CN202715237U - Toy capable of realizing deformation between gyroscope and robot - Google Patents

Abstract

The utility model provides a toy capable of realizing the deformation between a gyroscope and a robot, wherein assemblies of the robot are folded at the assembly joint part for mutual superposition, then, the assemblies are pushed and rotated to be embedded and are maintained to be mounted in a gyroscope main body arranged at the back part of the robot, and in addition, the gyroscope main body is closed through a gyroscope cover, so the robot can be completely deformed into the gyroscope, so the limitation on the study and entertainment effect and in the aspect of monotonous operation is overcome, in addition, the curiosity of children is aroused, the imagination of the children is aroused, and because the purpose of the toy is added, an economic toy is provided.

Description

A kind of toy that can between gyro and robot, be out of shape

The cross reference of related application

The application requires to be committed on January 6th, 2012 priority of the Korean utility model patent application N0.20-2012-0000144 of Korea S Department of Intellectual Property, and its content is incorporated herein by reference.

Technical field

Embodiment of the present utility model relates to a kind of toy that can be out of shape between gyro and robot, more specifically, relate to a kind of toy that can between gyro and robot, be out of shape, wherein, the assembly of robot is folding with stacked mutually at the joint of assembly, and the stacked assembly of robot by push-jump (push) to embed and to remain in the gyro main body, then, the gyro main body of holding robot is closed by the gyro lid, thereby finishes the distortion from the robot to the gyro.

Background technology

Toy is a kind of children's entertainment device.Traditionally, entertainment device is by manually making.When children played natural forms or kitchen utensils, natural forms or kitchen utensils can be sensu lato toys.But usually, toy all is the entertainment device that the made children of confession play.

For the purpose of entertainment for children, the past has produced various toys with different designs, material and/or manufacture method according to epoch, custom or nationality etc.Today, toy have especially a lot of kinds, widely scope and various purposes (comprise decorate with or the adult with).

The toy that has in addition various difference in functionalitys, shape and/or color.In these toys, have a robot toy of similar human shape the most attractive and be familiar with by children, and can excite children's imagination.Usually, the automation of robot toy with similar people's class formation constructed the health general motion with the picture people.

Toy is essential for children or infant in amusement and aspect growing.The intelligence that can improve children in the growth or infant of playing with toys and can provide abundant imagination for children or infant.And, play with toys and can cultivate partnership or social relationships between friend.For the infant, they can be by playing with toys cognitive object and strengthen the strength of leg, arm and hand.

Recently, the various digital electronic devices that day by day emerge have changed children's hobby.Therefore, children constantly need fresh and more infusive toy.According to the development of this demand and technology, incorporate by the technology with the advanced person and to have developed various senior toys in the toy.

The toy that can be out of shape between robot shape and other shapes can arouse children's curiosity and excite children's imagination.This robot toy that can be out of shape overcome study and entertainment effect and operate dull aspect the conventional machines human toy limitation that can't overcome.

The utility model content

Consider that the purpose that the problems referred to above propose an aspect of the present utility model provides a kind of robot toy that can be deformed into toy top, thereby overcome at study and entertainment effect and operated limitation aspect dull, and aroused children's curiosity and excited children's imagination, owing to having increased the purposes of toy, therefore provide a kind of Eco-power toy simultaneously.

Purpose on the other hand of the present utility model is to provide a kind of toy that can be out of shape between robot and gyro, wherein, the assembly of robot is folding with stacked mutually at the joint of assembly, then its push-jump one-tenth is embedded and remains in the gyro main body that is installed on the robot back, and the gyro main body is closed by the gyro lid, thereby robot is deformed into gyro.

Other aspects of the present utility model, a part will be set forth in part in the following description, and a part is apparent by description or can knows by putting into practice the utility model.

According to an aspect of the present utility model, a kind of toy that can between robot and gyro, be out of shape, this toy comprises robot and gyro main body, this robot comprises head, upper main part, lower main part, left arm, right arm, left leg and right leg; Described robot can be folded into and embed in this gyro main body, and the gyro lid is connected to described gyro main body.Described left arm comprises upper left arm, left arm and lower-left arm, and described right arm comprises upper right arm, right arm and bottom right arm; Described upper left arm and right upper arm section have respectively the shoulder hinge hole, the left hinge of described upper main part and right hinge are assemblied in respectively in the described shoulder hinge hole, and described upper left arm and right upper arm section have respectively outer surface, and the radius of curvature of each outer surface is similar to the radius of curvature less than the inner ring of described gyro main body, thereby described upper left arm and upper right arm can be folded in the described gyro main body of insertion; Described left arm and right arm are configured to insert respectively in the slot of described upper left arm and upper right arm, to move in extending and retractible mode along this slot; Described lower-left arm and bottom right arm are configured to insert respectively in the jack that is formed on described left arm and the right arm, to move in extending and retractible mode along this jack.Described left leg comprises upper left shank, left knee joint section, left tibia section, left ankle and left foot section, and described right leg comprises upper right shank, right knee joint section, right shin section, right ankle and right foot part; Described upper left shank and upper right shank are pivotably connected to described lower main part by left pelvis hinge and the right pelvis hinge of described lower main part respectively; Described left knee joint section and right knee joint section are pivotably connected to respectively the lower end of the correspondence of described upper left shank and upper right shank, with up or down rotation; Described left tibia section and right shin section are pivotably connected to respectively the lower end of the correspondence of described left knee joint section and right knee joint section; Described left ankle and right ankle are pivotably connected to respectively the lower end of the correspondence of described left tibia section and right shin section; Described left foot section and right foot part are pivotably connected to respectively described left ankle and right ankle.

Described upper left shank can comprise left pelvis hinge hole, described upper right shank can comprise right pelvis hinge hole, the pelvis hinge of the correspondence of described lower main part is assemblied in respectively in described left pelvis hinge hole and the right pelvis hinge hole, thereby described upper left shank and upper right shank can be pivotably connected to described lower main part, to rotate along fore-and-aft direction or left and right directions.

Can be formed with respectively the slot of rear portion opened on described upper left shank and the upper right shank, described left knee joint section and right knee joint section are assemblied in respectively in the described slot.In each described slot, all be formed with a pair of hinged projection, described a pair of hinged projection is assemblied in respectively in the upper hinge hole of correspondence of described left knee joint section and right knee joint section, thereby described left knee joint section and right knee joint section can be pivotably connected to respectively described upper left shank and upper right shank.

Described left knee joint section and right knee joint section can be inserted in respectively in the slot, and described upper slot is respectively formed at the top of described left tibia section and right shin section.The hinged projection that is formed in the described upper slot is assemblied in respectively in the hinge hole of the correspondence that is formed at described left knee joint section and right knee joint subordinate end.

Described left tibia section and right shin section upper slot separately can open wide in described left tibia section and right shin section front portion separately.The degree of depth of described upper slot diminishes downwards gradually from described left tibia section and right shin section upper end separately to its middle part respectively, thereby described left knee joint section and right knee joint section can up or down rotations of unrestricted ground when being pivotably connected to respectively described left tibia section and right shin section.The lower end of described left knee joint section and right knee joint section is folded into respectively to be inserted and is contained in each described upper slot, and the upper end of described left knee joint section and right knee joint section also can fold.The lower end of described left tibia section and right shin section is formed with respectively the lower slot for opening wide in described left tibia section and right shin section rear portion separately, thereby described left ankle and right ankle can be pivotably connected to respectively described left tibia section and right shin section, to rotate along fore-and-aft direction.

Described left ankle and right ankle can have respectively lower hinge hole, the hinged projection that is formed on the correspondence in the slot of described left foot section and right foot part is assemblied in respectively in the described lower hinge hole, thereby described left ankle and right ankle can be pivotably connected to respectively described left foot section and right foot part, with up or down rotation.

Described head can be pivotably connected to described upper main part, and the upper end of wherein said upper main part is formed with the head insertion groove, and described head is assemblied in this head insertion groove.Left surface in described head insertion groove is formed with the hinged projection in the hinge hole that is assemblied in described head.

Described upper main part can be connected to by the connection hinge that is assemblied in the described lower main part in the described upper main part described lower main part.Described lower main part has the connection projection, and this connection projection is assemblied in the connection support member that is formed on the described gyro main body.The connection projection of described lower main part is mobile backward along described connection support member, and the projection that therefore is formed on the upper end of described connection projection is assemblied in the central axis hole of described gyro main body, with the central axis as described gyro.

Toy according to an aspect of the present utility model, the assembly of robot is folding with stacked mutually at the joint of assembly, then its push-jump one-tenth is embedded and remains in the gyro main body that is installed on the robot back, and the gyro main body is closed by the gyro lid, thereby robot can be badly deformed into gyro, therefore overcome at study and entertainment effect and operated limitation aspect dull, and aroused children's curiosity and excited children's imagination, owing to having increased the purposes of toy, therefore provide a kind of Eco-power toy simultaneously.

Description of drawings

Below, in conjunction with the drawings embodiment is described, will make these and/or other aspect of the present utility model become obviously and be easier to and understand.

Fig. 1 is the exploded perspective view according to the robot toy that can be deformed into gyro of a kind of embodiment of the utility model;

Fig. 2 A is the exploded perspective view according to the robot toy's that can be deformed into gyro of a kind of embodiment of the utility model left arm, right arm, upper main part, lower main part and head;

Fig. 2 B shows that robot according to a kind of embodiment of the utility model is embedded the stereogram of the state in the gyro main body of open front by push-jump one-tenth;

Fig. 2 C shows according to the left arm of the robot of a kind of embodiment of the utility model and upper main part that right arm the is connected to robot front elevation with the state of horizontal or vertical rotation;

Fig. 3 A is the exploded perspective view according to the robot toy's that can be deformed into gyro of a kind of embodiment of the utility model left leg, right leg, upper main part and lower main part;

Fig. 3 B shows the stereogram that is pivotably connected to respectively the state of left knee joint section and right knee joint section according to the upper left shank of the robot of a kind of embodiment of the utility model and upper right shank;

Fig. 3 C shows according to the upper left shank of the robot of a kind of embodiment of the utility model and upper right shank and knee joint section by the front elevation of the state in the push-jump gyro main body that becomes to embed open front;

Fig. 4 A be according to a kind of embodiment of the utility model can the head of the toy that is out of shape between robot and the gyro, on the exploded perspective view of main part, lower main part and gyro main body;

Fig. 4 B be according to a kind of embodiment of the utility model can the head of the toy that is out of shape between robot and the gyro, on the stereogram that fits together of main part, lower main part and gyro main body; And

Fig. 4 C is the stereogram for the central axis hole that shows the gyro main body, is equipped with the projection as the gyro central axis in the time of wherein in the robot according to a kind of embodiment of the utility model is folded into embedding gyro main body.

The specific embodiment

In detail with reference to embodiment of the present utility model, its example view in the accompanying drawings, wherein similar Reference numeral is indicated all similar parts.

Below, with reference to the toy that can gyro and robot between be out of shape of accompanying drawing detailed description according to a kind of embodiment of the utility model.

Fig. 1 is the exploded perspective view according to the robot toy that can be deformed into gyro of a kind of embodiment of the utility model.

The toy 200 that can be out of shape between robot and gyro according to a kind of embodiment of the utility model comprises robot 100, have such as human body, described robot 100 comprises left arm 10, right arm 20, left leg 30, right leg 40, upper main part 50, lower main part 60 and head 70, described toy 200 also comprises gyro main body 80 and gyro lid 90, assembly described gyro main body 80 under the joint of assembly folds with stacked mutually state in described robot 100 is held robot 100, and described gyro lid 90 covers the gyro main body 80 of open front.

Comprise respectively upper arm parts 11 and 21, middle arm 12 and 22 and lower arm part 13 and 23 according to the left arm 10 of the robot 100 of a kind of embodiment of the utility model and right arm 20.Described left arm 10 and right arm 20 are mutually symmetrical and are of similar shape each other.

Fig. 2 A is the exploded perspective view according to the robot toy's that can be deformed into gyro of a kind of embodiment of the utility model left arm, right arm, upper main part, lower main part and head.Fig. 2 B shows that robot according to a kind of embodiment of the utility model is embedded the stereogram of the state in the gyro main body of open front by push-jump one-tenth.Fig. 2 C shows according to the left arm of the robot of a kind of embodiment of the utility model and upper main part that right arm the is connected to robot front elevation with the state of horizontal or vertical rotation.

Upper left arm 11 and upper right arm 21 according to the robot of a kind of embodiment of the utility model comprise respectively left shoulder hinge hole 11a and right shoulder hinge hole 21a, and left shoulder hinge 51 and the right shoulder hinge 52 of corresponding upper main part 50 are assemblied in respectively among this left shoulder hinge hole 11a and the right shoulder hinge hole 21a.Thus, the upper left arm 11 of robot 100 and upper right arm 21 are pivotably connected to respectively left shoulder hinge 51 and the right shoulder hinge 52 of main part 50.

Described upper left arm 11 and upper right arm 21 all be configured as the radius of curvature that makes its outer surface less than but be approximately equal to the shape of radius of curvature of the inner ring of gyro main body 80.Therefore, shown in Fig. 2 B, when robot 100 is embedded gyro main body 80 when interior by push-jump one-tenth, the inner peripheral surface close contact of described upper left arm 11 and upper right arm 21 and gyro main body 80.

Shown in Fig. 2 C, the rotation of left arm 10 and right arm 20 along continuous straight runs can be limited by gyro main body 80.But left arm 10 and right arm 20 rotation vertically then can not be subject to the restriction of gyro main body 80, thereby left arm 10 and right arm 10 can rotate 180 ° basically up or down.

Shown in Fig. 2 A, according to being formed with respectively slot 11b and 21b on the upper left arm 11 of the robot of a kind of embodiment of the utility model and the upper right arm 21, so that left arm 12 and right arm 22 are assemblied among this slot 11b and the 21b respectively movably.Thus, left arm 12 and right arm 22 can move in retractible mode, so that described arm shortens in being assemblied in slot 11b and 21b the time, yet left arm 12 and right arm 22 also can move in tensile mode, so that the time elongation in being assemblied in slot 11b and 21b of described arm.

With reference to figure 2A, described slot 11b and 21b can narrow down downwards gradually along the prolonging direction of left arm 12 and right arm 22, so that the width of the lower end of each slot 11b and 21b is less than each upper end 12a of left arm 12 and right arm 22 and the width of 22a.Thus, when left arm 12 and right arm 22 move in tensile mode, each upper end 12a and the 22a of left arm 12 and right arm 22 can not pull out from the lower end of each slot 11b and 21b, but can be suspended in the lower end of each slot 11b and 21b, therefore left arm 12 can not separate with upper right arm 21 with upper left arm 11 with right arm 22.

In order to keep left arm 12 and right arm 22 to keep respectively and to be suspended in each slot 11b of upper left arm 11 and upper right arm 21 and the state of the lower end of 21b, left arm 12 and right arm 22 can have respectively be formed on its separately the upper end copulational protuberance 12b and 22b, upper left arm 11 and upper right arm 21 can have respectively the engagement grooves of the lower end that is formed on each slot 11b and 21b, and described copulational protuberance 12b and 22b are assemblied in respectively in this engagement grooves.

Similarly, according to being formed with respectively jack on the left arm 12 of the robot of a kind of embodiment of the utility model and the right arm 22, so that lower-left arm 13 and bottom right arm 23 are assemblied in this jack respectively movably.Thus, lower-left arm 13 and bottom right arm 23 can move in retractible mode, so that described arm shortens in being assemblied in described jack the time, however lower-left arm 13 and bottom right arm 23 also can move in tensile mode so that the elongation in being assemblied in described jack time of described arm.Described jack can narrow down downwards gradually along the prolonging direction of lower-left arm 13 and bottom right arm 23.Thus, when lower-left arm 13 and bottom right arm 23 move in tensile mode, each upper end 13a and the 23a of lower-left arm 13 and bottom right arm 23 can not pull out from the lower end of each jack, but can be suspended in the lower end of each jack, so lower-left arm 13 can not separate with right arm 22 with left arm 12 with bottom right arm 23.

Fig. 3 A is the exploded perspective view according to the robot toy's that can be deformed into gyro of a kind of embodiment of the utility model left leg, right leg, upper main part and lower main part.Fig. 3 B shows the stereogram that is pivotably connected to respectively the state of left knee joint section and right knee joint section according to the upper left shank of the robot of a kind of embodiment of the utility model and upper right shank.Fig. 3 C shows according to the upper left shank of the robot of a kind of embodiment of the utility model and upper right shank and knee joint section by the front elevation of the state in the push-jump gyro main body that becomes to embed open front.

As shown in Figure 3A, left leg 30 according to the robot of a kind of embodiment of the utility model comprises upper left shank 31, left knee joint section 32, left tibia section 33, left ankle 34 and left foot section 35, right leg 40 comprises upper right shank 41, right knee joint section 42, right shin section 43, right ankle 44 and right foot part 45, described upper left shank 31 and upper right shank 41 are pivotably connected to lower main part 60 by left pelvis hinge 61 and the right pelvis hinge 62 of lower main part 60 respectively, described left knee joint section 32 and right knee joint section 42 are pivotably connected to respectively the lower end of the correspondence of upper left shank 31 and upper right shank 41, thereby can rotate up or down, described left tibia section 33 and right shin section 43 are pivotably connected to respectively the lower end of the correspondence of left knee joint section 32 and right knee joint section 42, described left ankle 34 and right ankle 44 are pivotably connected to respectively the lower end of the correspondence of left tibia section 33 and right shin section 43, and described left foot section 35 and right foot part 45 are pivotably connected to respectively left ankle 34 and right ankle 44.

Left shank 31 and right shank 41 according to a kind of embodiment of the utility model can comprise respectively pelvis hinge hole 31a and 41a, and the pelvis hinge 61 and 62 of the correspondence of described lower main part 60 is assemblied in respectively in the described pelvis hinge hole.Thus, upper left shank 31 and upper right shank 41 are pivotably connected to respectively lower main part 60.Therefore, by moving forward or backward upper left shank 31 and upper right shank 41, robot can forward or backward walking as human.

With reference to figure 3B, according to the slot 31b and the 41b that are formed with respectively rear portion opened on the upper left shank 31 of the robot of a kind of embodiment of the utility model and the upper right shank 41, so that left knee joint section 32 and right knee joint section 42 are assemblied in respectively in described slot 31b and the 41b.In each slot 31b and 41b, all be formed with a pair of hinged projection 31c, 31d and 41c, 41d, described hinged projection 31c, 31d and 41c, 41d are assemblied in respectively among the upper hinge hole 32a and 42a of correspondence of left knee joint section 32 and right knee joint section 42.Thus, left knee joint section 32 and right knee joint section 42 are hinged to respectively upper left shank 31 and upper right shank 41, thereby can rotate up or down.

Because each slot 31b and the 41b of upper left shank 31 and upper right shank 41 open wide at the rear side of upper left shank 31 and upper right shank 41 respectively, therefore after upper left shank 31 and upper right shank 41 rotate forward, left knee joint section 32 and the 42 backward rotations of right knee joint section are to fold and near described upper main part 50.Therefore, left tibia section 33 and right shin section 43 can be rotated with folding and near described lower main part 60.That is to say, because slot 31b and the 41b of rear portion opened, embed gyro main body 80 when interior when being folded at the joint of assembly according to the assembly of the robot 100 of a kind of embodiment of the utility model, left tibia section 33 and right shin section 43 can be contained in the gyro main body 80 of open front, shown in Fig. 3 C.

Refer again to Fig. 3 A, described left knee joint section 32 and right knee joint section 42 are inserted in respectively in slot 33a and the 43a, and described upper slot 33a and 43a are respectively formed at the top of left tibia section 33 and right shin section 43.The hinged projection 33b and the 43b that are respectively formed in slot 33a and the 43a are assemblied in respectively among hinge hole 32b and the 42b, and described hinge hole 32b and 42b are respectively formed at the lower end of left knee joint section 32 and right knee joint section 42.

At this moment, owing to making by having flexible synthetic resin according to the robot of a kind of embodiment of the utility model, therefore slightly stretch along its width respectively by upper slot 33a and 43a with left tibia section 33 and right shin section 43, simultaneously the lower end of left knee joint section 32 and right knee joint section 42 is firmly inserted respectively among the upper slot 33a and 43a of left tibia section 33 and right shin section 43, the hinge hole 32b of left knee joint section 32 and right knee joint section 42 and 42b can be respectively easily assemble with hinged projection 33b and the 43b of left tibia section 33 and right shin section 43.

Described left tibia section 33 and right shin section 43 upper slot 33a and 43a separately opens wide in the front portion of left tibia section 33 and right shin section 43 respectively.Left tibia section 33 and right shin section 43 upper slot 33a and the degree of depth of 43a separately diminishes downwards to its middle part gradually from the upper end of left tibia section 33 and right shin section 43 respectively.Thus, left knee joint section 32 and right knee joint section 42 can rotate freely respectively when being pivotably connected to respectively left tibia section 33 and right shin section 43 up or down.

Therefore, embed gyro main body 80 when interior when being folded at the joint of assembly according to the assembly of the robot 100 of a kind of embodiment of the utility model, left knee joint section 32 and right knee joint section 42 are all folding in its lower end, in the upper slot 33a and 43a that insert respectively and be contained in left tibia section 33 and right shin section 43, and left knee joint section 32 and right knee joint section 42 are further folding in the top along the backward directions of upper shank 31 and 41 respectively, shown in Fig. 3 C.

Described left tibia section 33 and right shin section 43 all are formed with lower slot 33c and 43c in its lower end, described lower slot 33c and 43c open wide at the rear portion of left tibia section 33 and right shin section 43 respectively, so that left ankle 34 be connected ankle 44 and connect pivotly respectively left tibia section 33 and right shin section 43, thereby can rotate forward or backward.

Be formed with respectively hinged projection 33d and 43d among the lower slot 33c of described left tibia section 33 and right shin section 43 and the 43c, described hinged projection 33d and 43d are assemblied in respectively among the corresponding upper hinge hole 34a and 44a, and described upper hinge hole 34a and 44a are respectively formed on left ankle 34 and the right ankle 44.Thus, left ankle 34 and right ankle 44 are pivotably connected to respectively left tibia section 33 and right shin section 43.

Because left ankle 34 and right ankle 44 are pivotably connected to respectively left tibia section 33 and right shin section 43, therefore left ankle 34 and right ankle 44 can rotate up or down.

Described left ankle 34 and right ankle 44 have respectively lower hinge hole 34b and 44b, are respectively formed at the slot 35a of left foot section 35 and right foot part 45 and hinged projection 35b and the 45b of the correspondence in the 45a and are assemblied in respectively among described lower hinge hole 34b and the 44b.Thus, because left ankle 34 and right ankle 44 are pivotably connected to respectively left foot section 35 and right foot part 45, therefore left ankle 34 and right ankle 44 can rotate up or down.

Therefore, when the robot 100 according to a kind of embodiment of the utility model utilized left leg 30 described above and right leg 40 to advance forward, the operation of left ankle 34 and right ankle 44 and left foot section 35 and right foot part 45 can be identical with the action of the pin of human body and ankle.

Fig. 4 A be according to a kind of embodiment of the utility model can the head of the toy that is out of shape between robot and the gyro, on the exploded perspective view of main part, lower main part and gyro main body.Fig. 4 B be according to a kind of embodiment of the utility model can the head of the toy that is out of shape between robot and the gyro, on the stereogram that fits together of main part, lower main part and gyro main body.Fig. 4 C is the stereogram for the central axis hole that shows the gyro main body, is equipped with the projection as the gyro central axis in the time of wherein in the robot according to a kind of embodiment of the utility model is folded into embedding gyro main body.

Can be pivotably connected to main part 50 at the head 70 of the toy that is out of shape between robot and the gyro according to a kind of embodiment of the utility model.The upper end of upper main part 50 is formed with head insertion groove 53, and head 70 is assemblied in this head insertion groove 53.In this head insertion groove 53, for example at its left surface, be formed with hinged projection 54, this hinged projection 54 is assemblied in the hinge hole 71 of head 70.

As selection, can all form hinged projection 54 at left surface and the right flank of described head insertion groove 53.Perhaps, can form a hinged projection 54 at left surface or the right flank of described head insertion groove 53.Shown in Fig. 4 B, head 70 and upper main part 50 are by assembling in the head insertion groove 53 that head 70 is assembled to upper main part 50.

Described upper main part 50 is connected to lower main part 60 by the connection hinge 63 that is assemblied in the lower main part 60 in the upper main part 50.Described lower main part 60 has the projection 64 of connection, and described connection projection 64 is assemblied in the connection support member 82 that is formed on the gyro main body 80.

When being folded into, the robot 100 according to a kind of embodiment of the utility model embeds gyro main body 80 when interior, the connection projection 64 of lower main part 60 is mobile backward along connecting support member 82, is assembled in the central axis hole 83 of gyro main body 80 in being formed in the projection 65 that connects projection 62 upper ends.Thus, be assemblied in projection 65 in the central axis hole 83 as the central axis of gyro, shown in Fig. 4 C.

Although only show and described indivedual embodiment of the present utility model, can be in the situation that do not break away from the utility model principle and spirit is carried out various changes but it will be understood by those skilled in the art that, scope of the present utility model is limited by claim and equivalent thereof.

Claims (8)

1. the toy that can be out of shape between robot and gyro is characterized in that, this toy comprises:

Robot (100), this robot comprise head (70), upper main part (50), lower main part (60), left arm (10), right arm (20), left leg (30) and right leg (40); And

Gyro main body (80), described robot (100) can be folded into and embed in this gyro main body (80), and gyro lid (90) is connected to described gyro main body (80),

Wherein, described left arm (10) comprises upper left arm (11), left arm (12) and lower-left arm (13), and described right arm (20) comprises upper right arm (21), right arm (22) and bottom right arm (23);

Described upper left arm (11) and upper right arm (21) have respectively shoulder hinge hole (11a, 21a), the left hinge (51) of described upper main part (50) and right hinge (52) are assemblied in respectively described shoulder hinge hole (11a, 21a), and described upper left arm (11) and upper right arm (21) have respectively outer surface, and the radius of curvature of each outer surface is similar to the radius of curvature less than the inner ring of described gyro main body (80), thereby described upper left arm (11) and upper right arm (21) can be folded in the described gyro main body of insertion (80);

Described left arm (12) and right arm (22) are configured to insert respectively in the slot (11b, 21b) of described upper left arm (11) and upper right arm (21), to move in extending and retractible mode along this slot (11b, 21b);

Described lower-left arm (13) and bottom right arm (23) are configured to insert respectively in the jack that is formed on described left arm (12) and the right arm (22), moving in extending and retractible mode along this jack,

Wherein, described left leg (30) comprises upper left shank (31), left knee joint section (32), left tibia section (33), left ankle (34) and left foot section (35), and described right leg (40) comprises upper right shank (41), right knee joint section (42), right shin section (43), right ankle (44) and right foot part (45);

Described upper left shank (31) and upper right shank (41) are pivotably connected to described lower main part (60) by left pelvis hinge (61) and the right pelvis hinge (62) of described lower main part (60) respectively;

Described left knee joint section (32) and right knee joint section (42) are pivotably connected to respectively the lower end of the correspondence of described upper left shank (31) and upper right shank (41), with up or down rotation;

Described left tibia section (33) and right shin section (43) are pivotably connected to respectively the lower end of the correspondence of described left knee joint section (32) and right knee joint section (42);

Described left ankle (34) and right ankle (44) are pivotably connected to respectively the lower end of the correspondence of described left tibia section (33) and right shin section (43);

Described left foot section (35) and right foot part (45) are pivotably connected to respectively described left ankle (34) and right ankle (44).

2. toy according to claim 1, it is characterized in that, described upper left shank (31) comprises left pelvis hinge hole (31a), described upper right shank (41) comprises right pelvis hinge hole (41a), the pelvis hinge (61 of the correspondence of described lower main part (60), 62) be assemblied in respectively in described left pelvis hinge hole (31a) and the right pelvis hinge hole (41a), thereby described upper left shank (31) and upper right shank (41) can be pivotably connected to described lower main part (60), to rotate along fore-and-aft direction or left and right directions.

3. toy according to claim 1 is characterized in that, is formed with respectively the slot (31b of rear portion opened on described upper left shank (31) and the upper right shank (41), 41b), described left knee joint section (32) and right knee joint section (42) are assemblied in respectively in the described slot (31b, 41b)

Wherein, in each described slot (31b, 41b), all be formed with a pair of hinged projection (31c, 31d; 41c, 41d), described a pair of hinged projection (31c, 31d; 41c, 41d) be assemblied in respectively the upper hinge hole (32a of the correspondence of described left knee joint section (32) and right knee joint section (42), 42a), thereby described left knee joint section (32) and right knee joint section (42) can be pivotably connected to respectively described upper left shank (31) and upper right shank (41).

4. toy according to claim 1 is characterized in that, described left knee joint section (32) and right knee joint section (42) are inserted in respectively slot (33a, 43a), described upper slot (33a, 43a) is respectively formed at the top of described left tibia section (33) and right shin section (43)

Wherein, the hinged projection (33b, 43b) that is formed in the described upper slot (33a, 43a) is assemblied in respectively in the hinge hole (32b, 42b) of the correspondence that is formed at described left knee joint section (32) and right knee joint section (42) lower end.

5. toy according to claim 4 is characterized in that, described left tibia section (33) and right shin section (43) upper slot (33a, 43a) separately open wide in described left tibia section (33) and right shin section (43) front portion separately,

Wherein, described upper slot (33a, degree of depth 43a) diminishes downwards to its middle part gradually from described left tibia section (33) and right shin section (43) upper end separately respectively, thereby described left knee joint section (32) and right knee joint section (42) can up or down rotations of unrestricted ground when being pivotably connected to respectively described left tibia section (33) and right shin section (43)

Wherein, the lower end of described left knee joint section (32) and right knee joint section (42) is folded into respectively to be inserted and is contained in each described upper slot (33a, 43a), and the upper end of described left knee joint section (32) and right knee joint section (42) also can fold,

Wherein, the lower end of described left tibia section (33) and right shin section (43) is formed with respectively the lower slot (33c for opening wide in described left tibia section (33) and right shin section (43) rear portion separately, 43c), thereby described left ankle (34) and right ankle (44) can be pivotably connected to respectively described left tibia section (33) and right shin section (43), to rotate along fore-and-aft direction.

6. toy according to claim 5, it is characterized in that, described left ankle (34) and right ankle (44) have respectively lower hinge hole (34b, 44b), be formed on the slot (35a of described left foot section (35) and right foot part (45), hinged projection (the 35b of the correspondence that forms 45a), 45b) be assemblied in respectively described lower hinge hole (34b, 44b), thereby described left ankle (34) and right ankle (44) can be pivotably connected to respectively described left foot section (35) and right foot part (45), with up or down rotation.

7. toy according to claim 1, it is characterized in that, described head (70) is pivotably connected to described upper main part (50), the upper end of wherein said upper main part (50) is formed with head insertion groove (53), described head (70) is assemblied in this head insertion groove (53), and wherein the left surface in described head insertion groove (53) is formed with the hinged projection (54) in the hinge hole (71) that is assemblied in described head (70).

8. toy according to claim 1 is characterized in that, described upper main part (50) is connected to described lower main part (60) by the connection hinge (63) that is assemblied in the described lower main part (60) in the described upper main part (50),

Wherein, described lower main part (60) has connection projection (64), and this connection projection (64) is assemblied in the connection support member (82) that is formed on the described gyro main body (80),

Wherein, the connection projection (64) of described lower main part (60) is mobile backward along described connection support member (82), therefore the projection (65) of the upper end of described connection projection (64) formation is assemblied in the central axis hole (83) of described gyro main body (80), with the central axis as described gyro.

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