CN218306133U

CN218306133U - Toy of aircraft carrier shape shifting robot

Info

Publication number: CN218306133U
Application number: CN202222212292.8U
Authority: CN
Inventors: 王跃辉
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-08-19
Filing date: 2022-08-19
Publication date: 2023-01-17
Anticipated expiration: 2032-08-19

Abstract

The utility model discloses a toy of an aircraft carrier deformation robot, which comprises an aircraft carrier main body, wherein the aircraft carrier main body sequentially comprises a ship head part, a side board part, a ship body base body and a ship tail part; the warship head comprises two warship head assemblies, and the warship head assemblies and the warship body base body are connected in a telescopic and turnover manner through connecting rod assemblies; the side board part comprises two side board components, and the side board components are arranged between the warship head and the warship body base body and can be connected with the warship body base body in a turnover manner; the carrier body base is provided with a carrier tower part and a pseudo-head part, the carrier tail part comprises two carrier tail components, and the carrier tail components are rotatably connected with the carrier body base; when the robot is deformed, the ship body base forms a robot body, the ship head assembly relatively moves to form a loading part on the shoulder of the robot, the side board assembly relatively overturns to form a hand arm part of the robot, and the ship tail assembly relatively rotates to form a leg part of the robot, so that the whole robot is deformed into a robot shape.

Description

Toy of aircraft carrier shape shifting robot

Technical Field

The utility model relates to a technical field of toy specifically, relates to a toy of aircraft carrier deformation robot.

Background

The toy can well arouse the nature of children and bring much fun to the children, and toys with different shapes can be changed to enable the children to generate greater interest and be more attractive; at present, deformation toys related to ship models are few, are mostly displayed in a single ship form, and are not enough in playability, for the purpose of improving playability, for example, an appearance design patent with the publication number of CN306778988S in the existing design discloses a toy of a ship form deformation forming robot, through a view, a tower can be seen to relatively slide to form a head of the robot, a front ship body forms a robot body, a rear ship body relatively overturns to form a robot leg, and modules in the middle of two sides of the front ship body overturn and extend out to form a robot arm.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defect that exists among the prior art and not enough, provide a deformation structure nimble, it is abundant and concrete to warp the detail, and the object for appreciation nature is high, and deformation form is more vivid, can put out the figurative aircraft carrier of multiple different gesture deformation robot toy.

In order to achieve the above purpose, the utility model discloses a realize through following technical scheme:

the aircraft carrier main body sequentially comprises a carrier head part, a side board part, a carrier body base body and a carrier tail part; the warship head part comprises two warship head components, and the warship head components and the warship body base body are connected in a telescopic and turnable way through connecting rod components; the side board part comprises two side board assemblies, and the side board assemblies are arranged between the ship head part and the ship body base and can be connected with the ship body base in a turnover manner; the warship body base is provided with a warship tower part and a simulated head, the warship tower part is in sliding connection with the warship body base, and the simulated head is arranged between the warship body base and the sideboard assembly and is in rotatable connection with the warship body base; the stern part comprises two stern components, and the stern components are rotatably connected with the carrier body base body; when the robot is deformed, the ship body base body forms a robot body, the ship head assembly relatively moves to form a loading part on a robot shoulder, the side board assembly relatively overturns to form a hand arm part of the robot, and the ship tail assembly relatively rotates to form a leg part of the robot.

Optionally, the hull base member includes preceding base member and back base member, the rear end of preceding base member is equipped with the spread groove, the correspondence is equipped with the connecting block in the spread groove, one side of connecting block with rear end one side of preceding base member is articulated, the connecting block is kept away from relatively the one end of preceding base member with back base member is rotated and is connected, and when warping, preceding base member forms the upper part of the body of robot, back base member forms the robot lower crotch body, through the motion of bending and turning round of robot can be realized to the connecting block.

Optionally, an assembling groove is formed in the middle of the lower portion of the front base body, a splicing block is arranged in the assembling groove, one end of the splicing block is rotatably connected with one side of the rear end of the front base body through a switching block, the other end of the splicing block is detachably connected with the bottom of the quasi-shaped head in an inserting and matching mode, the splicing block can be rotated out of the assembling groove through the switching block, and the position of the splicing block is fixed through connection with the bottom of the quasi-shaped head in an inserting and matching mode.

Optionally, wing plates are arranged on two sides of the front base body, and the wing plates are rotatably connected to two sides of the upper part of the front base body; the upper portion and both sides of back base member are equipped with tailboard and cover plate respectively, tailboard and cover plate rotatable coupling respectively in the front end of back base member side edge.

Optionally, the connecting rod assembly includes a first connecting rod, a second connecting rod and a third connecting rod which are rotatably connected in sequence, one end of the first connecting rod is rotatably connected with the inner side of the carrier head assembly, one end of the third connecting rod is rotatably connected with the upper side of the front end of the carrier body base, the first connecting rod rotates along the length direction of the carrier main body relatively, and the second connecting rod and the third connecting rod rotate along the width direction of the carrier main body relatively.

Optionally, the side board assembly comprises a lower board block and an upper board block, one end of the lower board block is rotatably connected with one end of the upper board block through a hand rotating piece, the other end of the lower board block is rotatably connected with the front end side of the ship body base body through a shoulder rotating piece, an inner cavity of one end of the upper board block, which is far away from the lower board block, is rotatably connected with a palm portion, and the palm portion can extend out of the inner cavity of the upper board block through rotation.

Optionally, the stern assembly comprises a stern base block, a thigh portion and a foot sole portion, one end of the thigh portion is rotatably connected with the rear end side portion of the hull base body, the other end of the thigh portion is connected with one end of an inner cavity of the stern base block in a telescopic and rotatable mode through a leg limiting block, and the foot sole portion is connected with the other end of the inner cavity of the stern base block in a telescopic and rotatable mode through a foot limiting block.

Optionally, the stern base block is rotatably connected with a shank cover plate, one end of the shank limiting block is rotatably connected with one end of the thigh, one side of the other end of the shank limiting block is rotatably connected with a switching shaft at one end of an inner cavity of the stern base block through a switching rod, and the other side of the shank limiting block is correspondingly connected with the inner wall of the shank cover plate in a plugging fit manner, so that the shank limiting block is fixed in position.

Optionally, one end of the foot limiting block is rotatably connected with the foot sole part, one side of the other end of the foot limiting block is clamped in the strip hole in the other end of the inner cavity of the stern base block through the convex column and is in sliding connection with the strip hole, and the other side of the foot limiting block is correspondingly connected with the inner wall of the shank cover plate in an inserting and matching mode to fix the position of the foot limiting block.

Optionally, a side deck is further arranged on the side portion of the aircraft carrier main body, the side deck is detachably connected with the aircraft carrier main body, the side deck comprises a front plate, a rear plate and a handheld portion, one end of the front plate is hinged to one end of the rear plate, the handheld portion is rotatably connected to one end of the front plate or one end of the rear plate, a plug pin and a plug hole which are mutually inserted and matched are respectively arranged on one side, opposite to the hinged side of the rear plate, of the front plate, when the aircraft carrier main body deforms, the front plate and the rear plate rotate relatively to be closed and are inserted and matched, and the handheld portion extends out from one end of the front plate or one end of the rear plate through rotation to form the robot hand-held weapon through integral deformation.

After the technical scheme more than adopting, the utility model discloses following beneficial effect has:

(1) The deformation toy can be integrally deformed into a vivid robot form from a vivid aircraft carrier form, has reasonable deformation structure design, is flexible and vivid, is vivid and interesting, and can well meet the deformation requirements of children.

(2) The aircraft carrier deformation robot toy has a unique and novel deformation mode, is rich in deformation details, is more three-dimensional after deformation, has flexible and vivid anthropomorphic limbs, can be put into various human body posture shapes, and is very attractive.

(3) When this aircraft carrier warp toy wholly changeable forms the robot form, can dismantle the side deck of connection and can become alone and match the handheld weapon that uses with the robot, increased the play interesting effect after warping into the robot.

Drawings

Fig. 1 is a schematic structural diagram of an aircraft carrier according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a deformation process according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a deformation process according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram of a deformation process according to an embodiment of the present invention;

FIG. 5 is a schematic view of the robot according to the embodiment of the present invention;

fig. 6 is an exploded view of the main structure of the aircraft carrier according to the embodiment of the present invention;

FIG. 7 is a schematic view of a vessel body base structure according to an embodiment of the present invention;

FIG. 8 is a schematic view of a partial structure of a sideboard assembly according to an embodiment of the present invention;

fig. 9 is a schematic structural view of the stern assembly according to an embodiment of the present invention.

Reference numerals are as follows:

1. a warship head; 10. a warship head assembly; 11. a connecting rod assembly; 111. a first link; 112. a second link; 113. a third link;

2. a side board portion; 20. a sideboard assembly; 21. a topsides block; 22. a topsides block; 23. a palm portion; 24. A shoulder rotator; 25. a hand rotating member;

3. a hull substrate; 30. a vessel tower portion; 31. a pseudo-shaped head; 32. a front substrate; 33. a rear substrate; 34. connecting blocks; 35. splicing blocks; 36. a transfer block; 321. a wing plate; 331. a tail plate; 332. A cover plate;

4. the tail part of the ship; 40. a stern assembly; 41. a stern base block; 42. a thigh section; 43. a sole portion; 44. a leg stopper; 45. a foot stopper; 401. a calf cover plate; 4001. inserting holes; 4002. inserting a block; 4003. a transfer lever; 4004. a transfer shaft; 4005. a strip hole; 5. A side deck; 51. a front plate; 52. a rear plate; 53. a hand-held portion.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

As shown in fig. 1-9, the utility model provides a toy of an aircraft carrier deformation robot, which comprises an aircraft carrier main body, wherein the aircraft carrier main body sequentially comprises a ship head 1, a side board part 2, a ship body base body 3 and a ship tail part 4;

the warship head part 1 comprises two warship head components 10 which are adjacent left and right, and the warship head components 10 are connected with the warship body base body 3 in a telescopic and reversible manner through connecting rod components 11; the connecting rod assembly 11 comprises a first connecting rod 111, a second connecting rod 112 and a third connecting rod 113 which are sequentially and rotatably connected, one end of the first connecting rod 111 is rotatably connected with the inner side of the warhead assembly 10, one end of the third connecting rod 113 is rotatably connected with the middle part of the upper side of the front end of the warship body base body 3, wherein the first connecting rod 111 can relatively rotate along the length direction of the aircraft carrier main body, and the second connecting rod 113 and the third connecting rod 113 can respectively relatively rotate along the width direction of the aircraft carrier main body; when the ship is transformed into a robot shape, the two ship head assemblies 10 are separated from each other through the relative rotation of the connecting rod assembly 11, and a loading part above the shoulder of the robot is formed. The side board part 2 comprises a left side board assembly 20 and a right side board assembly 20, and the side board assemblies 20 are arranged between the warship head part 1 and the warship body base body 3 and can be connected with the warship body base body 3 in a turnover mode; the side board assembly 20 comprises a lower board block 21 and an upper board block 22, one end of the lower board block 21 is rotatably connected with one end of the upper board block 22 through a hand rotating piece 25, the other end of the lower board block is rotatably connected with the front end side of the ship body base body 3 through a shoulder rotating piece 24, an inner cavity of one end, far away from the lower board block 21, of the upper board block 22 is rotatably connected with a palm portion 23, an opening is formed in one side of the inner cavity, the palm portion 23 extends out of the opening in a rotating mode, an arm cover plate is further rotatably connected to the opening in a rotating mode, and the arm cover plate is connected with the palm portion 23 in a matching mode through a plug block 4002 and a plug groove in a plug-in connection mode so that the extending and retracting positions of the palm portion 23 can be fixed; when the robot shape is formed, the lower side block 21 forms an upper arm of the robot, the upper side block 22 forms a lower arm of the robot, and the palm portion 23 extends from an inner cavity of the upper side block 22 to form an arm portion of the robot as a whole.

The ship body base 3 comprises a front base 32 and a rear base 33, the rear end of the front base 32 is provided with a connecting groove, one end of the connecting groove penetrates through the lower part of the front base 32, a connecting block 34 is correspondingly arranged in the connecting groove, one side of the connecting block 34 is hinged with one side of the rear end of the front base 32, one end, far away from the front base 32, of the connecting block 34 is rotatably connected with one end of the rear base 33, when the ship body base is deformed into a robot shape, the front base 32 can relatively rotate along one side of the connecting block 34, the rear base 33 can relatively rotate along one end of the connecting block 34, the front base 32 forms an upper body of the robot, the rear base 33 forms a lower crotch body of the robot, and the bending and turning motions of the robot can be realized through the connecting block 34; in one embodiment, wings 321 are further provided on both sides of the front base 32, a tail plate 331 and a cover plate 332 are provided on the upper portion and both sides of the rear base 33, respectively, the wings 321 are rotatably connected to both sides of the upper portion of the front base 32, and the tail plate 331 and the cover plate 332 are rotatably connected to the front end side of the rear base 33; when the robot is transformed, the wings 321 are formed on both sides of the back of the robot by being rotated and spread along the upper side of the front base 32, and the hood plate 332 and the tail plate 331 are formed on both sides and the rear of the crotch of the robot by being rotated and spread along the front end side of the rear base 33.

Furthermore, a warship tower part 30, a pseudo-head 31 and a splicing block 35 are arranged on the front base body 32, the warship tower part 30 is in slidable connection with the front base body 32, a sliding block is fixedly connected to the bottom of the warship tower part 30, a sliding groove is correspondingly formed in the upper part of the front base body 32, the sliding block is clamped and slidably connected into the sliding groove, the pseudo-head 31 is arranged in the middle of the front end of the front base body 32, a splicing groove is formed in the middle of the lower part of the front base body 32 and penetrates through the front end and the rear end of the front base body 32, the pseudo-head 31 is rotatably connected with the bottom side of the front end of the splicing groove, the splicing block 35 is arranged in the splicing groove, one end of the splicing block 35 is rotatably connected with one side of the rear end of the front base body 32 through a rotating block 36, and the other end of the pseudo-head 31 is detachably connected with the bottom of the jack in a splicing fit manner through a convex column; when the robot is deformed, the tower part 30 slides in the middle from one side of the front base body 32 to form the back of the robot, the pseudo-shaped head 31 rotates relative to the front base body 32 and is detachably connected with the splicing block 35, the splicing block 35 rotates through the transfer block 36 and extends out of the front base body 32 and is twisted backwards, and the pseudo-shaped head 31 is inserted into the bottom of the pseudo-shaped head 31 to be matched and connected to achieve positioning, so that a control center part in front of the robot body is formed.

The stern part 4 comprises two stern assemblies 40 which are adjacent left and right, and the stern assemblies 40 are rotatably connected with the carrier body base 3; the stern assembly 40 comprises a stern base block 41, a thigh portion 42 and a foot sole portion 43, one end of the thigh portion 42 is rotatably connected with the rear end side portion of the hull base body 3, the other end of the thigh portion is telescopically and rotatably connected with one end of an inner cavity of the stern base block 41 through a leg limiting block 44, the foot sole portion 43 is telescopically and rotatably connected with the other end of the inner cavity of the stern base block 41 through a foot limiting block 45, furthermore, the stern base block 41 is rotatably connected with a shank cover plate 401, the inner wall of the shank cover plate 401 is provided with four insertion holes 4001 which are correspondingly inserted, matched and connected with the leg limiting block 44 and the foot limiting block 45 respectively, one end of the leg limiting block 44 is rotatably connected with one end of the thigh portion 42, one side of the other end of the leg limiting block is rotatably connected with a rotary connection shaft 4004 on one end of the inner cavity of the stern base block 41 through a switching rod 4003, and the other side of the leg limiting block is correspondingly inserted, matched and connected with the insertion holes 4001 on the inner wall of the shank cover plate 401 through an insertion block 4002; one end of the foot limiting block 45 is rotatably connected with the sole part 43, one side of the other end is a long hole 4005 which is clamped by the convex column and can be connected with the other end of the inner cavity of the stern base block 41 in a sliding way, and the other opposite side is correspondingly connected with the inserting hole 4001 on the lower leg cover plate 401 in an inserting and matching way through the inserting block 4002.

The side part of the aircraft carrier main body can also be detachably connected with a side deck 5, the side deck 5 comprises a front plate 51, a rear plate 52 and a handheld part 53, one end of the front plate 51 is hinged with one end of the rear plate 52 relatively, the handheld part 53 can be rotatably connected with one end of the front plate 51 or the rear plate 52, one side of the front plate 51 hinged with the rear plate 52 relatively is provided with a bolt and a jack which are detachably connected in a splicing and matching way, when the side deck 5 is unfolded, the front plate 51 and the rear plate 52 can be connected with the aircraft carrier main body in a splicing and matching way through the bolt and the jack, and when the side deck 5 is folded, the front plate 51 and the rear plate 52 are connected with the jack in a splicing and matching way relatively through the bolt and the jack; when the robot is deformed, the front plate 51 and the rear plate 52 rotate relatively to be folded and connected in a splicing fit mode, and the hand-held part 53 extends out from one end of the front plate 51 or the rear plate 52 in a rotating mode to form the hand-held sword weapon of the robot integrally.

This embodiment is the utility model discloses a preferred embodiment does not restrict according to this the utility model discloses a protection scope, the event: 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. The utility model provides a toy of aircraft carrier shape shifting robot, includes aircraft carrier main part, its characterized in that: the aircraft carrier main body sequentially comprises a carrier head (1), a side board part (2), a carrier body base body (3) and a carrier tail part (4);

the warship head (1) comprises two warship head assemblies (10), and the warship head assemblies (10) are connected with the warship body base body (3) in a telescopic and reversible manner through connecting rod assemblies (11);

the side board part (2) comprises two side board assemblies (20), and the side board assemblies (20) are arranged between the warship head part (1) and the warship body base body (3) and can be connected with the warship body base body (3) in a turnover mode;

the ship body base (3) is provided with a ship tower part (30) and a pseudo-head part (31), the ship tower part (30) is in slidable connection with the ship body base (3), and the pseudo-head part (31) is arranged between the ship body base (3) and the side board assembly (20) and is in rotatable connection with the ship body base (3);

the ship tail part (4) comprises two ship tail components (40), and the ship tail components (40) are rotatably connected with the ship body base body (3);

when the ship body base body (3) deforms, a robot body is formed, the ship head component (10) moves relatively to form a loading part on the shoulder of the robot, the side board component (20) overturns relatively to form the arm part of the robot, and the ship tail component (40) rotates relatively to form the leg part of the robot.

2. A toy of an aircraft carrier transformable robot according to claim 1, characterized in that: the naval hull base member (3) are including preceding base member (32) and back base member (33), the rear end of preceding base member (32) is equipped with the spread groove, it is equipped with connecting block (34) to correspond in the spread groove, one side of connecting block (34) with rear end one side of preceding base member (32) is articulated, connecting block (34) are kept away from relatively the one end of preceding base member (32) with back base member (33) rotate to be connected, during the deformation, preceding base member (32) form the body on the robot, back base member (33) form the robot lower crotch body, through connecting block (34) can realize the bending and the motion of turning round of robot.

3. A toy of an aircraft carrier transformable robot according to claim 2, characterized in that: be equipped with the concatenation groove in the middle of the lower part of preceding base member (32), be equipped with concatenation piece (35) in the concatenation groove, the one end of concatenation piece (35) through adapter (36) with rear end one side rotatable coupling of preceding base member (32), the other end with the cooperation of pegging graft of the bottom detachably of imitating shape head (31) is connected, concatenation piece (35) pass through adapter (36) can realize following assemble the inslot and roll out to the rigidity of concatenation piece (35) is realized through the cooperation of pegging graft with the bottom of imitating shape head (31) and being connected.

4. A toy of an aircraft carrier transformable robot according to claim 2 or 3, characterized in that: wing plates (321) are arranged on two sides of the front base body (32), and the wing plates (321) are rotatably connected to two sides of the upper part of the front base body (32); the upper portion and the two sides of the rear base body (33) are respectively provided with a tail plate (331) and a cover plate (332), and the tail plate (331) and the cover plate (332) are respectively rotatably connected to the side edge of the front end of the rear base body (33).

5. A toy of an aircraft carrier transformable robot according to claim 1, characterized in that: the connecting rod assembly (11) comprises a first connecting rod (111), a second connecting rod (112) and a third connecting rod (113) which are sequentially connected in a rotating mode, one end of the first connecting rod (111) is connected with the inner side of the ship head assembly (10) in a rotating mode, one end of the third connecting rod (113) is connected with the upper side of the front end of the ship body base body (3) in a rotating mode, the first connecting rod (111) rotates along the length direction of the aircraft carrier main body relatively, and the second connecting rod (112) and the third connecting rod (113) rotate along the width direction of the aircraft carrier main body relatively.

6. A toy of an aircraft carrier transformable robot according to claim 1, characterized in that: the side board assembly (20) comprises a lower board block (21) and an upper board block (22), one end of the lower board block (21) is rotatably connected with one end of the upper board block (22) through a hand rotating piece (25), the other end of the lower board block is rotatably connected with the front end side of the ship body base body (3) through a shoulder rotating piece (24), an inner cavity of one end, far away from the lower board block (21), of the upper board block (22) is rotatably connected with a palm portion (23), and the palm portion (23) can extend out of the inner cavity of the upper board block (22) through rotation.

7. A toy of an aircraft carrier transformable robot as claimed in claim 1, characterized in that: the stern assembly (40) comprises a stern base block (41), a thigh portion (42) and a foot sole portion (43), one end of the thigh portion (42) is rotatably connected with the rear end side portion of the hull base body (3), the other end of the thigh portion is connected with one end of an inner cavity of the stern base block (41) in a telescopic and rotatable mode through a leg limiting block (44), and the foot sole portion (43) is connected with the other end of the inner cavity of the stern base block (41) in a telescopic and rotatable mode through a foot limiting block (45).

8. A toy of an aircraft carrier transformable robot according to claim 7, characterized in that: the stern base block (41) is rotatably connected with a shank cover plate (401), one end of the leg limiting block (44) is rotatably connected with one end of the thigh part (42), one side of the other end of the leg limiting block is rotatably connected with a switching shaft (4004) on one end of the inner cavity of the stern base block (41) through a switching rod (4003), and the other opposite side of the leg limiting block is correspondingly connected with the inner wall of the shank cover plate (401) in a plugging and matching mode, so that the shank limiting block (44) is fixed in position.

9. A toy of an aircraft carrier transformable robot according to claim 8, characterized in that: one end of the foot limiting block (45) is rotatably connected with the foot sole part (43), one side of the other end of the foot limiting block is clamped in the long hole (4005) on the other end of the inner cavity of the stern base block (41) through the convex column and is in sliding connection with the long hole (4005), and the other opposite side of the foot limiting block is correspondingly connected with the inner wall of the shank cover plate (401) in an inserting and matching mode to fix the position of the foot limiting block (45).

10. A toy of an aircraft carrier transformable robot according to claim 1, characterized in that: the lateral part of aircraft carrier main part still is equipped with side deck (5), side deck (5) with detachably connects between the aircraft carrier main part, side deck (5) include front bezel (51), back plate (52) and handheld portion (53), the one end of front bezel (51) with the one end of back plate (52) is articulated, handheld portion (53) rotatable coupling in front bezel (51) or on the one end of back plate (52), front bezel (51) with back plate (52) relative articulated one side is equipped with mutual grafting complex bolt and jack respectively, and during the deformation, front bezel (51) and back plate (52) are rotated relatively and are received and peg graft the cooperation, handheld portion (53) are followed through rotating the one end of front bezel (51) or back plate (52) is stretched out, and whole deformation forms the handheld weapon of robot.