CN222130971U - Building block man with anthropomorphic structure - Google Patents

Abstract

The utility model discloses a anthropomorphic building block, which comprises a head, an upper half building block assembly and a lower half building block assembly, wherein the upper half building block assembly and the lower half building block assembly respectively comprise a trunk bone building block assembly, an upper limb bone building block assembly formed by humerus, ulna, a lower limb bone building block assembly formed by trunk, big arms, small arms and other shells, a hand building block assembly, a crotch bone building block assembly, a lower limb bone building block assembly formed by big legs and small legs, a lower half shell and a foot building block assembly formed by crotch bones, thighs, small legs and other shells, and a layer of clothing building block assembly is arranged on the surface of all or any one of the upper half shell and the lower half shell, and the building block assemblies are assembled and combined according to a human body structure. Through the structure, the structure layer of the building block man simulates a human body structure and actions close to reality, not only can the knowledge and interest of children on the human body foundation be increased, but also educational significance and entertainment are achieved, meanwhile, the building block man with diversified body forms and clothes can be created, and the creativity and imagination of the children are improved.

Description

Building block man with anthropomorphic structure

Technical Field

The utility model relates to the field of building block toys, in particular to a building block person with an anthropomorphic structure.

Background

A building block is a toy, consisting of a plurality of small blocks, which can be constructed in various shapes and structures by connection and stacking. Each building block is of a particular shape and size and typically has grooves and protrusions that allow them to be embedded and secured to each other, and they are typically of different colors and patterns to increase attractiveness and stimulate child imagination and creativity.

At present, human-shaped building blocks are roughly classified into furnishings and movable types. The furnishing type humanoid building blocks generally provide fixed splicing steps and schemes, and once the steps are finished, the overall modeling and actions of the furnishing type humanoid building blocks are stiff, and free combination and appearance collocation cannot be carried out according to the preference and imagination of children, so that flexibility and diversity are lacking, and the imagination and creativity of the children cannot be really stimulated. The movable humanoid building blocks are generally composed of building blocks such as trunk, head, upper limbs, lower limbs and the like. Then, the trunk is connected with the head, the upper limbs and the lower limbs by adopting movable structures, so that the humanoid building blocks can make limited actions. In addition, the surfaces of the trunk, the limbs and the head are provided with integrated clothes and hairstyles, so that more details and changes in appearance can be added to the human-shaped building blocks. However, the human body structures of the human-shaped building blocks, whether the human-shaped building blocks are of the furnishings or the movable types, are relatively simple, and are not distinguished from structural layers such as bones, bodies and clothes of the human body, namely, the trunk, the head and the limbs are formed by adopting single shells or solid bodies, so that the human-shaped building blocks have poor human body simulation property, cannot help children to better know and recognize the basic structural knowledge of the human body, lack educational significance, and cannot better exert imagination and creativity of the children.

Chinese patent specification (bulletin number: CN 214551181U) discloses a toy building block doll, which comprises a body block 1, a head block 2, two arm blocks 3, a waist block 4 and two leg blocks 5. The body block 1 is connected with a neck connecting body 11 which is used for being movably connected with the head block 2, the two arm blocks 3 are respectively and movably connected to two sides of the body block 1, the waist block 4 is rotatably connected to the body block 1, and the two leg blocks 5 are respectively and movably connected to two sides of the waist block 4. The toy bricks are movably connected among all the parts of the toy, are more similar to the structures of people, and have more vivid movements. Therefore, the structure layer of the toy building block is of a single-layer structure, and has no structure layers such as bones and clothes, so that the problem of insufficient human body simulation is also solved, the child cannot know the basic structure knowledge of the human body, and the toy building block cannot be freely combined according to the preference and imagination of the child, so that the appearance of the toy building block is changed, such as figure, clothes and the like.

The inventor has designed the related experience of the toy field for years, considers the structural optimization of products, and makes the invention through multiple experiments and improvement.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model aims to provide a movable anthropomorphic building block with a three-layer assembly structure comprising human bones, human bodies, clothes and the like.

In order to achieve the above object, the present utility model provides a anthropomorphic structured toy figure comprising a head toy figure, an upper body toy figure and a lower body toy figure, wherein the upper body toy figure comprises a trunk toy figure, two upper limb toy figures and an upper body shell which is a flesh, the upper end of the trunk toy figure is provided with a neck vertebra, the neck vertebra and the head toy figure are movably spliced through the neck vertebra, shoulder blades are respectively arranged on two sides of the neck vertebra, the shoulder blades are movably spliced with the two upper limb toy figures through the shoulder blades, each upper limb toy figure comprises a radius toy figure and a ulna toy figure which are detachably spliced, and the upper body toy figure is sequentially movably spliced, wherein the other end of the humerus toy figure is used for being movably spliced with the corresponding shoulder blade, and the upper body shell comprises a trunk shell, a big arm shell and a small arm shell which are respectively coated on the surfaces of the trunk toy figure, the radius toy figure and the ulna toy figure in a spliced manner, and a hand part spliced with the upper limb toy figure; the lower body building block component comprises a crotch building block piece, two lower limb building block pieces and a lower body shell body serving as a flesh body, wherein the upper end of the crotch building block piece is movably spliced with the trunk building block piece, two sides of the lower end of the crotch building block piece are respectively movably spliced with the two lower limb building block pieces, each lower limb building block piece comprises a femur building block piece and a lower leg building block piece which are detachably spliced, and are sequentially movably spliced, wherein the other end of the femur building block piece is used for being movably spliced with the crotch building block piece, the lower body shell body comprises a crotch shell body, a thigh shell body and a lower leg shell body which are respectively coated on the surfaces of the crotch building block piece, the thigh building block piece and the lower leg building block piece in a splicing mode, the foot building block is spliced with the lower limb bone building block, and a layer of clothing building block assembly is further arranged on the surface of all or any one of the upper body shell and the lower body shell and is connected through a splicing structure.

The utility model further provides a anthropomorphic building block, wherein the humerus building block, the ulna radius building block, the femur building block and the lower leg building block are spliced with the corresponding shells in a sleeving manner.

The utility model further provides a anthropomorphic building block, and an inserting and pulling type buckle structure is arranged between the humerus building block, the ulna radius building block, the femur building block and the lower leg building block and the corresponding shell.

The utility model further provides a anthropomorphic building block, wherein guide grooves and guide blocks which are matched with each other are arranged between the humerus building block, the ulna radius building block, the femur building block and the lower leg building block and the corresponding shell for guiding and splicing.

The utility model further provides a anthropomorphic building block, and a shoulder building block which is movably spliced with the shoulder blade and the corresponding humerus building block is also arranged between the shoulder blade and the corresponding humerus building block.

The utility model further provides a anthropomorphic-structured toy man, one end of the shoulder toy building piece is connected with the shoulder blade through a ball socket, the other end of the shoulder toy building piece is connected with the humerus toy building piece through a plug and a jack in a plugging mode and movably rotates, an annular bulge and an annular buckling position are arranged between the plug and the jack to be matched and limited, meanwhile, a socket groove is formed in a large arm shell arranged on the surface of the humerus toy building piece and used for accommodating the plugging end between the shoulder toy building piece and the humerus toy building piece, and the shoulder toy building piece can rotate and move in the socket groove.

The utility model further provides a building block person with the anthropomorphic structure, and the head building block assembly is formed by splicing a plurality of head shells.

The utility model further provides a anthropomorphic-structure building block man, the surface of the head building block assembly is also spliced with a detachable hair building block assembly, and the hair building block assembly is formed by splicing at least two hair blocks.

The utility model further provides a human-simulated-structure building block, wherein the hair building block assembly of the human-simulated-structure building block comprises two side hair blocks, a top hair block and a rear hair block, and an inserting structure is further arranged between the rear hair block and the two side hair blocks for mutual constraint.

The utility model further provides a toy figure with an anthropomorphic structure, and a detachable head ornament toy figure is arranged on the surface of any hair block.

The utility model further provides a anthropomorphic juggler, wherein the trunk building block piece and the crotch building block piece are connected by adopting a ball-and-socket structure.

The utility model further provides a anthropomorphic building block man, wherein the splicing structure of the clothing building block assembly is any one of an inserting structure and a ball socket structure.

The utility model further provides a building block man with an anthropomorphic structure, wherein the clothes building block assembly comprises a chest armor, a shoulder armor, an arm armor, a skirt armor, a leg armor and a mantles, and the chest armor, the shoulder armor, the arm armor, the skirt armor, the leg armor and the mantles are spliced with corresponding shells respectively.

The utility model further provides a building block man with an anthropomorphic structure, wherein the skirt armor is composed of a front support and a rear support, a plurality of skirt armor plates are arranged at the lower ends of the front support and the rear support and are enclosed into a circle, and each skirt armor plate is connected with the front support and the rear support by adopting a clamping fork opening and a shaft body in a matched and buckling manner, so that the skirt armor plates can rotate and move.

Compared with the prior art, the building block assembly of the building block person is divided into the skeleton building block assembly, the shell building block assembly serving as a body, the clothing building block assembly and the like, and the building block assembly, the shell building block assembly and the clothing building block assembly are assembled and spliced in sequence according to the logic sequence of the skeleton, the shell and the clothing, and meanwhile, each connecting joint is movable and can swing and present various different shapes, so that the structural layer of the building block person can simulate a structure and actions of a human body which are more similar to reality, the knowledge and interest of children on the human body foundation can be increased, and the building block has educational significance and entertainment. In addition, can also through providing multiple building block assembly for casing building block assembly and clothing building block assembly can freely make up and splice, thereby creates the building block people that the body form, dress were adorned more diversified, can increase children's creativity and imagination through this diversified combination mode, also increase the change and the interest of playing method simultaneously.

Drawings

Fig. 1 is an exploded view of a bone according to the present utility model.

Fig. 2 is an exploded view of the bone and shell of the present utility model.

Fig. 3 is a cross-sectional view of the upper limb structure of the present utility model.

Fig. 4 is a cross-sectional view of the lower limb structure of the present utility model.

Fig. 5 is a view showing a structure of a head portion of the present utility model.

Fig. 6 is a hair structure diagram of the present utility model.

Fig. 7 is a schematic view of the present utility model after splicing of the apparel-building block assembly.

Fig. 8 is a diagram showing the construction of a skirt armor according to the present utility model.

Reference numeral 1-torso bone building block piece; 1a, cervical vertebra; 1 b-left scapula; 1 c-right shoulder blade, 1 d-protruding peg, 2-upper limb blade, 2 a-shoulder blade, 2 b-humerus blade, 2 c-ulna blade, 3-crotch blade, 3 a-left connecting rod, 3 b-right connecting rod, 4-lower limb blade, 4 a-thigh blade, 4 b-shank blade, 5-torso front shell, 6-torso rear shell, 7-thigh shell, 7 a-socket, 8-forearm shell, 9-hand blade, 10-crotch front shell, 11-crotch rear shell, 12-thigh shell, 13-shank shell, 14-foot blade, 15-head blade assembly, 15 a-head front shell, 15 b-left shell, 15 c-right shell, 15 d-bottom shell, 16-head blade, 16 a-left hair piece, 16 b-right hair piece, 16 c-rear hair piece, 16 d-top hair piece, 17-neck shell, 17-thigh front shell, 11-crotch rear shell, 12-thigh front shell, 13-shank shell, 14-foot blade, 15-head blade assembly, 15 a-head front shell, 15 b-left shell, 15 c-right side shell, 15 d-right side shell, 16 a-left hair piece, 16 a-rear hair piece, 16 d-rear hair piece, 16-front shell, 17-head arm front shell, 21-rear shell, 21-front and 21 a-leg front shell, 21 a-rear shell, 21-front and 21-leg front and support frame parts, 21 a-front shell.

Description of the embodiments

In order to make the objects, technical solutions and advantageous effects of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it should be noted that the described embodiments are only some embodiments of the present utility model, but not all embodiments.

As shown in fig. 1 and 2, the present embodiment is a anthropomorphic building block, which is mainly composed of three parts, i.e., an upper building block assembly, a lower building block assembly, and a head building block assembly, wherein the building block assemblies can be disassembled and assembled by means of movable connection or non-movable connection, so as to form a movable human-shaped building block toy.

The upper body building block assembly comprises a trunk bone building block piece 1, two upper limb bone building block pieces 2 and an upper body shell used as a flesh. The trunk bone building block piece is a plate-shaped block, the front and the back of the trunk bone building block piece are provided with a plurality of convex splicing columns 1d which are alternately arranged, and the convex splicing columns are distributed and arranged in a T shape. The top end of the trunk bone building block piece is provided with a cervical vertebra 1a which is a rod-shaped body, and one end of the cervical vertebra, which is far away from the trunk bone building block piece, is provided with a sphere. Meanwhile, the symmetrical parts at the two sides of the top end of the trunk bone building block piece are respectively provided with a shoulder blade which is a rod-shaped body, the shoulder blades are respectively used as a left shoulder blade 1b and a right shoulder blade 1c of a human skeleton, and one ends of the two shoulder blades far away from the trunk bone building block piece are respectively provided with a sphere. In addition, a splicing hole is arranged in the middle of the bottom surface of the lower end of the trunk bone building block piece, and the splicing hole can be spliced and combined with the relevant joint part of the lower body building block component.

The two upper limb bone building blocks 2 are respectively a left upper limb bone building block and a right upper limb bone building block which are symmetrically arranged, and correspond to the left scapula 1b and the right scapula 1c respectively. Furthermore, each upper limb bone building block comprises a detachable assembled humerus building block 2b and a ulna radius building block 2c. The upper end of the humerus building block piece can be matched with the corresponding spherical shape of the shoulder blade through a socket ball to form a ball-socket connection structure, so that the upper limb bone of a building block person can freely move or swing towards multiple directions and angles, the lower end of the humerus building block piece is provided with a first right-angle groove, meanwhile, the upper end of the ulna radius building block piece is also provided with a second right-angle groove, the two right-angle grooves are half-opened in pairs and can be mutually embedded, then a shaft is matched with a shaft hole to carry out buckling and can carry out rotary movement, the humerus building block piece and the ulna radius building block piece can relatively swing, the buckling can adopt a circle of bulges, clamping positions to match and restrain, and therefore limit rotation is achieved, for example, a circle of bulges are arranged at the front end of the shaft, and meanwhile, the inner wall of the shaft hole is provided with matched clamping positions to limit. Finally, a sphere is arranged at the lower end of the ulna radial building block piece. In addition, the ulna-radius building element referred to herein is collectively referred to as the ulna-radius combination. Through these mosaic structures and connected mode, can accomplish the assembly combination of left upper limbs bone building block piece and right upper limbs bone building block piece to and left and right upper limbs bone building block piece respectively with the activity concatenation of trunk bone building block piece's left and right shoulder blade. The two upper limb bone building blocks after completion can make the upper limb movement modes close to a real person, such as swing, bending, rotation and the like of the upper limb, so that the building blocks can make various rich upper limb movements.

The upper body shell comprises a trunk shell, a big arm shell 7, a small arm shell 8 and a hand building block piece 9. Wherein, trunk casing, big arm casing and forearm casing cladding in trunk bone building block piece, humerus building block piece and ulna radius building block piece's surface respectively completely. The trunk shell is formed by splicing a trunk front shell 5 and a trunk rear shell 6, and the inner side surfaces of the trunk front shell and the trunk rear shell are respectively provided with inserting grooves 6a corresponding to the protruding inserting posts 1d on the front surface and the back surface of the trunk building block piece, wherein the inserting grooves are formed by two protruding posts. The trunk shell and the trunk bone building block piece are spliced and assembled through interference grafting fit between the protruding grafting columns and the grafting grooves.

In a more preferred embodiment, in order to enhance the firmness between the front trunk shell and the rear trunk shell, a mutually matched plug and socket structure (not shown in the figure) may be additionally arranged on the splicing surface between the front trunk shell and the rear trunk shell, so as to realize interference connection and enhance the firmness of the connecting structure.

Because the upper limbs of building blocks people have movable joints, and the range of motion are great, if big arm casing and forearm casing adopt preceding, the combination mode of backshell to splice, cause the casing to appear not hard up or the condition of fanning out easily. In order to strengthen the firmness after the splicing, the big arm shell 7 and the small arm shell 8 are all integrally formed sleeved parts and are sleeved on the surfaces of the humerus building block part 2b and the ulna building block part 2c in an interference mode respectively, so that the big arm shell and the small arm shell can not loosen or scatter when the upper limb does any action, and the spliced structure is firmer and more reliable.

In another preferred embodiment, on the basis of the sleeving, the big arm casing 7 and the small arm casing 8 are respectively connected with the humerus building block piece 2B and the ulna building block piece 2c by an inserting and pulling type buckle structure, for example, as shown in fig. 3, a semi-arc-shaped bulge A is arranged at two symmetrical positions of the circumference surface of the ulna building block piece, and a clamping groove B is arranged at the corresponding position of the inner wall of the small arm casing and the semi-arc-shaped bulge, and the two parts are buckled in an interference mode, so that the inserting and pulling type buckle connection between the small arm casing and the ulna building block piece is realized. For example, a protrusion is arranged on the outer circumferential surface of the humerus building block, and a raised buckling edge is arranged at the corresponding position of the inner wall of the big arm shell and the protrusion, and the protrusion and the buckling edge are buckled in an interference mode, so that the inserted and dialed type buckling connection between the big arm shell and the humerus building block can be realized.

More preferably, guide grooves and guide blocks which are matched with each other are also arranged between the humerus building block piece and the ulna building block piece and the corresponding shell as guide splicing structures. Taking the ulna building block 2c and the forearm shell 8 as an example, the surface of the ulna building block is provided with a convex guide block, and meanwhile, the corresponding position of the inner wall of the forearm shell is provided with a guide groove, and the user can accurately and quickly splice the ulna building block and the forearm shell through the guide connection of the guide groove and the guide block. The large arm shell 7 and the humeral building block 2b are so similar, and the matching structure of the guide groove and the guide block can be adopted to complete the splicing.

The top surface of the hand building block piece 9 is provided with a ball socket, and the ball socket connection structure is formed by the ball socket connection structure and the ball shape at the lower end of the ulnar building block piece 2c, so that the hand building block piece can move in multiple directions and multiple angles to achieve action effects similar to bending and rotation of a wrist.

The lower body building block assembly comprises a crotch building block piece 3, two lower limb building block pieces 4 and a lower body shell used as a flesh. The crotch building block piece is an inverted triangle-shaped 'plate' -shaped block, an inserting column is arranged at the upper end of the crotch building block piece, interference insertion is carried out between the inserting column and an inserting hole at the lower end of the trunk building block piece 1, so that the crotch building block piece and the trunk building block piece of a building block person can carry out relative rotary motion to simulate the twisting effect of the waist of a human body, the lower end of the crotch building block piece is in a Y shape, two branches of the crotch building block piece are a left connecting rod 3a and a right connecting rod 3b respectively, and one ends of the two connecting rods far away from the crotch building block piece are provided with a sphere.

The two lower limb bone building blocks 4 are respectively a left lower limb bone building block and a right lower limb bone building block which are symmetrically arranged, and correspond to the left connecting rod 3a and the right connecting rod 3b respectively. Furthermore, each lower extremity bone building block comprises a detachable thigh bone building block 4a, a lower leg bone building block 4b. The upper end of the thigh bone building block piece is matched with the ball shape of the corresponding left/right connecting rod through the socket ball to form a ball-socket connection structure, so that the lower limb bone of the building block person can also freely move or swing in multiple directions and angles. The lower end of the femur building block piece is provided with a third right-angle groove, the upper end of the femur building block piece is also provided with a fourth right-angle groove, the two right-angle grooves are half-open and can be mutually embedded, then the shaft is matched with the shaft hole to be buckled and can rotate, so that the femur building block piece and the femur building block piece can swing relatively, and the lower end of the femur building block piece is provided with a sphere. Through these mosaic structures and connected mode, can accomplish the assembly combination of left low limbs bone building block piece and right low limbs bone building block piece to and left and right low limbs bone building block piece carries out movable splice with the left and right connecting rod of crotch bone building block piece respectively. The two finished lower limb bone building blocks can also make lower limb movement modes similar to that of a real person, such as swinging, bending, rotating and the like of the lower limb, so that the building blocks can make various abundant lower limb movements.

The lower body shell comprises a crotch shell, a thigh shell 12, a shank shell 13 and a foot building block 14, wherein the crotch shell, the thigh shell and the shank shell are respectively and completely covered on the surfaces of the crotch building block, the thigh building block and the shank building block. The crotch shell is composed of a crotch front shell 10 and a crotch rear shell 11, and the crotch front shell and the crotch rear shell are respectively assembled on the front side and the rear side of the crotch building block piece by the interference fit of the convex splicing columns and the splicing holes, so that the splicing and the assembly of the crotch shell and the crotch building block piece are completed.

In a more preferred embodiment, in order to enhance the firmness between the front crotch shell and the rear crotch shell, the mating posts and the jacks can be added on the splicing surface between the front crotch shell and the rear crotch shell, so as to realize interference grafting and enhance the firmness of the connecting structure.

In order to enhance the stability of the structure, the thigh shell and the shank shell are also integrally formed sleeving parts which are the same as the thigh shell and the shank shell and are sleeved on the surfaces of the thigh building block piece and the shank building block piece respectively in an interference mode. Therefore, when the lower limb does any action, the thigh shell and the shank shell cannot loosen or scatter, so that the splicing structure is firmer.

In another preferred embodiment, on the basis of the sleeving, a plug-in type buckle structure is also adopted between the thigh shell and the shank shell and the thigh bone building block piece and the shank building block piece respectively. For example, as shown in fig. 4, a ring-shaped protrusion C is provided on the circumferential surface of the thigh bone building block, and a ring-shaped engaging groove D is provided on the corresponding portion of the thigh shell inner wall and the ring-shaped protrusion. The thigh shell and the thigh bone building block piece are buckled in an interference mode, so that the inserted buckle connection between the thigh shell and the thigh bone building block piece is realized. For another example, semi-arc-shaped protrusions A are arranged at two symmetrical positions of the circumferential surface of the shank building block piece, and clamping grooves B are arranged at corresponding positions of the inner wall of the shank shell and the semi-arc-shaped protrusions. The two are buckled in a filling way so as to realize the plug-in type buckle connection between the shank shell and the shank building block piece. In addition to these embodiments, a male-female snap-fit connection may be achieved with a raised and snap-on edge between the humeral building block and the forearm housing.

More preferably, guide grooves and guide blocks which are matched with each other are also arranged between the thigh bone building block piece and the shank bone building block piece and the thigh shell and the shank shell respectively to serve as guide splicing structures. The embodiment is the same as the ulna building element 2c and the forearm housing 8, and will not be described in detail.

The top surface of the foot building block 14 is provided with a ball socket, and the ball socket connection structure is formed by the ball socket connection structure and the ball shape at the lower end of the lower leg building block, so that the foot building block can move in multiple directions and multiple angles to achieve action effects similar to ankle bending and rotation.

In a preferred embodiment, a shoulder building block 2a movably spliced with the shoulder blade and the humerus building block is additionally arranged between the shoulder blade and the humerus building block, so that a movable joint node is added, and the movement of the upper limb is more flexible. For example, as shown in fig. 3, the adopted movable splicing mode is that a socket ball is arranged at one end of the shoulder building block, a ball-socket connection structure is formed by the socket ball and the ball shape of the scapula, the other end of the shoulder building block is spliced with the humerus building block in a plug and jack mode, and the shoulder building block is rotated, meanwhile, a second annular bulge E is arranged on the outer circumferential surface of the plug, an annular groove F is arranged at the position corresponding to the second annular bulge on the inner wall of the jack as a clamping position, and the socket and the shoulder building block are constrained by a buckle, so that limiting is realized, and the humerus building block is prevented from being easily separated when rotating. In addition, the big arm shell 7 arranged on the surface of the humerus building block piece is further provided with a nest 7a for accommodating the butt joint end between the shoulder building block piece and the humerus building block piece, so that the shoulder building block piece can rotate in the nest, and the arm can swing and also rotate, and the action is more flexible and changeable.

As shown in fig. 5, the head building block assembly 15 is formed by splicing a head front case 15a and a head rear case. The head front shell is a front face of the head building block assembly, and can be provided with facial features such as eyebrows, eyes, ears, nose, mouth, face and the like, the head rear shell is formed by splicing a left side shell 15b, a right side shell 15c and a bottom shell 15d, wherein a spherical concave nest ball is further arranged on the bottom surface of the bottom shell and is matched with the spherical shape of the cervical vertebra 1a to form a ball-socket connection structure, so that multidirectional and angular movements of the head, such as head lowering, head side mounting, head lifting and the like, are realized, and the movements of the head are more flexible. When assembling head building block assembly, assemble left side shell, right side shell and drain pan at first, then assemble into a complete head with head preceding shell again, its mode of assembling adopts spliced pole and jack cooperation mode to carry out interference grafting and restraint to splice limit between each shell piece also forms mutual constraint. The splicing and assembling modes of the multiple shells enable each part of the head to be replaced at will, so that the appearance, appearance and head shape of the face of the head are changed, more playing space is provided for children, and imagination and creativity are improved.

As shown in FIG. 6, a removable hair block assembly 16 is further preferably provided on the surface of the head block 15 and is formed by splicing hair blocks such as left side block 16a, right side block 16b, rear side block 16c and top block 16 d. The left hair block and the right hair block are spliced into a whole through the rear hair block, and the splicing mode is that the inserting columns are connected with the inserting holes, so that mutual constraint is formed between the inserting columns and the inserting holes, and the top of the inserting columns forms a hollow groove. Then, the top hair piece is inserted into the hollowed-out groove between the left and right side hair pieces and the back side hair piece, thereby forming a complete hair. Finally, the hair blocks are spliced and fixed with the surface of the head part according to the combination mode. Through the block design of the hair blocks, the diversified combination of the hair can be realized, so that the hair styling and the hair color of the building block person can be changed at will. The number of the hair pieces is not limited to four, and two, three, or five pieces may be used for the splice combination according to circumstances.

More preferably, a detachable head ornament building block piece is further arranged on any hair block. For example, both the left and right hair pieces may be provided with attachment holes for the headwear building blocks, and the installation and replacement may be accomplished by interference fit of the headwear building blocks with attachment posts. In this embodiment, an insertion groove and a plug hole are provided at the front end of the top hair block 16d for splicing the corresponding head building block 17.

In a preferred embodiment, a ball and socket arrangement (not shown) is provided between the crotch building element 3 and the torso building element 1. The waist of the building block person can be bent into a certain angle through the ball socket structure besides rotating, so that limb actions of the building block person are further enriched.

As shown in fig. 7, the surface of all or any of the upper body casing and the lower body casing is also provided with a splice structure for connecting the apparel building block assembly. In this embodiment, the building block assembly for clothes has a chest armor 18, a shoulder armor 19, an arm armor 20, a skirt armor 21, a leg armor 22 and a mantles 23, wherein the chest armor, the shoulder armor, the arm, the skirt armor, the leg armor and other armor are formed by splicing front and rear shells, and the splicing structure is an interference fit of a splicing hole and a splicing column, for example, the arm armor 20 is composed of an arm armor front shell 20a and an arm armor rear shell 20b, the leg armor 22 is composed of a leg armor front shell 22a and a leg armor rear shell 22b, and other armor is similar, and the following is omitted. When in connection, the surfaces of the trunk front shell, the trunk rear shell, the forearm shell, the crotch front shell, the crotch rear shell and the calf shell are provided with one or more splicing holes, then, the inner side surfaces of the clothes building blocks such as the chest armor, the shoulder armor, the arm arms, the skirt armor, the leg armor and the mantles are provided with splicing columns corresponding to the splicing holes, and the corresponding shell surfaces are spliced one by one, so that the building blocks are provided with a layer of clothes layer except a skeleton layer and a flesh layer, and the combination change of the building blocks is more likely. In addition, the armor can also be replaced by building blocks such as clothing with different shapes and accessories.

The splicing structure of the clothing building block assembly can also adopt a ball-and-socket structure for splicing, for example, a standing supporting rod 24 is arranged on the shoulder building block piece 2a, a spherical shape is arranged at the top end of the supporting rod, and the shoulder armor 19 is matched with the spherical shape of the supporting rod through the socket ball, so that a ball-and-socket connection structure is formed, and the mobility of the shoulder armor is increased.

As shown in fig. 8, further, the front and rear shells of the skirt nail 21 are respectively a front bracket 25 and a rear bracket 26, and a plurality of skirt nail pieces 27 for splicing are arranged at the lower ends of the front and rear brackets and jointly enclose a circle. The upper end of every skirt nail piece all is provided with the axis body that is used for the buckle, simultaneously, is provided with a plurality of fork mouths of alternate arrangement the same with skirt nail piece quantity in the lower extreme of preceding, back support, through these fork mouths of embracing and axis body combination, realizes the elasticity buckle connection of every skirt nail piece, makes skirt nail piece can move about moreover to appear more lively effect.

The joint connection structure among the building block pieces can be realized by adopting other disclosed movable or non-movable building block connection modes besides interference insertion, ball-and-socket joint and buckling.

All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Claims (14)

1. A building block figure with an anthropomorphic structure, comprising: a head building block component, an upper body building block component and a lower body building block component, characterized in that: The upper body building block assembly comprises: a trunk bone building block (1), two upper limb bone building blocks (2) and an upper body shell as a body, wherein a cervical vertebra (1a) is provided at the upper end of the trunk bone building block, and the cervical vertebra is movably spliced with the head building block assembly (15), and shoulder blades are provided on both sides, and the shoulder blades are movably spliced with the two upper limb bone building blocks respectively, and each upper limb bone building block comprises a humeral building block (2b) and an ulna and radius building block (2c) that can be detachably spliced, and the scapulae are movably spliced in sequence, wherein the other end of the humeral building block is used for movably splicing with the corresponding scapula, and the upper body shell comprises: a trunk shell, an upper arm shell (7) and a lower arm shell (8) respectively covered on the surface of the trunk bone building block, the humeral building block and the ulna and radius building block in a splicing manner, and a hand building block (9) spliced with the upper limb bone building block; The lower body building block assembly comprises: a hip bone building block (3), two lower limb bone building blocks (4) and a lower body shell as the body, wherein the upper end of the hip bone building block is movably spliced with the trunk bone building block, and the two sides of the lower end are movably spliced with the two lower limb bone building blocks respectively, each lower limb bone building block comprises a detachable thigh bone building block (4a) and a calf bone building block (4b), and the two detachable thigh bone building blocks are movably spliced in sequence, wherein the other end of the thigh bone building block is used for movably splicing with the hip bone building block, and the lower body shell comprises: a hip bone shell, a thigh shell (12) and a calf shell (13) respectively covered on the surface of the hip bone building block, the thigh bone building block and the calf bone building block in a splicing manner, and a foot building block (14) spliced with the lower limb bone building block; A layer of clothing building block components is also provided on the surface of all or any one of the shell building blocks in the upper body shell and the lower body shell, and connected through a splicing structure. 2. The building block figure of anthropomorphic structure according to claim 1, characterized in that the humerus building block (2b), the ulna and radius building blocks (2c), the femur building block (4a) and the calf building block (4b) are spliced with the corresponding shells in a sleeve connection manner. 3. The building block figure of anthropomorphic structure according to claim 2 is characterized in that a plug-in buckle structure is further provided between the humerus building block, the ulna and radius building block, the femur building block and the calf building block and the corresponding housing. 4. The building block figure of anthropomorphic structure according to claim 2 or 3 is characterized in that mutually matching guide grooves and guide blocks are further provided between the humerus building block, the ulna building block, the radius building block, the femur building block and the calf building block and the corresponding shell for guiding splicing. 5. The building block figure of an anthropomorphic structure according to any one of claims 1 to 3, characterized in that a shoulder building block (2a) movably connected thereto is provided between the shoulder blade and the corresponding humerus building block. 6. The building block figure of the anthropomorphic structure according to claim 5 is characterized in that: one end of the shoulder building block is connected to the shoulder blade by a ball socket, and the other end is connected to the humerus building block by a plug and a socket for plugging and rotating, and an annular protrusion and an annular buckle are provided between the plug and the socket to match and limit, and at the same time, a socket (7a) is also provided on the upper arm shell provided on the surface of the humerus building block to accommodate the plug-in end between the shoulder building block and the humerus building block, and to enable the shoulder building block to rotate and move in the socket. 7. The building block figure of an anthropomorphic structure according to any one of claims 1 to 3, characterized in that the head building block assembly (15) is formed by splicing a plurality of head shells. 8. The building block figure of anthropomorphic structure according to claim 7, characterized in that a detachable hair building block component is spliced on the surface of the head building block component, and the hair building block component is spliced by at least two hair blocks. 9. The building block figure of anthropomorphic structure according to claim 8, characterized in that the hair building block assembly consists of two side hair blocks, a top hair block (16d) and a rear hair block (16c), wherein a plug-in structure is provided between the rear hair block and the two side hair blocks for mutual restraint. 10. The building block figure of anthropomorphic structure according to claim 9, characterized in that a detachable head ornament building block (17) is also provided on the surface of any hair block. 11. The building block figure of an anthropomorphic structure according to claim 1 or 2, characterized in that a ball-and-socket structure is used to connect the trunk bone building block and the hip bone building block. 12. The building block figure of anthropomorphic structure according to claim 1 or 2, characterized in that the splicing structure of the clothing building block assembly is any one of a plug-in structure and a ball-and-socket structure. 13. The building block figure of the anthropomorphic structure according to claim 1 or 2, characterized in that the clothing building block components include: a chest armor (18), shoulder armor (19), arm armor (20), skirt armor (21), leg armor (22) and a cloak (23), and are respectively spliced with the corresponding shell. 14. The building block figure of the anthropomorphic structure according to claim 13 is characterized in that: the skirt armor is composed of a front bracket (21a) and a rear bracket (21b), and a plurality of skirt armor pieces (21c) are provided at the lower ends of the front and rear brackets and form a circle, and each skirt armor piece is connected to the front and rear brackets by a clamping fork and an axle body, so that the skirt armor piece can rotate.