CN215741776U - Transformable toy car, robot with same and toy train - Google Patents

Abstract

The utility model discloses a deformation toy car and a robot and a toy train provided with the same, comprising: the vehicle comprises a vehicle body and a vehicle bottom module, wherein the vehicle body comprises a vehicle surface module and the vehicle bottom module which are detachably connected, and the vehicle surface module is arranged above the vehicle bottom module; the left side and the right side of the vehicle bottom module are respectively provided with a wheel; the left side and the right side of the vehicle face module are respectively provided with a first side face part and a second side face part, and the first side face part and the second side face part are respectively matched with wheels to form a left vehicle body and a right vehicle body of the vehicle body; a first vehicle surface is arranged on the upper surface of the vehicle surface module; and/or a second vehicle surface is arranged on the lower surface of the vehicle surface module; the vehicle face module is rotatably connected with the vehicle bottom module, so that the upper surface and the lower surface of the vehicle face module can be selectively and rotatably exposed above the vehicle bottom module to form two different vehicle types. The utility model combines the structural design of deformation, assembly and combination, and has richer and more diversified types, simple structure and wider applicability.

Description

Transformable toy car, robot with same and toy train

Technical Field

The utility model relates to the technical field of toy products, in particular to a deformable toy car, a robot with the same and a toy train with the same.

Background

Toy vehicles and robots are a large category of toys, and are indispensable starting articles for children to grow. Especially for boys and children, toy vehicles and robots are their mental partners. At present, toy products in the market have a lot of playing methods and changes, for example, toy car products of the deformable automobile type can be deformed into deformable transformers, toy building blocks of the building block splicing type can be spliced into toy cars, and some robot products can be folded and combined. But the current deformation toy products are single in deformation and lack innovation for years.

The toy products of the deformable automobile class generally pay more attention to the deformable playing method, such as 'transformers', but the toy products continue to use structures and playing methods designed abroad for many years, are complex in deformable frameworks, slightly higher in product difficulty, generally suitable for children over 6 years old to play, and have no great innovation and improvement for many years in the playing methods and structures. In addition, the toy products of the type of the deformable automobile have single playing method, one automobile money can only be deformed into a fixed robot generally, more deformation paths and playing methods are lacked, and the toy products do not feel fresh after one-time deformation. But also can not effectively develop the imagination of children, has low attraction to the children and can not continuously improve the concentration and the interestingness of the children.

Toy products such as toy vehicles built by building blocks are popular in recent years. But can not be deformed, and has no deformed structural design and playing method. Moreover, small-particle building blocks are difficult to splice and insert and have phagocytosis risk, so that the small-particle building blocks are only suitable for children over 6 years old. Although medium-particle or large-particle building blocks are suitable for children of 3-6 years old to play, the particles are too large to be exquisite in toy car shapes, appearances with high simulation degree such as cars and buildings cannot be achieved, and the children are too large to hold hands, so that the carrying is inconvenient. The toy product of the deformable composite body of the building block type robot on the market is mainly formed by splicing and inserting building blocks, namely, a building block vehicle is disassembled, then the building block vehicle is spliced into the composite body robot, and the toy vehicle is not directly deformed and then is combined to form the robot. Therefore, the playing method is too complicated to be suitable for the children of the low age to use.

As for the transformation toy vehicles of children of 3-6 years old, there are toy products similar to the reverse car, it mainly forms two different vehicle types through simple positive and negative transformation, but only can carry on this kind of transformation, play the method to seem single, and the model is limited by the structure, therefore can't make more changes, meanwhile, the appeal to girls is weaker.

In conclusion, the existing transformable toy products are fixed in structure, single in structure, uninteresting in shape, lack of variation and entertainment, are not attractive enough for girls, cannot expand playing methods, are more difficult to fuse other product parts on the original product structure, lack of interchangeable playing methods and structural support, are extremely easy to form disposable playing and then discard, and form great waste. Therefore, the toy products have great product limitations due to the structural defects and the playing defects.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome at least one defect (deficiency) of the prior art and provides a deformable toy car, a robot and a toy train with the deformable toy car, which are used for solving the problems of single deformation, insufficient attraction and small application range of the existing toy car.

In order to solve the technical problems, the utility model adopts the technical scheme that:

a transformable toy vehicle comprising: the vehicle comprises a vehicle body and a vehicle bottom module, wherein the vehicle body comprises a vehicle surface module and the vehicle bottom module which are detachably connected, and the vehicle surface module is arranged above the vehicle bottom module;

the left side and the right side of the vehicle bottom module are respectively provided with a wheel; the left side and the right side of the vehicle face module are respectively provided with a first side face part and a second side face part, and the first side face part and the second side face part are respectively matched with wheels to form a left vehicle body and a right vehicle body of the vehicle body;

a first vehicle surface is arranged on the upper surface of the vehicle surface module;

and/or a second vehicle surface is arranged on the lower surface of the vehicle surface module;

the vehicle face module is rotatably connected with the vehicle bottom module, so that the upper surface and the lower surface of the vehicle face module can be selectively and rotatably exposed above the vehicle bottom module to form two different vehicle types.

In this technical scheme, the upper surface and the lower surface of car face module all can install the car face, as different motorcycle types. The utility model takes the vehicle surface arranged on the upper surface of the vehicle surface module as a first vehicle surface, takes the vehicle surface arranged on the lower surface of the vehicle surface module as a second vehicle surface, and the first vehicle surface and the second vehicle surface can be vehicle surfaces with the same shape or vehicle surfaces with different shapes. When the first tread and the second tread are the same shape, the first tread arranged on the upper surface of the tread module can be detached and arranged on the lower surface of the tread module, so as to form the second tread; the upper surface and the lower surface of the vehicle surface module can be provided with vehicle surfaces of the same shape to form a first vehicle surface and a second vehicle surface. Wherein, preferably, the shape of first car face and second car face is different to form two kinds of different appearance motorcycle types, increase toy car and warp obvious degree and enjoyment. Still further preferably, the first deck and the second deck are removably mounted to the upper and lower surfaces of the deck module. When playing, the first vehicle surface and the second vehicle surface can be detached, the sequence is changed, namely the second vehicle surface can be installed on the upper surface of the vehicle surface module, the first vehicle surface is installed on the lower surface of the vehicle surface module, and the deformation playing method is added.

The upper surface and the lower surface of the vehicle surface module are selectively and rotatably arranged and rotatably exposed above the vehicle bottom module so as to form different vehicle types. Specifically, when the upper surface of the vehicle surface module is rotatably exposed above the vehicle bottom module, a first vehicle surface is exposed, and a first vehicle type is formed; when the lower surface of the vehicle surface module is rotatably exposed below the vehicle bottom module, the second vehicle surface is exposed, and a second vehicle type is formed. The operation that the vehicle can be transformed into two vehicle types through rotation is simple, the playing method is enriched, the curiosity and exploration of children are improved, and the practical ability and imagination of the children are cultivated; and is also suitable for children of low age and middle and high age.

Furthermore, the vehicle surface module and the vehicle bottom module are rotatably connected through a universal ball head and a ball seat.

Specifically, between car face module and the vehicle bottom module, connect universal bulb and ball seat respectively, and then realize connecting car face module and vehicle bottom module, and universal bulb is through carrying out 360 degrees rotations on the ball seat, and then can drive the car face module rotatory around the vehicle bottom module, or the vehicle bottom module is rotatory around the car face module, realizes that the upper surface or the lower surface of car face module appear on the vehicle bottom module.

In one of the embodiments, the first and second electrodes are arranged in a circular shape,

the front side and the rear side of the vehicle surface module are respectively provided with a first vehicle head part and a second vehicle head part, and the second vehicle head part is rotatably connected with the vehicle bottom module; the first head section and the second head section selectively serve as a front side body and a rear side body of the vehicle body, respectively.

When the upper surface of the vehicle surface module is arranged above the vehicle bottom module; the first head section serves as a front side body of the vehicle body, and the second head section serves as a rear side body of the vehicle body, so as to form a first vehicle type; alternatively, the first head section serves as a rear side body of the vehicle body, and the second head section serves as a front side body of the vehicle body, to form the first vehicle type.

When the lower surface of the vehicle surface module is arranged above the vehicle bottom module; the first head section serves as a rear side body of the vehicle body, and the second head section serves as a front side body of the vehicle body, so as to form a second vehicle type; alternatively, the first head section serves as a front side body of the vehicle body, and the second head section serves as a rear side body of the vehicle body, to form a second vehicle type. The front side body refers to the head of the vehicle body, and the rear side body refers to the tail of the vehicle body.

In one of the embodiments, the first and second electrodes are arranged in a circular shape,

the vehicle surface module and/or the vehicle bottom module are/is provided with a plurality of plug-in mounting structures;

the first vehicle surface and/or the second vehicle surface are/is connected with the vehicle surface module through the plug-in mounting structure.

Among this technical scheme, can be fast with first car face and/or second car face cartridge on the car face module through cartridge structure on the one hand, still be convenient for children's cartridge other toys through setting up cartridge structure, increase the playing method and the interest of playing.

Preferably, this cartridge structure is building blocks cartridge structure, can be general with other building blocks concatenation toys, like happy high building blocks class toy, further improves interesting and recreational, has also improved the use degree of building blocks class toy.

Preferably, the plug-in mounting structure is a universal plug-in mounting port, is suitable for being plugged in different vehicle surfaces, and can also be used for plugging building block toys. Specifically, the shape of the insertion port can be matched with the structure of the Happy building block; the car surface module and/or the car bottom module can be assembled with the happy high building blocks to form other toy cars or other toys.

In one of the embodiments, the first and second electrodes are arranged in a circular shape,

the first side surface part and the second side surface part are respectively provided with a limiting opening;

the left side and the right side of the vehicle bottom module are respectively provided with a convex limiting part at the positions corresponding to the first side part and the second side part;

the limiting part is connected with the limiting port in a matched mode so as to fix the first side face part and the second side face part on the left side and the right side of the vehicle bottom module.

Through spacing portion and spacing mouthful cooperation fixed, can effectively fix the automobile body, improve the steadiness of automobile body.

A robot comprises a plurality of the toy vehicles, and also comprises a body part, a limb part and/or a skull part which are arranged outside; the body member, limb member and/or skull member may be selectively coupled to a toy vehicle to form the robot.

In the technical scheme, the toy car can be used as one of the parts of the robot and is connected with the body part, the limb part and/or the skull part of the external equipment to form the robot.

Specifically, the toy vehicle can be used as a body part, a limb part and a skull part of the robot and directly connected to form the robot.

The toy car can be used as a body part and a limb part of the robot, or used as a body part and a skull part of the robot, or used as a limb part and a skull part of the robot, and is connected with the external skull part or the limb part or the body part to form the robot.

The toy car can be used as a body part or a limb part or a skull part of the robot and connected with the external limb part and the skull part or the external body part and the limb part to form the robot.

In summary, the robot can be formed by connecting a plurality of toy vehicles, and can also be formed by connecting a plurality of toy vehicles and peripheral robot parts. Therefore, the robot set method has diversity and higher interestingness.

Preferably, the toy vehicle is provided with a connection port with a standardized design, so that the toy vehicle is more convenient to be assembled and connected with other robot parts or the toy vehicle.

In one of the embodiments, the first and second electrodes are arranged in a circular shape,

the robot comprises at least five toy vehicles, namely at least one body toy vehicle and at least four limb toy vehicles, wherein the body toy vehicles form the body of the robot, and the limb toy vehicles are correspondingly connected to the hand and leg positions of the body toy vehicles to form the hand and leg positions of the robot;

the front side and the rear side of the vehicle bottom module of the body toy vehicle are respectively provided with a first connecting piece and a second connecting piece;

the first connecting piece comprises a first connecting part, a second connecting part and a third connecting part which are connected in sequence, and the first connecting part and the second connecting part are mutually connected in a rotating way;

the first connecting part is connected with a skull part; the vehicle bottom module is provided with an accommodating part for accommodating the skull part; or, for receiving the second connecting portion and a cranial component;

the second connecting part is used for movably connecting a second head part of the vehicle surface module;

the third connecting part is arranged on the outer side of the second connecting part and used for connecting the limb toy car to form a hand part of the robot;

the second connecting piece is used for connecting the limb toy car to form a leg part of the robot.

In the technical scheme, the five trolleys are directly assembled to form the robot, so that the robot has the effects of convenience in assembly and easiness in identification, and therefore the children in low age can be combined, and the application range is enlarged.

Specifically, first connecting piece and second connecting piece are mutually assorted universal bulb and ball seat, and wherein, the position and the quantity of universal bulb and ball seat can set up as required to reach firm, and rotatable coupling's effect.

The vehicle bottom module is provided with an accommodating part for accommodating the skull part, so that on one hand, when the vehicle bottom module is used as a toy vehicle part, the complete vehicle body can be conveniently displayed; on the other hand, when the vehicle bottom module is used as a robot part, the vehicle bottom module can be rotatably exposed from the accommodating part so as to present a complete robot.

In one of the embodiments, the first and second electrodes are arranged in a circular shape,

the front side and the rear side of a vehicle bottom module of the limb toy vehicle are respectively provided with a first connecting piece and a second connecting piece, and the first connecting piece comprises a first connecting part and a second connecting part which are mutually rotatably connected;

the first connecting part is used for connecting the body toy car;

the second connecting part is used for movably connecting the vehicle surface module.

In one of the embodiments, the first and second electrodes are arranged in a circular shape,

the second connecting piece is used for connecting a peripheral limb accessory and/or a weapon accessory.

In this technical scheme, the limbs accessory of peripheral hardware can be connected to the second connecting piece, increases the interest.

In one of the embodiments, the first and second electrodes are arranged in a circular shape,

the second connecting piece is used for connecting the first car surface and/or the second car surface to form a limb accessory and a weapon accessory;

alternatively, the second connector is for connecting the first and/or second vehicle faces to form a limb or weapon accessory.

In the technical scheme, the first car surface and/or the second car surface can be detached and assembled on the second connecting piece, so that a limb accessory or a armed accessory of the robot is formed; the first deck and/or the second deck can be detached and assembled to the second connecting piece, so that the limb accessory and the arm accessory of the robot are formed, the use diversity benefit is achieved, and the cost for additionally purchasing the limb accessory and/or the arm accessory is saved.

In particular, the limb accessory may be a palm or a sole of a robot; the armed fitting may be a weapon of a robot, such as a toy gun, toy rocket, or toy communicator.

A toy train comprises at least two toy vehicles, wherein the toy vehicles are sequentially connected end to form the toy train.

In the technical scheme, the toy train can be formed by connecting the toy cars end to end, so that the interestingness is increased.

Specifically, a first connecting piece and a second connecting piece are respectively arranged on the front side and the rear side of a vehicle bottom module of the toy vehicle, and the first connecting piece comprises a first connecting part and a second connecting part which are mutually rotatably connected;

the first connecting part is used for connecting a second connecting part of a previous toy car;

the second connecting part is used for movably connecting the vehicle surface module.

Therefore, the adjacent toy cars can be connected with the first connecting part of the next toy car through the second connecting part of the previous toy car to form a toy train, and multiple play methods are integrated and innovated.

Further, this first connecting piece and second connecting piece are universal bulb and ball seat, and the position and the quantity that set up of universal bulb and ball seat are unlimited, can set up as required.

Compared with the prior art, the utility model has the beneficial effects that:

the utility model combines the structural design of deformation, assembly and combination, and has richer types and higher diversity so as to assemble more different vehicle types or different types of toys, such as robots. And the structure is simple, so the utility model has wider applicability and can be applied to children of middle and small ages. In addition, the toy also has an insertion structure in the structure, can be used interchangeably with other building block toys, is richer in playing method and increases the interest of playing.

Drawings

Fig. 1 is a schematic exploded view of the present invention.

Fig. 2 is a schematic diagram of a vehicle model change structure of the present invention.

Fig. 3 is a schematic perspective view of the present invention.

Fig. 4 is a schematic cross-sectional structure of the present invention.

Fig. 5 is a schematic diagram of an exploded structure of the present invention.

Fig. 6 is an exploded view of the vehicle surface module.

Fig. 7 is a schematic structural diagram of the robot without the vehicle surface module in embodiment 2.

Fig. 8 is a schematic view showing the structure of five toy vehicles according to example 2.

Fig. 9 is a schematic view of the structure of the vehicle surface module of the body toy vehicle in embodiment 2.

Fig. 10 is a schematic structural diagram of the robot after the installation of the car face module.

Fig. 11 is a schematic structural view of the back of the robot.

Fig. 12 is a first structural diagram of the first vehicle surface/the second vehicle surface.

Fig. 13 is a second schematic structural view of the first deck/the second deck.

Fig. 14 is a third schematic structural view of the first tread/the second tread.

Fig. 15 is a schematic view showing the structure of the toy train according to embodiment 3.

Fig. 16 is a schematic structural view of the underbody module in embodiment 3.

Detailed Description

The drawings are only for purposes of illustration and are not to be construed as limiting the utility model. For a better understanding of the following embodiments, certain features of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

In the description of the present invention, it is to be understood that the terms "central", "longitudinal", "lateral", "upper", "lower", "inner", "outer", "circumferential", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are used only for convenience in describing the present invention and for simplification of description, and do not indicate or imply that the device or element 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, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" 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; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1

As shown in fig. 1 and 3, the present embodiment discloses a transformable toy vehicle, including: the automobile body, the automobile body is including car face module 110 and the vehicle bottom module 210 of dismantling the connection, and car face module 110 is established in the top of vehicle bottom module 210.

Wherein, the left and right sides of the vehicle bottom module 210 are respectively provided with wheels 220; when the deck module 110 and the underbody module 210 are disassembled, the underbody module 210 can also independently form a simplified toy vehicle.

As shown in fig. 5 and 6, the vehicle face module 110 is further provided with a first side surface 120 and a second side surface 130 on the left and right sides, respectively, and the first side surface 120 and the second side surface 130 are respectively engaged with the wheels 220 to form a left side vehicle body and a right side vehicle body of the vehicle body; wherein, the left side automobile body and the right side automobile body form stronger third dimension, more visualized toy car with the cooperation equipment back of vehicle bottom module 210 respectively.

Further, the first side surface portion 120 and the second side surface portion 130 are respectively provided with a limiting opening 131; the left and right sides of the vehicle bottom module 210 are respectively provided with a convex limiting part 231 at the positions corresponding to the first side surface part 120 and the second side surface part 130; the limiting part 231 is connected with the limiting opening 131 in a matching manner, so that the first side surface part 120 and the second side surface part 130 are fixed on the left side and the right side of the vehicle bottom module 210. Through spacing portion 231 and spacing mouthful 131 cooperation fixed, can effectively fix the position of car face module 110 on vehicle bottom module 210, improve the steadiness of automobile body.

As shown in fig. 2 and 4, preferably, in the present embodiment, the upper surface of the vehicle surface module 110 is provided with a first vehicle surface 310; the lower surface of the vehicle surface module 110 is provided with a second vehicle surface 320; and the vehicle surface module 110 is rotatably connected with the vehicle bottom module 210, so that the upper surface and the lower surface of the vehicle surface module 110 can be selectively and rotatably exposed above the vehicle bottom module 210, and two different vehicle types are formed.

More preferably, a universal ball head 601 and a ball seat 502 are arranged between the vehicle surface module 110 and the vehicle bottom module 210, the universal ball head 601 may be arranged on the vehicle surface module 110, or may be arranged on the vehicle bottom module 210, and the number of the universal ball heads 601 is not limited. In this embodiment, the universal ball 601 is disposed on the vehicle surface module 110, and includes two universal balls 601; the ball seats 502 correspond to the number of the ball tables, and the ball seats 502 are correspondingly arranged on the vehicle bottom module 210. Because the universal ball 601 can rotate 360 degrees on the ball seat 502, the upper surface and the lower surface of the vehicle-surface module 110 can be selectively and rotatably exposed above the vehicle-bottom module 210, and two different vehicle types are formed.

As shown in fig. 2, specifically, when the upper surface of the vehicle surface module 110 is exposed above the vehicle bottom module 210, a first vehicle type a is formed; when the lower surface of the vehicle surface module 110 is exposed above the vehicle bottom module 210, the second vehicle type B is formed.

Preferably, the first and second vehicle surfaces 310 and 320 have different shapes to highlight the difference between the two vehicle types for increasing the interest.

Further, the positions of the first vehicle surface 310 and the second vehicle surface 320 may be reversed to facilitate better assembly when the child is playing.

As shown in fig. 5 and 6, more preferably, the vehicle surface module 110 and the vehicle bottom module 210 are provided with the insertion structures 100; the first floor 310 and the second floor 320 are respectively mounted to the floor module 110 by the mounting structure 100. When the first vehicle surface 310 is exposed above the vehicle bottom module 210, the second vehicle surface 320 can be inserted into the lower surface of the vehicle surface module 110 to be hidden, and can also be detached to be placed independently; when the second floor 320 is exposed above the floor module 210, the first floor 310 may be inserted into the lower surface of the floor module 110, or may be detached and placed separately.

Further, the insertion structure 100 is a building block type insertion structure 100, which can be used with conventional building block type toys, for example, the insertion structure 100 can be used for inserting yugao building block particles. Therefore, when in use, the first vehicle surface 310 and/or the second vehicle surface 320 can be detached, and the vehicle surface module 110 and the vehicle bottom module 210 are plugged with the building block type toy, so that the diversity of functions and the application universality are increased, and the requirements of users are met better.

As shown in fig. 5 and fig. 2, in addition, in the present invention, a first head portion 410 and a second head portion 420 are respectively disposed at the front side and the rear side of the vehicle-body surface module 110, wherein the second head portion 420 is rotatably connected to the vehicle-body bottom module 210; and the first head section 410 and the second head section 420 may selectively serve as a front side body and a rear side body of the vehicle body.

When the upper surface of the vehicle surface module 110 is arranged above the vehicle bottom module 210; the first head section 410 serves as a front side body of the vehicle body and the second head section 420 serves as a rear side body of the vehicle body to form a first vehicle type a; alternatively, the first head section 410 serves as a rear side body of the vehicle body, and the second head section 420 serves as a front side body of the vehicle body, to form the first vehicle type a.

When the lower surface of the vehicle surface module 110 is arranged above the vehicle bottom module 210; the first head section 410 serves as a rear side body of the vehicle body and the second head section 420 serves as a front side body of the vehicle body to form a second vehicle type B; alternatively, the first head section 410 serves as a front side body of the vehicle body, and the second head section 420 serves as a rear side body of the vehicle body, to form the second vehicle type B. The front side body refers to the head of the vehicle body, and the rear side body refers to the tail of the vehicle body.

Example 2

As shown in fig. 7 and 8, the present embodiment discloses a robot, which includes five toy vehicles according to embodiment 1, namely, a body toy vehicle and a four-limb toy vehicle, wherein the body toy vehicle forms the body of the robot, and the limb toy vehicles are correspondingly connected to the hand and leg positions of the body toy vehicle to form the hand and leg positions of the robot; wherein,

as shown in fig. 9, the front and rear sides of the body bottom module 210 of the body toy vehicle are respectively provided with a first connecting member 500 and a second connecting member 610; the first connecting member 500 includes a first connecting portion 510, a second connecting portion 520 and a third connecting portion 530, which are connected in sequence, and the first connecting portion 510 and the second connecting portion 520 are rotatably connected to each other.

The first connection portion 510 is connected with a skull portion 710; the underbody module 210 is provided with a containing part 240 for containing the second connecting part 520 and the skull part 710; therefore, when the robot is stored, the second connecting portion 520 and the skull part 710 can be stored in the storing portion 240; when it is desired to display the robot, the second connecting portion 520 and the skull portion 710 may be rotated out, revealing the second connecting portion 520 and the skull portion 710. Preferably, the second connecting portion 520 and the cranial component 710 are in a removably connected relationship. Wherein, the second connecting part 520 behind the skull part 710 also forms the neck part of the robot, so that the robot is more vivid. Further, the second connecting portion 520 is a ball seat 502, the skull portion 710 is provided with a universal ball head 601, and the second connecting portion 520 and the skull portion 710 are detachably connected with the universal ball head 601 through the ball seat 502. Because the universal ball head 601 can rotate 360 degrees, the head of the robot can rotate 360 degrees, and the interest of playing is increased. Further, the skull portion 710 has different face shapes at least on the front and rear sides thereof, so that the front and rear sides of the robot can form at least two different robots according to the different face shapes; and the face shape originally rotating on the front side of the robot can be rotated to the back side of the robot to form another two different robots.

As shown in fig. 7 and 10, the second connection 520 is used to movably connect the second header portion 420 of the vehicle panel module 110; so as to realize the connection between the vehicle bottom module 210 and the vehicle surface module 110. In this embodiment, since the vehicle bottom module 210 and the vehicle face module 110 are detachably connected, the formed robot may be provided with the vehicle face module 110 or without the vehicle face module 110, so as to form at least two different robots. One robot is a robot with the vehicle face module 110 mounted thereon, and the other robot is a robot without the vehicle face module 110 mounted thereon.

In addition, since the first floor 310, the second floor 320, or other floors can be selectively installed on the floor module 110, another type or types of different robots can be formed after the different floors are installed.

As shown in fig. 11, further, since the head of the robot has two different facial shapes, the matching of the different facial shapes with the car-face module 110 or the car-bottom module 210 can also form one or more different robots, thereby increasing the variety of deformation and improving the interest and concentration of children.

The third connecting part 530 is arranged at the outer side of the second connecting part 520 and is used for connecting the limb toy car to form a hand part of the robot; and a second connecting member 610 is provided at the rear (lower side) of the floor module 210 for connecting the limb toy vehicles to form the leg of the robot.

As shown in fig. 7, 10 and 11, the limb toy vehicle can be disassembled and assembled to change the shape of the robot. In contrast, the limb toy vehicle does not have the skull portion 710 and the third connecting portion 530.

Specifically, a first connecting piece 500 and a second connecting piece 610 are respectively arranged at the front side and the rear side of the body bottom module 210 of the limb toy car, and the first connecting piece 500 comprises a first connecting part 510 and a second connecting part 520 which are mutually rotatably connected; wherein the first connection portion 510 is used for connecting a body toy vehicle; the second connecting portion 520 is used for movably connecting the vehicle surface module 110. Similarly, the floor module 110 may be independently detached from the floor module 210 or may be assembled to the floor module 210.

As shown in fig. 12, 13, 14 and 7, the limb toy vehicle differs from the body toy vehicle by: second connector 610 is used to connect limb assembly 720 and/or weapon assembly 730. Wherein, the weapon accessory 730 can be connected with the second connecting piece 610 after being integrated with the limb accessory 720; or can be detachably connected with the limb accessory 720 and arranged on the limb accessory 720 or the second connecting piece 610. Additionally, the limb accessory 720 and/or the weapon accessory 730 may be external components or may be removable components of the toy vehicle.

Preferably, the limb assembly 720 and/or the weapon assembly 730 are the first vehicle surface 310 and the second vehicle surface 320 on the toy vehicle, and the second connector 610 connects the first vehicle surface 310 and the second vehicle surface 320 to form the limb assembly 720 and the weapon assembly 730. Preferably, the second connecting member 610 is a ball joint 601, and the first vehicle surface 310/the second vehicle surface 320 is provided with a ball seat 502 for connecting the ball joint 601; and the first vehicle surface 310/the second vehicle surface 320 are provided with plug-in structures for mounting weapon accessories 730. In particular, the limb accessory 720 may be a palm or a sole of a robot; the weapon accessory 730 may be a weapon of a robot, such as a toy gun, toy rocket, or toy communicator.

Specifically, the first connecting member 500 and the second connecting member 610 are universal ball heads and ball seats matched with each other, wherein the positions and the number of the universal ball heads and the ball seats can be set as required, so as to achieve the effects of stability and rotatable connection.

Example 3

As shown in fig. 15, the present embodiment discloses a toy train, which comprises at least two toy vehicles as described above, wherein the toy vehicles are connected end to end in sequence to form the toy train.

In the technical scheme, the toy train is formed by connecting the toy cars end to end, so that the interestingness is increased.

As shown in fig. 16, in particular, a first connecting member 500 and a second connecting member 610 are respectively arranged at the front side and the rear side of a vehicle bottom module of the toy vehicle, wherein the first connecting member 500 comprises a first connecting part 510 and a second connecting part 520 which are rotatably connected with each other; the first connection part 510 is used for connecting the second connection part 610 of the previous toy vehicle; the second connecting portion 520 is used for movably connecting the vehicle surface module 110. The train face module 110 is detachably connected with the train bottom module 210 to form at least two different toy trains, wherein one toy train is provided with the train face module 110, and the other toy train is not provided with the train face module 110. In addition, different vehicle surfaces can be selectively installed on the vehicle surface module 110, so that more types of toy vehicles can be formed, and interestingness is increased.

Further, the first connecting member 500 and the second connecting member 610 are a universal ball head 601 and a ball seat 502, and the arrangement positions and the number of the universal ball head 601 and the ball seat 502 are not limited and can be arranged as required.

It should be understood that the above-mentioned embodiments of the present invention are only examples for clearly illustrating the technical solutions of the present invention, and are not intended to limit the specific embodiments of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention claims should be included in the protection scope of the present invention claims.

Claims (10)

1. A transformable toy vehicle, comprising: the vehicle comprises a vehicle body and a vehicle bottom module, wherein the vehicle body comprises a vehicle surface module and the vehicle bottom module which are detachably connected, and the vehicle surface module is arranged above the vehicle bottom module;

the left side and the right side of the vehicle bottom module are respectively provided with a wheel; the left side and the right side of the vehicle face module are respectively provided with a first side face part and a second side face part, and the first side face part and the second side face part are respectively matched with wheels to form a left vehicle body and a right vehicle body of the vehicle body;

a first vehicle surface is arranged on the upper surface of the vehicle surface module;

and/or a second vehicle surface is arranged on the lower surface of the vehicle surface module;

the vehicle face module is rotatably connected with the vehicle bottom module, so that the upper surface and the lower surface of the vehicle face module can be selectively and rotatably exposed above the vehicle bottom module to form two different vehicle types.

2. The transformable toy vehicle of claim 1,

the front side and the rear side of the vehicle surface module are respectively provided with a first vehicle head part and a second vehicle head part, and the second vehicle head part is rotatably connected with the vehicle bottom module; the first head section and the second head section selectively serve as a front side body and a rear side body of the vehicle body, respectively.

3. The transformable toy vehicle of claim 1,

the vehicle surface module and/or the vehicle bottom module are/is provided with a plurality of plug-in mounting structures;

the first vehicle surface and/or the second vehicle surface are/is connected with the vehicle surface module through the plug-in mounting structure.

4. The transformable toy vehicle of claim 1,

the first side surface part and the second side surface part are respectively provided with a limiting opening;

the left side and the right side of the vehicle bottom module are respectively provided with a convex limiting part at the positions corresponding to the first side part and the second side part;

the limiting part is connected with the limiting port in a matched mode so as to fix the first side face part and the second side face part on the left side and the right side of the vehicle bottom module.

5. A robot comprising a number of toy vehicles according to any of claims 1-4, further comprising peripheral body parts, limb parts and/or skull parts; the body member, limb member and/or skull member may be selectively coupled to a toy vehicle to form the robot.

6. A robot as claimed in claim 5,

the robot comprises at least five toy vehicles, namely at least one body toy vehicle and at least four limb toy vehicles, wherein the body toy vehicles form the body of the robot, and the limb toy vehicles are correspondingly connected to the hand and leg positions of the body toy vehicles to form the hand and leg positions of the robot;

the front side and the rear side of the vehicle bottom module of the body toy vehicle are respectively provided with a first connecting piece and a second connecting piece;

the first connecting piece comprises a first connecting part, a second connecting part and a third connecting part which are connected in sequence, and the first connecting part and the second connecting part are mutually connected in a rotating way;

the first connecting part is connected with a skull part; the vehicle bottom module is provided with an accommodating part for accommodating the skull part; or, for receiving the second connecting portion and a cranial component;

the second connecting part is used for movably connecting a second head part of the vehicle surface module;

the third connecting part is arranged on the outer side of the second connecting part and used for connecting the limb toy car to form a hand part of the robot;

the second connecting piece is used for connecting the limb toy car to form a leg part of the robot.

7. A robot as claimed in claim 6,

the front side and the rear side of a vehicle bottom module of the limb toy vehicle are respectively provided with a first connecting piece and a second connecting piece, and the first connecting piece comprises a first connecting part and a second connecting part which are mutually rotatably connected;

the first connecting part is used for connecting the body toy car;

the second connecting part is used for movably connecting a second head part of the vehicle surface module.

8. A robot according to claim 7,

the second connecting piece is used for connecting a peripheral limb accessory and/or a weapon accessory.

9. A robot according to claim 7,

the second connecting piece is used for connecting the first car surface and/or the second car surface to form a limb accessory and a weapon accessory;

alternatively, the second connector is for connecting the first and/or second vehicle faces to form a limb or weapon accessory.

10. A toy train, characterized in that, includes at least two toy vehicles according to any one of claims 1-4, wherein the toy vehicles are connected end to end in sequence to form the toy train.

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