CN214808399U - Toy of space shuttle deformation robot - Google Patents

Abstract

The utility model relates to a toy of a space shuttle deformation robot, which comprises a space shuttle body, wherein the space shuttle body comprises a body part and a nose part; the robot body part comprises a bearing block, two splicing blocks which are connected with the bearing block in a turnover mode, a robot head arranged on the bearing block and a decorative cover used for covering the robot head; the machine head part comprises two assembling blocks which are assembled with each other, and the assembling blocks and the bearing blocks are connected in a turnover way; when the robot body is deformed, the splicing blocks are overturned relative to the bearing blocks to form a hand arm part and a trunk, the decorative cover is disassembled to expose the head of the robot, the two splicing blocks are disassembled to form legs, and the space shuttle body is unfolded and deformed to become the robot body. The method is realized by deformation: "the space plane body expands to warp and becomes the robot body or the robot body contracts to warp and becomes the space plane body", and is interesting and recreational strong to take exercise children's hands-on ability, be a good toy of teaching in joy.

Description

Toy of space shuttle deformation robot

Technical Field

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

Background

The development of the aerospace industry of China is fast, although the aerospace plane is used as an aerospace delivery tool, although the aerospace plane is developed to a certain extent, the aerospace plane in the world is mainly in the United states and Russia; how to lead children to learn space flight knowledge from the small scale and cultivate space flight interest is an important measure for the future space flight industry of China to enter a new height. The way that children learn space knowledge and develop space interest is many, for example through books, TV plays, animation films and toys, etc., wherein, because of the nature that children love to play, the difficulty of learning through books is great, the learning of TV plays and animation films is not intuitive, and the problem is well solved through toy learning.

The toys comprise deformable toys, at present, a plurality of deformable toys are available in the market, most of the deformable toys are deformed in a single shape, and if the shape of a robot is changed into another shape of the robot, the interestingness is poor. Of course, there are also toys that are transformed in two forms, such as airplane to robot, ship to robot, and car to robot, among which the toy of car to robot is the most explosive. However, the conventional deformation toy is poor in novelty and complex in structure, so that the deformation process is complex, children cannot independently operate and complete the whole deformation process, the deformed form can be single, the interestingness is poor, and the children cannot enjoy the deformation toy for a long time.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a toy of aerospace plane deformation robot that is interesting strong.

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

a toy of a space shuttle deformation robot comprises a space shuttle body, wherein the space shuttle body comprises a body part and a nose part; the robot body part comprises a bearing block, two splicing blocks which are connected with the bearing block in a turnover mode, a robot head arranged on the bearing block and a decorative cover used for covering the robot head; the machine head part comprises two assembling blocks which are assembled with each other, and the assembling blocks and the bearing blocks are connected in a turnover way; when the robot body is deformed, the splicing blocks are overturned relative to the bearing blocks to form a hand arm part and a trunk, the decorative cover is disassembled to expose the head of the robot, the splicing blocks are disassembled to form legs, and the space shuttle body is unfolded and deformed to become the robot body.

The utility model discloses further set up to: the bearing block comprises a base block and an extension block, and a connecting block is arranged between the base block and the extension block and connected through the connecting block so as to realize the connection of the base block and the extension block.

The utility model discloses further set up to: the base block is provided with a groove matched with the connecting block, the connecting block stretches into the groove of the base block and is connected with the base block in a rotating mode, the extending block is provided with a groove matched with the connecting block, the connecting block stretches into the groove and is connected with the extending block in a rotating mode, the base block and the extending block can be connected in a turnover mode through the connecting block, and the extending block is spliced with the base block when the extending block is overturned to the base block through the connecting block.

The utility model discloses further set up to: the extension piece upset is connected with decorates the piece, decorate the piece for extending the piece upset and with extend the piece concatenation, when bearing the weight of the piece formation truck to decorate the piece and decorate the truck.

The utility model discloses further set up to: the splicing block comprises a connecting piece which is connected with the bearing block in a turnover mode, an upper arm which is movably connected with the connecting piece, a forearm which is movably connected with the upper arm and a palm part which can be contained in the forearm and is movably connected with the forearm, so that the connecting piece, the upper arm, the forearm and the palm part form the arm part.

The utility model discloses further set up to: the decorative cover is connected with the bearing block in a turnover mode, so that the decorative cover can be conveniently turned over from the bearing block to expose the head of the robot.

The utility model discloses further set up to: the robot head is arranged in the bearing block and connected with the bearing block in a turnover mode, and the robot head is turned over relative to the bearing block so as to be exposed.

The utility model discloses further set up to: the two sides of the bearing block are hinged with first wings, and when the space shuttle toy is changed into the robot toy, the first wings are rotationally adjusted so that the robot toy is decorated by the first wings.

The utility model discloses further set up to: the carrier block is equipped with the second wing, the second wing is located between dress trim cover and the concatenation piece, the second wing includes two concatenation wings of splicing each other, the concatenation wing is articulated with the carrier block, and when space shuttle toy becomes the robot toy, rotatory adjustment concatenation wing to the robot toy is decorated to the concatenation wing.

The utility model discloses further set up to: the assembling blocks comprise assembling blocks which are connected with the bearing blocks in a turnover mode, joint blocks which are connected with the assembling blocks in a turnover mode, middle blocks which are movably connected with the joint blocks and accommodating blocks which are connected with the middle blocks in a rotating mode, the assembling blocks, the joint blocks and the middle blocks are clamped in the accommodating blocks, and when the space shuttle toy is changed into the robot toy, the assembling blocks and the joint blocks are moved out of the accommodating blocks to form the leg portions.

The utility model discloses further set up to: the accommodating block is connected with a connecting plate in a turnover mode, when the accommodating block is in a spacecraft toy state, the connecting plate is spliced with the assembling block, and when the accommodating block is in a robot toy state, the connecting plate is spliced with the joint block.

The utility model discloses further set up to: the assembling block is provided with a head block, the assembling block and the head block are connected through a ball head, when the toy is in a space shuttle toy state, the head block is spliced with another head block to form a head of the space shuttle toy, and when the toy is in a robot toy, the head block is rotationally adjusted relative to the assembling block through the ball head to form feet.

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

the utility model has scientific and reasonable design and simple structure, and the space shuttle body and the robot body are in independent and complete shapes so as to be convenient for children to play; compared with the prior art, the aerospace plane body is changed into the robot body by unfolding and deforming the aerospace plane body or changed into the aerospace plane body by contracting and deforming the robot body through operations such as overturning, stretching and rotating of all parts, so that imagination of children can be cultured, interestingness and entertainment are strong, and practical ability of children can be exercised conveniently, and the aerospace plane is a good entertainment toy; compared with the existing deformation toy, the deformation process is relatively complex, and the challenge desire of children is easily aroused, so that the children continuously enjoy the toy.

Drawings

FIG. 1 is a schematic structural view of a space shuttle toy of the present invention;

FIG. 2 is a schematic view of the process of the space shuttle toy transformable robotic toy of the present invention;

FIG. 3 is a schematic view of the process of the space shuttle toy transformable robotic toy of the present invention;

FIG. 4 is a schematic view of the process of the space shuttle toy transformable robotic toy of the present invention;

FIG. 5 is a schematic view of the process of the space shuttle toy transformable robotic toy of the present invention;

FIG. 6 is a schematic view of the process of the space shuttle toy transformable robotic toy of the present invention;

FIG. 7 is a schematic view of the process of the space shuttle toy transformable robotic toy of the present invention;

FIG. 8 is a schematic view of the process of the space shuttle toy transformable robotic toy of the present invention;

fig. 9 is a schematic structural view of the robot toy of the present invention;

fig. 10 is a schematic structural view of the robot toy of the present invention.

In the figure, 1, a fuselage section; 2. a bearing block; 21. a base block; 22. an extension block; 221. a decorative block; 23. connecting blocks; 24. a first airfoil; 25. a second airfoil; 251. splicing wings; 3. splicing blocks; 31. a connecting member; 32. an upper arm; 33. a forearm; 34. a palm portion; 4. a robot head; 5. a decorative cover; 6. a nose section; 7. assembling blocks; 71. assembling the blocks; 72. a joint block; 73. a middle block; 74. an accommodating block; 75. a connecting plate; 8. a handpiece block.

Detailed Description

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

Referring to fig. 1 to 10, for the utility model discloses a toy of space shuttle deformation robot, including space shuttle body state and robot state, the space shuttle body warp through expanding and becomes the robot, and the robot is corresponding warp to become the space shuttle body through contracting, and is interesting strong to children's exercise manipulative ability is a good toy that educates in joy.

The space shuttle body comprises a body part 1 and a nose part 6 connected with the body part 1. The fuselage portion 1 comprises a bearing block 2, two splicing blocks 3 which are connected with the bearing block 2 in a turnover mode, a robot head 4 arranged in the inner cavity of the bearing block 2 and a decorative cover 5 arranged on the side of the bearing block 2. In this embodiment, the bearing block 2 includes a base block 21 and an extension block 22, the base block 21 and the extension block 22 form a cavity, and when the spacecraft is in a spacecraft state, the splice block 3 is located in the cavity and is respectively abutted against the base block 21 and the extension block 22; a connecting block 23 is arranged between the base block 21 and the extension block 22, and the connecting block 23 is respectively connected with the base block 21 and the extension block 22 to realize the connection of the base block 21 and the extension block 22; the base block 21 is provided with a groove matched with the connecting block 23, when the spacecraft is in a space plane state, the groove formed in the base block 21 is positioned below the splicing block 3, and the connecting block 23 extends into the groove formed in the base block 21 and is rotatably connected with the base block 21 so as to realize that the connecting block 23 can turn over relative to the base block 21; the extending block 22 is provided with a groove matched with the connecting block 23, when the spacecraft is in a space plane state, the groove formed in the extending block 22 is positioned below the splicing block 3, the connecting block 23 extends into the groove formed in the extending block 22 and is rotatably connected with the extending block 22, so that the connecting block 23 can be turned over relative to the base block 21, and the connecting block 23 is positioned below the splicing block 3; when the spacecraft body deforms to the robot body state, the extension block 22 overturns towards the base block 21 through the connecting block 23 and abuts against the base block 21, and the extension block 22 is positioned above the base block 21 to form a trunk; the extension block 22 can be connected with the decoration block 221 in a turnover mode, when the spacecraft is in a spacecraft state, the decoration block 221 is located above the extension block 22, the decoration block 221 abuts against the splicing block 3, when the spacecraft body state deforms to a robot body state, the decoration block 221 turns over on the extension block 22 and covers an area where the extension block 22 abuts against the splicing block 3, the extension block 22 exposes an area covered by the decoration block 221, and the decoration block 221 turns over along with the extension block 22 to enable the decoration block 221 to be located above the base block 21, so that the decoration block 221 decorates a trunk;

the splicing block 3 is positioned in the concave cavity of the bearing block 2 and is respectively abutted against the base block 21 and the extension block 22, and when the spacecraft is in a spacecraft state, the splicing block 3 is positioned above the base block 21 and the extension block 22; the splicing block 3 comprises a connecting piece 31 which is connected with the bearing block 2 in a turnover mode, an upper arm 32 which is connected with the connecting piece 31 in a turnover mode, a forearm 33 which is connected with the upper arm 32 in a turnover mode and a palm part 34 which is movably connected with the forearm 33, and the palm part 34 is contained in an inner cavity of the forearm 33, so that the splicing block 3 is more compact. When the spacecraft body state is transformed to the robot body state, the connecting piece 31 is overturned relative to the base block 21, the upper arm 32 is overturned relative to the connecting piece 31, the forearm 33 is overturned relative to the upper arm 32, and the palm part 34 is overturned relative to the forearm 33 to be exposed from the inner cavity of the forearm 33, so that the arm part of the robot toy is formed;

the decoration cover 5 is located on the side of the base block 21 far away from the extension block 22 and connected with the base block 21 in a turnover mode, when the space shuttle body state is achieved, the decoration cover 5 covers the robot head 4, and when the space shuttle body state is deformed to the robot body state, the decoration cover 5 is turned over on the base block 21 to expose the robot head 4. When the spacecraft body is deformed to the robot body state, the robot head 4 is overturned relative to the base block 21 so as to be overturned out of the inner cavity of the base block 21, and the robot head 4 is exposed out of the base block 21. Two sides of the base block 21 are provided with first wings 24, the first wings 24 are hinged with the bearing block 2, and when the spacecraft body state deforms to the robot body state, the two first wings 24 are rotationally adjusted, so that the robot body toy is decorated by the two first wings 24. The base block 21 is provided with a second wing 25, the second wing 25 is positioned between the decorative cover 5 and the splicing block 3, the second wing 25 comprises two splicing wings 251 which are spliced with each other, and the splicing wings 251 are hinged with the base block 21 so as to adjust the splicing wings 251; when the spacecraft body state is deformed to the robot body state, the splicing wings 251 are adjusted in a rotating mode, and the splicing wings 251 decorate the robot body toy.

The nose part 6 comprises two mutually assembled assembling blocks 7, the assembling blocks 7 are connected with the bearing blocks 2 in a turnover mode, and particularly, the assembling blocks 7 are connected with the extending blocks 22 in a turnover mode. When the spacecraft body deforms to the robot body, the two assembling blocks 7 are disassembled and the assembling blocks 7 are turned over relative to the bearing blocks 2 to form legs of the robot body. The assembling block 7 comprises an assembling block 71 which is connected with the bearing block 2 in a turnover mode, a joint block 72 which is connected with the assembling block 71 in a turnover mode, a middle block 73 which is movably connected with the joint block 72, an accommodating block 74 which is connected with the middle block 73 in a rotating mode and a connecting plate 75 which is connected with the accommodating block 74 in a turnover mode, when the spacecraft body is in a state, the assembling block 71, the joint block 72 and the middle block 73 are clamped in an inner cavity of the accommodating block 74, and the connecting plate 75 is located outside the accommodating block 74 and is spliced with the assembling block 71; when the robot is in a robot body state, the assembling block 71 is positioned outside the accommodating block 74, the joint block 72 and the middle block 73 are clamped in the inner cavity of the accommodating block 74, and the connecting plate 75 is positioned outside the accommodating block 74 and spliced with the joint block 72; when the spacecraft body deforms to the robot body state, the connecting plate 75 is detached from the assembling block 71, the middle block 73 is turned relative to the joint block 72, so that the accommodating block 74 moves away from the extending block 22, and the connecting plate 75 is spliced with the joint block 72 to form the leg of the robot body. Assemble piece 7 and establish first piece 8, first piece 8 is located holding piece 74 and keeps away from the avris that extends piece 22, holding piece 74 passes through the bulb and is connected with first piece 8, so that first piece 8 is rotatory to each direction for holding piece 74, when being in space plane body state, two first pieces 8 splice each other, with the aircraft nose that forms aircraft nose 6, when space plane body state warp to robot body state, first piece 8 passes through the bulb and rotates for holding piece 74, with the foot that forms the robot body.

The implementation principle of the embodiment is as follows: when the spacecraft body state is transformed to the robot body state, the connecting piece 31 of the splicing block 3 is overturned relative to the base block 21, the upper arm 32 is overturned relative to the connecting piece 31, the forearm 33 is overturned relative to the upper arm 32, and the palm part 34 is overturned relative to the forearm 33 to be overturned out of the forearm 33, so that the arm part of the robot body is formed; the cosmetic cover 5 is turned over with respect to the base block 21 to expose the robot head 4; the robot head 4 is flipped over relative to the base block 21 to be flipped out from within the base block 21 to reveal the robot head 4; the first wing 24 rotates relative to the base block 21 to achieve the decoration of the robot body by the first wing 24; the splicing wing 251 of the second wing 25 is turned over relative to the base block 21 so as to decorate the robot body through the splicing wing 251; the connecting plate 75 is detached from the assembling block 71, the middle block 73 is turned relative to the joint block 72, so that the accommodating block 74 moves away from the extending block 22, and the connecting plate 75 is spliced with the joint block 72 to form a leg part of the robot body; the head block 8 rotates relative to the housing block 74 to form the foot of the robot body; the decoration block 221 is turned over on the extension block 22 and covers the region where the extension block 22 abuts against the splicing block 3, and the extension block 22 is turned over towards the base block 21 through the connecting block 23 and abuts against the base block 21 to form the trunk of the robot body; therefore, the space shuttle body is unfolded and deformed into one of the deformation modes of the robot body, and on the contrary, the robot body is contracted and deformed into the space shuttle 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 (12)

1. The utility model provides a space shuttle shape shifting robot's toy which characterized in that: the aircraft comprises a space shuttle body, wherein the space shuttle body comprises a body part (1) and a nose part (6);

the robot body part (1) comprises a bearing block (2), two splicing blocks (3) which are connected with the bearing block (2) in a turnover mode, a robot head part (4) arranged on the bearing block (2) and a decorative cover (5) used for covering the robot head part (4);

the head part (6) comprises two assembling blocks (7) which are assembled with each other, and the assembling blocks (7) are connected with the bearing block (2) in a turnover way;

when deforming, splice (3) for carrier block (2) upset to form arm and truck, take apart dress trim cover (5) to expose robot head (4), take apart two assemble piece (7) to form the shank, realize that the space shuttle body expandes to warp and becomes the robot body.

2. A space shuttle transformable robot toy according to claim 1, characterized in that: the bearing block (2) comprises a base block (21) and an extension block (22), wherein a connecting block (23) is arranged between the base block (21) and the extension block (22) and is connected through the connecting block (23) so as to realize the connection of the base block (21) and the extension block (22).

3. A space shuttle transformable robot toy according to claim 2, characterized in that: the base block (21) is provided with a groove matched with the connecting block (23), the connecting block (23) extends into the groove of the base block (21) and is rotationally connected with the base block (21), the extending block (22) is provided with a groove matched with the connecting block (23), the connecting block (23) extends into the groove and is rotationally connected with the extending block (22), the base block (21) and the extending block (22) can be overturned through the connecting block (23) to be connected, and the extending block (22) is spliced with the base block (21) when being overturned to the base block (21) through the connecting block (23).

4. A space shuttle transformable robot toy according to claim 2, characterized in that: the extension block (22) is connected with a decoration block (221) in an overturning manner, the decoration block (221) is overturned relative to the extension block (22) and spliced with the extension block (22), and when the bearing block (2) forms a trunk, the decoration block (221) is convenient for decorating the trunk.

5. A space shuttle transformable robot toy according to claim 1, characterized in that: the splicing block (3) comprises a connecting piece (31) which is connected with the bearing block (2) in a turnover mode, an upper arm (32) movably connected with the connecting piece (31), a forearm (33) movably connected with the upper arm (32) and a palm part (34) which can be contained in the forearm (33) and is movably connected with the forearm (33), so that the connecting piece (31), the upper arm (32), the forearm (33) and the palm part (34) form the arm part.

6. A space shuttle transformable robot toy according to claim 1, characterized in that: the decorative cover (5) is connected with the bearing block (2) in a turnover mode, so that the decorative cover (5) can be turned over from the bearing block (2) to expose the robot head (4).

7. A space shuttle transformable robot toy according to claim 1, characterized in that: the robot head (4) is arranged in the bearing block (2) and connected with the bearing block (2) in a turnover mode, and the robot head (4) is turned over relative to the bearing block (2) so that the robot head (4) is exposed.

8. A space shuttle transformable robot toy according to claim 1, characterized in that: two sides of the bearing block (2) are hinged with first wings (24), and when the space shuttle toy is transformed into the robot toy, the first wings (24) are rotationally adjusted, so that the robot toy is decorated by the first wings (24).

9. A space shuttle transformable robot toy according to claim 1, characterized in that: the bearing block (2) is provided with a second wing (25), the second wing (25) is located between the decorating cover (5) and the splicing block (3), the second wing (25) comprises two splicing wings (251) which are spliced with each other, the splicing wings (251) are hinged to the bearing block (2), and when the space shuttle toy is changed into the robot toy, the splicing wings (251) are rotationally adjusted so as to facilitate the splicing wings (251) to decorate the robot toy.

10. A space shuttle transformable robot toy according to claim 1, characterized in that: the assembling block (7) comprises an assembling block (71) which is connected with the bearing block (2) in a turnover mode, a joint block (72) which is connected with the assembling block (71) in a turnover mode, a middle block (73) which is movably connected with the joint block (72) and an accommodating block (74) which is connected with the middle block (73) in a rotating mode, the assembling block (71), the joint block (72) and the middle block (73) are clamped in the accommodating block (74), and when the space shuttle toy is changed into the robot toy, the assembling block (71) and the joint block (72) are moved out of the accommodating block (74) to form a leg.

11. A space shuttle transformable robot toy according to claim 10, characterized in that: the accommodating block (74) is connected with a connecting plate (75) in a turnover mode, when the space shuttle toy state is achieved, the connecting plate (75) is spliced with the assembling block (71), and when the robot toy state is achieved, the connecting plate (75) is spliced with the joint block (72).

12. A space shuttle transformable robot toy according to claim 10, characterized in that: assemble piece (7) and establish first piece (8), it connects through the bulb to assemble piece (7) and aircraft nose piece (8), when being in space plane toy state, aircraft nose piece (8) and another aircraft nose piece (8) concatenation to form the aircraft nose of space plane toy, when being in the robot toy, aircraft nose piece (8) are assembled piece (7) rotation regulation through the bulb for, in order to form the foot.

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