CN209997191U - Split combined toy suit - Google Patents

Split combined toy suit Download PDF

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Publication number
CN209997191U
CN209997191U CN201920361928.0U CN201920361928U CN209997191U CN 209997191 U CN209997191 U CN 209997191U CN 201920361928 U CN201920361928 U CN 201920361928U CN 209997191 U CN209997191 U CN 209997191U
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CN
China
Prior art keywords
toy
toy body
locking
polyhedral
assembly
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Expired - Fee Related
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CN201920361928.0U
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Chinese (zh)
Inventor
李德铭
李霄翰
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Alpha Group Co Ltd
Guangzhou Alpha Culture Co Ltd
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Alpha Group Co Ltd
Guangzhou Alpha Culture Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
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Application filed by Alpha Group Co Ltd, Guangzhou Alpha Culture Co Ltd filed Critical Alpha Group Co Ltd
Priority to CN201920361928.0U priority Critical patent/CN209997191U/en
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Publication of CN209997191U publication Critical patent/CN209997191U/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

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Abstract

The utility model discloses a toy suit of splittable combinations, which comprises a toy body and a second toy body, wherein the toy body comprises a body, a conjoined component and a trigger component, the conjoined component is arranged on the body, the conjoined component can move between a conjoined state and a disassembled state, the trigger component is arranged on the body, a end of the trigger component is matched with the conjoined component, and the trigger component drives the conjoined component to move towards the disassembled state after being triggered.

Description

Split combined toy suit
Technical Field
The utility model belongs to the technical field of the toy, specifically be toy suits of splittable combination.
Background
The toy body in the prior art is usually a single deformable piece, which usually changes in situ during deformation, and has insufficient dynamic sense and weak space change sense, while the deformable toy formed by combining a plurality of toy bodies is usually added manually and combined into a deformable toy.
SUMMERY OF THE UTILITY MODEL
The utility model aims to at least solve of the technical problem existing in the prior art, therefore, the utility model provides a splittable combined toy suit, which has novel playing method, strong interest and easy splitting combination.
The separable combined toy suit comprises a toy body, wherein the toy body comprises a body, a conjoined assembly and a trigger assembly, the conjoined assembly is arranged on the body and can move between a conjoined state and a disassembled state, the trigger assembly is arranged on the body, the end of the trigger assembly is matched with the conjoined assembly, the trigger assembly drives the conjoined assembly to move towards the disassembled state after being triggered, a second toy body is provided with a carriage, and a third toy body is suitable for being installed in the carriage, wherein the conjoined assembly is connected with the second toy body in the conjoined state, and the conjoined assembly releases the second toy body in the disassembled state.
According to the utility model discloses a toy suit, toy body and second toy body are conjuncted state at the initial state, can break down the connection between toy body and the second toy body after triggering the trigger assembly, consequently can unite into body between the toy body and the second toy body, also can break down and play for two independent toy bodies respectively, the state switches easily, and the action is strong.
Optionally, the second toy body includes: the carriage body is arranged on the carrying base body in an openable and closable manner; the compartment locking assembly is used for locking the compartment body, and the compartment locking assembly releases the compartment body after being triggered so that the compartment body is opened.
Optionally, the toy body comprises a conversion part movably arranged on the body, a conversion elastic part used for driving the conversion part to unfold or turn, and a conversion locking device used for locking the conversion part in an initial state, wherein the conversion locking device releases the conversion part after being triggered.
Optionally, the converting piece comprises an th overturning piece arranged at the bottom of the body, and the th overturning piece is released after the converting locking device is triggered to enable the th overturning piece to shoot ground and the th toy body to overturn in an empty way.
Optionally, the th polyhedral toy has a polyhedral form and a deployed form, and the th polyhedral toy changes from the polyhedral form to the deployed form when colliding with the th toy body.
Optionally, the second toy body has a launching assembly, and the launching assembly strikes the third toy body to launch to disengage from the second toy body after being triggered.
Optionally, the second toy body includes: the carriage body is arranged on the carrying base body; an actuator movably disposed on the carrier substrate; the action elastic piece is used for driving the action piece to unfold or turn over; the action locking device is used for locking the action piece in an initial state, and releases the action piece after being triggered.
Optionally, the motion locking device includes a locking slide bar slidably disposed on the carrier substrate between a locking position and an unlocking position, the locking slide bar cooperating with the firing assembly to remain in the locking position, and the locking slide bar being locked to the motion member in the locking position and releasing the motion member in the unlocking position; and the unlocking elastic piece is used for normally driving the locking slide rod to slide towards the unlocking position.
, the toy playset further includes a damping device cooperating with the action member or the action locking device to slow the action of the action member.
Optionally, the damping device comprises: the damping gear and the damping rack are meshed, the damping rack is arranged on the locking slide rod, and the damping gear is rotatably arranged on the carrying base body.
Optionally, the actuation member comprises: and the second overturning piece is rotatably arranged at the bottom of the carrying base body, and after the action locking device releases the second overturning piece, the second overturning piece touches the ground to enable the second toy body to be emptied and overturned.
Optionally, the toy body further comprises a rear combination part, a second combination part is arranged on the third toy body, the launching assembly drives the third toy body to launch to be separated from the second toy body after being triggered, and the launched third toy body is combined to the rear combination part through the second combination part.
Optionally, the third toy body is switchable between an original form and a combined form, and comprises a combined body, a change elastic piece and a change locking device, wherein the second combined portion is arranged on the combined body, the change body is rotatably connected to the combined body, the change elastic piece is connected between the combined body and the change body to drive the change body to rotate towards the combined form, the change locking device is used for locking the change body in the original form, and when the third toy body is combined with the -th toy body, the triggers the change locking device to unlock the toy.
According to the embodiments of the toy suit capable of being split and combined, the second toy body further comprises a third combination part, and the toy suit further comprises a second polyhedral toy which is combined with the third combination part to trigger the second toy body to act.
Optionally, the th and second polyhedral toys have polyhedral shapes and unfolded shapes, and the th and second polyhedral toys change from polyhedral shapes to unfolded shapes when colliding with the th and second toy bodies, respectively.
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 view of toy suits according to embodiments of the present invention when not triggered.
Fig. 2 is a schematic view of the toy playset of fig. 1 when the th playset body encounters the th polyhedral toy.
Fig. 3 is a schematic view of the toy holster shown in fig. 1 after the -th toy body and the second toy body are disassembled.
Fig. 4 is a schematic view of embodiments of the present invention, in which a third toy body is installed in a second toy body.
Fig. 5 is a schematic diagram of the toy body, the third toy body and the th polyhedral toy according to embodiments of the present invention after the combination and transformation are completed.
Fig. 6 is a schematic diagram of the embodiments of the present invention after the second toy body and the second polyhedral toy are combined and deformed.
Fig. 7 is a schematic perspective view of an original configuration of a toy body according to embodiments of the present invention.
Fig. 8 is a schematic perspective view of an initial form of another toy of angles according to embodiments of the present invention.
Fig. 9 is a schematic cross-sectional view of an original form of the toy body according to embodiments of the present invention.
Fig. 10 is a schematic perspective view of a modified toy body according to of the present invention.
Fig. 11 is a schematic perspective view of a transformed th toy body with another angles according to embodiments of the present invention.
Fig. 12 is a schematic cross-sectional view of a modified toy body according to of the present invention.
Fig. 13 is a schematic structural diagram of the body of the toy body and the components connected to the body according to of the present invention.
Fig. 14 is a schematic structural diagram of exemplary embodiments of the triggering assembly, the conjoined assembly, the conversion locking device, and the rotation connecting member.
Fig. 15 is an exploded schematic view of part of the structure of the toy body according to embodiments of the present invention.
Fig. 16 is a perspective view illustrating an initial configuration of a second toy according to embodiments of the present invention.
Fig. 17 is a perspective view of an initial form of a second toy body with another angles according to embodiments of the present invention.
Fig. 18 is a partial structural schematic view of a second toy body according to embodiments of the present invention (a structure hiding car cases and a partial carrying base).
Fig. 19 is a partial structural schematic diagram of a second toy body according to embodiments of the present invention.
Fig. 20 is a schematic perspective view of a modified second toy body according to of the present invention.
Fig. 21 is a schematic perspective view of a modified second toy body with another angles according to embodiments of the present invention.
Fig. 22 is an exploded schematic view of a partial structure of a second toy body according to embodiments of the present invention.
Fig. 23 is a perspective view illustrating an initial configuration of a third toy according to embodiments of the present invention.
Fig. 24 is a sectional structure diagram of the third toy body in fig. 23.
Fig. 25 is a perspective view of a third toy body according to of the present invention after being deformed.
Fig. 26 is a sectional view schematically showing the third toy body in fig. 25.
Fig. 27 is a schematic perspective view of a polyhedron form of a th polyhedral toy according to embodiments of the present invention.
Fig. 28 is a schematic perspective view of a transformed th polyhedral toy of according to an embodiment of the present invention.
Fig. 29 is a schematic view showing a partial explosion structure of a th polyhedral toy in accordance with exemplary embodiments of the present invention after transformation.
Fig. 30 is a schematic sectional view showing a polyhedron form of a th polyhedral toy according to embodiments of the present invention.
Fig. 31 is a schematic perspective view of a polyhedral second polyhedral toy according to embodiments of the present invention.
Fig. 32 is a schematic sectional view showing a polyhedral configuration of a second polyhedral toy according to exemplary embodiments of the present invention.
Fig. 33 is a schematic perspective view of an expanded form of a second polyhedral toy according to exemplary embodiments of the present invention.
FIG. 34 is a schematic sectional view showing the expanded form of a second polyhedral toy according to exemplary embodiments of the present invention.
Reference numerals:
a toy playset 1000;
toy body 100;
a body 11, an th front joint 111, a th rear joint 112, a rotary connecting piece 113;
a conjoined assembly 12; a connecting hook 121; an abutment portion 122;
a trigger assembly 13;
a trigger part 130;
trigger the slide bar 131, the reset bump 1312;
a second trigger slide 132; a trigger spring 1322;
a third trigger slide 133;
a switching piece 14, an th turnover piece 141, a switching elastic piece 142, a shifting block 143;
the switching locking device 15, a clamping part 151, an abutting block 152, an th clamping hook 153 and a second clamping hook 154;
a stow and deploy component 16; an engaging portion 161; an outer touch plate 163; a folding plate 164; a moving member 168; a return spring 169;
a second toy body 200;
a carrier base 21; a fitting port 211;
a carriage body 22; the hatchback elastic member 221; a compartment shell 222; the cage contact projection 223; a carriage lock lever 224;
a latch carriage assembly 23, an th slider 231, an unlatching trigger head 232, a th spring 233, a latch lever 234, a th latch hook 235;
a transmission assembly 24; a second slider 241; a barrier frame 2411; a second elastic member 242; the third slider 243; a striking bar 2431; a clip member 2432; the third elastic member 244;
an action 25; a second flip 251; an action spring 252;
an actuation locking device 26; locking the slide bar 261; a chute 2611; a front locking bar 2612; the unlocking elastic member 262; the second latch hook 263;
a damping device 27; a damping gear 271; a damping rack 272;
a lifting member 28; the third bonding portion 281; an avoidance port 282; an abutting groove 283;
a third toy body 300;
a combined body 31; a second coupling portion 311;
the variant 32; a bayonet 321; a variation body 322; a change sub body 323;
a locking elastic member 33;
a change lock device 34; the changing contact 341; a locking bar 342; a stopper rod 343;
a wheel 35;
A polyhedral toy 400, a B polyhedral combining part 41, a fourth combining part 411, a B triggering opening 412, a wing spreading part 42, a B wing spreading part 421, a wing spreading bayonet 4211, a second wing spreading part 422, a B variable elastic part 43, a wing spreading locking part 44, a B combined contact 441, a wing spreading locking hook 442;
the toy comprises a second polyhedron toy 500, a second multi-surface combining part 51, a fifth combining part 511, a second trigger opening 512, an extending bayonet 513, an extending part 52, an th extending part 521, a second extending part 522, an extending convex block 5221, an extending fixture block 5222, a second variable elastic piece 53, an extending locking part 54, a second combined contact 541 and an extending hook 542.
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 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 drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.
In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, and do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.
The following describes a splittable combination toy playset 1000 in accordance with an embodiment of the present invention with reference to the accompanying drawings.
The separable combined toy suit 1000 according to the embodiment of the invention is shown in fig. 1, fig. 2 and fig. 3, and comprises a toy body 100 and a second toy body 200, wherein the toy body 100 and the second toy body 200 can be used as independent toy bodies for children to play, and the toy body 100 and the second toy body 200 can be combined to form integrated toy bodies for children to play.
As shown in fig. 7, 8 and 9, the th toy body 100 comprises a body 11, a conjoined assembly 12 and a trigger assembly 13, wherein the conjoined assembly 12 is arranged on the body 11, the conjoined assembly 12 is movable between a conjoined state and a disassembled state, the trigger assembly 13 is arranged on the body 11, the end of the trigger assembly 13 is matched with the conjoined assembly 12, and the trigger assembly 13 drives the conjoined assembly 12 to move towards the disassembled state after being triggered.
As shown in fig. 4, the second toy body 200 has a carriage 22 thereon, and the carriage 22 is adapted to mount a third toy body 300 therein. In which the link assembly 12 is coupled to the second toy body 200 in the coupled state as shown in fig. 1 and 2, and the link assembly 12 releases the second toy body 200 in the disassembled state as shown in fig. 3.
It should be noted that the "disassembled state" means that the connected state between the th toy body 100 and the second toy body 200 does not exist, two independent toy bodies are formed, and does not mean that the parts of the two toy bodies are disassembled.
In addition, the present invention is not limited to the triggering manner of the triggering component 13, for example, the triggering component 13 may be triggered by colliding with a trigger, or the triggering component 13 may be triggered by setting a program inside the -th toy body 100, for example, a spring is provided, the spring is released during walking, and the spring releases energy to degrees to trigger the triggering component 13, or an electric control valve is provided on the -th toy body 100, the electric control valve can operate after receiving the electric signal control, and the electric control valve can trigger the triggering component 13, etc.
It can be understood that the splittable toy set 1000 of the embodiment of the present invention, the -th toy body 100 and the second toy body 200 are in a conjoined state at the initial state, and the -th toy body 100 and the second toy body 200 can be separated from each other after the trigger assembly 13 is triggered, so that the -th toy body 100 and the second toy body 200 can be combined into the -th toy body, and can also be separated into two independent toy bodies for respective play, and the state switching is easy and the action feeling is strong.
In addition, the second toy body 200 of the utility model is provided with the third toy body 300, which provides possibilities for the later deformation and the splitting of the second toy body 200 into two independent toy bodies again, so that the combination and splitting of different toy bodies can be more selective, thereby greatly enhancing the interest of children playing.
In the embodiments of the present invention, as shown in fig. 9 and 12, the toy body 100 further includes a converting member 14, a converting elastic member 142 (shown in fig. 11), and a converting locking device 15, wherein the converting member 14 is movably disposed on the body 11, the converting elastic member 142 is used for driving the converting member 14 to unfold or turn over, the converting locking device 15 is used for locking the converting member 14 in the initial state, and the converting locking device 15 releases the converting member 14 after being triggered.
Optionally, the converting element 14 includes an th turning element 141 disposed at the bottom of the body 11, and the th turning element 141 is released after the converting locking device 15 is triggered, so that the th turning element 141 and the th toy body 100 are turned over in the air.
Alternatively, as shown in figures 8 and 11, the st flip element 141 is flipped 180 degrees from the initial state in the end state optionally, the th flip element 141 is configured to trigger the rear-driven th toy body 100 to flip forward, specifically, the th flip element 141 is positioned behind its rotational axis in the initial state and in front of its rotational axis in the end state, i.e., the th flip element 141 is flipped from the rear of the body 11 to the front of the body 11. during flipping, the body 11 is adjacent to the ground, the th flip element 141 flips over the th toy body 100 after touching the ground, and the flipped th flip element 141 may be supported at the front of the body 11 so that the bottom of the body 11 again touches and maintains a stable end state.
Optionally, as shown in fig. 11, the switching elastic member 142 is a spring member, the th flip member 141 is pivotally connected to the body 11 through a rotating shaft, the switching elastic member 142 is sleeved on the rotating shaft, and two ends of the switching elastic member 142 are respectively connected to the body 11 and the th flip member 141 in a limiting manner, so as to drive the th flip member 141 to move toward the forward-flipped state.
Certainly, the conversion elastic component 142 is not limited to a spring, the conversion elastic component 142 can also be a rubber band, the end of the rubber band is connected to the body 11, and the other end of the rubber band is connected to the turning piece 141.
Alternatively, as shown in fig. 9, the switching locking device 15 includes th hooks 153 and 154 second hooks 154 (the structures of the th hooks 153 and 154 are described later, the 0 th hook 153 1 is formed on the th trigger slide 131, and the second hook 154 is formed on the second trigger slide 132. of course, the th hook 153 and the second hook 154 may also be separately processed parts, so that the th hook 153 and the second hook 154 are driven to move when the trigger assembly 13 is triggered, but not necessarily arranged on the th trigger slide 131 and the second trigger slide 132). in the initial state, the th hook 153 and the second hook 154 are locked on the th flip 141, so as to lock the th flip 141 in the initial state.
Alternatively, the switching locking device 15 includes a second hook 154 disposed at the bottom, and the second hook 154 is caught at the st flip 141 to maintain the st flip 141 in the initial state.
Optionally, as shown in fig. 9 and 12, the conversion locking device 15 further includes a locking portion 151, the body 11 is rotatably connected with a rotating connecting member 113, in an initial state, the rotating connecting member 113 is engaged with the locking portion 151, and when the locking device 15 is triggered, the rotating connecting member 113 is disengaged from the locking portion 151.
Alternatively, as shown in fig. 9, an elastic member (torsion spring) is disposed between the rotary connector 113 and the body 11, an end of the rotary connector 113 forms a clamping portion 161, and the clamping portion 161 is in clamping fit with the clamping portion 151 in an initial state.
Optionally, as shown in fig. 8 and 9, the conversion locking device 15 further includes an abutting block 152, the th flip element 141 is provided with a shifting block 143, the shifting block 143 protrudes out of the surface of the th flip element 141, when the th flip element 141 is locked by the th hook 153 and the second hook 154, the shifting block 143 does not contact the abutting block 152, as shown in fig. 12, after the th flip element 141 is flipped, the shifting block 143 contacts the abutting block 152, and the conversion locking device 15 moves backward.
Optionally, the rear portion of the conversion locking device 15 is provided with the aforementioned snap-in portion 151, and when the shifting block 143 pushes the abutting block 152, the snap-in portion 151 moves backward and is separated from the engaging portion 161.
In some embodiments of the present invention, as shown in fig. 14 and 15, the toy body 100 includes a trigger assembly 13, the trigger assembly 13 includes a th trigger slide 131 and a third trigger slide 133 which can move back and forth relative to the body 11 (see fig. 10 for the structure of the body 11), wherein a th trigger slide 131 forms a trigger 130, when the trigger 130 is triggered, the third trigger slide 133 is triggered in a linkage manner, and another end of the third trigger slide 133 is connected to the conjoined assembly 12, so that the conjoined assembly 12 and the second toy body 200 are disassembled.
Alternatively, as shown in fig. 14, in the disassembled state, a gap is formed between the th trigger slide bar 131 and the third trigger slide bar 133, in the triggered state, the th trigger slide bar 131 moves backwards to push the third trigger slide bar 133 to move backwards, and the third trigger slide bar 133 drives the conjoined assembly 12 to rotate and release the second toy body 200. namely, when the third trigger slide bar 133 is triggered, the conjoined assembly 12 is also triggered, and the connection between the th toy body 100 and the second toy body 200 is disassembled.
Optionally, as shown in fig. 14 and 15, the trigger assembly 13 further includes a second trigger slide 132, the second trigger slide 132 is also movable back and forth relative to the body 11, and when the th trigger slide 131 is triggered, the second trigger slide 132 is triggered to move back.
Optionally, as shown in fig. 11 and 13, the rear end of the second trigger slide bar 132 extends out of the body 11, as shown in fig. 12, a trigger spring 1322 is connected between the front end of the second trigger slide bar 132 and the -th trigger slide bar 131, when the -th trigger slide bar 131 is triggered to move backwards, the trigger spring 1322 is rapidly compressed, the second trigger slide bar 132 forms a reverse impulse to the -th toy body 100, so that the -th toy body 100 moves forwards away from the second toy body 200 .
Of course, the th trigger slide 131, the second trigger slide 132 and the third trigger slide 133 of the present invention can be formed as body trigger rods, and are not limited herein.
Optionally, as shown in fig. 12, 13 and 15, a -th hook 153 is formed at the bottom of the -th trigger slide bar 131, a second hook 154 is formed at the bottom of the second trigger slide bar 132, a catch hole matched with the -th hook 153 and the second hook 154 is formed on the -th flip-flop 141 of the converter 14, when the -th trigger slide bar 131 and the second trigger slide bar 132 are triggered respectively, the -th hook 153 and the second hook 154 are disengaged from the respective catch holes respectively, so that the -th flip-flop 141 is released and turned over for beats, thereby the -th body 100 is driven and turned over in the empty state.
In the embodiments of the present invention, as shown in fig. 8, 11, 13, 14 and 15, the conjoined assembly 12 includes connecting hooks 121 disposed in pairs, each connecting hook 121 is rotatably connected to the body 11, the two connecting hooks 121 in pairs are configured to rotate toward the closing direction, and the trigger assembly 13 is configured to push the two connecting hooks 121 in pairs to rotate toward the opening direction after being triggered.
An elastic member (for example, a torsion spring) for rotating the two connection hooks 121 toward the closing direction may be disposed at the rotational connection between the connection hooks 121 and the body 11, the elastic member is deformed to store energy when the triggering component 13 is triggered to push the two connection hooks 121 in the pair to rotate toward the opening direction, and the elastic member releases energy to drive the two connection hooks 121 to rotate toward the closing direction after the triggering component 13 is reset.
Alternatively, as shown in fig. 14 and 15, the conjoined assembly 12 is provided with an abutting portion 122 abutting against the trigger assembly 13, and when the trigger assembly 13 is triggered, the trigger assembly 13 pushes the abutting portion 122 to rotate the connecting hook 121.
It is understood that the coupling hooks 121 of the coupling body assembly 12 of the present application are only alternative embodiments, and the coupling body assembly 12 of the present application is not limited to the coupling hooks 121 described above, and may be magnets, etc.
In addition, the conjoined assembly 12 may be provided on any side of the body 11 of the -th toy body 100, for example, the conjoined assembly 12 may be provided on the front side, the rear side (as shown in fig. 12), the left side or the right side of the body 11.
In the embodiments of the present invention, as shown in fig. 7 and 9, the toy body 100 includes a folding and unfolding component 16, the folding and unfolding component 16 is connected to the body 11 in a foldable manner, as shown in fig. 7 and 9, the folding and unfolding component 16 is folded on the body 11, as shown in fig. 10 and 12, the folding and unfolding component 16 is unfolded on the body 11.
Optionally, when the folding and unfolding assembly 16 is in the folded state, the folding and unfolding assembly 16 is locked by the conversion locking device 15, the conversion locking device 15 is connected with the trigger assembly 13, and after the trigger assembly 13 is triggered, the conversion locking device 15 releases the folding and unfolding assembly 16, so that the folding and unfolding assembly 16 is unfolded and deformed, and therefore when the th toy body 100 is disassembled from the second toy body 200, the th toy body 100 can also deform, so that the action feeling of the th toy body 100 is enhanced, and the model of the th toy body 100 is enriched.
It should be understood that the foldable module 16 can be configured in any shape in the folded state and the unfolded state, for example, as shown in fig. 7, when the foldable module 16 is in the folded state, the foldable module 16 and the body 11 together form a car shape, which can be a large-sized car such as a truck, a police car, an ambulance, etc., or a small-sized car such as a racing car, a sports car, a car, etc. As shown in fig. 10, the deployable member 16 may be deformed into a human shape (e.g., a simple small person) or an animal shape (e.g., water, land, or a free-space animal) when the deployable member 16 is in the deployed state.
As shown in fig. 7, the folding and unfolding assembly 16 includes an outer contact plate 163 and a folding plate 164, the outer contact plate 163 is rotatably connected to the folding plate 164, the folding plate 164 is foldably connected to the body 11, when the triggering assembly 13 is triggered, the toggle locking device 15 is triggered, and the outer contact plate 163 and the folding plate 164 are unfolded and deformed upward relative to the body 11.
Alternatively, as shown in fig. 7, the trigger part 130 of the trigger assembly 13 extends forward from the outer contact plate 163, and when an external trigger pushes the trigger part 130 to retract from the outer contact plate 163, the outer contact plate 163 is unfolded relative to the folding plate 164.
Alternatively, as shown in fig. 9 and 12, the lower portion of the folding plate 164 is connected to the main body portion of the folding and unfolding assembly 16, and the main body portion of the folding and unfolding assembly 16 is connected to the rotating connecting member 113, that is, when the converting locking device 15 is triggered, the snap-in portion 151 is disengaged from the snap-in portion 161, the main body portion of the folding and unfolding assembly 16 is unfolded upward, and the folding plate 164 is folded and flipped with respect to the main body portion of the folding and unfolding assembly 16.
Optionally, as shown in fig. 9 and 12, the folding and unfolding assembly 16 further includes a moving member 168, a return elastic member 169 is disposed between the moving member 168 and the main body of the folding and unfolding assembly 16, a return protrusion 1312 is disposed on the trigger sliding rod 131, when the trigger assembly 13 is triggered, the return protrusion 1312 pushes the moving member 168 backwards to enable the folding and unfolding assembly 16 to have power for unfolding and deforming, and when the folding and unfolding assembly 16 is folded towards the body 11, the moving member 168 abuts against the return protrusion 1312 of the trigger sliding rod 131 to push the trigger sliding rod 131 to automatically return.
Alternatively, as shown in fig. 9 and 12, the -th trigger sliding bar 131 is provided with a reset protrusion 1312 extending upwards, the upper end surface of the reset protrusion 1312 is formed with an inclined surface extending obliquely, the lower end surface of the moving member 168 is formed with an inclined surface having an inclination , the reset protrusion 1312 abuts against the inclined surface of the moving member 168 to drive the -th trigger sliding bar 131 to reset, and the reset protrusion 1312 and the moving member 168 are formed with inclined surfaces abutting against each other, so that the cooperation between the reset protrusion 1312 and the moving member 168 is stable and smooth, and the operation feeling is good.
In the embodiments of the present invention, as shown in fig. 8, the toy body 100 includes a th rear combination portion 112, the th rear combination portion 112 includes a magnet or a magnetic connector, and the th rear combination portion 112 may also be a fastener, etc., which is not limited herein.
In the description of the present invention, unless otherwise specified, "plurality" means two or more.
In embodiments of the present invention, referring to fig. 1, 7, 10, 14, the toy body 100 further includes a 0 th front joining part 111, as shown in fig. 1 and 2, the toy suit 1000 further includes a 1 th polyhedral toy 400, a 2 th polyhedral toy 400 is joined to the 3 th front joining part 111 to trigger the trigger assembly 13, that is, the th polyhedral toy 400 is also a binder as a trigger, the aspect triggers the th toy body 100 to be disassembled from the th toy body 200, and the th toy body 100 completes the aforementioned forward movement and turning, and the aspect is joined to the th toy body 100 to form a combined body, which is parts deformed when the th toy body 100 is deformed.
The th polyhedral toy 400 has a polyhedral shape and a deployed shape, and the th polyhedral toy 400 changes from the polyhedral shape to the deployed shape when it collides with the th toy body 100.
In examples, the outer touch plate 163 of the foldable module 16 is provided with a front combination portion 111, the front combination portion 111 is a magnet, the front combination portion 111 can also be a fastener, and the front combination portion 111 can be combined with the th polyhedral toy 400.
Of course, in the examples of the present invention, as shown in fig. 2, 3, 27, 28, 29, and 30, the th polyhedral toy 400 itself is also used as the kind of independently deformable toy bodies.
As shown in FIG. 27, the th polyhedral toy 400 is folded into a polyhedral shape (e.g., a substantially cubic shape) before being deformed, and as shown in FIG. 28, the th polyhedral toy 400 is deformed and unfolded to form an eagle for flight by spreading wings, referring to FIGS. 29 and 30, the th polyhedral toy 400 includes a th polyhedral coupling portion 41, a spreading wing portion 42, and a spreading wing securing portion 44, and the spreading wing securing portion 44 secures the spreading wing portion 42 to the th polyhedral coupling portion 41.
As shown in fig. 27, the th multi-surface combining part 41 is provided with a fourth combining part 411 matched with the th combining part 111, and the fourth combining part 411 may be a magnet or a magnetic connecting piece made of a magnetic material.
Alternatively, as shown in fig. 27 and 30, the -th multi-surface combining part 41 is provided with a -th trigger slot 412, the end of the spreading locking part 44 is formed as a -th conjoined contact 441, and the -th conjoined contact 441 can extend or retract from the -th trigger slot 412, as shown in fig. 29, the other end of the spreading locking part 44 is formed as a spreading locking hook 442, and the spreading locking hook 442 is in mating connection with the spreading wing part 42.
Alternatively, as shown in fig. 29 and 30, the wing locking portion 44 is provided with a th change elastic member 43 along a direction parallel to the extension and contraction direction of the th conjoined contact 441, and when the th change elastic member 43 is retracted, the th change elastic member 43 charges energy and disengages the wing locking hook 442 from the wing portion 42.
Alternatively, as shown in fig. 27 and 29, the spreading wings 42 include th spreading wings 421 and 422, wherein the th spreading wings 421 can be spread by rotation relative to the second spreading wings 422, the second spreading wings 422 can be rotatably connected to the th multi-surface combining part 41, and the th spreading wings 421 and the spreading wings locking part 44 are locked to be folded.
Optionally, as shown in fig. 28, a wing-spreading bayonet 4211 is provided on the th wing-spreading part 421, the wing-spreading bayonet 4211 is engaged with the wing-spreading locking hook 442 in a matching manner, when the th conjoined contact 441 is triggered, the wing-spreading locking hook 442 is disengaged from the wing-spreading bayonet 4211, the th wing-spreading part 421 rotates and spreads with respect to the second wing-spreading part 422, and the second wing-spreading part 422 rotates and spreads with respect to the multi-faced combining part 41.
Optionally, the expanded -th spreading wing part 421 and the second spreading wing part 422 are substantially coplanar, so as to enhance the modeling effect and save the three-dimensional space occupied by the spreading wings.
Optionally, the st wing-unfolding part 421 and the second wing-unfolding part 422 are symmetrically disposed on both sides of the st polyhedral combining part 41, and when the th polyhedral toy 400 is deformed, the st wing-unfolding part 421 and the second wing-unfolding part 422 are unfolded simultaneously.
Thus, when the th polyhedral toy 400 and the th polyhedral toy body 100 are combined, the th polyhedral toy and the th polyhedral toy body 100 respectively serve as triggers of each other to form a primary trigger, the th polyhedral toy 400 is deformed, the th polyhedral toy body 100 is also deformed, and finally a combined deformation body is formed, wherein the structure of the combined deformation body is shown in fig. 5.
In the embodiment of the present invention, since the second toy body 200 can carry the third toy body 300, and the multiple playing methods can be changed by combining the joint disassembling functions of the th toy body 100 and the second toy body 200, for example, the second toy body 200 is provided with a combination structure for combining the third toy body 300, when the th toy body 100 is combined with the second toy body 200, the combination structure is hidden, and the third toy body 300 cannot be combined with the second toy body 200, for example, the second toy body 200 is provided with the transmitting assembly 24 for transmitting the third toy body 300, when the th toy body 100 is combined with the second toy body 200, the transmitting assembly 24 cannot be triggered, and when the th toy body 100 is disassembled from the second toy body 200, the transmitting assembly 24 can be triggered.
In the embodiments of the present invention, as shown in fig. 18, the second toy body 200 capable of being disassembled and coupled with the th toy body 100 includes a carrying base 21 and a lock assembly 23, wherein the box 22 is openably and closably disposed on the carrying base 21, the lock assembly 23 is used for locking the box 22, and the lock assembly 23 releases the box 22 after being triggered to open the box 22.
Alternatively, as shown in fig. 16 and 17, the carriage 22 includes two carriages 222, the two carriages 222 are respectively rotatably connected to the carrier base 21, the carriage 22 is closed when the two carriages 222 are rotated to be engaged in a direction toward each other, and the carriage 22 is opened when the two carriages 222 are rotated to be separated in a direction away from each other.
Alternatively, as shown in fig. 17 and 18, each car shell 222 is provided with a car-opening elastic member 221 for driving the car shell 222 to open, and the car-opening elastic member 221 always drives the car shell 222 to move towards the opening direction.
in some embodiments, as shown in fig. 22, the carriage locking assembly 23 includes a sliding member 231 and a elastic member 233, wherein the sliding member 231 is slidably disposed on the carrying base 21, the sliding member 231 is provided with a locking lever 234 respectively hung on the two carriage shells 222, when the second toy body 200 is not triggered, the locking lever 234 locks the carriage shells 222 to make the carriage body 22 in a closed state, and as shown in fig. 19 and 22, the elastic member 233 is used to drive the sliding member 231 to slide towards the direction of locking the carriage shells 222.
In examples, when the slide member 231 moves backward, the resilient member 233 is compressed, which tends to move the slide member 231 forward toward the lock compartment 222. optionally, the resilient member 233 is a spring member.
Alternatively, as shown in fig. 18 and 21, the carriage lock rod 224 is disposed on the carriage shell 222, and the carriage lock rod 224 and the lock rod 234 form a snap fit.
Alternatively, as shown in fig. 17, 19 and 21, the end of the sliding part 231 in the sliding direction is provided with an open-box trigger head 232 extending out of the carrier base 21, and when an external trigger triggers the open-box trigger head 232, the open-box trigger head 232 drives the sliding part 231 to move backwards, so that the lock rod 224 and the lock rod 234 are unlocked.
Alternatively, as shown in fig. 22, the bottom of the sliding member 231 is provided with a locking hook 235, and as shown in fig. 17, the locking hook 235 is engaged with a second flip-flop 251 to form a preliminary limit for the second flip-flop 251, so that the second flip-flop 251 is maintained at the locking position.
Of course, in the embodiment of the present invention, the switch mode of the car-locking assembly 23 is not limited to this. For example, the car-locking assembly 23 may include magnetic attraction members (not shown) respectively disposed on the two housings 222, the two housings 222 may be kept in a closed state due to the magnetic attraction force, the car-locking assembly 23 further includes an opening member for opening the housings 222 after being triggered and a normally-open elastic member, the opening member is slidable between an open position and a release position, the normally-open elastic member is used for driving the opening member to slide toward the release position, when the opening member is triggered to the open position, the opening member opens the two housings 222, when the trigger force on the opening member is removed, the opening member is driven by the normally-open elastic member to return to the release position, and when the trigger force on the opening member is removed, the two housings 222 are closed again under the magnetic force.
In embodiments of the present invention, as shown in fig. 18 and 19, the second toy body 200 further includes a launching assembly 24, in embodiments, the launching assembly 24 directly cooperates with the compartment locking assembly 23, in embodiments, the launching assembly 24 cooperates with the compartment 22, and further, when the compartment 22 is opened, the launching assembly 24 is directly or indirectly triggered to move, and the launching assembly 24 triggers to drive the third toy body 300 to launch from the compartment 22.
Optionally, the launching assembly 24 strikes the third toy body 300 to eject to disengage the second toy body 200 after being triggered.
Alternatively, as shown in fig. 18 and 22, the launching assembly 24 includes a second slider 241 and a third slider 243, the second slider 241 is slidably disposed on the carrier base 21, an end of the second slider 241 extends out of the carrier base 21, the carriage shell 222 pushes the second slider 241 to retract into the carrier base 21 when the carriage 22 is opened, the third slider 243 is also slidably disposed on the carrier base 21, a striking rod 2431 is disposed on the third slider 243, the third slider 243 cooperates with the second slider 241 to lock, and the third slider 243 is released when the second slider 241 retracts into the carrier base 21.
Of course, the second slider 241 and the third slider 243 may also be formed as a member when the two move in the same direction , that is, when the member is triggered, the member impacts the third toy body 300 to move the third toy body 300 away from the carriage 22.
Optionally, as shown in fig. 22, a blocking frame 2411 is formed in the middle of the second slider 241, the middle of the blocking frame 2411 is through from front to back, the third slider 243 is sleeved in the blocking frame 2411, a clamping piece 2432 is formed at the end of the third slider 243, when the second slider 241 is not triggered, the clamping piece 2432 is stopped on the blocking frame 2411, when the second slider 241 is triggered, the clamping piece 2432 is separated from the blocking frame 2411, and the third slider 243 is released.
In examples, as shown in fig. 18 and 19, the launching assembly 24 further includes a second elastic member 242 and a third elastic member 244, the second elastic member 242 drives the second sliding member 241 to slide toward the direction of extending the carrier base 21, the third elastic member 244 is connected to a third sliding member 243, and the released third sliding member 243 slides toward the direction of striking the third toy body 300 by the striking rod 2431 to eject the third toy body 300 out of the carriage 22.
Alternatively, as shown in fig. 19, the sliding direction of the third sliding member 243 is equal to of the driving direction of the second toy body 200, and the sliding direction of the second sliding member 241 is perpendicular to the sliding direction of the third sliding member 243, so that when the second sliding member 241 is triggered to retract, the third sliding member 243 slides to the front side of the second toy body 200, the third sliding member 243 is provided with a striking rod 2431 extending upwards, and the striking rod 2431 strikes on the third toy body 300 to launch the third toy body 300 forwards.
Alternatively, as shown in fig. 16 and 18, a matching opening 211 is formed on the side of the carrier base 21, the end of the second slider 241 extends out of the carrier base 21 from the matching opening 211, as shown in fig. 16, a carriage contact projection 223 is formed on the carriage shell 222, and when the carriage shell 222 is opened, the carriage contact projection 223 is abutted with the end of the second slider 241, so that the second slider 241 slides in the carriage shell 222 and releases the third slider 243.
When the matching opening 211 is opened at the side of the carrying base 21, the second elastic pieces 242 are disposed at the other end of the second sliding piece 241, so that the second sliding piece 241 tends to extend out of the matching opening 211, when the matching openings 211 are opened at both sides of the carrying base 21, the second sliding pieces 241 are divided into two groups at the middle part, and the two groups of the second sliding pieces 241 are respectively connected with the second elastic pieces 242, the end parts of the two groups of the second sliding pieces 241 are respectively extended to the respective matching openings 211, when the carriage 222 at the side or at both sides is opened, the touch projection 223 pushes the second sliding piece 241 to be retracted into the matching opening 211, and releases the third sliding piece 243.
In the embodiments of the present invention, as shown in fig. 17 and 20, the second toy body 200 includes an action member 25, an action elastic member 252 and an action locking device 26, wherein the action member 25 is movably disposed on the carrying base 21, the action elastic member 252 is used for driving the action member 25 to unfold or turn over, the action locking device 26 is used for locking the action member 25 in an initial state, and the action locking device 26 releases the action member 25 after being triggered.
Alternatively, the operation member 25 includes a second flipping member 251, the second flipping member 251 is rotatably disposed at the bottom of the carrying base 21, and the second flipping member 251 contacts the ground to flip the second toy body 200 after the operation locking device 26 releases the second flipping member 251, and the second flipping member 251 may be configured similarly to the aforementioned flipping member 141, that is, the second flipping member 251 is also formed as a flipping plate, and when the second flipping member 251 is released, it is flipped from the front to the rear of the carrying base 21 at an initial state and an end state different by 180 degrees, and forms a support for the second toy body 200 at an end state.
Optionally, as shown in fig. 17, an action elastic member 252 is disposed between the second flipping member 251 and the carrying base 21, when the action elastic member 252 is a torsion spring, an end of the torsion spring is connected to the second flipping member 251, and another end of the torsion spring is connected to the carrying base 21, as shown in fig. 20, the action elastic member 252 drives the second flipping member 251 to move backward, so as to force the second flipping member 251 to stay at the bottom of the carrying base 21, therefore, the arrangement of the action member 25 and the action locking device 26 enhances the dynamic sense of the second toy body 200, when a child observes the second toy body 200, the child can notice the opening and closing and flipping actions of the second toy body 200, so that the second toy body 200 is dynamic, and the play enjoyment of the child is improved.
Alternatively, as shown in fig. 20 and 22, the actuating locking device 26 includes: locking slide 261 and unlocking spring 262. A locking slide 261 is slidably arranged on the carrier base 21 between a locked position, in which the locking slide 261 locks onto the actuator 25, and an unlocked position, in which the locking slide 261 releases the actuator 25, the locking slide 261 cooperating with the firing assembly 24 to remain in the locked position. The unlocking elastic member 262 serves to always drive the locking slide 261 to slide toward the unlocking position.
Optionally, the unlocking elastic member 262 is a spring member, and an end of the unlocking elastic member 262 is connected to the locking slide bar 261, and an end of the unlocking elastic member 262 is connected to the carrier base 21. when the actuation locking device 26 is used to lock the actuation member 25 in the initial state, the unlocking elastic member 262 is in a stretching state, and when the actuation member 25 is released, the unlocking elastic member 262 retracts to drive the locking slide bar 261 to move forward.
Alternatively, as shown in fig. 22, a sliding slot 2611 is disposed at the rear of the locking slide 261, the extending direction of the sliding slot 2611 is consistent with the moving direction of the third sliding member 243, and the end of the third sliding member 243 extends into the sliding slot 2611 to block the locking slide 261 from moving forward (the unlocking position).
Alternatively, as shown in fig. 21 and 22, the front portion of the locking slide 261 is provided with a front lock bar 2612, and the front lock bar 2612 extends out of the carrier base 21 and blocks the front portion of the lift 28 described later, preventing the lift 28 from spreading upward.
Optionally, as shown in fig. 20 and 22, a second locking hook 263 protrudes downwards from the bottom of the locking slide 261, and the second locking hook 263 is engaged with the second flip-flop 251 to lock the second flip-flop 251 in the locking position.
In the embodiments of the present invention, as shown in fig. 19 and 22, the second toy body 200 further includes a damping device 27. in the embodiment, the damping device 27 cooperates with the action member 25 to slow the action of the action member 25. in the embodiment, the damping device 27 cooperates with the action locking device 26 to slow the action of the action member 25.
The damping device 27 is arranged to slow the action of the action member 25, so that the action member 25 is triggered slowly, when the carriage shell 222 on the second toy body 200 is opened, or after the launching assembly 24 is launched, the action member 25 can complete the action, and the situation that the action of the action member 25 influences the action of the carriage shell 222 or the launching assembly 24 is avoided, moreover, the action of each component on the second toy body 200 influences the overall stability, the damping device 27 is arranged to ensure that the front and back actions have time difference, so that the actions of the components can be staggered front and back, and the stability of the action of the second toy body 200 is improved.
Alternatively, as shown in FIG. 22, the damping device 27 comprises a damping gear 271 and a damping rack 272 engaged with each other, the damping rack 272 is disposed on the locking slide 261, and the damping gear 271 is rotatably disposed on the carrier base 21. when the locking slide 261 is released to move forward, the damping rack 272 thereon is engaged with the damping gear 271 to form -determined deceleration, so that the locking slide 261 moves forward slowly.
Alternatively, the damping rack 272 is provided on the second flipping unit 251, the damping gear 271 is rotatably provided on the carrier base 21, and when the second flipping unit 251 is flipped, the damping rack 272 is engaged with the damping gear 271 so that the flipping of the second flipping unit 251 is gentle.
Optionally, damping oil is added into the damping gear 271, so that the damping gear 271 rotates more slowly, and the damping effect is better.
Alternatively, the damping device 27 may be friction strips arranged in parallel, wherein friction strips are arranged on the carrier base 21, friction strips are arranged on the locking slide 261 in the same direction as the moving direction of the locking slide 261, and when the locking slide 261 is released, the friction between the friction strips forces the locking slide 261 to move more smoothly.
Of course, the structure of the damping device 27 in the embodiment of the present invention is not limited to this, for example, a damping spring is connected to the rotation position of the damping gear 271, and the transmission speed is reduced by the spring force. For example, in other solutions disclosed in the prior art, the deceleration operation can also be performed by using a piston with damping oil, which is not limited herein.
In the embodiments of the present invention, as shown in fig. 17 and 21, the second toy body 200 further includes a lifting member 28, and the lifting member 28 can be unfolded or turned with respect to the carrying base 21.
Optionally, as shown in fig. 21, the lifting member 28 is rotatably connected to the surface of the carrier substrate 21, a third joint 281 (magnet) is provided at the front side of the lifting member 28, the lifting member 28 is provided with a through-going opening 282 along the front-back direction, the hatch trigger head 232 at the front end of the sliding member 231 extends out of the opening 282 to the outside of the carrier substrate 21, when the hatch trigger head 232 is not triggered, the hatch trigger head 232 extends out of the opening 282, and when the hatch trigger head 232 is triggered, the hatch trigger head 232 retracts into the carrier substrate 21 from the opening 282.
Optionally, the bottom of the escape opening 282 is open so that the lift 28 may protrude from the escape opening 282 when flipped up.
Alternatively, as shown in fig. 19, the side end of the lifting member 28 is provided with a stopping groove 283, the aforementioned front lock bar 2612 extends into the stopping groove 283, and when the locking slide bar 261 is triggered to move forward to be out of the stopping groove 283, the lifting member 28 is turned upwards and backwards.
In the embodiments of the present invention, as shown in fig. 1, 2 and 3, the toy set 1000 further comprises a second polyhedral toy 500, wherein the second polyhedral toy 500 is combined with a third combination portion 281 to trigger the second toy body 200 to move, i.e. the second polyhedral toy 500 is also used as a combination while being used as a trigger, triggers the second toy body 200 to expand, is combined with the second toy body 200 to form a combination, and when the second toy body 200 deforms, components are used as the second toy body 200, and the second polyhedral toy 500 completes the deformation.
Similar to the -th polyhedral toy 400 described above, the second polyhedral toy 500 has a polyhedral shape and an expanded shape, and the second polyhedral toy 500 changes from the polyhedral shape to the expanded shape when it collides with the second toy body 200.
In examples, the third joining portion 281 is joined to the second polyhedron toy 500, and triggers the deformation of the second polyhedron toy 500 and the deformation and turning of the second toy body 200, respectively.
Of course, in the examples of the present invention, as shown in fig. 2 and 3, and fig. 31, 32, 33, and 34, the second polyhedron toy 500 itself is also used as types of independently transformable toy bodies.
As shown in fig. 31, the second polyhedral toy 500 is folded in a polyhedral shape (e.g., substantially cubic shape) before being transformed, and as shown in fig. 33, the second polyhedral toy 500 is unfolded to form a seated person after being transformed. Referring to fig. 31 and 32, the second polyhedral toy 500 includes a second polyhedral coupling portion 51, an extension portion 52, and an extension locking portion 54, and the extension locking portion 54 locks the extension portion 52 to the second polyhedral coupling portion 51.
As shown in fig. 32 and 34, the second multi-surface combining part 51 is provided with a fifth combining part 511 which is matched with the third combining part 281, and the fifth combining part 511 may be a magnet or a magnetic connecting piece made of a magnetic material.
Alternatively, as shown in fig. 31 and 32, the second multi-faced combining part 51 is provided with a second triggering opening 512, an end of the extension locking part 54 is formed as a second combined contact 541, the second combined contact 541 can extend or retract from the second triggering opening 512, as shown in fig. 32, the other end of the extension locking part 54 is formed as an extension hook 542, and the extension hook 542 is in fit connection with the extension part 52.
Optionally, as shown in fig. 32 and 34, the extending portion 52 includes an extending protrusion 5221, an extending bayonet 513 is disposed on the multi-faced coupling portion 51, the extending protrusion 5221 and the extending hook 542 are both located in the extending bayonet 513, the end of the extending protrusion 5221 contacts with the extending hook 542, the other end of the extending protrusion 5221 is disposed with a second variable elastic element 53, when the second body contact 541 is retracted, the extending hook 542 pushes the extending protrusion 5221 out of the extending bayonet 513, and the second variable elastic element 53 stores energy and releases energy to enable the extending protrusion 5221 to extend from the second multi-faced coupling portion 51.
Alternatively, as shown in fig. 31 and 33, the stretching part 52 includes a th stretching part 521 and a second stretching part 522, wherein the th stretching part 521 can be rotated and unfolded relative to the second multi-faced combining part 51, the second stretching part 522 can also be rotated and unfolded relative to the second multi-faced combining part 51, and the th stretching part 521 and the second stretching part 522 are respectively unfolded from different directions.
Alternatively, as shown in fig. 32 and 33, an extension latch 5222 is disposed at the end of the second extension 522, when the second polyhedral toy 500 is in a polyhedral shape, the extension latch 5222 stops at the extension 521 at , and when the second polyhedral toy 500 is unfolded, the extension latch 5222 releases the extension 521 at .
Thus, when the second polyhedral toy 500 and the second toy body 200 are combined, they are respectively used as triggers of each other to form a preliminary trigger, so that the second polyhedral toy 500 is deformed, the second toy body 200 is also deformed, and finally a combined variant is formed, the structure of which is specifically shown in fig. 6.
It should be noted that the -th toy body 100 and the -th polyhedral toy body 400 can be combined with the second polyhedral toy body 500 and the second polyhedral toy body 200, i.e., the -th polyhedral toy body 400 and the second polyhedral toy body 500 can be combined with the -th toy body 100 and the second polyhedral toy body 200 as triggering parts and connectors to trigger deformation.
In the embodiments of the present invention, as shown in fig. 4, the toy suit 1000 further includes a third toy body 300, the third toy body 300 includes a second combining portion 311, the second combining portion 311 is disposed corresponding to the rear combining portion 112. as mentioned above, the launching assembly 24 drives the third toy body 300 to eject out to separate from the second toy body 200 after being triggered, the ejected third toy body 300 is combined to the rear combining portion 112 through the second combining portion 311. the second combining portion 311 may be a magnet or a magnetic connecting member, and the second combining portion 311 may also be a fastener, etc.
As shown in fig. 23 and 25, the third toy body 300 is switchable between an original form and a combined form, the third toy body 300 comprises a combined body 31, a change body 32 and a change locking device 34, wherein the second combining part 311 is arranged on the combined body 31, the change body 32 is rotatably connected on the combined body 31, the change locking device 34 is used for locking the change body 32 in the original form, when the third toy body 300 is combined with the -th toy body 100, the -th toy body 100 triggers the change locking device 34 to unlock, namely, the -th toy body 100 and the third toy body 300 can be combined to form a combined body, and the -th toy body 100 can trigger the third toy body 300 to unlock and deform.
Optionally, the third toy body 300 further comprises a varying elastic member (not shown) coupled between the coupling body 31 and the varying body 32 to drive the varying body 32 to rotate toward the coupled configuration, in some embodiments of , the varying elastic member is a torsion spring.
Optionally, an end of the change-locking device 34 extends outside the combination body 31 to form a change contact 341, another end of the change-locking device 34 forms a locking rod 342, the locking rod 342 is locked on the change body 32, the change-locking device 34 can slide back and forth relative to the combination body 31, when the third toy body 300 is combined with the toy body 100, the change contact 341 is pushed into the combination body 31, and the locking rod 342 releases the change body 32.
In , the variable body 32 is formed with a notch 321, and when in the original state, the locking rod 342 is snapped into the notch 321 to form a locking relationship.
Optionally, as shown in fig. 24 and 26, a locking elastic member 33 is connected between the change locking device 34 and the combination body 31, and when the change locking device 34 moves into the combination body 31, the locking elastic member 33 is compressed to store energy, so that the change locking device 34 can recover to the original state in time after the third toy body 300 is released.
Alternatively, as shown in fig. 23 and 25, the change body 32 includes a change main body 322 and a change auxiliary body 323, a change elastic member is disposed between the change main body 322 and the combination body 31, the change main body 322 is rotatable relative to the combination body 31, the change auxiliary body 323 is rotatably connected to the change main body 322, in an original state, both the change main body 322 and the change auxiliary body 323 are locked by the change locking device 34, after the change locking device 34 is unlocked, the change main body 322 and the change auxiliary body 323 are released, the change main body 322 rotates upward relative to the combination body 31, and the change auxiliary body 323 rotates and unfolds relative to the change main body 322.
Alternatively, as shown in fig. 25, the change locking device 34 is provided with a limiting rod 343 extending toward the wheel, and in the original state, the limiting rod 343 is locked on the change sub body 323.
Optionally, the combination body 31 is provided with wheels 35, and the change sub-body 323 is also provided with wheels 35, so that the third toy body 300 can slide after being launched.
In other embodiments of the present invention, it may be configured that the third toy body 300 itself is not deformed after the th toy body 100 is combined with the third toy body 300, but the th toy body 100 is deformed to form another figure with the third toy body 300.
The utility model discloses specific embodiment's play method is as follows:
as shown in fig. 1, the th toy body 100 and the second toy body 200 are formed as a combination body, and the third toy body 300 is installed in the second toy body 200. the second polyhedral toy 500, the th polyhedral toy 400, and the combination body are arranged in this order from front to back.
As shown in fig. 1 and 2, the combination body formed by the th toy body 100 and the second toy body 200 is pushed to the th polyhedral toy 400, the 0 th front combination part 111 at the front part of the combination body is combined with the 1 st polyhedral toy 400, the 2 th polyhedral toy 400 becomes the 4 part of the 3 th toy body 100, the trigger component 13 of the th toy body 100 is triggered, and the th toy body 100 and the second toy body 200 are split into two independent toy bodies, the switching piece 14 and the switching locking device 15 of the th toy body 100 are sequentially triggered, so that the th toy body 100 advances towards the direction far away from the second toy body 200 for a distance of , and the th switching piece 141 is simultaneously turned over, so that the th toy body 100 and the th polyhedral toy body 400 jump over the second polyhedral toy 500 in front.
As shown in fig. 3, while the th toy body 100 is activated, the wing latches 44 of the th polyhedral toy 400 are unlocked to deform the th polyhedral toy 400, and when the th toy body 100 is landed, the retraction assembly 16 of the th toy body 100 brings the th polyhedral toy 400 to be fully deployed upward, and the th toy body 100 and the st polyhedral toy 400 are both formed in a final deformed state.
Next, the second toy body 200 is moved forward and contacted to the second polyhedral toy 500, so that the second toy body 200 is combined with the second polyhedral toy 500, whereby the second polyhedral toy 500 and the second toy body 200 are triggered by each other, as shown in fig. 6, the second polyhedral toy 500 is unfolded to be formed in a human shape, the box 22 of the second toy body 200 is opened, and the inside third toy body 300 is launched by the launching assembly 24 to slide forward. The second toy body 200 is turned 360 degrees by the second turning member 251, the lifting member 28 is unfolded after the second toy body 200 is landed, and the second polyhedral toy 500 is rotated upward along with the lifting member 28 to complete the deformed shape.
Finally, the third toy body 300 slides forward and is combined with the th rear combination part 112, as shown in fig. 5, the third toy body 300 is combined at the rear of the th toy body 100, and the third toy body 300 is triggered to open into a standing figure.
When the splitting is needed, only the magnetic force at the joint needs to be overcome, so that the third toy body 300, the th polyhedral toy 400 and the th toy body 100 can be split, the second toy body 200 and the second polyhedral toy 500 can be split, fixed pressure is respectively applied to each toy body, each toy body is reset, and of course, the th toy body 100 and the second toy body 200 can be connected again.
The utility model discloses there are multiple division and the mode of combination between 1000 individual toys of toy suit, form multiple trigger mode and deformation result, the method of playing is novel, and each toy body is abundant at deformation in-process action, and is interesting strong.
In describing the present invention, the features defined as "", "second", "third", "fourth", "fifth", etc. may explicitly or implicitly include or more such features for distinguishing between descriptive features, whether sequential or lightweight, the terms "mounted", "connected", and "connected" should be construed to mean, for example, either fixedly connected, detachably connected, or physically connected, mechanically connected, electrically connected, directly connected, indirectly connected through an intermediate medium, and communicating between two elements.
In the description herein, references to the terms "embodiment," "example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least embodiments or examples of the invention.
While embodiments of the present 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 (15)

1, A splittable combination toy playset, comprising:
toy body, wherein the toy body comprises a body, a conjoined component and a trigger component, the conjoined component is arranged on the body, the conjoined component can move between a conjoined state and a disassembled state, the trigger component is arranged on the body, the end of the trigger component is matched with the conjoined component, and the trigger component drives the conjoined component to move towards the disassembled state after being triggered;
the second toy body is provided with a carriage body, and a third toy body is suitable to be installed in the carriage body; wherein the conjoined assembly is coupled with the second toy body in the conjoined state, and releases the second toy body in the disassembled state.
2. The splittable combination toy playset of claim 1, wherein the second toy body comprises:
the carriage body is arranged on the carrying base body in an openable and closable manner;
the compartment locking assembly is used for locking the compartment body, and the compartment locking assembly releases the compartment body after being triggered so that the compartment body is opened.
3. The splittable combination toy playset of claim 1, wherein the playset body comprises:
the conversion piece is movably arranged on the body;
the conversion elastic piece is used for driving the conversion piece to unfold or turn over;
the conversion locking device is used for locking the conversion piece in an initial state, and the conversion locking device releases the conversion piece after being triggered.
4. The splittable combination playset of claim 3, wherein the toggle member comprises an -th flip member disposed at the bottom of the body, and wherein the toggle locking device is configured to release the -th flip member to allow the -th flip member to flip over and the -th toy body to flip over.
5. The splittable combination toy set of claim 1, wherein the toy body further comprises a front binding portion, the toy set further comprising a polyhedral toy, the polyhedral toy being coupled to the front binding portion to activate the trigger assembly.
6. The splittable combination toy playset of claim 1, wherein the second toy body has a launching assembly that, upon activation, strikes the third toy body to launch to disengage the second toy body.
7. The splittable combination toy playset of claim 6, wherein the second toy body comprises:
the carriage body is arranged on the carrying base body;
an actuator movably disposed on the carrier substrate;
the action elastic piece is used for driving the action piece to unfold or turn over;
the action locking device is used for locking the action piece in an initial state, and releases the action piece after being triggered.
8. The splittable combination toy kit of claim 7, wherein the action locking device comprises:
a locking slide bar slidably disposed on the carrier substrate between a locked position and an unlocked position, the locking slide bar cooperating with the firing assembly to remain in the locked position, the locking slide bar being locked to the actuation member in the locked position, the locking slide bar releasing the actuation member in the unlocked position;
and the unlocking elastic piece is used for normally driving the locking slide rod to slide towards the unlocking position.
9. The split playset of claim 8, further comprising: the damping device is matched with the action piece or the action locking device to slow down the action of the action piece.
10. The split playset of claim 9, wherein the damping device comprises: the damping gear and the damping rack are meshed, the damping rack is arranged on the locking slide rod, and the damping gear is rotatably arranged on the carrying base body.
11. The split stack toy playset of claim 7, wherein the actuation member comprises:
and the second overturning piece is rotatably arranged at the bottom of the carrying base body, and after the action locking device releases the second overturning piece, the second overturning piece touches the ground to enable the second toy body to be emptied and overturned.
12. The splittable combination toy playset of claim 6, wherein the toy body further comprises a rear engaging portion, wherein the third toy body is provided with a second engaging portion, wherein the launching assembly, upon activation, drives the third toy body to launch to disengage the second toy body, and wherein the launched third toy body is engaged to the rear engaging portion via the second engaging portion.
13. The splittable combination toy playset of claim 12, wherein the third toy body is switchable between an original configuration and a coupled configuration, the third toy body comprising:
the second combination part is arranged on the combination body;
the change body is rotatably connected to the combined body;
the change elastic piece is connected between the combination body and the change body so as to drive the change body to rotate towards the combination form;
the change locking device is used for locking the change body in the original form, and when the third toy body is combined with the th toy body, the th toy body triggers the change locking device to unlock.
14. The splittable combination toy playset of claim 5, wherein the second toy body further comprises: a third interface, the toy playset further comprising: a second polyhedral toy which triggers the second toy body to move when being combined with the third combining part.
15. The split stack toy set of claim 14, wherein the -th and second polyhedral toys have polyhedral shapes and deployed shapes, and the -th and second polyhedral toys change from polyhedral shapes to deployed shapes when colliding with the -th and second toy bodies, respectively.
CN201920361928.0U 2019-03-20 2019-03-20 Split combined toy suit Expired - Fee Related CN209997191U (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110270110A (en) * 2019-03-20 2019-09-24 奥飞娱乐股份有限公司 The toy suit of combination can be divided
WO2020187087A1 (en) * 2019-03-20 2020-09-24 奥飞娱乐股份有限公司 Toy set

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110270110A (en) * 2019-03-20 2019-09-24 奥飞娱乐股份有限公司 The toy suit of combination can be divided
WO2020187087A1 (en) * 2019-03-20 2020-09-24 奥飞娱乐股份有限公司 Toy set
WO2020187089A1 (en) * 2019-03-20 2020-09-24 奥飞娱乐股份有限公司 Toy set capable of being split and combined
CN110270110B (en) * 2019-03-20 2024-06-07 奥飞娱乐股份有限公司 Toy suit capable of splitting and combining

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