CN218221065U - Vehicle-shaped toy capable of being transformed into robot - Google Patents

Abstract

The utility model discloses a car-shaped toy capable of being transformed into a robot, which has simple structure and is easy to realize, and the left hand part, the right hand part, the crotch part, the left leg part, the right leg part, the left side plate and the right side plate of the robot can be taken as the common parts of the robot shape and the car-shaped shape without being disassembled and assembled, thereby reducing the assembly difficulty and being beneficial to improving the market competitiveness; when the vehicle shape is formed, the left robot part, the right robot part, the left robot leg part, the right robot leg part, the left side plate and the right side plate are combined into a carriage positioned behind the vehicle head main body, the carriage is well shaped and can be respectively arranged in a swinging mode, deformation towards the robot shape is facilitated subsequently, the groove of the vehicle head main body is arranged, the robot head part can be conveniently connected in a swinging mode around a shaft in the left-right direction, therefore, the robot head part can be hidden downwards in the groove through swinging when the vehicle shape is formed, and the tidiness and tidiness of the appearance of the vehicle head under the vehicle shape are improved.

Description

Vehicle-shaped toy capable of being transformed into robot

Technical Field

The utility model relates to a vehicle-shaped toy which can be transformed into a robot.

Background

At present, the car-shaped toy is popular with children, and the existing toy which is disassembled into the car-shaped toy and then reassembled into the robot is good in entertainment, but is deformed in a disassembling mode, is complex in operation, is difficult to assemble for young children, is loose in assembled structure and is not beneficial to improving market competitiveness; in addition, the chest of the existing vehicle-shaped toy capable of being transformed into the robot is the head of the vehicle in the vehicle shape, the head of the vehicle is an integral part, and the head of the vehicle has no transformation function, so that the chest shape of the robot in the vehicle shape is not convenient to improve, and the market competitiveness is not improved.

Therefore, how to overcome the above-mentioned drawbacks has become an important issue to be solved by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

The utility model overcomes the defects of the prior art and provides a vehicle-shaped toy which can be transformed into a robot.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a car-shaped toy capable of being transformed into a robot comprises a car head main body 1 used as a robot trunk main body in a robot shape, wherein the car head main body 1 is provided with a first front-back channel 2, the front upper end of the car head main body 1 is connected with a car head upper shell 3 capable of swinging around a shaft in the left-right direction, the front lower end of the car head main body 1 is connected with a car head lower shell 4 capable of swinging around a shaft in the left-right direction, the car head upper shell 3 can be used for showing the upper half part of a front port of the first front-back channel 2 when swinging upwards in place and can shield the upper half part of the front port of the first front-back channel 2 when swinging downwards in place, the car head lower shell 4 can be used for showing the lower half part of the front port of the first front-back channel 2 when swinging downwards in place and can shield the lower half part of the front port of the first front-back channel 2 when swinging upwards in place, the left and right sides of the vehicle head main body 1 are provided with vehicle front wheels 5 or the left and right sides of the vehicle head lower shell 4 are provided with vehicle front wheels 5, the left rear side of the vehicle head main body 1 is connected with a left robot hand part 6 which can swing around a shaft in the vertical direction and is used as a left upper part of a carriage to swing backwards in place in the vehicle shape, the right rear side of the vehicle head main body 1 is connected with a right robot hand part 7 which can swing around a shaft in the vertical direction and is used as a right upper part of the carriage to swing backwards in place in the vehicle shape, the rear lower end of the vehicle head main body 1 is connected with a right robot leg part 8 which can swing around a shaft in the left and right directions and is used as a bottom part of a vehicle body to swing backwards in place in the vehicle shape, the left side of the robot leg part 8 is connected with a left robot leg part 9 which is used as a left lower part of the carriage to extend backwards in the vehicle shape, and the right side of the robot leg part 10 which is used as a right lower part of the carriage to extend backwards in the vehicle shape, the left leg part 9 of the robot is provided with a left vehicle rear wheel 11, the right leg part 10 of the robot is provided with a right vehicle rear wheel 12, the left leg part 9 of the robot is connected with a left side plate 13 which can swing around a shaft in the front-back direction when in a vehicle shape so as to be used as a carriage left side wall body when swinging upwards in place, the right leg part 10 of the robot is connected with a right side plate 14 which can swing around the shaft in the front-back direction when in the vehicle shape so as to be used as a carriage right side wall body when swinging upwards in place, the upper end of the vehicle head main body 1 is provided with a groove 15, and the groove 15 is connected with a robot head part 16 which can swing around the shaft in the left-right direction so as to be used as a robot head when swinging downwards in place and swinging upwards in place.

Preferably, the left robot hand part 6 is including connecting the left robot shoulder 61 and swing joint that can wind the axle wobbling of upper and lower direction in locomotive main part 1 left side are in swing joint the left robot arm 62 on the left robot shoulder 61, the right robot hand part 7 is including connecting right robot shoulder 71, swing joint that can wind the axle wobbling of upper and lower direction in locomotive main part 1 right side are in robot arm 72 on the right robot shoulder 71.

Preferably, the left side plate 13 is provided with a left robot sole portion 17 which moves together with the left side plate 13 and is used for supporting in the robot shape, and the right side plate 14 is provided with a right robot sole portion 18 which moves together with the right side plate 14 and is used for supporting in the robot shape.

Preferably, in the vehicle-shaped configuration, the robot left leg member 9 is swingable about a first axis in the vertical direction, and the robot right leg member 10 is swingable about a second axis in the vertical direction, and in the robot configuration, the robot left leg member 9 is swingable about the first axis in the front-rear direction, and the robot right leg member 10 is swingable about the second axis in the front-rear direction.

Preferably, the robot left leg member 9 includes a left leg 91 connected to the robot crotch member 8 and swingable about a first axis, a left swing seat 92 connected to the left leg 91 and swingable about an axis in a longitudinal direction of the left leg 91, the left vehicle rear wheel 11 and the left side plate 13 are respectively connected to the left swing seat 92, the robot right leg member 10 includes a right leg 101 connected to the robot crotch member 8 and swingable about a second axis, a right swing seat 102 connected to the right leg 101 and swingable about an axis in a longitudinal direction of the right leg 101, and the right vehicle rear wheel 12 and the right side plate 14 are respectively connected to the right swing seat 102.

Preferably, the first front-back channel 2 is provided with a robot arm 19 capable of extending forwards and retracting backwards, and linkage structures are arranged among the left robot hand part 6, the right robot hand part 7, the crotch robot part 8, the upper head shell 3 and the lower head shell 4 so as to drive the robot arm 19 to extend forwards when the toy forms the robot shape from the vehicle shape deformation and drive the robot arm 19 to retract backwards when the toy forms the vehicle shape from the robot shape deformation.

Preferably, the linkage structure includes a first linkage connecting rod 201 having one end hinged to the left rear end of the wu robot device 19 about a vertical axis, a second linkage connecting rod 202 having one end hinged to the right rear end of the wu robot device 19 about a vertical axis, and a third linkage connecting rod 203 having one end hinged to the rear lower end of the wu robot device 19 about a horizontal axis, the other end of the first linkage connecting rod 201 hinged to the left robot part 6 about a vertical axis so that the wu robot device 19 retracts rearward when the wu robot device is in the car shape and the left robot part 6 swings rearward relative to the wu robot body 1, the wu robot device 19 extends forward when the wu robot device is in the robot shape and the left robot part 6 swings outward relative to the wu robot body 1, the other end of the second linkage connecting rod 202 hinged to the right robot part 7 about a vertical axis so that the wu robot device 19 retracts rearward when the wu robot device is in the car shape and the wu robot part extends rearward when the wu robot device is in the car shape and the wu robot part 7 swings outward when the wu robot part is in the car shape and the wu robot part 7 and the front and rear wu robot part 8, and the front wu robot part 7 is hinged to the front and the front wu robot part 8.

Preferably, a first movable member 104 connected to the robot arm 19 and moving back and forth together is disposed in the headstock main body 1, a second movable member 105 for swinging up the headstock upper housing 3 when the first movable member 104 moves forward and swinging down the headstock upper housing 3 when the first movable member 104 moves backward is movably connected between the first movable member 104 and the headstock upper housing 3, and a third movable member 103 for swinging up the headstock lower housing 4 when the first movable member 104 moves forward and swinging down the headstock lower housing 4 when the first movable member 104 moves backward is movably connected between the first movable member 104 and the headstock lower housing 4.

Preferably, a second front-back channel 21 communicated with the groove 15 is formed in the rear side of the head main body 1, and a protrusion 191 capable of moving back and forth in the second front-back channel 21 to push the robot head part 16 to swing upwards when the robot head part 19 extends forwards and not to block the robot head part 16 to swing downwards when the robot head part 19 retracts backwards is formed on the robot head part 19.

Preferably, a first inserting structure for fixing the positions of the left leg part 9 and the right leg part 10 in the car shape is arranged between the two leg parts, and the first inserting structure comprises a first inserting block 301 arranged on the right side of the left leg part 9 of the robot and a first inserting groove 302 arranged on the right leg part 10 of the robot and matched with the first inserting block 301 in the car shape.

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

1. the structure of the robot is simple and easy to realize, the left-hand part, the right-hand part, the crotch part, the left-leg part, the right-leg part, the left side plate and the right side plate of the robot can be used as common parts of the robot shape and the vehicle shape without being disassembled and assembled, the assembly difficulty is reduced, so that children with small ages can play conveniently, and the market competitiveness is improved; when the vehicle-shaped form is formed, the left robot leg component, the right robot hand component, the left robot leg component, the right robot leg component, the left side plate and the right side plate are combined into a carriage positioned behind the vehicle head main body, the carriage is well-shaped and can be respectively arranged in a swinging manner, so that the subsequent deformation to the robot form is facilitated, in addition, the left side plate is movably connected with the left robot leg component and the right side plate is movably connected with the right robot leg component, and the playability, flexibility and shape of the left and right legs are favorably improved; the arrangement of the front wheels, the left rear wheels and the right rear wheels can improve the shape of the robot in shape; the groove at the upper end of the headstock main body is arranged to be convenient for swinging and connecting the robot head component around a shaft in the left-right direction, so that the robot head component can be swung to be hidden in the groove downwards without being raised upwards in the vehicle-shaped form, the tidiness of the appearance of the headstock in the vehicle-shaped form is improved, the robot head component can be swung to turn over from the groove in the robot-shaped form, and the playability is good.

2. This case the wu device of robot can the front and back to the setting of seesaw in the passageway with linkage structure's setting is convenient for on the one hand can pass through when car shape form linkage structure and make the wu device of robot is automatic to shrink back and hide in the front and back is to in the passageway, is favorable to improving the clean and tidy nature of car shape form lower head main part, and on the other hand is convenient for pass through when the robot shape linkage structure makes the wu device of robot is automatic to be followed stretch out forward to the passageway from front to back, is favorable to improving the molding when the robot shape, increases maneuverability and interest, and the practicality is good, is favorable to improving market competition.

3. The present case setting of first moving part, second moving part, third moving part is convenient for on the one hand when the wu device of robot contracts backward, the overhead casing of locomotive can fold up with locomotive inferior valve physical stamina enough automatically, is favorable to will when car shape form the front and back is hidden to the passageway, and on the other hand is convenient for when the wu device of robot stretches forward, the overhead casing of locomotive and locomotive inferior valve physical stamina enough automatic open and not right the wu device of robot stretches forward and forms the hindrance, and its linkage is good, can improve deformation speed, is favorable to improving market competition.

Drawings

Fig. 1 is a vehicle-shaped perspective view of the present application.

Fig. 2 is a bottom view of the present invention in a vehicle shape.

Fig. 3 is a partial structural view of the vehicle shape of the present disclosure with the robot head component hidden.

Fig. 4 is a perspective view of the robot in the present case.

Fig. 5 is a second perspective view of the robot in the present embodiment.

Fig. 6 is a partial schematic configuration diagram of the present robot.

Fig. 7 is a second partial schematic configuration diagram of the robot configuration.

Fig. 8 is a third partial schematic structural view of the present robot configuration.

Detailed Description

The features of the present invention and other related features are described in further detail below by way of examples to facilitate understanding by those skilled in the art:

as shown in fig. 1 to 5, a car-shaped toy capable of being transformed into a robot includes a car head main body 1 serving as a robot trunk main body in a robot shape, the car head main body 1 is provided with a first front-rear direction channel 2, a car head upper shell 3 capable of swinging around a left-right axis is connected to a front upper end of the car head main body 1, a car head lower shell 4 capable of swinging around a left-right axis is connected to a front lower end of the car head main body 1, an upper half portion of a front port of the first front-rear direction channel 2 can be displayed when the car head upper shell 3 swings upward in place, an upper half portion of a front port of the first front-rear direction channel 2 can be shielded when the car head upper shell 3 swings downward in place, a lower half portion of a front port of the first front-rear direction channel 2 can be displayed when the car head lower shell 4 swings downward in place, a front port of the first front-rear direction channel 2 can be shielded when the car head lower half portion swings upward in place, the left and right sides of the vehicle head main body 1 are provided with vehicle front wheels 5 or the left and right sides of the vehicle head lower shell 4 are provided with the vehicle front wheels 5, the left rear side of the vehicle head main body 1 is connected with a left robot part 6 which can swing around a shaft in the vertical direction and is used as a left upper part of a carriage to swing backwards in place in the vehicle-shaped form, the right rear side of the vehicle head main body 1 is connected with a right robot part 7 which can swing around a shaft in the vertical direction and is used as a right upper part of the carriage to swing backwards in place in the vehicle-shaped form, the rear lower end of the vehicle head main body 1 is connected with a right robot part 8 which can swing around a shaft in the left and right directions and is used as a bottom part of a vehicle body to swing backwards and upwards in place in the vehicle-shaped form, the left side of the robot part 8 is connected with a left leg part 9 of the left robot part 9 which is used as a left lower part of the carriage to extend backwards in the vehicle-shaped form, the right side of the vehicle-shaped structure is connected with a robot right leg part 10 which extends backwards to be used as a carriage right lower bottom part in the vehicle-shaped structure, a left vehicle rear wheel 11 is installed on the robot left leg part 9, a right vehicle rear wheel 12 is installed on the robot right leg part 10, the robot left leg part 9 is connected with a left side plate 13 which can swing around a shaft in the front-back direction in the vehicle-shaped structure to be used as a carriage left side wall body when swinging upwards to be in place, the robot right leg part 10 is connected with a right side plate 14 which can swing around the shaft in the front-back direction in the vehicle-shaped structure to be used as a carriage right side wall body when swinging upwards to be in place, a groove 15 is formed in the upper end of the vehicle head main body 1, and a robot head part 16 which can swing around the shaft in the left-right direction to be used as a robot head part when swinging downwards to be in place and swinging upwards to be used as a robot head part when swinging downwards to be in place is connected in the groove 15.

As described above, the structure of the robot left-hand component 6, the robot right-hand component 7, the robot crotch component 8, the robot left-leg component 9, the robot right-leg component 10, the left side plate 13 and the right side plate 14 can be used as common components of the robot shape and the vehicle shape without being disassembled and assembled, so that the assembly difficulty is reduced, children with small ages can play conveniently, and the market competitiveness is improved; when the vehicle shape is formed, the left robot leg part 6, the right robot hand part 7, the left robot leg part 9, the right robot leg part 10, the left side plate 13 and the right side plate 14 are combined into a carriage positioned behind the vehicle head main body 1, the carriage is well shaped and can be respectively arranged in a swinging manner, so that the subsequent deformation to the robot shape is facilitated, in addition, the left side plate 13 is movably connected with the arrangement of the left robot leg part 9 and the right side plate 14 is movably connected with the arrangement of the right robot leg part 10, and the playability, flexibility and shape of the left and right legs are favorably increased; the arrangement of the front wheels 5, the left rear wheels 11 and the right rear wheels 12 can improve the shape of the robot; the groove 15 at the upper end of the headstock body 1 is arranged to be convenient for swinging and connecting the robot head part 16 around a left-right axis, so that the robot head part 16 can be swung to be hidden in the groove 15 downwards without being protruded upwards in the vehicle-shaped form, the tidiness of the headstock appearance in the vehicle-shaped form is improved, and the robot head part 16 can be swung to be turned over from the groove 15 in the robot-shaped form, so that the playability is good.

As shown in fig. 4, in a specific implementation, the left robot hand member 6 includes a left robot shoulder 61 connected to the left side of the vehicle head body 1 and capable of swinging around a vertical axis and a left robot arm 62 movably connected to the left robot shoulder 61, and the right robot hand member 7 includes a right robot shoulder 71 connected to the right side of the vehicle head body 1 and capable of swinging around a vertical axis and a right robot arm 72 movably connected to the right robot shoulder 71, so that the left and right hand members 6 and 7 can be changed into various shapes in a robot form, thereby improving playability.

As shown in fig. 4 and 5, in a specific implementation, the left side plate 13 is provided with a left robot sole portion 17 which moves together with the left side plate 13 and is used for supporting in the robot form, and the right side plate 14 is provided with a right robot sole portion 18 which moves together with the right side plate 14 and is used for supporting in the robot form, so that in the robot form, the left sole portion 17 and the right sole portion 18 improve standing stability in the robot form.

As shown in fig. 3 and 4, in the vehicle-shaped configuration, the robot left leg member 9 is swingable about a first axis in the vertical direction, and the robot right leg member 10 is swingable about a second axis in the vertical direction, and in the robot configuration, the robot left leg member 9 is swingable about the first axis in the front-rear direction, and the robot right leg member 10 is swingable about the second axis in the front-rear direction, which is advantageous for improving the flexibility.

As shown in fig. 4, in a specific embodiment, the robot left leg member 9 includes a left leg 91 connected to the robot crotch member 8 and swingable about a first axis, and a left swing seat 92 connected to the left leg 91 and swingable about an axis in a longitudinal direction of the left leg 91, the left rear wheel 11 and the left side plate 13 are connected to the left swing seat 92, respectively, the robot right leg member 10 includes a right leg 101 connected to the robot crotch member 8 and swingable about a second axis, and a right swing seat 102 connected to the right leg 101 and swingable about an axis in a longitudinal direction of the right leg 101, and the right rear wheel 12 and the right side plate 14 are connected to the right swing seat 102, respectively.

As described above, the left vehicle rear wheel 11 and the left side plate 13 are both connected to the left leg 91 through the left swing seat 92, so that both the left vehicle rear wheel 11 and the left side plate 13 can swing around the first axis with the left swing seat 92 relative to the left leg 91, and the left vehicle rear wheel 11 and the left side plate 13 can also swing around the axis in the length direction relative to the left swing seat 92, and therefore, the left vehicle rear wheel 11 and the left side plate 13 have good flexibility and playability; the right side vehicle rear wheel 12 and the right side plate 14 can swing around a second axis along with the right swing seat 102 relative to the right leg 101, and the right side vehicle rear wheel 12 and the right side plate 14 can also swing around a longitudinal axis relative to the right swing seat 102, so that the flexibility is good, and the playability is good.

As shown in fig. 4, a robot weapon device 19 capable of extending forwards and retracting backwards is installed in the first front-back channel 2, and a linkage structure is arranged among the left robot hand part 6, the right robot hand part 7, the robot crotch part 8, the head upper shell 3 and the head lower shell 4 so as to drive the robot weapon device 19 to extend forwards when the toy is deformed into a robot shape from a car shape and drive the robot weapon device 19 to retract backwards when the toy is deformed into a car shape from a robot shape.

As described above, the arrangement of the robot arm 19 capable of moving back and forth in the first longitudinal passage 2 and the arrangement of the linkage structure facilitate the robot arm 19 to automatically retract back and hide in the first longitudinal passage 2 through the linkage structure in the car shape, which is advantageous for improving the tidiness of the head main body 1 in the car shape, and facilitate the robot arm 19 to automatically extend forward from the first longitudinal passage 2 through the linkage structure in the robot shape, which is advantageous for improving the shape in the robot shape, increasing the playability and the interest, and improving the market competitiveness.

As shown in fig. 5 and 7, in an embodiment, the linkage structure includes a first linkage connecting rod 201 having one end hinged to the left rear end of the robotic device 19 about a vertical axis, a second linkage connecting rod 202 having one end hinged to the right rear end of the robotic device 19 about a vertical axis, a third linkage connecting rod 203 having one end hinged to the rear lower end of the robotic device 19 about a horizontal axis, the other end of the first linkage connecting rod 201 hinged to the left robotic component 6 about a vertical axis so that the robotic device 19 retracts backward and the left robotic head 6 swings backward relative to the head body 1 in the vehicle configuration, the robotic device 19 extends forward and the left robotic head 6 swings outward relative to the head body 1 in the robotic configuration, the other end of the second linkage connecting rod 202 hinged to the right robotic head 7 about a vertical axis so that the robotic head 19 retracts backward relative to the head body 1 in the vehicle configuration, the robotic device 19 extends forward and the left robotic head 6 swings outward relative to the head body 1 in the vehicle configuration, the robotic device 19 extends forward and the robot head 8 relative to the rear configuration, the robotic device 7 and the robotic device 7 extends forward and the rear configuration when the robotic device 1 and the robotic device 2 swings upward and the robotic device 7 in the robotic configuration, the deformation speed is improved.

As shown in fig. 8, in a specific implementation, a first movable element 104 connected to the robot arm 19 and moving back and forth together is disposed in the vehicle head main body 1, a second movable element 105 for swinging up the vehicle head upper housing 3 when the first movable element 104 moves forward and swinging down the vehicle head upper housing 3 when the first movable element 104 moves backward is movably connected between the first movable element 104 and the vehicle head upper housing 3, and a third movable element 103 for swinging down the vehicle head lower housing 4 when the first movable element 104 moves forward and swinging up the vehicle head lower housing 4 when the first movable element 104 moves backward is movably connected between the first movable element 104 and the vehicle head lower housing 4.

As described above, the first movable member 104, the second movable member 105, and the third movable member 103 of the present disclosure are disposed, on one hand, when the robotic arm device 19 retracts backward, the head upper housing 3 and the head lower housing 4 can be automatically folded, which is beneficial to hiding the first front-back channel 2 in the vehicle shape, on the other hand, when the robotic arm device 19 extends forward, the head upper housing 3 and the head lower housing 4 can be automatically opened without hindering the forward extension of the robotic arm device 19, which is good in linkage, capable of increasing the deformation speed, and beneficial to increasing the market competitiveness.

As shown in fig. 5, 6 and 7, a second front-back channel 21 communicated with the groove 15 is formed at the rear side of the head main body 1, and a protrusion 191 which can move back and forth in the second front-back channel 21 and is used for pushing the robot head part 16 to swing upwards when the robot head part 19 extends forwards and does not block the robot head part 16 to swing downwards when the robot head part 19 retracts backwards is formed on the robot head part 19, so that the linkage is good.

As shown in fig. 5, in a specific implementation, a first inserting structure for fixing the positions of the left leg member 9 and the right leg member 10 in the car shape is provided between the two members, and the first inserting structure includes a first inserting block 301 provided on the right side of the left leg member 9 of the robot and a first inserting slot 302 provided on the right leg member 10 of the robot for inserting into the first inserting block 301 in the car shape.

As described above, the present application protects a car-shaped toy that can be transformed into a robot, and all technical solutions that are the same as or similar to the present application should be considered to fall within the scope of the present application.

Claims (10)

1. A vehicle-shaped toy capable of being deformed into a robot is characterized by comprising a vehicle head main body (1) used as a trunk main body of the robot in a robot shape, wherein the vehicle head main body (1) is provided with a first front-back direction channel (2), the front upper end of the vehicle head main body (1) is connected with a vehicle head upper shell (3) capable of swinging around a shaft in the left-right direction, the front lower end of the vehicle head main body is connected with a vehicle head lower shell (4) capable of swinging around the shaft in the left-right direction, the vehicle head upper shell (3) can be used for showing the front port upper half part of the first front-back direction channel (2) when swinging upwards in place and shielding the front port upper half part of the first front-back direction channel (2) when swinging downwards in place, the vehicle head lower shell (4) can be used for showing the front port lower half part of the first front-back direction channel (2) when swinging downwards in place, the vehicle head lower shell (4) can be used for shielding the front port lower half part (5) of the first front-back direction channel (2) when swinging upwards in place, the vehicle head main body (1) is installed on the left side and the vehicle head main body (1) is connected with a vehicle head upper part (6) capable of swinging around the left-right side and swinging around the vehicle head upper part when swinging around the left-back shaft in place, the rear lower end of the vehicle head main body (1) is connected with a robot crotch part (8) which can swing around a shaft in the left-right direction and can swing to the position in the back upper direction to be used as a vehicle body bottom part in the vehicle-shaped form, the left side of the robot crotch part (8) is connected with a robot left leg part (9) which is used as a carriage left bottom part and extends backwards in the vehicle-shaped form, the right side of the robot crotch part is connected with a robot right leg part (10) which is used as a carriage right bottom part and extends backwards in the vehicle-shaped form, a left vehicle rear wheel (11) is installed on the robot left leg part (9), a right vehicle rear wheel (12) is installed on the robot right leg part (10), the left leg part (9) of the robot is connected with a left side plate (13) which can swing around a shaft in the front-back direction when in a car shape so as to be used as a left side wall body of a carriage when swinging upwards to a certain position, the right leg part (10) of the robot is connected with a right side plate (14) which can swing around a shaft in the front-back direction when in a car shape so as to be used as a right side wall body of the carriage when swinging upwards to a certain position, a groove (15) is arranged at the upper end of the head main body (1), and a robot head part (16) which can swing around a shaft in the left-right direction so as to be used as a head part of the robot when swinging downwards to a certain position and swinging upwards to a certain position is connected in the groove (15).

2. The vehicle-shaped toy capable of being transformed into a robot as claimed in claim 1, wherein the left robot hand component (6) comprises a left robot shoulder (61) connected to the left side of the vehicle head body (1) and capable of swinging around a vertical axis and a left robot arm (62) movably connected to the left robot shoulder (61), and the right robot hand component (7) comprises a right robot shoulder (71) connected to the right side of the vehicle head body (1) and capable of swinging around a vertical axis and a right robot arm (72) movably connected to the right robot shoulder (71).

3. A vehicle-shaped toy convertible into a robot according to claim 1, characterized in that said left side plate (13) is provided with a left robot foot sole portion (17) movable with the left side plate (13) for supporting in the robot configuration, and said right side plate (14) is provided with a right robot foot sole portion (18) movable with the right side plate (14) for supporting in the robot configuration.

4. The vehicle-shaped toy convertible into a robot according to claim 1, wherein said left robot leg member (9) is swingable about a first vertical axis and said right robot leg member (10) is swingable about a second vertical axis in the vehicle-shaped configuration, and wherein said left robot leg member (9) is swingable about a first vertical axis and said right robot leg member (10) is swingable about a second vertical axis in the robot-shaped configuration.

5. A vehicle-shaped toy convertible into a robot as claimed in claim 4, wherein said robot left leg member (9) comprises a left leg (91) connected to said robot crotch member (8) and swingable about a first axis, a left swing seat (92) connected to said left leg (91) and swingable about an axis in a longitudinal direction of said left leg (91), said left vehicle rear wheel (11) and said left side plate (13) being connected to said left swing seat (92), respectively, said robot right leg member (10) comprises a right leg (101) connected to said robot crotch member (8) and swingable about a second axis, a right swing seat (102) connected to said right leg (101) and swingable about an axis in a longitudinal direction of said right leg (101), and said right vehicle rear wheel (12) and said right side plate (14) being connected to said right swing seat (102), respectively.

6. A vehicle-shaped toy transformable into a robot according to any one of claims 1-5, characterized in that the first forward and backward channel (2) is installed with robot arms (19) which can extend forward and retract backward, and linkage structures are arranged among the left robot part (6), the right robot part (7), the crotch robot part (8), the upper headstock shell (3) and the lower headstock shell (4) so as to drive the robot arms (19) to extend forward when the toy is transformed into the vehicle-shaped form from the vehicle-shaped form and to drive the robot arms (19) to retract backward when the toy is transformed into the vehicle-shaped form from the robot-shaped form.

7. A vehicle-shaped toy transformable into a robot according to claim 6, characterized in that said linkage structure comprises a first linkage rod (201) with one end hinged to the left rear end of said robot arm (19) around an axis in the up-down direction, a second linkage rod (202) with one end hinged to the right rear end of said robot arm (19) around an axis in the up-down direction, a third linkage rod (203) with one end hinged to the rear lower end of said robot arm (19) around an axis in the left-right direction, the other end of said first linkage rod (201) hinged to said left robot arm (6) around an axis in the up-down direction for retracting said robot arm (19) backward in the vehicle-shaped configuration and said left robot arm (6) backward with respect to said vehicle head body (1), the robot arm (19) extending forward in the robot-shaped configuration and said left robot arm (6) extending forward with respect to said vehicle head body (1), the other end of said robot arm (6) outward with respect to said vehicle head body (1) for retracting forward in the robot arm (7) around said left robot arm (7) backward in the vehicle-shaped configuration and said right robot arm (7) hinged to said vehicle-shaped configuration, the other end of the third linkage connecting rod (203) is hinged with the robot crotch component (8) around a shaft in the front-back direction so that the robot wrist component (19) retracts backwards in the vehicle-shaped form, the robot crotch component (8) swings backwards and upwards relative to the vehicle head main body (1), the robot wrist component (19) extends forwards in the robot-shaped form, and the robot crotch component (8) swings downwards relative to the vehicle head main body (1).

8. The vehicle-shaped toy which can be transformed into a robot according to claim 7 is characterized in that a first movable member (104) which is connected with the robot device (19) and moves back and forth together is arranged in the vehicle head main body (1), a second movable member (105) which is used for enabling the vehicle head upper shell (3) to swing upwards when the first movable member (104) moves forward and enabling the vehicle head upper shell (3) to swing downwards when the first movable member (104) moves backwards is movably connected between the first movable member (104) and the vehicle head lower shell (4), and a third movable member (103) which is used for enabling the vehicle head lower shell (4) to swing downwards when the first movable member (104) moves forwards and enabling the vehicle head lower shell (4) to swing upwards when the first movable member (104) moves backwards is movably connected between the first movable member (104) and the vehicle head lower shell (4).

9. The vehicle-shaped toy transformable into a robot according to claim 7, characterized in that a second front-back channel (21) communicating with the groove (15) is opened at the rear side of the head body (1), the robot arm device (19) is provided with a protrusion (191) capable of moving back and forth in the second front-back channel (21) for pushing the robot head part (16) to swing up when the robot arm device (19) extends forward, and not obstructing the robot head part (16) from swinging down when the robot arm device (19) retracts backward.

10. The vehicle-shaped toy capable of being transformed into a robot according to claim 1, wherein a first plug-in structure for fixing the left leg part (9) and the right leg part (10) of the robot in position in the vehicle-shaped form is arranged between the left leg part (9) and the right leg part, and the first plug-in structure comprises a first plug-in block (301) arranged on the right side of the left leg part (9) of the robot and a first plug-in groove (302) arranged on the right leg part (10) of the robot and used for being matched and plugged with the first plug-in block (301) in the vehicle-shaped form.

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