CN214050457U - Tumbler stacking toy - Google Patents

Abstract

The utility model relates to a tumbler stack-up toy, which is provided with a base capable of enabling the stack-up toy main body to swing on the basis of the traditional stack-up toy, and the base can enable the stack-up toy main body to swing. Be provided with circular arc convex surface and counter weight on the base to the messenger is installed on this base by the toy main part that a plurality of bionical building blocks are together, makes bionical building blocks group can swing along with this swing base's swing, and this bionical building blocks set up to the homalomena, and the toy main part that a plurality of bionical building blocks become is together like being a group of opera in a world, when the base swings, just like a whole group of opera in a world at the end of the performance. The toy can better cultivate the coordination and balance feeling of hands, eyes and brain of children, has very high interestingness, and can promote the relationship between parents and children when the householder accompanies the children to use the toy, so that the children can get joy in the game.

Description

Tumbler stacking toy

Technical Field

The utility model relates to a building blocks toy, concretely relates to tumbler stacks high toy.

Background

The stacked high toy is a classic wooden educational building block toy, and the design concept of the stacked high toy is derived from a yellow intestine question wood model of ancient Han dynasty. The building block is simple and easy to play, can exercise hand-eye coordination ability and willpower of people, can cultivate balance force, can improve tolerance and self-control ability in the building block putting process, and can exercise hand muscles for flexible application.

The Chinese utility model with the bulletin number of CN205730385U discloses a owl building block stacking toy, which comprises a plurality of building blocks in the shape of owls and a plurality of splicing rods, wherein the upper side, the lower side, the left side and the right side of the building blocks are respectively provided with a first splicing groove, a second splicing groove, a third splicing groove and a fourth splicing groove; the adjacent building blocks are mutually spliced through the first splicing groove and the second splicing groove, the first splicing groove and the third splicing groove, the first splicing groove and the fourth splicing groove, the third splicing groove and/or the fourth splicing groove, and the building blocks are mutually spliced with the splicing rods through the first splicing grooves.

The existing overlapped high toy only adopts the mutual overlapping of the building blocks, and after the building blocks are overlapped into a whole, the building blocks are placed on one side, so that the toy is not more interesting.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a high toy is folded to tumbler that can swing, makes the building block of this toy can swing after the concatenation is a toy main part.

In order to achieve the purpose, the utility model adopts the following technical proposal: a tumbler stacking toy comprises a toy body formed by stacking, connecting and fixing a plurality of bionic building blocks and a base connected with a plurality of building blocks at the lowest part of the toy body, wherein the base is a swinging base or a swinging assembly arranged on the base and can swing the toy body. The base is arranged below the toy body, the base can be a swinging base or a swinging assembly is arranged on the base, and the toy body is arranged on the swinging assembly. The scheme enables the relatively fixed stacking height main body to be capable of swinging through the two modes. The image simulated by the bionic building block can be quite tedious when the toy is not moved, and can not arouse the interest of children, and when the toy body can swing, the image simulated by the bionic building block suddenly has vitality, is vivid and lively, and can arouse the interest of children.

Furthermore, the base is a swinging base, a balance weight is arranged in the base, the lower end face of the base is an arc convex face, and the upper end face of the base is provided with a first slot, so that a plurality of building blocks at the lowest part of the toy main body can be inserted into the first slot. In order to save cost and materials, the base is arranged to be a swinging base, the lower end face of the base is arranged to be a circular arc convex face, the balance weight is arranged in the base, the base generates a swinging effect similar to a tumbler, a plurality of bionic building blocks located at the lowest end of the toy body are inserted into the base, and the whole toy body can swing along with the swinging of the base.

Furthermore, a plurality of arc convex ribs extending along the swinging direction are arranged on the arc convex surface, so that the base swings towards two sides of the swinging direction. Used building block in this scheme is plane building block in fact, and the toy main part that stacks each other to connect fixed formation also is planar, this toy main part is only swung in this plane at best when the swing, the direction of swaying is just to the both sides swing in this plane, be equipped with many arc protruding muscle along the direction of swaying extension on the circular arc convex surface, has weakened the effect of circular arc convex surface through protruding muscle, makes the base along the extending direction swing of arc protruding muscle, to swaying direction both sides swing promptly.

Furthermore, the upper end face is a horizontal plane, and the arc convex surface is provided with a second slot, so that a plurality of building blocks at the lowest part of the toy main body can be inserted into the second slot. When the toy main body needs to swing, the arc convex surface is contacted with the bearing surface, so that the toy main body has the swinging property; when the toy main body is required to be stable, the base can be reversely arranged, so that the horizontal plane is in contact with the bearing surface, the lower ends of a plurality of building blocks at the lowest part of the toy main body are inserted into the second slots on the arc convex surface, and the stability of the toy main body is kept.

Furthermore, the bionic building blocks comprise a main body and connecting pieces arranged on the main body, a plurality of connecting positions are divergently arranged on the connecting pieces, and any connecting position of one bionic building block can be connected with any connecting position on the other bionic building block, so that the two bionic building blocks are relatively fixed. Through the connecting piece that is equipped with on the bionical cordwood piece, it arranges a plurality of connection positions to disperse on the connecting piece, makes arbitrary connection position on the bionical cordwood piece can be connected with arbitrary connection position on another bionical cordwood piece, makes and can connect fixedly between two arbitrary bionical cordwood pieces to there are a plurality of connection angle between two cordwood pieces. In addition, the connecting piece is arranged to be a component which can be installed on the main body and can be separated from the main body, so that the connecting piece can be made into a standard piece, the main body is made into images with different appearances, and the connecting piece can be installed on the main body only by arranging the connecting piece installing position, thereby being more convenient for large-scale manufacturing and processing.

Furthermore, a plurality of clamping parts are divergently arranged on the connecting piece, and a clamping groove is formed between every two adjacent clamping parts; any clamping part on one bionic building block can be clamped into any clamping groove on the other bionic building block. A plurality of clamping parts are arranged on the connecting positions of the connecting pieces, clamping grooves are formed between every two adjacent clamping parts, and the connecting pieces can be fixedly connected with the connecting pieces on another bionic building block in different angles in a clamping and buckling mode.

Furthermore, the outer end part of the clamping part protrudes towards two sides, so that the outer end part of the clamping part is larger than the inner end part, and the outer end of a clamping groove formed between the two clamping parts is smaller than the inner end to form a closing-in. The outer end through joint portion forms the arch to both sides, makes the outer end of the draw-in groove that forms between two joint portions be less than inner, forms the binding off joint portion front end edgewise slide in when binding off is inboard, the binding off can block joint portion front end makes joint portion with draw-in groove swing joint.

Furthermore, a magnet is arranged on the connecting piece, a plurality of magnetic attraction surfaces are divergently arranged on the magnet, and any magnetic attraction surface on one bionic building block can be connected with any magnetic attraction surface on another bionic building block in a magnetic force mode. Through setting up magnet on the connecting piece to set up a plurality of magnetism on magnet and inhale the face, arbitrary magnetism on a bionical building block is inhaled the face and is inhaled between the face with arbitrary magnetism on another bionical building block and attract each other, when the installation like this, only need inhale the face with two specific magnetism on two bionical building blocks and be close to each other, under the effect of magnetism magnetic force, two bionical building blocks just can be fixed together with specific angle connection.

Furthermore, the upper end of the main body is provided with a connecting arm, the two end parts of the connecting arm are provided with the connecting pieces, and the connecting arm is provided with a bulge; the lower end of the main body is inwards provided with a notch, so that two sides of the notch form a leg part; the protrusion can extend into the notch, so that the leg part can be erected on the connecting arm. A building block can erect the top of another building block, and the lapped mode is diversified between two building blocks, makes and can take more models between a plurality of bionical building blocks.

Furthermore, a bayonet is arranged on the leg part, so that the leg part can be erected on the connecting piece. The support legs can be erected on the fingers of the other bionic building block through the bayonets, and the bionic building block is just like the other bionic building block is supported by the fingers, so that the design concept of high performance of the acrobatic circus in the design concept is better met.

Furthermore, the bionic building block is human-shaped, the protrusion corresponds to the head of the human-shaped bionic building block, the connecting arm corresponds to the two arms of the human-shaped bionic building block, and the foot supporting part corresponds to the two legs of the human-shaped bionic building block. The lugs are arranged in a head shape, and the foot parts are arranged in a double-leg shape of the human-shaped building blocks, so that when one building block is arranged above the other building block, a person stands on the shoulder of the other person, and when a plurality of building blocks are arranged together, the building blocks are like the acrobatics in performance. The connecting piece is glove-shaped, and the two bionic building blocks are connected together through the connecting piece just like two bionic building blocks are in a handle.

By adopting the technical scheme, the base capable of enabling the stacked high toy body to swing is added on the basis of the traditional stacked high toy. The base is provided with an arc convex surface and a balance weight, and a toy main body formed by stacking a plurality of bionic building blocks together is arranged on the base, so that the bionic building block set can swing along with the swing of the swing base; the bionic building blocks are arranged to be in a shape of a small person, a toy body formed by a plurality of bionic building blocks is like a group of operas actors, and when the base swings, the bionic building blocks are like a whole group of operas and the bottom of the group of operas performing. The toy can better cultivate the coordination and balance feeling of hands, eyes and brain of children, has very high interestingness, and can promote the relationship between parents and children when the householder accompanies the children to use the toy, so that the children can get joy in the game.

Drawings

Fig. 1 is an explanatory view of the present invention.

Fig. 2 is a schematic view of the upper end face of the base.

Fig. 3 is a schematic view of the lower end face of the base.

FIG. 4 is a bottom view of a bionic building block at the lowest side of the toy body.

Fig. 5 is a schematic view of the connection block and the base seat in cooperation 1.

Fig. 6 is a schematic view of the connection block and the base seat.

Fig. 7 is a schematic view of the connection of two connectors.

FIG. 8 is a schematic block shape illustration.

Fig. 9 is an explanatory view of the toy body.

In the figure: base 1, up end 11, lower terminal surface 12, slot 13, second slot 14, the protruding muscle 15 of arc, first mounting hole 16, spliced pole 17, connecting block 18, second mounting hole 19, bionical building blocks main part 2, connecting piece 21, joint portion 221, draw-in groove 222, foot portion 23, arch 24, linking arm 25, bayonet 26.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.

It will be understood by those skilled in the art that in the present disclosure, the terms "longitudinal", "outer", etc. indicate orientations or positional relationships based on those shown in the drawings, which are merely for convenience of description and simplified description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus the above-described terms should not be construed as limiting the present disclosure.

It is to be understood that the terms "a" and "an" are to be interpreted as meaning that a number of one element may be one in one embodiment or multiple in another embodiment, and the terms "a" and "an" are not to be interpreted as limiting the number.

As shown in figure 1, the tumbler stacking toy comprises a toy body formed by stacking, connecting and fixing a plurality of bionic building blocks and a base used for being connected with a plurality of building blocks at the lowest part of the toy body, wherein the base is a swinging base or is provided with a swinging assembly, so that the toy body can swing. The base is arranged below the toy body, the base can be a swinging base or a swinging assembly is arranged on the base, and the toy body is arranged on the swinging assembly. This scheme is through these two kinds of modes, makes originally relatively fixed fold high main part become can rocking, and the image that bionical building block simulated probably is more vexed when motionless, can not arouse children's interest, and when the toy main part can be rocked, has just appeared the image that bionical building block simulated and has had the vitality suddenly, and lively has lively, more can arouse children's interest.

As shown in fig. 2 to 3, the base is a swinging base, the lower end surface 12 of the base is a smooth convex surface with an arc, and a balance weight is arranged in the base, so that the base has a swinging effect similar to a tumbler. The lower end face 12 of the base is set to be a circular arc smooth convex face, a balance weight is arranged in the base, and the upper end face of the base is provided with a first slot 13 so that the lower end of the bionic building block can be inserted into the slot; a clamping block is arranged in the slot, and a clamping groove is arranged at the lower end of the bionic building block, so that the first clamping block can be clamped by the two side walls of the clamping groove. The upper end surface 11 of the base is a horizontal plane, and a second slot 14 is arranged on the circular arc surface. The overlapped high-playing has two playing methods with different difficulties, the overlapping of the bionic building blocks in the swinging state is more difficult than the overlapping of the bionic building blocks in the stable state, and the direction of the base can be adjusted only by changing. When the arc end face is positioned below, the tumbler stack-up toy can swing, and when the horizontal plane is positioned below, the tumbler toy is stable and is not easy to swing.

Except the connection mode that the bionic building blocks are directly inserted into the first slot or the second slot, the bionic building blocks can also be connected through an intermediate connecting piece, as shown in figures 4-6, the first slot and the second slot are respectively provided with a raised connecting column 17, and connecting blocks 18 are arranged at the positions of the upper sides of the bases at the lower sides of a plurality of bionic building blocks at the lowest side of the toy body, and the connecting blocks can be connected to the bionic building blocks and also can be connected to the bases. The connecting block is provided with a second mounting hole 19 which can be matched with the connecting column 17; meanwhile, in order to ensure that the connecting block can be fixedly arranged at the lower end of the toy body, the connecting block is also provided with a connecting column 17, and the lower ends of the bionic building block bodies positioned at the lowest end are provided with first mounting holes 16 for mounting the connecting block. Therefore, when the toy is installed, the connecting block can be installed at the bottom end of the bionic building block at the lowest end of the toy body, and then the installed whole body is installed on the base; or the connecting block can be arranged on the base firstly and then the bionic building block is arranged. Compared with the connection mode that the bionic building block is directly inserted into the first slot or the second slot, the mode of adopting the middle connecting piece is flexible in installation mode and more stable in connection.

In practical use, the bionic building blocks at the lowest end of the toy body can be directly bonded with the base, or the bionic building blocks at the lowest end of the toy body are firstly bonded with the connecting block 18, and then a combination formed by bonding the bionic building blocks is installed on the base.

Except setting up the base into rocking the base, set up the subassembly that sways that can rock on the base to make and sway the subassembly and be connected with a plurality of building blocks that are located toy body lowermost end, drive rocking of toy body through the subassembly that sways that sets up on the base, the cost of this kind of setting mode is higher, and installation and use also can be some complicacies a bit.

As shown in figures 7-8, the bionic building blocks comprise a main body 2 and a connecting piece, a plurality of connecting positions are divergently arranged on the connecting piece, any two connecting positions on the two bionic building blocks can be connected, and the two bionic building blocks are relatively fixed. The connecting piece is arranged to be a part which can be arranged on the main body and can be separated from the main body, so that the connecting piece can be made into a standard piece, the main body is made into images with different appearances, the position for arranging the connecting piece on the main body is good, and the large-scale manufacturing and processing are more convenient. This scheme is through the connecting piece that is equipped with on the bionical cordwood piece, and it arranges a plurality of connection positions to disperse on the connecting piece, makes arbitrary connection position on the bionical cordwood piece can be connected with arbitrary connection position on another bionical cordwood piece, makes and can connect fixedly between two arbitrary bionical cordwood pieces to there are a plurality of connection angle between two cordwood pieces.

As shown in fig. 4, in the present embodiment, a plurality of clamping portions 221 are disposed on the connecting member 21, and a clamping groove 222 is formed between two adjacent clamping portions 221; any clamping part 221 on one bionic building block can be clamped into any clamping groove 222 on the other bionic building block. The outer end of the clamping portion 221 protrudes to both sides, so that the outer end of the clamping portion 221 is larger than the inner end, and the outer end of the clamping groove 222 formed between the two clamping portions 221 is smaller than the inner end to form a closing-in. The clamping portions in the embodiment are divergently arranged along the left-right direction, so that the formed clamping grooves are along the front-back direction. In the process of clamping the clamping portion into the clamping groove, the outer end portion of the clamping portion needs to be aligned with the side face of the clamping groove along the front-back direction, and the outer end portion of the clamping portion is clamped into the inner side of the closing-up of the clamping groove. After the bionic building blocks are loosened, the bionic building blocks enable the outer end of the clamping portion and the side wall of the clamping groove to be tightly pressed under the action of gravity, and therefore clamping between the two bionic building blocks is achieved.

As shown in figures 8-9, the image of the figure is easy to arouse the interest of children, in order to make the whole building block more interesting to assemble, the building blocks are set to be human-shaped, the connecting pieces are glove-shaped, the connecting arm 25 for installing the two connecting pieces is the arm of the human-shaped building block, the bulge 24 on the connecting arm is the head of the human-shaped building block, the lower end of the human-shaped building block is provided with a foot part, the foot part 23 is provided with a bayonet 26, the foot part is the two legs of the human-shaped building block, and a human-shaped bionic building block can stand on the shoulder of another human-shaped building block. Connecting pieces are arranged at two end parts of the connecting arm, so that the main bodies of the two building blocks have the function of reducing the interference of the connecting pieces on the connection, a plurality of humanoid bionic building blocks are lapped together, and some humanoid building blocks step on the shoulder of the other humanoid building block; some human-shaped building blocks support legs are abutted against the heads of other human-shaped building blocks, and some human-shaped building blocks are mutually pulled, just like a acrobatic circus group is stacked in height during performance.

Besides the clamping portion and the clamping groove, the magnet is arranged on the connecting piece, and the magnet is provided with a plurality of magnetic attraction surfaces which face different angles. So that any magnetic attraction surface on one bionic building block can be magnetically connected with any magnetic attraction surface on another bionic building block. The magnetic connection has the advantages that only two specific magnetic attraction surfaces on the two bionic building blocks are required to be close to each other, and the two bionic building blocks can be connected and fixed together at a specific angle under the action of magnetic force.

Except the implementation mode that sets up the magnet that has a plurality of magnetism faces of inhaling on the hookup location, another implementation mode also can set up the magnetic force piece on the hookup location, realizes fixing between two bionical building blocks through the magnetic force between the magnetic force piece of setting on two bionical building blocks, and for the mode that sets up the magnet that has a plurality of magnetism faces of inhaling, the mode cost that sets up the magnetic force piece is lower, and magnetic force is also controlled more easily.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly.

Although embodiments of the present invention have been shown and described, it is to be understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations of the above embodiments may be made by those skilled in the art without departing from the principles and spirit of the present invention.

Claims (10)

1. A tumbler stack-up toy is characterized in that: the toy comprises a toy body formed by mutually stacking and connecting a plurality of bionic building blocks and a base (1) connected with a plurality of building blocks at the lowest part of the toy body, wherein the base (1) is a swinging assembly arranged on the swinging base or the base (1) and can enable the toy body to swing.

2. The tumbler stacked height toy of claim 1, wherein: the base (1) is a swinging base, and a balance weight is arranged in the base (1); the lower end surface (12) of the base (1) is an arc convex surface, and the upper end surface is provided with a first slot (13); the plurality of building blocks at the lowest part of the toy body can be inserted into the first slot (13).

3. The tumbler stacked height toy as claimed in claim 2, wherein: a plurality of arc convex ribs (15) extending along the swinging direction are arranged on the arc convex surface; the base (1) can swing towards two sides of the swing direction.

4. The tumbler stacked height toy as claimed in claim 2, wherein: the upper end surface (11) is a horizontal plane, and a second slot (14) is arranged on the arc convex surface; the lowest building blocks of the toy body can be inserted into the second slot (14).

5. The tumbler stacked height toy of claim 1, wherein: the bionic building block comprises a main body (2) and a connecting piece (21), wherein a plurality of connecting positions are divergently arranged on the connecting piece (21), any connecting position of one bionic building block can be connected with any connecting position on the other bionic building block, and the two bionic building blocks are relatively fixed.

6. The tumbler stacked height toy of claim 5, wherein: a plurality of clamping parts (221) are arranged on the connecting piece (21), and a clamping groove (222) is formed between every two adjacent clamping parts (221); any clamping part (221) on one bionic building block can be clamped into any clamping groove (222) on the other bionic building block.

7. The tumbler stacked height toy of claim 6, wherein: the outer end of the clamping portion (221) protrudes towards two sides (24), so that the outer end of the clamping portion (221) is larger than the inner end, and the outer end of a clamping groove (222) formed between the two clamping portions (221) is smaller than the inner end to form a closing-in.

8. The tumbler stacked height toy of claim 5, wherein: the bionic building block is characterized in that a magnet is arranged on the connecting piece (21), a plurality of magnetic attraction surfaces are divergently arranged on the magnet, and any magnetic attraction surface on one bionic building block can be connected with any magnetic attraction surface on another bionic building block in a magnetic force mode.

9. The tumbler stacked height toy of claim 7, wherein: the upper end of the main body (2) is provided with a connecting arm (25), the two end parts of the connecting arm (25) are provided with the connecting pieces (21), and the connecting arm (25) is provided with a bulge (24); a notch is formed inwards at the lower end of the main body (2), and supporting legs (223) are formed at two sides of the notch; the projection (24) can extend into the recess, so that the foot part (223) can be mounted on the connecting arm (25).

10. The tumbler stacked height toy of claim 9, wherein: bionic building blocks are humanoid, protruding (24) correspond the head that is this humanoid bionic building blocks, linking arm (25) correspond the both arms that are this humanoid bionic building blocks, foot portion (223) correspond the both legs that are humanoid bionic building blocks, connecting piece (21) are gloves form, joint portion (221) correspond the finger portion on the gloves, draw-in groove (222) correspond the finger seam between the finger portion.

Images