CN110270114A - The monomer toy of combination can be divided and the toy suit of combination can be divided - Google Patents

The monomer toy of combination can be divided and the toy suit of combination can be divided Download PDF

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Publication number
CN110270114A
CN110270114A CN201811643050.6A CN201811643050A CN110270114A CN 110270114 A CN110270114 A CN 110270114A CN 201811643050 A CN201811643050 A CN 201811643050A CN 110270114 A CN110270114 A CN 110270114A
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CN
China
Prior art keywords
toy
trigger
assembly
coupling
component
Prior art date
Legal status (The legal status 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 status listed.)
Granted
Application number
CN201811643050.6A
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Chinese (zh)
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CN110270114B (en
Inventor
李德铭
江政潮
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Guangdong Original Power Culture Communication Co Ltd
Alpha Group Co Ltd
Guangzhou Alpha Culture Co Ltd
Original Assignee
Guangdong Original Power Culture Communication Co Ltd
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.)
Filing date
Publication date
Application filed by Guangdong Original Power Culture Communication Co Ltd, Alpha Group Co Ltd, Guangzhou Alpha Culture Co Ltd filed Critical Guangdong Original Power Culture Communication Co Ltd
Priority to CN201811643050.6A priority Critical patent/CN110270114B/en
Publication of CN110270114A publication Critical patent/CN110270114A/en
Application granted granted Critical
Publication of CN110270114B publication Critical patent/CN110270114B/en
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Classifications

    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63HTOYS, e.g. TOPS, DOLLS, HOOPS OR BUILDING BLOCKS
    • A63H33/00Other toys
    • A63H33/003Convertible toys, e.g. robots convertible into rockets or vehicles convertible into planes

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  • Toys (AREA)

Abstract

The monomer toy of combination can be divided the invention discloses one kind and can divide the toy suit of combination, and the monomer toy for dividing combination includes: ontology;Conjuncted component, the conjuncted component is set on the body, the conjuncted component is movable between conjuncted state and disintegration state, the conjuncted component is for being coupled outer toy body under conjuncted state, for the conjuncted component for being detached from the outer toy body, the conjuncted component is configured to the conjuncted state activity of Chang Chaoxiang under disintegration state;Trigger assembly, the trigger assembly are set on the body, and one end of the trigger assembly and the conjuncted component cooperate, and the trigger assembly drives the conjuncted component towards disintegration state activity in a triggered.The monomer toy according to an embodiment of the present invention for dividing combination, playing method is novel, interest is strong.

Description

Split combined single toy and split combined toy suit
Technical Field
The invention relates to the technical field of toys, in particular to a split combined single toy and a split combined toy suit.
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 split combined single toy which is novel in playing method and high in interestingness.
The invention also provides a splittable toy set with the splittable toy monomers.
A splittable combination toy building block according to an embodiment of the first aspect of the invention comprises: a body; a conjoined assembly provided on the body, the conjoined assembly being movable between a conjoined state for coupling with an external toy body and a disassembled state for disengaging from the external toy body, the conjoined assembly being configured to be constantly movable toward the conjoined state; the trigger assembly is arranged on the body, one end of the trigger assembly is matched with the conjoined assembly, and the trigger assembly drives the conjoined assembly to move towards a disassembly state after being triggered.
The split combined single toy provided by the embodiment of the invention has the advantages of strong action sense, novel playing method and strong interest.
In addition, the splittable toy building block according to embodiments of the invention may have the following additional features:
according to an embodiment of the present invention, the splittable combination toy monoblock further comprises: a coupling component at least partially located on a surface of the unitary toy, the coupling component for coupling with an external trigger and/or for coupling with another unitary toy; wherein the trigger triggers the trigger assembly upon impact with the trigger assembly.
According to one embodiment of the invention, the coupling assembly comprises: a first coupling portion for coupling the trigger to the outside; a second coupling portion for being coupled with the coupled body assembly of the other toy monoblock.
According to one embodiment of the invention, a magnetic attraction piece for attracting the trigger is arranged on the combination component.
According to an embodiment of the present invention, the coupling component includes a movable outer touch plate, the first coupling portion is disposed on the outer touch plate, the triggering component cooperates with the outer touch plate to lock the outer touch plate, the triggering component is triggered when colliding with the trigger, the triggered triggering component releases the outer touch plate, and the outer touch plate can drive the trigger coupled to the first coupling portion to move.
According to one embodiment of the invention, the coupling assembly further comprises: the folded sheet, the folded sheet rotates to be connected on the body, outer touch panel rotates to be connected on the folded sheet, outer touch panel quilt be located when triggering the subassembly locking the front side of monomer toy, outer touch panel quilt trigger the subassembly release back the folded sheet drives outer touch panel removes the top of monomer toy.
According to an embodiment of the present invention, further comprising: the turnover plate is rotatably arranged at the bottom of the single toy, the trigger assembly is matched with the turnover plate to lock the turnover plate, and the trigger assembly releases the turnover plate after triggering to enable the turnover plate to beat the ground and the single toy to be emptied and turned over.
According to one embodiment of the invention, the trigger assembly comprises a plurality of trigger slide bars, the trigger slide bars are linked, and at least two trigger slide bars are in locking fit with the turnover plate.
According to one embodiment of the invention, the conjoined assembly comprises connecting hooks arranged in pairs, each connecting hook is rotatably connected to the body, two connecting hooks in a pair are configured to rotate towards a closed direction, and the trigger assembly pushes the two connecting hooks in a pair to rotate towards an open direction after being triggered.
According to an embodiment of the present invention, the first coupling portion and the second coupling portion are located at the same place of the one-piece toy where the one-piece toy can be coupled with only one of the trigger and the other one-piece toy.
According to one embodiment of the invention, the body comprises: a base; a stowable and deployable assembly, the stowable and deployable assembly being connected to the base; the locking device is used for locking the folding and unfolding assembly and is connected with the trigger assembly, and the locking device releases the folding and unfolding assembly after the trigger assembly is triggered so as to enable the folding and unfolding assembly to be unfolded and deformed.
A splittable combination toy playset according to an embodiment of the second aspect of the invention, comprising: a first individual toy which is a splittable combination individual toy according to an embodiment of the above first aspect of the invention, wherein the conjoined component in the first individual toy is a first conjoined component, and the trigger component in the first individual toy is a first trigger component; the second single toy is provided with a second combination component; wherein the second coupling component mates with the first connector component, and the first connector component releases the second coupling component after the first trigger component is triggered.
The toy suit capable of being split and combined according to the embodiment of the invention has the advantages of strong action sense, novel playing method and strong interestingness.
In addition, the splittable combination toy playset according to embodiments of the invention may also have the following additional features:
according to one embodiment of the invention, a second trigger assembly and a second turnover plate are arranged on the second single toy, and one end of the second trigger assembly extends to the second combination assembly; the second turnover plate is rotatably arranged at the bottom of the second single toy, the second trigger assembly is matched with the second turnover plate to lock the second turnover plate, and the second trigger assembly releases the second turnover plate to enable the second turnover plate to beat the ground and the second single toy to turn empty.
According to one embodiment of the invention, a first turnover plate is arranged on the first toy block and is rotatably arranged at the bottom of the first toy block, the first trigger assembly is matched with the first turnover plate to lock the first turnover plate, and after being triggered, the first trigger assembly releases the first turnover plate to enable the first turnover plate to flap and the first toy block to be emptied and turned over; wherein the direction of the first toy cell which is emptied and overturned when the first overturning plate is released is opposite to the direction of the second toy cell which is emptied and overturned when the second overturning plate is released.
According to one embodiment of the invention, the first single toy is triggered when colliding with a trigger, the second single toy is triggered when colliding with the trigger, and the trigger is a coin or polyhedron; when the trigger is a polyhedron, the polyhedron has a polyhedron form and an expanded form, and the polyhedron changes from the polyhedron form to the expanded form when colliding with the first toy cell or the second toy cell.
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 a splittable combination toy construction according to one embodiment of the invention;
FIG. 2 is another perspective view of the split-combination toy building set shown in FIG. 1;
FIG. 3 is a cross-sectional view of the split stack unitary toy shown in FIG. 1;
FIG. 4 is a schematic view of a portion of the structure of the split stack toy unitary body shown in FIG. 1;
FIG. 5 is a schematic view of a portion of the structure of the split-able multi-piece toy shown in FIG. 1;
FIG. 6 is a schematic view of a portion of the structure of the split stack toy unitary body shown in FIG. 1;
FIG. 7 is a schematic view of a portion of the structure of the split stack toy unitary body shown in FIG. 1;
FIG. 8 is a schematic view of a portion of the structure of the split stack toy unitary body shown in FIG. 1;
FIG. 9 is a schematic view of the split stack toy unitary body shown in FIG. 1 after being inverted and deformed;
FIG. 10 is a cross-sectional view of the splittable combination unitary toy of FIG. 9;
FIG. 11 is a schematic view of a splittable combination toy monoblock according to another embodiment of the invention;
FIG. 12 is a cross-sectional view of the splittable combination toy monoblock shown in FIG. 11;
FIG. 13 is a schematic partial structural view of the splittable combination toy construction shown in FIG. 11;
FIG. 14 is a schematic view of the split stack toy unitary body shown in FIG. 11 after being inverted and deformed;
FIG. 15 is a cross-sectional view of the splittable combination unitary toy of FIG. 14;
FIG. 16 is a schematic illustration of a splittable combination toy playset assembly according to an embodiment of the invention;
figure 17 is an exploded view of the split combination toy playset shown in figure 16;
FIG. 18 is a schematic view of the play of the split combination toy playset shown in FIG. 16;
FIG. 19 is a schematic view of the play of the split combination toy playset shown in FIG. 16;
FIG. 20 is a schematic view of the play of the split combination toy playset shown in FIG. 16;
fig. 21 is a state view of the first unitary toy of fig. 16 after impact with a trigger;
FIG. 22 is a cross-sectional view of the structure shown in FIG. 21;
fig. 23 is a state view of the second toy cell of fig. 16 after collision with a trigger;
FIG. 24 is a cross-sectional view of the structure shown in FIG. 23;
FIG. 25 is a schematic view of a trigger according to one embodiment of the present invention, wherein the trigger is polyhedral and in the form of a polyhedron;
FIG. 26 is a schematic view of another angle of the trigger shown in FIG. 25;
FIG. 27 is a schematic view of yet another angle of the trigger shown in FIG. 25;
FIG. 28 is a schematic view of a portion of the trigger shown in FIG. 25;
FIG. 29 is a schematic view of a portion of the trigger shown in FIG. 25;
FIG. 30 is a schematic view of the trigger shown in FIG. 25 in a deployed configuration;
FIG. 31 is a schematic view of another angle of the trigger shown in FIG. 30.
Reference numerals:
a one-piece toy 100;
a body 1; a base 11; a rotating link 111;
a stow and deploy assembly 12; an engaging portion 121; a body part 122; a head 123; a front leg foot 124; rear leg 125; a first foot guard 126; a second toe guard 127; a mover 128; the return spring 129;
a locking device 13; a clip portion 131; the abutment block 132;
a conjoined assembly (connecting hook) 2; an abutting portion 21;
a trigger assembly 3; a trigger slide bar 31; a hook 310;
a first trigger slide bar 311; a first hook 3111; a reset protrusion 3112;
a second trigger slide bar 312; a second hook 3121;
a third trigger slide bar 313;
a trigger section 301;
a bonding element 4; a first coupling portion (magnetic member) 41; a second engaging portion (connecting hole portion) 42; an outer touch panel 43; a folding plate 44;
a turnover plate 5; a chucking hole 51; a first card hole 52; the second chucking hole 53; a dial 54;
a toy playset 200;
a first one-piece toy 6;
a second individual toy 7;
a trigger 8; a touch unit 811; a card slot 8111; a top block 8112;
a locking unit 812; a card bar 8121; a retention spring 8122;
a lower body member 82; an upper body member 83; a head member 84; an upper limb 85; the magnet 86 is fixed.
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 to fig. 1 to 15, a splittable combination toy monoblock 100 according to an embodiment of the present invention will be described.
Referring to fig. 1 to 15, a splittable combination toy cell 100 according to an embodiment of the present invention includes: body 1, conjuncted component 2 and trigger component 3.
The conjoined assembly 2 is arranged on the body 1, the conjoined assembly 2 is movable between a conjoined state and a disassembly state, the conjoined assembly 2 is used for being connected with an external toy body in the conjoined state, the conjoined assembly 2 is used for being separated from the external toy body in the disassembly state, the conjoined assembly 2 is constructed to move towards the conjoined state, the trigger assembly 3 is arranged on the body 1, one end of the trigger assembly 3 is matched with the conjoined assembly 2, and the trigger assembly 3 drives the conjoined assembly 2 to move towards the disassembly state after being triggered.
Specifically, when the coupled body assembly 2 is in the coupled state, the coupled body assembly 2 is coupled with the external toy body, thereby combining the unit toy 100 with the external toy body, and when the coupled body assembly 2 is in the disassembled state, the coupled body assembly 2 is separated from the external toy body, thereby splitting the unit toy 100 from the external toy body.
When a player plays the single toy 100, the conjoined assembly 2 of the single toy 100 is firstly connected with an external toy body, so that the single toy 100 is combined with the external toy body, then the trigger assembly 3 is triggered, and the trigger assembly 3 drives the conjoined assembly 2 to move towards a disassembly state after being triggered, so that the conjoined assembly 2 is separated from the external toy body, and the single toy 100 and the external toy body are split.
It should be noted that the "external toy body" described in the present application refers to any toy body that can be coupled to or decoupled from the conjoined assembly 2.
In addition, in the present application, the triggering manner of the triggering component 3 is not limited, for example, the triggering component 3 may be triggered by hitting the trigger 8; or the trigger component 3 is triggered by a program set in the toy cell 100, for example, a spring is arranged in the toy cell 100, and the spring releases during walking to trigger the trigger component 3; alternatively, the toy cell 100 is provided with a solenoid valve, and the solenoid valve can trigger the trigger assembly 3 after being remotely controlled, and the like.
According to the separable and combinable single-body toy 100 provided by the embodiment of the invention, after the trigger component 3 is triggered, the single-body toy 100 and an external toy body can be switched from the combination state to the splitting state, so that the action sense is strong, the playing method is novel, and the interestingness is strong.
In one embodiment of the present invention, as shown in fig. 1 to 10, the conjoined assembly 2 includes coupling hooks 2 arranged in pairs, each coupling hook 2 is rotatably coupled to the body 1, the two coupling hooks 2 in a pair are configured to rotate toward a closed direction, and the trigger assembly 3 pushes the two coupling hooks 2 in a pair to rotate toward an open direction after being triggered. At this time, two opposite connecting hole sites 42 may be disposed on the external toy body, and the two connecting hooks 2 are hooked in the two connecting hole sites 42, respectively, so as to couple the single toy 100 and the external toy body together, after the trigger assembly 3 is triggered, the trigger assembly 3 pushes the two paired connecting hooks 2 to rotate toward the opening direction, and the two connecting hooks 2 are separated from the two connecting hole sites 42, respectively, so as to split the single toy 100 and the external toy body.
Wherein, the rotation junction of coupling hook 2 and body 1 can be equipped with the elastic component (for example torsional spring) that makes two coupling hooks 2 rotate towards the direction of foling, and when triggering component 3 was triggered and promoted two coupling hooks 2 in pairs and rotate towards the direction of opening, the elastic component warp the energy storage, and after triggering component 3 resets, the elastic component energy release drives two coupling hooks 2 and rotates towards the direction of foling.
Further, as shown in fig. 7 to 8, the connecting hook 2 is provided with an abutting portion 21 abutting against the trigger assembly 3, and when the trigger assembly 3 is triggered, the trigger assembly 3 rotates the connecting hook 2 by pushing the abutting portion 21.
It is to be understood that the coupling hook 2 of the present disclosure is only an alternative embodiment, and the coupling hook 2 of the present disclosure is not limited to the coupling hook 2 described above, and may be, for example, a magnet or the like that can attract an external toy body.
The conjoined assembly 2 may be provided on any side of the body 1 of the unitary toy 100, for example, the conjoined assembly 2 may be provided on a front side, a rear side (as shown in fig. 1-15), a left side, or a right side of the body 1. When the front side of body 1 can be located to conjuncted subassembly 2, conjuncted subassembly 2 can be played the body with the outside and connect the front side at toy monomer 100, when conjuncted subassembly 2 can locate the rear side of body 1, conjuncted subassembly 2 can be played the body with the outside and connect the rear side at toy monomer 100, when conjuncted subassembly 2 can locate the left side of body 1, conjuncted subassembly 2 can be played the body with the outside and connect the body in toy monomer 100's left side, when conjuncted subassembly 2 can locate the right side of body 1, conjuncted subassembly 2 can be played the body with the outside and connect the right side at toy monomer 100.
In one embodiment of the present invention, the splittable combination toy cell 100 further includes a coupling member 4, the coupling member 4 being at least partially located on a surface of the toy cell 100, the coupling member 4 being configured to couple with an external trigger 8 and/or to couple with another toy cell 100; wherein the trigger 8 triggers the triggering assembly 3 upon collision with the triggering assembly 3. The following specific embodiments are included herein: the coupling assembly 4 is used only for coupling with an external trigger 8; or the coupling member 4 is used only for coupling another one-piece toy 100; or the coupling member 4 is used to couple the external trigger 8 and another one-piece toy 100. The unit toy 100 is made more novel and interesting by providing the coupling member 4 for coupling the external trigger 8 and/or for coupling another unit toy 100.
It should be noted that, in the above-mentioned embodiment, the trigger 8 may trigger the trigger component 3 when colliding with the trigger component 3, and the trigger 8 may also be coupled to the coupling component 4, wherein the order of triggering the trigger component 3 and coupling the trigger 8 to the coupling component 4 for the trigger 8 may be arbitrary, for example, in some examples, the trigger 8 may collide with the trigger component 3 to trigger the trigger component 3 while being coupled to the coupling component 4; in some examples, trigger 8 may be coupled to coupling member 4 prior to impacting with trigger member 3 to trigger member 3; in some examples, trigger 8 may first impact trigger assembly 3 to trigger assembly 3 and then bond to coupling assembly 4.
Optionally, when the combining component 4 can be used to combine an external trigger 8, a magnetic attraction piece 41 (e.g., a magnet) for attracting the trigger 8 is disposed on the combining component 4, the combining component 4 combines the trigger 8 through magnetic attraction, and the structure is simple, the combination is stable and reliable, and the trigger 8 is not easily dropped from the combining component 4 after being combined.
Further, as shown in fig. 11 to 15, when the coupling member 4 is used to couple the external trigger 8 and another one-piece toy 100, the coupling member 4 includes a first coupling portion 41 and a second coupling portion 42, the first coupling portion 41 is used to couple the external trigger 8, and the second coupling portion 42 is used to mate with the coupled body member 2 of the other one-piece toy 100. The first combining portion 41 can be formed as the magnetic attracting element 41, and the first combining portion 41 and the trigger 8 are combined through the magnetic attracting action; the second coupling portion 42 is fitted to the connected body assembly 2 of another toy monoblock 100, and when the connected body assembly 2 of another toy monoblock 100 is formed as the above-mentioned coupling hook 2, the second coupling portion 42 is formed as a coupling hole portion 42 to be fitted to the coupling hook 2, and when the connected body assembly 2 of another toy monoblock 100 is formed as a magnet, the second coupling portion 42 is also formed as a magnet, so that the second coupling portion 42 is coupled to the connected body assembly 2 of another toy monoblock 100 by a magnetic attraction.
It will be appreciated that when coupling assembly 4 is used only for coupling with an external trigger 8, as shown in fig. 1-10, coupling assembly 4 includes only the above-described first coupling portion 41, and does not include the above-described second coupling portion 42; when the coupling member 4 is used only for coupling another one-piece toy 100, the coupling member 4 includes only the second coupling portion 42 described above, and does not include the first coupling portion 41 described above (no drawing of this embodiment is given in this application).
In an alternative embodiment of the present invention, the first coupling portion 41 and the second coupling portion 42 are located at the same place of the one-piece toy 100 where the one-piece toy 100 can be coupled with only one of the trigger 8 and the other one-piece toy 100. That is, when the one-piece toy 100 is coupled with the trigger 8 at that place, that place will not be coupled with another one-piece toy 100; when the one-piece toy 100 is coupled with another one-piece toy 100 at that point, the point will not be able to be coupled with the trigger 8, i.e., when the one-piece toy 100 is coupled with another one-piece toy 100 at that point, the trigger assembly 3 will not be triggered by the trigger 8.
It should be noted that the first joining portion 41 and the second joining portion 42 located at the same position of the toy cell 100 include the following two cases:
1) the first joining portion 41 and the second joining portion 42 are the same member.
2) The first coupling portion 41 and the second coupling portion 42 are different members but are located at the same end of the toy cell 100, for example, as shown in fig. 11 to 15, the first coupling portion 41 and the second coupling portion 42 are both located at the front end of the toy cell 100, the first coupling portion 41 is formed as a magnetic attraction member 41 provided at the front side of the front end of the toy cell 100, the second coupling portion 42 is formed as a connection hole portion 42 provided at the left and right sides of the front end of the toy cell 100, and the toy cell 100 can only couple one of the trigger 8 and the other toy cell 100 due to a limited space, that is, when the first coupling portion 41 couples the trigger 8, the second coupling portion 42 cannot couple the other toy cell 100 due to a limited space; when the second coupling portion 42 is coupled to another one-piece toy 100, the first coupling portion 41 may not be coupled to the trigger 8 due to a space restriction.
Alternatively, as shown in fig. 1 to 15, the coupling component 4 includes a movable outer contact plate 43, the first coupling portion 41 is provided on the outer contact plate 43, the trigger component 3 cooperates with the outer contact plate 43 to lock the outer contact plate 43, the trigger component 3 is triggered when colliding with the trigger 8, the triggered trigger component 3 releases the outer contact plate 43, so that the outer contact plate 43 is movable, and when the trigger 8 is coupled to the first coupling portion 41, the outer contact plate 43 can move the trigger 8 coupled to the first coupling portion 41. When trigger 8 collides with trigger component 3 promptly, trigger component 3 is triggered, and trigger component 3 drives conjuncted subassembly and moves towards the state of disintegration so that toy monomer 100 splits apart with the outside toy body, and outer touch panel 43 is released simultaneously, and outer touch panel 43 can drive the activity of trigger 8 that combines on first junction 41, and toy monomer 100 is interesting stronger. Specifically, as shown in fig. 1 to 6 and 11 to 13, the front end of the trigger member 3 extends to the outer contact plate 43, the front end of the trigger member 3 is inserted into the outer contact plate 43, and the trigger member 3 extends to the outer side of the outer contact plate 43 (the front side shown in fig. 1 to 6 and 11 to 13), a portion of the trigger member 3 extending to the outer side of the outer contact plate 43 (the front side shown in fig. 1 to 6 and 11 to 13) forms a trigger portion 301, when the trigger 8 collides with the trigger portion 301 of the trigger member 3 to push the trigger member 3 to move backward, the trigger member 3 moves the connected body member 2 toward the disassembled state, the single body toy 100 is split from the external toy body, and the trigger member 3 is disengaged from the outer contact plate 43 (as shown in fig. 9 to 10 and 14 to 15), the trigger member 3 releases the outer contact plate 43, the outer contact plate 43 is movable, and when the trigger 8 is coupled to the first coupling portion 41, the outer contact plate 43 moves the trigger 8 coupled to the first coupling portion 41 together.
Further, as shown in fig. 1 to 15, the coupling assembly 4 further includes a folding plate 44, the folding plate 44 is rotatably connected to the body 1, the external contact plate 43 is rotatably connected to the folding plate 44, the external contact plate 43 is located at the front side of the toy cell 100 when being locked by the trigger assembly 3 (as shown in fig. 1 to 6 and 11 to 13), the folding plate 44 drives the external contact plate 43 to move to the top of the toy cell 100 when the external contact plate 43 is released by the trigger assembly 3 (as shown in fig. 9 to 10 and 14 to 15), so that the folding plate 44 rotates when the trigger assembly 3 is triggered to move the trigger 8 coupled to the external contact plate 43 from the front side of the toy cell 100 to the top of the toy cell 100, and the action feeling and the enjoyment of the toy cell 100 are enhanced.
The rotating connection between the folding plate 44 and the body 1 is provided with an elastic member (e.g. a torsion spring) which makes the folding plate 44 have a tendency to rotate towards the top of the unitary toy 100, when the external contact plate 43 is locked by the trigger assembly 3 (as shown in fig. 1-6 and 11-13), the elastic member is in a stored energy state, and after the external contact plate 43 is released by the trigger assembly 3, the elastic member releases energy to drive the folding plate 44 to rotate towards the top of the unitary toy 100, so as to drive the external contact plate 43 to move to the top of the unitary toy 100.
In one embodiment of the present invention, as shown in fig. 1-15, the splittable toy monoblock 100 further comprises a flip plate 5, the flip plate 5 is rotatably disposed at the bottom of the monoblock toy 100, the triggering component 3 cooperates with the flip plate 5 to lock the flip plate 5, and the triggering component 3 releases the flip plate 5 to flap the flip plate 5 and turn the monoblock toy 100 empty. After the trigger component 3 is triggered, the toy cell 100 can not only be split with an external toy body, but also be overturned, so that the toy cell 100 has stronger action feeling and higher interest.
In an alternative embodiment of the present invention, the trigger assembly 3 comprises a trigger slide bar 31, the trigger slide bar 31 is movably disposed on the body 1, the trigger slide bar 31 cooperates with the flipping board 5 to lock the flipping board 5, and the one-piece toy 100 has a simple structure.
For example, in the specific example shown in fig. 11 to 15, the triggering assembly 3 includes a triggering slide rod 31, the triggering slide rod 31 is movably disposed on the body 1 along the front-back direction, the front end of the triggering slide rod 31 cooperates with the outer contact plate 43 to lock the outer contact plate 43, the front end of the triggering slide rod 31 extends out of the front side of the outer contact plate 43 to form a triggering portion 301, a downwardly extending hook 310 is disposed below the triggering slide rod 31, a hook hole 51 is disposed on the flip plate 5, the hook 310 is adapted to cooperate with or separate from the hook hole 51, and the rear end of the triggering slide rod 31 cooperates with the conjoined assembly 2 (the connection relationship of the portions is not shown in fig. 11 to 15). When trip 310 and draw-in hole 51 cooperate, the returning face plate 5 is locked in the bottom of toy monomer 100, when the trigger portion 301 that triggers slide bar 31 is triggered, trigger slide bar 31 and move backward, outer touch panel 43 is unlocked and moves about, trigger slide bar 31 and drive conjuncted subassembly 2 and move towards the state of disintegration, so that toy monomer 100 splits apart with outside toy, trigger slide bar 31 and move backward simultaneously and can make trip 310 break away from in the draw-in hole 51, returning face plate 5 is unlocked, returning face plate 5 rotates to clap and drives toy monomer 100 to vacate the upset.
It should be noted that, in the above embodiment, the splitting action between the toy cell 100 and the external toy and the turning action of the toy cell 100 themselves can be performed simultaneously, that is, when the trigger slide rod 31 drives the conjoined assembly 2 to move to the disassembled state, the hook 310 is just completely separated from the inside of the hook hole 51, and the turning plate 5 is unlocked; or optionally, after the splitting action between the toy cell 100 and the external toy occurs, that is, after the splitting action between the toy cell 100 and the external toy is performed, the toy cell 100 performs the flipping action again, that is, when the trigger slide rod 31 drives the connected component 2 to move to the disassembled state, the hook 310 is only separated from a part of the hook hole 51, the hook 310 is not completely separated from the hook hole 51, the flip plate 5 is not completely unlocked, after the splitting action between the toy cell 100 and the external toy occurs, the trigger slide rod 31 continues to move backwards to make the hook 310 completely separate from the hook hole 51, the flip plate 5 is completely unlocked, and the toy cell 100 performs the flipping action.
In another alternative embodiment of the present invention, the triggering assembly 3 comprises a plurality of triggering slide bars 31, the plurality of triggering slide bars 31 are linked, and at least two triggering slide bars 31 are locked and matched on the turnover plate 5. It is to be noted that the term "plurality" as used herein means two or more. When the trigger assembly 3 is triggered, the plurality of trigger slide bars 31 are linked, and the plurality of trigger slide bars 31 matched with the turnover plate 5 are all separated from the turnover plate 5, so that the turnover plate 5 is unlocked. Through making two at least trigger slide bars 31 locking cooperation on returning face plate 5, when all separating with returning face plate 5 a plurality of trigger slide bars 31 of returning face plate 5 complex, returning face plate 5 could the unblock, and the locking of returning face plate 5 is more reliable and more stable.
For example, in the specific example shown in fig. 1-10, the trigger assembly 3 includes three trigger slide bars 31 and respectively a first trigger slide bar 311, a second trigger slide bar 312 and a third trigger slide bar 313, the first trigger slide bar 311, the second trigger slide bar 312 and the third trigger slide bar 313 are respectively arranged on the body 1 in a manner of being capable of moving back and forth, the front end of the first trigger slide bar 311 is matched with the outer touch plate 43 to lock the outer touch plate 43, the front end of the first trigger slide bar 311 extends out of the front side of the outer touch plate 43 to form the trigger portion 301, a first hook 3111 extending downwards is arranged below the first trigger slide bar 311, a second hook 3121 extending downwards is arranged below the second trigger slide bar 312, the second trigger slide bar 312 and the third trigger slide bar 313 are arranged on the rear side of the first trigger slide bar 311, the third trigger slide bar 313 is arranged above the second trigger slide bar 312, the rear end of the first trigger slide bar 311 is respectively abutted against the front end of the second trigger slide bar 312 and the front end of the third trigger slide bar 313, when the first trigger slide bar 311 is triggered to move backwards, the first trigger slide bar 311 pushes the second trigger slide bar 312 and the third trigger slide bar 313 to also move backwards, the rear end of the third trigger slide bar 313 is matched with the conjoined assembly 2, the flip plate 5 is provided with a first clamping hole 52 and a second clamping hole 53 in parallel along the front-back direction, the first clamping hook 3111 can be matched with or separated from the first clamping hole 52, and the second clamping hook 3121 can be matched with or separated from the second clamping hole 53. When the first hook 3111 is engaged with the first engaging hole 52 and the second hook 3121 is engaged with the second engaging hole 53, the flip plate 5 is locked at the bottom of the toy building block 100.
When the trigger portion 301 of the first trigger slide bar 311 is triggered, the first trigger slide bar 311 moves backwards, the external touch plate 43 is unlocked and can move, the first hook 3111 can be disengaged from the first hook hole 52, when the first trigger slide bar 311 moves backwards, the second trigger slide bar 312 and the third trigger slide bar 313 are pushed to move backwards, when the second trigger slide bar 312 moves backwards, the second hook 3121 can be disengaged from the second hook hole 53, when the third trigger slide bar 313 moves backwards, the conjoined assembly 2 can be driven to move towards the disassembled state to split the toy alone 100 from the external toy, when the first hook 3111 is disengaged from the first hook hole 52 and the second hook 3121 is also disengaged from the second hook hole 53, the flip plate 5 can be unlocked and can be flipped.
Also, in this embodiment, the splitting action between the unitary toy 100 and the external toy and the turning action of the unitary toy 100 itself can be performed simultaneously, that is, when the conjoined assembly 2 is moved to the disassembled state, the first hooks 3111 are disengaged from the first locking holes 52, and the second hooks 3121 are also disengaged from the second locking holes 53; or alternatively, after the splitting action between the toy monomers 100 and the external toy occurs, that is, after the splitting action between the toy monomers 100 and the external toy is performed, the toy monomers 100 perform the turning action again, that is, when the connected component 2 is moved to the disassembled state, the first hook 3111 is disengaged from the first hook hole 52, the second trigger slide bar 312 moves backward only a part of the second hook 3121 is disengaged from the second hook hole 53 only, the second hook 3121 is not completely disengaged from the second hook hole 53, that is, the second hook 3121 and the second hook hole 53 are only partially unlocked, and after the splitting action between the toy monomers 100 and the external toy occurs, the first trigger slide bar 311 drives the second trigger slide bar 312 to move backward continuously so that the second hook 3121 and the second hook hole 53 are completely unlocked (that the second hook 3121 is completely disengaged from the second hook hole 53), the turnover plate 5 is unlocked, and the turnover plate 5 rotates to flap and drive the toy cell 100 to empty and turn over. That is, after the toy cell 100 is separated from the external toy, the toy cell 100 performs the turning motion, so that the toy cell 100 has a stronger motion sense and a higher interest.
It should be noted that, in the present application, an elastic member (for example, a torsion spring) that makes the flip board 5 have a tendency to rotate is provided at a rotational connection portion of the flip board 5 and the body 1 of the toy-in-a-block 100, specifically, when the flip board 5 is in a locked state, the elastic member elastically deforms to store energy, and after the flip board 5 is unlocked, the elastic member returns to deform to release energy, and the flip board 5 rotates under the driving of the elastic member.
In an embodiment of the present invention, as shown in fig. 1 to 15, the body 1 includes a base 11, a foldable assembly 12 and a locking device 13, the foldable assembly 12 is retractably connected to the base 11, that is, the foldable assembly 12 can be switched between a foldable state (shown in fig. 1 to 2 and 11) and an unfolded state (shown in fig. 9 to 10 and 14 to 15), the locking device 13 is used for locking the foldable assembly 12, the locking device 13 is connected to the trigger assembly 3, and after the trigger assembly 3 triggers, the locking device 13 releases the foldable assembly 12 to unfold and deform the foldable assembly 12, so that the unitary toy 100 can also deform itself when it is split apart from an external toy body, thereby providing a stronger action feeling and a higher interest of the unitary toy 100.
It should be noted that, in the present application, the connection between the locking device 13 and the triggering component 3 includes the following two cases:
1) the locking device 13 is directly connected with the trigger component 3, and when the trigger component 3 is triggered, the trigger component 3 directly drives the locking device 13 to release the folding and unfolding component 12;
2) the locking device 13 is indirectly connected to the trigger component 3, for example, in the specific example shown in fig. 1-10 and fig. 11-15, the bottom of the toy cell 100 is provided with the flip plate 5, the trigger component 3 cooperates with the flip plate 5 to lock the flip plate 5, the locking device 13 is indirectly connected to the trigger component 3 through the flip plate 5, specifically, when the trigger component 3 is triggered to release the flip plate 5, the flip plate 5 cooperates with the locking device 13 to drive the locking device 13 to release the folding and unfolding component 12 when the flip plate 5 rotates, and the folding and unfolding component 12 is unfolded and deformed. Further, as shown in fig. 1-10 and fig. 11-15, the locking device 13 is disposed on the base 11 in a manner of moving back and forth, the locking device 13 is provided with a locking portion 131, the folding and unfolding assembly 12 is provided with a locking portion 121 engaged with the locking portion 131, the position of the flip plate 5 adjacent to the rotation axis thereof is provided with a shifting block 54, the bottom of the locking device 13 is provided with a butting block 132, when the flip plate 5 rotates, the shifting block 54 will butt against the butting block 132 to push the locking device 13 to move back, so that the locking portion 131 is separated from the locking portion 121, thereby releasing the folding and unfolding assembly 12. Further, the folding and unfolding component 12 is rotatably connected to the base 11, when the clamping portion 131 is matched with the clamping portion 121, the folding and unfolding component 12 is locked on the base 11, the folding and unfolding component 12 cannot rotate relative to the base 11, when the clamping portion 131 is separated from the clamping portion 121, the folding and unfolding component 12 is unlocked, the folding and unfolding component 12 can rotate relative to the base 11, and in the rotating process of the folding and unfolding component 12 relative to the base 11, the folding and unfolding component 12 is unfolded and deformed.
It will be appreciated that the collapsed configuration and the expanded configuration of the foldable module 12 can be arbitrarily configured, for example, as shown in fig. 1-2 and 11, and the foldable module 12 and the base 11 can be configured to form a car shape when the foldable module 12 is in the collapsed configuration, such as a large car like a truck, police car, ambulance, or a small car like a racing car, sports car, sedan car, etc. When the collapsible member 12 is in the expanded state, the collapsible member 12 may be deformed into a human shape (e.g., a simple small person) or an animal shape (e.g., water, land, or air).
In the specific example shown in fig. 1-10, the folding and unfolding assemblies 12 each include a trunk portion 122, a head portion 123 and four limbs, each limb includes two front legs 124 and two rear legs 125, the two front legs are oppositely disposed, the rear end of the trunk portion 122 is pivoted with the rear end of the base 11, alternatively, as shown in fig. 1-10, the rear end of the trunk portion 122 is connected with the rear end of the base 11 through a rotating connecting member 111, one end of the rotating connecting member 111 is pivoted with the base 11, the other end of the rotating connecting member 111 is pivoted with the trunk portion 122, and the rotating connection between the trunk portion 122 and the base 11 is realized through the rotating connecting member 111, so that the connection is more flexible and convenient. The front legs 124 are pivotally connected to two sides of the trunk 122, the rear legs 125 are pivotally connected to two sides of the trunk 122, the front legs 124 are located at the front sides of the rear legs 125, the head 123 is fixedly connected to the front end of the trunk 122, an elastic member (torsion spring) is disposed at the rotational connection position of the rotational connection member 111 and the base 11, the elastic member (torsion spring) is disposed at the rotational connection position of the rotational connection member 111 and the trunk 122, the elastic member (torsion spring) is disposed at the rotational connection position of the four limbs and the trunk 122, and the engaging portion 121 is disposed at one end of the rotational connection member 111 connected to the trunk 122.
When the folding and unfolding assembly 12 is in the folded state, as shown in fig. 1-2, the engaging portion 121 is engaged with the engaging portion 131 of the locking device 13, the trunk portion 122 and the four limbs are folded on the base 11, and the front legs 124 and the rear legs 125 on the same side of the trunk portion 122 are folded together, at this time, the folding and unfolding assembly 12 and the base 11 form an automobile shape together, and when the folding and unfolding assembly 12 is in the folded state, the elastic member at the rotational connection position of the rotational connection member 111 and the base 11, the elastic member at the rotational connection position of the rotational connection member 111 and the trunk portion 122, and the elastic member at the rotational connection position of the four limbs and the trunk portion 122 are in the elastic deformation energy storage state. When the engaging portion 121 is separated from the engaging portion 131 of the locking device 13, under the action of the elastic member, the body portion 122 rotates upward to bounce, the front leg 124 and the rear leg 125 are separated, the front leg 124 extends from the rear to the front and inclines downward, the rear leg 125 extends from the front to the rear and inclines downward, fig. 9 shows a state after the foldable assembly 12 is unfolded, and at this time, the foldable assembly 12 forms a horse or a cow image in the unfolded state, so that the single toy 100 is more interesting.
In the particular example shown in fig. 11-15, the stowable component 12 each includes a torso portion 122, a head portion 123 and four limbs including two oppositely disposed front legs 124 and two oppositely disposed rear legs 125, the rear end of the torso portion 122 being pivotally connected to the rear end of the base 11. The front legs 124 are pivotally connected to two sides of the trunk 122, the rear legs 125 are pivotally connected to two sides of the trunk 122, the front legs 124 are located at the front sides of the rear legs 125, the head 123 is pivotally connected to the front end of the trunk 122, an elastic member (torsion spring) is disposed at the rotational connection position of the head 123 and the trunk 122, an elastic member (torsion spring) is disposed at the rotational connection position of the trunk 122 and the base 11, elastic members (torsion springs) are disposed at the rotational connection positions of the four limbs and the trunk 122, and the trunk 122 is provided with the engaging portion 121. The front leg 124 is further provided with a foot protection component, the foot protection component comprises a first foot protection piece 126 and a second foot protection piece 127, the first foot protection piece 126 and the second foot protection piece 127 are both pivoted with the body part 122, meanwhile, the first foot protection piece 126 and the second foot protection piece 127 are pivoted, the first foot protection piece 126 is pivoted with the body part 122, the second foot protection piece 127 and the body part 122, and the first foot protection piece 126 and the second foot protection piece 127 are pivoted through the same pivoting shaft.
When the foldable assembly 12 is in the folded state, as shown in fig. 11-13, the engaging portion 121 is engaged with the engaging portion 131 of the locking device 13, the trunk portion 122 and the four limbs are folded on the base 11, the head portion 123 is hidden in the trunk portion 122, the front leg 124 is clamped between the first leg protector 126 and the second leg protector 127, the foldable assembly 12 and the base 11 form an automobile shape, and when the foldable assembly 12 is in the folded state, the elastic members at the rotation connection are in the elastic deformation energy storage state. When the engaging portion 121 is separated from the engaging portion 131 of the locking device 13, under the action of the elastic member, the trunk portion 122 rotates upward to be bounced, the head portion 123 rotates upward and forward to be exposed, the first leg protection member 126 and the second leg protection member 127 are relatively opened at a certain angle to release the front legs 124, the front legs 124 and the rear legs 125 extend to the lower portion of the trunk portion 122, fig. 14 shows a state after the foldable assembly 12 is unfolded, and at this time, the foldable assembly 12 forms a horse or a cow in the unfolded state, so that the single toy 100 is more interesting.
In the present application, the resetting manner of the triggering assembly 3 can be arbitrarily selected according to the requirement, for example, by disposing an elastic member (e.g., a spring) between the triggering assembly 3 and the body 1, compressing the elastic member when the triggering assembly 3 is triggered, and driving the triggering assembly 3 to automatically reset when the elastic member recovers elastic deformation; or in the specific example shown in fig. 4-5, the folding and unfolding assembly 12 is provided with a moving member 128 capable of moving up and down, a return elastic member 129 (e.g. a spring) is provided between the moving member 128 and the folding and unfolding assembly 12, and when the folding and unfolding assembly 12 is folded towards the base 11, the moving member 128 abuts against the first trigger slide bar 311 to push the first trigger slide bar 311 to automatically return. Further, referring to fig. 4 to 5, the first trigger slide 311 is provided with a reset protrusion 3112 extending upward, an upper end surface of the reset protrusion 3112 is formed with an inclined surface extending obliquely, a lower end surface of the moving member 128 is also formed with an inclined surface extending obliquely, and the reset protrusion 3112 abuts against the inclined surface of the moving member 128 to drive the first trigger slide 311 to reset. By forming the inclined surfaces abutting against each other on the reset protrusion 3112 and the moving member 128, the cooperation between the two is stable and smooth, and the operation feeling is good.
Referring now to figures 1-31, a splittable combination toy playset 200 according to a second aspect embodiment of the present invention is described.
Referring to fig. 16-17, a split-able combination toy playset 200 includes a first individual toy 6 and a second individual toy 7.
The first toy monoblock 6 is the splittable toy monoblock 100 according to the embodiment of the first aspect of the invention, the conjoined component 2 in the first toy monoblock 6 is a first conjoined component, the trigger component 3 in the first toy monoblock 6 is a first trigger component, the body 1 in the first toy monoblock 6 is a first body, and the second toy monoblock 7 is provided with a second combination component; the second combination component is matched with the first conjuncted component, and the first conjuncted component releases the second combination component after the first trigger component is triggered.
Specifically, when the first conjoined assembly is in the conjoined state, as shown in fig. 16, the first conjoined assembly and the second conjoined assembly are fitted together, so that the first individual toy 6 and the second individual toy 7 are combined together; when the first coupled body assembly is in the disassembled state, as shown in fig. 17, the first coupled body assembly is separated from the second coupled body assembly, thereby splitting the first unit toy 6 from the second unit toy 7.
When a player plays, the first conjoined assembly of the first toy cell 6 is first fitted with the second coupling assembly of the second toy cell 7, as shown in fig. 16, so that the first toy cell 6 and the second toy cell 7 are combined together, and then the first trigger assembly is triggered, and the first trigger assembly drives the first conjoined assembly to move toward a disassembled state after being triggered, so that the first conjoined assembly is separated from the second toy cell 7, as shown in fig. 17, the first toy cell 6 and the second toy cell 7 are separated.
The toy suit 200 with the split combination according to the embodiment of the invention has novel and interesting toy.
It should be noted that, in the present application, the second individual toy 7 is an arbitrary toy body having a second coupling component, and as an alternative example, the second individual toy 7 is also a splittable combination individual toy 100 according to the above-mentioned first aspect of the present invention, and the individual toy 100 has a coupling component 4 for coupling with the first individual toy 6, the coupling component 4 is a second coupling component, the conjoined component 2 in the second individual toy 7 is a second conjoined component, the trigger component 3 in the second individual toy 7 is a second trigger component, and the body 1 in the second individual toy 7 is a second body.
In an embodiment of the present invention, a second trigger assembly and a second flip plate are disposed on the second toy monoblock 7, one end of the second trigger assembly extends to the second coupling assembly, and the end of the second trigger assembly extending to the second coupling assembly forms a trigger portion, when the first conjoined assembly of the first toy monoblock 6 and the second coupling assembly are in a matched state, the trigger portion of the second trigger assembly is shielded by the first toy monoblock 6, that is, the trigger portion of the second trigger assembly is in a hidden state, the second trigger assembly cannot be triggered, and when the first conjoined assembly of the first toy monoblock 6 and the second coupling assembly are in a separated state, that is, after the first toy monoblock 6 and the second toy monoblock 7 are split, the trigger portion of the second trigger assembly is exposed, as shown in fig. 17, the second trigger assembly may be triggered. The second turnover plate is rotatably arranged at the bottom of the second toy cell 7, the second trigger assembly is matched with the second turnover plate to lock the second turnover plate, and the second trigger assembly releases the second turnover plate after triggering to enable the second turnover plate to flap the ground and the second toy cell 7 to empty and turn over. That is, after the first and second individual toys 6 and 7 are split, if the second trigger component is triggered, the second individual toy 7 can be turned over, so that the split and combined toy suit 200 is more interesting.
Further, be equipped with first returning face plate on first monoblock toy 6, first returning face plate rotationally establishes in the bottom of first monoblock toy 6, and first subassembly and the first returning face plate that triggers cooperate with the first returning face plate of locking, and first subassembly triggers and releases first returning face plate and makes first returning face plate beat ground, first monoblock toy 6 emptys the upset. Specifically, after the first trigger assembly is triggered, the first conjoined assembly is separated from the second combined assembly, the first toy cell 6 and the second toy cell 7 are split, and the first toy cell 6 is driven by the first flipping board to flip.
Wherein the direction of the first toy cell 6 which is emptied and overturned when the first overturning plate is released is opposite to the direction of the second toy cell 7 which is emptied and overturned when the second overturning plate is released. Specifically, when the first toy cell 6 and the second toy cell 7 are combined, the rotating shaft of the first turnover plate is positioned at one end of the first turnover plate, which faces the second turnover plate, and the rotating shaft of the second turnover plate is positioned at one end of the second turnover plate, which faces the first turnover plate; or, when the first toy cell 6 and the second toy cell 7 are combined, the rotating shaft of the first turning plate is located at one end of the first turning plate, which is far away from the second turning plate, and the rotating shaft of the second turning plate is located at one end of the second turning plate, which is far away from the first turning plate. For example, as shown in fig. 16, when the first unit toy 6 and the second unit toy 7 are combined, the first unit toy 6 is located at the front end of the second unit toy 7:
in an alternative example, the rotating shaft of the first turnover plate is positioned at the rear end of the first turnover plate, the rotating shaft of the second turnover plate is positioned at the front end of the second turnover plate, after the first toy cell 6 and the second toy cell 7 are split, the first toy cell 6 is driven by the first turnover plate to turn by forward flight and backward flight, and the second toy cell 7 is driven by the second turnover plate to turn by backward flight and forward flight;
in another alternative example, the rotating shaft of the first flipping board is located at the front end of the first flipping board, and the rotating shaft of the second flipping board is located at the rear end of the second flipping board, after the first individual toy 6 and the second individual toy 7 are split, the first individual toy 6 is flipped by the rear-to-front loft under the driving of the first flipping board, and the second individual toy 7 is flipped by the front-to-rear loft under the driving of the second flipping board.
By last, through the direction that makes first free toy 6 vacate the upset when first returning face plate release, it is opposite with the direction that second free toy 7 vacates the upset when the second returning face plate releases for the interest of the toy suit 200 of splittable combination is stronger, and first free toy 6 and second free toy 7 can not bump when carrying out the upset action.
In one embodiment of the present invention, the first unitary toy 6 is triggered when it collides with the trigger 8, the second unitary toy 7 is triggered when it collides with the trigger 8, the trigger 8 is a coin or polyhedron, and when the trigger 8 is a polyhedron (as shown in fig. 18 to 24), the polyhedron has a polyhedral shape (as shown in fig. 18 to 20) and an expanded shape (as shown in fig. 21 to 24), and the polyhedron changes from the polyhedral shape to the expanded shape when it collides with the first unitary toy 6 or the second unitary toy 7, so that when the polyhedron triggers the first trigger or the second trigger, the polyhedron itself deforms, thereby increasing the interest of the dividable combined toy suit 200. The number of polyhedrons may be one or more.
Further, as shown in fig. 25-31, the polyhedron includes a clamping assembly and a plurality of unfolding parts, the unfolding parts are rotatably connected with each other, a polyhedron elastic member (such as a torsion spring and the like) which enables the unfolding parts to have unfolding tendency is arranged at the rotating connection position, and the clamping assembly includes: a touch unit 811 and a locking unit 812, the touch unit 811 is provided on one of the unfolding members, the locking unit 812 is provided on the other of the unfolding members, when the touch unit 811 is locked on the locking unit 812, the unfolding members are folded against the elastic force of the polyhedral elastic member to be in a polyhedral shape (hexahedron as shown in fig. 25-29), when the polyhedron collides with the first toy cell 6 or the second toy cell 7, the touch unit 811 is released from the locking unit 812, and the elastic force of the polyhedral elastic member causes the unfolding members to be unfolded to be in an unfolded shape (as shown in fig. 30-31).
As shown in fig. 25 to 31, the triggering unit 811 includes a slot 8111 and a movable top block 8112 formed on the spreading member, the locking unit 812 includes a locking strip 8121 slidably disposed on the spreading member and a holding elastic member 8122, the holding elastic member 8122 is used to push the locking strip 8121 to be inserted into the slot 8111 in the polyhedral shape, the top block 8112 moves after being collided by the first toy unit 6 or the second toy unit 7 to push the locking strip 8121 to be released from the slot 8111, so that the triggering unit 811 is released from the locking unit 812, and the elastic force of the polyhedral elastic member causes the plurality of spreading members to be spread into the spreading shape.
As shown in fig. 30-31, the polyhedron is in a humanoid state in the unfolded state, and the plurality of unfolding members include a lower body member 82, an upper body member 83, a head member 84, and upper limb members 85, the upper body member 83 is pivotally connected to the lower body member 82, the head member 84 is pivotally connected to the upper body member 83, the upper limb members 85 are pivotally connected to the upper body member 83, and the two upper limb members 85 are located on both sides of the upper body member 83. As shown in fig. 28 to 31, the lower body 82 is provided with a touch unit 811, and the head 84 is provided with a locking unit 812.
Further, a rotation limiting groove is formed in one side of the upper limb 85 facing the upper body 83, a rotation limiting block which is matched in the rotation limiting groove is arranged on the upper body 83, and the angle of relative rotation between the upper limb 85 and the upper body 83 in the unfolded state of the polyhedron can be limited through the matching between the rotation limiting groove and the rotation limiting block, for example, in the specific example shown in fig. 25-31, the upper limb 85 and the upper body 83 can rotate 90 degrees relative to the upper body 83 under the limiting effect of the rotation limiting groove and the rotation limiting block, and in the unfolded state, the upper limb 85 can extend forwards perpendicular to the upper body 83.
The specific play of the split playset 200 and the specific course of action of the various parts of the playset 200 of one specific embodiment are described below with reference to fig. 1-31. It is to be understood that the specific play described below is merely an example of an alternative and that the toy playset 200 of the present application is not limited in this regard.
Referring to fig. 16-17, a split-able combination toy playset 200 includes a first individual toy 6, a second individual toy 7, and two polyhedral triggers 8.
The first and second individual toys 6 and 7 are each the splittable combination individual toy 100 according to the embodiment of the first aspect of the present invention, wherein the first individual toy 6 is the splittable combination individual toy 100 of the specific example shown in fig. 1 to 10, the first individual toy 6 includes the body 1, the coupled body 2, the trigger assembly 3, the coupling assembly 4, and the flip plate 5 described above, the bottom of the body 1 is provided with wheels, wherein the body 1 includes the base 11, the retracting assembly 12, and the locking device 13, the body 1 of the first individual toy 6 is a first body, the coupled body 2 of the first individual toy 6 is a first coupled body, the first coupled body includes the connecting hooks 2 arranged in pairs, the trigger assembly 3 of the first individual toy 6 is a first trigger assembly, the coupling assembly 4 of the first individual toy 6 is a first coupling assembly, the first combination component is provided with a first combination part 41 used for combining the trigger 8, the first combination component comprises an outer touch plate 43 and a folding plate 44, the first combination part 41 is a magnetic suction part 41 arranged on the outer touch plate 43, the overturning plate 5 of the first toy monoblock 6 is a first overturning plate, and the rotating shaft of the first overturning plate is positioned at the front end of the first overturning plate. The connection between the above components in the first toy cell 6 is discussed in detail above, and will not be described in detail here.
The second toy monoblock 7 is a splittable toy monoblock 100 in the specific example shown in fig. 11-15, the second toy monoblock 7 includes the body 1, the conjoined component 2, the triggering component 3, the combining component 4 and the turning plate 5 described above, the bottom of the body 1 is provided with wheels, wherein the body 1 includes a base 11, a folding and unfolding component 12 and a locking device 13, the body 1 of the second toy monoblock 7 is a second body, the conjoined component 2 of the second toy monoblock 7 is a second conjoined component, the triggering component 3 of the second toy monoblock 7 is a second triggering component, the turning plate 5 of the second toy monoblock 7 is a second turning plate, and the rotating shaft of the second turning plate is located at the rear end of the second turning plate. The coupling assembly 4 of the second toy monoblock 7 is a second coupling assembly, the second coupling assembly has a first coupling portion 41 for coupling the trigger 8 and a second coupling portion 42 for coupling the first coupling assembly, the second coupling assembly includes an outer contact plate 43 and a folding plate 44, the first coupling portion 41 is a magnetic attraction member 41 arranged on the outer contact plate 43, and the second coupling portion 42 is a connection hole 42 arranged on the left and right sides of the front end of the second body. The connection relationship between the above-mentioned components in the second toy cell 7 is discussed in detail above, and will not be described in detail here.
The two polyhedral triggers 8 have the same structure, and are polyhedrons in the specific example shown in fig. 25-31, each polyhedron comprises a polyhedron form (a hexahedron shown in fig. 25-29) and an expanded form (shown in fig. 30-31), each polyhedron comprises a clamping component and a plurality of expanding pieces, the clamping component comprises a triggering unit 811 and a clamping unit 812, the triggering unit 811 comprises a clamping groove 8111 and a top block 8112, the clamping unit 812 comprises a clamping strip 8121 and a holding elastic piece 8122, the plurality of expanding pieces comprise a lower body piece 82, an upper body piece 83, a head piece 84 and an upper body piece 85, and the connection relationship among the parts of the polyhedron is discussed in detail in the above, and is not described again. The polyhedron further comprises a fixed magnet 86, the fixed magnet 86 is arranged on one side of the polyhedron, which is provided with the top block 8112, and in the shape of the polyhedron, the fixed magnet 86 is positioned on the surface of the polyhedron.
When a player plays the toy set 200 capable of being split and combined, the player first manually retracts the retracting component 12 of the first individual toy 6 and the retracting component 12 of the second individual toy 7, and then connects the connected body 2 of the first individual toy 6 with the second connecting portion 42 of the second individual toy 7, so as to connect the second individual toy 7 to the rear side of the first individual toy 6 (as shown in fig. 16), at this time, the first individual toy 6 and the second individual toy 7 are in a combined state, and at this time, the first individual toy 6 shields the first connecting portion 41 of the second individual toy 7 and the triggering portion 301 of the triggering component 3, at this time, the second individual toy 7 cannot be combined with the triggering object 8, and at the same time, the triggering component 3 of the second individual toy 7 cannot be triggered, that is, when the first individual toy 6 and the second individual toy 7 are in a combined state, the first connecting portion 41 of the second individual toy 7 cannot be combined with the triggering object 8, the triggering component 3 of the second individual toy 7 is not triggered;
then, two polyhedral triggers 8 are arranged at intervals in the front-back direction on the front side of the first toy cell 6, the two polyhedral triggers 8 are folded into a polyhedral shape, and the two polyhedral fixed magnets 86 face the head of the first toy cell 6, as shown in fig. 18, so that the polyhedral fixed magnets 86 are opposite to the first coupling portion 41 (magnetic attraction member 41) of the first toy cell 6 and the first coupling portion 41 (magnetic attraction member 41) of the second toy cell 7;
then, the first and second individual toys 6 and 7 in the united state are pushed toward the polyhedral trigger 8, when the first individual toy 6 moves to the polyhedral trigger 8 which is closer to the first individual toy, as shown in fig. 19, the fixed magnet 86 on the polyhedron is magnetically attracted to the first coupling portion 41 (magnetic attraction member 41) at the front end of the first individual toy 6, so that the polyhedron is coupled to the outer touch plate 43 of the first individual toy 6, and the polyhedron collides with the trigger portion 301 of the trigger assembly 3 of the first individual toy 6 when coupled to the outer touch plate 43 of the first individual toy 6, the trigger assembly 3 of the first individual toy 6 is triggered to move backward, the trigger assembly 3 unlocks the outer touch plate 43 of the first individual toy 6 to release, and under the action of the torsion spring, the folding plate 44 drives the outer touch plate 43 to move from the front end of the first individual toy 6 to the upper side of the first individual toy 6, when the polyhedron is coupled to the outer touch plate 43 of the first individual toy 6, the outer touch plate 43 of the first individual toy 6 triggers the top block 8112 to move, the polyhedron is triggered to deform from the polyhedron form to the expanded form, and the deformed polyhedron trigger 8 and the outer touch plate 43 are lifted together to the top of the first individual toy 6 (as shown in fig. 21 to 22). When the trigger component 3 of the first toy monoblock 6 is triggered to move backwards, the first trigger slide 311 moves backwards, the first hook 3111 is disengaged from the first hook hole 52, the first trigger slide 311 moves backwards to push the second trigger slide 312 and the third trigger slide 313 to move backwards, the second trigger slide 312 moves backwards to disengage the second hook 3121 from the second hook hole 53, the third trigger slide 313 moves backwards to drive the conjoined component 2 to move towards the disassembled state to separate the first toy monoblock 6 from the second toy monoblock 7, and when the conjoined component 2 moves to the disassembled state (i.e. when the first toy monoblock 6 is separated from the second toy 7), the second hook 3121 only disengages from a part of the second hook hole 53, the second hook 3121 does not completely disengage from the second hook hole 53, i.e. the second hook 3121 and the second hook 31253 only unlock a part, then the first trigger slide bar 311 drives the second trigger slide bar 312 to move backward continuously so that the second hook 3121 and the second hook hole 53 are completely unlocked (i.e. the second hook 3121 is completely separated from the second hook hole 53), the flipping board 5 is unlocked, and the flipping board 5 rotates to flap to drive the first toy monoblock 6 to empty and flip. That is, after the first individual toy 6 is split from the second individual toy 7, the first individual toy 6 performs a turning motion. And the first toy set 6 is turned 360 degrees from back to front, when the turning plate 5 of the first toy set 6 rotates to be parallel to the ground, the shifting block 54 on the turning plate 5 abuts against the abutting block 132 on the locking device 13 to push the locking device 13 to move backwards, so that the clamping portion 131 is separated from the clamping portion 121, the folding and unfolding component 12 is released, the folding and unfolding component 12 is transformed into a shape of a cow or a horse as shown in fig. 21, and at the moment, the polyhedral trigger 8 and the folding and unfolding component 12 integrally form a picture of a person sitting on the horse or the cow.
The first single toy 6 is turned 360 degrees from back to front to jump over the polyhedral trigger 8 remaining on the ground, so that a space can be made for the second single toy 7 to be combined with the polyhedral trigger 8 remaining on the ground, after the first single toy 6 is split from the second single toy 7, the first combining part 41 of the second single toy 7 and the trigger part 301 of the trigger assembly 3 are exposed, the second single toy 7 continues to walk forward, when it walks to the polyhedral trigger 8 remaining on the ground (as shown in fig. 20), the fixed magnet 86 on the polyhedron and the first combining part 41 (the magnetic attraction piece 41) at the front end of the second single toy 7 are attracted together under the magnetic action, so that the polyhedron is combined to the outer touch plate 43 of the second single toy 7, the polyhedron collides with the trigger part 301 of the trigger assembly 3 of the second single toy 7 when being combined to the outer touch plate 43 of the second single toy 7, the trigger assembly 3 of the second toy cell 7 is triggered to move backward. The trigger component 3 unlocks and releases the outer touch plate 43 of the second toy monoblock 7, under the action of the torsion spring, the folding plate 44 drives the outer touch plate 43 to move from the front end of the second toy monoblock 7 to the upper side of the second toy monoblock 7, when the polyhedron is combined to the outer touch plate 43 of the second toy monoblock 7, the outer touch plate 43 of the second toy monoblock 7 triggers the top block 8112 to move, the polyhedron is triggered to deform from the polyhedron form to the unfolded form, and the deformed polyhedron trigger 8 and the outer touch plate 43 are lifted to the top of the second toy monoblock 7 together (as shown in fig. 23-24). When the trigger component 3 of the second toy cell 7 is triggered to move backwards, the trigger component 3 unlocks the turnover plate 5, the turnover plate 5 is unlocked, and the turnover plate 5 rotates to beat to drive the second toy cell 7 to empty and turn over. The second toy set 7 is turned 360 degrees from front to back, when the turning plate 5 of the second toy set 7 rotates to be parallel to the ground, the shifting block 54 on the turning plate 5 abuts against the abutting block 132 on the locking device 13 to push the locking device 13 to move backwards, so that the clamping portion 131 is separated from the clamping portion 121, the folding and unfolding component 12 is released, the folding and unfolding component 12 is changed into a shape of a cow or a horse as shown in fig. 23, and at the moment, the polyhedral trigger 8 and the folding and unfolding component 12 integrally form a picture of a person sitting on the horse or the cow.
The split combined toy suit 200 provided by the embodiment of the invention has novel playing method and strong interest.
The above description specifically describes only an embodiment in which the trigger 3 is a polyhedron, and the trigger principle and the trigger process for the case where the trigger 3 is a coin are well known to those skilled in the art and will not be described in detail here. For example, a coin clamping opening may be provided in the toy cell 100, the trigger portion 301 of the trigger unit 3 of the toy cell 100 may extend into the coin clamping opening, and when a circular coin is clamped in the coin clamping opening, the circular coin collides with the trigger portion to trigger the trigger unit 3.
In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "back", "top", "bottom", "inner", "outer", and the like, indicate orientations and positional relationships based on the orientations and positional relationships shown in the drawings, are used for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.
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 (15)

1. A splittable unitary toy, comprising:
a body;
a conjoined assembly provided on the body, the conjoined assembly being movable between a conjoined state for coupling with an external toy body and a disassembled state for disengaging from the external toy body, the conjoined assembly being configured to be constantly movable toward the conjoined state;
the trigger assembly is arranged on the body, one end of the trigger assembly is matched with the conjoined assembly, and the trigger assembly drives the conjoined assembly to move towards a disassembly state after being triggered.
2. The splittable combination toy monoblock of claim 1, further comprising: a coupling component at least partially located on a surface of the unitary toy, the coupling component for coupling with an external trigger and/or for coupling with another unitary toy; wherein the trigger triggers the trigger assembly upon impact with the trigger assembly.
3. The splittable combination toy monomers of claim 2, wherein the coupling assembly comprises:
a first coupling portion for coupling the trigger to the outside;
a second coupling portion for being coupled with the coupled body assembly of the other toy monoblock.
4. The splittable combination toy monomers of claim 2, wherein the coupling member is provided with a magnetic element for attracting the trigger.
5. The splittable combination toy monomers of claim 3, wherein the coupling member comprises a movable outer contact plate, the first coupling portion is disposed on the outer contact plate, the trigger member cooperates with the outer contact plate to lock the outer contact plate, the trigger member is triggered when colliding with the trigger, the triggered trigger member releases the outer contact plate, and the outer contact plate activates the trigger coupled to the first coupling portion.
6. The splittable combination toy monoblock of claim 5, wherein the coupling assembly further comprises: the folded sheet, the folded sheet rotates to be connected on the body, outer touch panel rotates to be connected on the folded sheet, outer touch panel quilt be located when triggering the subassembly locking the front side of monomer toy, outer touch panel quilt trigger the subassembly release back the folded sheet drives outer touch panel removes the top of monomer toy.
7. The splittable combination toy monoblock of claim 1, further comprising: the turnover plate is rotatably arranged at the bottom of the single toy, the trigger assembly is matched with the turnover plate to lock the turnover plate, and the trigger assembly releases the turnover plate after triggering to enable the turnover plate to beat the ground and the single toy to be emptied and turned over.
8. The splittable combination toy monoblock of claim 7 wherein the trigger assembly comprises a plurality of trigger bars, wherein the plurality of trigger bars are linked, and wherein at least two of the trigger bars are lockingly engaged to the flipping panel.
9. The splittable combination toy monoblock of claim 1 wherein the union assembly comprises a pair of coupling hooks, each coupling hook being pivotally coupled to the body, the pair of coupling hooks being configured to pivot in a closed direction, the trigger assembly urging the pair of coupling hooks to pivot in an open direction upon actuation.
10. The splittable combination toy cell of claim 3, wherein the first joining portion and the second joining portion are located at a same location of the toy cell where the toy cell can be joined to only one of the trigger and the other toy cell.
11. The splittable combination toy monoblock of any one of claims 1-10, wherein the body comprises:
a base;
a stowable and deployable assembly, the stowable and deployable assembly being connected to the base;
the locking device is used for locking the folding and unfolding assembly and is connected with the trigger assembly, and the locking device releases the folding and unfolding assembly after the trigger assembly is triggered so as to enable the folding and unfolding assembly to be unfolded and deformed.
12. A split-combinable toy playset, comprising:
a first unitary toy that is a splittable combination unitary toy of any one of claims 1-10, wherein the union component in the first unitary toy is a first union component, and wherein the trigger component in the first unitary toy is a first trigger component;
the second single toy is provided with a second combination component; wherein,
the second coupling assembly is mated with the first connector assembly, and the first connector assembly releases the second coupling assembly after the first trigger assembly is triggered.
13. The splittable combination toy playset of claim 12, wherein the second unitary toy is provided with a second trigger component and a second flipping panel, and one end of the second trigger component extends to the second joining component; the second turnover plate is rotatably arranged at the bottom of the second single toy, the second trigger assembly is matched with the second turnover plate to lock the second turnover plate, and the second trigger assembly releases the second turnover plate to enable the second turnover plate to beat the ground and the second single toy to turn empty.
14. The split composite toy playset of claim 13, wherein the first toy cell is provided with a first flip plate, the first flip plate is rotatably arranged at the bottom of the first toy cell, the first trigger assembly is matched with the first flip plate to lock the first flip plate, and the first trigger assembly releases the first flip plate to enable the first flip plate to flap and the first toy cell to turn empty; wherein,
the direction of the first single toy in the air when the first turnover plate is released is opposite to the direction of the second single toy in the air when the second turnover plate is released.
15. The split playset of claim 13, wherein the first unitary toy is triggered upon impact with a trigger and the second unitary toy is triggered upon impact with a trigger, the trigger being a coin or polyhedron;
when the trigger is a polyhedron, the polyhedron has a polyhedron form and an expanded form, and the polyhedron changes from the polyhedron form to the expanded form when colliding with the first toy cell or the second toy cell.
CN201811643050.6A 2018-12-29 2018-12-29 Splittable combination monomer toy and splittable combination toy set Active CN110270114B (en)

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