21 is rotatably connected to the device housing 1, and the emitter 21 can be rotated up and down or left and right. The transmitting seat 21 is rotationally connected with the device shell 1 through a rotating shaft, the rotating direction of the transmitting seat 21 is determined by the arrangement of the rotating shaft, and when the rotating shaft is designed to transversely extend, the transmitting seat 21 rotates along the up-down direction to adjust the vertical transmitting direction. When the rotating shaft is designed to extend vertically, the transmitting seat 21 rotates along the left-right direction, and the transmitting direction of the gyroscope in the transverse direction is adjusted.

Alternatively, the first operating member 51 is an operating slider that is slidably connected to the device housing 1. The first linkage member 52 is a linkage rack, the linkage rack is slidably connected with the device housing 1, a seat gear is arranged on the transmitting seat 21, the operation slider is connected with the linkage rack, and the linkage rack is meshed with the seat gear. When the operating slider slides, the emission seat 21 rotates.

In one embodiment, as shown in fig. 7-9, the first linkage 52 includes a first slide bar 521, a second slide bar 522, and a connecting gear 523. The first slide bar 521 is slidably connected to the apparatus housing 1, the second slide bar 522 is slidably connected to the apparatus housing 1, and the connecting gear 523 is engaged between the first slide bar 521 and the second slide bar 522. The first operating member 51 is coupled to a first slide bar 521, and the firing seat 21 is coupled to a second slide bar 522.

Specifically, the first linkage 52 is composed of a first slide bar 521, a second slide bar 522, and a connecting gear 523. The first slide bar 521 and the second slide bar 522 are disposed at a distance, and the connecting gear 523 is engaged between the first slide bar 521 and the second slide bar 522 and is rotatably connected to the apparatus housing 1. The first operating member 51 is coupled to the first slide bar 521, and the second slide bar 522 is coupled to the firing seat 21. The first operating member 51 drives the first slide bar 521 to slide, the first slide bar 521 drives the connecting gear 523 to rotate, the connecting gear 523 drives the second slide bar 522 to slide, and the second slide bar 522 drives the transmitting seat 21 to rotate. So set up, the transmission is effectual, and overall structure is simple, and is not fragile.

Optionally, the first operating member 51 includes a mounting base 511 and an operating lever 512. The mount 511 is rotatably connected to the device case 1, and is rotatable left and right, and the operation lever 512 is connected to the mount 511. The mounting base 511 is connected with an assembly rod 513 extending toward the first slide rod 521, the first slide rod 521 is provided with a through hole 5211, and the assembly rod 513 extends into the through hole 5211 and is in clearance fit with the through hole 5211. When the mounting base 511 swings left and right, at least a part of the mounting rod 513 is always positioned in the through hole 5211, and abuts against the wall of the through hole 5211 to push the first slide bar 521 to slide.

Optionally, a fan-shaped groove is provided at the bottom of the emitter seat 21, and a connecting rod extending towards the fan-shaped groove is connected to the second sliding rod 522, and a part of the connecting rod is located in the fan-shaped groove. When the transmitting seat 21 rotates, the groove wall of the fan-shaped groove can be abutted with the connecting rod to form a block, so that the transmitting seat 21 is limited to continue rotating.

In one embodiment, as shown in fig. 1-3 and 10-11, the control device further includes a gyro control mechanism 6, and the gyro control mechanism 6 includes a second operation member 61, a transmission member 62, and a second linkage member 63. The second operating member 61 is movably coupled to the device housing 1, the second linkage member 63 is movably coupled to the device housing 1, and the transmission member 62 is movably coupled between the second operating member 61 and the second linkage member 63. The second linkage 63 includes a linkage portion 631 extending into the gyro wheel 4, the linkage portion 631 being linked with the toy top 3 to control movement of the toy top 3 on the gyro wheel 4.

Specifically, the gyro control mechanism 6 is for controlling the movement of the toy gyro 3 on the gyro disc 4, and is composed of a second operation member 61, a transmission member 62, and a second linkage member 63. The second operating member 61 and the second linking member 63 are movably coupled to the device housing 1, and the transmission member 62 is located between the second operating member 61 and the second linking member 63, the transmission member 62 being composed of a single or a plurality of gears, one end of the transmission member 62 being engaged with the second operating member 61, and the other end being engaged with the second linking member 63. The second linking member 63 is provided with a linking portion 631, and the linking portion 631 is linked with the toy top 3 on the top plate 4. The second operating member 61 moves to drive the transmission member 62 to rotate, and the transmission member 62 drives the second linkage member 63 to move, so that the toy top 3 on the top plate 4 is driven to move.

Alternatively, the linkage part 631 is a linkage plate extending below the gyro disc 4, and when the second linkage member 63 moves, the linkage plate can touch the toy gyro 3 to change the moving direction of the toy gyro 3 by collision.

Alternatively, the second operating member 61 is a gimbal-type rocker.

In one embodiment, as shown in fig. 10-11 and 14, the toy top 3 is provided with a first magnetic attraction member 31, and the linkage 631 is provided with a second magnetic attraction member 6311. The linkage part 631 is located below the gyro disc 4, and the first magnetic attraction piece 31 and the second magnetic attraction piece 6311 can attract each other to drive the toy gyro 3 to move.

Specifically, the second linkage 63 is linked with the toy top 3 by the magnetic attraction principle. Wherein a first magnetic attraction piece 31 is provided in the toy top 3, a second magnetic attraction piece 6311 is provided on the interlocking portion 631, and attractive force is generated between the first magnetic attraction piece 31 and the second magnetic attraction piece 6311. The interlocking part 631 is located below the gyro disk 4. When the second linkage member 63 moves, the first magnetic attraction member 31 attracts the second magnetic attraction member 6311 to drive the toy top 3 to move.

In one embodiment, as shown in fig. 1-3 and 10-11, the second linkage 63 is rotatably or slidably coupled to the device housing 1, and the second linkage 63 is provided with a coupling tooth 632. The second operating element 61 is connected to an operating lever gear 611, and the transmission element 62 is a transmission gear element. The transmission gear member is engaged between the lever gear 611 and the connection teeth 632.

Specifically, the second linkage member 63 is rotatably or slidably connected to the device housing 1, and the end of the second linkage member 63 facing the second operation member 61 is provided with a connection tooth 632. The second operating member 61 is rotatably coupled to the device housing 1, and the second operating member 61 is provided with an operating lever gear 611. The transmission member 62 is a transmission gear member, which is formed by meshing one gear or a plurality of gears, and is meshed between the connection teeth 632 and the lever gear 611. The transmission effect is better by adopting the meshing mode for connection.

In one implementation, the second linkage 63 is slidably connected to the device housing 1, and when the second linkage 63 slides, the second linkage can drive the toy top 3 to linearly move on the top plate 4. In another embodiment, the second linkage 63 is rotatably connected to the device housing 1, and the second linkage 63 can drive the toy top 3 to move in an arc shape on the top plate 4 when rotating.

In one embodiment, as shown in fig. 4-6 and 12-13, the control device includes a top disk control mechanism 7, and the top disk control mechanism 7 includes a third operating member 71, a third linkage member 72, and a connecting member 73. The third operating element 71 is provided on one side of the gyro emission device 2, the third linking element 72 is linked with the gyro disk 4, one end of the connecting element 73 is connected to the operating element, and the other end is connected to the third linking element 72. The third operating member 71 is operated to drive the third actuating member 72 to control the movement of the spinning top 4.

Specifically, the third operating member 71 is movably attached to the device housing 1 and located on one side of the gyro emission device 2. The third link 72 is movably connected to the device housing 1 and can be linked with the toy top 3. The connecting member 73 is connected between the third operating member 71 and the third linkage member 72. The gyro disc 4 is movably connected to the device housing 1, and when the third operating member 71 moves, the third operating member 71 drives the third actuating member 72 to move through the transmission member 62, and the third actuating member 72 drives the gyro disc 4 to move, so that the toy gyro 3 on the gyro disc 4 is affected, and the moving direction is changed. By the arrangement, the mode of controlling the movement of the toy top 3 is enriched, and the toy top 3 can be flexibly controlled.

Alternatively, the spinning top 4 is movable by rotating on the device housing 1, wherein the third linkage 72 is a turntable and the third operating member 71 is a turntable lever. The turntable is rotatably connected to the device housing 1, and the spinning top disk 4 is connected to the turntable. The carousel pole is connected in the side of carousel. The player controls the turntable to rotate through the turntable rod. The left and right abutting baffles are arranged on the disc surface of the gyro disc 4, and when the gyro disc 4 rotates, the abutting baffles can collide with the toy gyro 3 to change the direction of the toy gyro 3.

In one embodiment, as shown in fig. 6 and 12-13, the third operating member 71 comprises an operating button, the connecting member 73 comprises a connecting cord, and the third linkage member 72 comprises a lifting pushing member. The connecting rope is connected between the operating button and the lifting pushing piece. When the operating button is pressed, the connecting rope pulls the lifting pushing piece to push the gyro disc 4 upwards, so that the gyro disc 4 is inclined.

Specifically, the gyro disk 4 is movable in such a manner that a part of the gyro disk 4 is tilted to tilt the entire gyro disk 4. The operating button is connected on the device shell 1 in a sliding way, and the connecting rope is connected between the operating button and the lifting pushing piece. The lifting pushing piece can lift, when the operating button is operated, the operating button enables the lifting pushing piece to lift through the connecting rope, and the lifting pushing piece pushes the gyro disc 4 upwards, so that the gyro disc 4 is tilted. At this time, the gyro on the gyro disk 4 moves toward the one end that is not tilted under the influence of gravity.

Alternatively, the lifting pushing member is composed of a first support rod 721, a second support rod 722, a swing link 723, a slide link 724, and a pushing block 725. Wherein the swing link 723 and the slide link 724 are crossed and rotatably connected by a first shaft. The bottom end of the swing link 723 is rotatably connected to the apparatus housing 1 through a second rotation shaft, and the top end of the swing link 723 is rotatably connected to the first support rod 721 through a third rotation shaft. The bottom end of the sliding link 724 is slidably connected to the device housing 1, and the top end of the sliding link 724 is rotatably connected to the second support bar 722 through a fourth rotation shaft. The top end of the first support rod 721 and the top end of the second support rod 722 are rotatably connected with the pushing block 725 through a fifth rotating shaft. The linkage is connected to the bottom end of the slide link 724. When the connecting rope drives the bottom end of the sliding link 724 to slide in a direction approaching the swinging link 723, the first support bar 721, the second support bar 722, the swinging link 723 and the sliding link 724 swing upward, pushing the pushing block 725 to move upward.

In one embodiment, as shown in fig. 6 and 12-13, the third operating member 71 includes at least two operating buttons, the connecting member 73 includes at least two connecting strings, and the third actuating member 72 includes at least two lifting pushing members. Each connecting rope is connected between the corresponding operating button and the corresponding lifting pushing piece. Each lifting pushing piece pushes different parts of the gyro disc 4. Each lifting pushing piece corresponds to an operation button and a connecting rope. Each lifting pushing piece corresponds to different parts of the gyro disc 4, so that the gyro disc 4 can tilt in different directions.

In one embodiment, as shown in fig. 1-2 and fig. 4-5, the device housing 1 can be opened and closed, and the top launcher 2 can launch the toy top 3 onto the top plate 4 when the device housing 1 is in the open state. When the device case 1 is in the closed state, the gyro emission device 2, the gyro disc 4, and the toy gyro 3 are housed inside the device case 1.

In particular, the device housing 1 is composed of two symmetrical housing parts, which are hinged. When the device housing 1 is in an open state, one of the housing parts is rotated to one side of the other housing part, and the gyro emission device 2, the toy gyro 3 and the gyro disc 4 are exposed, so that a player can use the gyro emission device 2 to emit the toy gyro 3 onto the gyro disc 4. When the device housing 1 is in the closed state, one of the housing parts is rotated to be stacked on the other housing part. The gyro emitter 2, the toy gyro 3 and the gyro disc 4 are located in the device housing 1 and are stored and protected.

Alternatively, the two housing parts can also be connected in a sliding manner, the two housing parts being engaged by means of a sliding rail. When the device housing 1 needs to be unfolded, one of the housing parts is slid and pulled away from the other housing part, so that the two housing parts are finally spliced into a whole, or the two housing parts are separated into two independent housings, or the two housing parts are butted into a whole after the two housing parts are separated.

Optionally, the device housing 1 is square when in a storage state, so that the device housing is convenient to place.

In one embodiment, as shown in fig. 1, 3 and 4 to 5, the device housing 1 includes a first housing 11 and a second housing 12, and the first housing 11 and the second housing 12 are hinged to enable the device housing 1 to be opened and closed. The first housing 11 and the second housing 12 are hinged by a rotation shaft or a hinge so that the first housing 11 and the second housing 12 can rotate with each other. When the first housing 11 and the second housing 12 are away from each other, the device housing 1 is opened. When the first housing 11 and the second housing 12 are close to each other, the device housing 1 is closed. Thus, the operation of the player is facilitated.

In one embodiment, as shown in fig. 4-5, top launcher 2 is disposed on first housing 11 and top disk 4 is disposed on second housing 12. The gyro emitter 2 and the gyro disc 4 are respectively arranged on different shells, so that the layout space is larger, and the installation is convenient. And the gyro disc 4 is independently arranged on the second shell 12, so that the area of the gyro disc 4 is increased, and the moving range of the toy gyro 3 is enlarged.

Optionally, a blocking wall is provided on the second housing 12, which surrounds the top plate 4 to prevent the top from falling off the top plate 4.

In one implementation, as shown in fig. 4, 6 and 15, the device housing 1 is provided with a docking member 14, and when the docking members 14 on the two device housings 1 are docked, the gyro discs 4 on the two second housings 12 are spliced into an integral fighter disc.

Specifically, the battle top device 10 may battle with other battle top devices 10, where the device housing 1 is connected with a docking piece 14, and the docking piece 14 may be disposed on the first housing 11 or the second housing 12. When two fighting gyro devices 10 are in play, two docking pieces 14 are connected. At this time, the gyro discs 4 on the two second shells 12 are spliced to form a whole, so as to form a fight disc with larger area. Both players respectively launch the toy gyroscope 3 to the fight disc for fight.

Optionally, the abutting piece 14 is disposed at the edge of the second housing 12, where the abutting piece 14 includes a plurality of protruding abutting portions, and an abutting groove is formed between two adjacent abutting portions. When two butt-joint pieces 14 are in butt-joint, the butt-joint part of one butt-joint piece 14 is positioned in the butt-joint groove of the other butt-joint piece 14.

Optionally, the second housing 12 includes a removable spacer that is removed to reveal the docking piece 14 and the top plate 4 when the two device housings 1 need to be docked. In one embodiment, as shown in fig. 4, the device housing 1 further includes a connection housing 13, where the connection housing 13 is provided with a shutter door 8 capable of opening and closing, and the shutter door 8 is rotatably connected to the connection housing 13 and located between the top launcher 2 and the top disk 4. When the toy top 3 is launched by the top launcher 2, the baffle door 8 is opened. When the toy top 3 is positioned on the top plate 4, the baffle door 8 is closed.

Specifically, when the apparatus housing 1 is unfolded, the connection housing 13 is located between the first housing 11 and the second housing 12, the flapper door 8 that opens unidirectionally is provided on the connection housing 13, and the flapper door 8 is rotatably connected to the connection housing 13. When the toy top 3 is launched, the toy top 3 can push the baffle door 8 open, the baffle door 8 is in an open state, and the toy top 3 enters the top disc 4. And after the toy top 3 enters the top plate 4, the baffle door 8 is in a closed state, and the toy top 3 cannot push the baffle door 8 open to enter the first shell 11.

The invention is further described in the following in two specific examples.

Embodiment one:

referring to fig. 4 to 9 and fig. 12 to 15, a first embodiment of the present invention is shown, in which a combat gyro device 10 is disclosed, which includes a device case 1, a gyro emission device 2, a toy gyro 3, a gyro disc 4, an emission control mechanism 5, and a gyro disc control mechanism 7.

The device housing 1 includes a first housing 11, a second housing 12, and a connection housing 13. The connection housing 13 is hinged between the first housing 11 and the second housing 12 so that the device housing 1 can be opened and closed. The device housing 1 is provided with a locking device comprising a first locking member connected to the first housing 11 and a second locking member connected to the second housing 12. When the device housing 1 is closed, the first housing 11 is superimposed on the second housing 12, and the first locking member is connected to the second locking member, so that the device housing 1 is locked. The locked device housing 1 is box-shaped.

The gyro emission device 2 and the emission control mechanism 5 are mounted on the first housing 11, and the gyro disk 4 is mounted on the second housing 12. When the device housing 1 is unfolded, the gyro emission device 2, the emission control mechanism 5 and the gyro disk 4 are exposed. When the device housing 1 is closed, the gyro disk launching device 4, the launching control drum 6 and the gyro disk 4 are positioned in the device housing 1.

The gyro emission device 2 includes an emission base 21, an acceleration member 22, and an emission member 23. The transmitting base 21 is connected to the device housing 1, and the toy top 3 can be placed on the transmitting base 21. The launching seat 21 comprises a first seat body and a second seat body, the first seat body and the second seat body are connected to form a seat body cavity, and at least part of the launching element 23 and at least part of the accelerating element 22 are installed in the seat body cavity.

The launching member 23 includes a launching button 231, a driving block 232, and a pushing rod 233 for pushing the toy top 3. The push rod 233 is slidably coupled to the device housing 1, and the transmission block 232 is coupled to the push rod 233 and is positioned below the firing button 231. The launching button 231 is slidably connected with the device housing 1, and when the launching button 231 is pressed, the launching button 231 presses down the transmission block 232, the transmission block 232 drives the push rod 233 to slide, and the push rod 233 pushes the toy top 3.

The accelerator member 22 is a pull-cord accelerator that includes a pull-cord, a spool, and a drive gear member. The wire spool is rotatably connected to the transmitting seat 21, one end of the pull rope is connected to the wire spool and is partially wound on the wire spool, and the other end of the pull rope is connected with a pull ring. After a player holds the pull ring to pull the pull rope, the pull rope can drive the wire spool to rotate. The drive gear member is comprised of at least one gear wheel which is meshed between the spool and the top. The driving gear piece is driven to rotate after rotating towards the wire spool, and the driving gear piece enables the toy top 3 to rotate.

The emission control mechanism 5 is mounted on the first housing 11, and the emission base 21 is rotatably connected to the first housing 11. The firing control mechanism 5 includes a first operating member 51 and a first linkage member 52, the first operating member 51 including a mount 511 and an operating lever 512 connected to the mount 511. The mount 511 is rotatably connected to the apparatus housing 1 and can be rotated left and right.

The first linkage 52 is composed of a first slide bar 521, a second slide bar 522, and a connecting gear 523. The first slide bar 521 and the second slide bar 522 are disposed at a distance, and the connecting gear 523 is engaged between the first slide bar 521 and the second slide bar 522.

The mounting base 511 is connected with an assembly rod 513 extending toward the first slide rod 521, the first slide rod 521 is provided with a through hole 5211, and the assembly rod 513 extends into the through hole 5211 and is in clearance fit with the through hole 5211. The fitting lever 513 pushes the first slide bar 521 to slide as the fitting lever 513 swings left and right with the mounting base 511. When the first slide bar 521 slides, the connecting gear 523 drives the second slide bar 522 to slide, and then the second slide bar 522 drives the transmitting seat 21 to rotate.

The gyro disc control mechanism 7 includes a third operation piece 71, a third linkage piece 72, and a connection piece 73. The third operating member 71 includes an operating button, the third linkage member 72 includes a lifting pushing member, and the connecting member 73 includes a connecting cord. The gyro disc 4 is movably connected to the second housing 12, and the gyro disc 4 is movable in such a manner that a part of the gyro disc 4 is tilted up. The operation button is connected to the first shell 11 in a sliding way, and the connecting rope is connected between the operation button and the lifting pushing piece. The lifting pushing piece can lift, when the operating button is operated, the operating button enables the lifting pushing piece to lift through the connecting rope, and the lifting pushing piece pushes the gyro disc 4 upwards, so that the gyro disc 4 is tilted. At this time, the gyro on the gyro disk 4 moves toward the one end that is not tilted under the influence of gravity. The lifting pushing piece consists of a first supporting rod 721, a second supporting rod 722, a swinging connecting rod 723, a sliding connecting rod 724 and a pushing block 725. Wherein the swing link 723 and the slide link 724 are crossed and rotatably connected by a first shaft. The bottom end of the swing link 723 is rotatably connected to the second housing 12 through a second rotation shaft, and the top end of the swing link 723 is rotatably connected to the first support rod 721 through a third rotation shaft. The bottom end of the sliding link 724 is slidably connected to the second housing 12, and the top end of the sliding link 724 is rotatably connected to the second support bar 722 through a fourth rotation shaft. The top end of the first support rod 721 and the top end of the second support rod 722 are rotatably connected with the pushing block 725 through a fifth rotating shaft. The linkage is connected to the bottom end of the slide link 724. When the connecting rope drives the bottom end of the sliding link 724 to slide in a direction approaching the swinging link 723, the first support bar 721, the second support bar 722, the swinging link 723 and the sliding link 724 swing upward, pushing the pushing block 725 to move upward.

The battle top device 10 can be used for battle play, wherein the abutting pieces 14 are arranged at the edge of the second shell 12, the abutting pieces 14 comprise a plurality of protruding abutting portions, and abutting grooves are formed between two adjacent abutting portions. When two opposing gyroscopic devices 10 are played against, two docking pieces 14 are connected, with the docking portion of one docking piece 14 being positioned within the docking slot of the other docking piece 14. At this time, the gyro discs 4 on the two second shells 12 are spliced to form a whole, so as to form a fight disc with larger area. Both players respectively launch the toy gyroscope 3 to the fight disc for fight.

Embodiment two:

as shown in fig. 1 to 3 and fig. 10 to 11, a fighting gyro device 10 according to a second embodiment of the present invention includes a device case 1, a gyro emission device 2, a toy gyro 3, a gyro disc 4, and a gyro control mechanism 6.

The device housing 1 includes a first housing 11 and a second housing 12, the first housing 11 and the second housing 12 being hinged. The gyro disk 4, the gyro emission device 2, and the gyro control mechanism 6 are provided on both the first housing 11 and the second housing 12. After the device shell 1 is unfolded, the two gyro discs 4 are adjacently spliced into a whole. The specific structure of the gyro emission device 2 is referred to the description related to the first embodiment, and will not be repeated here.

The gyro control mechanism 6 includes a second operation member 61, a transmission member 62 and a second linkage member 63, the second operation member 61 being a universal rocker, the transmission member 62 being composed of a single or a plurality of gears, one end of the transmission member 62 being engaged with the second operation member 61, the other end being engaged with the second linkage member 63. The second linkage 63 is provided with a linkage portion 631, the toy top 3 is provided with a first magnetic attraction member 31, and the linkage portion 631 is provided with a second magnetic attraction member 6311. The interlocking portion 631 is an interlocking plate that extends below the gyro disk 4. The second operating member 61 moves to drive the transmission member 62 to rotate, and the transmission member 62 drives the second linkage member 63 to move, so that the toy top 3 on the top plate 4 is driven to move.

In summary, the invention discloses a fighting gyro device 10, which comprises a device housing 1, a gyro launching device 2, a toy gyro 3, a gyro disc 4 and a control device. The gyro emission device 2 and the gyro disk 4 are mounted on the device housing 1, and the gyro emission device 2 is capable of emitting the toy gyro 3 onto the gyro disk 4. The control device is linked with the toy top 3 and can control the moving direction of the toy top 3. The fight top device 10 changes the prior mode that a player can only watch the toy top 3 to fight by rotating, and can control the movement direction of the toy top 3 through the control device, so that the player participates in fight, the interactivity between the player and the toy is improved, and the play fun is increased. The gyro disc 4 provides a place for the toy gyro 3 to fight, and is convenient to play.

The above technical schemes can be combined according to the need to achieve the best technical effect.

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

Claims (13)

1. An fight top device (10) is characterized by comprising a device shell (1), a top launching device (2), a toy top (3), a top disc (4) and a control device;

the top launching device (2) and the top disc (4) are mounted on the device shell (1), and the top launching device (2) can launch the toy top (3) onto the top disc (4);

the control device is linked with the toy top (3) and can control the moving direction of the toy top (3);

the gyro emission device (2) comprises an emission seat (21), an acceleration piece (22) and an emission piece (23);

the launching seat (21) is arranged on the device shell (1) and is arranged adjacent to the gyro disc (4), and the toy gyro (3) can be placed on the launching seat (21);

the accelerating piece (22) is connected with the device shell (1) and can drive the toy top (3) on the transmitting seat (21) to rotate;

The emitting piece (23) is connected with the device shell (1) and can emit the toy top (3) on the emitting seat (21) to the top disc (4);

the control device comprises a launch control mechanism (5), wherein the launch control mechanism (5) comprises a first operating piece (51) and a first linkage piece (52);

the first operating member (51) is movably connected to the device housing (1), the transmitting seat (21) is movably connected to the device housing (1), and the first linkage member (52) is movably connected between the first operating member (51) and the transmitting seat (21);

the first operation piece (51) drives the first linkage piece (52) to control the emission seat (21) to move so as to control the emission position and direction of the toy top (3);

the first linkage (52) comprises a first slide bar (521), a second slide bar (522) and a connecting gear (523);

the first slide bar (521) is in sliding connection with the device housing (1), the second slide bar (522) is in sliding connection with the device housing (1), and the connecting gear (523) is meshed between the first slide bar (521) and the second slide bar (522);

the first operating member (51) is connected with the first slide bar (521), and the transmitting seat (21) is connected with the second slide bar (522).

2. The combat gyros device (10) according to claim 1, further comprising a gyros control mechanism (6), the gyros control mechanism (6) comprising a second operating member (61), a transmission member (62) and a second linkage member (63);

the second operating piece (61) is movably connected with the device shell (1), the second linkage piece (63) is movably connected with the device shell (1), and the transmission piece (62) is movably connected between the second operating piece (61) and the second linkage piece (63);

the second linkage member (63) comprises a linkage part (631) extending into the top plate (4), and the linkage part (631) is linked with the toy top (3) to control the toy top (3) to move on the top plate (4).

3. The fighting gyro device (10) according to claim 2, wherein the toy top (3) is provided with a first magnetic attraction piece (31), and the linkage part (631) is provided with a second magnetic attraction piece (6311);

the linkage part (631) is positioned below the gyro disc (4), and the first magnetic attraction piece (31) and the second magnetic attraction piece (6311) can be mutually attracted to drive the toy gyro (3) to move.

4. The fighting gyroscope device (10) according to claim 2, characterized in that the second linkage (63) is rotatably or slidingly connected to the device housing (1), the second linkage (63) being provided with connecting teeth (632);

The second operating piece (61) is connected with an operating rod gear (611), and the transmission piece (62) is a transmission gear piece;

the transmission gear member is engaged between the lever gear (611) and the connection teeth (632).

5. The combat gyro device (10) according to claim 1, characterized in that the control device comprises a gyro disc control mechanism (7), the gyro disc control mechanism (7) comprising a third operating member (71), a third linkage member (72) and a connecting member (73);

the third operating piece (71) is arranged on one side of the top launching device (2), the third linkage piece (72) is linked with the top disk (4), one end of the connecting piece (73) is connected with the third operating piece (71), and the other end of the connecting piece is connected with the third linkage piece (72);

and the third operating piece (71) is operated to drive the third linkage piece (72) to control the gyro disc (4) to move.

6. The battle top device (10) according to claim 5, wherein the third operating member (71) comprises an operating button, the connecting member (73) comprises a connecting string, and the third linkage member (72) comprises a lifting pushing member;

the connecting rope is connected between the operating button and the lifting pushing piece;

When the operation button is pressed, the connection rope pulls the lifting pushing piece to push the gyro disc (4) upwards, so that the gyro disc (4) is inclined.

7. The battle top device (10) according to claim 6, wherein said third operating member (71) comprises at least two of said operating buttons, said connecting member (73) comprises at least two of said connecting strings, and said third linkage member (72) comprises at least two lifting pushing members;

each connecting rope is connected between the corresponding operating button and the corresponding lifting pushing piece;

each lifting pushing piece pushes different parts of the gyro disc (4).

8. The fighting gyro device (10) according to claim 1, characterized in that the device housing (1) can be opened and closed, the gyro launching device (2) being capable of launching the toy gyro (3) onto the gyro disc (4) when the device housing (1) is in an open state;

when the device housing (1) is in a closed state, the top launcher (2), the top disk (4) and the toy top (3) are housed inside the device housing (1).

9. The battle top device (10) according to claim 8, wherein the device housing (1) comprises a first housing (11) and a second housing (12);

The first housing (11) and the second housing (12) are hinged to enable the device housing (1) to be opened and closed.

10. The fighting gyroscopic device (10) according to claim 9, in which said gyroscopic emitter device (2) is arranged on said first housing (11) and said gyroscopic disc (4) is arranged on said second housing (12).

11. The fighting gyroscope device (10) according to claim 10, wherein the device housing (1) is provided with a docking member (14), and the spinning top (4) of the two second housings (12) are assembled into an integral fighting disk when the docking members (14) of the two device housings (1) are docked.

12. The fighting gyrometer (10) according to claim 9, characterized in that the gyrometer launching device (2) and the gyrometer disk (4) are provided on both the first housing (11) and the second housing (12);

when the device housing (1) is in the open state, the gyro disc (4) on the first housing (11) is in butt joint with the gyro disc (4) on the second housing (12).

13. The battle top device (10) according to claim 9, wherein said device housing (1) further comprises a connection housing (13), said connection housing (13) being hinged between said first housing (11) and said second housing (12);

The connection shell (13) is provided with a baffle door (8) which can be opened and closed, and the baffle door (8) is rotationally connected with the connection shell (13) and is positioned between the top launching device (2) and the top disc (4);

when the top launching device (2) launches the toy top (3), the baffle door (8) is opened;

when the toy top (3) is positioned on the top plate (4), the baffle door (8) is closed.

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