CN217489724U - Toy robot of deformable figure 8 - Google Patents

Abstract

The utility model discloses a toy robot with a transformable figure 8, which comprises a body part, a head part and a limb part, wherein the limb part comprises an upper limb part and a lower limb part, and the lower limb part comprises a thigh structure and a shank structure; the thigh structure comprises a first connecting structure and a second connecting structure which are matched with each other in a relatively rotatable way around the longitudinal axis of the thigh structure; the head stretches into the body, the upper limb turns over, the second connecting structure rotates relative to the first connecting structure, the shank structure makes stretching movement towards the thigh structure, and the lower limb turns over, so that the figure 8 is formed. Compared with the prior art, the utility model discloses a relative rotation around the axis of ordinates of first connection structure and second connection structure, the flexible cooperation of thigh structure and shank structure and the whole upset motion of low limbs portion have realized by the deformation of robot form to the 8 forms of figure, have the motion mode of multiple deformation, have improved the enjoyment of playing, help arousing player's interest and imagination, creativity.

Description

Toy robot of deformable figure 8

Technical Field

The utility model relates to a toy technical field, more specifically relates to a toy robot of flexible figure 8.

Background

The toy is a specific form of edutainment, and is often more capable of arousing imagination of children and training the ability of hands-on practice during playing. Especially, compared with the common toy, the toy with the deformable framework can be shaped into different shapes and also has the characteristic of deformation, so that the playing interest is greatly improved. For example, chinese utility model CN212395843U discloses a toy composed of figures 0 to 9 into a robot, which uses a form to change from one form to a digital form by inserting and/or turning. However, the existing toys that can be transformed into digital shapes have a single transformation mode and have fewer models in the non-digital state, and gradually lose the attraction of children.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a first aim at to above-mentioned defect and not enough, through multiple, the motion deformation mode of multidimension degree, solve among the prior art variable digital toy deformation mode single, the molding form still not abundant enough, lose the technical problem to user's appeal gradually, provide a variable digital 8's of formation toy robot.

Another aim at of the utility model, solve among the prior art toy between whole the mode of assembling too single, assemble the degree of freedom low, connect firm technical problem inadequately, provide a variable formation figure 8's toy robot.

In order to realize the purpose, the utility model discloses a specific technical scheme be:

the toy robot with the transformable number 8 comprises a body part, a head part and limb parts, wherein the head part is telescopically connected with the body part, and the limb parts are rotatably connected with the body part; the limb part comprises an upper limb part and a lower limb part, and the lower limb part comprises a thigh structure and a shank structure which are mutually matched in a telescopic manner; the thigh structure comprises a first connecting structure and a second connecting structure, and the first connecting structure and the second connecting structure can be matched in a relatively rotating mode around a longitudinal axis of the thigh structure; the head stretches into the body, and the upper limb turns over, so that the upper half part of the figure 8 is formed; the second connecting structure rotates relative to the first connecting structure, the shank structure makes telescopic motion towards the thigh structure, and the lower limb part turns over to form a lower half part with the number of 8.

Preferably, the first connecting structure and the second connecting structure are rotatably connected through a rotating shaft with a first clamping piece arranged at the end part.

Preferably, the first blocking element is arranged in a disc structure.

Preferably, the body part is provided with a limiting groove, and the thigh structure penetrates through the limiting groove and is rotatably connected with the inside of the body part through a rotating shaft.

Preferably, the second connecting structure is provided with a second clamping piece, a clamping groove is formed in the shank structure, and the second clamping piece and the clamping groove can be in clamping fit.

Preferably, the shank structure is provided with a telescopic groove, and the thigh structure is integrally sleeved with the telescopic groove in a sliding manner.

Preferably, the upper limb comprises a shoulder structure and an arm structure, the shoulder structure is connected with the trunk part in a vertically turnable manner, and the arm structure is connected with the trunk part in a front-back rotatable manner.

Preferably, the head portion comprises a profiling shell and a third connecting structure, the third connecting structure comprises a column body and a table body, the profiling shell and the column body can be sleeved and are in over-tight fit at the sleeved portion, and the table body and the body portion can be in sliding fit.

Preferably, an inserting body is arranged in the profiling shell, a bearing hole is formed in the column body corresponding to the inserting body, and the inserting body and the bearing hole can be sleeved in a tight fit mode.

Preferably, the toy robot body is provided with assembling holes in an array manner on one side, and the assembling holes can be used for assembling the whole toy, and plug connectors capable of being plugged with the assembling holes are arranged on the opposite side.

Compared with the prior art, the utility model, following beneficial effect has:

the figure 8 transformable toy robot of the utility model has the advantages that the head stretches into the body part, and the upper limb turns over, so that the upper half part of the figure 8 is transformed; the second connecting structure rotates relative to the first connecting structure, the shank structure makes telescopic motion towards the thigh structure, and the lower limb part turns over to form a lower half part with the number of 8. Compared with the prior art, the utility model discloses a relative rotation around the axis of ordinates of first connection structure and second connection structure, the flexible cooperation of thigh structure and shank structure and the whole upset motion of low limbs portion have realized being out of shape to the figure 8 form by the robot form to multiple motion mode realizes warping, has improved the enjoyment of playing, helps arousing player's interest, imagination and creativity.

On this basis, the utility model discloses in one side of car main part and profile modeling part all is equipped with the hole of assembling, the opposite side of assembling that are used for the toy to assemble each other between whole with array is equipped with the plug connector that can peg graft with assembling the hole. The free assembly among a plurality of toys can be realized through the cooperation of the assembly holes and the plug connectors, the assembly freedom degree and the possibility of combination form are greatly improved, and the play fun and the imagination of children are stimulated; simultaneously, hole and plug connector are assembled to the multiunit that the array set up, and joint strength is higher, compares in prior art its connection more firm for needn't worry when playing and assemble the condition that the toy just bumped and scatters.

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

Drawings

Fig. 1 is a schematic diagram of an explosion structure of a toy robot according to a preferred embodiment of the present invention.

Fig. 2 is a schematic diagram of an explosion structure of the toy robot at another viewing angle according to the preferred embodiment of the present invention.

Fig. 3 is a schematic structural view of a toy robot according to a preferred embodiment of the present invention.

Fig. 4 is a schematic structural view of a toy robot in a modification of the preferred embodiment of the present invention.

Fig. 5 is a schematic structural view of a toy robot transformed into a figure 8 according to a preferred embodiment of the present invention.

Description of reference numerals:

10 a body part; 20 head, 21 profiling shell, 22 third connecting structure, 221 column, 222 platform body and 223 bearing hole; 30 thigh structures, 31 first connecting structures, 32 second connecting structures and 33 second clamping parts; 40 shank structure, 41 telescoping slot; 50 a first clamping member; a 60 shoulder configuration; 70 arm structure; 81 assembling holes and 82 plug connectors.

Detailed Description

The present invention will be further explained and illustrated by the following embodiments, which should be understood that the purpose of the following embodiments is to make the technical solution of the present invention more clear and easy to understand, and not to limit the protection scope of the claims.

As shown in fig. 1 to 5, the toy robot of the present invention comprises a body portion 10, a head portion 20 and a limb portion, wherein the head portion 20 is telescopically connected to the body portion 10, and the limb portion is rotatably connected to the body portion 10; the limb part comprises an upper limb part and a lower limb part, and the lower limb part comprises a thigh structure 30 and a shank structure 40 which are mutually matched in a telescopic way; the thigh structure 30 comprises a first connecting structure 31 and a second connecting structure 32, the first connecting structure 31 and the second connecting structure 32 are rotatably engaged relatively about a longitudinal axis of the thigh structure 30; the head 20 is extended into the torso 10 and the upper limb is inverted, thus becoming the upper half of the figure 8; the second connecting structure 32 rotates relative to the first connecting structure 31, the lower leg structure 40 makes a stretching movement towards the upper leg structure 30, and the lower limb turns over, so that the lower limb becomes a lower half with the number 8.

In the preferred embodiment, the first connecting structure 31 and the second connecting structure 32 are rotatably connected by a rotating shaft with a first blocking member 50 at the end.

In a preferred embodiment, the first detent 50 is provided in a tray configuration.

In a preferred embodiment, the torso portion 10 is provided with a stopper groove, and the thigh structure 30 passes through the stopper groove and is rotatably connected with the inside of the torso portion 10 through a rotating shaft.

In a preferred embodiment, the second connecting structure 32 is provided with a second detent 33, the lower leg structure 40 is provided with a detent groove therein, and the second detent 33 is in detent engagement with the detent groove.

In the preferred embodiment, the lower leg structure 40 is provided with a telescopic slot 41, and the upper leg structure 30 is integrally slidably sleeved with the telescopic slot 41.

In a preferred embodiment, the upper body part includes a shoulder structure 60 and an arm structure 70, the shoulder structure 60 is connected to the torso part 10 to be turnable in the up-down direction, and the arm structure 70 is connected to the torso part 10 to be turnable in the front-back direction.

In a preferred embodiment, the head portion 20 includes a contoured shell 21 and a third connecting structure 22, the third connecting structure 22 includes a post 221 and a platform 222, the contoured shell 21 is nestable with the post 221 and over-snugly fits therein, and the platform 222 is slidably fitted within the body portion 10.

In a preferred embodiment, an insertion body is arranged in the profile housing 21, the column body 221 is provided with a receiving hole 223 corresponding to the insertion body, and the insertion body and the receiving hole 223 can be sleeved in an over-tight fit mode.

In a preferred embodiment, the toy robot body is provided with assembling holes 81 on one side for assembling the whole toy in an array manner, and plug connectors 82 on the opposite side for being inserted into the assembling holes 81.

The present invention will be further described with reference to the following specific examples.

Examples

The embodiment provides a toy robot capable of changing into a figure 8, which comprises a body part 10, a head part 20 and limb parts; the head portion 20 is telescopically engaged with the body portion 10, and the body portion is rotatably coupled with the body portion 10. The limb part comprises an upper limb part and a lower limb part. The upper limb part includes a shoulder structure 60 and an arm structure 70, the shoulder structure 60 is connected to the trunk part 10 in a vertically turnable manner, and the arm structure 70 is connected to the trunk part 10 in a front-rear direction in a turnable manner. The lower limb portion comprises a thigh structure 30 and a lower leg structure 40, the thigh structure 30 being telescopically engaged with the lower leg structure 40. The lower leg structure 40 is pivotally connected to the torso portion 10. The thigh structure 30 comprises a first connecting structure 31 and a second connecting structure 32; the first connecting structure 31 is rotatably connected with the body portion 10 via a rotating shaft, and the second connecting structure 32 is rotatably engaged with the first connecting structure 31 about the longitudinal axis of the thigh structure 30.

Specifically, the head portion 20 includes a contour shell 21 and a third connecting structure 22, the third connecting structure 22 includes a column 221 and a table body 222, the contour shell 21 and the column 221 are sleeved and can be over-tightly matched at the joint, and the table body 222 and the body portion 10 are slidably matched. By separating the contoured shell 21 from the column 221, it is achieved that the column 221 can be fully accessed within the torso portion 10 to hide the components from human deformation into a digital form.

More specifically, an insertion body is arranged in the profile modeling shell 21, the column body 221 is provided with a receiving hole 223 corresponding to the insertion body, and the insertion body is sleeved and tightly matched with the receiving hole 223.

More specifically, the platform 222 is configured in a wedge shape with a wide top and a narrow bottom, the body 10 is provided with a first sliding slot therein, and the platform 222 is slidably connected with the first sliding slot at two protruding portions on two sides.

More specifically, the outer wall of the back of the body portion 10 is provided with a second sliding groove, the platform 222 is provided with an actuating handle corresponding to the second sliding groove, and the platform 222 is moved telescopically inside the body portion 10 by pulling the actuating handle within the range of the second sliding groove, so that the head portion 20 is extended and contracted inside and outside the body portion 10.

Specifically, the shoulder structure 60 is pivotably connected to the body portion 10 via a pivot.

Specifically, the arm structure 70 is rotatably connected to the torso portion 10 via a rotation shaft.

Specifically, the torso portion 10 is provided with a stopper groove, and the thigh structure 30 passes through the stopper groove and is rotatably connected with the inside of the torso portion 10 through a rotating shaft.

Specifically, the first connecting structure 31 and the second connecting structure 32 are rotatably connected through a rotating shaft with a clamping disk at an end.

In particular, the second connecting structure 32 is provided with a second detent 33, and the lower leg structure 40 is provided with a detent groove therein, so that the first detent 50 and the detent groove cooperate to achieve relative fixation of the upper leg structure 30.

In particular, the calf structure 40 is invertible provided with a foot.

In particular, the lower leg structure 40 may be reversibly provided with feet for maintaining balance.

Specifically, the shank structure 40 is provided with a telescopic slot 41, and the whole of the thigh structure 30 is slidably sleeved with the telescopic slot 41, so as to hide the thigh structure 30 when the figure is formed by human figure deformation.

In addition, assembling holes 81 for assembling the toy bodies are formed in an array mode in one side of the vehicle main body and one side of the profiling component, and plug connectors 82 capable of being connected with the assembling holes 81 in an inserting mode are arranged in the other side of the vehicle main body and the profiling component. The free assembly of a plurality of toys can be realized through the cooperation of the assembly holes 81 and the plug connectors 82, the assembly freedom degree and the possibility of combination form are greatly improved, and the play fun and imagination of children are stimulated; meanwhile, the multiple groups of assembling holes 81 and the plug connectors 82 which are arranged in an array are high in connection strength and firm in connection compared with the prior art, so that the assembled toy is not required to be broken when being played.

The present invention has been described in terms of embodiments, but not limitations, and other variations of the disclosed embodiments, as would be readily apparent to one skilled in the art, are intended to be included within the scope of the present invention as defined in the following claims, in view of the description of the present invention.

Claims (10)

1. A transformable figure 8 toy robot, characterized by: the multifunctional head comprises a body part (10), a head part (20) and limb parts, wherein the head part (20) is telescopically connected with the body part (10), and the limb parts are rotatably connected with the body part (10);

the limb part comprises an upper limb part and a lower limb part, and the lower limb part comprises a thigh structure (30) and a shank structure (40) which are mutually matched in a telescopic way; the thigh structure (30) comprising a first connecting structure (31) and a second connecting structure (32), the first connecting structure (31) and the second connecting structure (32) being relatively rotatably mated about a longitudinal axis of the thigh structure (30);

the head (20) telescopes into the torso (10) and the upper limb everts, thereby becoming the upper half of the figure 8; the second connecting structure (32) rotates relative to the first connecting structure (31), the shank structure (40) makes telescopic movement towards the thigh structure (30), and the lower limb turns over to become the lower half of the figure 8.

2. A transformable number 8 toy robot as claimed in claim 1 wherein: the first connecting structure (31) and the second connecting structure (32) are rotatably connected through a rotating shaft, the end part of which is provided with a first clamping piece (50).

3. A transformable number 8 toy robot as claimed in claim 2 wherein: the first clamping piece (50) is arranged in a disc body structure.

4. A transformable number 8 toy robot as claimed in claim 1 wherein: the body part (10) is provided with a limiting groove, and the thigh structure (30) penetrates through the limiting groove and is rotatably connected with the inside of the body part (10) through a rotating shaft.

5. A transformable number 8 toy robot as claimed in claim 1 wherein: the second connecting structure (32) is provided with a second clamping piece (33), a clamping groove is formed in the shank structure (40), and the second clamping piece (33) can be in clamping fit with the clamping groove.

6. A transformable number 8 toy robot as claimed in claim 1 wherein: the shank structure (40) is provided with a telescopic groove (41), and the thigh structure (30) is integrally sleeved with the telescopic groove (41) in a sliding manner.

7. A transformable number 8 toy robot as claimed in claim 1 wherein: the upper limb part comprises a shoulder structure (60) and an arm structure (70), the shoulder structure (60) and the body part (10) are connected in a turnover mode along the up-down direction, and the arm structure (70) and the body part (10) are connected in a rotary mode along the front-back direction.

8. A transformable number 8 toy robot as claimed in claim 1 wherein: the head part (20) comprises a profiling shell (21) and a third connecting structure (22), the third connecting structure (22) comprises a cylinder body (221) and a table body (222), the profiling shell (21) and the cylinder body (221) can be sleeved and are in over-tight fit at the sleeved position, and the table body (222) and the inside of the body part (10) can be in sliding fit.

9. A transformable number 8 toy robot according to claim 8, wherein: an inserting body is arranged in the profiling shell (21), a bearing hole (223) is formed in the column body (221) corresponding to the inserting body, and the inserting body and the bearing hole (223) can be sleeved in a tight fit mode.

10. A transformable number 8 toy robot as claimed in claim 1 wherein: and assembling holes (81) which can be used for assembling the toy bodies into a whole are formed in one side of the toy robot body in an array mode, and plug connectors (82) which can be spliced with the assembling holes (81) are arranged on the opposite side of the toy robot body.

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