CN214714310U

CN214714310U - Toy of satellite deformation robot

Info

Publication number: CN214714310U
Application number: CN202121212162.3U
Authority: CN
Inventors: 王跃辉
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-06-01
Filing date: 2021-06-01
Publication date: 2021-11-16
Anticipated expiration: 2031-06-01

Abstract

The utility model relates to a toy of a satellite deformation robot, which comprises a satellite body, wherein the satellite body comprises a bottom shell, a satellite shell which is assembled with the bottom shell in a telescopic way and an upper cover shell which is connected with the satellite shell; the bottom shell comprises two spliced shells which are spliced with each other, and the spliced shells are connected with the satellite shell in a turnover manner; the satellite shell is provided with a head part, and the head part is positioned between the satellite shell and the upper cover shell; the upper cover shell comprises two groups of assembled cover components which are spliced with each other, and the assembled cover components are connected with the satellite shell in a turnover mode; when deforming, the drain pan extends for the satellite shell, unpacks two and assembles the shell apart to form the shank, unpack two sets apart equipment lid subassembly and for the upset of satellite shell, in order to expose the head and form arm and truck, realize that the satellite body expandes to warp and becomes the robot body.

Description

Toy of satellite deformation robot

Technical Field

The utility model belongs to the technical field of the technique of toy and specifically relates to a toy of satellite deformation robot is related to.

Background

The improvement is open, the aerospace industry of China is rapidly developed, therefore, the artificial satellite technology is also rapidly developed, and the Beidou satellite system of China is an internationally advanced satellite system and can be compared favorably with the GPS of the United states; how to enable children to learn space knowledge from a small scale and cultivate space interest and convey talents for future space industry in China is an important measure for the future space industry in China to enter a new high level, wherein satellites are used as important components of modern communication and have important significance for future international competition. The way that children learn space knowledge, learn satellite knowledge and cultivate space interest is many, for example through books, TV plays, animation films and toys, etc., wherein, because children love the nature of playing, learning difficulty through books is great, and the study of TV plays and animation films is not directly perceived, has solved this problem through the toy study fine.

The existing satellite-type toy has the defects of low cost, simple structure, no dynamic sense, no deformation and the like, is poor in interestingness, is difficult to arouse the interest of children, and is more difficult to realize learning related knowledge by playing the satellite-type toy.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a satellite deformation robot's that is of strong interest toy.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

a toy of a satellite deformation robot comprises a satellite body, wherein the satellite body comprises a bottom shell, a satellite shell which is assembled with the bottom shell in a telescopic mode and an upper cover shell which is connected with the satellite shell; the bottom shell comprises two spliced shells which are spliced with each other, and the spliced shells are connected with the satellite shell in a turnover manner; the satellite shell is provided with a head part, and the head part is positioned between the satellite shell and the upper cover shell; the upper cover shell comprises two groups of assembled cover components which are spliced with each other, and the assembled cover components are connected with the satellite shell in a turnover mode; when deforming, the drain pan extends for the satellite shell, unpacks two and assembles the shell apart to form the shank, unpack two sets apart equipment lid subassembly and for the upset of satellite shell, in order to expose the head and form arm and truck, realize that the satellite body expandes to warp and becomes the robot body.

The utility model discloses further set up to: the satellite shell is provided with a sliding cavity with an opening facing the bottom shell, a moving part capable of reciprocating in the sliding cavity is connected in a sliding mode, the moving part and the assembling shell can be connected in a turnover mode, and when the assembling shell deforms, the moving part extends out of the sliding cavity to achieve the purpose that the bottom shell extends relative to the satellite shell.

The utility model discloses further set up to: the sliding cavity is provided with a sliding groove, the moving part is provided with a sliding rod matched with the sliding groove, and the sliding rod is clamped in the sliding groove to limit the moving part to be separated from the sliding cavity.

The utility model discloses further set up to: the moving part comprises a sliding block which slides back and forth in a reciprocating manner in the sliding cavity, a middle block which is rotatably connected with the sliding block and two extension blocks which are rotatably connected with the middle block, and the extension blocks are connected with the assembling shell in a turnover manner and deformed so as to facilitate the robot body to form different shapes.

The utility model discloses further set up to: the assembling shell comprises a containing shell and a telescopic rod which is telescopically clamped in an inner cavity of the containing shell, the telescopic rod is connected with the satellite shell in a turnover mode, and when the assembling shell deforms, the telescopic rod extends out of the inner cavity of the containing shell.

The utility model discloses further set up to: the inner cavity of the containing shell is provided with a limiting groove, the telescopic rod is provided with a limiting rod matched with the limiting groove, and the limiting rod is clamped in the limiting groove to limit the limiting rod from being separated from the inner cavity of the containing shell.

The utility model discloses further set up to: the outer side wall of the containing shell is provided with a battery panel, and the battery panel comprises a first plate body and a second plate body, wherein the first plate body is connected with the containing shell in a turnover mode, and the second plate body is connected with the first plate body in a turnover mode.

The utility model discloses further set up to: the satellite-borne satellite shell is characterized in that a decoration block is arranged on one side, away from the satellite shell, of the containing shell, a connection block is arranged between the decoration block and the containing shell, the connection block is connected with the decoration block and the containing shell in a turnover mode respectively, and when the satellite-borne satellite.

The utility model discloses further set up to: the assembly cover assembly comprises an upper arm and a hand, wherein the upper arm is connected with the satellite shell in a turnover mode, the hand is connected with the upper arm in a rotating mode, and when the assembly cover assembly is deformed, the upper arm is turned over relative to the satellite shell, and the hand rotates relative to the upper arm to form a hand arm.

The utility model discloses further set up to: the satellite shell is provided with a cavity with an opening facing the upper cover shell, the head is arranged in the cavity and is connected with the satellite shell in a turnover mode through the cavity, and when the head deforms, the head is opposite to the satellite shell in the cavity so as to be exposed.

To sum up, the utility model discloses a beneficial technological effect does:

the utility model has the advantages of being scientific and reasonable in design, moreover, the steam generator is simple in structure, compared with the prior art, satellite body and robot are independent complete molding, so that attract children's attention, the satellite body warp through expanding and becomes the robot body, the robot body warp through the shrink and becomes the satellite body, be favorable to taking exercise children's hands-on ability, the modern design, and is interesting strong, so that keep children interest in the toy for a long time, help children to produce interest to the satellite, conveniently guide space flight knowledge such as children study satellite, cultivate self-study ability, be a good product of educating in entertainment, receive children and head of a family's favor easily.

Drawings

Fig. 1 is a schematic structural diagram of a satellite body according to the present invention;

fig. 2 is a schematic diagram of the process of the satellite body deformation robot body of the present invention;

fig. 3 is a schematic diagram of the process of the satellite body deformation robot body of the present invention;

fig. 4 is a schematic diagram of the process of the satellite body deformation robot body of the present invention;

fig. 5 is a schematic diagram of the process of the satellite body deformation robot body of the present invention;

fig. 6 is an exploded view of the process of the satellite body deformation robot body of the present invention;

fig. 7 is a schematic diagram of the process of the satellite body deformation robot body of the present invention;

fig. 8 is a schematic diagram of the process of the satellite body deformation robot body of the present invention;

fig. 9 is a schematic diagram of the process of the satellite body deformation robot body of the present invention;

fig. 10 is a schematic structural view of the robot body according to the present invention.

In the figure, 1, a bottom shell; 2. a satellite housing; 21. a sliding groove; 3. an upper cover shell; 4. assembling the shell; 41. a housing shell; 411. a limiting groove; 412. a decorative block; 413. connecting blocks; 42. a telescopic rod; 421. a base block; 422. a bearing block; 423. a slider; 424. a limiting rod; 5. assembling a cover assembly; 51. an upper arm; 511. a first assembly block; 512. a second assembly block; 513. a third assembly block; 514. a fourth assembly block; 515. a fifth assembly block; 52. a hand portion; 53. a weapon section; 6. a movable member; 61. a sliding block; 611. a slide bar; 62. a middle block; 63. an extension block; 7. a head portion; 8. a battery plate; 81. a first plate body; 82. a second plate body.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 to 10, the toy of the satellite deformation robot disclosed by the present invention comprises a satellite body and a robot body, which are independent and complete models, so that children can play the two models respectively, and interest of the children is aroused; the satellite body expands to warp and becomes the robot body, and the robot body contracts to warp and becomes the satellite body, is favorable to children to take exercise hands-on ability when playing the toy.

The satellite body includes drain pan 1, satellite shell 2 and upper cover shell 3, and satellite shell 2 is located between drain pan 1 and the upper cover shell 3, and satellite shell 2 is scalable with drain pan 1 and assembles, and satellite shell 2 is connected with upper cover shell 3.

In this embodiment, the bottom shell 1 includes two assembling shells 4 assembled with each other, the two assembling shells 4 are assembled together to form the bottom shell 1, the assembling shells 4 are connected with the satellite shell 2 in a turnable manner, when the satellite body is unfolded and deformed to become the robot body, the two assembling shells 4 assembled with each other are disassembled, and the assembling shells 4 are turned over relative to the satellite shell 2 to form the legs of the robot body; a sliding cavity is formed in the satellite shell 2, the opening of the sliding cavity faces the bottom shell 1, a moving part 6 capable of reciprocating in the sliding cavity is connected in a sliding mode, the satellite shell 2 is connected with the splicing shells 4 in a turnover mode through the moving part 6, when the satellite body is unfolded and deformed to become a robot body, the moving part 6 extends out of the opening of the sliding cavity through sliding, the bottom shell 1 is stretched relative to the satellite shell 2, and therefore the two splicing shells 4 of the bottom shell 1 can be conveniently disassembled; the moving part 6 includes the sliding block 61 that makes a round trip to reciprocate to slide in the sliding cavity, but middle block 62 and two with middle block 62 swivelling joint's extension piece 63 with sliding block 61 swivelling joint, extension piece 63 can overturn with assembling shell 4 and be connected, wherein, middle block 62 can stretch out the sliding cavity with extension piece 63 outside, when being in the robot body state, middle block 62 is located sliding block 61's below, two extension pieces 63 are located middle block 62's both sides, when the satellite body expandes the deformation and becomes the robot body, so that the robot body forms different molding, and form multiple different molding when being in the robot body, with the method of playing of abundant toy. The sliding cavity is internally provided with a sliding groove 21, the sliding block 61 is provided with a sliding rod 611 matched with the sliding groove 21, the sliding rod 611 can be clamped in the sliding groove 21 in a sliding manner, on one hand, the sliding of the sliding rod 611 in the sliding groove 21 is more regular and orderly, and on the other hand, the sliding block 61 is limited to be separated from the sliding cavity. The split shell 4 comprises a containing shell 41 and a telescopic rod 42 which is telescopically clamped in an inner cavity of the containing shell 41, the telescopic rod 42 is connected with the movable piece 6 in a turnover mode, and when the satellite body is unfolded and deformed to become the robot body, the telescopic rod 42 extends out of the inner cavity of the containing shell 41 so as to achieve the purpose that the bottom shell 1 extends relative to the satellite shell 2. The telescopic rod 42 comprises a base block 421 which can be turned over by the extending block 63 of the movable piece 6, a bearing block 422 which can be rotated and connected with the base block 421, and a sliding block 423 which can be turned and connected with the bearing block 422, wherein the sliding block 423 is clamped in the inner cavity of the accommodating shell 41, and the bearing block 422 is positioned between the base block 421 and the sliding block 423. The inner cavity of the containing shell 41 is provided with a limit groove 411, the sliding block 423 is provided with a limit rod 424 matched with the limit groove 411, and the limit rod 424 is clamped in the limit groove 411 to limit the sliding block 423 to be separated from the inner cavity of the containing shell 41. The battery panels 8 are arranged on two sides of the bottom shell 1, the battery panels 8 are located on the outer side wall of the accommodating shell 41, each battery panel 8 comprises a first plate body 81 and a second plate body 82, the first plate body 81 and the second plate body 81 are connected in a turnover mode, the first plate body 81 is turned over relative to the accommodating shell 41, the second plate body 82 is turned over relative to the first plate body 81, and the second plate body 82 is spliced on the outer wall of the accommodating shell 41 when the satellite body is unfolded and deformed to become a robot body. The side of the containing shell 41 far away from the satellite shell 2 is provided with a decoration block 412, a connection block 413 is arranged between the decoration block 412 and the containing shell 41, the connection block 413 is respectively connected with the decoration block 412 and the containing shell 41 in a turnover mode, when the satellite body is unfolded and deformed to become the robot body, the decoration block 412 is turned over relative to the containing shell 41 through the connection block 413 to form a foot of the robot body.

The upper cover shell 3 comprises two groups of assembled cover components 5 which are spliced with each other, and the assembled cover components 5 are connected with the satellite shell 2 in a turnover way; the satellite shell 2 is provided with a cavity with an opening facing the upper cover shell 3, a head 7 is connected in the cavity in a turnover mode, the cavity is covered by the two groups of assembly cover assemblies 5, when the satellite body is unfolded and deformed to become the robot body, the two groups of assembly cover assemblies 5 are turned over relative to the satellite shell 2 to expose the cavity, the head 7 is turned over in the cavity to expose the head 7 of the robot body, and the satellite shell 2 forms the trunk of the robot body; the assembly cover assembly 5 comprises an upper arm 51 which is connected with the satellite shell 2 in a turnable way and a hand 52 which is connected with the upper arm 51 in a turnable way, the hand 52 is positioned at the tail end of the upper arm 51 far away from the satellite shell 2, when the satellite shell is unfolded and deformed to become the robot body, the upper arm 51 is turned relative to the satellite shell 2, and the hand 52 is rotated relative to the upper arm 51 to form the arm part of the robot body. The hand 52 is detachably connected with the weapon 53 to enhance the interest of the robot body. The upper arm 51 comprises a first assembly block 511 which is connected with the satellite shell 2 in a turnover way, a second assembly block 512 which is connected with the first assembly block 511 in a turnover way, a third assembly block 513 which is connected with the second assembly block 512 in a rotation way, a fourth assembly block 514 which is sleeved between the first assembly block 511 and the second assembly block 512, and a fifth assembly block 515 which is connected with the fourth assembly block 514 in a turnover way, wherein the third assembly block 513 is connected with the hand 52 in a rotation way; when the satellite body is unfolded and deformed to become the robot body, the first assembly block 511 is turned with respect to the satellite housing 2, the second assembly block 512 is turned with respect to the first assembly block 511, the third assembly block 513 is rotated with respect to the second assembly block 512, and the fifth assembly block 515 is turned with respect to the fourth assembly block 514 to form the upper arm 51 of the robot body.

The implementation principle of the embodiment is as follows: referring to fig. 1 to 10, in order to change the satellite body into the robot body through unfolding and deformation, the bottom case 1 is extended relative to the satellite case 2 through the movable member 6 and the telescopic rod 42, and the two split cases 4 of the bottom case 1 are disassembled to form the legs of the robot body; the two groups of assembly cover assemblies 5 of the upper cover shell 3 are overturned relative to the satellite shell 2 to expose the cavity on the satellite shell 2, and the head 7 is overturned in the cavity to be exposed from the cavity so as to form the head 7 and the trunk of the robot body; the upper arm 51 is turned over relative to the satellite case 2, and the hand 52 is rotated relative to the upper arm 51 to form a hand part of the robot body; the first assembly block 511 is turned over with respect to the satellite housing 2, the second assembly block 512 is turned over with respect to the first assembly block 511, the third assembly block 513 is rotated with respect to the second assembly block 512, and the fifth assembly block 515 is turned over with respect to the fourth assembly block 514 to form the upper arm 51 of the robot body.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims

1. A toy of satellite deformation robot which is characterized in that: the satellite comprises a satellite body, wherein the satellite body comprises a bottom shell (1), a satellite shell (2) which is telescopically assembled with the bottom shell (1) and an upper cover shell (3) which is connected with the satellite shell (2);

the bottom shell (1) comprises two spliced shells (4) which are spliced with each other, and the spliced shells (4) are connected with the satellite shell (2) in a turnover mode;

the satellite shell (2) is provided with a head part (7), and the head part (7) is positioned between the satellite shell (2) and the upper cover shell (3);

the upper cover shell (3) comprises two groups of assembled cover components (5) which are spliced with each other, and the assembled cover components (5) are connected with the satellite shell (2) in a turnover mode;

when deforming, drain pan (1) extends for satellite shell (2), unpacks two amalgamation shells (4) apart to form the shank, unpack two sets apart equipment lid subassembly (5) and for satellite shell (2) upset, in order to expose head (7) and form arm and trunk, realize that the satellite body expandes to warp and becomes robot.

2. The toy of the satellite transformable robot according to claim 1, wherein: the satellite shell (2) is provided with a sliding cavity with an opening facing the bottom shell (1), a moving part (6) capable of reciprocating in the sliding cavity is connected in a sliding mode, the moving part (6) can be connected with the splicing shell (4) in a turnover mode, and during deformation, the moving part (6) extends out of the sliding cavity to achieve the purpose that the bottom shell (1) extends relative to the satellite shell (2).

3. The toy of the satellite transformable robot according to claim 2, wherein: the sliding cavity is provided with a sliding groove (21), the moving piece (6) is provided with a sliding rod (611) matched with the sliding groove (21), and the sliding rod (611) is clamped in the sliding groove (21) to limit the moving piece (6) to be separated from the sliding cavity.

4. The toy of the satellite transformable robot according to claim 2, wherein: the movable piece (6) comprises a sliding block (61) which slides back and forth in a reciprocating manner in the sliding cavity, a middle block (62) which is rotatably connected with the sliding block (61) and two extending blocks (63) which are rotatably connected with the middle block (62), wherein the extending blocks (63) are connected with the assembling shell (4) in a turnover manner and deformed so as to facilitate the robot body to form different shapes.

5. The toy of the satellite transformable robot according to claim 1, wherein: the assembling shell (4) comprises a containing shell (41) and a telescopic rod (42) which is telescopically clamped in the inner cavity of the containing shell (41), the telescopic rod (42) is connected with the satellite shell (2) in a turnover mode, and when the assembling shell is deformed, the telescopic rod (42) extends out of the inner cavity of the containing shell (41).

6. The toy of the satellite transformable robot according to claim 5, wherein: the inner cavity of the containing shell (41) is provided with a limiting groove (411), the telescopic rod (42) is provided with a limiting rod (424) matched with the limiting groove (411), and the limiting rod (424) is clamped in the limiting groove (411) to limit the limiting rod (424) to be separated from the inner cavity of the containing shell (41).

7. The toy of the satellite transformable robot according to claim 5, wherein: the outer side wall of the containing shell (41) is provided with a battery board (8), and the battery board (8) comprises a first board body (81) which is connected with the containing shell (41) in a turnover mode and a second board body (82) which is connected with the first board body (81) in a turnover mode.

8. The toy of the satellite transformable robot according to claim 5, wherein: the side, far away from satellite shell (2), of containing shell (41) is equipped with decorates piece (412), be equipped with connecting block (413) between decorating piece (412) and containing shell (41), connecting block (413) respectively with decorate piece (412) and containing shell (41) and can overturn and be connected, when warping, decorate piece (412) and pass through connecting block (413) and overturn for containing shell (41) to form the foot.

9. The toy of the satellite transformable robot according to claim 1, wherein: the assembly cover assembly (5) comprises an upper arm (51) which is connected with the satellite shell (2) in a turnover mode and a hand (52) which is connected with the upper arm (51) in a rotating mode, when deformation occurs, the upper arm (51) turns relative to the satellite shell (2), and the hand (52) rotates relative to the upper arm (51) to form a hand arm portion.

10. The toy of the satellite transformable robot according to claim 1, wherein: the satellite shell (2) is provided with a cavity with an opening facing the upper cover shell (3), the head (7) is arranged in the cavity and can be connected with the satellite shell (2) in a turnover mode through the cavity, and when the head (7) deforms, the head (7) is opposite to the satellite shell (2) in the cavity so as to expose the head (7).