CN216169899U - Gyro emitter - Google Patents

Abstract

The application discloses a gyro launcher, which comprises a plate-shaped shell capable of being placed on a supporting surface for operation; the plate-shaped shell is provided with a launching seat, a rotary driving piece and a launching piece, the rotary driving piece is installed on the launching seat and used for driving a gyroscope on the launching seat to rotate, and the launching piece is installed on the launching seat and used for driving the gyroscope to launch; the plate-shaped shell is also provided with an operating mechanism for controlling the launching state of the gyroscope, and the operating mechanism is connected with the launching seat. The gyroscope launching state can be conveniently controlled by a player.

Description

Gyro emitter

Technical Field

The application relates to the technical field of toys, in particular to a gyroscope emitter.

Background

The existing gyro products are basically provided with a gyro emitter, and the gyro emitter is used for emitting the gyro so as to enable the gyro to rotate at a high speed. The existing gyro emitters have various shapes, such as handle shapes, gun shapes, vehicle shapes and block shapes, but no matter which shape is designed, the gyro emitters are basically operated by being held by hands, one hand holds the emitters, the other hand drives the gyro to rotate, and finally the gyro is emitted. The design of present top transmitter for player's operation is relatively more restricted, also makes top transmitter's function also can't obtain the extension, and the object for appreciation nature is relatively poor, is difficult to pull open the difference with current product, also is difficult to obtain more player's favor.

Therefore, it is desirable to design a gyro transmitter that facilitates a player to control the launching state of a gyro.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome prior art's not enough, provides a top transmitter, can make things convenient for the player to control top transmission state.

The technical scheme of the application provides a gyro launcher, which comprises a plate-shaped shell capable of being placed on a supporting surface for operation;

the plate-shaped shell is provided with a launching seat, a rotary driving piece and a launching piece, the rotary driving piece is installed on the launching seat and used for driving a gyroscope on the launching seat to rotate, and the launching piece is installed on the launching seat and used for driving the gyroscope to launch;

the plate-shaped shell is also provided with an operating mechanism for controlling the launching state of the gyroscope, and the operating mechanism is connected with the launching seat.

Preferably, the plate-shaped housing includes a base and an operation platen provided on the base in a protruding manner in a direction perpendicular to the support surface.

Preferably, a first opening is formed in one side, facing the launching direction of the top, of the plate-shaped shell, at least part of the launching seat extends out of the first opening, and the launching seat can move in the first opening.

Preferably, the rotary drive comprises a manipulation member protruding outside the plate-like housing and a gear assembly provided on the launch pad and located between the base and the operating deck;

the control part is connected with the gear assembly and drives the gear assembly to rotate, and the gear assembly is connected with the gyroscope and drives the gyroscope to rotate.

Preferably, the launching member comprises a launching control member, a sliding block and a top clamping member, the launching control member extends out of the plate-shaped shell, and the sliding block is installed between the base and the operating platen;

the sliding block is connected with the launching seat in a sliding mode and can slide along the launching direction of the gyroscope, and the gyroscope clamping piece is rotatably connected with the launching seat;

when the spinning top is not launched, the spinning top clamping piece clamps the spinning top so that the spinning top is kept in linkage with the rotary driving piece;

when the gyroscope is launched, the launching control piece is triggered, the launching control piece pushes the sliding block, the sliding block pushes the gyroscope to be launched towards the launching direction along the launching seat, the gyroscope pushes the gyroscope clamping piece open, and the gyroscope clamping piece is opened in a rotating mode relative to the sliding block.

Preferably, the operating mechanism comprises an operating part and a linkage part, the operating part extends out of the plate-shaped shell, the linkage part is movably arranged in the plate-shaped shell and is connected with the launching seat, the operating part is linked with the linkage part, and the linkage part acts to drive the launching seat to adjust the launching angle or position of the gyroscope.

Preferably, the linkage piece drives the launching seat to swing left and right in the horizontal direction or move up and down in the vertical direction.

Preferably, the launching seat is rotatably connected with the plate-shaped shell through a rotating shaft, and the linkage part is connected with the launching seat and can drive the launching seat to swing around the rotating shaft.

Preferably, the bottom of the plate-shaped housing is provided with a friction member capable of increasing friction with the supporting surface.

Preferably, the plate-shaped shell is provided with a connecting structure which can be connected with a gyro disk at one side of the gyro jet.

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

this application can be placed and operate on the holding surface, and the player need not handheld transmitter and operates the transmission for the player can be when launching the top through the transmitting state of operating device adjustment top, makes the transmitting position more accurate and controllable, and then improves the object for appreciation nature and the interest of top toy.

Drawings

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

FIG. 1 is a schematic diagram of the structure of an emitter according to one embodiment of the present invention;

FIG. 2 is a schematic view of the configuration of the launcher, rotary drive member, and launching member of the present invention in one embodiment thereof;

FIG. 3 is a schematic view of the structure of FIG. 2 with the launching pad removed;

FIG. 4 is an exploded view of FIG. 2;

FIG. 5 is an exploded view of the gear assembly of the present invention in one embodiment thereof;

FIG. 6 is a schematic view of the drive gear of the present invention in one embodiment thereof;

FIG. 7 is a schematic diagram of a top in one embodiment of the present invention;

FIG. 8 is a schematic structural view of an operating mechanism of the present invention in one embodiment thereof;

FIG. 9 is a schematic view of the present invention after the actuator has been moved out of the seat pan in one embodiment;

FIG. 10 is a schematic diagram of the configuration of a launching pad of the present invention in one embodiment thereof;

FIG. 11 is a schematic front view of a plate-like housing according to one embodiment of the present invention;

FIG. 12 is a back-facing schematic view of a plate-like housing of the present invention in one embodiment thereof;

fig. 13 is a schematic structural diagram of the transmitter connected with the gyro disk in one embodiment of the present invention.

Reference symbol comparison table:

plate-shaped housing 1:

the launching seat 10: the holder 101, the emitting port 1011, the holder mounting base 102, the sliding groove 103, the projection 104, the arc portion 1041, the guide portion 1042 and the fan-shaped groove 105;

a control member 11;

the gear assembly 12: the driving gear 121, the wire spool 1210, the driving wheel shaft 1211, the clockwork spring 1212, the clutch gear 122, the clutch wheel shaft 1221, the driven gear 123, the driven wheel shaft 1231, the gear mounting seat 124 and the arc-shaped hole 1241;

the emission control part 13: a second push block 131, a guide post 132;

sliding block 14: the first push block 141, the guide slope 1411, the pushing part 142 and the mounting groove 143;

a base 15;

an operating platen 16; a first opening 161, a second opening 162, a third opening 163, and a fourth opening 164;

a top holder 17;

gyro disk 2:

a top 3:

transmission gear 31, rotary shaft 32, and support block 33

Connecting plate 4:

a one-way flange 41;

the operating mechanism 5:

the operating member 51: the operating rod 511, a rotating end 5111, a ball seat 512, a ball head 513, a turnover port 5131 and a connecting rod 514;

the link 52: the seat plate 521, the first sliding groove 5211, the second sliding groove 5212, the first rack 522, the slot 5221, the second rack 523, the connecting section 5231, the groove 5232, and the linkage gear 524.

Detailed Description

Embodiments of the present application are further described below with reference to the accompanying drawings.

It is easily understood that according to the technical solutions of the present application, those skilled in the art can substitute various structures and implementations without changing the spirit of the present application. Therefore, the following detailed description and the accompanying drawings are merely illustrative of the technical solutions of the present application, and should not be construed as limiting or restricting the technical solutions of the present application in their entirety.

The terms of orientation of up, down, left, right, front, back, top, bottom, and the like referred to or may be referred to in this specification are defined relative to the configuration shown in the drawings, and are relative terms, and thus may be changed correspondingly according to the position and the use state of the device. Therefore, 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.

Throughout the description of the present application, it is to be noted that, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "coupled" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; the two components can be directly connected or indirectly connected through an intermediate medium, and the two components can be communicated with each other. The foregoing is to be understood as belonging to the specific meanings in the present application as appropriate to the person of ordinary skill in the art.

In some embodiments of the present invention, a gyroscopic transmitter is disclosed, as shown in fig. 1, comprising a plate-like casing 1 that can be placed on a support surface for operation;

as shown in fig. 2, a launching seat 10, a rotary driving member and a launching piece are arranged on the plate-shaped shell 1, the rotary driving member is mounted on the launching seat 10 and is used for driving the spinning top 3 on the launching seat 10 to rotate, and the launching piece is mounted on the launching seat 10 and is used for driving the spinning top 3 to launch;

the plate-shaped shell 1 is also provided with an operating mechanism 5 for controlling the launching state of the spinning top 3, and the operating mechanism 5 is connected with the launching seat 10.

Wherein, in this application, the rotary driving piece can drive top 3 rotatory, and when the player driven the rotational speed of top 3 to required requirement through the rotary driving piece, the player outwards launched top 3 through operating the transmitter.

Wherein, the top transmitter can be placed and operate on the holding surface, can make the player can operate the top transmitter by both hands promptly. Meanwhile, the player can control the state of the top 3 in the launching process of the top 3 or before launching through the operating mechanism 5, namely, the launching angle, the transverse launching position or the longitudinal launching height of the top 3 can be adjusted and controlled, and the playability and the interestingness of the top toy are further improved.

In some embodiments of the present invention, as shown in fig. 1, the plate-like housing 1 includes a base 15 and an operation platen 16, and the operation platen 16 is provided on the base 15 convexly in a direction perpendicular to the supporting surface. The contour of the operating deck 16 can be adjusted according to the actual component layout or aesthetics.

In some embodiments of the present invention, a side of the plate-shaped casing 1 facing the launching direction of the top 3 is provided with a first opening 161, at least a portion of the launching pad 10 protrudes from the first opening 161, and the launching pad 10 is movable in the first opening 161.

Specifically, as shown in fig. 11, a first opening 161 is provided on one side of the operation platen 16 facing the launching direction of the spinning top 3, the first opening 161 is a long hole or an arc-shaped hole arranged in the horizontal direction, or a long hole or an arc-shaped hole arranged in the vertical direction, the operating mechanism 5 is connected to the launching base 10 and the position of the launching base 10 can be changed by the operating mechanism 5, so that the launching state of the spinning top 3 can be changed. The limit position of the movement of the launching seat 10 can be limited through the first opening 161, so that the launching state of the spinning top 3 can be controlled within a set range.

In some embodiments of the utility model, as shown in fig. 1 and 2, the rotary drive comprises an operating member 11 and a gear assembly 12, the operating member 11 protruding outside the plate-like casing 1, the gear assembly 12 being arranged on the launch pad 10 and between the base 15 and the operating deck 16;

the control component 11 is connected with the gear component 12 and drives the gear component 12 to rotate, and the gear component 12 is connected with the top 3 and drives the top 3 to rotate.

Further, as shown in fig. 5, the gear assembly 12 includes a driving gear 121, a clutch gear 122, and a driven gear 123;

the control element 11 is connected with the driving gear 121 and drives the driving gear 121 to rotate, the driving gear 121 is meshed with the clutch gear 122, and the driven gear 123 is connected with the gyroscope 3;

when the driving gear 121 rotates in one direction, the clutch gear 122 is connected between the driving gear 121 and the driven gear 123;

when the driving gear 121 rotates in the other direction, the clutch gear 122 is disengaged from the driven gear 123.

Specifically, as shown in fig. 2, the operating member 11 is a pull ring, the gear assembly 12 is mounted on the gear mounting seat 124, the gear mounting seat 124 is disposed on the launching seat 10, the driving gear 121 is rotatably disposed on the gear mounting seat 124 through the driving axle 1211, the clutch gear 122 is rotatably disposed on the gear mounting seat 124 through the clutch axle 1221, and the driven gear 123 is rotatably disposed on the gear mounting seat 124 through the driven axle 1231.

As shown in fig. 6, a wire spool 1210 is disposed on the driving gear 121, the wire spool 1210 is coaxial with the driving gear 121, the pull ring is connected to the pull rope, one end of the pull rope is connected to the pull ring, the other end of the pull rope is wound on the wire spool 1210, and the driving gear 121 can be driven to rotate by pulling the pull ring. The driving gear 121 is engaged with the clutch gear 122, as shown in fig. 5, an arc-shaped hole 1241 is provided on the gear mounting seat 124, the clutch wheel shaft 1221 is disposed in the arc-shaped hole 1241 and can move along the arc-shaped hole 1241, when the driving gear 121 rotates forward, the driving gear 121 drives the clutch gear 122 to move along the arc-shaped hole 1241, and the clutch gear 122 moves to be engaged with the driven gear 123 to drive the driven gear 123 to rotate, and the driven gear 123 is engaged with the transmission gear 31 of the top 3 to drive the top 3 to rotate. When the driving gear 121 rotates reversely, the driving gear 121 drives the clutch gear 122 to move along the arc-shaped hole 1241 to disengage from the driven gear 123.

Further, as shown in fig. 12, a second opening 162 is provided in the plate-like casing 1, the second opening 162 is provided on the other side of the operation panel 16 opposite to the first opening 161, and the pull cord extends from the second opening 162 to the outside of the plate-like casing 1 and is connected to the pull ring, so that the player can rotate and accelerate the spinning top 3 by pulling the pull ring. The second opening 162 is disposed on the other side of the operation platform 16 opposite to the first opening 161, so that the player can conveniently operate the pull ring, and enough space is provided for the player to pull out the pull rope, so that the spinning top 3 can be driven to rotate and accelerate, and the ergonomic design is met. In some embodiments of the present invention, as shown in fig. 6, a clockwork spring 1212 for driving the driving gear 121 to rotate in a resetting manner is installed in the driving gear 121, and when the driving gear 121 is driven by the operating member 11 to rotate in one direction, the clockwork spring 1212 deforms and stores energy;

when the force of the operating member 11 is removed, the spring 1212 releases the energy and drives the driving gear 121 to rotate in the other direction.

Specifically, one end of the clockwork spring 1212 is connected to the driving wheel shaft 1211, the other end is connected to the wire spool 1210, and the wire spool 1210 is coaxially and fixedly connected to the driving gear 121. The player is through the pulling pull ring, and the pull ring passes through the stay cord and drives wire reel 1210 corotation, and wire reel 1210 drives driving gear 121 corotation, and driving gear 121 drive clutch gear 122 is rotatory and drive clutch gear 122 simultaneously and slide to meshing with driven gear 123 along arc hole 1241, and clutch gear 122 drives driven gear 123 rotatory to it is rotatory to drive gear 31 through driven gear 123, thereby makes top 3 rotatory. After the player loosens the pull ring, the driving gear 121 reverses and retrieves the stay cord under clockwork spring 1212's effect, and the driving gear 121 drives clutch gear 122 at the in-process of reversal and slides to separating with driven gear 123 along arc hole 1241 to avoid clutch gear 122 reversal influence top 3's rotation, the player can realize applying the effort of accelerating many times to top 3 through pulling the pull ring many times, thereby makes top 3's rotational speed promote.

Alternatively, gear assembly 12 may further include a driving gear 121 and a driven gear 123, where driving gear 121 and driven gear 123 are directly engaged, and driving gear 121 is rotated by pulling the pull ring, and driving gear 121 rotates driven gear 123 and thus rotates top 3.

Optionally, the operating element may also be an operating lever capable of rotating by 360 degrees, the driving gear 121 is connected to a rotating disc, and the operating lever is connected to the rotating disc and can drive the driving gear 121 to rotate through rotating the operating lever. A lever extends from the operating deck 16 to facilitate the player's rocking of the lever.

Alternatively, the operating member may be a rack, and the rack is engaged with the pinion gear 121, and the pinion gear 121 is rotated by pulling the rack. The rack can be inserted into or pulled out of the second opening 162 so that a player can have a sufficient space to operate when pulling the rack.

In some embodiments of the utility model, as shown in fig. 2-4, the launching element comprises a launching control element 13, a sliding block 14 and a top clamp 17, the launching control element 13 protruding outside the plate-shaped casing 1, the sliding block 14 being mounted between the base 15 and the operating platen 16;

the sliding block 14 is connected with the launching seat 10 in a sliding way and can slide along the launching direction of the gyroscope 3, and the gyroscope clamping piece 17 is connected with the launching seat 10 in a rotating way;

when the spinning top is not launched, the spinning top clamping piece clamps the spinning top 3 to enable the spinning top 3 to keep linkage with the rotary driving piece;

when the spinning machine is used for spinning, the launching control piece 13 is triggered, the launching control piece 13 pushes the sliding block 14, the sliding block 14 pushes the spinning top 3 to launch along the launching seat 10 towards the launching direction, the spinning top 3 pushes the spinning top clamping piece 17 away, and the spinning top clamping piece 17 is opened in a rotating mode relative to the sliding block 14.

In some embodiments of the present invention, the launching base 10 is further provided with a clamping piece mounting base 102, the two gyro clamping pieces 17 are respectively arranged on the clamping piece mounting base 102, one end of each gyro clamping piece 17 is a hinged end, the other end is a clamping end, the hinged end is hinged with the clamping piece mounting base 102, and the clamping end can limit the movement of the gyro 3 along the launching direction;

the sliding block 14 is connected with the launching seat 10 in a sliding manner and can slide along the launching direction of the top 3;

when the gyroscope is not launched, the clamping ends of the two gyroscope clamping pieces 17 are relatively folded and the gyroscope 3 is limited to move along the launching direction;

during emission, the emission control piece 13 is linked with the sliding block 14, when the emission control piece 13 acts, the linked sliding block 14 slides towards the emission direction of the gyroscope 3 and pushes the gyroscope 3 to emit towards the emission direction, and the gyroscope 3 pushes the clamping ends of the two gyroscope clamping pieces 17 to relatively rotate away from the gyroscope 3 so that the gyroscope 3 can be emitted.

Specifically, as shown in fig. 2 and 4, be equipped with the bearing seat 101 that is used for placing top 3 on emission seat 10, bearing seat 101 is equipped with transmission mouth 1011, and top 3 can be placed on bearing seat 101 and rotated by the rotation driving piece drive, and after top 3 rotated to suitable rotational speed, the player launched top 3 through the transmission piece.

As shown in fig. 2-4, there are two gyro clamping pieces 17, one end of the gyro clamping piece 17 is a rotating end, the other end is a clamping end, the rotating end of the gyro clamping piece 17 is rotatably connected with the clamping piece mounting seat 102 through a rotating shaft, so that the clamping end can rotate around the rotating shaft, an opening is formed between the clamping ends of the two gyro clamping pieces 17, wherein a torsion spring is arranged on the rotating shaft, and the clamping ends of the two gyro clamping pieces 17 are relatively close to each other and are folded under the elastic force action of the torsion spring by the two gyro clamping pieces 17, so that the gyro 3 cannot be separated from the transmitting port 1011. When needing to launch top 3, sliding block 14 exerts the effort of transmission direction to top 3, and top 3 outwards pushes away two holding ends each other for the opening is expanded, thereby makes top 3 deviate from the opening and outwards launches from transmission mouth 1011.

Optionally, a limiting mechanism for limiting the gyro 3 to be separated from the emitting port 1011 can be further provided, the limiting mechanism is an elastic block arranged on two inner walls opposite to the emitting port 1011, an opening is formed between the two elastic blocks, during emission, the gyro 3 expands the opening, and the elastic block deforms, so that the gyro 3 can be outwards ejected from the emitting port 1011.

In some embodiments of the present invention, the plate-shaped casing 1 is provided with a third opening 163 for passing the emission control member 13, and one end of the emission control member 13 protrudes from the third opening 163 to the outside of the plate-shaped casing 1. Specifically, as shown in fig. 11 and 12, a third opening 163 is provided on the upper end surface of the operation platen 16, and a player presses or taps the launch control member 13 outside the plate-shaped housing 1, so that the launch control member 13 can slide downward in the axial direction of the third opening 163 and move the slide block 14.

Further, as shown in fig. 4, a sliding groove 103 is provided on the launching base 10, the sliding groove 103 is arranged along the launching direction of the top 3, the sliding block 14 is slidably arranged in the sliding groove 103, when the top 3 needs to be launched, a player applies an acting force to the launching control piece 13, the launching control piece 13 is linked with the sliding block 14 to enable the sliding block 14 to slide towards the launching direction of the top 3, and the pushing part 142 at the end of the sliding block 14 pushes the top 3 outwards and completes launching.

In some embodiments of the present invention, as shown in fig. 3, a first push block 141 is disposed on the sliding block 14, and a second push block 131 is disposed on the emission control element 13, as shown in fig. 4, a guide inclined plane 1411 is disposed on the first push block 141, and the second push block 131 is in contact with the guide inclined plane 1411;

when the emission control member 13 is moved toward the sliding block 14, the second pushing block 131 pushes the sliding block 14 to slide toward the emission direction of the top 3 through the guiding inclined surface 1411.

Specifically, in the initial state, that is, when the top 3 is not launched, the second push block 131 is in contact with the high end of the guide slope 1411, and when launching, the player beats/presses the launch control 13 with force, so that the launch control 13 moves downward in the longitudinal direction, the second push block 131 slides from the high end of the guide slope 1411 to the low end, and pushes the sliding member to slide in the launch direction through the guide slope 1411, so that the pushing portion 142 on the sliding block 14 can push the top 3 outward to launch, and the player can control the beating/pressing force as required, thereby controlling the launch distance of the top 3.

Furthermore, an elastic member is arranged between the launching seat 10 and the sliding block 14, the elastic member is a spring, as shown in fig. 3, a mounting groove 143 is arranged at the bottom of the sliding block 14, the spring is mounted in the mounting groove 143, one end of the spring is connected with the launching seat 10, the other end of the spring is connected with the sliding block 14, when the launching control member 13 is not applied with an external force, the sliding block 14 is reset under the elastic force of the spring, and simultaneously, the launching control member 13 is driven to move upwards under the action of the guide inclined surface 1411 until the second pushing block 131 contacts with the high-position end of the guide inclined surface 1411, so that the sliding block 14 does not need to be reset manually after the spinning top 3 is launched each time.

Further, in order to improve the stability of the movement of the launching control member 13, as shown in fig. 3, a guide post 132 is provided on the launching control member 13, a guide hole is provided in the guide post 132 along the longitudinal direction, and a guide rod is provided on the launching seat 10, and is inserted into the guide hole and can slide relatively to the guide post 132 in the longitudinal direction.

Alternatively, launching control piece 13 is arranged along the sliding direction of sliding block 14, one end of launching control piece 13 extends out of the side surface of launching seat 10, the other end is connected with sliding block 14 through a linkage mechanism, when spinning top 3 is launched, a player beats or presses launching control piece 13 from the side surface, and then sliding block 14 is driven to slide and launching top 3.

In some embodiments of the present invention, as shown in fig. 7, the spinning top 3 includes a rotating shaft 32 and a transmission gear 31 disposed on the rotating shaft 32, and the rotating driving member drives the spinning top 3 to rotate by driving the transmission gear 31 to rotate.

Further, as shown in fig. 7, the spinning top 3 further includes a bearing block 33 sleeved on the rotation shaft 32, the bearing block 33 can rotate relative to the rotation shaft 32, the bottom of the bearing block 33 can be supported on the bearing seat 101, when the rotation driving member drives the transmission gear 31 to rotate, the bearing block 33 does not rotate, the rotation shaft 32 rotates, and when the spinning top is launched, the pushing portion 142 at the end of the sliding block 14 pushes the bearing block 33, so that the bearing block 33 breaks free from the limiting mechanism and is launched from the launching port 1011.

Specifically, bearing block 33 is polygonized structure, be provided with the bearing between bearing block 33 and the rotation axis 32, when not launching, thereby bearing block 33 is pressed from both sides by two top holders 17 and is pressed from both sides tightly so that bearing block 33 can not rotate, promotion portion 142 is the wedge-shaped block with bearing block 33 surface profile matching, during the transmission, promote bearing block 33 through promotion portion 142 and move to the transmission direction, avoid promotion portion 142 directly to contact with rotation axis 32, thereby the energy loss of top 3 during can reducing the transmission, and the stability of top 3 during can improving the transmission.

In some embodiments of the present invention, as shown in fig. 1 and 8, the operating mechanism 5 includes an operating member 51 and a linkage member 52, the operating member 51 extends outside the plate-shaped housing 1, the linkage member 52 is connected to the launching base 10, the operating member 51 is linked with the linkage member 52, and the linkage member 52 operates to drive the launching base 10 to adjust the launching angle or position of the spinning top 3. The player can drive the linkage piece 52 to move by operating the operation piece 51 outside the plate-shaped shell 1, and the linkage piece 52 drives the launching seat 10 to move, so that the launching angle or position of the spinning top 3 can be adjusted, and the playability of the spinning top toy is improved.

In some embodiments of the present invention, the link 52 is movably disposed in the plate-shaped casing 1, and the link 52 drives the launching seat 10 to swing left and right in the horizontal direction or swing up and down in the vertical direction.

The player drives the linkage piece 52 to move through the operation piece 51 extending out of the plate-shaped shell 1, so that the linkage piece 52 can drive the launching base 10 to move, and the launching angle or position of the top 3 can be changed.

In some embodiments of the present invention, as shown in fig. 8, the linkage 52 comprises a linear motion mechanism horizontally arranged in the plate-shaped housing 1, the linear motion mechanism connecting the operating member 51 and the launching seat 10, respectively;

the operating member 51 drives the linear motion mechanism to perform linear motion, and the linear motion mechanism drives the launching seat 10 to act.

Further, as shown in fig. 8 and 9, the linear motion mechanism includes a seat plate 521, a first rack 522, a second rack 523, and a linkage gear 524, the linkage gear 524 is engaged with the first rack 522 and the second rack 523, a first sliding groove 5211 and a second sliding groove 5212 are disposed on the seat plate 521, the first rack 522 is slidably disposed in the first sliding groove 5211, the second rack 523 is slidably disposed in the second sliding groove 5212, the linkage gear 524 is disposed between the first rack 522 and the second rack 523 and rotatably connected to the seat plate 521 through a linkage axle, the operation member 51 is connected to the first rack 522 and can drive the first rack 522 to slide, the launching seat 10 is connected to the second rack 523, and the second rack 523 slides to drive the launching seat 10 to move. The player controls the first rack 522 through the operating member 51, so that the first rack 522 can slide along the first sliding groove 5211 in the transverse direction, the first rack 522 drives the second rack 523 to slide in the second sliding groove 5212 in the transverse direction under the action of the linkage gear 524, and the second rack 523 can drive the launching seat 10 to swing, so that the launching state of the top 3 can be changed.

In some embodiments of the present invention, the launching base 10 is rotatably connected to the plate-shaped casing 1 through a rotating shaft, and the linkage 52 is connected to the launching base 10 and can drive the launching base 10 to swing around the rotating shaft.

Specifically, as shown in fig. 8, a connecting section 5231 is disposed on the second rack 523, a groove 5232 is disposed at an end of the connecting section 5231, as shown in fig. 10, the launching base 10 is disposed with a protrusion 104, the protrusion 104 is snapped into the groove 5232, wherein the protrusion 104 includes an arc portion 1041 attached to an inner wall of the groove 5232 and a guiding portion 1042 having a width gradually decreasing toward a direction away from the second rack 523, the arc portion 1041 is connected to the guiding portion 1042, and a distance between the guiding portion 1042 and the inner wall of the groove 5232 gradually increases toward the direction away from the second rack 523. When the second rack 523 slides, the connecting section 5231 is driven to slide, and the inner wall of the groove 5232 applies acting force in the sliding direction to the bump 104, so that the bump 104 is driven to rotate relatively in the groove 5232, and the launching base 10 is driven to move, and therefore the link 52 can drive the launching base 10 to swing around the rotating shaft, and the launching angle of the top 3 can be changed.

Further, as shown in fig. 10, a sector groove 105 is formed at the bottom of the launching pad 10, and the protrusion 104 is disposed in the sector groove 105, so that the sector groove 105 can limit the limit swinging angle of the launching pad 10, and when the launching pad 10 swings to the limit position, the outer wall of the connecting section 5231 contacts with the inner wall of the sector groove 105 to limit the launching pad 10 to swing continuously.

Optionally, the connection section 5231 is fixedly connected to the launching seat 10, the launching seat 10 is slidably connected to the plate-shaped housing 1, the launching seat 10 can move transversely in the plate-shaped housing 1, the linear driving mechanism is transversely disposed in the plate-shaped housing 1, the connection section 5231 is driven to move when the second rack 523 slides, and then the connection section 5231 drives the launching seat 10 to move transversely, so that the transverse launching position of the top 3 is changed.

Optionally, the operating element 51 may also be a button switch, the linkage element 52 is a lifting mechanism, the lifting mechanism is connected to the launching base 10 and can drive the launching base 10 to move up and down along the longitudinal direction, and the lifting mechanism is triggered by the button switch to move, so that the launching base 10 can move up and down along the longitudinal direction, and the change of the longitudinal launching height of the top 3 is realized.

Further, as shown in fig. 9, the operating member 51 includes an operating rod 511, a ball seat 512, a ball head 513 and a link 514, the operating rod 511 is connected to the ball seat 512, the ball seat 512 is mounted on the base 15, the ball head 513 is rotatably disposed in the ball seat 512, the operating rod 511 is connected to the ball head 513 and can drive the ball head 513 to move, the link 514 is connected to the ball head 513, the operating rod 511 extends out of the operating platform 16, a slot 5221 is formed in the first rack 522, and the link 514 is inserted into the slot 5221. The player operates the ball 513 through the link 514, and then drives the link 514 to swing in the sliding direction of the first rack 522, and the link 514 drives the first rack 522 to slide along the first sliding groove 5211.

As shown in fig. 11 and 12, a fourth hole 164 is provided on plate-shaped casing 1, fourth hole 164 is provided on the upper end surface of operation table 16, ball seat 512 is provided in fourth hole 164, one end of operation rod 511 is inserted into fourth hole 164 and connected to ball head 513, and a player can operate operation rod 511 on operation table 16 to control the launching state of top 3.

As shown in fig. 9, a turning opening 5131 perpendicular to the sliding direction of the first rack 522 is provided on the ball head 513, and an end of the operating rod 511 is rotatably connected to the ball head 513 via a rotating end 5111, so that the operating rod 511 can rotate in the sliding direction perpendicular to the first rack 522, and when the operating rod 511 is not needed, a player can turn the operating rod 511 in the direction of the turning opening 5131, so that the operating rod 511 can be parallel to the base 15 for storage.

Optionally, the operating rod 511 can be swung for 360 degrees, the ball 513 is connected to a rotating disc, the rotating disc is driven to rotate by the ball 513 when the operating rod 511 is swung, the rotating disc is provided with meshing teeth and meshed with the first rack 522, and a player can drive the first rack 522 to slide by swinging the operating rod 511.

Optionally, the middle of the operating rod 511 is hinged to the plate-shaped housing 1, the bottom of the operating rod 511 is hinged to a sliding block, the sliding block is fixedly connected to the first rack 522, and a player can swing the operating rod 511 to drive the sliding block to slide, so as to drive the first rack 522 to slide.

In some embodiments of the present invention, the bottom of the base 15 is provided with a friction member capable of increasing the friction force with the supporting surface.

Wherein, the friction piece can be the combination of one or more in soft cushion, sucking disc or the anti-skidding line, can avoid the player transmitter to take place the skew when operating the transmitter through setting up the friction piece, and the influence is used and is experienced.

In some embodiments of the utility model, the plate-shaped casing 1 is provided with a connection structure to which the top disk 2 can be connected, on the side from which the top 3 emerges.

This transmitter can the exclusive use, directly outwards launches top 3 to the outside play promptly, also can be connected with top dish 2 through connection structure, and the player launches top 3 to in top dish 2. As shown in fig. 13, the connection structure is a connection plate 4, one end of the connection plate 4 is hinged to the plate-shaped shell 1, the other end of the connection plate is hinged to the gyro disk 2, when the gyroscope disk 2 is used, a player turns the gyro disk 2 to be in the same plane with the plate-shaped shell 1, and the player can launch the gyro 3 into the gyro disk 2 to play. When need not to use the toy, the player can overturn top dish 2 to the top of platelike casing 1 to reduce the occupation space of toy, convenient storage.

Furthermore, a unidirectional rib 41 which can be opened in a unidirectional manner is arranged on the connecting plate, and the spinning top 3 can be launched from the launching seat 10 into the spinning top disk 2 through the unidirectional rib 41.

As shown in fig. 13, two unidirectional flanges 41 are provided, the two unidirectional flanges 41 are arranged oppositely, one end of the unidirectional flange 41 is a rotation end, the rotation end is rotatably connected with the connecting plate 4 through a rotating shaft, the other end is a free end, the free end can rotate around the rotating shaft, a torsion spring is arranged on the rotating shaft, a limiting bump for blocking the unidirectional baffle from rotating towards the plate-shaped shell 1 is arranged on the connecting plate 4, the unidirectional flange 41 rotates under the elastic action of the torsion spring to be in contact with the limiting bump, and at the moment, the two unidirectional flanges 41 are parallel to each other and can block the gyroscope 3 from passing through. During the transmission, top 3 promotes one-way flange 41 and rotates to top dish 2's direction to make top 3 can launch to top dish 2, accomplish the transmission back when top 3, one-way flange 41 resets under the effect of torsional spring, thereby prevents top 3 from breaking away from top dish 2 through one-way flange 41 from fighting the in-process from top dish 2.

The specific use process of the device is as follows:

the player is through a lot of pulling pull rings, and the pull ring passes through the stay cord and drives driving gear 121 rotatory to driving gear 121 drives driven gear 123 and is rotatory with higher speed many times under clutch gear 122's effect, and then drives top 3 rotatory, when top 3 is rotatory to the required rotational speed of player, the player drives sliding block 14 through transmission control 13 and slides to the transmission direction through patting hard or pressing transmission control 13, sliding block 14 launches top 3. Meanwhile, a player can simultaneously operate the operating rod 511, the operating rod 511 drives the connecting rod 514 to swing, so that the first rack 522 slides along the first sliding groove 5211, the first rack 522 drives the second rack 523 to slide through the linkage gear 524, the connecting section 5231 of the second rack 523 drives the transmitting seat 10 to swing around the rotating shaft, the transmitting state of the top 3 is changed, the player can transmit the top 3 and change the transmitting state of the top 3 at the same time, and the playability of the top toy is improved.

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

Claims (10)

1. A gyroscopic transmitter, characterized in that it comprises a plate-like casing (1) that can be placed on a support surface for operation;

the plate-shaped shell (1) is provided with a launching seat (10), a rotary driving piece and a launching piece, the rotary driving piece is installed on the launching seat (10) and used for driving a gyroscope (3) on the launching seat (10) to rotate, and the launching piece is installed on the launching seat (10) and used for driving the gyroscope (3) to launch;

the plate-shaped shell (1) is further provided with an operating mechanism (5) used for controlling the launching state of the spinning top (3), and the operating mechanism (5) is connected with the launching seat (10).

2. The gyroscopic transmitter according to claim 1, characterised in that the plate-shaped casing (1) comprises a base (15) and an operating platen (16), the operating platen (16) being arranged convexly on the base (15) in a direction perpendicular to the support surface.

3. The gyroscopic launcher according to claim 1, wherein the plate-like housing (1) is provided with a first opening (161) on a side facing a launching direction of the spinning top (3), at least a portion of the launch pad (10) protruding from the first opening (161), the launch pad (10) being movable within the first opening (161).

4. The gyroscopic launcher according to claim 2, characterized in that the rotary drive comprises a manipulating member (11) and a gear assembly (12), the manipulating member (11) protruding outside the plate-like casing (1), the gear assembly (12) being arranged on the launch pad (10) and between the base (15) and the operating deck (16);

the control piece (11) is connected with the gear assembly (12) and drives the gear assembly (12) to rotate, and the gear assembly (12) is connected with the spinning top (3) and drives the spinning top (3) to rotate.

5. -gyroscopic emitter according to claim 2, characterised in that it comprises an emitter control (13), a sliding block (14) and a gyroscopic clamp (17), the emitter control (13) projecting outside the plate-shaped casing (1), the sliding block (14) being mounted between the base (15) and the operating platen (16);

the sliding block (14) is connected with the launching seat (10) in a sliding mode and can slide along the launching direction of the spinning top (3), and the spinning top clamping piece (17) is connected with the launching seat (10) in a rotating mode;

when the spinning top is not launched, the spinning top clamping piece (17) clamps the spinning top (3) to enable the spinning top (3) to keep linkage with the rotary driving piece;

when the gyroscope is launched, the launching control piece (13) is triggered, the sliding block (14) is pushed by the launching control piece (13), the gyroscope (3) is pushed by the sliding block (14) to be launched towards the launching direction along the launching seat (10), the gyroscope (3) pushes the gyroscope clamping piece (17) open, and the gyroscope clamping piece (17) is opened in a rotating mode relative to the sliding block (14).

6. The top launcher according to claim 1, wherein the operating mechanism (5) comprises an operating member (51) and a linkage member (52), the operating member (51) extends out of the plate-shaped housing (1), the linkage member (52) is movably disposed in the plate-shaped housing (1), the linkage member (52) is connected with the launching base (10), the operating member (51) is linked with the linkage member (52), and the linkage member (52) operates to drive the launching base (10) to adjust the launching angle or position of the top (3).

7. The gyroscopic launcher according to claim 6, wherein the linkage member (52) drives the launch pad (10) to swing left and right in a horizontal direction or move up and down in a vertical direction.

8. The gyroscopic launcher according to claim 7, wherein the launcher (10) is rotatably connected to the plate-shaped housing (1) by a rotating shaft, and the linkage member (52) is connected to the launcher (10) and is capable of driving the launcher (10) to swing around the rotating shaft.

9. The gyroscopic emitter according to claim 1, characterised in that the bottom of the plate-shaped casing (1) is provided with friction elements capable of increasing the friction with the support surface.

10. The gyroscopic emitter according to claim 1, characterised in that the plate-shaped casing (1) is provided, on the side from which the gyroscope (3) emerges, with a connection structure to which a gyroscope disk can be connected.

Images