CN211158574U - Toy car and toy suit that can accelerate - Google Patents

Abstract

The utility model discloses a toy car and toy suit that can accelerate, the toy car can be at top and/or bottom from transmitter input power, and the toy car includes: a body having active wheels; the energy storage part is arranged on the vehicle body and is connected with the driving wheel; a driving link provided at the top and/or bottom of the vehicle body, the driving link being for engagement with the transmitter to input power from the transmitter; the transmission piece is connected with the driving connecting piece and the energy storage piece to drive the energy storage piece to store energy. The utility model discloses a cooperation of drive connecting piece and transmitter, the toy car can obtain higher speed and travel, and labour saving and simple operation. Because the energy storage element is arranged between the transmission element and the driving wheel, the toy car has lasting driving speed and longer driving distance.

Description

Toy car and toy suit that can accelerate

Technical Field

The utility model relates to a toy technical field especially relates to a toy car and toy suit that can accelerate.

Background

The existing flywheel inertia vehicle is mainly driven by the friction and rotation of wheels on the ground, the operation is laborious, an operator cannot well hold a vehicle body stably, so that the built-in flywheel of the vehicle cannot be driven at a high speed, the running speed of the toy vehicle is low, the running distance is short, and the playing interest is greatly reduced.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, the utility model provides a toy car that can accelerate aims at solving the toy car operation hard, and the toy car speed of traveling is slower, the problem that the distance is short.

The utility model also aims to provide a toy suit to use the toy car that can accelerate.

According to the utility model discloses an accelerated toy car, toy car can be at top and/or bottom from the transmitter input power, toy car includes: a vehicle body having a drive wheel; the energy storage part is arranged on the vehicle body and is connected with the driving wheel; a drive connection provided at the top and/or bottom of the vehicle body, the drive connection for engaging with the transmitter to input power from the transmitter; the transmission piece is connected with the driving connecting piece and the energy storage piece to drive the energy storage piece to store energy.

According to the utility model discloses toy car that can accelerate, through drive connecting piece and transmitter cooperation, the toy car can obtain higher speed and travel, and labour saving and simple operation. Because the energy storage element is arranged between the transmission element and the driving wheel, the toy car has lasting driving speed and longer driving distance.

In some embodiments, the drive connection includes an input disc rotatably disposed on the vehicle body; alternatively, the drive link includes an input bar linearly movably provided on the vehicle body.

Optionally, when the drive connection member comprises the input disc, the input disc has an input aperture for insertion into the input aperture by an output end of the transmitter, or the input disc has an input post for being sleeved over the input post by the output end, or the input disc has a plurality of input card posts for insertion between a plurality of the input card posts by the output end.

Optionally, when the input hole is formed in the input disc, the input hole is a non-circular hole, or a clamping groove and/or a clamping protrusion are/is formed in the inner wall of the input hole; when the input column is arranged on the input disc, the input column is a non-cylindrical column, or a clamping groove and/or a clamping protrusion are/is arranged on the outer wall of the input column.

In some embodiments, the drive connection further comprises: and a locker coupled to the vehicle body and configured to be coupled to and decoupled from the transmitter.

Optionally, the retaining member comprises a magnetic member.

In some embodiments, the locking member includes a locking barrel housing the input disc or the input bar, and the locking barrel is provided with at least one of a limiting groove and a limiting block for cooperating with the transmitter.

In some embodiments, the energy storage member is a flywheel or a coil spring.

According to the utility model discloses a toy suit, include: the emitter is provided with an emitting body, an emitting head arranged on the emitting body and a driving component used for driving the emitting head to rotate; toy vehicle, the toy vehicle being an acceleratable toy vehicle according to the preamble, the drive connection being engageable and disengageable with the launch head.

Optionally, the transmitter includes an unlocking assembly, and the unlocking assembly includes: the ejector pin penetrates through the emission head; the swinging piece is arranged in the launching body, and one end of the swinging piece is stopped against the ejector pin so as to drive the ejector pin to move vertically; the trigger piece is movably arranged on the emission body and drives the swinging piece to swing when being triggered.

According to the utility model discloses toy suit combines together or the cooperation that breaks away from mutually through transmitter and toy car for the toy car can launch and obtain higher wheel rotational speed, and the processing ease is simple, is favorable to the child to use and improves child's interest.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is an exploded perspective view of a portion of a toy vehicle according to an embodiment of the present invention;

FIG. 2 is a schematic perspective view of a toy vehicle according to an embodiment of the present invention;

FIG. 3 is a schematic perspective view of a toy playset according to an embodiment of the present invention;

fig. 4 is a schematic perspective view of a part of the transmitter according to the embodiment of the present invention.

Reference numerals:

a toy car 200,

A vehicle body 210, a driving wheel 211,

An energy storage element 220,

The driving link 230, the input plate 231, the input hole 2311, the catching groove 2311a, the locking member 233, the locking cylinder 2331, the stopper groove 2331a,

A transmission member 240, a freewheel tooth 241, a drive tooth 242, a reduction tooth 243,

A toy suit 1000,

A transmitter 100,

A launching body 110, a launching head 120, a driving component 140,

Unlocking component 130, thimble 131, swinging piece 132, trigger piece 133.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "circumferential", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, features defined as "first" and "second" may explicitly or implicitly include one or more of the features for distinguishing between descriptive features, non-sequential, non-trivial and non-trivial. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

An acceleratable toy vehicle 200 according to an embodiment of the present invention will be described with reference to the accompanying drawings.

As shown in fig. 1, in accordance with an embodiment of the present invention, an acceleratable toy vehicle 200, the toy vehicle 200 may input power from a transmitter 100 at the top and/or the bottom, the toy vehicle 200 includes: the vehicle body 210, the energy storage element 220, the drive connecting element 230 and the transmission element 240.

The vehicle body 210 has active wheels 211; the energy storage element 220 is arranged on the vehicle body 210 and connected with the driving wheel 211; a driving link 230 is provided at the top and/or bottom of the vehicle body 210, the driving link 230 for engaging with the transmitter 100 to input power from the transmitter 100; the transmission member 240 connects the driving connection member 230 and the energy storage member 220 to drive the energy storage member 220 for energy storage.

It should be noted that, when the driving connection member 230 is disposed on the top of the vehicle body 210, the transmitter 100 is combined with the top of the toy vehicle 200, the driving connection member 230 is connected with the output power of the transmitter 100 and transmits the power to the transmission member 240, the transmission member 240 can drive the energy storage member 220 to store energy, and finally the energy storage member 220 releases the stored kinetic energy to the driving wheels 211 to rotate the driving wheels 211, so as to drive the vehicle body 210 to run quickly. When the driving link 230 is provided at the bottom of the body 210, the launcher 100 is coupled to the bottom of the toy vehicle 200, and the body 210 can be driven to run fast as well.

The utility model discloses because toy car 200 combines transmitter 100 to use, need not to lean on inertial force drive toy car walking through handheld contact ground or operation panel, therefore toy car 200's the steady operation is simple, labour saving and time saving, the speed of acquisition is also faster, is favorable to the child to operate and use. And the driving wheel 211 is connected with the energy storage member 220, and the energy storage member 220 is driven and simultaneously can output power outwards and keep the power lasting, so that the driving wheel 211 obtains a lasting speed, the running distance of the toy car is longer, and the play interest of children is greatly increased.

According to the utility model discloses toy car 200 that can accelerate, through the cooperation of drive connection spare 230 and transmitter, toy car 200 can obtain higher speed and travel, and labour saving and simple operation. Because the energy storage member 220 is disposed between the transmission member 240 and the driving wheel 211, the toy vehicle 200 can travel at a longer speed and over a longer distance.

In some embodiments, as shown in fig. 1 and 2, the driving connection member 230 includes an input disc 231 rotatably disposed on the vehicle body 210, and the transmitter 100 is coupled to the input disc 231 to drive the transmission member 240 and the energy storage member 220 to rotate the driving wheel 211 by driving the input disc 231 to rotate. Alternatively, the driving connection member 230 includes an input bar (not shown) linearly movably disposed on the vehicle body 210, and the emitter 100 is coupled with the input bar and drives the driving transmission member 240 and the energy storage member 220 to rotate by driving the input bar to linearly move, for example, the input bar may be a rack, the driving transmission member 240 is a gear set, and the rack drives the energy storage member 220 to move by cooperating with the gear set.

Alternatively, as shown in fig. 1, when the driving link 230 includes the input disc 231, the input disc 231 has an input hole 2311 to be inserted into the input hole 2311 from the output end of the transmitter 100, i.e., the input disc 231 and the output end of the transmitter 100 are inserted into the input hole 2311 through the input hole 2311 to realize torque transmission therebetween in a plug-in fit manner. Alternatively, the input disc 231 may have an input post (not shown) that is sleeved over the output end of the input post, and torque transfer may be achieved by way of the input post, the input disc 231 and the output end of the transmitter 100. Alternatively, the input disc 231 may have a plurality of input pegs (not shown) for insertion by the output ends between the plurality of input pegs, such that the input disc 231 and the output end of the transmitter 100 are torque-transmitting via a snap-fit engagement by the input pegs. In this manner, the input pad 231 is easily combined with the output terminal of the transmitter 100.

Optionally, when the input disc 231 is provided with the input hole 2311, the input hole 2311 is a non-circular hole (not shown in the figure), and after the non-circular hole 2311 is matched with the output end of the transmitter 100, the insertion matching between the input hole and the transmitter can be realized, the circumferential rotation of the input disc 231 relative to the output end can be limited, the combination between the input hole and the transmitter can be ensured to be stable and reliable, and the structure of the mode is simple. Alternatively, the input hole 2311 may be provided with a locking groove 2311a (see fig. 1 in particular) and/or a locking protrusion (not shown in the drawings) on an inner wall thereof, for example, the input hole 2311 may be coupled to the output end of the transmitter 100 through the locking groove 2311a, or the input hole 2311 may be coupled to the output end of the transmitter 100 through the locking groove 2311a and the locking protrusion, in such a manner as to limit circumferential rotation of the input disc 231 with respect to the output end, thereby ensuring reliable coupling.

When the input disc 231 is provided with the input column, the input column is a non-cylindrical column, and after the non-cylindrical input column is matched with the output end of the emitter 100, the non-cylindrical input column and the non-cylindrical input column can be sleeved, the circumferential rotation of the input disc 231 relative to the output end can be limited, and the combination of the input column and the non-cylindrical input column is stable and reliable. Or the outer wall of the input column is provided with a clamping groove and/or a clamping protrusion, and after the input column is combined with the output end of the emitter 100, the input column can be limited to rotate circumferentially relative to the output end, so that reliable combination is ensured.

Alternatively, the input hole 2311 other than the circular hole may be an inner hexagonal hole or an elliptical hole, so that stable torque transmission can be ensured after being combined with the output end of the transmitter 100. Of course, the shape of the input hole 2311 is not limited thereto and thus will not be described herein.

In some embodiments, as shown in fig. 1 and 2, the drive connection 230 further comprises: and a locker 233 coupled to the vehicle body 210 for coupling and decoupling with the transmitter 100. That is, the driving connection member 230 can be fixedly coupled to the transmitter 100 through the locking member 233 in operation, so that the process of transmitting power to the input tray 231 is stable and reliable. When the input disc 231 has achieved rotational speed, the toy vehicle 200 may be launched by disengaging the launcher 100 from the toy vehicle 200 via the retaining member 233.

Optionally, the locking member 233 includes a magnetic member (not shown), which is simple and low cost, and allows for quick coupling and decoupling of the driving connection member 230 to the transmitter 100 via magnetic attraction. For example, the input disc 231 and the output end of the transmitter 100 are provided with two magnets that attract each other, so that the rapid coupling or decoupling can be achieved. Of course, the magnet is a permanent magnet or an electromagnet, and will not be described herein.

In some embodiments, as shown in fig. 1, retaining member 233 includes a retaining cylinder 2331 that surrounds input plate 231 or the input bar, and toy vehicle 200 may be fitted over launcher 100 via retaining cylinder 2331 to provide good support and ensure reliable and stable operation of input plate 231 or the input bar. The locking cylinder 2331 is provided with at least one of a stopper groove 2331a and a stopper (not shown) for engaging with the transmitter 100, so as to limit circumferential rotation of the locking cylinder 2331 relative to the transmitter 100, thereby improving stability of the locking cylinder 2331 to be combined with the transmitter 100.

In some embodiments, the energy storage member 220 is a flywheel or a coil spring. As shown in fig. 1, the flywheel has a large mass and a large inertia effect, so that the flywheel can store kinetic energy through rotation of the flywheel. The coil spring can realize the conversion between kinetic energy and elastic potential energy, and also can play a good energy storage role.

In some embodiments, as shown in fig. 1, the transmission member 240 includes a flywheel gear 241, a driving gear 242, and a decelerating gear 243, the flywheel gear 241 is coaxially connected to the flywheel, the driving gear 242 is disposed on the axle of the driving wheel 211, and the decelerating gear 243 is engaged with both the flywheel gear 241 and the driving gear 242, so that the power of the flywheel is transmitted to the driving wheel 211 to drive the driving wheel 211 to rotate. Wherein the bottom of the input disc 231 may form a bevel gear and the input disc 231 is connected to the drive teeth 242 by means of a gear engagement.

As shown in fig. 3, a toy playset 1000 according to an embodiment of the present invention includes: launcher 100, toy vehicle 200.

As shown in fig. 4, the launcher 100 has a launching body 110, a launching head 120 provided on the launching body 110, and a driving assembly 140 for driving the launching head 120 to rotate; the toy vehicle 200 is an acceleratable toy vehicle 200 according to the foregoing, and the driving connection 230 may be coupled to and decoupled from the launching head 120. When the driving connection member 230 of the toy vehicle 200 is coupled to the driving head 120, the driving assembly drives the driving head 120 to rotate, so as to drive the driving connection member 230 to rotate, and finally the driving wheel 211 obtains a higher rotation speed. When the driving connection 230 is separated from the launcher 120, the toy vehicle 200 is detached from the launcher 100 and the toy vehicle 200 is launched.

According to the utility model discloses toy suit 1000 through the cooperation that transmitter 100 and toy car 200 combined together or break away from mutually for toy car 200 can launch and obtain higher wheel rotational speed, and the easy operation is simple, is favorable to the child to use and improves child's interest.

Optionally, as shown in fig. 4, the transmitter 100 includes an unlocking assembly 130, and the unlocking assembly 130 includes: thimble 131, swinging piece 132, trigger piece 133. The thimble 131 is arranged in the transmitting head 120 in a penetrating way; the swinging member 132 is disposed in the launching body 110, and one end of the swinging member 132 abuts against the thimble 131 to drive the thimble 131 to move vertically; the trigger 133 is movably disposed on the launching body 110, and the trigger 133 drives the swinging member 132 to swing when triggered. That is, the trigger 133 is triggered to move, and drives the swing member 132 to swing so as to make the thimble 131 move downwards, so that the thimble 131 pushes the driving connection member 230 to disengage from the launching head 120, thereby unlocking the launcher 100 and the toy vehicle 200.

Optionally, the driving connector 230 and the emitter 120 are correspondingly provided with magnetic attracting elements (not shown) that attract each other, so that the driving connector 230 and the magnetic attracting elements on the emitter 120 can be separated after the thimble 131 is pushed, and the structure is simple.

An embodiment of the present invention will be described below with reference to the accompanying drawings.

A toy playset 1000 includes a launcher 100, a toy vehicle 200.

As shown in fig. 4, the launcher 100 has a launching body 110, a launching head 120 disposed on the launching body 110, a driving assembly 140 for driving the launching head 120 to rotate, and an unlocking assembly 130.

As shown in fig. 4, the unlocking assembly 130 includes: thimble 131, swinging piece 132, trigger piece 133. The thimble 131 is arranged in the transmitting head 120 in a penetrating way; the swinging member 132 is disposed in the launching body 110, and one end of the swinging member 132 abuts against the thimble 131 to drive the thimble 131 to move vertically; the trigger 133 is movably disposed on the launching body 110, and the trigger 133 drives the swinging member 132 to swing when triggered.

The driving assembly 140 includes a rope pulley module (not shown), a rope pulling ring 141, a skipping gear (not shown), and an output gear (not shown), the rope pulling ring 141 is pulled outwards to draw out the rope outwards, the rope drives the rope pulley module to rotate clockwise, the rope pulley module drives the skipping gear to rotate counterclockwise, the skipping gear drives the output gear to rotate clockwise, and the transmitting head 120 rotates synchronously with the output gear. When the pull ring is pulled to the end or loosened, a clockwork spring in the rope pulley module can recover the rope to reset the pull ring, and the jump gear and the output gear are in a disengaged state at the moment. When the pull ring is pulled for a plurality of times, the output gear and the emitter head 120 can be rotated at high speed.

As shown in FIG. 1, the toy vehicle 200 is an acceleratable toy vehicle 200, the toy vehicle 200 comprising: the vehicle body 210, the energy storage element 220, the drive connecting element 230 and the transmission element 240. Wherein the energy storage element 220 is a flywheel.

As shown in fig. 1, the vehicle body 210 has active wheels 211; the energy storage element 220 is arranged on the vehicle body 210 and connected with the driving wheel 211; a drive connection 230 is provided at the top and/or bottom of the vehicle body 210, the drive connection 230 for engaging with the transmitter to input power therefrom; the transmission member 240 connects the driving connection member 230 and the energy storage member 220 to drive the energy storage member 220 for energy storage.

As shown in fig. 1, the driving link 230 includes an input plate 231 rotatably provided on the vehicle body 210, the input plate 231 having an input hole 2311 to be inserted into the input hole 2311 from the output end of the transmitter, a catching groove 2311a is provided on the inner wall of the input hole 2311, and the input hole 2311 is fitted on the transmitting head 120.

As shown in fig. 1, the drive connection 230 further includes: and a locker 233 coupled to the vehicle body 210 for coupling and decoupling with the transmitter. The locking member 233 includes a magnetic member, the magnetic member is disposed on the input tray 231, and another magnetic member is disposed on the emitter head 120 to attract the magnetic member on the input tray 231.

As shown in fig. 1, the locking member 233 further includes a locking cylinder 2331 surrounding the input plate 231, and the locking cylinder 2331 is provided with a stopper groove 2331a for fitting with the transmitter to fit on the transmitter.

As shown in fig. 1, the transmission member 240 is a gear set, the transmission member 240 is connected with the driving connection member 230 and the energy storage member 220 by means of gear engagement, and the energy storage member 220 is connected with the driving wheel 211 by means of gear engagement.

The specific method of use of the present invention is described below.

Step 1: the toy vehicle 200 is mounted on the launching head 120 of the launcher 100, and the pull handle is pulled out several times, so that the flywheel built in the toy vehicle 200 rotates at a high speed to store energy.

The rope can be drawn out by pulling the pull ring 141 outwards, the rope drives the rope wheel module to rotate clockwise, the rope wheel module drives the jumping gear to rotate anticlockwise, and the jumping gear drives the output gear to rotate clockwise. When the pull ring 141 of the pull rope is pulled to the end or loosened, a spring in the rope wheel module can recover the rope so that the pull ring is reset, and the jump gear and the output gear are in a disengaged state at the moment. When the pull ring is pulled for multiple times, the output gear can be rotated at high speed.

The launcher 100 and the toy vehicle 200 are fastened together, the locking cylinder 2331 is locked through the lock catch, the output gear is matched with the input disc 231 to drive the driving tooth 242 and the decelerating tooth 243, drive the flywheel tooth 241 and the flywheel to rotate at a high speed for energy storage, and after the energy storage is carried out with the flywheel by the high speed rotation, the flywheel tooth 241 drives the decelerating tooth 243 and the driving tooth 242 and simultaneously drives the driving wheel 211 to drive forwards, so that the vehicle can run quickly and durably.

The driving assembly 140 includes an output gear having an outer hexagonal cylinder (not shown), the input hole 2311 of the input disc 231 is an inner hexagonal hole, the outer hexagonal cylinder and the inner hexagonal hole are provided with magnetic attraction members for attracting each other, the launcher 100 and the toy vehicle 200 are fastened together, when the output gear of the launcher 100 rotates at a high speed, the input disc 231 is simultaneously driven, the input disc 231 accelerates the driving member 140 and the flywheel to rotate at a high speed and store energy, the flywheel gear 241 drives the decelerating gear 243, and finally the driving gear 242 and the driving wheel 211 rotate together, so that the toy vehicle can run fast and durably.

Step 2: the trigger piece 133 is pressed, the swinging piece 132 is pressed to rotate clockwise, the swinging piece 132 presses the ejector pin 131 to move downwards, the ejector pin 131 presses the toy car 200 to be separated, the toy car freely falls down and is launched, and the toy car 200 is launched on a fighting plate or a competitive track.

Step 3, moving the launcher 100 to make the magnetic attraction piece on the launcher 100 align with the toy vehicle 200, and sucking the toy vehicle 200 back into the launcher 120 to complete a round.

The toy set of the utility model comprises a transmitter 100 and a toy car 200. Wherein the launcher 100 controls the launching of the toy vehicle 200 with only one trigger 133. The launcher 100 may be accelerated again by using the launch head 120 to retrieve the launched gyroscope back into the launcher 100. The toy vehicle 200 drives the flywheel in the vehicle to rotate at high speed through the launcher 100 and stores energy to drive the vehicle. The utility model discloses a high-speed drive flywheel energy storage of stay cord formula transmitter makes toy car 200 walk fast, makes toy car 200 can cooperate stunt track and battle plate fight.

Other components of the toy playset 1000 according to embodiments of the present invention, such as the drive assembly 140 and the firing head 120, and the operation thereof, are known to those of ordinary skill in the art and will not be described in detail herein.

In the description herein, references to the description of the terms "embodiment," "example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. An acceleratable toy vehicle wherein power may be input from a transmitter at the top and/or bottom, the toy vehicle comprising:

a vehicle body having a drive wheel;

the energy storage part is arranged on the vehicle body and is connected with the driving wheel;

a drive connection provided at the top and/or bottom of the vehicle body, the drive connection for engaging with the transmitter to input power from the transmitter;

the transmission piece is connected with the driving connecting piece and the energy storage piece to drive the energy storage piece to store energy.

2. The toy vehicle of claim 1, wherein the drive linkage includes an input disc rotatably disposed on the vehicle body; alternatively, the drive link includes an input bar linearly movably provided on the vehicle body.

3. The toy vehicle of claim 2, wherein when the drive linkage includes the input disc, the input disc has an input aperture for insertion into the input aperture by an output end of the launcher, or the input disc has an input post for being sleeved over the input post by the output end, or the input disc has a plurality of input pegs for being inserted between the plurality of input pegs by the output end.

4. The toy car of claim 3, wherein when the input hole is provided on the input disc, the input hole is a non-circular hole, or a locking groove and/or a locking protrusion is provided on an inner wall of the input hole;

when the input column is arranged on the input disc, the input column is a non-cylindrical column, or a clamping groove and/or a clamping protrusion are/is arranged on the outer wall of the input column.

5. The acceleratable toy vehicle of claim 2 wherein said drive connection further comprises: and a locker coupled to the vehicle body and configured to be coupled to and decoupled from the transmitter.

6. The toy vehicle of claim 5, wherein the retaining member includes a magnetically attractive member.

7. The toy vehicle of claim 5, wherein the locking member includes a locking barrel housing the input disc or the input bar, the locking barrel being provided with at least one of a stopper groove and a stopper for engaging with the launcher.

8. An accelerated toy vehicle according to any of claims 1-7, characterized in that the energy storage element is a flywheel or a coil spring.

9. A toy playset, comprising:

the emitter is provided with an emitting body, an emitting head arranged on the emitting body and a driving component used for driving the emitting head to rotate;

toy vehicle according to any of claims 1-8, the drive connection being engageable and disengageable with the launch head.

10. The toy playset of claim 9, wherein the launcher includes an unlocking assembly, the unlocking assembly including:

the ejector pin penetrates through the emission head;

the swinging piece is arranged in the launching body, and one end of the swinging piece is stopped against the ejector pin so as to drive the ejector pin to move vertically;

the trigger piece is movably arranged on the emission body and drives the swinging piece to swing when being triggered.

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