CN219307902U

CN219307902U - Cross-country vehicle robot deformation toy

Info

Publication number: CN219307902U
Application number: CN202321477115.0U
Authority: CN
Inventors: 蔡少先
Original assignee: Shantou Erchaoxi Intelligent Technology Industry Co ltd
Current assignee: Shantou Erchaoxi Intelligent Technology Industry Co ltd
Priority date: 2023-06-12
Filing date: 2023-06-12
Publication date: 2023-07-07
Anticipated expiration: 2033-06-12

Abstract

The utility model relates to the technical field of deformation toys, in particular to a cross-country vehicle robot deformation toy. The technical scheme is as follows: comprises a head part, a body part and a tail part; the bottom end of the vehicle body part is detachably connected with the top end of the vehicle head part; the vehicle body part comprises a vehicle body shell body and a telescopic head part, and the telescopic head part is connected in the vehicle body shell body in a sliding manner; the vehicle tail part comprises a left side part and a right side part, the left side part and the right side part both comprise a folding arm assembly and a vehicle tail shell, and the left side part and the right side part are detachably connected with two sides of the vehicle body part through the folding arm assembly. The beneficial effects are that: the utility model has the beneficial effects that: the cross-country vehicle-shaped toy main body is divided into the three parts of the head part, the body part and the tail part, the three parts of the head part, the body part and the tail part are respectively deformed and then assembled to form the robot-shaped toy main body, and the front toy main body and the rear toy main body can be inserted and fixed on the inserting seat, so that the cross-country vehicle-shaped toy main body has higher playability.

Description

Cross-country vehicle robot deformation toy

Technical Field

The utility model relates to the technical field of deformation toys, in particular to a cross-country vehicle robot deformation toy.

Background

The deformation toy is a toy with stronger playability, the model of the toy can be changed in the modes of disassembly, rotation, assembly and the like, the interest of playing by children can be effectively improved, and meanwhile, the hands-on ability and the perception ability of space change can be improved in the playing process of the children. The existing deformation toy is mainly divided into a plurality of types or a plurality of types, wherein the plurality of types refers to a plurality of toy monomers which are split into a plurality of toy main bodies in a disassembling mode, or the plurality of toy monomers can be considered to be combined to form a toy main body, and the plurality of types refers to a plurality of types of deformation toy main bodies which are deformed into another modeling toy main body in a rotating mode, a telescopic mode and the like. One of the deformation toys is a deformation toy, which has the problems that the deformation mode is single (the deformation can be carried out only by a simple rotation and expansion mode) and the external forms between the two toy main bodies are too close before and after deformation, so that the playability of the toy is limited to a certain extent.

Disclosure of Invention

The utility model aims to provide an off-road vehicle-dinosaur transformable toy, in particular to a transformable toy which can be transformed between an off-road vehicle model and a robot model and has high playability.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a cross-country vehicle robot deformation toy comprises a vehicle head part, a vehicle body part and a vehicle tail part; the bottom end of the vehicle body part is detachably connected with the top end of the vehicle head part; the vehicle body part comprises a vehicle body shell and a telescopic head, and the telescopic head is connected in the vehicle body shell in a sliding manner; the vehicle tail part comprises a left side part and a right side part, the left side part and the right side part comprise a turnover arm assembly and a vehicle tail shell, the turnover arm assembly is rotationally connected with the vehicle tail shell, and the left side part and the right side part are detachably connected with two sides of the vehicle body part through the turnover arm assembly.

Specifically, the automobile comprises an automobile head part, an automobile body part and an automobile tail part, and also comprises an inserting seat, wherein the automobile head part, the automobile body part and the automobile tail part are inserted and fixed on the inserting seat.

Specifically, the top end of the telescopic head extends out from the top end of the body outer shell, and two searchlight components are arranged at the top end of the telescopic head.

Specifically, the bottom end of the telescopic head is in sliding connection with the inside of the car body shell through a sliding groove structure.

Specifically, the bottom end of the telescopic head is provided with a sliding block, the inner side of the outer shell of the vehicle body is provided with a sliding groove which is correspondingly matched with the sliding block, and the telescopic head stretches and slides in the sliding groove of the inner side of the outer shell of the vehicle body through the sliding block.

Specifically, an elastic clamping groove is formed in the sliding groove.

Specifically, the turnover arm assembly comprises a big arm assembly and a small arm assembly, the outer side of the big arm assembly is rotationally connected with the inner side of the small arm assembly, the outer side of the small arm assembly is rotationally connected with the inner side of the tail shell, and the big arm assembly and the small arm assembly can be accommodated in the tail shell; the large arm assemblies of the left side part and the right side part are detachably connected with two sides of the vehicle body part.

Specifically, the outer sides of the tail shells of the left side part and the right side part are respectively provided with a hook part, and the hook parts are rotationally connected with the outer sides of the tail shells.

The utility model has the beneficial effects that: the cross-country vehicle-shaped toy main body is divided into the three parts of the head part, the body part and the tail part, the three parts of the head part, the body part and the tail part are respectively deformed and then assembled to form the robot-shaped toy main body, and the front toy main body and the rear toy main body can be inserted and fixed on the inserting seat, so that the cross-country vehicle-shaped toy main body has higher playability.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a wild car model in an embodiment;

FIG. 2 is a split structure diagram of a wild car model in an embodiment;

FIG. 3 is a schematic view of the overall structure of the robot model in an embodiment;

FIG. 4 is a diagram of a split state of the body and legs of the robot in an embodiment;

FIG. 5 is a diagram showing a specific connection structure inside the robot body in the embodiment;

FIG. 6 is a specific structural view of the inside of the outer shell of the vehicle body in the embodiment;

fig. 7 is a diagram showing a deformation process of the tail piece into the double arms of the robot in the embodiment.

Description of the embodiments

1, referring to fig. 1-7, an off-road vehicle robot deformation toy comprises a head part 1, a body part 2 and a tail part 3; the bottom end of the vehicle body part 2 is detachably connected with the top end of the vehicle head part 1; the body part 2 comprises a body outer shell 21 and a telescopic head 22, wherein the telescopic head 22 is slidably connected in the body outer shell 21; the vehicle tail part 3 comprises a left side part 31 and a right side part 32, the left side part 31 and the right side part 32 comprise a turnover arm assembly 34 and a vehicle tail shell 33, the turnover arm assembly 34 is rotationally connected with the vehicle tail shell 33, and the left side part 31 and the right side part 32 are detachably connected with two sides of the vehicle body part 2 through the turnover arm assembly 34.

In this embodiment, the head part 1, the body part 2 and the tail part 3 form a toy body of an off-road vehicle model, when the toy body needs to be deformed into a robot model, the bottom end of the body part 2 is inserted into the head part 1, the head part 1 serves as both legs of the robot, the telescopic head 22 of the body part 2 slides upwards from the inside of the body shell 21, the telescopic head 22 serves as the head of the robot, the body shell 21 serves as the body of the robot, the left side part 31 and the right side part 32 of the tail part 3 are detached, and the turnover arm assemblies 34 are turned out from the tail shell 33 and are inserted into two sides of the body part 2 to serve as both hands of the robot, so that the deformation of the off-road vehicle model into the robot model is completed.

In order to further improve the playability of the transformable toy, and simultaneously facilitate the assembly of the head part 1, the body part 2 and the tail part 3 before and after the transformation, the transformable toy of the embodiment further comprises a plug-in seat 4, and the head part 1, the body part 2 and the tail part 3 are fixedly plugged on the plug-in seat 4; the docking station 4 may be a vehicle base, such as a vehicle base with a wheel assembly or a track assembly or the like that may drive the mobile device. Wherein, can adopt the structure of buckle 41 and draw-in groove 42 to dismantle between locomotive part 1, automobile body part 2 and automobile tail part 3 and the grafting seat 4 to connect, if can set up buckle 41 in locomotive part 1, automobile body part 2 and automobile tail part 3 below, set up draw-in groove 42 on grafting seat 4. Meanwhile, in order to facilitate connection of the head part 1 and the body part 2 with the socket after deformation, the clamping groove structure on the socket 4 for connection with the head part 1 and the body part 2 is the same, so that the head part 1 can be plugged in the middle part of the socket 4, which is originally used for plugging in the body part 2, when the cross-country vehicle is deformed into a robot, in addition, the top end of the head part 1 is also provided with a clamping groove 42 with the same structure as the socket 4 for matching connection with a clamping buckle 41 at the bottom end of the body part 2.

Specifically, the distal end of the telescopic head 22 extends from the distal end of the vehicle body outer case 21, and the distal end of the telescopic head 22 is provided with two searchlight members 20. The two searchlight members 20 at the distal end of the telescoping head 22 are deformable to function as both eyes of a robot when the robot is modeled. In addition, the bottom end of the telescopic head 22 is in sliding connection with the inside of the vehicle body outer shell 21 through a chute structure; the bottom end of the telescopic head 22 is provided with a sliding block 23, the inner side of the vehicle body shell 21 is provided with a sliding groove 24 correspondingly matched with the sliding block 23, and the telescopic head 22 slides in a telescopic way through the sliding block 23 in the sliding groove 24 of the inner side of the vehicle body shell 21; meanwhile, an elastic clamping groove 25 is arranged on the sliding groove 24. When the telescopic head 22 slides upwards along the chute 24 from the body outer shell 21, the sliding block 23 at the bottom end of the telescopic head 22 can be clamped in the elastic clamping groove 25 of the chute 24, so that the telescopic head 22 is supported.

Specifically, the folding arm assembly 34 includes a large arm assembly 341 and a small arm assembly 342, the outer side of the large arm assembly 341 is rotationally connected with the inner side of the small arm assembly 342, the outer side of the small arm assembly 342 is rotationally connected with the inner side of the tail shell 33, and the large arm assembly 341 and the small arm assembly 342 can be accommodated in the tail shell 33; the large arm assemblies 341 of the left and

right side members

31 and 32 are detachably attached to both sides of the vehicle body member 2. The folding arm assembly 34 is composed of the large arm assembly 341 and the small arm assembly 342, and can improve the playability after the left side member 31 and the right side member 32 are deformed into both hands of the robot. In addition, in order to facilitate the overturning of the large arm assembly 341 and the small arm assembly 342 in the tail shell 33, the outer side of the large arm assembly 341 is provided with the plug post 343, the small arm assembly 342 is provided with two plug holes 344, one of the plug holes 344 is close to the junction of the small arm assembly 342 and the tail shell 33, the other plug hole 344 is far away from the junction of the small arm assembly 342 and the tail shell 33, when the large arm assembly 341 and the small arm assembly 342 are accommodated in the tail shell 33, the plug holes 344 close to the junction of the small arm assembly 342 and the tail shell 33 are connected with the plug post 343, and when the large arm assembly 341 and the small arm assembly 342 are overturned out of the tail shell 33, the plug holes 344 far away from the junction of the small arm assembly 342 and the tail shell 33 are connected with the plug post 343.

Further, the left and

right members

31 and 32 are each provided with a hook portion 35 on the outer side of the rear shell 33, and the hook portion 35 is rotatably connected to the outer side of the rear shell 33. After the left side member 31 and the right side member 32 are deformed into both hands of the robot shape, the rear shell 33 serves as the palm of the robot, and at this time, the hook 35 on the outer side of the rear shell 33 is rotated outwards to form the thumb on the palm of the robot, thereby further improving the playability of the deformed toy.

Of course, the above embodiments are only preferred embodiments of the present utility model, and the scope of the present utility model is not limited thereto, so that all equivalent modifications made in the principles of the present utility model are included in the scope of the present utility model.

Claims

1. The utility model provides a cross country vehicle robot deformation toy which characterized in that: comprises a head part, a body part and a tail part; the bottom end of the vehicle body part is detachably connected with the top end of the vehicle head part; the vehicle body part comprises a vehicle body shell and a telescopic head, and the telescopic head is connected in the vehicle body shell in a sliding manner; the vehicle tail part comprises a left side part and a right side part, the left side part and the right side part comprise a turnover arm assembly and a vehicle tail shell, the turnover arm assembly is rotationally connected with the vehicle tail shell, and the left side part and the right side part are detachably connected with two sides of the vehicle body part through the turnover arm assembly.

2. An off-road vehicle robot morphing toy according to claim 1, wherein: the automobile head part, the automobile body part and the automobile tail part are inserted and fixed on the inserting seat.

3. An off-road vehicle robot morphing toy according to claim 1, wherein: the top end of the telescopic head extends out of the top end of the outer shell of the automobile body, and two searchlight components are arranged at the top end of the telescopic head.

4. An off-road vehicle robot morphing toy according to claim 1, wherein: the bottom end of the telescopic head is in sliding connection with the inside of the car body outer shell through a sliding groove structure.

5. An off-road vehicle robot morphing toy of claim 4, wherein: the telescopic head is provided with a sliding block at the bottom end, a sliding groove is formed in the inner side of the outer shell of the automobile body and is correspondingly matched with the sliding block, and the telescopic head stretches and slides in the sliding groove in the inner side of the outer shell of the automobile body through the sliding block.

6. The off-road vehicle robotic morphing toy of claim 5, wherein: an elastic clamping groove is formed in the sliding groove.

7. An off-road vehicle robot morphing toy according to claim 1, wherein: the folding arm assembly comprises a big arm assembly and a small arm assembly, the outer side of the big arm assembly is rotationally connected with the inner side of the small arm assembly, the outer side of the small arm assembly is rotationally connected with the inner side of the tail shell, and the big arm assembly and the small arm assembly can be accommodated in the tail shell; the large arm assemblies of the left side part and the right side part are detachably connected with two sides of the vehicle body part.

8. An off-road vehicle robot morphing toy according to claim 1, wherein: the left side part and the right side part are respectively provided with a hook part at the outer side of the tail shell, and the hook parts are rotationally connected with the outer side of the tail shell.