CN212187808U - Bionic assembling toy - Google Patents

Abstract

The utility model discloses a bionic assembly toy, include: a support plate; a model body comprising a main body plate, a lower jaw plate and four limb plates; the power assembly comprises a gear set, a connecting rod set and a driving piece; an assembly member including a plurality of fixing members and a plurality of connecting members; the lower jaw plate and the four-limb plate are connected with the gear set through the connecting rod set, and the driving piece is connected with the input end of the gear set; compared with the prior art, the utility model discloses an assembly spare can be assembled model body and power component in the backup pad, after the toy is assembled successfully, starts the driving piece, and driving piece drive gear group to make the gear train drive the connecting rod group action, and then make the connecting rod group drive jaw plate and four limbs board action down, make the jaw plate luffing motion of the model body of toy, the four limbs swing of model body makes the interest of still having the play of the toy of assembling simultaneously.

Description

Bionic assembling toy

Technical Field

The utility model relates to a assemble model toy technical field, specifically, relate to a bionical toy of assembling.

Background

The existing toys for children in the market can be divided into assembled toys and assembly toys, the assembled toys can be played by children directly, are single in form and monotonous, and are not beneficial to the training of practical ability of the children; the assembly toy can cultivate the practical ability of children and can meet the requirement that parents and children participate together; however, most of the current assembly toys form a model after the toys are assembled, the model lacks play performance, the toy cannot meet the requirement that children like to be in a dynamic and boring state, once the model is assembled, the model becomes a swing part and cannot call the interest of the children, and the dynamic toys are assembled, so that the action is monotonous and swings, and the toy is not real and interesting enough.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to solve the problem that prior art exists, provide a bionical assembly toy.

A biomimetic construction toy, comprising:

a support plate;

the model body comprises a main body plate, a lower jaw plate and four limb plates;

the power assembly comprises a gear set, a connecting rod set and a driving piece;

the assembly part comprises a plurality of fixing parts and a plurality of connecting parts;

wherein, main part board and gear train pass through the mounting and install in the backup pad, and lower jaw board and four limbs board pass through the connecting piece and install in the main part board, and lower jaw board and four limbs board pass through the linkage and are connected with the gear train, and the driving piece is connected with the input of gear train, and the driving piece is used for driving gear train to make the gear train drive the linkage action, and then make the linkage drive lower jaw board and four limbs board action.

According to the utility model discloses an embodiment, the main part board includes main part board subassembly one, main part board subassembly two and main part board subassembly three, and main part board subassembly two is located between main part board subassembly one and the main part board subassembly three, and the mounting runs through main part board subassembly one, main part board subassembly two and main part board subassembly three and is fixed in the backup pad with the main part board.

According to the utility model discloses an embodiment, the quantity of second and third main part board subassemblies is two, and the bilateral symmetry of first main part board subassembly is equipped with second and third main part board subassembly in proper order.

According to the utility model discloses an embodiment, the quantity of lower jaw is two, and main part board front end both sides are located through the connecting piece symmetry to two lower jaws.

According to the utility model discloses an embodiment, two lower jaw plates are connected with the main part board through a connecting piece that runs through the main part board, and when the linkage drove lower jaw plate action, two lower jaw plates rotated around the main part board along with the connecting piece.

According to the utility model discloses an embodiment, four limbs board includes two hands boards and two leg boards, and two hands boards are connected in the main part board both sides through a connecting piece that runs through the main part board, and two leg boards are connected in the main part board both sides through a connecting piece respectively, and when the linkage drove four limbs board action, hands board and leg board rotated rather than the connecting piece of being connected on the main part board.

According to the utility model discloses an embodiment, every leg plate all includes thigh board and sole, and the thigh board passes through the connecting piece to be connected with the main part board, and the sole passes through the connecting piece to be connected with the thigh board, and when the linkage drove the leg plate action, the thigh board rotated rather than the connecting piece of being connected on the main part board, and the sole rotated rather than the connecting piece of being connected on the thigh board.

According to the utility model discloses an embodiment, the linkage includes two thigh board connecting rods, two sole connecting rods, chin board connecting rod and arm plate connecting rod, the gear train is connected to the one end of the thigh board connecting rod of every side, the other end is connected with the connecting piece of connecting thigh board and sole, the gear train is connected to the one end of the sole connecting rod of every side, the other end passes through the connecting piece and connects the sole, chin board connecting rod both ends all are connected with thigh board and chin plate respectively through a connecting piece, the one end of arm plate connecting rod is connected with the connecting piece of being connected the chin board connecting rod on the chin plate, the other end is connected with a connecting piece that runs through two arm plates.

According to the utility model discloses an embodiment, the gear train includes first gear baffle, second gear baffle, input gear, drive gear, output gear and pole wheel, and first gear baffle, second gear baffle pass through the mounting and install in the backup pad, and input gear, drive gear and output gear pass through the connecting piece and install between first gear baffle and second gear baffle, and the pole wheel is connected respectively in the outside of first gear baffle and second gear baffle through the connecting piece of installation output gear.

According to an embodiment of the present invention, the thigh plate connecting rod and the foot plate connecting rod of each side are respectively installed on the rod wheel through the connecting member provided on the rod wheel.

Compared with the prior art, the utility model discloses a bionical toy of assembling has following advantage:

the utility model discloses a bionical toy of assembling can assemble the backup pad with model body and power component through built-up member on, assemble successful back at the toy, start the driving piece, driving piece drive gear group, and make the gear train drive the action of connecting rod group, and then make the connecting rod group drive jaw plate and four limbs board action down, the jaw plate luffing motion of the model body of messenger's toy, present the action that the mouth closed, the four limbs swing of model body simultaneously, present the action of walking, make the taste of assembling still have the play.

Drawings

FIG. 1 is a schematic structural view of a bionic jigsaw puzzle of the present invention;

FIG. 2 is a schematic structural view of the bionic assembling toy of the present invention in another direction;

FIG. 3 is a schematic structural view of the support plate of FIG. 1;

FIG. 4 is a schematic diagram of the body model of FIG. 1;

FIG. 5 is an exploded view of FIG. 4;

FIG. 6 is a schematic view of the first/second gear spacer of FIG. 2;

FIG. 7 is a schematic illustration of the gear set with the first and second gear spacers removed;

FIG. 8 is a schematic view of the structure of FIG. 7 in another direction;

in the figure: 1. support plate, 11, main body plate fixing hole, 12, power assembly fixing hole, 2, model body, 21, main body plate, 211, main body plate assembly I, 212, main body plate assembly II, 213, main body plate assembly III, 2111, fixing hole, 2112, first main body plate assembly hole, 2113, second main body plate assembly hole, 2114, third main body plate assembly hole, 22, lower jaw plate, 221, lower jaw plate assembly hole, 222, lower jaw plate connecting rod assembly hole, 23, four limb plate, 231, hand plate, 2311, hand plate assembly hole, 2312, hand plate connecting hole, 232, leg plate, 2321, thigh plate, 23211, thigh plate mounting hole, 23212, foot plate connecting hole, 23213, lower jaw plate connecting rod connecting hole, 2322, foot plate, 23221, foot plate assembly hole, 23222, foot plate connecting rod mounting hole, 3, power assembly, 31, gear set, 311, first gear separator plate, 3111, input gear mounting hole, 3112, and input gear mounting hole, 3113. Drive gear mounting hole 3114, output gear mounting hole 312, second gear partition 313, input gear, 314, drive gear, 315, output gear, 316, rod wheel, 3161, thigh plate connecting rod connecting hole, 32, connecting rod group, 321, thigh plate connecting rod, 322, foot plate connecting rod, 323, lower jaw plate connecting rod, 324, hand plate connecting rod, 33, driving piece, 4 assembly piece, 41, fixing piece, 42, connecting piece

The utility model discloses realization and the advantage of function will combine the embodiment, will make further explanation with the attached drawing.

Detailed Description

In the following description, numerous implementation details are set forth in order to provide a more thorough understanding of the present invention. It should be understood, however, that these implementation details should not be used to limit the invention. That is, in some embodiments of the invention, details of these implementations are not necessary. In addition, some conventional structures and components are shown in simplified schematic form in the drawings.

It should be noted that all the directional indicators (such as upper, lower, left and right, front and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are only for description purposes, not specifically referring to the order or sequence, and are not intended to limit the present invention, but only to distinguish the components or operations described in the same technical terms, and are not to be construed as indicating or implying any relative importance or implicit indication of the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

For further understanding of the contents, features and effects of the present invention, the following embodiments are exemplified in conjunction with the accompanying drawings as follows:

referring to fig. 1 and 2, fig. 1 is a schematic structural view of the bionic construction toy of the present embodiment; fig. 2 is a schematic structural view of the bionic construction toy of the embodiment in another direction. As shown in the figures, the bionic construction toy comprises:

a support plate 1;

a model body 2, wherein the model body 2 comprises a main body plate 21, a lower jaw plate 22 and four limb plates 23;

the power assembly 3, the power assembly 3 includes the gear train 31, the connecting rod group 32 and the driving part 33;

an assembly 4, wherein the assembly 4 comprises a plurality of fixing pieces 41 and a plurality of connecting pieces 42;

the main body plate 21 and the gear set 31 are mounted on the support plate 1 through a fixing member 41, the lower jaw plate 22 and the four limb plate 23 are mounted on the main body plate 21 through a connecting member 42, the lower jaw plate 22 and the four limb plate 23 are connected with the gear set 31 through a connecting rod set 32, the driving member 33 is connected with an input end of the gear set 31, the driving member 33 is used for driving the gear set 31, the gear set 31 drives the connecting rod set 32 to move, and the connecting rod set 32 drives the lower jaw plate 22 and the four limb plate 23 to move.

In this embodiment, the model body 2 is a tyrannosaurus model, the main body plate 21 is shaped like a tyrannosaurus body, the upper jaw and the tail of the tyrannosaurus are formed at the front end and the rear end of the main body plate 21, and the lower jaw plate 22 is connected to the end of the main body plate 21 where the upper jaw is provided and corresponds to the upper jaw.

Referring to fig. 2, in the present embodiment, as shown in the drawing, the main body plate 21 includes a first main body plate assembly 211, a second main body plate assembly 212 and a third main body plate assembly 213, the number of the second main body plate assembly 212 and the third main body plate assembly 213 is two, each of the second main body plate assemblies 212 is disposed between the first main body plate assembly 211 and the third main body plate assembly 213, and the two sides of the first main body plate assembly 211 are symmetrically and sequentially disposed with the second main body plate assembly 212 and the third main body plate assembly 213. Referring to fig. 3 to 5, fig. 3 is a schematic structural view of the supporting plate in fig. 1; FIG. 4 is a schematic diagram of the body model of FIG. 1; fig. 5 is an exploded view of fig. 4. As shown in the figure, the supporting plate 1 is provided with a main body plate fixing hole 11 and a power assembly fixing hole 12, the main body plate assembly one 211, the main body plate assembly two 212 and the main body plate assembly three 213 are provided with fixing holes 2111 corresponding to each other, the fixing member 41 penetrates through the fixing holes 2111 of the main body plate assembly one 211, the main body plate assembly two 212 and the main body plate assembly three 213 and the main body plate fixing hole 11 of the supporting plate 1, the main body plate 21 is fixed to the supporting plate 1, and the main body plate assembly two 212 is arranged between the main body plate assembly one 211 and the main body plate assembly three 213.

Referring to fig. 4 and 5, in the present embodiment, as shown in the drawings, the number of the lower jaw plates 22 is two, and the two lower jaw plates 22 are symmetrically disposed on two sides of the front end of the main body plate 21 through the connecting member 42; the lower jaw plates 22 are provided with lower jaw plate assembly holes 221, the first main body plate assembly holes 2112 corresponding to the lower jaw plate assembly holes 221 are formed in the first main body plate assembly 211 and the second main body plate assembly 212, the connecting piece 42 penetrates through the lower jaw plate assembly holes 221 on the two lower jaw plates 22 and the first main body plate assembly holes 2112 on the first main body plate assembly 211 and the second main body plate assembly 212, and the two lower jaw plates 22 are fixedly connected with the connecting piece 42 and are respectively positioned outside the second main body plate assembly 212. When the linkage 32 drives the lower jaws 22 to move, the two lower jaws 22 rotate around the main body plate 21 along with the connecting piece 42.

In a specific application, the two lower jaw plates 22 can be driven by different connecting rods, or can be driven by the same connecting rod. To simplify assembly, in this embodiment, at least one lower jaw plate 22 is provided with a lower jaw plate link assembly hole 222, the linkage 32 is connected to one lower jaw plate 22 through a connecting member 42 passing through the lower jaw plate link assembly hole 222, and when the linkage 32 drives one lower jaw plate 22 to move, the other lower jaw plate 22 also moves under the action of the connecting member 42 connecting the two.

Referring to fig. 4 and 5, as shown in the figure, in the embodiment, the four-limb plate 23 includes two hand plates 231 and two leg plates 232, the two hand plates 231 are connected to two sides of the main body plate 21 through a connecting member 42 penetrating through the main body plate 21, the two leg plates 232 are connected to two sides of the main body plate 21 through a connecting member 42, respectively, and when the four-limb plate 23 is driven by the connecting rod group 32, the hand plates 231 and the leg plates 232 rotate around the connecting member 42 connected to the main body plate 21.

In particular, referring to fig. 5 again, as shown in the figure, in the present embodiment, the hand plate 231 is provided with the hand plate assembling holes 2311 and the hand plate connecting holes 2312, the first main body plate assembly 211 is provided with the second main body plate assembling holes 2113 corresponding to the hand plate assembling holes 2311, and the two hand plates 231 are connected to both sides of the first main body plate assembly 211 through the connecting member 42 penetrating through the hand plate assembling holes 2311 and the second main body plate assembling holes 2113. Referring to fig. 4 and 5 again, as shown in the figure, in order to make the motion more vivid when the leg plates 232 swing, each leg plate 232 includes a thigh plate 2321 and a foot plate 2322, the thigh plate 2321 is connected with the main body plate 21 through a connecting piece 42, the foot plate 2322 is connected with the thigh plate 2321 through a connecting piece 42, when the connecting rod group 32 drives the leg plate 232 to move, the thigh plate 2321 rotates around the connecting piece 42 connected with the main body plate 21, and the foot plate 2322 rotates around the connecting piece 42 connected with the thigh plate 2321; the movement of the leg plate 232 of the model body 2 is more refined and visualized. When the thigh plate assembly is used specifically, a thigh plate mounting hole 23211 and a foot plate connecting hole 23212 are arranged on the thigh plate 2321, a lower jaw plate connecting rod connecting hole 23213 is arranged on one of the thigh plates 2321, a third main body plate assembling hole 2114 corresponding to the thigh plate mounting hole 23211 is arranged on the main body plate assembly third 213, a foot plate assembling hole 23221 and a foot plate connecting rod mounting hole 23222 corresponding to the foot plate connecting hole 23212 are arranged on the foot plate 2322, the connecting piece 42 penetrates through the thigh plate mounting hole 23211 and the third main body plate assembling hole 2114 on the main body plate assembly third 213 to mount the thigh plate 2321 to the main body plate assembly third 213, and the connecting piece 42 penetrates through the foot plate connecting hole 23212 and the foot plate assembling hole 23221 to connect the foot plate 2322 to the thigh.

Referring to fig. 1, 4 and 5 again, as shown in the drawings, in the present embodiment, the linkage 32 includes two thigh plate links 321, two foot plate links 322, a lower jaw plate link 323 and a hand plate link 324, one end of each thigh plate link 321 is connected to the gear set 31, the other end is connected to the connecting member 42 passing through the foot plate connecting hole 23212 and the foot plate assembling hole 2114, one end of each foot plate link 322 is connected to the gear set 31, the other end is connected to the foot plate 2322 through the connecting member 42 passing through the foot plate link assembling hole 23222, one end of the lower jaw plate link 323 is connected to the lower jaw plate 22 through the connecting member 42 passing through the lower jaw plate link assembling hole 222, and the other end is connected to the thigh plate 2321 through the connecting member of the lower jaw plate link 23213 on the thigh plate 2321; one end of the hand plate link 324 is connected to the connecting member 42 of the lower jaw plate 22 passing through the lower jaw plate link assembly hole 222 and connected to the lower jaw plate link 323, and the other end is connected to a connecting member 42 passing through the hand plate connecting holes 2312 of the two hand plates 231, when the driving member 33 drives the gear set 31 to move, the two thigh plate links 321 and the two foot plate links 322 are driven by the gear set 31 to move and push or pull the thigh plate 2321 and the foot plate 2321 to move, when the thigh plate 2321 moves, the lower jaw link 333 connected to the thigh plate 2321 is driven to move, the lower jaw link 333 further drives the lower jaw plate 22 to move, and when the lower jaw plate 22 moves, the hand plate link 324 connected to the lower jaw plate 22 moves and further drives the hand plate 231 to move.

In particular, the thigh plate connecting rod 321 includes a connecting rod body and connecting rings disposed on two sides of the connecting rod body, and the connecting rings are used for connecting with the corresponding connecting members 42. The configurations of foot plate link 322, chin plate link 323, and hand plate link 324 are the same as those of thigh plate link 321, and will not be described in detail here.

In a specific application, two hand plate links 324 may be adopted, and each hand plate link 324 is connected to one hand plate 231. Referring to fig. 1, 4 and 5 again, in order to simplify the assembly, in the present embodiment, when the two hand plates 231 are mounted on the main body plate 21, they are fixed on the connecting member 42 passing through the hand plate mounting holes 2311 and the second main body plate mounting holes 2113, the hand plate link 324 is connected with the connecting member 42 passing through the hand plate connecting holes 2312 of the two hand plates 231, and when the hand plate link 324 moves along with the lower jaw plate 22, the hand plate link 324 drives the connecting member 42 passing through the hand plate connecting holes 2312 of the two hand plates 231 to move, so that the two hand plates 231 rotate around the connecting member 42 passing through the hand plates 231 and the main body plate 21 at the same time.

Referring to fig. 1, 2, 6 to 8, fig. 6 is a schematic structural view of the first gear spacer/the second gear spacer in fig. 2; FIG. 7 is a schematic illustration of the gear set with the first and second gear spacers removed; fig. 8 is a schematic structural view in another direction of fig. 7. As shown, the gear set 31 includes a first gear separator 311, a second gear separator 312, an input gear 313, a transmission gear 314, an output gear 315, and a lever wheel 316, the first gear separator 311 and the second gear separator 312 are provided with a separator fixing hole 3111, an input gear mounting hole 3112, a transmission gear mounting hole 3113, and an output gear mounting hole 3114 corresponding to each other, the first gear separator 311 and the second gear separator 312 are mounted to the support plate 1 by penetrating through the power assembly fixing hole 12 and the separator fixing hole 3111 fixing member 41, the input gear 313 is mounted between the first gear separator 311 and the second gear separator 311 by penetrating through the input gear mounting hole 3112 on the first gear separator 311 and the second gear separator 312, the transmission gear 314 is mounted between the first gear separator 311 and the second gear separator by penetrating through the transmission gear mounting hole 3113 on the first gear separator 311 and the second gear separator 312, the output gear 315 is installed between the first gear spacer 311 and the second gear spacer 312 by an output gear installation hole 3114 passing through the first gear spacer 311 and the second gear spacer 312, and the lever wheel 316 is connected to the outer sides of the first gear spacer 311 and the second gear spacer 312 by a connection member 42 for installing the output gear 315, respectively.

Referring to fig. 7 and 8, in a specific application, as shown in the figure, the number of the input gears 313 is two, the two input gears 313 are both installed between the first gear partition 311 and the second gear partition 312 through the connecting member 42 and are meshed with each other, wherein an input end of one input gear 313 is connected with the driving member 33, and the other input gear 313 is meshed with the transmission gear 314.

Referring to fig. 7 and 8, as shown, the driving gear 314 includes a large gear and a small gear, the large gear and the small gear are installed between the first gear spacer 311 and the second gear spacer 312 through the same connecting member 42, the large gear is engaged with the input gear 313, and the small gear is engaged with the output gear 315.

Referring to fig. 7 and 8, each lever wheel 316 is provided with a thigh plate link coupling hole 3161, and the thigh plate link 321 and the foot plate link 322 on each side are respectively mounted on the lever wheel 316 by a connecting member 42 passing through the thigh plate link coupling hole 3161 on the lever wheel 316, as shown in the drawings.

The driving member 33 may be driven by an electric motor or a manual motor. In order to make the bionic assembling toy play interesting after being assembled, the driving part 33 is driven manually in the embodiment. Referring to fig. 1, 7 and 8 again, as shown in the figure, the driving member 33 is a handle, the handle is connected to the connecting member 42 provided with the input gear 313, the connecting member 42 provided with the input gear 313 drives the input gear 313 to rotate by swinging the handle, the input gear engaged with the transmission gear 314 rotates and drives the transmission gear 314 to rotate, the transmission gear 314 further drives the output gear 315 to rotate, the connecting member 42 provided with the output gear 315 rotates and further drives the lever wheel 316 to rotate, the lever wheel 316 rotates and drives the thigh plate 2321 and the foot plate 2321 to swing, the thigh plate 2321 simultaneously swings and drives the lower plate connecting rod 323 to move, so that the lower plate connecting rod 323 drives the lower jaw plate 22 to swing, the lower jaw plate 22 simultaneously swings and drives the hand plate connecting rod 324 connected to the lower jaw plate 22 to move, and the hand plate connecting rod 324 further drives the hand plate 231 to swing.

The assembly of the bionic construction toy of the embodiment comprises the following steps:

assembling the hand plate 231 to the first body plate assembly 211: the two hand plates 231 are assembled with the first body plate assembly 211 by inserting the connecting member 42 through the hand plate assembly holes 2311 of the hand plates 231 and the second body plate assembly holes 2113 of the first body plate assembly 211, so that the connecting member 42 can rotate around the first body plate assembly 211, and the two hand plates 231 are mounted on both sides of the first body plate assembly 211 and fixedly connected with the connecting member 42.

Assembling the thigh plate 2321 to the main body plate assembly three 213: the thigh plate 2321 is assembled to the main body plate assembly three 213 with a link 42 passing through the thigh plate mounting hole 23211 and the third main body plate mounting hole 2114 of the main body plate assembly three 213, and both the thigh plate 2321 and the main body plate assembly 213 are rotatably coupled to the link 42.

Fixing the main body plate 21 to the support plate 1: the main body plate assembly one 211, the main body plate assembly two 212 and the main body plate assembly three 213 are assembled on the supporting plate 1 by a fixing piece 41 which penetrates through the main body plate fixing hole 11 on the supporting plate 1 and the fixing holes 2111 which are arranged on the main body plate assembly one 211, the main body plate assembly two 212 and the main body plate assembly three 213 and correspond to each other, so that the main body plate assembly two 212 and the main body plate assembly three 213 are symmetrically arranged on two sides of the main body plate assembly one 211 in sequence, and the thigh plate 2321 connected to each main body plate assembly three 213 is positioned on the outer side of the main body plate assembly three 213.

Assembling the lower jaw 22 to the main body plate 21: the two lower jaws 22 are assembled with the first body plate assembly 211 and the second body plate assembly 212 by a connecting member 42 passing through the lower jaw plate assembly holes 221 of the two lower jaws 22 and the first body plate assembly 2112 of the first body plate assembly 211 and the second body plate assembly 212, so that the connecting member 42 can rotate around the first body plate assembly 211 and the second body plate assembly 212, and the two lower jaws 22 are fixedly connected with the connecting member 42.

Assembling the foot plate 2322 and one end of the thigh plate link 321 to the thigh plate 2321: the foot plate 2322 and one end of the thigh plate link 321 are assembled to the thigh plate 2321 with an attachment member 42 passing through the foot plate attachment hole 23212 and the foot plate mounting hole 23221.

Assembling lower plate link 323 and hand plate link 324 to lower plate 22: one end of lower plate link 323 and hand plate link 324 is simultaneously assembled to one of lower jaws 22 by a connecting member 42 passing through lower plate link mounting hole 222.

Assembling chin plate link 323 to thigh plate 2321: the other end of the lower plate link 323 is assembled to the thigh plate 2321 with a link 42 passing through the lower plate link attachment hole 23213.

Assembling the hand plate link 324 to the hand plate 231: the two hand plates 231 are assembled together by a coupling member 42 passing through the hand plate coupling hole 2312, and the other end of the hand plate link 324 is assembled between the two hand plates 231 through the coupling member 42.

Assembling the foot plate link 322 to the foot plate 2322: one end of foot plate link 322 is assembled to foot plate 2322 with a connector 42 that passes through the foot plate link mounting hole.

Assembling the gear set 31: the input gear 313, the transfer gear 314, the output gear 315, and the lever wheel 316 are assembled to the first gear spacer 311 and the second gear spacer 312 by the coupling member 42 passing through the input gear mounting hole 3112, the transfer gear mounting hole 3113, and the output gear mounting hole 3114, respectively, such that the input gear 313, the transfer gear 314, and the output gear 315 are positioned between the first gear spacer 311 and the second gear spacer 312 and engaged with each other, and the two lever wheels 316 are mounted to both sides of the coupling member 42 passing through the output gear mounting hole 3114, respectively, such that the two lever wheels 316 are positioned outside the first gear spacer 311 and the second gear spacer 312, respectively.

Assembling the gear set 31 to the support plate 1: the first gear spacer 311 and the second gear spacer 312 are fixed to the support plate 1 with a fixing member 41 passing through the power unit fixing hole 12 and the spacer fixing hole 3111.

Assembly of thigh link 321 and foot link 322 to lever wheel 316: the thigh plate link 321 and the foot plate link 322 on each side are assembled to the lever wheel 316 on the side thereof using the link 42 passing through the thigh plate link coupling hole 3161.

Assembling the drive 33 to the input gear 313: the drive member 33 is assembled to the connecting member 42 of one of the input gears 313, the input gear 313 not being engaged with the transmission gear 314.

When the assembly is finished and the playing is finished: the handle is shaken, the connecting piece 42 provided with the input gear 313 drives the input gear 313 to rotate, so that the input gear meshed with the transmission gear 314 rotates and drives the transmission gear 314 to rotate, the transmission gear 314 further drives the output gear 315 to rotate, the connecting piece 42 provided with the output gear 315 rotates and further drives the rod wheel 316 to rotate, the rod wheel 316 rotates and drives the thigh plate 2321 and the foot plate 2321 to swing, the thigh plate 2321 simultaneously swings and drives the lower jaw plate connecting rod 323 to move, so that the lower jaw plate connecting rod 323 drives the lower jaw plate 22 to swing, the lower jaw plate 22 simultaneously swings and drives the hand plate connecting rod 324 connected with the lower jaw plate 22 to move, and the hand plate connecting rod 324 further drives the hand plate 231 to swing; the whole toy is in a walking state that the lower jaw plate 22 of the body model 2 is continuously opened and closed and the four limbs are continuously swung.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modification, equivalent replacement or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A bionic jigsaw toy, which is characterized in that, comprises:

a support plate (1);

a model trunk (2), wherein the model trunk (2) comprises a main body plate (21), a lower jaw plate (22) and four limb plates (23);

the power assembly (3), the said power assembly (3) includes the gear train (31), linkage (32) and driving part (33);

an assembly (4), said assembly (4) comprising a number of fixing elements (41) and a number of connecting elements (42);

wherein, main part board (21) with gear train (31) pass through mounting (41) install in backup pad (1), lower jaw board (22) reach four limbs board (23) pass through connecting piece (42) install in main part board (21), lower jaw board (22) and four limbs board (23) pass through linkage (32) with gear train (31) are connected, driving piece (33) with the input of gear train (31) is connected, driving piece (33) are used for the drive gear train (31), and make gear train (31) drive linkage (32) action, and then make linkage (32) drive lower jaw board (22) and four limbs board (23) action.

2. The biomimetic construction toy according to claim 1, wherein the main body plate (21) comprises a first main body plate assembly (211), a second main body plate assembly (212) and a third main body plate assembly (213), the second main body plate assembly (212) is disposed between the first main body plate assembly (211) and the third main body plate assembly (213), and the fixing member (41) penetrates through the first main body plate assembly (211), the second main body plate assembly (212) and the third main body plate assembly (213) to fix the main body plate (21) to the support plate.

3. The biomimetic construction toy according to claim 2, wherein the number of the second main body plate assembly (212) and the third main body plate assembly (213) is two, and the second main body plate assembly (212) and the third main body plate assembly (213) are symmetrically arranged on both sides of the first main body plate assembly (211) in sequence.

4. The bionic assembling toy as claimed in claim 1, wherein the number of the lower jaw plates (22) is two, and the two lower jaw plates (22) are symmetrically arranged at both sides of the front end of the main body plate (21) through connecting pieces (42).

5. The bionic assembling toy as claimed in claim 4, wherein the two lower jaws (22) are connected to the main body plate (21) through a connecting member (42) penetrating through the main body plate (21), and when the connecting rod set (32) drives the lower jaws (22) to move, the two lower jaws (22) rotate around the main body plate (21) along with the connecting member (42).

6. The bionic assembling toy as claimed in claim 1, wherein the four-limb plates (23) comprise two hand plates (231) and two leg plates (232), the two hand plates (231) are connected to both sides of the main body plate (21) through a connecting member (42) penetrating through the main body plate (21), the two leg plates (232) are connected to both sides of the main body plate (21) through a connecting member (42), respectively, and when the connecting rod set (32) drives the four-limb plates (23) to move, the hand plates (231) and the leg plates (232) rotate around the connecting member (42) connected to the main body plate (21).

7. The bionic assembling toy as claimed in claim 6, wherein each of the leg plates (232) comprises a thigh plate (2321) and a foot plate (2322), the thigh plate (2321) is connected with the main body plate (21) through the connecting piece (42), the foot plate (2322) is connected with the thigh plate (2321) through the connecting piece (42), when the connecting rod set (32) drives the leg plate (232) to move, the thigh plate (2321) rotates around the connecting piece (42) connected with the main body plate (21), and the foot plate (2322) rotates around the connecting piece (42) connected with the thigh plate (2321).

8. The bionic construction toy according to claim 7, wherein the linkage (32) comprises two thigh plate links (321), two foot plate links (322), a lower jaw plate link (323) and a hand plate link (324), one end of the thigh plate link (321) at each side is connected with the gear set (31), the other end is connected with a connecting member (42) connecting the thigh plate (2321) and the foot plate (2322), one end of the foot plate link (322) at each side is connected with the gear set (31), the other end is connected with the foot plate (2322) through the connecting member (42), both ends of the lower jaw plate link (323) are respectively connected with the thigh plate (2321) and the lower jaw plate (22) through one connecting member (42), one end of the hand plate link (324) is connected with the connecting member (42) on the lower jaw plate (22) connecting the lower jaw plate link (323), the other end is connected with a connecting piece (42) which penetrates through the two hand plates (231).

9. The bionic assembling toy of claim 8, wherein the gear set (31) comprises a first gear separator (311), a second gear separator (312), an input gear (313), a transmission gear (314), an output gear (315) and a rod wheel (316), the first gear separator (311) and the second gear separator (312) are mounted on the supporting plate (1) through the fixing member (41), the input gear (313), the transmission gear (314) and the output gear (315) are mounted between the first gear separator (311) and the second gear separator (312) through the connecting member (42), and the rod wheel (316) is respectively connected to the outer sides of the first gear separator (311) and the second gear separator (312) through the connecting member (42) for mounting the output gear (315).

10. The biomimetic construction toy according to claim 9, wherein the thigh plate link (321) and the foot plate link (322) of each side are respectively mounted on the lever wheel (316) through a connection member (42) provided on the lever wheel (316).

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