CN214105808U - Toy car - Google Patents

Abstract

The application discloses a toy car, which comprises a car body, a mounting bracket, a trigger piece and a moving piece, wherein the mounting bracket is arranged on the car body in a turnover mode, the moving piece is rotatably arranged on the mounting bracket, and the moving piece and the mounting bracket can be separated; the toy car has a car mode and a top mode, and the moving part comprises a wheel form and a top form: when in a vehicle mode, the moving part is in a wheel shape, and supports the vehicle body and the mounting bracket; the trigger piece is used for controlling the installation support to overturn relative to the vehicle body, the installation support drives the moving piece to overturn together, and when the toy vehicle is switched from the vehicle mode to the gyro mode, the moving piece is switched to the gyro mode, and the moving piece can be launched and separated from the installation support. The utility model provides a toy car can switch between car mode and top mode, and during the car mode, the motion piece is the wheel form, and during the top mode, the motion piece can be launched for the top form, and the automobile body of toy car can keep the state of playing upright, can not lose the performance of playing of toy car.

Description

Toy car

Technical Field

The application relates to the technical field of toys, in particular to a toy car.

Background

Toy vehicles are widely enjoyed by children due to their great interest and playability, and their shapes and structures are also developed into various shapes. Some manufacturers develop flywheel motorcycles by arranging a detachable rotary flywheel as a front wheel of a toy motorcycle, and ejecting the front wheel out after driving the front wheel to rotate, so that the flywheel and the toy motorcycle are combined into a whole.

However, in the current flywheel toy car, after the front wheel is popped up, the peripheral surface of the front wheel is contacted with the operation table, and the front wheel can not play as a gyroscope in the same rolling mode as the front wheel, and does not have the function of fighting with the gyroscope; even if the flywheel is played as the gyroscope, when popping up the operation, the whole toy car needs to be put into a side-falling state, and the flywheel can be launched out and played as the gyroscope, but the toy car loses the playing form of the car, and the toy car can not be triggered in the process of autonomous walking and is switched into the gyroscope to be launched out.

SUMMERY OF THE UTILITY MODEL

The utility model provides a wheel has the toy car of the two kinds of methods of playing of toy car and fighting top concurrently, and realizes that top emission in-process automobile body still keeps the state that the toy car was played upright.

The technical scheme of the application provides a toy car, which comprises a car body, a mounting bracket, a trigger part and a moving part, wherein the mounting bracket is arranged on the car body in a turnover mode, the moving part is arranged on the mounting bracket in a rotating mode, and the moving part and the mounting bracket can be separated;

the toy vehicle has a vehicle mode and a top mode, the motion member includes a wheel configuration and a top configuration:

in the vehicle mode, the moving part is in a wheel shape, and supports the vehicle body and the mounting bracket;

the trigger piece is used for controlling the mounting bracket to overturn relative to the vehicle body, the mounting bracket drives the moving piece to overturn together, and when the toy vehicle is switched from the vehicle mode to the spinning top mode, the moving piece is switched to a spinning top shape and can be launched and separated from the mounting bracket.

Further, the trigger part comprises a bracket trigger component which is connected with the mounting bracket;

when the bracket trigger assembly is triggered, the mounting bracket rotates relative to the vehicle body, so that the toy vehicle is switched from the vehicle mode to the spinning top mode.

Further, an energy storage part is connected between the mounting bracket and the vehicle body;

the bracket trigger assembly locks the mounting bracket when in the vehicle mode, and the mounting bracket compresses the energy storage part for energy storage;

when the bracket trigger assembly is triggered, the mounting bracket is unlocked, and the energy storage piece releases energy to drive the mounting bracket to rotate relative to the vehicle body.

Further, the bracket trigger component is any one of a collision trigger, a magnetic induction trigger, a manual control trigger, a stroke trigger or an electric control trigger.

Further, the toy car also comprises a driving assembly, and the driving assembly is in linkage fit with the moving piece;

when the driving component is driven, the driving component drives the moving part to rotate.

Furthermore, the moving piece is provided with rotating teeth, the driving assembly comprises a driving device, a driving gear and a linkage gear set, the driving device is connected with the driving gear, and the linkage gear set is connected between the driving gear and the rotating teeth.

Further, the linkage gear set comprises a longitudinal gear, a connecting gear disc and a transverse gear, wherein the longitudinal gear is connected with the driving gear;

the driving gear, the longitudinal gear and the connecting gear disc are mounted on the vehicle body, and the transverse gear is mounted on the mounting bracket;

when the toy vehicle is in either of the vehicle mode and the top mode, the coupling gear plate is connected to the transverse gear.

Furthermore, the toy car also comprises a limiting assembly, the trigger piece comprises a transmitting assembly, the limiting assembly is telescopically arranged on the outer side of the wheel, and the transmitting assembly is in linkage fit with the limiting assembly;

in the vehicle mode, the limiting assembly extends out to limit the moving part on the mounting bracket;

and when the gyroscope is in the mode, the moving part is accelerated and then triggers the transmitting assembly, the transmitting assembly drives the limiting assembly to retract to remove the limitation on the moving part, and the moving part is transmitted out of the mounting bracket.

Furthermore, the launching assembly comprises a launching button, a push rod and a push plate, the launching button is connected with the push rod, the push rod is connected with the push plate, and the push plate is connected with the limiting assembly;

when the launching pressing piece is pressed, the launching pressing piece pushes the push rod, the push rod pushes the push plate, and the push plate pushes the limiting assembly to retract.

Furthermore, the launching button and the push rod are mounted on the vehicle body, and the push plate is mounted on the mounting bracket;

when the toy car is in the gyro mode, the push rod is connected with the push plate.

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

the mounting support for mounting the moving part in the toy car can be relatively overturned with the car body, so that the toy car can be switched between a car mode and a gyro mode, the moving part is in a wheel form when the car mode is adopted, the toy car plays as the car, the moving part is in a gyro form when the gyro mode is adopted, the toy car plays as a gyro emitter, the moving part can be emitted as a gyro, and the car body of the toy car is always in an upright playing state no matter which form the moving part is adopted, and the playing performance of the toy car cannot be lost; the toy car is directly switched to emit the moving part to form a top shape in the driving process.

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 first angular schematic view of a toy vehicle in one embodiment of the present application in a vehicle mode;

FIG. 2 is a second perspective view of an embodiment of the present application with a toy vehicle in a vehicle mode;

FIG. 3 is a schematic view of a first angle of a toy vehicle in an embodiment of the present application in a top mode;

FIG. 4 is a second perspective view of a toy vehicle according to an embodiment of the present application in a top mode;

FIG. 5 is a schematic illustration of a toy vehicle according to an embodiment of the present application as the moving element is launched off the body of the vehicle;

FIG. 6 is a schematic view of the interior structure of a toy vehicle according to an embodiment of the present application;

FIG. 7 is an exploded view of the interior structure of a toy vehicle according to one embodiment of the present application;

FIG. 8 is an exploded view of a cradle trigger assembly of a toy vehicle according to an embodiment of the present application;

FIG. 9 is a schematic illustration of a drive assembly of a toy vehicle according to an embodiment of the present application;

FIG. 10 is a schematic view of a curb assembly and a launcher assembly of a toy vehicle according to an embodiment of the present application;

figure 11 is an exploded view of the stop assembly and launch assembly of a toy vehicle according to one embodiment of the present application.

Reference symbol comparison table:

vehicle body 01: a rotating shaft 11 and a motorcycle handle 12;

mounting bracket 02: collar 21, locking groove 22;

the moving part 03: rotating teeth 31, an axle 32;

an energy storage member 05;

the driving assembly 06: the driving device 61, the driving gear 62, the linkage gear set 63, the longitudinal gear 631, the coupling gear disc 632 and the transverse gear 633;

the limiting component 07: a telescopic clamp 71, a second spring 72;

the trigger piece 09:

bracket trigger assembly 04: a rotary press piece 41, a telescopic locking piece 42, a locking convex column 421, a telescopic locking piece 42, a locking piece mounting seat 43 and a first spring 44;

the emission component 08: a firing button 81, a push rod 82, a push plate 83, a third spring 84, and a fourth spring 85.

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.

The toy car in the embodiment of the present application, as shown in fig. 1 to 5, includes a car body 01, a mounting bracket 02, a trigger 09, and a moving member 03, wherein the mounting bracket 02 is mounted on the car body 01 in a reversible manner, the moving member 03 is rotatably mounted on the mounting bracket 02, and the moving member 03 is separable from the mounting bracket 02;

the toy car has a car mode and a top mode, and the moving member 03 includes a wheel form and a top form:

as shown in fig. 1 and 2, when the toy vehicle is in the vehicle mode, the moving member 03 is in the form of a wheel, and the moving member 03 supports the vehicle body 01 and the mounting bracket 02;

the trigger 09 is used for controlling the mounting bracket 02 to turn over relative to the vehicle body 01, the mounting bracket 02 drives the moving part 03 to turn over together, when the toy vehicle is switched from the vehicle mode shown in fig. 1 and 2 to the gyro mode shown in fig. 3 and 4, the moving part 03 is switched to the gyro mode, the moving part 03 can be launched and separated from the mounting bracket 02, and the launched state of the moving part 03 is shown in fig. 5.

Specifically, the toy vehicle is switched between the vehicle mode and the gyro mode by the mounting bracket 02 being turned over relative to the vehicle body 01. In the vehicle mode, the moving member 03 is in the form of a wheel, that is, the axial direction of the moving member 03 is perpendicular to the vertical direction a of the vehicle body 01, and the outer peripheral surface of the moving member 03 contacts the console to support the vehicle body 01 and the mounting bracket 02, and the toy vehicle is played as a vehicle. In the gyro mode, the moving body 03 is in a gyro shape, the axial direction of the moving body 03 is parallel to the vertical direction a of the vehicle body 01, and the toy vehicle plays with the gyro launcher, so that the moving body 03 can be launched to the console as a gyro battle when the vehicle body 01 is in an upright shape.

For the turning over of the mounting bracket 02, it can be set as follows: when the vehicle mode is switched to the gyro mode, the mounting bracket 02 rotates 90 degrees in a first direction, and when the gyro mode is switched to the vehicle mode, the mounting bracket 02 rotates 90 degrees in a second direction opposite to the first direction; it may also be arranged that when the vehicle mode is switched to the gyro mode, the mounting bracket 02 rotates 90 ° in the first direction, and when the gyro mode is switched to the vehicle mode, the mounting bracket 02 continues to rotate 90 ° in the first direction.

For the trigger 09, it may be provided that: when the trigger 09 is triggered, the mounting bracket 02 is controlled to turn over relative to the vehicle body 01, and then the moving part 03 is controlled to reflect out of the mounting bracket 02; it can also be arranged that: when the trigger piece 09 is triggered for the first time, the mounting bracket 02 is controlled to overturn relative to the vehicle body 01, and when the trigger piece 09 is triggered for the second time, the moving piece 03 is controlled to be emitted from the mounting bracket 02.

Alternatively, one, two or more than two moving members 03 may be provided, and when two or more than two moving members 03 are provided, all the moving members 03 may be controlled in a linkage manner. In the gyro mode, all the moving members 03 are simultaneously launched or launched at intervals in a set sequence, or each moving member 03 can be independently controlled, and the launching of each moving member 03 is automatically controlled by the operation of a user.

The toy car sets up the shape into the motorcycle in this application embodiment, has set up two moving parts 03, and two moving parts 03 can be triggered and break away from installing support 02 simultaneously during the top mode, and one person's operation just can carry out the method of playing of top fight.

Further, as shown in fig. 6, the triggering member 09 includes a bracket triggering assembly 04, and the bracket triggering assembly 04 is connected to the mounting bracket 02;

when the bracket trigger assembly 04 is triggered, the mounting bracket 02 rotates relative to the body 01, causing the toy vehicle to switch from the vehicle mode to the top mode.

Specifically, the bracket trigger assembly 04 is used for triggering the mounting bracket 02 to rotate, so that the toy vehicle is switched from the vehicle mode to the gyro mode.

As shown in fig. 7, the mounting bracket 02 is provided with a shaft collar 21, the vehicle body 01 is provided with a rotating shaft 11, the shaft collar 21 is sleeved on the rotating shaft 11, and the mounting bracket 02 turns around the rotating shaft 11 when rotating.

In this embodiment, two mounting brackets 02 are provided, and are respectively sleeved at two ends of the rotating shaft 11, and a moving part 03 is installed on each mounting bracket 02. When the bracket trigger assembly 04 is triggered, the two mounting brackets 02 are turned over synchronously.

Further, as shown in fig. 7, an energy storage member 05 is connected between the mounting bracket 02 and the vehicle body 01;

the support triggering assembly 04 locks the mounting support 02 in the vehicle mode, and the mounting support 02 compresses the energy storage part 05 to store energy;

when the bracket trigger assembly 04 is triggered, the mounting bracket 02 is unlocked, and the energy storage part 05 releases energy to drive the mounting bracket 02 to turn over relative to the vehicle body 01.

In this application embodiment, provide power through energy storage spare 05, the toy car is when the car mode, and energy storage spare 05 is compressed, triggers subassembly 04 through the support and removes the locking to installing support 02, and energy storage spare 05 releases can promote installing support 02 and rotate, and the toy car switches to the top mode.

To switch the toy vehicle from top mode to vehicle mode, the mounting bracket 02 is rotated in the reverse direction causing the mounting bracket 02 to compress the energy storage member 05 until the bracket trigger assembly 04 locks the mounting bracket 02.

This application embodiment provides power for the upset of installing support 02 through energy storage piece 05, and simple structure and action response are very fast. Wherein, the energy storage part 05 can adopt a spring, a torsion spring and the like.

Further, as shown in fig. 8, a locking groove 22 is formed on the mounting bracket 02, and the bracket trigger assembly 04 is provided with an elastically telescopic locking boss 421;

in the vehicle mode, the locking protrusion 421 is inserted into the locking groove 22;

when the bracket trigger assembly 04 is triggered, the locking protrusion 421 is disengaged from the locking groove 22 to unlock the mounting bracket 02.

In the embodiment of the present application, the bracket triggering assembly 04 triggers two mounting brackets 02 at the same time, and the two mounting brackets 02 are connected to the vehicle body 01 through one energy storage member 05.

Specifically, the bracket trigger assembly 04 includes a rotating button 41, a locking member mounting seat 43 and two telescopic locking members 42, and a locking protrusion 421 extends from the telescopic locking member 42. The locker mount 43 is fixed to the vehicle body 01, and the locking boss 421 is inserted into the locking groove 22 through the locker mount 43. Be provided with first spring 44 between two flexible latch fittings 42, rotate and press piece 41 and two flexible latch fittings 42 to connect through the slope spigot surface, when pressing and rotating press piece 41, two flexible latch fittings 42 compress first spring 44 and are close to each other for two locking projection 421 break away from locking groove 22, unblock installing support 02, and installing support 02 can rotate under the effect of energy storage piece 02.

According to the embodiment of the application, two mounting brackets 02 can be triggered to rotate simultaneously only by pressing the rotating pressing piece 41, so that the operation is simple and the response is quick.

In the embodiment of the application, the bracket trigger assembly 04 is set as a manual control trigger piece, and the mounting bracket 02 can be triggered to turn over by pressing the rotating button 41 during playing. Optionally, the bracket trigger assembly 04 may also be configured as a crash trigger, a magnetic induction trigger, a travel trigger, or an electrically controlled trigger. Wherein the collision trigger is turned over by the collision trigger mounting bracket 02, e.g., a toy vehicle traveling in a car mode is triggered when a foreign object is struck in the process; the magnetic induction triggering part is triggered by magnetic induction, for example, a toy car is triggered when being close to an object with magnetism in a car mode; the stroke trigger is triggered after the toy car travels a certain distance in the car mode; the electronic control trigger part controls the mounting support 02 to turn over through an electrical element, for example, the mounting support 02 is controlled to turn over through a motor, a switch of the motor is controlled to trigger the generator to work, the electronic control trigger part triggers, the electronic control trigger part can also be set to be in a remote control mode, the motor is controlled to work through a remote controller, and the toy car is switched between the car mode and the gyro mode in a remote control mode.

Further, as shown in fig. 9, the toy car further includes a driving assembly 06, the driving assembly 06 is in linkage fit with the moving part 03;

when the driving assembly 06 is driven, the driving assembly 06 drives the moving member 03 to rotate.

Specifically, the driving assembly 06 can be configured as a motor, a turntable with a rocking handle, a gear with a spring, etc. for driving the moving member 03 to rotate. In the vehicle mode, the driving component 06 drives the moving part 03 to rotate, and drives the toy vehicle to move forwards or backwards; in the gyro mode, the driving assembly 06 drives the moving part 03 to rotate quickly and then launches the moving part 03, so that the moving part 03 can continue to rotate under the action of inertia, and the gyro playing method is realized.

Further, as shown in fig. 9, the moving member 03 is provided with a rotating tooth 31, the driving assembly 06 includes a driving device 61, a driving gear 62 and a linkage gear set 63, the driving device 61 is connected with the driving gear 62, and the linkage gear set 63 is connected between the driving gear 62 and the rotating tooth 31.

As shown in fig. 5, the rotating teeth 31 are disposed on the axle 32 of the moving member 03, and one rotating tooth 31 is disposed at each end of the axle 03, so that when the moving member 03 is driven to rotate, only one of the rotating teeth 31 needs to be driven, and the two rotating teeth 31 are disposed to facilitate the installation of the moving member 03 on the mounting bracket 02.

In the embodiment of the present application, the driving device 61 is a turntable with a spring, the driving gear 62 is connected to the driving device 61, and the driving gear 62 can be driven to rotate by pulling the spring. The driving gear 62 drives the rotary teeth 31, i.e., the moving member 03, to rotate through the interlocking gear set 63.

As shown in fig. 1-4, a spring can be attached to the motorcycle handle 12 to drive the movement 03 in rotation by pulling on the motorcycle handle 12.

Further, the linkage gear set 63 includes two longitudinal gears 631, a coupling gear plate 632, and two transverse gears 633, the longitudinal gears 631 being connected with the driving gear 62;

the driving gear 62, the longitudinal gear 631 and the coupling gear plate 632 are mounted on the vehicle body 01, and the transverse gear 633 is mounted on the mounting bracket 02;

the coupling gear plate 632 is connected to the cross gear 633 when the toy vehicle is in either of the vehicle mode and the top mode.

Specifically, the drive gear 62, the longitudinal gear 631, and the coupling gear plate 632 are mounted on the vehicle body 01 so as not to rotate with the mounting bracket 02, and the lateral gear 633 is mounted on the mounting bracket 02 so as to rotate synchronously with the mounting bracket 02.

The driving gear 62 drives the coupling gear disc 632 to rotate through the two longitudinal gears 631, and since the two mounting brackets 02 are provided in the embodiment of the present application, two sets of transverse gears 633 are provided, two gear discs are provided at two ends of the coupling gear disc 632, and are respectively connected with the two sets of transverse gears 633 mounted in the two mounting brackets 02, and the coupling gear disc 632 can simultaneously drive the two moving members 03 to rotate.

The coupling gear plate 632 is coaxial with the rotation shaft 11 on the vehicle body 01 so that the coupling gear plate 632 can be connected with the cross gear 633 in both the vehicle mode and the gyro mode.

Alternatively, the number of the longitudinal gears 631 and the number of the transverse gears 633 may be different according to the specific arrangement of the vehicle body structure.

Further, as shown in fig. 10 and 11, the toy car further comprises a limiting assembly 07, the triggering member 09 comprises a launching assembly 08, the limiting assembly 07 is telescopically arranged on the outer side of the moving member 03, and the launching assembly 08 is in linkage fit with the limiting assembly 07;

in the vehicle mode, the limiting component 07 extends out to limit the moving part 03 on the mounting bracket 02;

in the gyro mode, after the moving part 03 is accelerated, the transmitting assembly 08 is triggered, the transmitting assembly 08 drives the limiting assembly 07 to retract to remove the limitation on the moving part 03, and the moving part 03 is transmitted out of the mounting bracket 02.

The limiting assembly 07 comprises two telescopic clamping pieces 71, the two telescopic clamping pieces 71 are respectively installed in the installation support 02 through a second spring 72, the two telescopic clamping pieces 71 are arranged oppositely, under the action of the elastic force of the second spring 72, the two telescopic clamping pieces 71 are close to and contact with each other and are shielded outside the wheel shaft 32 of the moving piece 03, and the outer side of the two telescopic clamping pieces 71 is one side of the moving piece 03 in the emission direction. In the embodiment of the present application, the telescopic clamp 71 is shielded at the front side of the moving member 03 for the front wheel, and the telescopic clamp 71 is shielded at the rear side of the moving member 03 for the rear wheel.

After the moving part 03 is driven to rotate, when the launching assembly 08 is triggered, the launching assembly 08 pushes the two telescopic clamping pieces 71 to compress the second spring 72, the two telescopic clamping pieces 71 are relatively far away, the outer side of the moving part 03 is not shielded, and the moving part 03 is launched out towards the outer side under the rotation inertia to be separated from the mounting bracket 02.

Furthermore, the launching assembly 08 comprises a launching button 81, a push rod 82 and a push plate 83, the launching button 81 is connected with the push rod 82, the push rod 82 is connected with the push plate 83, and the push plate 83 is connected with the limiting assembly 07;

when the pushing button 81 is pressed, the pushing rod 82 is pushed by the pushing button 81, the pushing rod 82 pushes the pushing plate 83, and the pushing plate 83 pushes the limiting component 07 to retract.

Wherein, the launching button 81 and the push rod 82 are arranged on the vehicle body 01, and the push plate 83 is arranged on the mounting bracket 02; when the toy vehicle is in top mode, push rod 82 is coupled to push plate 83.

Each mounting bracket 02 is provided with a stop assembly 07 and a push plate 83, the push rod 82 being connected to the push plate 83 only when the toy vehicle is in top mode. The vehicle body 01 is provided with a launching button 81 and two push rods 82, the launching button 81 simultaneously pushes the two push rods 82, and the two push rods 82 are respectively connected with the push plates 83 on the two mounting brackets 02.

Specifically, the push rod 82 is mounted on the vehicle body 01 by a third spring 84, the striking button 81 is connected to one end of the push rod 82 by an inclined guide surface, and when the striking button 81 is pressed, the striking button 81 pushes the push rod 82 to compress the third spring 84. The other end of the push rod 82 is connected with the push plate 83, the push rod 82 pushes the push plate 83 to move towards one side of the limiting assembly 07, the push plate 83 is installed on the installation support 02 through a fourth spring 85, and the fourth spring 85 is compressed when the push rod 82 pushes the push plate 83. The push plate 83 is connected with the two telescopic clamping pieces 71 of the limiting assembly 07 through inclined guide surfaces, when the push plate 83 moves towards the telescopic clamping pieces 71, the two telescopic clamping pieces 71 are pushed to be relatively far away, the limiting on the wheel shaft 32 is released, and the moving piece 03 can be launched out from the mounting bracket 02.

In this embodiment, as a preferred embodiment, two ends of the wheel shaft 32 of each moving member 03 are respectively provided with a limiting component 07 and a push plate 83, each push rod 82 on the vehicle body 01 is connected with two push plates 83, and one push rod 82 can simultaneously push the two push plates 83 on the side.

In the toy car in the embodiment of the application, when the car mode is performed, the moving parts 03 are in wheel shapes, the two moving parts 03 can be driven to synchronously rotate through the driving assembly 06 by pulling the motorcycle handle 12 on the car body 01, the toy car is placed on the operating platform, and the moving parts 03 rotate to enable the toy car to move.

In the vehicle mode, the two locking studs 421 can be triggered to disengage from the locking grooves 22 of the two mounting brackets 02 by pressing the rotary push piece 41, so that the mounting brackets 02 are unlocked. The two mounting brackets 02 rotate 90 degrees under the action of the energy storage part 05, and the toy car is switched to a gyro mode.

In the gyro mode, firstly the motorcycle handle 12 on the vehicle body 01 is pulled to rotate and accelerate the two moving pieces 03, the moving pieces 03 are switched to a gyro shape, then the launching button 81 is pressed, the launching button 81 pushes the limit component 07 to retract through the push rod 82 and the push plate 83, the two telescopic clamping pieces 71 are relatively far away, the locking of the wheel shaft 32 of the moving piece 03 is released, the moving piece 03 is launched out from the mounting bracket 02 under the rotation inertia, the end part of the wheel shaft 32 of the moving piece 03 is contacted with the operating platform, the moving piece 03 continues to rotate under the rotation inertia, at the moment, the moving piece 03 plays as a gyro, and the two moving pieces 03 can also play against a battle.

The utility model provides a toy car, the installing support of installation wheel can take place relative rotation with the automobile body, can keep upright state at the automobile body, launches the motion piece as the top, and the motion piece continues the rotation with the mode that the shaft landed, has realized regard the motion piece as the function that the top was played to two motion pieces can be launched simultaneously to toy car, can also carry out the battle playing method, and interesting and object for appreciation nature are stronger.

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 toy car, characterized by comprising a car body (01), a mounting bracket (02), a trigger (09) and a moving part (03), wherein the mounting bracket (02) is mounted on the car body (01) in a reversible manner, the moving part (03) is mounted on the mounting bracket (02) in a rotatable manner, and the moving part (03) is separable from the mounting bracket (02);

the toy vehicle has a vehicle mode and a top mode, the motion member includes a wheel configuration and a top configuration:

in the vehicle mode, the moving part (03) is in a wheel shape, and the moving part (03) supports the vehicle body (01) and the mounting bracket (02);

the trigger piece (09) is used for controlling the mounting bracket (02) to turn relative to the vehicle body (01), the mounting bracket (02) drives the moving piece (03) to turn together, and when the toy vehicle is switched from the vehicle mode to the spinning top mode, the moving piece (03) is switched to a spinning top mode, and the moving piece (03) can be launched and separated from the mounting bracket (02).

2. The toy vehicle of claim 1, wherein the trigger (09) includes a bracket trigger assembly (04), the bracket trigger assembly (04) being coupled to the mounting bracket (02);

when the bracket trigger assembly (04) is triggered, the mounting bracket (02) rotates relative to the vehicle body (01) to enable the toy vehicle to be switched from the vehicle mode to the spinning top mode.

3. The toy vehicle of claim 2, characterized in that an energy storage member (05) is connected between the mounting bracket (02) and the vehicle body (01);

the bracket trigger assembly (04) locks the mounting bracket (02) in the vehicle mode, and the mounting bracket (02) compresses the energy storage piece (05) to store energy;

when the bracket trigger assembly (04) is triggered, the mounting bracket (02) is unlocked, and the energy storage part (05) releases energy to drive the mounting bracket (02) to turn over relative to the vehicle body (01).

4. The toy vehicle of claim 2, wherein the cradle trigger assembly (04) is any one of a crash trigger, a magnetic induction trigger, a manual trigger, a travel trigger, or an electrically controlled trigger.

5. The toy vehicle according to any one of claims 1 to 4, characterized in that it further comprises a driving assembly (06), said driving assembly (06) cooperating with said mobile element (03) in a linkage manner;

when the driving component (06) is driven, the driving component (06) drives the moving part (03) to rotate.

6. The toy car of claim 5, wherein the moving member (03) is provided with a rotating tooth (31), the driving assembly (06) comprises a driving device (61), a driving gear (62) and a linkage gear set (63), the driving device (61) is connected with the driving gear (62), and the linkage gear set (63) is connected between the driving gear (62) and the rotating tooth (31).

7. The toy vehicle of claim 6, characterized in that the linkage gear set (63) comprises a longitudinal gear (631), a coupling gear disc (632) and a transverse gear (633), the longitudinal gear (631) being connected with the driving gear (62);

the driving gear (62), the longitudinal gear (631) and the coupling gear plate (632) are mounted on the vehicle body (01), and the transverse gear (633) is mounted on the mounting bracket (02);

the coupling gear disc (632) is connected to the transverse gear (633) when the toy vehicle is in either of the vehicle mode and the top mode.

8. The toy vehicle according to any one of claims 1-4, characterized in that it further comprises a stop assembly (07), said trigger member (09) comprising a launching assembly (08), said stop assembly (07) being telescopically arranged outside said moving member (03), said launching assembly (08) cooperating with said stop assembly (07);

in the vehicle mode, the limiting assembly (07) extends to limit the moving part (03) on the mounting bracket (02);

in the gyro mode, after the moving piece (03) is accelerated, the transmitting assembly (08) is triggered, the transmitting assembly (08) drives the limiting assembly (07) to retract to remove the limitation on the moving piece (03), and the moving piece (03) is transmitted out of the mounting bracket (02).

9. The toy vehicle of claim 8, wherein the launching assembly (08) comprises a launch button (81), a push rod (82) and a push plate (83), the launch button (81) being connected to the push rod (82), the push rod (82) being connected to the push plate (83), the push plate (83) being connected to the restraining assembly (07);

when the launching press piece (81) is pressed, the launching press piece (81) pushes the push rod (82), the push rod (82) pushes the push plate (83), and the push plate (83) pushes the limiting assembly (07) to retract.

10. The toy vehicle of claim 9, wherein the launch button (81) and the push rod (82) are mounted on the vehicle body (01), and the push plate (83) is mounted on the mounting bracket (02);

when the toy car is in the spinning top mode, the push rod (82) is connected with the push plate (83).

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