CN220345073U - Combined deformation toy component - Google Patents

Abstract

The utility model discloses a combined deformation toy component, which can be independently used as an animal toy to play, and can be deformed into an automobile toy and a robot toy in different combined forms, so that the combined deformation toy component is changeable in shape and beneficial to improving operability and playability. And through the setting of the card unlocking structure and the card unlocking driving part thereof, one-key card unlocking can be realized, so that the first toy in a first animal form and the second toy in a second animal form can be automatically deformed and split, the quick dismounting deformation is realized, the dismounting efficiency can be improved, and the market competitiveness is improved.

Description

Combined deformation toy component

Technical Field

The present utility model relates to a modular transformable toy component.

Background

At present, car-shaped toys are deeply favored by children. The variety of toys in the toy industry is increasing, and the existing children play with some toys with deformation functions can be changed into various different shapes; some have and assemble the function, can dismantle the back and assemble into different models, can deeply like children.

Chinese patent publication No. CN205796505U discloses a spliced toy assembly which adopts a structure in which a plurality of toy monomers having independent shapes are combined into at least two assembly shapes having completely different shapes and styles by at least two, thereby improving operability, playability, etc. of the toy. However, after the assembly is completed, the assembly can be manually disassembled and assembled into a plurality of toy monomers with independent shapes, and the assembly and disassembly efficiency is low. Moreover, the toy monomers are vehicle-shaped monomers, so that the vehicle-shaped rolling playing function can be realized, the playing method is single, and the market competitiveness is not improved.

Therefore, how to overcome the above-mentioned drawbacks has become an important issue to be solved by the person skilled in the art.

Disclosure of Invention

The utility model overcomes the defects of the technology and provides a combined deformation toy component.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the first toy 100 is provided with a first animal shape, an automobile front half shape and a robot lower half shape, the second toy is provided with a second animal shape, an automobile rear half shape and a robot upper half shape, the first toy 100 in the automobile front half shape is clamped with the second toy 200 in the automobile rear half shape through a first clamping structure to form an automobile toy 300, the first toy 100 in the robot lower half shape is clamped with the second toy 200 in the robot upper half shape through a second clamping structure to form a robot toy, the automobile toy 300 can be automatically deformed and split into the first toy 100 in the first animal shape and the second toy 200 in the second animal shape through an inside clamping structure, the clamping structure is a clamping part 1 capable of swinging up and down, a first groove 2 is concavely formed in the rear lower side of the automobile body of the automobile 300, and the clamping part 1 is provided with a clamping key to be convenient for the clamping part 11 to be exposed on the first groove 11.

Preferably, when the first toy 100 is in the first animal form, it includes a first animal trunk 101 serving as a front body in the vehicle front half form, serving as a robot waist member in the robot lower half form, first animal left and right wings serving as left and right front wheels and front hull components in the vehicle front half form, serving as left and right legs in the robot lower half form, a first animal front half integrated part 103 capable of being hidden in the vehicle front half form, serving as a back part in the robot lower half form, in the vehicle front half form, the first animal front half integrated part 103 being integrally formed by a first animal neck 1031 and a first animal front claw 1032, the first animal left and right wings being hinged behind the first animal trunk 101 and capable of swinging back and forth around a first vertical axis 3, the first animal front half integrated part 103 being hinged at one end to the lower part of the front side of the first animal trunk 101, and the other end being capable of swinging back and forth in the first wing structure being engaged with the first animal front half part by a third engagement structure, and capable of being deformed in a left and right direction between the first animal front half and the first animal trunk 103 and the first human front half form by being engaged with the first animal front half structure in the left and right side of the front half form.

Preferably, when the second toy 200 is in the second animal form, it includes a second animal trunk and head integrated part 201 for being the trunk of the robot in the upper half form of the robot, a second animal left and right wing for being the left and right wing of the robot in the upper half form of the robot, a second animal left and right upper arm 203 capable of being hidden in the rear half form of the automobile for being the left and right arms in the upper half form of the robot, a second animal left and right front claw capable of being the left and right rear wheel assembly in the rear half form of the automobile for being the left and right hand parts in the upper half form of the robot, the second animal trunk and head integrated part 201 being formed integrally by a second animal trunk 2011 and a second animal head, the second animal left and right wing being capable of being hidden in the rear half form of the automobile, the second animal left and right upper arm 203 capable of being the left and right arm in the upper half form of the robot, the second animal left and right front claw capable of being the left and right rear wheel assembly in the rear half form of being the robot, the second animal trunk and the head integrated part 201 being the left and right hand part in the upper half form of the robot, the second animal trunk and the head integrated part being the left and right animal head part in the upper half form of the robot, the second animal trunk part being capable of being the left and right animal head part being capable of being deformed by the second animal trunk part, the second animal trunk part and the second animal trunk part 201 and the second animal head part being the left and the second animal head part, and the second animal head part being the front and the animal head part.

Preferably, the first fastening structure includes a first fastening body 61 protruding forward on the rear body in the rear half of the automobile, a first fastening groove 62 disposed in cooperation with the first fastening body 61 and recessed on the front body in the front half of the automobile, a first through hole 63 formed in the front side of the rear body in the rear half of the automobile, a second fastening groove 64 disposed in the rear body in the rear half of the automobile and located at a position close to the first through hole 63, and a second fastening body 65 protruding rearward on the front body of the automobile and capable of extending into the first through hole 63 and being in cooperation with the second fastening groove 64 in the front half of the automobile; the second clamping structure comprises a third clamping body 71 which is arranged on the upper surface of the waist of the robot in a protruding mode in the lower half mode of the robot, and a third clamping groove 72 which is arranged in a concave mode in the upper half mode of the robot in a matched mode with the third clamping body 71, wherein the upper half body of the robot is provided with a limiting convex strip 8 for clamping the back modeling in a protruding mode in the upper half mode of the robot.

Preferably, the third fastening structure includes a fourth fastening body 91 protruding on the front side of the first animal trunk 101 in the first animal configuration, and a fourth fastening groove 92 provided on the first animal head and neck 1031 in the first animal configuration; the fourth clamping structure comprises a fifth clamping body 111 arranged on the left and right front claws of the second animal in the first animal form and a fifth clamping groove 112 which is arranged on the inner sides of left and right wings of the first animal in the first animal form and is matched with the fifth clamping body 111, and the left and right wings of the first animal are elastically hinged on the rear side of the first animal trunk 101 through a first connecting component; the fifth clamping structure comprises a second opening 131 which is formed in the head 2012 of the second animal and is used as a second animal eye shape in the second animal shape, a sixth clamping groove 132 which is arranged in the head 2012 of the second animal in the second animal shape and is positioned near the second opening 131, and a sixth clamping body 133 which is arranged on the left and right wings of the second animal in the second animal shape in a protruding manner and can extend into the second opening 131 to be matched and clamped with the sixth clamping groove 132.

Preferably, a pre-unlocking structure is arranged between the first toy 100 in the front half form of the automobile and the second toy 200 in the rear half form of the automobile, the left and right front claws of the second animal are provided with guide sliding grooves 14 which are extended forwards and backwards in the front half form of the automobile and used for allowing the fifth clamping body 111 to elastically slide along the fifth clamping body, the trunk 2011 of the second animal is provided with an extending part 15 in a protruding mode at a position opposite to the front and back of the fifth clamping body 111 in the rear half form of the automobile, the pre-unlocking structure is composed of the fifth clamping body 111, the guide sliding grooves 14 and the extending part 15, when the first toy 100 in the front half form of the automobile and the second toy 200 in the rear half form of the automobile are clamped through the first clamping structure, the extending part 15 is pushed forwards to enable the fifth clamping body 111 to be stressed forwards and be unlocked with the fifth clamping groove 112, the first clamping body 61 is of a cylindrical structure, the first clamping groove 62 is a circular through groove formed inside, and when the first clamping body 300 of the automobile is unlocked, the fifth clamping body is pushed by the fifth clamping body 111 to be reset to the first clamping body 61 and the stressed outwards and the first clamping body is stressed outwards.

Preferably, the unlocking driving part 11 is capable of being used as a tooth model in the second animal shape, the unlocking member 1 is further provided with an upper unlocking part, a connecting part 16 and a lower unlocking part, the upper unlocking part is the sixth clamping groove 132 and is positioned at the front upper side of the unlocking driving part 11 in the automobile rear half shape, the lower unlocking part is the second clamping groove 64 and is positioned at the front lower side of the sixth clamping groove 132 in the automobile rear half shape, the connecting part 16 is arranged between the sixth clamping groove 132 and the second clamping groove 64 and is used for being hinged with the inner shell of the second animal trunk part and head integrated member 201, the hinge point is used as a swinging fulcrum of the unlocking member 1, and the hinge point is used as a swinging fulcrum of the toy 300, so that the sixth clamping groove 132 is driven to move upwards by pushing the unlocking driving part 11 upwards to be unlocked with the sixth clamping body 133 and the second clamping groove 64 is driven to move downwards to be unlocked with the second clamping body 65.

Preferably, the second animal head 2012 is shaped like a mouth to form the first groove 2, a magnetic attraction structure 19 for magnetically attracting an external magnetic member is arranged inside the groove wall of the first groove 2, and when the external magnetic member is attracted to the first groove 2 under the action of magnetic attraction, the unlocking driving part 11 is forced to move upwards to drive the unlocking member 1 to swing, so as to realize magnetic attraction unlocking.

Preferably, in the second animal shape, a sliding channel 17 extending in the front-back direction is provided in the second animal trunk 2011, the limit protruding strip 8 can elastically slide along the sliding channel 17 in the front-back direction, and the limit protruding strip 8 is provided with a hand pushing portion 81 located at the rear end in the second animal shape, a spring portion 82 located at the front end and capable of penetrating out of the second animal trunk 2011 when being stressed and protruding into the first groove 2 or capable of returning and rebounding into the second animal trunk 2011 when not being stressed, and a return spring 83 disposed between the hand pushing portion 81 and the spring portion 82.

Preferably, the second recess 18 in which the robot head 401 is hidden is recessed downward on the upper side of the second animal trunk and head integrated part 201, and the robot head 401 can be pushed downward to be hidden in the second animal shape and pulled upward to be displayed in the upper half shape of the robot.

Compared with the prior art, the utility model has the beneficial effects that:

1. the first toy and the second toy can be independently used as animal toys to play, and can be deformed into an automobile toy and a robot toy through different combination forms, so that the toy is changeable in shape and beneficial to improvement of operability and playability. And through the setting of the card unlocking structure and the card unlocking driving part thereof, one-key card unlocking can be realized, so that the first toy in a first animal form and the second toy in a second animal form can be automatically deformed and split, the quick dismounting deformation is realized, the dismounting efficiency can be improved, and the market competitiveness is improved.

2. The fifth card body, the guide chute and the extension part of the pre-unlocking structure are arranged so as to facilitate pre-unlocking the first toy in the front half shape of the automobile in advance, and when the first toy in the first animal shape and the second toy in the second animal shape are split into the deformation according to actual needs, the deformation can be realized only by unlocking the first clamping structure, the arrangement is novel and convenient, and the follow-up deformation efficiency is improved.

3. The setting of the unclamping drive part, the upper unclamping part, the connecting part and the lower unclamping part of the unclamping piece can drive the displacement of the sixth clamping groove and the second clamping groove through driving the unclamping drive part, and the unclamping of the first clamping structure and the fifth clamping structure is realized by one key, so that the deformation can be realized rapidly, and the deformation efficiency is improved greatly.

Drawings

Fig. 1 is a schematic diagram of the toy car of the present case split into a front half of the car and a rear half of the car.

Fig. 2 is a schematic structural view of a first animal form of the first toy of the present utility model.

Fig. 3 is a second schematic diagram of a first animal shape of the first toy.

Fig. 4 is an enlarged schematic view at a of fig. 3.

Fig. 5 is a schematic diagram of a second animal shape of the second toy of the present utility model.

Fig. 6 is a second schematic diagram of a second animal shape of the second toy.

Fig. 7 is a schematic view of a part of the robot toy.

Fig. 8 is a second schematic view of a part of the robot toy.

Fig. 9 is a schematic view of a partial structure of the present case in a lower half of the robot.

Fig. 10 is a schematic view of a partial structure of the present case in the upper half of the robot.

Fig. 11 is a schematic structural view of the unlocking member.

Fig. 12 is a schematic view of the configuration of the ejection assembly of the present case.

Detailed Description

The following examples are provided to illustrate the features of the present utility model and other related features in further detail to facilitate understanding by those skilled in the art:

as shown in fig. 1 to 12, a combined deformation toy assembly includes a first toy 100 and a second toy 200, where the first toy 100 has a first animal shape, a front half shape of an automobile, and a lower half shape of a robot, the second toy has a second animal shape, a rear half shape of the automobile, and an upper half shape of the robot, the first toy 100 in the front half shape of the automobile is connected with the second toy 200 in the rear half shape of the automobile by a first connection structure to form the automobile toy, the first toy 100 in the lower half shape of the robot is connected with the second toy 200 in the upper half shape of the robot by a second connection structure to form the robot toy, the automobile toy is capable of being automatically deformed and split into the first toy 100 in the first animal shape and the second toy 200 in the second animal shape by an internal connection structure, the connection structure is a connection member 1 capable of swinging up and down, a first groove 2 is concavely formed in the rear lower side of the body of the rear half of the automobile, and the connection member 1 is provided with a connection member to facilitate the first groove 11 to be exposed on the connection member to drive the first groove 11.

As described above, the first toy 100 and the second toy 200 of the present utility model can be independently played as animal toys, and the first toy 100 and the second toy 200 can be deformed into car toys and robot toys by different combination forms, so that the model is changeable, and the improvement of operability and playability is facilitated. And through the setting of the unclamping structure and the unclamping driving part 11 thereof, one-key unclamping can be realized, so that the first toy 100 in a first animal form and the second toy 200 in a second animal form can be automatically deformed and split, quick disassembly and assembly deformation can be realized, the disassembly and assembly efficiency can be improved, and the market competitiveness can be improved.

As shown in fig. 1 to 4 and fig. 7 to 8, when the first toy 100 is in the first animal configuration, it includes a first animal trunk 101 serving as a main body of a front half of a vehicle, serving as a waist member of a robot in the lower half of the robot, first animal left and right wings serving as left and right front wheels and front hull components in the lower half of the vehicle, serving as left and right legs in the lower half of the robot, and a first animal front half integrated member 103 capable of being hidden inside the front half of the vehicle in the front half of the vehicle, and serving as a back shape in the lower half of the robot.

The first animal front half integral part 103 is formed by integrating a first animal head and neck 1031 and a first animal front claw 1032, the first animal left and right wings are hinged at the rear side of the first animal trunk 101 and can swing back and forth around the first vertical axis 3, one end of the first animal front half integral part 103 is hinged at the lower front side of the first animal trunk 101, the other end of the first animal front half integral part is clamped at the upper front side of the first animal trunk 101 through a third clamping structure, the first animal front half integral part 103 can swing up and down around the second axis 4 in the left and right directions when unclamped and is used as a back model of a robot when swinging downwards to be in place, and the first animal left and right wings and the first animal front half integral part 103 can be deformed into an automobile front half form through a fourth clamping structure.

The first animal left and right wings are composed of a first animal left wing 1021 and a first animal right wing 1022, wherein the first animal left wing 1021 is hinged with a first animal left winglet 104 which can swing forwards to be displayed/backwards to be hidden in the front half of the automobile and the lower half of the robot, the first animal right wing 1022 is hinged with a first animal right winglet 105 which can swing forwards to be displayed/backwards to be hidden in the front half of the automobile and the lower half of the robot, and the first animal left winglet 104 and the first animal right winglet 105 can be placed in the front half of the automobile and the lower half of the robot through a placing groove 1020 arranged on the first animal left and right wings. The left and right front wheels and the front shell assembly are provided with front wheels 301.

As described above, the first animal left and right wings can swing back and forth around the first vertical axis 3, which has better flexibility, and can swing and play when being used as the first animal, thereby improving the playability; meanwhile, the robot can be conveniently clamped with the first animal front half integrated part 103 through the fourth clamping structure when being swung forward in place, and can also be conveniently used as left and right legs of the lower part of the robot when being swung backward in place, so that the robot is good in playability. The first animal front half integrated part 103 and the first animal trunk part 101 are connected by the third connecting structure, so that the hand-operated ability can be improved by the manual assembly and disassembly, and the robot upper part is shaped as a back when in a shape, and the modeling sense is improved.

As shown in fig. 5 to 8, in the specific implementation, when the second toy 200 is in the second animal form, it includes a second animal trunk and head integrated part 201 for being the trunk of the upper half of the robot in the rear half of the automobile, a second animal left and right tail shell for being the left and right wing of the robot in the upper half of the automobile, a second animal left and right upper arm capable of being hidden in the rear half of the automobile, for being the left and right arms in the upper half of the robot, a second animal left and right front claw capable of being the left and right rear wheel assembly in the rear half of the automobile, for being the left and right hands in the upper half of the robot, the second animal left and right wings being composed of a second animal left wing 1 and a second animal right wing 2 in the upper half of the automobile, the second animal left and right upper arm being composed of a second animal left upper arm 2021 and a second animal left and right front claw 2031, and the second animal left and right front claw 2032 being composed of a second animal left and right front claw 2041 in the upper half of the robot.

The second animal trunk and head integrated part 201 is formed by integrating a second animal trunk 2011 and a second animal head 2012, the second animal left and right wings are hinged at the rear side of the second animal trunk and head integrated part 201 and can swing back and forth around a second vertical axis 5,

the second animal left and right upper arms are hinged at one end to the second animal trunk and head integrated part 201 and are positioned in front of the second animal left and right wings, the other end is hinged to the second animal left and right front claws and can be in contact with a plane to play a supporting role, and the second animal head 2012, the second animal left wing 2021 and the second animal right wing 2022 can be deformed into a rear half form of the automobile through a fifth clamping structure. The second animal left wing 2021 is elastically hinged with a second animal left winglet 205 which can be hidden/reset and pop-up to be displayed in the second animal form and the upper half form of the robot in the rear half form of the automobile, the second animal right wing 2022 is elastically hinged with a second animal right winglet 206 which can be hidden/reset and pop-up to be displayed in the second animal form and the upper half form of the robot in the rear half form of the automobile, and the automobile rear wheels 302 are arranged on the left and right rear wheel components of the automobile.

As described above, the second animal left and right wings can swing back and forth around the second vertical axis 5, which has better flexibility, and can swing and play when being used as the second animal, thereby improving the playability; the fifth clamping structure is arranged so as to be capable of being combined and deformed into the rear half form of the automobile, and the operability is improved. The left and right front claws of the second animal are used as left and right rear wheel assemblies of the automobile in the form of the rear half of the automobile/are used as left and right hand parts of the robot in the form of the upper half of the robot, so that the second animal can roll and play by utilizing the characteristics of the rear wheels 302 of the automobile in the form of the second animal, and the playability is improved; and the modeling sense can be improved when the upper half part of the robot is shaped.

As shown in fig. 1 and 6, in the specific implementation, the first fastening structure includes a first fastening body 61 protruding forward on the rear body in the rear half of the automobile, a first fastening groove 62 provided in cooperation with the first fastening body 61 and recessed on the front body, i.e., the second animal trunk and head integrated part 201 in the front half of the automobile, a first through hole 63 provided in the front side of the rear body in the rear half of the automobile, a second fastening groove 64 provided in the rear body and located near the first through hole 63 in the rear half of the automobile, and a second fastening body 65 protruding rearward on the front body of the automobile and capable of extending into the first through hole 63 to be fastened with the second fastening groove 64 in cooperation.

As shown in fig. 3, 9, and 10, in the specific implementation, the second fastening structure includes a third fastening body 71 protruding upward from the upper surface of the first animal trunk 101, which is the waist of the robot, in the lower half of the robot, and a third fastening groove 72 protruding downward from the first animal trunk 101, which is the upper half of the robot, in the upper half of the robot, which is provided in cooperation with the third fastening body 71, and a stopper rib 8 protruding outward from the upper half of the robot, which is used for fastening the back shape.

As described above, the first clamping structure is arranged so as to be convenient for being combined and deformed into an automobile toy. The second clamping structure is arranged so as to be convenient for combination and deformation into the robot toy. The spacing ribs 8 are provided to be able to position-lock the back model, that is, the first animal front half integrated part 103, when used as a robot toy,

prevent the excessive lower hem, its setting is convenient.

As shown in fig. 3, 4 and 9, in the specific implementation, the third engagement structure includes a fourth engagement body 91 protruding on the front side of the first animal trunk 101 in the first animal state, and a fourth engagement groove 92 opened in the first animal head and neck 1031 in the first animal state.

As shown in fig. 3 and 4, in the specific implementation, the fourth fastening structure includes a fifth fastening body 111 disposed on the left and right front claws of the second animal in the first animal configuration, and a fifth fastening slot 112 disposed inside the left and right wings of the first animal in the first animal configuration and configured to cooperate with the fifth fastening body 111, where the left and right wings of the first animal are elastically hinged to the rear side of the first animal body 101 through a first connection component.

As shown in fig. 2, the fifth fastening structure includes a second opening 131 formed in the head 2012 of the second animal for shaping the eyes of the second animal in the second animal form, a sixth fastening groove 132 mounted inside the head 2012 of the second animal and located near the second opening 131 in the second animal form, and a sixth fastening body 133 protruding on the left and right wings of the second animal in the second animal form and capable of extending into the second opening 131 to be fastened with the sixth fastening groove 132. In specific implementation, the first connecting component comprises a swinging block 121 hinged on the rear side of the first animal trunk 101 through a first vertical shaft 3, a connecting shaft 122 arranged on the swinging block 121 and extending along the up-down direction, and a first torsion spring which is sleeved on the first vertical shaft 3 and connected with the left wing and the right wing of the first animal and is not shown in the figure.

As described above, the third locking structure is configured to maintain the first animal shape of the first toy 100 by locking; the fourth clamping structure is arranged so as to maintain the front half form of the first toy 100 through clamping, and facilitate the subsequent combination with the rear half form of the second toy 200; the first animal left and right wings are elastically hinged to the first animal trunk 101 through a first connecting component, so that the first animal left and right wings can be quickly deformed during unlocking. The fifth clamping structure is arranged so as to be capable of being combined and deformed into the shape of the rear half part of the automobile, so that the fifth clamping structure is convenient to be combined with the shape of the front half part of the automobile of the first toy 100, and the operability is improved.

As shown in fig. 2, 6 and 8, in a specific implementation, a pre-release structure is provided between the first toy 100 in the front half form of the car and the second toy 200 in the rear half form of the car, the left and right front claws of the second animal are provided with guide runners 14 for the fifth card body 111 to elastically slide along in the front and rear direction in the front half form of the car, the second animal trunk 2011 is provided with an extension 15 protruding forward at a position opposite to the front and rear direction of the fifth card body 111 in the rear half form of the car, the pre-release structure is composed of a fifth card body 111, the guide runners 14 and the extension 15, and when the first toy 100 in the front half form of the car and the second toy 200 in the rear half form of the car are clamped by the first clamping structure, the extension 15 is pushed forward to make the fifth card body 111 move forward under a force and release with the fifth card slot 112, the first card body 61 is in a cylindrical structure, and the first card slot 62 is provided with a protruding strip inside to push the first card body to the first card body 111 back to the first card body 61 and the first card body is reset to the first card body to the position and the first card body is far from the first card body 61.

As described above, the fifth clamping body 111, the guiding chute 14, and the extending portion 15 of the pre-clamping structure are configured so as to pre-clamp the first toy 200 in the front half shape of the automobile in advance, and when the first toy 100 in the first animal shape and the second toy 200 in the second animal shape are split into the deformation in actual need, the deformation can be realized only by releasing the first clamping structure.

As shown in fig. 11, the unlocking driving part 11 can be used as a tooth shape in the second animal shape, the unlocking member 1 is further provided with an upper unlocking part, a connecting part 16 and a lower unlocking part, the upper unlocking part is the sixth clamping groove 132 and is positioned at the front upper side of the unlocking driving part 11 in the automobile rear half shape, the lower unlocking part is the second clamping groove 64 and is positioned at the front lower side of the sixth clamping groove 132 in the automobile rear half shape, the connecting part 16 is arranged between the sixth clamping groove 132 and the second clamping groove 64 and is used for being hinged with the inner shell of the second animal trunk part and head integrated member 201, the hinged point is used as a swinging fulcrum of the unlocking member 1, and the hinged point is used as a swinging fulcrum of the automobile toy 300, and the sixth clamping groove 132 is driven to move upwards by pushing the unlocking driving part 11 upwards to be unlocked with the sixth clamping body 133 and the second clamping groove 64 is driven to move downwards to be unlocked with the second clamping body 65. In specific implementation, the unlocking driving part 11 is provided with a mounting groove 17 in a downward concave manner, and a return spring can be mounted in the mounting groove 17 so as to move upwards when stressed and return to the original position when unstressed.

As described above, the setting of the unlocking driving part 11, the upper unlocking part, the connecting part 16, and the lower unlocking part of the unlocking member 1 can drive the sixth clamping groove 132 and the second clamping groove 64 to shift by driving the unlocking driving part 11, so that the unlocking of the first clamping structure and the fifth clamping structure can be realized by one key, the deformation can be quickly realized, and the deformation efficiency can be greatly improved.

As shown in fig. 7 and 12, the second animal head 2012 is shaped like a mouth to form the first groove 2, a magnetic structure 19 for magnetically attracting an external magnetic member is provided inside the groove wall of the first groove 2, and the magnetic structure 19 is a magnet. When the external magnetic piece is attracted to the first groove 2 under the action of magnetic attraction, the unlocking driving part 11 is forced to move upwards to drive the unlocking piece 1 to swing, so that magnetic attraction unlocking is realized. In particular, the toy assembly may further include an external magnetic member and a housing for housing the external magnetic member, and the external magnetic member may be a toy ball with magnetic properties. Therefore, the magnetic card releasing deformation can be realized by adsorbing the external magnetic part on the first groove 2, the card releasing method is novel, and the market competitiveness is improved.

As shown in fig. 12, in the second animal shape, a sliding channel 17 extending in the front-back direction is provided in the second animal trunk 2011, the limit protruding strip 8 can elastically slide along the sliding channel 17, the limit protruding strip 8 is provided with a hand pushing portion 81 located at the rear end in the second animal shape, a pop-out portion 82 located at the front end and capable of penetrating out of the second animal trunk 2011 when being stressed and protruding into the first groove 2/capable of returning and rebounding into the second animal trunk 2011 when not being stressed, and the second toy 200 is provided with a catapulting assembly for catapulting and playing, wherein the catapulting assembly comprises the limit protruding strip 8 and a return spring 83 arranged between the hand pushing portion 81 and the pop-out portion 82. In specific implementation, the limiting protruding strip 8 is further provided with an upper protruding portion 84 on which the return spring 83 is mounted, the limiting protruding strip 8 can also elastically slide along the upper surface of the extension portion 15, when the first groove 2 is provided with an external magnetic component, the hand pushing portion 81 can be pushed by a hand to enable the ejecting portion 82 to be ejected, so that the external magnetic component is ejected. Therefore, the toy is matched with the magnetic attraction structure, the ejection function is added when the toy is in the second animal form/used as a robot toy, and the playability of the toy is improved.

As shown in fig. 5 and 8, the upper side surface of the second animal trunk and head integrated part 201 is concave downward with a second groove 18 in which the robot head 401 is hidden, and the robot head 401 can be pushed downward to be hidden in the second animal shape and pulled upward to be displayed in the upper half shape of the robot. In practice, the robot head 401 may rotate, and the robot head 401 is further hinged with an angular figure 402. Therefore, the robot toy is flexible to set, on one hand, the appearance of the second animal shape can be guaranteed to be neat, and on the other hand, the playability of the robot toy can be improved.

As described above, the present disclosure protects a combined deformation toy assembly, and all technical solutions identical or similar to the present disclosure should be shown as falling within the scope of the present disclosure.

Claims (10)

1. The utility model provides a combination formula deformation toy subassembly, its characterized in that includes first toy (100) and second toy (200), first toy (100) have first animal form, car first half form, robot lower half form, the second toy has second animal form, car second half form, robot upper half form, first toy (100) that are in car first half form and second toy (200) joint that are in car second half form through first joint structure become car toy (300), first toy (100) that are in robot lower half form and second toy (200) joint that are in robot upper half form become robot toy through second joint structure, car toy (300) can be automatic deformation and split into first toy (100) and second toy (200) of first animal form through its inside uncoupling structure, uncoupling structure is for can swing up and down's uncoupling piece (1), first toy (300) that are equipped with behind the car body of car (300) and are equipped with one and are convenient for the one side direction and reveal at the first recess of uncoupling piece (2) in the back half of car body.

2. A combined type deformation toy assembly according to claim 1, characterized in that when the first toy (100) is in a first animal form, it comprises a first animal trunk (101) for being a head body in the automobile front half form/for being a robot waist part in the robot lower half form, a first animal left and right wing for being left and right front wheels and front hull assembly in the automobile front half form/for being left and right legs in the robot lower half form, a first animal front half integrated piece (103) capable of being hidden inside the automobile front half form/for being a back shape in the automobile front half form, the first animal front half integrated piece (103) being integrally formed by a first animal head neck (1031) and a first animal front claw (1032), the first animal left and right wings being hinged on the rear side of the first animal trunk (101) and capable of swinging back and forth around a first vertical axis (3), the first animal front half piece (103) being capable of being snapped onto the first animal front end (101) in a first shaft-down direction when the first animal front half is snapped onto the first animal front half (101) and the other end (4) is snapped down in the first shaft-side, the first animal left and right wings and the first animal front half integral piece (103) can be deformed into an automobile front half shape through a fourth clamping structure.

3. A combined transformable toy assembly according to claim 2, wherein when said second toy (200) is in a second animal configuration, it comprises a second animal trunk and head integrated part (201) for being a rear body in a rear half configuration of the car/for being a robot upper half trunk in a robot upper half configuration, a second animal left and right wings for being a rear shell of the car/for being a robot left and right flank configuration in the robot upper half configuration, a second animal left and right upper arm (203) capable of being hidden inside the rear half configuration of the car/for being left and right arms in the robot upper half configuration, a second animal left and right front claw capable of being a left and right rear wheel assembly in the rear half configuration of the car/for being a left and right hand in the robot upper half configuration, the second animal trunk part and head integrated part (201) is formed by integrating a second animal trunk part (2011) and a second animal head (2012), the second animal left and right wings are hinged at the rear side of the second animal trunk part and head integrated part (201) and can swing back and forth around a second vertical shaft (5), one end of a second animal left and right upper arm (203) is hinged with the second animal trunk part and head integrated part (201) and is positioned in front of the second animal left and right wings, the other end of the second animal left and right upper arm is hinged with a second animal left and right front claw and can contact with a plane to play a supporting role, the second animal head (2012) and the second animal left and right wings can be deformed into an automobile rear half shape through a fifth clamping structure.

4. A combined type deformation toy assembly according to claim 3, wherein the first clamping structure comprises a first clamping body (61) which is arranged on the tail main body in a forward protruding manner in the rear half form of the automobile, a first clamping groove (62) which is arranged in a concave manner in the front half form of the automobile and is arranged in cooperation with the first clamping body (61), a first through hole (63) which is arranged on the front side surface of the rear half automobile body in the rear half form of the automobile, a second clamping groove (64) which is arranged in the rear half automobile body in the rear half form of the automobile and is positioned near the first through hole (63), and a second clamping body (65) which is arranged in a backward protruding manner in the front half form of the automobile and can extend into the first through hole (63) to be in cooperation and clamping with the second clamping groove (64); the second clamping structure comprises a third clamping body (71) which is upwards arranged on the upper surface of the waist of the robot in a protruding mode when in the lower half mode of the robot, and a third clamping groove (72) which is matched with the third clamping body (71) and is concavely arranged on the upper half trunk of the robot when in the upper half mode of the robot, and a limiting raised line (8) for clamping the back model is outwards arranged on the upper half trunk of the robot in a protruding mode when in the upper half mode of the robot.

5. The combination type transformable toy component of claim 4, wherein the third clamping structure comprises a fourth clamping body (91) which is arranged on the front side of the first animal trunk part (101) in a protruding mode when in a first animal shape and a fourth clamping groove (92) which is arranged on the head and neck part (1031) of the first animal when in the first animal shape; the fourth clamping structure comprises a fifth clamping body (111) arranged on the left and right front claws of the second animal in the first animal form and a fifth clamping groove (112) which is arranged on the inner sides of the left and right wings of the first animal in the first animal form and is matched with the fifth clamping body (111), and the left and right wings of the first animal are elastically hinged on the rear side of the first animal body part (101) through a first connecting component; the fifth clamping structure comprises a second opening (131) which is formed in the head (2012) of the second animal and is used as the eye shape of the second animal in the second animal form, a sixth clamping groove (132) which is arranged in the head (2012) of the second animal in the second animal form and is positioned near the position of the second opening (131), and a sixth clamping body (133) which is arranged on the left wing and the right wing of the second animal in the second animal form in a protruding manner and can extend into the second opening (131) to be matched and clamped with the sixth clamping groove (132).

6. A combined deformation toy assembly according to claim 5, characterized in that a pre-release structure is arranged between the first toy (100) in the front half form of the automobile and the second toy (200) in the rear half form of the automobile, a guide chute (14) for the fifth clamping body (111) to elastically slide along is arranged on the left and right front claws of the second animal, which extends forwards and backwards in the front half form of the automobile, the second animal trunk (2011) is provided with an extension part (15) in a protruding way at a position opposite to the front and rear of the fifth clamping body (111) in the rear half form of the automobile, the pre-release structure is composed of the fifth clamping body (111), the guide chute (14) and the extension part (15), when the first toy (100) in the front half form of the automobile and the second toy (200) in the rear half form of the automobile are clamped by the first clamping structure, the extension part (15) is pressed forwards to enable the fifth clamping body (111) to move forwards and move forwards with the fifth clamping body (111) to be far away from the first clamping groove (62), and the first clamping body (62) is pushed forwards by the extension part (61) to be far away from the first clamping groove (61) when the first clamping body (62) is in the front half form of the automobile.

7. The combined deformation toy assembly according to claim 6, wherein the unlocking driving part (11) can be used as a tooth model in the second animal form, the unlocking piece (1) is further provided with an upper unlocking part, a connecting part (16) and a lower unlocking part, the upper unlocking part is the sixth clamping groove (132) and is positioned at the front upper side of the unlocking driving part (11) in the automobile rear half form, the lower unlocking part is the second clamping groove (64) and is positioned at the front lower side of the sixth clamping groove (132) in the automobile rear half form, the connecting part (16) is arranged between the sixth clamping groove (132) and the second clamping groove (64) and is used for being hinged with the inner shell of the second animal body part and the head integrated piece (201), the hinged point is used as a swinging fulcrum of the unlocking piece (1), and the sixth clamping groove (132) is driven to move upwards by pushing the unlocking driving part (11) when being used as the automobile (300) so as to drive the sixth clamping body (132) and drive the sixth clamping body (64) to move upwards and the second clamping body (65) to move with the second clamping body (65).

8. A combined deformation toy assembly according to claim 3, characterized in that the second animal head (2012) is shaped like a mouth to form the first groove (2), a magnetic attraction structure (19) for magnetically attracting an external magnetic part is arranged inside the groove wall of the first groove (2), and when the external magnetic part is attracted to the first groove (2) under the action of magnetic attraction, the unclamping driving part (11) is stressed to move upwards to drive the unclamping part (1) to swing so as to realize magnetic attraction unclamping.

9. A combined deformation toy assembly according to claim 4, characterized in that a sliding channel (17) extending forwards and backwards is arranged inside the second animal trunk (2011) in the second animal form, the limiting protruding strip (8) can elastically slide forwards and backwards along the sliding channel (17), the limiting protruding strip (8) is provided with a hand pushing part (81) positioned at the rear end in the second animal form, a spring (82) positioned at the front end and capable of penetrating out of the second animal trunk (2011) when being stressed and protruding into the first groove (2) or capable of returning and rebounding to the inside of the second animal trunk (2011) when not being stressed, and the ejection assembly for ejecting and playing is arranged on the second toy (200) and comprises the limiting protruding strip (8) and a return spring (83) arranged between the spring (81) and the spring (82).

10. A modular deformation toy assembly according to claim 3, wherein the upper side of the second animal trunk and head integrated part (201) is provided with a second recess (18) for hiding the robot head (401) therein, and the robot head (401) can be pushed down to be hidden in the second animal shape and pulled up to be displayed in the upper half shape of the robot.