CN214714315U

CN214714315U - Assembled combined robot toy

Info

Publication number: CN214714315U
Application number: CN202121212342.1U
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 an assembled and combined robot toy, which comprises a robot toy, wherein the robot toy comprises at least five toy single bodies which are transformed into corresponding robot bodies; wherein, one the toy monomer has the structure that warp trunk and the head that forms the robot toy, two the toy monomer has the structure that warp formation robot toy shank, two the toy monomer has the structure that warp formation robot toy arm portion, forms the shank structure the toy monomer with form the trunk structure be equipped with the connecting portion that are used for the equipment between the toy monomer, form the arm structure the toy monomer with form the trunk structure be equipped with the portion of assembling that is used for the equipment between the toy monomer, five the toy monomer warp through connecting portion and the portion of assembling and assemble into the robot toy through flexible, upset and/or dismouting.

Description

Assembled combined robot toy

Technical Field

The utility model belongs to the technical field of the technique of toy and specifically relates to an equipment combination robot toy is related to.

Background

The kinds of toys are more and more, in order to attract the eyes of children and cater to the existing cartoon, most of the existing toys are designed to simulate the shapes of the cartoon, such as characters, props and the like, wherein the combined toys are gradually favored along with the development of the cartoon.

In recent years, the aerospace industry in China is rapidly developed, in order to guide children to pay attention to the aerospace industry and cultivate the aerospace interest of the children, various aerospace-related toys are designed, and the aerospace toys are combined with one another to form a new combined toy.

Most of the existing combined toys are formed by combining a plurality of toy units, each toy unit is only the shape of each part of a toy assembly, does not have other unique shape characteristics, and cannot be independently deformed to change the toy units into other shape characteristics, so that the toy units have low interest; when one or more of the toy units of the combined toy are lost or damaged, the whole toy loses the fun of playing and can cause resource waste.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an assemble and combine robot toy that is interesting strong, it has the advantage of tempering children's manipulative ability.

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

an assembled and combined robot toy comprises a robot toy, wherein the robot toy comprises at least five toy single bodies which become corresponding robot bodies through deformation; wherein, one the toy monomer has the structure that warp trunk and the head that forms the robot toy, two the toy monomer has the structure that warp formation robot toy shank, two the toy monomer has the structure that warp formation robot toy arm portion, forms the shank structure the toy monomer with form the trunk structure be equipped with the connecting portion that are used for the equipment between the toy monomer, form the arm structure the toy monomer with form the trunk structure be equipped with the portion of assembling that is used for the equipment between the toy monomer, five the toy monomer warp through connecting portion and the portion of assembling and assemble into the robot toy through flexible, upset and/or dismouting.

The utility model discloses further set up to: connecting portion are including setting up the connecting rod and the free spread groove of toy that sets up at formation shank structure in the toy monomer bottom both sides that form the trunk structure, the connecting rod inserts in the spread groove, realizes trunk and two shank and assembles.

The utility model discloses further set up to: the connecting rod includes that the connecting seat and the connecting cylinder of connecting seat are located to the cover in the toy monomer that forms the trunk structure are arranged in to the card, be equipped with the step of mutually supporting between connecting cylinder and the connecting seat, the connecting cylinder is connected with the spread groove, the connecting cylinder passes through the step and rotates for the connecting seat, realizes that the leg is rotatory for the trunk.

The utility model discloses further set up to: the assembly part comprises assembly rods arranged on two sides of the top of a toy monomer forming a trunk structure and assembly grooves arranged on the toy monomer forming arm structures, the assembly rods are inserted into the assembly grooves, the trunk and two arms are spliced, and the arms can rotate relative to the trunk.

The utility model discloses further set up to: the toy single body forming the trunk structure is provided with a groove matched with the assembling rod, and the assembling rod is clamped in the groove and can be connected with the groove wall in a turnover mode, so that the arm part can turn over relative to the trunk.

The utility model discloses further set up to: the toy monomer comprises a satellite signal station-shaped structural body, the satellite signal station-shaped structural body comprises two bases which are spliced with each other, a bearing seat arranged on the bases and a signal transceiver arranged on the bearing seat, a telescopic rod is arranged in each base and connected with the bearing seat in a turnover mode, a cavity in the top of the bearing seat is connected with a head in a turnover mode, arm parts are arranged on two sides of the bearing seat, the signal transceiver comprises a first cover body and two second cover bodies spliced with the first cover body, and the first cover body and the second cover bodies are movably connected with the bearing seat; when the deformation, the telescopic link stretches out in following the base, unpacks apart two bases to form the shank, first lid and second lid are unpacked apart, first lid concatenation is on bearing the weight of the seat, in order to form the truck, the head overturns for bearing the weight of the seat, in order to expose the head, realizes that satellite signal station form structure warp and becomes the robot body.

The utility model discloses further set up to: the toy single body comprises a satellite-shaped structural body, wherein the satellite-shaped structural body comprises a first satellite body, a second satellite body and a third satellite body which are spliced with each other, an assembling rod is telescopically connected in the first satellite body, the assembling rod and the second satellite body can be connected in a turnover mode, the opening of the second satellite body faces to the cavity of the third satellite body, a head is connected in a turnover mode, and the third satellite body and the second satellite body can be connected in a turnover mode; during deformation, the assembling rod extends out of the first satellite body, the two first satellite bodies are disassembled to form legs, the two third satellite bodies are disassembled and turned relative to the second satellite body to form arm parts and expose the opening of the cavity, the head is turned relative to the second satellite body to expose the head and form a trunk, and the satellite-shaped structural body is deformed into the robot body.

The utility model discloses further set up to: the toy monomer comprises a space shuttle-shaped structure body, the space shuttle-shaped structure body comprises a tail and two machine heads which are mutually assembled, the tail comprises a bearing block, a splicing block which is connected with the bearing block in a turnover way, a head which is connected to a cavity of the bearing block in a turnover way and a decorative cover which is used for covering the head, and the machine heads are connected with the bearing block in a turnover way; when the robot body deforms, the two machine heads are disassembled to form the leg portions, the splicing blocks are overturned relative to the bearing blocks to form the arm portions, the decorative cover is disassembled, the head portion is overturned relative to the bearing blocks to expose the head portion and form the trunk, and the deformation of the spacecraft-shaped structure body is changed into the robot body.

The utility model discloses further set up to: the toy monomer comprises a rocket-shaped structure body, the rocket-shaped structure body comprises two mutually assembled rectifying shells and a booster, the booster comprises a liquid-gas tank and two liquid-gas tanks which are telescopically assembled with the liquid-gas tank, the rectifying shells and the liquid-gas tanks are connected in a turnover mode, the openings of the liquid-gas tanks face the cavities of the rectifying shells, heads are connected in a telescopic mode, and the two liquid-gas tanks are connected in an assembled mode; during the deformation, extension is kept away from to liquid gas tank and liquid oil tank, unpacks apart two liquid oil tanks to form the shank, unpack apart two rectification shells and for the upset of liquid gas tank, in order to expose the opening of cavity and form the arm, the head stretches out from the cavity in to expose the head and form the truck, realize that rocket form structure warp and become the robot.

The utility model discloses further set up to: the toy monomer comprises a moon-exploration vehicle-shaped structure body which comprises a compartment part, the carriage part comprises a first box body and two second box bodies which are connected with the first box body in a turnover way, the opening of the first box body faces to the cavity of the second box body, a head part is connected in a turnover way, the second box body can be connected with a wheel part in a turnover way, the wheel part is spliced with the first box body, the bottom of the first box body can be connected with two mutually spliced chassis parts in a turnover way, when the second box body is deformed, the wheel part is disassembled from the first box body, the second box body is overturned relative to the first box body, so as to expose the opening of the cavity and the first box body and the wheel part form a hand arm part, the head part is turned relative to the first box body, in order to expose the head, two the chassis portion overturns for first box, unpacks two chassis portions apart to form truck and shank, realize exploring the deformation of moon car form structure and become the robot body.

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

the utility model has scientific and reasonable design and simple structure, compared with the prior art, the robot toy is assembled by adopting at least five toy monomers with independent shapes, each toy monomer has at least two independent and complete shapes, the two shapes of the toy monomers can be mutually changed, the design is novel, and the interest is strong, so as to draw the attention of children; children transform in five toy monomers assemble into robot toy and two kinds of models of toy monomer, and recreational strong can effectual exercise hands-on ability, is favorable to expanding children's imagination to develop children's intelligence, the combination toy is a good product that educates in the amusement, obtains children and head of a family's favor easily.

Drawings

FIG. 1 is a schematic view of the structure of the toy set of the present invention;

FIG. 2 is an exploded view of the combination toy of the present invention;

FIG. 3 is a schematic structural view of a space shuttle-like structure of the present invention;

fig. 4 is a schematic structural view of a robot body into which the spacecraft-like structure of the present invention is deformed;

FIG. 5 is a schematic diagram of a rocket-like structure according to the present invention;

fig. 6 is a schematic structural view of a robot body into which a rocket-like structure is deformed according to the present invention;

fig. 7 is a schematic structural view of a satellite-like structure according to the present invention;

fig. 8 is a schematic structural view of a robot body in which a satellite-like structure is deformed according to the present invention;

fig. 9 is a schematic structural view of a satellite signal station-like structure according to the present invention;

fig. 10 is a schematic structural view of a robot body in which a satellite signal station-like structure is deformed according to the present invention;

fig. 11 is a schematic structural view of the lunar exploration vehicle-shaped structure of the present invention;

fig. 12 is a schematic structural view of the robot body in which the lunar exploration vehicle-shaped structural body of the present invention is deformed.

In the figure, 1, a space shuttle-like structure; 11. a tail; 111. a bearing block; 112. splicing blocks; 113. a decorative cover; 12. a machine head; 121. splicing rods; 2. a rocket-like structure; 21. a rectifying shell; 22. a booster; 221. a liquid-gas tank; 222. a liquid oil tank; 223. a slide bar; 3. a satellite-like structure; 31. a first satellite body; 311. assembling the rod; 32. a second satellite body; 33. a third satellite body; 4. a satellite signal station-like structure; 41. a base; 411. a telescopic rod; 42. a bearing seat; 43. a signal transceiver; 431. a first cover body; 432. a second cover body; 5. a lunar exploration vehicle-shaped structure; 51. a compartment portion; 511. a first case; 512. a second case; 52. a wheel section; 53. a chassis section; 531. a slide bar; 6. a connecting rod; 61. a connecting seat; 62. a connecting cylinder; 63. a step portion; 7. connecting grooves; 8. assembling the rods; 9. assembling the grooves; 10. a head portion.

Detailed Description

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

Referring to fig. 1 to 12, an assembled and combined robot toy disclosed by the present invention includes a robot toy, which is assembled by at least five toy units; the toy monomer comprises a space shuttle-shaped structure body 1, a rocket-shaped structure body 2, a satellite-shaped structure body 3, a satellite signal station-shaped structure body 4 and a lunar exploration vehicle-shaped structure body 5, wherein the space shuttle-shaped structure body 1, the rocket-shaped structure body 2, the satellite-shaped structure body 3, the satellite signal station-shaped structure body 4 and the lunar exploration vehicle-shaped structure body 5 can be transformed into corresponding robot body toys through deformation, namely the toy monomer at least has two models which are the model of the toy monomer and the corresponding model of the robot body, and the models of the robot bodies formed by the toy monomers are different.

The space shuttle-shaped structure 1, the rocket-shaped structure 2, the satellite-shaped structure 3, the satellite signal station-shaped structure 4 and the lunar rover-shaped structure 5 are assembled into the robot toy through stretching, overturning and/or dismounting, in the embodiment, the satellite signal station-shaped structure 4 forms a trunk and a head 10 of the robot toy through overturning and/or dismounting deformation, the rocket-shaped structure 2 and the satellite-shaped structure 3 form a hand arm of the robot toy through stretching, overturning and/or dismounting deformation, and the space shuttle-shaped structure 1 and the lunar rover-shaped structure 5 form legs of the robot toy through overturning and/or telescopic deformation; the bottom of the deformed satellite signal station structural body is provided with a connecting rod 6, the deformed space shuttle-shaped structural body 1 and the deformed lunar rover-shaped structural body 5 are both provided with connecting grooves 7 matched with the connecting rod 6, and the connecting rod 6 is inserted into the connecting grooves 7 and is connected with the connecting grooves 7, so that the trunk and the two legs of the robot toy are spliced, and the two legs can rotate relative to the trunk by taking the connecting rod 6 as an axis; the connecting rod 6 comprises a connecting seat 61 clamped at the bottom of the deformed satellite signal station-shaped structural body 4 and a connecting cylinder 62 sleeved on the connecting seat 61, and the connecting cylinder 62 extends into the connecting groove 7 and is connected with the connecting groove 7; a step 63 is provided between the connecting cylinder 62 and the connecting socket 61 to engage with each other, and the connecting cylinder 62 rotates relative to the connecting socket 61 via the step 63, thereby rotating the legs relative to the trunk. Splicing rods 8 are arranged on two sides of the top of the deformed satellite signal station-shaped structural body 4, splicing grooves 9 matched with the splicing rods 8 are formed in the deformed rocket-shaped structural body 2 and the deformed satellite-shaped structural body 3, the splicing rods 8 are inserted into the splicing grooves 9 and connected with the splicing grooves 9, splicing of the trunk and the two armparts is achieved, and the two armparts can rotate relative to the trunk conveniently; the top of the satellite signal station-shaped structure body 4 is provided with a groove matched with the assembling rod 8, and the assembling rod 8 is clamped in the groove and can be connected with the groove wall in a turnover manner, so that the arm part can turn over relative to the trunk; both the rocket-like structure 2 and the satellite-like structure 3 after the deformation are connected to the palm portion, so that the rocket-like structure 2 and the satellite-like structure 3 after the deformation are more like the arm portion.

Referring to fig. 3 and 4, the space shuttle-shaped structure 1 and the robot body transformed from the structure 1 are provided, the space shuttle-shaped structure 1 comprises a tail 11 and two mutually assembled heads 12, the tail 11 comprises a bearing block 111, splicing blocks 112 arranged at two sides of the bearing block 111, a head 10 arranged in a cavity at one end of the head 12 far away from the bearing block 111, and a decorative cover 113 for covering the head 10; the splicing block 112 and the bearing block 111 are connected in a turnover mode, so that the splicing block 112 can turn over relative to the bearing block 111, the head 10 is connected with the bearing block 111 in a turnover mode in the cavity, the head 10 protrudes from the cavity in a turnover mode to expose the head 10, and the decorative cover 113 is connected with the bearing block 111 in a turnover mode, so that the decorative cover 113 can be opened conveniently; the splicing rod 121 is telescopically connected in the machine head 12, and the machine head 12 is connected with the bearing block 111 in a turnover mode through the splicing rod 121. When the space shuttle-shaped structural body 1 is unfolded and deformed to become a robot body, the splicing rods 121 extend out of the machine heads 12, the machine heads 12 and the machine tails 11 are far away from each other and extend, the two machine heads 12 are disassembled, the two machine heads 12 are overturned relative to the machine tails 11 to form legs of the robot body, the two splicing blocks 112 are overturned relative to the bearing blocks 111 to form arm parts of the robot body, the decorative covers 113 are overturned relative to the bearing blocks 111 to expose openings of the cavities, the heads 10 are overturned relative to the bearing blocks 111 in the cavities of the bearing blocks 111 to expose the heads 10 of the robot body, and the space shuttle-shaped structural body 1 is unfolded and deformed to become the robot body.

Referring to fig. 5 and 6, the rocket-like structure 2 and the robot body formed by transforming the rocket-like structure 2 are provided, the rocket-like structure 2 includes two mutually assembled fairing shells 21 and a booster 22, the booster 22 includes a liquid-gas tank 221 and two mutually assembled liquid-gas tanks 222, a sliding rod 223 is slidably connected in the liquid-gas tanks 222, the liquid-gas tanks 222 are connected with the liquid-gas tank 221 in a turnable manner through the sliding rod 223, the end of the liquid-gas tank 221 far away from the liquid-gas tank 222 is provided with a cavity, the opening of the cavity faces the fairing shells 21, a head 10 is connected in the cavity in a telescopic manner so that the head 10 can extend out of the cavity, the two fairing shells 21 are connected with the liquid-gas tank 221 in a turnable manner, and when the fairing shells 21 are turned over relative to the liquid-gas tanks 221, the opening of the cavity is exposed so that the head 10 can extend out of the cavity. When the rocket-like structure body 2 expands and deforms to become the robot body, the sliding rod 223 slides and extends out of the liquid oil tank 222, the liquid oil tank 222 and the liquid air tank 221 extend away, the two liquid oil tanks 222 are disassembled, the liquid oil tank 222 is overturned relative to the liquid air tank 221 to form a leg part of the robot body, the two fairing shells 21 are disassembled, the fairing shells 21 are overturned relative to the liquid air tank 221 to expose an opening of the cavity, the fairing shells 21 form a hand arm part of the robot body, the head 10 extends out of the cavity to expose the head 10, the liquid air tank 221 forms a trunk of the robot body, and the rocket-like structure body 2 expands and deforms to become the robot body.

Referring to fig. 7 and 8, the satellite-shaped structural body 3 and the robot body formed by transforming the same are provided, the satellite-shaped structural body 3 comprises two first satellite bodies 31 and second satellite bodies 32 which are assembled with each other, and two third satellite bodies 33 which are assembled with each other, an assembling rod 311 is telescopically connected in the first satellite body 31, the first satellite body 31 is connected with the second satellite body 32 in a turnable way through the assembling rod 311, the second satellite body 32 is provided with a cavity with an opening facing the third satellite body 33, a head 10 is connected in the cavity in a turnable way, the third satellite body 33 is connected with the second satellite body 32 in a turnable way, and when the third satellite body 33 is turned over relative to the second satellite body 32, the opening of the cavity is exposed so as to extend out of the cavity; when the satellite-shaped structural body 3 is unfolded and deformed to become the robot body, the assembling rod 311 extends out of the first satellite body 31, the first satellite body 31 and the second satellite body 32 are enabled to be far away from each other, the two first satellite bodies 31 are disassembled to form the legs of the robot body, the two third satellite bodies 33 are disassembled, the third satellite bodies 33 are turned over relative to the second satellite bodies 32, the third satellite bodies 33 are enabled to form the arm parts of the robot body and expose the openings of the cavities, the head 10 is turned over in the cavities to expose the head 10, the second satellite bodies 32 are enabled to form the trunk of the robot body, and the satellite-shaped structural body 3 is unfolded and deformed to become the robot body.

Referring to fig. 9 and 10, the satellite signal station-shaped structure 4 and the robot body transformed from the satellite signal station-shaped structure 4 are provided, the satellite signal station-shaped structure 4 includes two bases 41 spliced with each other, a carrying seat 42 disposed on the base 41, and a signal transceiver 43 disposed on the carrying seat 42, a telescopic rod 411 is disposed in the base 41, the base 41 is connected with the carrying seat 42 in a turnable manner through the telescopic rod 411, a cavity is disposed at the top of the carrying seat 42, a head 10 is connected in the cavity in a turnable manner, and two sides of the carrying seat 42 are provided with arm parts movably connected with the carrying seat 42; the signal transceiver 43 includes a first cover 431 and two second covers 432 assembled with the first cover 431, the two second covers 432 are assembled with each other, and the first cover 431 and the second covers 432 are movably connected with the bearing seat 42 respectively. When the satellite signal station-shaped structural body 4 is unfolded and deformed to become the robot body, the telescopic rod 411 extends out of the base 41, the base 41 and the bearing seat 42 are far away from and extend, the two bases 41 are disassembled, the base 41 is overturned relative to the bearing seat 42 through the telescopic rod 411 to form legs of the robot body, the head 10 is overturned in the cavity to expose the head 10 of the robot body, the first cover body 431 and the second cover body 432 are disassembled, the first cover body 431 is spliced on the bearing seat 42, the bearing seat 42 and the first cover body 431 form a trunk of the robot body, the two second cover bodies 432 decorate the robot body, and the satellite signal station-shaped structural body 4 is unfolded and deformed to become the robot body.

Referring to fig. 11 and 12, the lunar exploration vehicle-shaped structure 5 and the robot body formed by deformation of the lunar exploration vehicle-shaped structure 5 are provided, the lunar exploration vehicle-shaped structure 5 comprises a compartment portion 51, wheel portions 52 located on two sides of the compartment portion 51 and two chassis portions 53 located at the bottom of the compartment portion 51, the compartment portion 51 comprises a first box 511 and two second boxes 512 which are connected with the first box 511 in a turnover mode, the two second boxes 512 are spliced with each other, the first box 511 is provided with a cavity, the opening of the cavity faces the second box 512, a head portion 10 is connected in the cavity in a turnover mode, the second box 512 is connected with the wheel portions 52 in a turnover mode, the wheel portions 52 are spliced with the first box 511, the two chassis portions 53 are spliced with each other, the chassis portions 53 are provided with sliding rods 531, and the chassis portions 53 are connected with the first box 511 in a turnover mode through the sliding rods 531. When the lunar rover like structure 5 is unfolded and deformed to become the robot body, the wheel parts 52 are detached from the first box 511, the second box 512 is turned over relative to the first box 511 to expose the opening of the cavity, the second box 512 and the wheel parts 52 form the arm part of the robot body, the head 10 is turned over relative to the first box 511 in the cavity to expose the head 10, the two bottom plates 53 are turned over relative to the first box 511 through the sliding rods 531, the two bottom plates 53 are detached, the sliding rods 531 extend out from the bottom plates 53 and are turned over relative to the first box 511 to form the leg parts of the robot body, the first box 511 forms the trunk of the robot body, and the lunar rover like structure 5 is unfolded and deformed to become 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. An assembled and combined robot toy is characterized in that: the robot toy comprises at least five toy single bodies, and the toy single bodies are transformed into corresponding robot bodies; wherein, one the toy monomer has the structure that warp trunk and head (10) that forms the robot toy, two the toy monomer has the structure that warp formation robot toy shank, two the toy monomer has the structure that warp formation robot toy arm portion, forms the shank structure the toy monomer with form the trunk structure be equipped with the connecting portion that are used for the equipment between the toy monomer, form the arm structure the toy monomer with form the trunk structure be equipped with the portion of assembling that is used for the equipment between the toy monomer, five the toy monomer warp through connecting portion and the portion of assembling and assembles the robot toy through flexible, upset and/or dismouting.

2. An assembled and assembled robot toy according to claim 1, wherein: connecting portion are including setting up connecting rod (6) and the free spread groove (7) of toy that forms the shank structure in the toy monomer bottom both sides that form the trunk structure, connecting rod (6) insert spread groove (7) in, realize trunk and two shank assemble.

3. An assembled and assembled robot toy according to claim 2, wherein: connecting rod (6) including the card arrange in connecting seat (61) and the connecting cylinder (62) of connecting seat (61) are located to the cover in the toy monomer that forms the trunk structure, be equipped with between connecting cylinder (62) and connecting seat (61) and mutually support step portion (63), connecting cylinder (62) are connected with spread groove (7), connecting cylinder (62) are rotatory for connecting seat (61) through step portion (63), realize that the leg is rotatory for the trunk.

4. An assembled and assembled robot toy according to claim 1, wherein: the assembly part comprises assembly rods (8) arranged at two sides of the top of a toy monomer forming a trunk structure and assembly grooves (9) arranged on the toy monomer forming a armlet structure, the assembly rods (8) are inserted into the assembly grooves (9), the trunk and two armlets are spliced, and the armlets can rotate relative to the trunk.

5. An assembled and assembled robot toy according to claim 4, wherein: the toy single body forming the trunk structure is provided with a groove matched with the assembling rod (8), and the assembling rod (8) is clamped in the groove and can be connected with the groove wall in a turnover mode, so that the arm part can turn over relative to the trunk.

6. An assembled and assembled robot toy according to claim 1, wherein: the toy single body comprises a satellite signal station-shaped structural body (4), the satellite signal station-shaped structural body (4) comprises two bases (41) which are spliced with each other, a bearing seat (42) arranged on the bases (41) and a signal transceiver (43) arranged on the bearing seat (42), a telescopic rod (411) is arranged in each base (41), the telescopic rod (411) is connected with the bearing seat (42) in a turnover mode, a head (10) is connected with a cavity in the top of the bearing seat (42) in a turnover mode, arm parts are arranged on two sides of the bearing seat (42), the signal transceiver (43) comprises a first cover body (431) and two second cover bodies (432) spliced with the first cover body (431), and the first cover body (431) and the second cover bodies (432) are movably connected with the bearing seat (42); when the robot is deformed, the telescopic rod (411) extends out of the base (41), the two bases (41) are disassembled to form legs, the first cover body (431) and the second cover body (432) are disassembled, the first cover body (431) is spliced on the bearing seat (42) to form a trunk, the head (10) is overturned relative to the bearing seat (42) to expose the head (10), and the satellite signal station-shaped structural body (4) is deformed to become the robot body.

7. An assembled and assembled robot toy according to claim 1, wherein: the toy single body comprises a satellite-shaped structural body (3), the satellite-shaped structural body (3) comprises two first satellite bodies (31) and two second satellite bodies (32) which are assembled with each other and two third satellite bodies (33) which are assembled with each other, an assembling rod (311) is telescopically connected in the first satellite body (31), the assembling rod (311) is connected with the second satellite body (32) in a turnover mode, the cavity of the second satellite body (32) with an opening facing the third satellite body (33) is connected with a head (10) in a turnover mode, and the third satellite body (33) is connected with the second satellite body (32) in a turnover mode; when the robot body is deformed, the assembling rod (311) extends out of the first satellite body (31), the two first satellite bodies (31) are disassembled to form legs, the two third satellite bodies (33) are disassembled and turned relative to the second satellite body (32) to form arm parts and expose openings of the cavities, the head (10) is turned relative to the second satellite body (32) to expose the head (10) and form a trunk, and the satellite-shaped structural body (3) is deformed to form the robot body.

8. An assembled and assembled robot toy according to claim 1, wherein: the toy single body comprises a space shuttle-shaped structural body (1), the space shuttle-shaped structural body (1) comprises a tail (11) and two machine heads (12) which are mutually assembled, the tail (11) comprises a bearing block (111), a splicing block (112) which is connected with the bearing block (111) in a turnover mode, a head (10) which is connected to a cavity of the bearing block (111) in a turnover mode and a decorative cover (113) which is used for covering the head (10), and the machine heads (12) are connected with the bearing block (111) in a turnover mode; when deforming, take apart two aircraft nose (12) to form the shank, splice (112) for bearing block (111) upset, in order to form the arm, take apart dress trim cover (113), head (10) for bearing block (111) upset to expose head (10) and form the trunk, realize space shuttle form structure (1) deformation becomes the robot body.

9. An assembled and assembled robot toy according to claim 1, wherein: the toy monomer comprises a rocket-shaped structural body (2), the rocket-shaped structural body (2) comprises two mutually assembled rectifying shells (21) and a booster (22), the booster (22) comprises a liquid-gas tank (221) and two liquid-gas tanks (222) which are telescopically assembled with the liquid-gas tank (221), the rectifying shells (21) and the liquid-gas tank (221) can be connected in a turnover mode, a head (10) is telescopically connected in a cavity, with an opening of the liquid-gas tank (221) facing the rectifying shells (21), of the liquid-gas tanks, and the two liquid-gas tanks (222) are assembled and connected; when the robot is deformed, the liquid-gas tank (221) and the liquid-gas tank (222) are far away from the extension, the two liquid-gas tanks (222) are disassembled to form legs, the two rectifying shells (21) are disassembled and turned relative to the liquid-gas tank (221) to expose the opening of the cavity and form the arm part, the head (10) extends out of the cavity to expose the head (10) and form a trunk, and the rocket-shaped structure body (2) is deformed to become the robot body.

10. An assembled and assembled robot toy according to claim 1, wherein: the toy monomer comprises a lunar exploration vehicle-shaped structure body (5), the lunar exploration vehicle-shaped structure body (5) comprises a compartment part (51), the compartment part (51) comprises a first box body (511) and two second box bodies (512) which can be connected with the first box body (511) in a turnover mode, the opening of the first box body (511) can be connected with a head part (10) in a turnover mode towards the cavity of the second box body (512), the second box body (512) can be connected with a wheel part (52) in a turnover mode, the wheel part (52) is spliced with the first box body (511), the bottom of the first box body (511) can be connected with two mutually spliced bottom disc parts (53) in a turnover mode, when the toy monomer is deformed, the wheel part (52) is detached from the first box body (511), the second box body (512) is turned over relative to the first box body (511) so as to expose the opening of the cavity, and the first box body (511) and the wheel part (52) form a hand arm part, the head (10) is overturned relative to the first box body (511) to expose the head (10), the two base parts (53) are overturned relative to the first box body (511), the two base parts (53) are disassembled to form a trunk and legs, and the lunar exploration vehicle-shaped structural body (5) is deformed to become a robot body.