CN109847383B - Clamping and sucking linkage toy - Google Patents

Abstract

The invention discloses a clamping and sucking linkage toy which comprises a plurality of single toys, wherein each single toy is provided with a clamping and sucking piece, an unlocking piece and an action piece, the unlocking piece extends to the clamping and sucking piece, and the action piece is matched with the unlocking piece. And a butt joint device and a linkage device are arranged between any two single toys, the butt joint device is connected between two adjacent single toys, so that the two single toys can be detachably connected into a combined toy, and the linkage device is arranged on the unlocking piece so that the two adjacent unlocking pieces can be triggered in a linkage way. The clamping and sucking combined toy provided by the embodiment of the invention realizes that a plurality of single toys can synchronously deform or turn over after being combined, so that the clamping and sucking combined toy generates play better than the single toys, has magic feeling and unpredictability for players, and meets the hunting hearts of children.

Description

Clamping and sucking linkage toy

Technical Field

The invention relates to the field of toys, in particular to a clamping and sucking linkage toy.

Background

The existing touch deformation toys are all single toys to play, and two toys cannot be combined into a whole to play. While the existing combined toy can realize that two toys are combined into a whole, the combination is generally that: the toy comprises a first toy and a second toy, wherein the first toy can be rotationally deformed, the second toy can be disassembled, then all parts of the second toy which are disassembled are assembled on the first toy to form combination and deformation, the combination deformation process is manual operation, no linkage relation exists between the two combination bodies, the operation is less after the combination is completed, and the interestingness is low.

Disclosure of Invention

The present invention aims to solve at least one of the technical problems existing in the prior art. Therefore, the invention provides the clamping and sucking linkage combined toy, wherein linkage relation exists between the clamping and sucking linkage combined toy, the manufacturability is good after the combination is completed, and the triggering mode is simple.

The clamping and sucking linkage toy comprises a plurality of single toys, wherein each single toy is provided with a clamping and sucking piece, an unlocking piece and an action piece, the unlocking piece extends to the clamping and sucking piece, and the action piece is matched with the unlocking piece; a butt joint device and a linkage device are arranged between any two single toys, the butt joint device is connected between two adjacent single toys so that the two single toys can be detachably connected into a combined toy, and the linkage device is arranged on the unlocking piece so that the two adjacent unlocking pieces can be triggered in a linkage way; when any one of the clamping and sucking parts of the combined toy is clamped to the toy part, the corresponding unlocking parts are driven to be triggered, and meanwhile, all the unlocking parts of the combined toy are triggered in a linkage mode under linkage of the linkage device, so that the action parts of the combined toy are linked to execute actions.

According to the clamping and sucking linkage combined toy, as the plurality of single toys are in butt joint through the butt joint device and are linked through the linkage device, the butt joint operation among the plurality of single toys is simplified, and all the action parts can synchronously execute actions after the plurality of single toys are combined, wherein the actions comprise but are not limited to: the clamp-suction linkage combined toy is enabled to play better than a single toy by moving, rotating, deforming, overturning or a combination thereof, so that the clamp-suction linkage combined toy has magic feeling and unpredictability for players, and meets the hunting hearts of children. In addition, as the mode of triggering the action of the single toy is the suction clip toy piece, the mode is very simple, and the toy is very convenient for children to play.

In some embodiments, only one gripping member is provided on each of the single toys, and the linkage is provided on the unlocking member located within the gripping member.

Specifically, all the clamping and sucking components on the combined toy are integrated side by side to form a clamping and sucking component, so that the clamping and sucking component can jointly suck a plurality of toy components.

In some embodiments, a plurality of clamping members are provided on each of the single toys, and the linkage is provided on the unlocking member in at least one of the clamping members.

Specifically, all the clamping and sucking components corresponding to the linkage device on the combined toy are integrated side by side to form a clamping and sucking component, so that the clamping and sucking component can jointly suck a plurality of toy components.

In some embodiments, each of the single toys includes a fixing member, the actuating member includes at least a deforming member and a turning member, the deforming member and the turning member are movably mounted on the fixing members, and the docking device is disposed between the fixing members of two adjacent single toys.

Specifically, the unlocking piece comprises a first unlocking piece and a second unlocking piece, the first unlocking piece is in buckling connection with the overturning piece, and the overturning piece pivots after the first unlocking piece is triggered to enable the single toy to empty and overturn; the second unlocking piece is in buckle connection with the deformation piece, and the deformation piece is unfolded and deformed after the second unlocking piece is triggered.

More specifically, a first trigger position is arranged at the front end of the fixing piece, one end of the first unlocking piece extends to the first trigger position, a second trigger position is arranged on the deformation piece or the overturning piece, and one end of the second unlocking piece extends to the second trigger position; when the second trigger position is arranged on the deformation piece, and the second trigger position is not triggered, the second trigger position is positioned at the front side of the first trigger position, and after the second trigger position triggers the second unlocking piece, the deformation piece deforms and exposes the first trigger position; when the second triggering position is arranged on the overturning piece, after the first triggering position is triggered, the overturning piece overturns so that the second triggering position triggers the second unlocking piece, and after the second unlocking piece is triggered, the deformation piece is unfolded and deformed.

In some embodiments, the first unlocking member comprises: the first lock piece and the first reset spring, the first lock piece is movably arranged on the single toy between an unlocking position and a locking position, the first reset spring is used for driving the first lock piece to move towards the locking position, the linkage device is arranged between the first lock pieces of two adjacent single toys, and when any one of the plurality of connected single toys moves, the rest of the first lock pieces move simultaneously.

Specifically, the linkage device comprises a first linkage group, the first linkage group comprises a linkage lug and a linkage concave block, the linkage lug and the linkage concave block are arranged at two ends of the first locking piece in the direction perpendicular to the moving direction of the first locking piece, and the linkage lug of the single toy is suitable for being clamped with the adjacent linkage concave block of the single toy.

In some embodiments, the linkage device comprises a second linkage group, the second linkage group comprises a linkage sleeve column and a linkage sleeve which are arranged at two ends of the rotating shaft of the turnover piece, and the linkage sleeve column of the single toy is suitable for being inserted into the adjacent linkage sleeve of the single toy.

In some embodiments, the second unlocking member comprises: the second locking piece is movably arranged on the single toy between an unlocking position and a locking position, the second locking piece locks the deformation piece on the fixing piece in the locking position, and the second locking piece releases the deformation piece to enable the deformation piece to be unfolded and deformed in the unlocking position; the second return spring is used for normally driving the second locking piece to move towards the locking position.

In some embodiments, each monomer toy further comprises a releasing device, the releasing device is provided with at least a first action gear and a second action gear for the switching execution of the action piece, and a trigger piece is correspondingly arranged in the clamping piece; the unlocking piece at least comprises a first unlocking piece and a second unlocking piece, the limiting unlocking device is configured to link the triggering piece and the first unlocking piece in a first action gear, and the limiting unlocking device is configured to link the triggering piece and the second unlocking piece in a second action gear.

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 foregoing and/or additional aspects and advantages of the invention will become apparent and may be better understood from the following description of embodiments taken in conjunction with the accompanying drawings in which:

fig. 1 is a schematic view showing a structure in which a single toy according to an embodiment of the present invention is in a normal state.

Fig. 2 is a schematic view of a construction of a single toy according to an embodiment of the present invention in a deformed state.

Fig. 3 is an exploded view of the overall structure of a one-piece toy according to an embodiment of the present invention.

Fig. 4 is an exploded view of a fixture structure of a one-piece toy according to an embodiment of the present invention.

Fig. 5 is a schematic vertical sectional view of a single toy according to an embodiment of the present invention in a normal state.

Fig. 6 is a partial structural view of a fixing member of a one-piece toy according to an embodiment of the present invention.

Fig. 7 is a partially exploded view of the fastener shown in fig. 6.

Fig. 8 is a schematic overall structure of a flip member of a one-piece toy according to an embodiment of the present invention.

Fig. 9 is a schematic view showing a structure of a clip-on linkage toy according to an embodiment of the present invention in a normal state.

Fig. 10 is a schematic view of a clip-on linkage toy according to an embodiment of the present invention in a deformed state.

Fig. 11 is a schematic view showing a structure in which a single toy according to another embodiment of the present invention is in a normal state.

Fig. 12 is a schematic view showing a structure in which a single toy is in a deformed state according to another embodiment of the present invention.

Fig. 13 is a schematic view showing a structure of a clip-on linkage toy according to another embodiment of the present invention in a normal state.

Fig. 14 is a schematic view showing a structure of a clip-on linkage toy according to another embodiment of the present invention in a deformed state.

Fig. 15 is an exploded view of the one-piece toy of fig. 11.

Fig. 16 is a partial schematic structure of the one-piece toy shown in fig. 11.

Fig. 17 is an exploded view of fig. 16.

Fig. 18 is a partial schematic structural view of the fixing member of the one-piece toy in a normal state.

Fig. 19 is a schematic vertical sectional view of the single toy in a normal state.

Fig. 20 is a partial schematic structural view of a fixing member of the clip-on linkage toy in a normal state.

Fig. 21 is a schematic vertical section view of the clip-on linkage toy in a normal state.

Fig. 22 is a perspective view of the fixture of the one-piece toy of fig. 11.

Fig. 23 is another perspective view of the securing member of the one-piece toy of fig. 11.

Reference numerals:

10000 parts of coin-clamping linkage toy,

Monomer toy 1000,

A fixing member 100, a first trigger position 110,

A clamping and sucking piece 200,

A butt joint device 300,

A butt male terminal 310, a butt female terminal 320,

A first unlocking member 400,

A first locking member 410, a first lock 411,

A first return spring 420,

A first linkage group 430, a linkage concave block 431, a linkage convex block 432,

Flipping part 500, flipping block 510,

A second linkage assembly 520, a linkage sleeve 521, a linkage sleeve 522,

A second unlocking member 600, a second locking member 610, a second lock 611, a second return spring 620,

Deformation member 700,

A first deforming member 710, a first coin slot 711, a second deforming member 720, a second coin slot 721,

Trigger 800,

A de-limiting device 900,

A linkage rotating column 910, a linkage convex column 911, a limit releasing rod 920, a movable sleeve 930 and a movable plate 940.

Toy article 2000.

Detailed Description

Embodiments of the present invention are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the invention.

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present invention. Furthermore, features defining "first", "second" may include one or more such features, either explicitly or implicitly. In the description of the present invention, unless otherwise indicated, the meaning of "a plurality" is two or more.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

The following describes a specific structure of the clip-suction linkage toy 10000 according to an embodiment of the present invention with reference to fig. 1 to 23.

As shown in fig. 2-3 and fig. 11-12, a clip-suction linkage toy 10000 according to an embodiment of the present invention includes a plurality of monomer toys 1000, each monomer toy 1000 is provided with a clip-suction member 200, an unlocking member, and an actuating member, the unlocking member extends to the clip-suction member 200, and the actuating member is matched with the unlocking member. A docking device 300 and a linkage device are arranged between any two single toys 1000, the docking device 300 is connected between two adjacent single toys 1000, so that the two single toys 1000 can be detachably connected into a combined toy, and the linkage device is arranged on the unlocking piece so that the two adjacent unlocking pieces can be triggered in a linkage manner. When the clamping and sucking piece 200 of any one of the single toys 1000 on the combined toy is clamped to the toy piece 2000, the corresponding unlocking piece is driven to be triggered, and meanwhile, all unlocking pieces on the combined toy are triggered in a linkage way under the linkage of the linkage device, so that the action piece on the combined toy is linked to execute the action.

It should be noted that, in some embodiments, the clip-suction linkage toy 10000 is configured to detachably connect any two single toys 1000 through the docking device 300, so that the connection manner is very simple, and the toy is convenient to dock with a plurality of single toys 1000. Because each of the single toys 1000 is provided with an actuating member that is matched with the unlocking member, and one end of the unlocking member is provided with the clip absorbing member 200, when the clip absorbing member 200 absorbs the clip toy member 2000 to trigger the unlocking member, the actuating member can execute actions, which include but are not limited to: move, rotate, deform, flip, combinations thereof, or the like. That is, when the clip absorbing member 200 absorbs the clip toy member 2000, the single toy 1000 may perform a single motion or a combined motion of various set motions, thereby enriching the play of the single toy 1000 and enhancing the interest of the single toy 1000. In addition, since the linkage device is further arranged on any two single toys 1000, and the linkage device is configured such that when the clamping piece 200 of any single toy 1000 is clamped to the toy piece 2000 to drive the corresponding unlocking piece to unlock, all the unlocking pieces on the lower combined toy are triggered in a linkage manner, so that the action pieces on the combined toy perform actions in a linkage manner. Therefore, the combined multiple single toys 1000 can synchronously execute actions, so that the clamping and sucking combined toy 10000 is better than the single toy 1000 in playing, has magic feeling and unpredictability for players, and meets the hunting hearts of children.

According to the clamp-suction linkage combined toy 10000 disclosed by the embodiment of the invention, as the plurality of single toys 1000 are in butt joint through the butt joint device 300 and are linked through the linkage device, the butt joint operation among the plurality of single toys 1000 is simplified, and the plurality of single toys 1000 can be synchronously deformed or turned after being combined, so that the clamp-suction linkage combined toy 10000 is better than the single toys 1000 in playing, has a magic feeling and unpredictability for players, and meets the hunting hearts of children. In addition, because the action of the single toy 1000 is triggered by the suction clip toy piece 2000, the mode is very simple and is very convenient for children to play.

It should be noted that, in the embodiment of the present invention, the shapes of the single toys 1000 may be the same or not, so that the multiple single toys 1000 have various phases after being docked, which increases the interest of the clip-attraction combined toy 10000.

In some embodiments, as shown in fig. 3 and 18, only one clip 200 is provided on each toy monomer 1000, and a linkage is provided on an unlocking member located within the clip 200. Therefore, when the clamping and sucking piece 200 clamps and sucks the toy piece 2000, the action piece of the single toy 1000 can act, and when a plurality of single toys 1000 are in butt joint to form a clamping and sucking combined toy 10000, the clamping and sucking combined toy 10000 can suck a plurality of toy pieces 2000, so that the number of the clamping and sucking combined toy 10000 and the number of the clamping and sucking toy pieces 2000 are increased, and the interestingness is improved.

Alternatively, all the clip members 200 on the clip-on linkage toy 10000 are integrated side by side into one clip assembly so that the clip assembly can collectively clip a plurality of toy members 2000. Thus, when the toy members 2000 are sucked and clamped, the plurality of single toys 1000 move uniformly, the consistency of the moving members is improved, and the interestingness is improved.

In some embodiments, a plurality of gripping members 200 are provided on each toy cell 1000, and a linkage is provided on an unlocking member within at least one gripping member 200. It will be appreciated that the toy monomer 1000 has a plurality of gripping members 200, and that the unlocking member in at least one of the gripping members 200 is provided with a linkage. That is, the unlocking member in the clamping member 200 provided on the single toy 1000 is not provided with a linkage device, and when the plurality of single toys 1000 are butted into the clamping linkage toy 10000, the single action of the single toy 1000 can be still realized. Therefore, the action form of the clamping and sucking combined toy 10000 is enhanced, and the interestingness is improved.

Specifically, the clamping members 200 corresponding to the unlocking members provided with the linkage device on the toy body are integrated side by side to form a clamping assembly, so that the clamping assembly can jointly clamp a plurality of toy pieces 2000. Thus, when the toy members 2000 are sucked and clamped, the plurality of single toys 1000 move uniformly, the consistency of the moving members is improved, and the interestingness is improved.

In some embodiments, as shown in fig. 4, each of the single toys 1000 includes a fixing member 100, the actuating member includes at least a deforming member 700 and a flipping member 500, the deforming member 700 and the flipping member 500 are movably mounted on the fixing member 100, respectively, and the docking device 300 is disposed between the fixing members 100 of two adjacent single toys 1000. Therefore, the plurality of single toys 1000 are connected in a butt joint mode and have stable connection strength, and the possibility that the plurality of single toys 1000 are disconnected in the playing process of the clamping and sucking combined toy 10000 is reduced. In addition, because the action piece includes the deformation piece 700 and the turnover piece 500, the clamping and sucking linkage combined toy 10000 has various action modes such as deformation, turnover or deformation and turnover, thus enriching the action modes of the toy and improving the interestingness of the toy.

In some embodiments, the docking device 300 is disposed on two opposite sides of each single toy 1000, and a plurality of single toys 1000 may be disposed side by side, and two adjacent single toys 1000 in the same row are connected by the docking device 300. Of course, in the embodiment of the present invention, there may be various docking modes of the plurality of single toys 1000. For example, in some embodiments, docking device 300 is provided at the top and bottom of fixture 100 to allow multiple unit toys 1000 to be docked in a stacked configuration. For another example, in some embodiments, docking devices 300 are provided at both front and rear ends of the fixture 100 so that a plurality of unit toys 1000 may be docked in a row in the front-rear direction. Therefore, the single toys 1000 can be butted up and down, left and right and front and back in all directions, so that the butting modes of the single toys 1000 are enriched, the single toys 1000 have more shapes after being butted, and the interestingness of the single toys 1000 is increased.

In some embodiments, as shown in fig. 7 and 22-23, the docking device 300 includes a male docking terminal 310 and a female docking terminal 320, and each two adjacent single toys 1000 may be connected in a snap-fit manner by the male docking terminal 310 and the female docking terminal 320. Therefore, when two single toys 1000 need to be docked, the docking male terminal 310 on one single toy 1000 is clamped on the docking female terminal 320 of the other single toy 1000, so that the docking of the two single toys 1000 can be completed, and the docking mode is very simple and convenient, and the single toys 1000 are conveniently docked by the toy. It should be noted that, in order to ensure the docking strength of the two single toys 1000, the docking devices 300 on each single toy 1000 may be plural. Of course, in other embodiments of the present invention, the docking device 300 may further include other structures, for example, hooks are disposed on both the single toys 1000, and the docking of the two single toys 1000 can be accomplished by using the hooks for clamping.

Specifically, as shown in fig. 7, the mating male terminal 310 and the mating female terminal 320 are both detachably provided on the mount 100. Therefore, after the plurality of single toys 1000 are combined, the docking device 300 is damaged, such as broken or the like, carelessly in the playing process of a player, the player can replace the docking device 300, the phenomenon that the single toys 1000 cannot be docked due to the damage of the docking device 300 is avoided, and the playing life of the single toys 1000 is prolonged.

In some embodiments, as shown in fig. 3 and 20, the unlocking members include a first unlocking member 400 and a second unlocking member 600, the first unlocking member 400 is in snap connection with the overturning member 500, and the first unlocking member 400 triggers the rear overturning member 500 to pivot so as to empty and overturn the single toy 1000. The second unlocking piece 600 is in snap connection with the deformation piece 700, and the second unlocking piece 600 triggers the deformation piece 700 to unfold and deform. Therefore, when the first unlocking member 400 is triggered, the single toy 1000 can rotate, and when the second unlocking member 600 is triggered, the single toy 1000 can deform, that is, the single toy 1000 has the combined actions of overturning and deforming, so that the interestingness of the single toy 1000 is improved. Of course, in the embodiment of the present invention, the single toy 1000 may be turned first and then deformed, or may be turned during the deformation process, and the sequence of turning and deformation may be completely determined by the triggering sequence of the first unlocking member 400 and the second unlocking member 600.

Specifically, the front end of the fixing member 100 is provided with a first triggering position 110, one end of the first unlocking member 400 extends to the first triggering position 110, the deforming member 700 or the overturning member 500 is provided with a second triggering position, and one end of the second unlocking member 600 extends to the second triggering position. When the second trigger position is set on the deforming member 700, the second trigger position is located at the front side of the first trigger position 110 when the second trigger position is not triggered, and after the second trigger position triggers the second unlocking member 600, the deforming member 700 deforms and exposes the first trigger position 110. When the second triggering position is set on the flip-flop 500, after the first triggering position 110 is triggered, the flip-flop 500 is flipped so that the second triggering position triggers the second unlocking member 600, and the deformation member 700 is unfolded and deformed after the second unlocking member 600 is triggered.

It will be appreciated that there are a variety of modes for the one-piece toy 1000 of the present embodiment. Specifically, in some embodiments, as shown in fig. 15, 19 and 21, the second triggering position of the single toy 1000 is set on the deforming member 700 (the second coin slot 721 on the deforming member), and since the second triggering position is set on the front side of the first triggering position 110, that is, when the clamping member 200 of the single toy 1000 is used to clamp the toy member 2000, the toy member 2000 triggers the second triggering position to deform the deforming member 700 for the first time, and exposes the first triggering position 110, at this time, when the first triggering position 110 is triggered, the first unlocking member 400 can be triggered, so that the single toy 1000 is turned. In some embodiments, as shown in fig. 5, the second triggering position of the single toy 1000 is provided on the overturning member 500 (the overturning block 510 on the overturning member 500 is formed as the second triggering position), when the clamping member 200 of the single toy 1000 sucks the clamping toy 2000, the toy 2000 triggers the first triggering position 110 to cause the overturning member 500 to overturn, and because the second triggering position is provided on the overturning member 500, the overturning member 500 triggers the second unlocking member 600 to cause the deformation member 700 to be unfolded and deformed when overturning. In summary, the different setting positions of the second triggering positions can make the single toy 1000 realize multiple actions such as deformation before overturning or overturning before deforming, so that the single toy 1000 has multiple playing methods, the playing methods of the single toy 1000 are greatly enriched, and the interestingness of the single toy 1000 is increased.

In some embodiments, as shown in fig. 6, 19 and 21, the first unlocking member 400 includes a first locking member 410 and a first return spring 420, the first locking member 410 is movably disposed on the single toy 1000 between an unlocking position and a locking position, the first return spring 420 is used to normally drive the first locking member 410 to move toward the locking position, a linkage is disposed between the first locking members 410 of two adjacent single toys 1000, and when any one of the plurality of connected single toys 1000 moves, the remaining first locking members 410 move simultaneously.

It will be appreciated that when clip 200 is attached to clip toy 2000, toy 2000 will push first lock 410, causing first lock 410 to move to the unlocked position, thereby releasing flip 500, causing flip 500 to pivot to empty and flip monomer toy 1000. Such a structure is very simple, and the single toy 1000 can be turned over relatively easily. In addition, since the first unlocking member 400 further includes the first return spring 420, when the clip absorbing member 200 absorbs the clip toy member 2000, the toy member 2000 pushes the first locking member 410 to move, so that the first locking member 410 moves to the unlocking position, and at the same time, the first return spring 420 is deformed and stores elastic potential energy. When the user removes the toy member 2000 from the clip 200, the first return spring 420 releases the stored elastic potential energy so that the first locking member 410 returns to the locking position, thereby facilitating the user to lock the actuating member to the first locking member 410. Meanwhile, since the linkage is provided between the first locking members 410 of the two unit toys 1000, it is ensured that when any one of the plurality of connected unit toys 1000 moves, the remaining first locking members 410 move simultaneously. The clamping and sucking combined toy 10000 can be overturned or deformed simultaneously in the playing process of the clamping and sucking combined toy 10000, so that the stability of the clamping and sucking combined toy 10000 is ensured, and the interestingness of the clamping and sucking combined toy 10000 is enhanced.

Specifically, as shown in fig. 7, the linkage device includes a first linkage assembly 430, the first linkage assembly 430 includes a linkage protrusion 432 and a linkage concave block 431, the linkage protrusion 432 and the linkage concave block 431 are disposed at two ends of the first lock 410 in a direction perpendicular to a moving direction thereof, and the linkage protrusion 432 of the single toy 1000 is adapted to be clamped with the linkage concave block 431 of an adjacent single toy 1000.

It can be understood that, when the abutting connection of two adjacent single toys 1000 is completed, the linkage concave block 431 of one single toy 1000 is inserted into the linkage convex block 432 of the other single toy 1000, so that the first locking pieces 410 of the two single toys 1000 are connected, thereby realizing that the first locking pieces 410 of the two single toys 1000 can be triggered simultaneously. Thereby, it is ensured that both the operation pieces can be simultaneously unlocked, so that both the single toys 1000 are simultaneously turned over. In the actual playing process, when at least one clamping piece 200 of two single toys 1000 is used for clamping the toy pieces 2000, the two single toys 1000 can be turned over simultaneously. Thus, the difficulty of triggering the overturning of the two monomer toys 1000 is reduced, and the playing experience of the player is improved.

In some embodiments, as shown in fig. 8 and 22-23, the linkage device includes a second linkage group 520, where the second linkage group 520 includes a linkage sleeve 521 and a linkage sleeve 522 disposed at two ends of the rotation shaft of the turning member 500, and the linkage sleeve 521 of the unit toy 1000 is adapted to be inserted into the linkage sleeve 522 of an adjacent unit toy 1000.

It can be appreciated that when the abutting of two adjacent single toys 1000 is completed, the linkage sleeve 521 of one single toy 1000 is inserted into the linkage sleeve 522 of the other single toy 1000, so that the turning pieces 500 of the two single toys 1000 are connected, thereby ensuring that when the first locking piece 410 releases the turning pieces 500, the turning pieces 500 of the two single toys 1000 can synchronously move, and the movement of the two single toys 1000 is more stable when turning due to the connection of the turning pieces 500 of the two single toys 1000.

Specifically, the linkage sleeve 521 is formed in an oblong shape, and the linkage sleeve 522 is formed in a shape corresponding to the linkage sleeve 521, whereby when the abutting of the adjacent two unit toys 1000 is completed, the relative rotation between the overturning members 500 of the two unit toys 1000 cannot occur, further ensuring that the movement of the two unit toys 1000 is more stable when overturning. Of course, the linkage post 521 and linkage sleeve 522 may be formed in other non-circular shapes.

In some embodiments, as shown in fig. 6 and 17, the second unlocking member 600 includes a second locking member 610 and a second return spring 620, where the second locking member 610 is movably disposed on the toy monomer 1000 between an unlocking position, in which the second locking member 610 locks the deformation member 700 to the fixing member 100, and a locking position, in which the second locking member 610 releases the deformation member 700 to unfold and deform the deformation member 700. The second return spring 620 is used to normally drive the second locking member 610 toward the locking position. Thus, when the second unlocking member 600 is triggered, the second locking member 610 moves to the unlocking position, so that the deformation member 700 is released from the second locking member 610 to complete the deformation. Such a structure is very simple and the deformation of the single toy 1000 is very convenient. In addition, since the second unlocking member 600 further includes the second return spring 620, when the second unlocking member 600 is triggered, the second locking member 610 moves to the unlocking position, and meanwhile, the second return spring 620 deforms to store elastic potential energy, and when the component triggering the second unlocking member 600 is removed, the elastic potential energy stored by the second return spring 620 is released, so that the second locking member 610 moves towards the locking position, and the user can restore the deformed member 700 conveniently.

In some embodiments, as shown in fig. 16-18 and 20, each monomer toy 1000 further includes a limiting device 900, where the limiting device 900 has at least a first action gear and a second action gear for the switching execution of the action members, and the trigger member 800 is correspondingly disposed in the clip member 200. The unlocking members include at least a first unlocking member 400 and a second unlocking member 600, and the unlocking device 900 is configured to link the triggering member 800 and the first unlocking member 400 in the first movement gear, and the unlocking device 900 is configured to link the triggering member 800 and the second unlocking member 600 in the second movement gear.

It will be appreciated that when the trigger member 800 is triggered by the toy member 2000 and the threshold release device 900 is in the first action position as shown in fig. 18, the trigger member 800 is linked with the first unlocking member 400, that is, the toy member 2000 triggers the first unlocking member 400, so that the single toy 1000 turns over, but does not deform. As shown in fig. 20, when the deblocking device 900 is in the second action gear, the triggering element 800 is linked with the second unlocking element 600, that is, the toy element 2000 triggers the second unlocking element 600, so that the single toy 1000 is deformed but not turned over. Therefore, the sequence of overturning and deforming the single toy 1000 can be realized, the playing method of the single toy 1000 is greatly enriched, and the interestingness of the single toy 1000 is increased. Of course, in some embodiments of the present invention, the single toy 1000 has a plurality of deformation members 700, and the first unlocking member 400 and the second unlocking member 600 are used for locking the deformation members 700, so that it can be ensured that the deformation sequences of the deformation members 700 on the single toy 1000 with different movement gears are different, and the interest of the single toy 1000 is greatly enriched.

Specifically, as shown in fig. 16 to 17, the deblocking device 900 includes a linkage rotation post 910 and a deblocking lever 920, the linkage rotation post 910 is rotatably provided on the fixing member 100, the deblocking lever 920 is movably provided on the fixing member 100, one end of the deblocking lever 920 is rotatably connected to the linkage rotation post 910, a connection point of the deblocking lever 920 to the linkage rotation post 910 is deviated from a rotation axis of the linkage rotation post 910, the other end of the deblocking lever 920 extends out of the fixing member 100, the second unlocking member 600 is movably connected to the deblocking lever 920, and a movement direction of the second unlocking member 600 is perpendicular to a movement direction of the deblocking lever 920. When the linkage rotating column 910 rotates to cut off the linkage between the trigger piece 800 and the first unlocking piece 400, the unlocking lever 920 drives the second unlocking piece 600 to be connected with the trigger piece 800, and the unlocking device 900 is in the second action gear. The linkage rotating column 910 rotates to be respectively linked with the trigger piece 800 and the first unlocking piece 400, the unlocking lever 920 drives the second unlocking piece 600 to be separated from the trigger piece 800, and the unlocking device 900 is in the first action gear.

It will be appreciated that the function of the de-limiting device 900 is to adjust the sequence of turning and deforming the single toy 1000, that is, when the de-limiting lever 920 drives the second unlocking member 600 to connect with the triggering member 800, the toy member 2000 triggers the second unlocking member 600 to deform the single toy 1000. When the unlocking lever 920 drives the second unlocking member 600 to disengage from the triggering member 800, the toy member 2000 triggers the first unlocking member 400, so that the single toy 1000 is turned over.

It should be noted that, in the embodiment of the present invention, the movement of the threshold release lever 920 may be driven by another one of the single toys 1000. Specifically, as shown in fig. 18, when there is only one single toy 1000, the restriction device 900 is in the first action gear, and when the trigger 800 is triggered, the single toy 1000 will turn over; as shown in fig. 20, when two single toys 1000 are present, one end of the release lever 920 extends out of the fixing member 100, so that when the two single toys 1000 are docked, the release lever 920 on one single toy 1000 interacts with the side wall of the fixing member 100 of the other single toy 1000, so that the release lever 920 moves, and the linkage rotating post 910 rotates, so that the release device 900 is switched from the first action gear to the second action gear, and at this time, when the trigger piece 800 is triggered, the two single toys 1000 are deformed simultaneously. In summary, the invention realizes that the single toy 1000 and the clamping linkage toy 10000 generate different motions when triggered by the toy piece 2000, has magic feeling and unpredictability for players, and meets the hunting hearts of children. Of course, in other embodiments of the present invention, when there is only one single toy 1000, the threshold release device 900 is in the second action gear, and when the trigger piece 800 is triggered, the single toy 1000 will deform, when there are two single toys 1000, because one end of the threshold release lever 920 extends out of the fixing piece 100, when two single toys 1000 are docked, the threshold release lever 920 on the same single toy 1000 will interact with the side wall of the fixing piece 100 of the other single toy 1000, so that the threshold release lever 920 moves, and the linkage rotating post 910 rotates, so that the threshold release device 900 is switched from the second action gear to the first action gear, and when the trigger piece 800 is triggered, the two single toys 1000 will simultaneously overturn.

More specifically, as shown in fig. 17, the linkage column 910 is provided with a linkage column 911, and the threshold release device 900 further includes a movable sleeve 930 and a movable plate 940 movably provided on the fixed member 100, wherein the movable sleeve 930 is sleeved on the linkage column 911. A movable plate 940 is provided between the trigger 800 and the movable sleeve 930. When the limiting device 900 is in the second action gear, the movable sleeve 930 is separated from at least one of the movable plate 940 and the first unlocking member 400, and when the limiting device 900 is in the first action gear, the movable sleeve 930 is stopped between the movable plate 940 and the first unlocking member 400.

It will be appreciated that, in the deformed gear, after the toy member 2000 triggers the trigger member 800, the trigger member 800 pushes the movable plate 940, and the movable plate 940 cannot push the movable sleeve 930 or the first unlocking member 400, thereby ensuring that the first unlocking member 400 is not triggered in the second action gear. Similarly, in the first action gear, it is ensured that the second unlocking member 600 is not triggered.

The clip-on linked toy 10000 according to two embodiments of the present invention will be described below with reference to fig. 1 to 23.

Example 1:

the specific structure of the single toy 1000 and the clip-on linkage toy 10000 according to an embodiment of the present invention will be described below with reference to fig. 1 to 10.

The monomer toy 1000 of the present embodiment has a normal configuration (as shown in fig. 1) and a deformed configuration (as shown in fig. 2).

As shown in fig. 1 to 4, the single toy 1000 of the present embodiment includes a fixing member 100, a clamping member 200 and a docking device 300, wherein the clamping member 200 is disposed on the fixing member 100, a first triggering position 110 is disposed on the fixing member 100, and the clamping member 200 can clamp the toy member 2000 to the first triggering position 110. The docking device 300 is provided on the fixing member 100, and any two single toys 1000 are detachably connected through the docking device 300. The docking device 300 and the clip absorbing member 200 are positioned at both left and right sides of the fixing member 100 so that any two single toys 1000 can absorb the clip toy member 2000 through the clip absorbing member 200 after being docked. The clamping piece 200 is a magnet block, and the toy piece 2000 is a toy coin with an iron core inside.

As shown in fig. 7, the docking device 300 includes two docking male terminals 310 and two docking female terminals 320, the docking male terminals 310 and the docking female terminals 320 are detachably provided on the fixing member 100, and two adjacent single toys 1000 are snap-connected through the docking male terminals 310 and the docking female terminals 320.

As shown in fig. 4 to 6, the single toy 1000 is provided with a first unlocking member 400 and a flipping member 500 engaged with the first unlocking member 400. The first unlocking piece 400 is arranged on the fixing piece 100, one end of the first unlocking piece 400 extends to the clamping piece 200, the overturning piece 500 is arranged at the bottom of the fixing piece 100, and the first unlocking piece 400 is in buckling connection with the overturning piece 500. When the clip absorbing member 200 absorbs the clip toy member 2000, the toy member 2000 triggers the first unlocking member 400, and the first unlocking member 400 triggers the rear tilting member 500 to pivot so that the single toy 1000 is emptied and flipped. As shown in fig. 6, the first unlocking member 400 includes a first locking member 410 and a first return spring 420, the first locking member 410 is movably disposed on the fixing member 100 between an unlocking position and a locking position, the first return spring 420 is used for normally driving the first locking member 410 to move toward the locking position, a first lock catch 411 for locking the turning member 500 is disposed on the first locking member 410, and one end of the first locking member 410 extends to the clamping member 200.

As shown in fig. 6, the first locking member 410 is further provided with a first linkage assembly 430, and the first linkage assembly 430 includes a linkage protrusion 432 and a linkage concave block 431, wherein the linkage protrusion 432 and the linkage concave block 431 are disposed at two ends of the first locking member 410 in a direction perpendicular to a moving direction thereof. The linking protrusion 432 of the single toy 1000 is suitable for being clamped with the linking concave block 431 of the adjacent single toy 1000, and the linking concave block 431 of the single toy 1000 is suitable for being clamped with the linking protrusion 432 of the adjacent single toy 1000.

As shown in fig. 8, a second linkage group 520 is further provided on the rotating shaft of the turnover member 500, and the second linkage group 520 includes a linkage sleeve 521 and a linkage sleeve 522 provided at both ends of the rotating shaft of the turnover member 500, and the linkage sleeve 521 of one single toy 1000 is adapted to be inserted into the linkage sleeve 522 of another single toy 1000.

As shown in fig. 3 and fig. 5-6, the single toy 1000 is further provided with a second unlocking member 600 and a deformation member 700 matched with the second unlocking member 600, the second unlocking member 600 is arranged on the fixing member 100, the deformation member 700 is arranged on the upper portion of the fixing member 100, and the second unlocking member 600 is in snap connection with the deformation member 700. When the clip absorbing member 200 absorbs the clip toy member 2000, the overturning member 500 triggers the second unlocking member 600, and the deforming member 700 expands and deforms after the second unlocking member 600 triggers, so that the single toy 1000 is deformed from the normal shape to the deformed shape. As shown in fig. 6, the second unlocking member 600 includes a second locking member 610 and a second return spring 620, the second locking member 610 is movably disposed on the fixing member 100 between an unlocking position and a locking position, the second return spring 620 is used for normally driving the second locking member 610 to move toward the locking position, a second lock 611 for locking the deformation member 700 is disposed on the second locking member 610, a turning block 510 capable of pushing the second locking member 610 to move toward the unlocking position after turning is disposed on the turning member 500, and the turning block 510 is formed as a second triggering position disposed on the turning member 500.

The shape of the deforming member 700 of the present embodiment is formed in a baton shape, but of course, in other embodiments, the deforming member 700 may be formed in a shape having a variety of shapes such as a shark, a black bear, and the like.

As shown in fig. 9, the docking device 300 of the two toy deformation vehicles of this embodiment can obtain the clip-pull linkage toy 10000 after docking, and the clip-pull linkage toy 10000 also has two forms, a normal form (as shown in fig. 9) and a deformed form (as shown in fig. 10).

The play method of the single toy 1000 of this embodiment is as follows:

firstly, the single toy 1000 of this embodiment is a toy car with coin-clamping and overturning deformation functions, the deformation member 700 is located above the fixing member 100, when the clamping member 200 is clamped to the toy member 2000, the toy member 2000 pushes the first locking member 410 of the first unlocking member 400 to move backwards, so that the clamping to the overturning member 500 is released, the overturning member 500 overturns backwards, the single toy 1000 is emptied and overturned, then the overturning block 510 on the overturning member 500 triggers the second unlocking member 600 again, so that the second locking member 610 of the second unlocking member 600 moves forwards, the clamping member 700 is released, the deformation member 700 is deformed, and the single toy 1000 is deformed into a deformed shape.

When the combination play is to be performed, the single toy 1000 is first adjusted back to the normal configuration, i.e., the vehicle configuration. The docking apparatus 300 of two single toys 1000 are then docked together, and the two single toys 1000 may be toy vehicles shaped by the same deformation member 700 or toy vehicles shaped by different deformation members 700. The combined assembly can also have play function, can push the clamping and sucking combined toy 10000 to clamp and suck the toy piece 2000, because the combined first trigger position 110 is wider, and the combined actions of the clamping and sucking pieces 200 are combined, the clamping and sucking combined toy 10000 can simultaneously clamp 2 or more toy pieces 2000, the first unlocking piece 400 is triggered to unlock after the clamping and sucking of the toy piece 2000, and because the first unlocking piece 400 is provided with the first linkage assembly 430 and the turnover piece 500 is provided with the second linkage assembly 520, the two turnover pieces 500 are simultaneously turned, the clamping and sucking combined toy 10000 is ensured to be stable in turning, and the deformation can be simultaneously triggered after the turning. It should be noted that, in theory, as long as the first locking member 410 of one of the single toys 1000 is pushed backward by the toy member 2000, that is, the clip-and-pull combined toy 10000 is clipped to each of the toy members 2000, the two first locking members 410 of the combined toy can be moved backward simultaneously to release the overturning of the overturning member 500.

Example 2:

a single toy 1000 and a clip-on linkage toy 10000 according to another embodiment of the present invention are described below with reference to fig. 11 to 23.

The single toy 1000 of this embodiment has two configurations, a normal configuration (as shown in fig. 11) and a deformed configuration (as shown in fig. 12). The clip-suction combined toy 10000 of this embodiment also has two forms, a normal form (as shown in fig. 13) and a deformed form (as shown in fig. 14).

As shown in fig. 15, the single toy 10001000 of the present embodiment includes a fixing member 100100 and a deforming member 700700, wherein a first triggering position 110 is provided on the fixing member 100100, the deforming member 700 includes a first deforming member 710 and a second deforming member 720, a first coin slot 711 is provided on the first deforming member 710, a second coin slot 721 is provided on the second deforming member 720, and the second coin slot 721 is formed as the second triggering position. The first coin slot 711 is located on the front side of the second coin slot 721, and the second coin slot 721 is located on the front side of the first trigger position 110. The first deformation member 710 is retractably disposed on the second deformation member 720, the first deformation member 710 is provided with a clamping member, the second deformation member 720 is provided with a clamping hole, and under normal conditions, the clamping member is matched in the clamping hole, so that the first deformation member 710 cannot be expanded relative to the second deformation member 720.

As shown in fig. 22-23, opposite sides of each single toy 1000 are provided with a docking device 300, the two single toys 1000 are arranged in parallel, the two single toys 1000 are connected through the docking device 300, the docking device 300 comprises a docking male terminal 310 and a docking female terminal 320, and the two single toys 1000 are connected in a snap fit manner through the docking male terminal 310 and the docking female terminal 320.

As shown in fig. 19 and 21, the fixing member 100 is provided with a first unlocking member 400 and a turning member 500 matched with the first unlocking member 400, and the first unlocking member 400 triggers the rear turning member 500 to pivot so as to empty and turn the single toy 1000. One end of the first unlocking member 400 extends to the first trigger position 110. The first unlocking member 400 includes a first locking member 410 and a first return spring 420, the first locking member 410 is movably disposed on the single toy 1000 between an unlocking position and a locking position, the first return spring 420 is used for normally driving the first locking member 410 to move towards the locking position, the first linkage assembly 430 is disposed between the first locking members 410 of two adjacent single toys 1000, and when any one of the two connected single toys 1000 moves, the remaining first locking members 410 move simultaneously. The first link assembly 430 includes a link protrusion 432 and a link recess 431 provided on the first lock 410, the link protrusion 432 and the link recess 431 being provided at both ends of the first lock 410 in a direction perpendicular to a moving direction thereof. When two single toys 1000 are in butt joint, the linkage lug 432 of one single toy 1000 is in plug-in fit with the linkage concave block 431 of the other single toy 1000.

As shown in fig. 17 to 18, the fixing member 100 is provided with a second unlocking member 600, and the second unlocking member 600 is in snap connection with the second deforming member 720. The second unlocking member 600 includes a second locking member 610 and a second return spring 620, the second locking member 610 being movably provided on the single toy 1000 between an unlocking position, in which the second locking member 610 locks the second deforming member 720 on the fixing member 100, and a locking position, in which the second locking member 610 releases the second deforming member 720 to unfold and deform the second deforming member 720, and the second return spring 620 is used to normally drive the second locking member 610 to move toward the locking position.

As shown in fig. 16 to 17, the fixing member 100 is further provided with a releasing device 900 and a triggering member 800, wherein the releasing device 900 has a switchable first action gear and a second action gear, and in the second action gear, the releasing device 900 is configured to link the triggering member 800 and the second unlocking member 600, and in the first action gear, the releasing device 900 is configured to link the triggering member 800 and the first unlocking member 400. As shown in fig. 17, the overrunning device 900 includes a linked rotation column 910, a overrunning lever 920, a movable sleeve 930, and a movable plate 940. The linkage rotating column 910 is rotatably arranged on the fixing piece 100, the limit releasing rod 920 is movably arranged on the fixing piece 100, one end of the limit releasing rod 920 is rotatably connected with the linkage rotating column 910, the connecting point of the limit releasing rod 920 and the linkage rotating column 910 deviates from the rotation axis of the linkage rotating column 910, the other end of the limit releasing rod 920 extends out of the fixing piece 100, the second unlocking piece 600 is movably connected on the limit releasing rod 920, and the moving direction of the second unlocking piece 600 is perpendicular to the moving direction of the limit releasing rod 920. The linkage rotating column 910 is provided with a linkage convex column 911, and the movable sleeve 930 is sleeved on the linkage convex column 911. A movable plate 940 is provided between the trigger 800 and the movable sleeve 930. When the limiting device 900 is in the deformation gear, the movable sleeve 930 is separated from the movable plate 940 and the first unlocking piece 400 is separated, and when the limiting device 900 is in the overturning gear, the movable sleeve 930 is stopped between the movable plate 940 and the first unlocking piece 400.

The single toy 1000 of this embodiment is a toy car with coin-clamping overturning and deforming functions, the first deforming member 710 is located above the fixing member 100, and when the clamping member 200 sucks the toy 2000 to the first coin-clamping opening 711, the unlocking member in the first deforming member 710 and the clamping member 200 move forward under the action of the toy 2000, so that the clamping member on the first deforming member 710 is disengaged from the clamping hole of the second deforming member 720, and the first deforming member 710 is unfolded and deformed. Since the second coin slot 721 of the toy member 2000 is positioned at the rear side of the first coin slot 711, the second coin slot 721 is exposed when the first deforming member 710 is deformed. When the clip sucking member 200 sucks the clip toy member 2000 into the second coin slot 721, the toy member 2000 first hits the trigger member 800, and as shown in fig. 18, since the trigger member 800 is staggered from the second unlocking member 600 at this time, the second locking member 610 of the second unlocking member 600 cannot be pushed to move toward the unlocking position while the trigger member 800 moves backward, that is, in the case of only one single toy 1000, the second deforming member 720 cannot be deformed when the clip sucking member 200 sucks the clip toy member 2000 into the second coin slot 721. As shown in fig. 18, in the case of only one single toy 1000, the trigger 800 is stopped against the movable plate 940, and the movable sleeve 930 is stopped between the movable plate 940 and the first unlocking member 400. That is, when the trigger 800 moves backward, the movable plate 940 is pushed to move backward, so that the movable plate 940 pushes the movable sleeve 930 to move backward, and the first unlocking member 400 moves backward, that is, the first locking member 410 moves toward the unlocking position, so that the first locking member 410 releases the overturning member 500, and the single toy 1000 is overturned.

The clip-suction linkage toy 10000 of this embodiment is formed by butting two identical single toys 1000 by the butting device 300, the first deformation member 710 of each single toy 1000 is located above the fixing member 100, when the clip-suction member 200 sucks the clip toy 2000 to the first coin slot 711, the unlocking member in the first deformation member 710 and the clip-suction member 200 move forward under the action of the toy 2000, so that the clamping member on the first deformation member 710 is disengaged from the clamping hole of the second deformation member 720, so that the first deformation member 710 is unfolded and deformed. Since the second coin slot 721 is located at the rear side of the first coin slot 711, the second coin slot 721 is exposed when the first deforming member 710 is deformed. When the clip sucking member 200 sucks the clip toy member 2000 to the second coin slot 721, the toy member 2000 first hits the trigger member 800. It should be noted that, one end of the release lever 920 of each of the single toys 1000 extends out of the fixing member 100, so that when the single toys 1000 are docked, the release lever 920 of one single toy 1000 is retracted into the fixing member 100 due to the blocking effect of the side wall of the fixing member 100 of the other single toy 1000. As shown in fig. 20 to 21, the movement of the release lever 920 drives the linkage rotary column 910 and the movable sleeve 930 connected to the linkage rotary column 910 to rotate, so that the movable sleeve 930 rotates from a position abutting between the movable plate 940 and the first unlocking member 400 to a position separated from the movable plate 940 and the first unlocking member 400. At this time, even if the movable plate 940 moves backward by the trigger 800, the movable sleeve 930 cannot push the first unlocking member 400 to move backward. That is, each of the individual toys 1000 cannot be flipped at this time. In addition, as shown in fig. 17, since the second unlocking member 600 is connected to the unlocking lever 920, when the unlocking lever 920 of one unit toy 1000 moves due to the blocking effect of the side wall of the fixing member 100 of the other unit toy 1000, the second unlocking member 600 also moves and moves to the position of the alignment triggering member 800. At this time, when the clip sucking member 200 sucks the clip toy member 2000 to the second coin slot 721, the toy member 2000 first hits the trigger member 800, and the trigger member 800 pushes the second unlocking member 600 to move backward, so that the second deforming member 720 is disengaged from the second locking member 610 and rotated counterclockwise. That is, when the clip sucking member 200 sucks the clip toy member 2000 to the second coin slot 721, the second deforming member 720 is deformed.

As shown in fig. 14, the first triggering position 110 is located at the rear side of the second coin slot 721, so that when the second deforming member 720 is deformed, the first triggering position 110 is exposed, and when the clip absorbing member 200 absorbs the clip toy member 2000 to the first triggering position 110, the toy member 2000 triggers the first unlocking member 400 so that the first locking member 410 moves backward, thereby releasing the flipping member 500 so that the two single toys 1000 are flipped synchronously.

In embodiment 2, the clip 200 is a magnet block, and the toy member 2000 is a toy coin having an iron core provided therein.

It should be noted that, in embodiment 2, during playing, the player may push the single toy 1000 forward, and suck and clip the toy pieces 2000 during the forward movement, so that the first deformation piece 710 of the single toy 1000 is deformed first, then the single toy 1000 will continue to move forward under the inertia effect, and further suck and clip the second toy piece 2000, and the whole single toy 1000 will turn over.

Of course, in some embodiments, an inertia wheel may be provided in the single toy 1000, so that a long distance can be sustained when the single toy 1000 is pushed forward, so that the single toy 1000 sequentially sucks and clamps the toy pieces 2000 twice in one pushing operation, so that the first deformation piece 710 expands and deforms and the single toy 1000 overturns, or the combined toy sequentially sucks and clamps the toy pieces 2000 three times after one pushing operation, so that the first deformation piece 710 and the second deformation piece 720 sequentially deform and the combined toy overturns.

The single toy 1000 of embodiment 1 and embodiment 2 is operable after being combined, for example, the toy piece 2000 is clamped, turned over, deformed, and the like, and has higher playability and stronger interest than the existing combined toy. The single toy 1000 itself is also operable and in combination is capable of producing play that is more superior to that of the single toy 1000, with a sense of curiosity and unpredictability for the player, satisfying the curiosity of the young child.

In the description of the present specification, reference to the terms "one embodiment," "some embodiments," "illustrative embodiments," "examples," "specific examples," or "some examples," etc., means 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, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. 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 present invention have been shown and described, it will be understood by those of ordinary skill in the art that: many changes, modifications, substitutions and variations may be made to the embodiments without departing from the spirit and principles of the invention, the scope of which is defined by the claims and their equivalents.

Claims (11)

1. The clamping and sucking linkage toy is characterized by comprising a plurality of single toys, wherein each single toy is provided with a clamping and sucking piece, an unlocking piece and an action piece, the unlocking piece extends to the clamping and sucking piece, and the action piece is matched with the unlocking piece;

a butt joint device and a linkage device are arranged between any two single toys, the butt joint device is connected between two adjacent single toys so that the two single toys can be detachably connected into a combined toy, and the linkage device is arranged on the unlocking piece so that the two adjacent unlocking pieces can be triggered in a linkage way;

when the clamping and sucking piece of any one of the single toys on the combined toy is clamped to a toy piece, driving the corresponding unlocking piece to be triggered, and simultaneously triggering all the unlocking pieces on the combined toy in a linkage way under the linkage of the linkage device so as to enable the action piece on the combined toy to execute actions in a linkage way;

each single toy comprises a fixing piece, the action piece at least comprises a deformation piece and a turnover piece, the deformation piece and the turnover piece are respectively and movably arranged on the fixing pieces, and the butt joint device is arranged between the fixing pieces of two adjacent single toys;

Each monomer toy further comprises a limit releasing device, the limit releasing device is at least provided with a first action gear and a second action gear for switching and executing the action parts, and a trigger part is correspondingly arranged in the clamping part;

the unlocking piece at least comprises a first unlocking piece and a second unlocking piece, the limiting unlocking device is configured to link the triggering piece and the first unlocking piece in a first action gear, and the limiting unlocking device is configured to link the triggering piece and the second unlocking piece in a second action gear.

2. The clip-on and pull-off linkage toy according to claim 1, wherein only one clip-on member is provided on each of the single toys, and the linkage is provided on the unlocking member located in the clip-on member.

3. A clip-on linked toy according to claim 2 wherein all of the clip-on members on the toy are integrated side-by-side into a clip-on assembly such that the clip-on assembly can collectively clip a plurality of the toy members.

4. The clip-on and pull-off linkage toy according to claim 1, wherein a plurality of clip-on members are provided on each of the single toys, and the linkage is provided on the unlocking member in at least one of the clip-on members.

5. The clip-on linkage toy according to claim 4, wherein all of the clip-on members of the linkage are integrated side-by-side into a clip-on assembly such that the clip-on assembly can collectively clip a plurality of the toy members.

6. The clip-on linkage toy according to claim 1, wherein the unlocking piece comprises a first unlocking piece and a second unlocking piece, the first unlocking piece is in buckling connection with the overturning piece, and the overturning piece pivots after the first unlocking piece is triggered to empty and overturn the single toy; the second unlocking piece is in buckle connection with the deformation piece, and the deformation piece is unfolded and deformed after the second unlocking piece is triggered.

7. The clip-on and pull-off toy according to claim 6, wherein a first trigger position is provided at the front end of the fixing member, one end of the first unlocking member extends to the first trigger position, a second trigger position is provided on the deforming member or the turning member, and one end of the second unlocking member extends to the second trigger position; wherein,

when the second trigger position is arranged on the deformation piece, the second trigger position is positioned at the front side of the first trigger position when the second trigger position is not triggered, and after the second trigger position triggers the second unlocking piece, the deformation piece deforms and exposes the first trigger position;

When the second triggering position is arranged on the overturning piece, after the first triggering position is triggered, the overturning piece overturns so that the second triggering position triggers the second unlocking piece, and after the second unlocking piece is triggered, the deformation piece is unfolded and deformed.

8. The clip and pull-in combination toy of claim 6, wherein the first unlocking member comprises: the first lock piece and the first reset spring, the first lock piece is movably arranged on the single toy between an unlocking position and a locking position, the first reset spring is used for driving the first lock piece to move towards the locking position, the linkage device is arranged between the first lock pieces of two adjacent single toys, and when any one of the plurality of connected single toys moves, the rest of the first lock pieces move simultaneously.

9. The clip-on linkage toy according to claim 8, wherein the linkage device comprises a first linkage group, the first linkage group comprises a linkage projection and a linkage concave block, the linkage projection and the linkage concave block are arranged at two ends of the first locking piece in a direction perpendicular to the moving direction of the first locking piece, and the linkage projection of the single toy is suitable for being clamped with the linkage concave block of the adjacent single toy.

10. The clip-on linkage toy according to claim 1, wherein the linkage device comprises a second linkage group, the second linkage group comprises a linkage sleeve column and a linkage sleeve which are arranged at two ends of a rotating shaft of the turnover piece, and the linkage sleeve column of the single toy is suitable for being spliced with the linkage sleeve of the adjacent single toy.

11. The clip and pull-in combination toy of claim 6, wherein the second unlocking member comprises: the second locking piece is movably arranged on the single toy between an unlocking position and a locking position, the second locking piece locks the deformation piece on the fixing piece in the locking position, and the second locking piece releases the deformation piece to enable the deformation piece to be unfolded and deformed in the unlocking position; the second return spring is used for normally driving the second locking piece to move towards the locking position.