CN110251953A

CN110251953A - The toy suit that nested can be deformed

Info

Publication number: CN110251953A
Application number: CN201811647716.5A
Authority: CN
Inventors: 李德铭; 江政潮
Original assignee: Guangdong Original Power Culture Communication Co Ltd; Alpha Group Co Ltd; Guangzhou Alpha Culture Co Ltd
Current assignee: Guangdong Original Power Culture Communication Co Ltd; Alpha Group Co Ltd; Guangzhou Alpha Culture Co Ltd
Priority date: 2018-12-29
Filing date: 2018-12-29
Publication date: 2019-09-20
Anticipated expiration: 2038-12-29
Also published as: CN110251953B

Abstract

The invention discloses a kind of toy suits that nested can be deformed, the toy suit that nested can be deformed includes: the first toy body, first toy body has initial configuration and change shape, first toy body includes matrix, component of taking down the exhibits, locked instrument and coupling unit, component of taking down the exhibits can be located on matrix with taking down the exhibits, and locked instrument is for the component of taking down the exhibits that locks；And second toy body, the second toy body includes initial configuration and change shape, and the second toy body can be combined with coupling unit；Wherein, first toy body of initial configuration and the second toy body of initial configuration are mutually indepedent, when the second toy body is combined with coupling unit, second toy body is deformed into change shape, and second toy body or coupling unit triggering locked instrument release take down the exhibits component, a part after component of taking down the exhibits expansion covers on the second toy body under change shape.Toy suit according to the present invention, playing method is novel, interest is strong.

Description

Nesting deformable toy suit

Technical Field

The invention relates to the technical field of toys, in particular to a toy suit capable of being deformed by nesting.

Background

The toy in the related art is single in type and not strong in interestingness, and the requirements of children are difficult to meet.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art. Therefore, the invention aims to provide a nestable and transformable toy set which is novel in playing method and high in interestingness.

A nestable deformable toy playset according to an embodiment of the invention comprises: the first toy body is provided with an initial form and a changed form and comprises a base body, a folding and unfolding component, a locking device and a combination component, wherein the folding and unfolding component is arranged on the base body in a foldable mode, and the locking device is used for locking the folding and unfolding component; and a second toy body comprising an initial configuration and a modified configuration, the second toy body being associable with the association assembly; when the second toy body is combined with the combination component, the second toy body deforms to a changed state, the locking device is triggered by the second toy body or the combination component to release the folding and unfolding component, and a part of the unfolded folding and unfolding component is sleeved on the second toy body in the changed state.

According to the nestable and deformable toy set provided by the embodiment of the invention, when the second toy body is combined with the combination component of the first toy body, the first toy body and the second toy body are automatically deformed, the first toy body and the second toy body are combined, and a part of the first toy body in the changed state is sleeved on the second toy body in the changed state. The toy suit has novel playing method and strong interest.

In addition, the nestable and transformable toy set according to an embodiment of the present invention may also have the following additional technical features:

according to one embodiment of the invention, after the first toy body is combined with the second toy body, the second toy body is in a figure shape, and the first toy body is in a manicure shape sleeved on a human body.

According to one embodiment of the invention, the first toy body is shaped like a car in the initial configuration.

According to one embodiment of the invention, a part of the folding and unfolding component is unfolded to form an armored leg, and the second toy body is combined with the first toy body, and the second toy body in the figure stands above the armored leg.

According to one embodiment of the invention, the coupling assembly comprises: the turnover plate is rotatably connected to the base body and is positioned at the bottom of the first toy body in the initial state; the outer touch plate is connected with the turnover plate and is positioned on the front side of the first toy body in the initial state; a trigger latch for latching the outer touch plate at a front side of the first toy body in an initial state; one end of the locking device extends to the bottom of the first toy body in the initial state, the outer touch plate is unlocked when the second toy body contacts the trigger locking piece, meanwhile, the turnover plate unlocks the first toy body to be turned over and erected, and the locking device is triggered to unlock after the turnover plate is turned over.

According to an embodiment of the present invention, the base body defines a push slot with a slot end on one side, the folding and unfolding assembly includes a first folding and unfolding assembly, the locking device includes a first locking device for locking the first folding and unfolding assembly, and the first folding and unfolding assembly includes: a pushing member fitted within the pushing groove, the pushing member configured to always slide toward the groove end; the sliding rod is rotatably connected to the pushing piece, at least part of the sliding rod is located in the pushing groove in the initial state, the pushing piece slides to the groove end in the changed state, and the sliding rod overturns relative to the first toy body.

According to an embodiment of the present invention, there are two pushing members, and each pushing member is rotatably connected to one sliding rod, and the first folding and unfolding assembly includes: and the front frame plate is connected between the two sliding rods, one part of the combination assembly is positioned at the front side of the front frame plate in the initial state, and the front frame plate rotates from the upper side and is sleeved on the second toy body in the changed state.

According to an embodiment of the present invention, the plurality of folding and unfolding assemblies includes a plurality of folding and unfolding assemblies, each folding and unfolding assembly includes a corresponding locking device, after each folding and unfolding assembly is unlocked, the locking device corresponding to another folding and unfolding assembly is triggered, and at least one of the folding and unfolding assemblies is arranged in pair in the left and right direction of the base.

According to one embodiment of the invention, the second toy body is polyhedral in an initial state, the second toy body comprises a clamping assembly and a plurality of unfolding pieces, the unfolding pieces are rotatably connected with the unfolding pieces, unfolding elastic pieces enabling the unfolding pieces to have unfolding trends are arranged at the rotating connection positions, and the clamping assembly comprises: the touch unit is arranged on one unfolding piece, the clamping unit is arranged on the other unfolding piece, when the touch unit is clamped on the clamping unit, the plurality of unfolding pieces overcome the elasticity of the unfolding elastic pieces to fold so that the second toy body is in a polyhedral shape, when the second toy body is combined on the combination assembly, the touch unit is separated from the clamping unit, and the elasticity of the unfolding elastic pieces enables the plurality of unfolding pieces to unfold so that the second toy body is in a changeable shape.

According to one embodiment of the invention, the combination component is provided with a first magnetic attraction piece, and the second toy body is provided with a second magnetic attraction piece which is used for attracting the first magnetic attraction piece.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a schematic structural view of a nestable, morphable toy playset according to an embodiment of the present invention, wherein a first toy body and a second toy body are both in an initial configuration, and the first toy body and the second toy body are spaced apart and independent of each other;

FIG. 2 is a schematic structural view of a nestable, morphable toy playset according to an embodiment of the present invention, wherein the first and second toy bodies are in an initial configuration and the first and second toy bodies are in imminent contact;

FIG. 3 is a schematic structural view of a nestable and transformable toy playset in which a second toy body is coupled to a coupling assembly, the second toy body is transformed to a transformed state, and a third stowing and deploying assembly of the first toy body, according to an embodiment of the present invention;

FIG. 4 is a schematic view of another angle of the structure shown in FIG. 3;

fig. 5 is a schematic structural view of a nestable and transformable toy playset according to an embodiment of the present invention, wherein a second toy body is coupled to a coupling assembly, the second toy body is transformed to a transformed state, and a third, fourth and fifth deployment assemblies of the first toy body are deployed;

fig. 6 is a schematic structural view of a nestable and transformable toy playset according to an embodiment of the present invention, wherein a second toy body is coupled to a coupling assembly, the second toy body is transformed to a transformed state, a third, fourth and fifth stowing and expanding assemblies of the first toy body are deployed, and the first and second stowing and expanding assemblies are in the process of deployment (not fully deployed);

FIG. 7 is a schematic view of another angle of the structure shown in FIG. 6;

FIG. 8 is a schematic structural view of a nestable and transformable toy playset in accordance with an embodiment of the present invention, wherein a second toy body is coupled to the coupling assembly, the second toy body is transformed to a transformed state, and the deployment assembly of the first toy body is fully deployed (the first toy body is in the transformed state);

FIG. 9 is a schematic view of another angle of the structure shown in FIG. 8;

figure 10 is a schematic view of the first toy body in its initial configuration;

figure 11 is a schematic view of another angle of the first toy body shown in figure 10;

figure 12 is a schematic view of a portion of the structure of the first toy body shown in figure 10;

figure 13 is a schematic view of a portion of the structure of the first toy body shown in figure 10;

figure 14 is a schematic view of a portion of the structure of the first toy body shown in figure 10;

figure 15 is a schematic view of a portion of the structure of the first toy body shown in figure 10;

figure 16 is a cross-sectional view of the first toy body illustrated in figure 10;

figure 17 is a schematic view of the first toy body in a modified form;

figure 18 is a schematic partial structure view of the first toy body in a modified form;

figure 19 is a schematic view of the second toy body in its initial configuration;

figure 20 is a sectional view of the second toy body illustrated in figure 19;

figure 21 is a schematic structural view of the second toy body in a modified form;

figure 22 is another angular schematic view of the second toy body shown in figure 21.

Reference numerals:

a toy playset 100;

a first toy body 10;

a substrate 1; a push groove 11; slot end 111; a guide groove 112; a groove 12; an outlet hole 13; an accommodating groove 14;

a first stow and deploy component 21; a pusher member 211; a guide post 2111; a slide rod 212; a slot 2121; a front frame plate 213;

a second stow and deploy component 22; a cannon bar member 221; a barrel adaptor 222;

a third stowing and deploying component 23; the accommodation space 231; an engaging portion 232; a bump 233; a support boss 234;

a fourth stow and deploy component 24; a hook 241;

a fifth stow and deploy component 25; an expansion plate 251; a deployment rod 252; a limit protrusion 2521;

a first locking means 31; a first lock 311; a first contact 312;

a third locking device 32; a clip portion 321; a trigger section 322;

a fourth locking device 33; a chucking plate 331;

a bonding element 4; a flipping panel 41; a trigger bump 411;

an outer touch plate 42; a docking post 421;

triggering the latch 43; a clamp arm 431;

a first magnetic attraction member 5;

a second toy body 20;

a clamping component 6; a touch unit 61; a plug-in connector 611; a retaining elastic member 612;

a locking unit 62; a socket 621;

a deployment member 7; the lower body 71; a plugging groove 711; an upper body piece 72; the head member 73; the first fitting portion 731; an upper limb 74; the leg members 75; a second mating portion 751;

a second magnetic element 8.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

Referring now to fig. 1-22, a nestable variant toy playset 100 in accordance with an embodiment of the present invention is described.

Referring to fig. 1-22, a nestable variant toy playset 100 according to an embodiment of the present invention includes: a first toy body 10 and a second toy body 20.

The first toy body 10 has an initial configuration (as shown in fig. 1-2 and 10-11) and a modified configuration (as shown in fig. 8-9 and 17), the first toy body 10 includes a base 1, a folding assembly, a locking device and a combination assembly 4, the folding assembly is retractably arranged on the base 1, and the locking device is used for locking the folding assembly. Specifically, when the foldable assembly is in the folded state, as shown in fig. 1-2 and fig. 10-11, the first toy body 10 is in the initial configuration; when the deployment assembly is in the deployed state, the first toy body 10 is in a modified configuration as shown in figures 8-9 and figure 17. The locking device and the folding and unfolding component can be matched or separated, when the locking device is matched with the folding and unfolding component, the locking device locks the folding and unfolding component in a folding state, when the locking device is separated from the folding and unfolding component, the locking device releases the folding and unfolding component, and the folding and unfolding component is unfolded to enable the first toy body 10 to be deformed to a changing shape.

The second toy body 20 includes an initial configuration (as shown in fig. 1-2 and 19-20) and a modified configuration (as shown in fig. 3-9 and 21-22), the second toy body 20 being engageable with the coupling member 4. The first toy body 10 in the initial form and the second toy body 20 in the initial form are independent of each other (as shown in fig. 1), when the second toy body 20 is combined with the combination component 4, as shown in fig. 3-9, the second toy body 20 is deformed to the changed form, the second toy body 20 or the combination component 4 triggers the locking device to release the folding and unfolding component, and a part of the unfolded folding and unfolding component is sleeved on the second toy body 20 in the changed form. Whereby when the second toy body 20 is combined with the combination unit 4, the first toy body 10 and the second toy body 20 are both automatically deformed and the first toy body 10 and the second toy body 20 are combined, and a part of the first toy body 10 in the changed form is fitted over the second toy body 20 in the changed form.

When the player plays the toy set 100, the first toy body 10 and the second toy body 20 are firstly folded to the initial form (as shown in fig. 1), then the second toy body 20 is combined on the combination component 4, as shown in fig. 8-9, the first toy body 10 and the second toy body 20 are automatically deformed, the first toy body 10 and the second toy body 20 are combined, and a part of the first toy body 10 in the changed form is sleeved on the second toy body 20 in the changed form.

As to how the second toy body 20 is coupled to the coupling component 4, the present application is not limited, and for example, the second toy body 20 in the initial configuration may be thrown and thrown toward the coupling component 4 of the first toy body 10 in the initial configuration, so that the second toy body 20 is coupled to the coupling component 4 of the first toy body 10; alternatively, as shown in fig. 1 to 2, the first toy body 10 and the second toy body 20 are placed on a support surface (e.g., a floor or a table, etc.) at intervals, and the second toy body 20 is coupled to the coupling member 4 of the first toy body 10 by pushing the first toy body 10 toward the second toy body 20 or by pushing the second toy body 20 toward the first toy body 10.

According to the nestable and transformable toy set 100 of the embodiment of the present invention, when the second toy body 20 is combined with the combination component 4 of the first toy body 10, the first toy body 10 and the second toy body 20 are automatically transformed and the first toy body 10 and the second toy body 20 are combined, and a part of the first toy body 10 in the transformed state is nested on the second toy body 20 in the transformed state. The toy playset 100 is novel and interesting.

In an embodiment of the present invention, as shown in fig. 1 to fig. 22, a first magnetic attraction piece 5 is disposed on the combination component 4, a second magnetic attraction piece 8 for attracting the first magnetic attraction piece 5 is disposed on the second toy body 20, and the second toy body 20 is combined on the combination component 4 through the magnetic attraction effect of the first magnetic attraction piece 5 and the second magnetic attraction piece 8, which has a simple structure and good combination stability. Alternatively, the first magnetic member 5 and the second magnetic member 8 may be both magnets; or optionally, one of the first magnetic attraction piece 5 and the second magnetic attraction piece 8 is a magnet, and the other of the first magnetic attraction piece 5 and the second magnetic attraction piece 8 is a metal piece (such as an iron piece, a cobalt piece, a nickel piece, etc.) capable of attracting the magnet.

In one embodiment of the present invention, when the first toy body 10 is combined with the second toy body 20, as shown in fig. 8 to 9, the second toy body 20 is shaped like a person, the first toy body 10 is shaped like a manikin which is put on a person, that is, the second toy body 20 is shaped like a man-made figure when changed, and the first toy body 10 is shaped like a manikin when changed, so that after the first toy body 10 is combined with the second toy body 20, the second toy body 20 is deformed into a manikin, and the first toy body 10 is deformed into a manikin which is put on a manikin, thereby forming a state like a comic and manikin combination, and the interest of the toy set 100 is strong.

In an alternative example of the present invention, as shown in fig. 3 to 9, a part of the folding and unfolding assembly (a third folding and unfolding assembly 23 as described later) is unfolded to form a hoof leg, and the second toy body 20 in a figure stands above the hoof leg after the second toy body 20 is combined with the first toy body 10. Optionally, a receiving space 231 having one side opened may be further defined in the leg of the vest, and at least a part of the second toy body 20 (for example, a leg part 75 described later) is received in the receiving space 231.

In an alternative example of the present invention, the base body 1 defines a push slot 11 with a slot end 111 on one side, and it should be noted that "slot end 111" in this application refers to an open end of the push slot 11, for example, in the specific example shown in fig. 1 to 18, the push slot 11 extends in the front-rear direction of the base body 1, the front end of the push slot 11 has an open mouth, and the open mouth of the front end of the push slot 11 forms the slot end 111 of the push slot 11. The folding and unfolding assembly comprises a first folding and unfolding assembly 21, the locking device comprises a first locking device 31 for locking the first folding and unfolding assembly 21, the first folding and unfolding assembly 21 comprises a pushing member 211 and a sliding rod 212, the pushing member 211 is matched in the pushing groove 11, the pushing member 211 is configured to slide towards the groove end 111 normally, for example, an elastic member (such as a spring and the like) is arranged between the pushing groove 11 and the pushing member 211, the pushing member 211 is driven to slide towards the groove end 111 normally through the elastic member, the sliding rod 212 is rotatably connected to the pushing member 211, at least part of the sliding rod 212 is positioned in the pushing groove 11 in the initial configuration (as shown in fig. 1-2 and 10-15), the pushing member 211 slides to the groove end 111 in the variation configuration, and the sliding rod 212 is turned relative to the first toy body 10 (as shown in fig. 8-9 and 17).

Specifically, in the initial configuration, the first locking device 31 cooperates with the first folding and unfolding assembly 21 to lock the first folding and unfolding assembly 21 in the folded state, as shown in fig. 1-2 and 10-15, specifically, the sliding rod 212 is disposed on a side of the pushing member 211 adjacent to the slot end 111 of the pushing slot 11, the first locking device 31 cooperates with the sliding rod 212 to lock the sliding rod 212, so that at least a portion of the sliding rod 212 is located in the pushing slot 11, at this time, the pushing member 211 is located at a position far from the slot end 111 (a position adjacent to the rear end of the pushing slot 11 as shown in fig. 10-15), and the elastic member disposed between the pushing slot 11 and the pushing member 211 is in a compressed energy storage state; when the first locking device 31 is triggered, the first locking device 31 is separated from the first folding and unfolding component 21 to release the first folding and unfolding component 21, the first folding and unfolding component 21 is unfolded and deformed, specifically, when the first locking device 31 is triggered, the first locking device 31 is separated from the sliding rod 212, the sliding rod 212 is unlocked, the elastic member arranged between the pushing groove 11 and the pushing member 211 recovers deformation and releases energy to drive the pushing member 211 to slide towards the groove end 111, the pushing member 211 slides towards the groove end 111 to drive the sliding rod 212 to completely slide out of the pushing groove 11 (as shown in fig. 6-7), when the sliding rod 212 slides out of the pushing groove 11, the sliding rod 212 can rotate relative to the pushing member 211, so that the slide rod 212 is turned over with respect to the first toy body 10, the direction and angle of rotation of the slide rod 212 with respect to the pushing member 211 can be arbitrarily selected, as shown in fig. 8-9, for example, slide bar 212 is rotated 90 deg. relative to pusher 211 toward the side adjacent to second toy body 20.

In addition, it should be noted that when the sliding rod 212 slides out of the pushing groove 11, the sliding rod 212 can rotate relative to the pushing member 211 under the driving action of gravity; of course, the rotational connection between the sliding rod 212 and the pushing member 211 can be provided with an elastic member (such as a torsion spring, etc.) which makes the sliding rod 212 have a tendency to rotate relative to the pushing member 211, when at least a portion of the sliding rod 212 is located in the pushing groove 11, the elastic member at the rotational connection between the sliding rod 212 and the pushing member 211 is in an energy storage state, and when the sliding rod 212 completely slides out of the pushing groove 11, the elastic member at the rotational connection between the sliding rod 212 and the pushing member 211 releases energy to drive the sliding rod 212 to rotate relative to the pushing member 211.

As shown in fig. 1 to 18, a side wall of the pushing groove 11 is provided with a guide groove 112 extending along the sliding direction of the pushing member 211, the pushing member 211 is provided with a guide post 2111, and the guide post 2111 is slidably fitted in the guide groove 112, and the guide post 2111 slides in the guide groove 112, so that the pushing member 211 is guided to slide in the pushing groove 11. In an initial configuration, as shown in fig. 1 and 10-12, the guide post 2111 abuts against an end of the guide channel 112 remote from the channel end 111, and in a modified configuration, as shown in fig. 8-9 and 17-18, the pusher 211 slides towards the channel end 111 while the guide post 2111 of the pusher 211 slides within the guide channel 112 towards an end of the guide channel 112 adjacent to the channel end 111, the guide post 2111 of the pusher 211 abutting against an end of the guide channel 112 adjacent to the channel end 111 when the pusher 211 slides to the channel end 111.

Further, as shown in fig. 1 to 17, there are two pushing members 211, two pushing members 211 may be respectively disposed on the left and right sides of the base 1, each pushing member 211 is rotatably connected to one sliding rod 212, the first folding and unfolding assembly 21 includes a front frame plate 213, the front frame plate 213 is connected between the two sliding rods 212, in the initial configuration a portion of the coupling assembly 4 is located on the front side of the front shelf 213 (as shown in figures 1 and 10-11), in the modified form the front shelf 213 is rotated from above and fitted over the second toy body 20 (as shown in figures 8-9 and 17), in particular, in the modified form, when the sliding rod 212 slides out of the pushing groove 11 completely, and the sliding rod 212 rotates relative to the pushing member 211, the slide bar 212 rotates the front frame plate 213 from above and fits over the second toy body 20, thereby allowing the toy playset 100 to assume the configuration of a mannequin.

In an embodiment of the present invention, the folding and unfolding assemblies include a plurality of folding and unfolding assemblies, each folding and unfolding assembly includes a corresponding locking device, and after each folding and unfolding assembly is unlocked, the locking device corresponding to another folding and unfolding assembly is triggered, so that the first toy body 10 has a stronger action sense when being deformed. For example, in the specific example shown in fig. 1-17, the foldable assembly includes a third foldable assembly 23 and a fourth foldable assembly 24, the locking device includes a third locking device 32 for locking the third foldable assembly 23 and a fourth locking device 33 for locking the fourth foldable assembly 24, the third locking device 32 and the third foldable assembly 23 cooperate to lock the third foldable assembly 23 in the folded state, the fourth locking device 33 and the fourth foldable assembly 24 cooperate to lock the fourth foldable assembly 24 in the folded state, when the third locking device 32 is triggered, the third locking device 32 releases the third foldable assembly 23, the third foldable assembly 23 is unlocked to be unfolded, when the third foldable assembly 23 is unfolded, the fourth locking device 33 is triggered, the fourth locking device 33 releases the fourth foldable assembly 24, and the fourth foldable assembly 24 is unlocked to be unfolded.

Further, at least one of the folding and unfolding assemblies is provided in pairs in the left-right direction of the base 1. For example, in the specific example shown in fig. 1 to 17, the third and fourth folding and unfolding assemblies 23 and 24 are each provided in pairs in the left-right direction of the base 1. The first toy body 10 is symmetrical and attractive in structure by arranging at least one folding and unfolding component in pairs in the left and right directions of the base body 1.

In an alternative embodiment of the invention, as shown in fig. 1 and 10-16, the first toy body 10 is configured as a vehicle in an initial configuration, whereby the first toy body 10 may be played as a toy vehicle in the initial configuration.

In one embodiment of the invention, the first toy body 10 is configured as a vehicle in an initial configuration (as shown in figures 1, 10-16), and the first toy body 10 is configured as a vest in a modified configuration (as shown in figures 8-9 and 17) over the second toy body 20 in the modified configuration. Specifically, the first toy body 10 includes a first unfolding component 21, a second unfolding component 22, a third unfolding component 23, a fourth unfolding component 24 and a fifth unfolding component 25, the third unfolding component 23 is disposed at the rear side of the base 1, the fourth unfolding component 24 and the fifth unfolding component 25 are disposed above the base 1 and located at the front side of the third unfolding component 23, the fourth unfolding component 24 and the fifth unfolding component 25 are all disposed in pairs in the left-right direction of the base 1, the bottom of the front end of the third unfolding component 23 is rotatably connected with the bottom of the rear end of the base 1, the rear end of the fourth unfolding component 24 is rotatably connected with the base 1, the fifth unfolding component 25 includes an unfolding plate 251 and an unfolding rod 252, the rear end of the unfolding rod 252 is rotatably connected with the base 1, the front end of the unfolding rod 252 is rotatably connected with the unfolding plate 251, the rod 252 is located below the unfolding plate 251, the rotational joints of the third folding and unfolding assembly 23 and the base 1, the rotational joints of the fourth folding and unfolding assembly 24 and the base 1, the rotational joints of the unfolding rod 252 and the base 1, and the rotational joints of the unfolding rod 252 and the unfolding plate 251 are all provided with elastic members (such as torsion springs), the base 1 is provided with a third locking device 32 for locking the third folding and unfolding assembly 23 and a fourth locking device 33 for locking the fourth folding and unfolding assembly 24, in an initial state, as shown in fig. 1 and 10-16, the third locking device 32 is matched with the third folding and unfolding assembly 23 to lock the third folding and unfolding assembly 23, the third folding and unfolding assembly 23 is attached to the rear end of the base 1, the fourth locking device 33 is matched with the fourth folding and unfolding assembly 24 to lock the fourth folding and unfolding assembly 24, the fourth folding and unfolding assembly 24 is attached to the top wall of the base 1, and the paired fifth folding and unfolding assemblies 25 are arranged between the paired fourth folding and unfolding assemblies 24, the fourth folding and unfolding assembly 24 abuts against the fifth folding and unfolding assembly 25 to lock the pair of fifth folding and unfolding assemblies 25 in the folded state, specifically, the two unfolding plates 251 are arranged in parallel side by side, the two unfolding rods 252 are arranged in parallel side by side, and at this time, the two unfolding rods 252 are respectively hidden under the corresponding unfolding plates 251, and in the initial state, the top walls of the third folding and unfolding assembly 23, the fourth folding and unfolding assembly 24 and the fifth folding and unfolding assembly 25 are flush.

The first folding and unfolding assembly 21 includes two pushing members 211, two sliding rods 212 and a front frame plate 213, the two pushing members 211 may be respectively disposed on the left and right sides of the base 1, each pushing member 211 is rotatably connected to one sliding rod 212, the front frame plate 213 is connected between the two sliding rods 212, the base 1 defines a pushing groove 11 with a groove end 111 on the front side, the pushing members 211 are fitted in the pushing groove 11, the pushing members 211 are configured to slide towards the groove end 111, for example, an elastic member (e.g., a spring, etc.) is disposed between the pushing groove 11 and the pushing members 211, the pushing members 211 are driven by the elastic member to slide towards the groove end 111, the sliding rods 212 are rotatably connected to the front ends of the pushing members 211, the rotational connection between the pushing members 211 and the sliding rods 212 is provided with an elastic member (e.g., a torsion spring, etc.), the base 1 is provided with a first locking device 31 for locking the first, the first locking device 31 cooperates with the sliding rod 212 to lock the sliding rod 212 in the pushing groove 11 (as shown in fig. 1-2 and 10-15), so that the front frame plate 213 is located at the front side of the base 1 and abuts against the base 1, the pushing member 211 is located at the rear end of the pushing groove 11, the pushing member 211 and the sliding rod 212 are approximately in a straight line, the elastic member disposed between the pushing groove 11 and the pushing member 211 is in a compressed energy storage state, and the elastic member at the rotational connection of the pushing member 211 and the sliding rod 212 is also in an energy storage state.

The second retraction assembly 22 includes a barrel rod 221 and a barrel rod adaptor 222, one end of the barrel rod adaptor 222 is rotatably connected to the front frame plate 213, the other end of the barrel rod adaptor 222 is rotatably connected to the barrel rod 221, an elastic member (e.g., a torsion spring) is disposed at a rotational connection position of the barrel rod adaptor 222 and the front frame plate 213, an elastic member (e.g., a torsion spring) is disposed at a rotational connection position of the barrel rod adaptor 222 and the barrel rod 221, in an initial state, as shown in fig. 1, 10-16, the barrel rod 221 is clamped between the base body 1 and the front frame plate 213, the barrel rod 221 abuts against the base body 1 and/or the front frame plate 213 to lock the position of the barrel rod 221, and at this time, the barrel rod 221 is hidden, and a top wall of the barrel rod adaptor 222 is flush with a top wall of the front frame plate 213.

In the initial configuration, the first locking device 31 cooperates with the first retraction assembly 21 such that the front frame plate 213 is located at the front side of the base 1 and abuts the base 1. The cannon rod piece 221 is clamped between the base body 1 and the front frame plate 213, the cannon rod piece 221 is abutted against the base body 1 and/or the front frame plate 213 to lock the position of the cannon rod piece 221, at the moment, the cannon rod piece 221 is in a hidden state, and the top wall of the cannon rod adapter piece 222 is flush with the top wall of the front frame plate 213. The third locking device 32 is matched with the third folding and unfolding component 23 to lock the third folding and unfolding component 23, the third folding and unfolding component 23 is attached to the rear end of the base body 1, the fourth locking device 33 is matched with the fourth folding and unfolding component 24 to lock the fourth folding and unfolding component 24, the fourth folding and unfolding component 24 is attached to the top wall of the base body 1, the paired fifth folding and unfolding components 25 are arranged between the paired fourth folding and unfolding components 24, the fourth folding and unfolding component 24 is abutted to the fifth folding and unfolding component 25 to lock the paired fifth folding and unfolding components 25 in the folded state, and the top walls of the third folding and unfolding component 23, the fourth folding and unfolding component 24 and the fifth folding and unfolding component 25 are flush, so that the first toy body 10 is in a vehicle shape in the initial state.

When the third locking device 32 is triggered, the third locking device 32 is separated from the third folding and unfolding assembly 23, the third folding and unfolding assembly 23 is unlocked and released, the elastic member at the rotary connection position of the third folding and unfolding assembly 23 and the base 1 releases energy to drive the third folding and unfolding assembly 23 to rotate 90 degrees towards the lower part of the base 1 for unfolding, the unfolded third folding and unfolding assembly 23 forms a robot leg, and the second toy body 20 (figure) in the changed state stands above the robot leg (as shown in fig. 8-9 and 17).

When the third folding and unfolding assembly 23 is unfolded, the fourth locking device 33 is triggered, the fourth locking device 33 is separated from the fourth folding and unfolding assembly 24, the fourth folding and unfolding assembly 24 is unlocked and released, the elastic member between the fourth folding and unfolding assembly 24 and the base 1 releases energy to drive the fourth folding and unfolding assembly 24 to rotate towards the rear side of the base 1, and an obtuse angle is formed between the fourth folding and unfolding assembly 24 and the base 1 (as shown in fig. 8-9 and 17).

After the fourth foldable assembly 24 is unfolded, the fourth foldable assembly 24 is separated from the fifth foldable assembly 25, the restraining force of the fourth foldable assembly 24 on the fifth foldable assembly 25 is removed, and the fifth foldable assembly 25 is unfolded into an "M" shape (see fig. 5-6) under the driving of the corresponding elastic member. Further, as shown in fig. 5-9, the unfolding rod 252 is provided with a limiting protrusion 2521, when the unfolding rod 252 is unfolded, the limiting protrusion 2521 abuts against the base 1 to limit the rotation angle of the unfolding rod 252 relative to the base 1, one of the unfolding rod 252 and the unfolding plate 251 is provided with a rotation limiting block, and the other of the unfolding rod 252 and the unfolding plate 251 is provided with a rotation limiting slot, and the rotation limiting block cooperates with the rotation limiting slot to limit the rotation angle between the unfolding rod 252 and the unfolding plate 251, so that the fifth unfolding assembly 25 can present an "M" shape when unfolded.

After the fifth folding and unfolding component 25 is unfolded, the first locking device 31 is triggered, the first folding and unfolding component 21 is unlocked, and specifically, the first locking device 31 is separated from the sliding rod 212, the sliding rod 212 is unlocked, the elastic piece arranged between the pushing groove 11 and the pushing piece 211 recovers deformation and releases energy to drive the pushing piece 211 to slide towards the groove end 111, the pushing piece 211 slides towards the groove end 111 to drive the sliding rod 212 to completely slide out of the pushing groove 11 (as shown in fig. 6-7), when the sliding rod 212 completely slides out of the pushing groove 11, the elastic piece at the rotary connection part of the sliding rod 212 and the pushing piece 211 releases energy to drive the sliding rod 212 to rotate relative to the pushing piece 211, so that the sliding rod 212 is overturned relative to the first toy body 10, the sliding rod 212 rotates 90 degrees relative to the pushing piece 211 towards the side adjacent to the second toy body 20 (as shown in fig. 8-9), so that the front shelf 213 is rotated from above and fitted over the second toy body 20.

When the front frame plate 213 is deployed, the front frame plate 213 moves away from the base 1, the restraining effect of the front frame plate 213 and the base 1 on the barrel member 221 is removed, and the barrel member 221 is rotated forwardly by approximately 180 ° relative to the front frame plate 213 (as shown in figures 8-9 and 17) under the drive of the respective resilient members.

As shown in fig. 8 to 9, the second toy body 20 is shaped like a human figure in the changed form, and when the first folding and unfolding component 21, the second folding and unfolding component 22, the third folding and unfolding component 23, the fourth folding and unfolding component 24 and the fifth folding and unfolding component 25 of the first toy body 10 are all unfolded, the first toy body 10 and the second toy body 20 together present the shape of a human body covering a robot and operating a high-speed gun.

Further, referring to fig. 8, 11 and 14-16, a third locking device 32 is rotatably connected in the base 1, one end of the third locking device 32 is provided with a locking portion 321, the third foldable and unfoldable component 23 is provided with a locking portion 232 adapted to cooperate with the locking portion 321, the other end of the third locking device 32 extends out of the bottom of the base 1 to form a triggering portion 322, the third locking device 32 is configured to rotate in a direction (counterclockwise rotation as shown in fig. 14-16) that cooperates with the third foldable and unfoldable component 23 (the locking portion 321 cooperates with the locking portion 232), when the second toy body 20 or the coupling member 4 collides with the triggering portion 322 of the third locking device 32 to trigger the third locking device 32, the third locking device 32 is pushed to rotate (clockwise as viewed in fig. 14-16) in a direction to disengage from the third foldable and unfoldable member 23 (i.e., the engaging portion 321 is separated from the engaging portion 232). As shown in fig. 14-16, the clamping portion 321 forms a hook structure, and the clamping portion 232 forms a clamping hole structure; of course, the present application is not limited thereto, and the fastening portion 321 and the engaging portion 232 may both form a hook structure.

As shown in fig. 10-15, the fourth foldable and expandable assembly 24 is provided with a downwardly extending hook 241, the base 1 is provided with a downwardly recessed groove 12, the fourth locking device 33 is movably disposed in the base 1 in a front-and-back manner, in the initial configuration, the hook 241 extends into the groove 12, and a portion of the front end of the fourth locking device 33 extends into the groove 12 to be engaged with the hook 241, so as to lock the fourth foldable and expandable assembly 24. The rear end of the fourth locking device 33 is provided with a locking plate 331, the third foldable and unfoldable element 23 is provided with a protrusion 233, when the third foldable and unfoldable element 23 is released and unfolded, the protrusion 233 abuts against the locking plate 331 of the fourth locking device 33 and drives the fourth locking device 33 to move backward, so that the fourth locking device 33 and the fourth foldable and unfoldable element 24 are unlocked (the fourth locking device 33 is separated from the locking hook 241), and the fourth foldable and unfoldable element 24 is unlocked and unfolded. A return elastic member (e.g., a spring, etc.) is disposed between the fourth locking device 33 and the base 1, and when the fourth locking device 33 is triggered to move backward, the return elastic member is compressed to store energy, and when the fourth locking device 33 is released, the return elastic member releases energy to drive the fourth locking device 33 to automatically return.

An extending hole 13 is formed in one side of the base 1 facing the fifth folding and unfolding assembly 25, the first locking device 31 is disposed in the base 1, the first locking device 31 includes a first locking piece 311 and a first contact piece 312, the first locking piece 311 can be matched with the first folding and unfolding assembly 21 to lock the first folding and unfolding assembly 21, the first contact piece 312 is linked with the first locking piece 311, that is, the first locking piece 311 is driven to move along with the first locking piece 312 when the first contact piece 312 moves, for example, an elastic piece can be disposed between the first locking piece 311 and the base 1 to drive the first locking piece 311 to normally abut against the first contact piece 312, so that the first contact piece 312 is linked with the first locking piece 311. The first contact 312 has a tendency to extend from the first extending hole 13, for example, a resilient member (e.g., a spring, etc.) may be provided between the first contact 312 and the base 1, the resilient member urges the first contact 312 to move in a direction to extend from the first extending hole 13, when the fifth deploying member 25 is not deployed, as shown in fig. 1 to 4 and 10 to 14, the fifth deploying member 25 is located above the extending hole 13, the fifth deploying member 25 abuts against the first contact 312 to block the first contact 312 in the base 1, when the first locking member 311 cooperates with the first deploying member 21 to lock the first deploying member 21, when the fifth deploying member 25 is unlocked and deployed, as shown in fig. 6 to 9 and 17, the fifth deploying member 25 avoids the extending hole 13, the fifth deploying member 25 does not have a blocking effect on the first contact, the first contact 312 extends from the extending hole 13 and drives the first locking member 311 to move under the driving of the resilient member, so that the first locking member 311 is separated from the first folding and unfolding assembly 21 to unlock the first folding and unfolding assembly 21. Specifically, as shown in fig. 1 to 17, the sliding rod 212 is provided with a slot 2121, when the fifth folding and unfolding assembly 25 is not unfolded, as shown in fig. 1 to 4 and fig. 10 to 14, the first locking member 311 is engaged in the slot 2121, and when the fifth folding and unfolding assembly 25 is unlocked and unfolded, as shown in fig. 6 to 9 and 17, the first contact 312 drives the first locking member 311 to move upward, so that the first locking member 311 is disengaged from the slot 2121, thereby unlocking the sliding rod 212.

It should be noted that, in the above embodiment, the first toy body 10 has the vehicle-shaped configuration in the initial configuration and the machine-shell-shaped configuration in the changed configuration, but the present application is not limited thereto, and the configuration of the first toy body 10 in the initial configuration and the changed configuration may be set arbitrarily, so that the first toy body 10 may have a different configuration in the initial configuration and the changed configuration by changing the structure of the folding and unfolding component, for example, the first toy body 10 may have a polyhedral structure in the initial configuration, and may be deformed into a character shape (for example, a simple figure) or an animal shape (for example, water, land, or an empty animal shape) in the changed configuration.

Similarly, the second toy body 20 may be not only an artificial type as in the above-described embodiment but also an animal figure (for example, any of water, land, and space animals) in the changed form, and the figure of the second toy body 20 in the changed form may be arbitrarily set. The configuration of the second toy body 20 in the initial state may be set arbitrarily, and may be, for example, a car configuration or a polyhedron configuration.

Further, the second toy body 20 is polyhedral in the initial form (as shown in fig. 1-2 and 19-20), the second toy body 20 comprises a clamping component 6 and a plurality of unfolding pieces 7, the unfolding pieces 7 are rotatably connected with the unfolding pieces 7, an unfolding elastic component enabling the unfolding pieces 7 to have unfolding tendency is arranged at the rotating connection position, and the clamping component 6 comprises: the touch unit 61 is arranged on one of the unfolding pieces 7, the locking unit 62 is arranged on the other unfolding piece 7, when the touch unit 61 is locked on the locking unit 62, the plurality of unfolding pieces 7 are folded against the elastic force of the unfolding elastic pieces to enable the second toy body 20 to be in a polyhedral shape, when the second toy body 20 is combined on the combination component 4, the touch unit 61 is separated from the locking unit 62, and the elastic force of the unfolding elastic pieces enables the plurality of unfolding pieces 7 to be unfolded to enable the second toy body 20 to be in a changeable shape (as shown in figures 3-9 and figures 21-22). As shown in fig. 19 to 22, the locking unit 62 includes a socket 621 formed on the spreading member 7, the activating unit 61 includes a plug 611 and a holding elastic member 612, the plug 611 is movably disposed on the spreading member 7, the holding elastic member 612 is disposed between the plug 611 and the spreading member 7 for pushing the plug 611 to be inserted into the socket 621, when the second toy body 20 is combined with the combining component 4, the plug 611 is activated to move, the plug 611 comes out of the socket 621, that is, the activating unit 61 comes out of the locking unit 62, and the elastic force of the spreading elastic member expands the plurality of spreading members 7 to make the second toy body 20 take the changing shape.

Further, as shown in fig. 19 to fig. 22, the second magnetic attraction piece 8 is embedded in the plug-in piece 611, the first magnetic attraction piece 5 is arranged on the combination component 4, and when the second toy body 20 is combined with the combination component 4, the plug-in piece 611 moves towards the direction away from the socket 621 through the attraction effect of the first magnetic attraction piece 5 on the second magnetic attraction piece 8, so that the plug-in piece 611 is separated from the socket 621.

Preferably, as shown in fig. 19-20, when the second toy body 20 is in the initial configuration, the second magnetically attractive element 8 is positioned on the surface of the second toy body 20, thereby making the magnetic attraction between the first magnetically attractive element 5 and the second magnetically attractive element 8 stronger.

Also, preferably, as shown in fig. 1, in the initial configuration of the first toy body 10, the first magnetically attractive element 5 is located on the surface of the first toy body 10, thereby making the magnetic attraction between the first magnetically attractive element 5 and the second magnetically attractive element 8 stronger.

As shown in fig. 21 to 22, the second toy body 20 is figure-shaped in a modified form, and the plurality of spreading members 7 include: the lower body 71, the upper body 72, the head 73, the upper limb 74 and the leg 75, wherein the upper body 72 is rotatably connected to the upper side of the lower body 71, the head 73 is rotatably connected to the upper body 72, the upper limb 74 is two and positioned at both sides of the upper body 72, the leg 75 is rotatably connected to the lower side of the lower body 71, the leg 75 is provided with the locking unit 62, and the lower body 71 is provided with the touch unit 61. As shown in fig. 19-22, the head member 73 is provided with a first mating portion 731, the leg member 75 is provided with a second mating portion 751, the first mating portion 731 is engaged with the second mating portion 751 in the initial configuration, and the first mating portion 731 is disengaged from the second mating portion 751 in the modified configuration. Specifically, the second toy body 20 is locked in the initial configuration shown in fig. 1 by the engagement between the locking unit 62 and the touch unit 61 and the engagement between the first engaging portion 731 and the second engaging portion 751, so as to fold and lock the lower body member 71, the upper body member 72, the head member 73, the upper limb member 74 and the leg member 75; when the locking unit 62 is separated from the touching unit 61 and the first and second engaging portions 731 and 751 are separated, the lower body member 71, the upper body member 72, the head member 73, the upper body member 74 and the leg members 75 are unlocked to be relatively spread out, so that the second toy body 20 takes on the figure as shown in fig. 21 to 22.

As shown in fig. 19-22, the first mating portion 731 and the second mating portion 751 are connected by a snap fit connection therebetween; alternatively, the first mating part 731 and the second mating part 751 are connected by magnetic attraction. The maximum force required for the disengagement of the first and second engagement portions 731 and 751 is F, the maximum elastic force generated by the expansion elastic member between the leg part 75 and the lower body part 71 is greater than F, and the maximum elastic force generated by the expansion elastic member between the upper body part 72 and the head part 73 is less than F. That is, in the initial configuration, the elastic force generated by the unfolding elastic member between the upper body 72 and the head 73 cannot drive the first engaging portion 731 and the second engaging portion 751 to switch from the engaging state to the disengaging state, and the elastic force generated by the unfolding elastic member between the leg 75 and the lower body 71 can drive the first engaging portion 731 and the second engaging portion 751 to switch from the engaging state to the disengaging state, so that when the locking unit 62 is disengaged from the activating unit 61, the first engaging portion 731 and the second engaging portion 751 automatically disengage under the elastic force of the unfolding elastic member between the leg 75 and the lower body 71, and the lower body 751 71, the upper body 72, the head 73, the upper body 74, and the leg 75 are unfolded.

Furthermore, a rotation limiting groove is formed in one side, facing the upper body 72, of the upper body 74, a rotation limiting block matched in the rotation limiting groove is arranged on the upper body 72, and the rotation angle of the upper body 74 relative to the upper body 72 can be limited through the matching between the rotation limiting groove and the rotation limiting block. For example, as shown in fig. 8-9 and 21-22, in the modified form, the upper limb member 74 is pivoted to the front side of the upper body member 72 and extends obliquely, which forms a hand-held figure with the first toy body 10 in the modified form, like the cannon stick member 221.

In one embodiment of the present invention, as shown in fig. 10-16, the coupling assembly 4 comprises: the turnover plate 41 is rotatably connected to the base body 1, the turnover plate 41 is located at the bottom of the first toy body 10 in the initial form, the outer touch plate 42 is connected with the turnover plate 41, the outer touch plate 42 is located on the front side of the first toy body 10 in the initial form, and the triggering locking piece 43 is used for locking the outer touch plate 42 on the front side of the first toy body 10 in the initial form; one end of the locking device extends to the bottom of the first toy body 10 in the initial state, when the second toy body 20 contacts the trigger locking piece 43, the outer touch plate 42 is unlocked, the turnover plate 41 is unlocked, the first toy body 10 is turned over and erected (as shown in fig. 3-9), and the locking device is triggered to unlock after the turnover plate 41 is turned over.

Specifically, the trigger latch 43 cooperates with the external touch panel 42 to lock the external touch panel 42 at the front side of the first toy body 10 in the initial state (as shown in fig. 10), at this time, the flip panel 41 is locked at the bottom of the base 1, during the process of combining the second toy body 20 with the combining assembly 4, the second toy body 20 collides with the trigger latch 43 to drive the trigger latch 43 to move, so that the trigger latch 43 is separated from the external touch panel 42 to unlock the external touch panel 42, the flip panel 41 is also unlocked, the flip panel 41 rotates to stand the first toy body 10 upside down (as shown in fig. 3-9), the flip panel 41 rotates to drive the external touch panel 42 to move, the second toy body 20 is combined with the external touch panel 42, so that the flip panel 41 rotates to drive the second toy body 20 to move, the flip panel 41 touches the locking device after overturning to trigger the locking device, the stow and deploy assembly is unlocked and deployed.

It should be noted that the order in which the second toy body 20 is coupled to the coupling assembly 4 and the second toy body 20 collides with the trigger latch 43 may be arbitrary, for example, in some examples, the second toy body 20 is coupled to the coupling assembly 4 first and then collides with the trigger latch 43; in some examples, the second toy body 20 collides with the trigger latch 43 while being coupled to the coupling assembly 4; in some examples, second toy body 20 collides with trigger latch 43 before being coupled to coupling assembly 4.

In addition, an elastic member (such as a torsion spring and the like) is arranged at the rotary connection position of the turnover plate 41 and the base body 1, when the turnover plate 41 is locked at the bottom of the base body 1, the elastic member is in an energy storage state, after the turnover plate 41 is unlocked, the elastic member releases energy, and the turnover plate 41 is driven by the elastic member to rotate so as to drive the first toy body 10 to turn over and stand.

Further, as shown in fig. 1 to 17, the outer touch plate 42 is rotatably connected to the flipping plate 41, a laminated elastic member (e.g., a torsion spring, etc.) is disposed at a position where the outer touch plate 42 is rotatably connected to the flipping plate 41, and after the outer touch plate 42 is unlocked, the laminated elastic member drives the outer touch plate 42 to rotate in a direction of being overlapped with the flipping plate 41, and in a variation, the outer touch plate 42 is overlapped on a side of the flipping plate 41 far from the locking device (as shown in fig. 18), so that the second toy body 20 combined on the outer touch plate 42 is moved to a side of the flipping plate 41 far from the locking device.

The combination mode between the outer touch plate 42 and the second toy body 20 can be selected at will, for example, the outer touch plate 42 and the second toy body 20 can be combined together through magnetic attraction, for example, the outer touch plate 42 is provided with the first magnetic attraction piece 5 in the above embodiment, and the second toy body 20 is provided with the second magnetic attraction piece 8 in the above embodiment; or the outer touch panel 42 and the second toy body 20 may be connected together by a plug structure, for example, as shown in fig. 10 and 19, a plug column 421 is provided on the outer touch panel 42, a plug groove 711 is provided on the second toy body 20, and the second toy body 20 is coupled to the outer touch panel 42 by inserting the plug column 421 into the plug groove 711; still alternatively, as shown in fig. 10, the first magnetic attraction piece 5 and the inserting column 421 are arranged on the outer touch plate 42, the second magnetic attraction piece 8 and the inserting groove 711 are arranged on the second toy body 20, and the second toy body 20 is combined to the combining component 4 through the cooperation of the first magnetic attraction piece 5, the second magnetic attraction piece 8, the inserting column 421 and the inserting groove 711, so that the connection between the second toy body 20 and the combining component 4 is more stable and reliable.

In the embodiment shown in fig. 1-22, the coupling assembly 4 includes a flip plate 41, an outer touch plate 42, and a trigger latch 43, the flip plate 41 being pivotally connected to the base 1 with the flip plate 41 positioned at the bottom of the first toy body 10 in the initial configuration; the outer touch panel 42 is rotatably connected to the flipping panel 41, the outer touch panel 42 is located at the front side of the first toy body 10 in the initial configuration, the trigger latch 43 is movably disposed at the front side of the front shelf 213 in a back-and-forth manner, a return elastic member (e.g., a spring, etc.) is disposed between the trigger latch 43 and the front shelf 213, the return elastic member is compressed to store energy when the trigger latch 43 is triggered to move backward, the return elastic member is released to drive the trigger latch 43 to move forward to return when the trigger latch 43 is released, the trigger latch 43 includes two opposite holding arms 431, the front ends of the holding arms 431 extend forward and protrude out of the front end surface of the front shelf 213, the outer touch panel 42 is held between the two holding arms 431 in the initial configuration, so that the outer touch panel 42 is locked at the front side of the first toy body 10 in the initial configuration, and when the outer touch panel 42 is locked at the front side of the first toy body 10 in the initial configuration, the flip plate 41 is also locked at the bottom of the first toy body 10 in the initial state, a laminated elastic member (such as a torsion spring, etc.) is disposed at the rotational connection position of the outer touch plate 42 and the flip plate 41, the bottom of the base 1 is provided with a receiving groove 14, the trigger portion 322 of the third locking device 32 extends into the receiving groove 14, the flip plate 41 is provided with a trigger protrusion 411, and the third folding and unfolding assembly 23 is provided with a support protrusion 234.

When the second toy body 20 collides with the front end of the holding arm 431 of the trigger locker 43, the trigger locker 43 is triggered to move backward, the trigger locker 43 is separated from the outer touch panel 42, the outer touch panel 42 is unlocked, the flip panel 41 unlocks the first toy body 10 to flip up (as shown in fig. 3 to 9), the outer touch panel 42 is driven to rotate toward the direction of being overlapped with the flip panel 41 by the laminated elastic member, the outer touch panel 42 is overlapped on the side of the flip panel 41 away from the locking means, so that the second toy body 20 combined on the outer touch panel 42 is moved to the side of the flip panel 41 away from the locking means, the second toy body 20 is triggered when the second toy body 20 is combined on the outer touch panel 42, the plurality of unfolding members 7 of the second toy body 20 are unfolded to make the second toy body 20 take a changed form, the flip panel 41 is accommodated in the accommodation groove 14 after being flipped, at the same time, the triggering protrusion 411 of the flipping board 41 collides with the triggering portion 322 of the third locking device 32, the third locking device 32 is triggered, and the third foldable and unfoldable element 23 is unfolded to form the legs of the robot, as shown in fig. 3-9, the supporting protrusion 234 of the third foldable and unfoldable element 23 and the third foldable and unfoldable element 23 both contact with a supporting surface (e.g., the ground or the table), so that the toy suit 100 is tilted up.

The play and action of the toy playset 100 will be described in detail below, taking as an example the specific example of the nestable variation toy playset 100 of the present invention shown in fig. 1-22. It should be noted that the play of the toy playset 100 described below is merely an example of an option and the present application is not limited thereto.

The nestable variant toy set 100 includes a first toy body 10 and a second toy body 20, the first toy body 10 and the second toy body 20 each having an initial configuration and a modified configuration, the first toy body 10 being in the configuration of a wagon (as shown in figure 10) in the initial configuration, the first toy body 10 being in the configuration of a vest (as shown in figure 17), the second toy body 20 being in the configuration of a polyhedron (as shown in figure 19) in the initial configuration, the second toy body 20 being in the configuration of a figure (as shown in figures 21-22). The specific structures of the first toy body 10 and the second toy body 20 have been described in detail above, and are not described in detail here.

When a player plays the toy set 100, as shown in fig. 1, the first toy body 10 and the second toy body 20 are firstly folded in an initial state, the first toy body 10 and the second toy body 20 are placed on a supporting surface (such as a ground surface or a table surface), the second toy body 20 is arranged in front of the first toy body 10 at intervals, and the first magnetic attraction piece 5 on the combination component 4 of the first toy body 10 and the second magnetic attraction piece 8 on the second toy body 20 are opposite to each other;

then the first toy body 10 in the initial form is pushed towards the second toy body 20 in the initial form, when the first toy body 10 and the second toy body 20 approach each other (as shown in fig. 2), the first magnetic attraction piece 5 and the second magnetic attraction piece 8 are magnetically attracted, the insertion piece 611 moves towards the direction far away from the socket 621 through the attraction of the first magnetic attraction piece 5 to the second magnetic attraction piece 8, so that the insertion piece 611 is separated from the socket 621, namely, the trigger unit 61 is separated from the clamping unit 62, after the clamping unit 62 is separated from the trigger unit 61, under the elastic force of the expansion elastic piece between the leg piece 75 and the lower body piece 71, the first matching part 731 and the second matching part 751 are separated, the lower body piece 71, the upper body piece 72, the head piece 73, the upper limb piece 74 and the leg piece 75 are relatively expanded, so that the second toy body 20 is deformed from the initial form (polyhedral form) into a changed form (human figure), the first and second magnetic attracting members 5 and 8 are attracted together, the peg 421 of the outer touch panel 42 of the first toy body 10 is inserted into the peg groove 711 of the second toy body 20, the second toy body 20 is coupled to the outer touch panel 42 of the first toy body 10, the trigger latch 43 of the first toy body 10 is triggered by the second toy body 20 to move backward in the process of coupling the second toy body 20 to the outer touch panel 42 of the first toy body 10, the trigger latch 43 is separated from the outer touch panel 42, the outer touch panel 42 is unlocked, the flip panel 41 is unlocked, the outer touch panel 42 is rotated toward the direction of overlapping the flip panel 41 by the driving of the laminated elastic member (as shown in fig. 18) to overlap the outer touch panel 42 and the flip panel 41, the flip panel 41 is unlocked to rotate backward to flip the first toy body 10 (as shown in fig. 3), the outer touch panel 42 rotates together with the flip panel 41, the second toy body 20 with a variable shape combined on the external touch panel 42 also rotates, when the flip panel 41 rotates to enter the accommodating slot 14, the second toy body 20 with a variable shape combined on the external touch panel 42 is positioned at the front side of the first toy body 10, the triggering protrusion 411 collides with the triggering portion 322 of the third locking device 32 to push the third locking device 32 to rotate clockwise, so that the buckling portion 321 of the third locking device 32 is separated from the buckling portion 232 of the third folding and unfolding assembly 23, the third folding and unfolding assembly 23 is unlocked and released, the elastic member at the rotating connection position of the third folding and unfolding assembly 23 and the base 1 releases energy to drive the third folding and unfolding assembly 23 to rotate 90 degrees towards the lower part of the base 1 for unfolding, the unfolded third folding and unfolding assembly 23 forms a vest leg, the second toy body 20 with a variable shape stands above the vest leg or the leg part 75 of the second toy body 20 extends into the accommodating space 231 of the vest leg (as shown in fig. 3-4), the support protrusions 234 on the hoof legs and the hoof legs are each in contact with the support surface to allow the toy playset 100 to be tilted up.

During deployment of the third stow and deploy component 23, when it is rotated to a certain extent (quick stop), the protrusion 233 of the third foldable assembly 23 abuts against the latch 331 of the fourth locking device 33, and as the third foldable assembly 23 continues to rotate, the protrusion 233 pulls the latch 331 backward, and then the fourth locking device 33 moves backward, so that the fourth locking device 33 is separated from the hook 241 of the fourth folding and unfolding assembly 24, the fourth folding and unfolding assembly 24 is unlocked to rotate and unfold toward the rear side of the base body 1, an obtuse angle is formed between the fourth folding and unfolding assembly 24 and the base body 1, after the fourth foldable assembly 24 is unfolded, the fourth foldable assembly 24 is separated from the fifth foldable assembly 25, the restraining force of the fourth foldable assembly 24 on the fifth foldable assembly 25 is removed, and the fifth foldable assembly 25 is unfolded into an "M" shape (as shown in fig. 5) under the driving of the corresponding elastic member.

After the fifth folding and unfolding component 25 is unfolded, as shown in fig. 6-9, the first contact piece 312 is no longer resisted by the fifth folding and unfolding component 25, the first contact piece 312 extends from the extending hole 13 under the driving of the elastic piece and drives the first locking piece 311 to move, so that the first locking piece 311 is separated from the slot 2121 of the sliding rod 212, the first locking piece 311 is separated from the sliding rod 212 to unlock the sliding rod 212, the elastic piece arranged between the pushing groove 11 and the pushing piece 211 is deformed and released to drive the pushing piece 211 to slide towards the groove end 111, the pushing piece 211 slides towards the groove end 111 to drive the sliding rod 212 to slide out of the pushing groove 11 (as shown in fig. 6-7), when the sliding rod 212 slides out of the pushing groove 11 completely, the elastic piece at the rotating connection position of the sliding rod 212 and the pushing piece 211 is released to drive the sliding rod 212 to rotate relative to the pushing piece 211, so that the sliding rod 212 is overturned relative to the first folding and unfolding component 10, the slide bar 212 is turned forward by 90 ° with respect to the first toy body 10 so that the front shelf 213 is turned from above and fits over the second toy body 20 (as shown in fig. 8-9). When the slide rod 212 is pushed out of the push slot 11, the barrel member 221 is unlocked and the barrel member 221 is rotated forward 180 ° relative to the front frame plate 213 (as shown in fig. 6-9) under the drive of the respective resilient members.

After the first and second toy bodies 10 and 20 complete all the above-described actions, the first and second toy bodies 10 and 20 together assume a figure in which a human body drapes over a jacket and manipulates a cannon as shown in fig. 8 to 9.

In summary, according to the nestable and transformable toy set 100 of the embodiment of the present invention, when the second toy body 20 is combined with the combination component 4 of the first toy body 10, the first toy body 10 and the second toy body 20 are both transformed automatically and the first toy body 10 and the second toy body 20 are combined, a part of the first toy body 10 in the transformed state is nested on the second toy body 20 in the transformed state, and the first toy body 10 and the second toy body 20 together present a figure of a human body covering the jacket and operating the high-speed cannon. The toy playset 100 is novel and interesting.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the description of the present invention, unless otherwise expressly specified or limited, the first feature "on" or "under" the second feature may comprise the first and second features being in direct contact, or may comprise the first and second features being in contact, not directly, but via another feature in between. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims

1. A nestable deformable toy set, comprising:

the first toy body is provided with an initial form and a changed form and comprises a base body, a folding and unfolding component, a locking device and a combination component, wherein the folding and unfolding component is arranged on the base body in a foldable mode, and the locking device is used for locking the folding and unfolding component; and the number of the first and second groups,

a second toy body comprising an initial configuration and a modified configuration, the second toy body being associable with the association assembly; wherein,

the first toy body in the initial form and the second toy body in the initial form are independent of each other, when the second toy body is combined with the combination component, the second toy body deforms to the changed form, the second toy body or the combination component triggers the locking device to release the folding and unfolding component, and a part of the unfolded folding and unfolding component is sleeved on the second toy body in the changed form.

2. The nestable, transformable toy playset of claim 1, wherein the second playset is configured as a figure when the first playset is combined with the second playset, the first playset being configured as a vest that fits over a person.

3. The nestable morphable toy playset of claim 2, wherein the first toy body is configured as a car in an initial configuration.

4. The nestable morphable toy playset of claim 2, wherein a portion of the stowable component is deployed to form a hoofed leg, the second toy body in combination with the first toy body, the second toy body in the figure standing above the hoofed leg.

5. The nestable transformable toy playset of claim 1, wherein the coupling assembly comprises:

the turnover plate is rotatably connected to the base body and is positioned at the bottom of the first toy body in the initial state;

the outer touch plate is connected with the turnover plate and is positioned on the front side of the first toy body in the initial state;

a trigger latch for latching the outer touch plate at a front side of the first toy body in an initial state; wherein,

one end of the locking device extends to the bottom of the first toy body in the initial state, the outer touch plate is unlocked when the second toy body contacts the trigger locking piece, meanwhile, the turnover plate unlocks the racket to enable the first toy body to turn over and stand up, and the locking device is triggered to unlock after the turnover plate turns over.

6. The nestable and transformable toy playset of claim 1, wherein the base defines a push slot with a slot end on one side, the stowing and expanding assembly includes a first stowing and expanding assembly, the locking device includes a first locking device for locking the first stowing and expanding assembly,

the first stowing and deploying component comprises:

a pushing member fitted within the pushing groove, the pushing member configured to always slide toward the groove end;

the sliding rod is rotatably connected to the pushing piece, at least part of the sliding rod is located in the pushing groove in the initial state, the pushing piece slides to the groove end in the changed state, and the sliding rod overturns relative to the first toy body.

7. The nestable and transformable toy playset of claim 6, wherein there are two pushers, one sliding rod rotatably connected to each of the pushers,

the first stowing and deploying component comprises: and the front frame plate is connected between the two sliding rods, one part of the combination assembly is positioned at the front side of the front frame plate in the initial state, and the front frame plate rotates from the upper side and is sleeved on the second toy body in the changed state.

8. The nestable and transformable toy playset of claim 1, wherein the plurality of folding and unfolding components include a plurality of folding and unfolding components, each folding and unfolding component includes a corresponding locking device, each folding and unfolding component triggers the locking device corresponding to the other folding and unfolding component after being unlocked, and at least one folding and unfolding component is arranged in pair in the left-right direction of the base body.

9. The nestable and transformable toy playset of claim 1, wherein the second playset body is polyhedral in an initial configuration, the second playset body including a snap assembly and a plurality of deployment members, the deployment members being rotatably connected to the deployment members, the rotatable connection being provided with a deployment spring that tends to deploy the deployment members, the snap assembly comprising: the touch unit is arranged on one unfolding piece, the clamping unit is arranged on the other unfolding piece, when the touch unit is clamped on the clamping unit, the plurality of unfolding pieces overcome the elasticity of the unfolding elastic pieces to fold so that the second toy body is in a polyhedral shape, when the second toy body is combined on the combination assembly, the touch unit is separated from the clamping unit, and the elasticity of the unfolding elastic pieces enables the plurality of unfolding pieces to unfold so that the second toy body is in a changeable shape.

10. The nestable and transformable toy set of any one of claims 1-9, wherein the combination assembly is provided with a first magnetically attractive member, and the second toy body is provided with a second magnetically attractive member for attracting with the first magnetically attractive member.