CN218740195U - Novel building block combined toy with built-in connecting column - Google Patents

Abstract

A novel building block combined toy with built-in connecting columns relates to the field of building blocks. A movable through groove is formed in the first building block body, a movable connecting column is arranged in the movable through groove, the three first building blocks are connected in parallel, the middle first building block body is connected with the first building blocks on two sides through the movable connecting column, the bottoms of the first building blocks on the left side and the right side are connected with the second building block, the side face of the first building block on the left side is further connected with the second building block, the top of the first building block on the right side is connected with the third building block, the third building block is connected with the fourth first building block, and the fourth building block is arranged on the fourth first building block. Set up mobilizable spliced pole in building blocks, can realize different connection effect through the spliced pole that uses different quantity, built-in spliced pole is not fragile, long service life for the building blocks body both can regard as the connecting piece to use as the plug connector again, very big has made things convenient for building blocks figurative to build, more is favorable to developing children's imagination and creativity.

Description

Novel building block combined toy with built-in connecting column

Technical Field

The utility model relates to a novel building blocks combination toy of built-in spliced pole relates to the building blocks field.

Background

The building blocks are common educational toys, take various shapes as individuals as basic elements, have ingenious logical relationship among the elements, and are assembled into a new shape in a special way. The imagination, creativity, manipulative ability, coordination ability, computing power, spatial thinking ability and the like of the children can be developed through the combination of different individuals of the building blocks.

The existing building blocks are mostly directly built through stacking of building blocks when used, or are built through connection of connecting blocks and connecting grooves on the building blocks, the directly stacked traditional building blocks are convenient to build but lack of stability and are easy to collapse, the plug-in type building blocks can build more different shapes through connection of the connecting blocks and the connecting grooves, the connection stability is high, the traditional plug-in type building blocks need to be provided with different numbers of connecting columns and connecting grooves in the building blocks for achieving better building effects, connection of different positions of the building blocks is achieved through the connecting blocks, extending shapes are achieved, connecting pieces of the existing building blocks are mostly extending structures on outer shells, most of the connecting pieces are hollow structures, the building blocks are easy to damage when in collision, the connecting grooves are lacked in the building blocks with the connecting blocks, the building blocks can be used only as specific connecting pieces, the building blocks can be limited by the number of the types of the building blocks when different shapes are built, and some shapes can not be built or can not build shapes completely meeting requirements when the building blocks with the connecting blocks or the connecting grooves are lacked.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects in the prior art or not enough, the utility model provides a novel building blocks combined toy of built-in spliced pole, set up a plurality of mobilizable spliced poles in the building blocks body, the different connection effect can be realized through the spliced pole that uses different quantity, built-in spliced pole is not fragile, long service life, make the building blocks body both can regard as the connecting piece to use as the plug connector again, very big has made things convenient for building blocks figurative to build, under the condition of limited kind and quantity, can build more molding, fully improve the rate of utilization of building blocks, more be favorable to developing children's imagination and creativity.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the building block comprises a first building block body 1, a second building block body 2 and a third building block body 3, wherein a movable through groove 1-1 is formed in the first building block body 1, a movable connecting column 5 is formed in the movable through groove 1-1, the three first building block bodies 1 are connected in parallel, the middle first building block body 1 is connected with the first building block bodies 1 on two sides through the movable connecting column 5, the bottoms of the first building block bodies 1 on the left and right sides are connected with the second building block body 2, the side surface of the first building block body 1 on the left side is also connected with the second building block body 2, the top of the first building block body 1 on the right side is connected with the third building block body 3, the third building block body 3 is connected with the fourth first building block body 1, and the fourth building block body 4 is arranged on the fourth first building block body 1.

The movable connecting column 5 comprises a square connecting column body 5-1 and a cylindrical connecting end 5-2, the length of the outer diameter of the cylindrical connecting end 5-2 is equal to the side length of the square connecting column body 5-1, and the cylindrical connecting ends 5-2 are arranged at two ends of the square connecting column body 5-1.

The square connecting cylinder 5-1 is provided with four limiting ball springs 7, two limiting ball springs 7 are symmetrically arranged on the square connecting cylinder 5-1 in a group, and the cylindrical connecting end 5-2 is provided with a magnet 6.

The movable through groove 1-1 is a square through groove, the shape and the size of the movable through groove are matched with those of a square connecting cylinder 5-1, two sides of the inner wall of the movable through groove 1-1 are provided with a first positioning hole 1-4, a second positioning hole 1-5, a third positioning hole 1-6, a fourth positioning hole 1-7, a fifth positioning hole 1-8 and a sixth positioning hole 1-9, the positioning holes are matched with limiting ball springs 7, the distance between the first positioning hole 1-4 and the second positioning hole 1-5 is equal to the distance between the two limiting ball springs 7, the distance between the third positioning hole 1-6 and the fourth positioning hole 1-7 is equal to the distance between the two limiting ball springs 7, and the distance between the fifth positioning hole 1-8 and the sixth positioning hole 1-9 is equal to the distance between the two limiting ball springs 7.

The two ends of the first building block body 1 are provided with detachable face covers 1-10, the face covers 1-10 are located in the stroke direction of the movable connecting column 5, the face covers 1-10 are provided with connecting limiting holes 1-3, the connecting limiting holes 1-3 are matched with the cylindrical connecting end 5-2, the four side faces of the first building block body 1 are provided with connecting grooves 1-2, and the connecting grooves 1-2 are matched with the cylindrical connecting end 5-2.

The bottom of the connecting groove 1-2 is also provided with a magnet 6.

The second building block body 2 comprises a first cone 2-1 and a second cone 2-2, the top of the first cone 2-1 is provided with a connector 2-1-1, the connector 2-1-1 is matched with a connecting groove 1-2, the lower half parts of the first cone 2-1 and the second cone 2-2 are identical in structure, the lower half part of the first cone 2-1 is provided with a tightening connector 2-1-2, the tightening connector 2-1-2 is composed of a plurality of arc-shaped plates 2-1-3, the upper half part of the second cone 2-2 is provided with a connecting cavity 2-2-1, the inner diameter of an opening of the connecting cavity 2-2-1 is matched with the outer diameter of the connector 2-1-1, the shape and the size of the connecting cavity 2-2-1 are matched with the tightening connector 2-1-2, and the inner wall of the connecting cavity 2-2-1 is provided with an anti-slip strip 2-2.

The third building block body 3 comprises a first connecting column 3-1 and a second connecting column 3-2, the outer diameters of the first connecting column 3-1 and the second connecting column 3-2 are matched with the inner diameter of the connecting groove 1-2, the first connecting column 3-1 and the second connecting column 3-2 are respectively provided with a connecting plate 3-1-1, the connecting plate 3-1-1 of the first connecting column 3-1 is provided with a connecting slotted hole 3-1-2, the connecting plate 3-1-1 of the second connecting column 3-2 is provided with a rotating connecting column 3-2-1, and the rotating connecting column 3-2-1 is matched with the connecting slotted hole 3-1-2.

After the technical scheme is adopted, the utility model discloses beneficial effect does: set up a plurality of mobilizable spliced poles in building blocks, can realize different connection effect through the spliced pole that uses different quantity, built-in spliced pole is not fragile, long service life for the building blocks body both can regard as the connecting piece to use as the plug connector again, very big has made things convenient for the figurative of building blocks to build, can build more models, fully improves the rate of utilization of building blocks, more is favorable to developing children's imagination and creativity.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the description below are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without inventive labor.

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a schematic structural view of a first building block 1 in the present invention;

fig. 3 is a schematic structural view of the first building block body 1 of the present invention without the movable connecting column 5;

fig. 4 is a schematic structural view of a first building block body 1 in a use state;

FIG. 5 is a schematic structural view of the first cone 2-1 of the present invention;

FIG. 6 is a schematic structural view of a second cone 2-2 of the present invention;

FIG. 7 isbase:Sub>A sectional view taken along line A-A of FIG. 6;

FIG. 8 is a schematic structural view of the first connecting post 3-1 of the present invention;

FIG. 9 is a schematic view of the second connecting column 3-2 of the present invention;

fig. 10 is a schematic structural view of the movable connecting column 5 of the present invention;

fig. 11 is a top view of fig. 10.

Description of the reference numerals: the building block comprises a first building block body 1, a second building block body 2, a third building block body 3, a fourth building block body 4, a movable connecting column 5, a magnet 6, a limiting ball spring 7, a movable through groove 1-1, a connecting groove 1-2, a connecting limiting hole 1-3, a first positioning hole 1-4, a second positioning hole 1-5, a third positioning hole 1-6, a fourth positioning hole 1-7, a fifth positioning hole 1-8, a sixth positioning hole 1-9, a face cover 1-10, a first cone 2-1, a second cone 2-2, a connector 2-1-1, a tightening connector 2-1-2, an arc-shaped plate 2-1-3, a connecting cavity 2-2-1, an anti-slip strip 2-2, a first connecting column 3-1, a second connecting column 3-2, a connecting plate 3-1-1, a connecting groove hole 3-1-2, a rotary connecting column 3-2-1, a square connecting column 5-1 and a connecting end 5-2 cylinder.

Detailed Description

Referring to fig. 1 to 11, the technical solution adopted by the present embodiment is: the building block comprises a first building block body 1, a second building block body 2 and a third building block body 3, wherein a movable through groove 1-1 is formed in the first building block body 1, a movable connecting column 5 is formed in the movable through groove 1-1, the three first building block bodies 1 are connected in parallel, the middle first building block body 1 is connected with the first building block bodies 1 on two sides through the movable connecting column 5, the bottoms of the first building block bodies 1 on the left and right sides are connected with the second building block body 2, the side surface of the first building block body 1 on the left side is also connected with the second building block body 2, the top of the first building block body 1 on the right side is connected with the third building block body 3, the third building block body 3 is connected with the fourth first building block body 1, and the fourth building block body 4 is arranged on the fourth first building block body 1. In the embodiment, only one combined connection mode is listed, all the first building blocks 1 are cubes, four movable connecting columns 5 are arranged in the first building blocks 1 and can be set into other shapes as required, wherein the movable connecting columns 5 of the middle first building block 1 are horizontally and transversely placed, the movable connecting columns 5 of the first building blocks 1 on the left side and the right side are placed in a vertical position with the movable connecting columns 5 of the middle first building block 1, the two movable connecting columns 5 in the diagonal positions in the movable connecting columns 5 of the middle first building block 1 are respectively pushed out in opposite directions and are connected with the first building blocks 1 on the left side and the right side, the movable connecting columns 5 can move in two directions, the four movable connecting columns 5 can realize multiple use modes, when one connecting column is pushed out for use, the building blocks can be rotationally connected with another building block, displacement does not occur, two opposite connecting columns can be pushed out for use, two complete opposite connecting columns can realize two complete opposite-position connection, different use effects can be generated by the use of different connecting columns, the building blocks can be built for different shapes, higher building block building freedom degree can be built, and the building blocks can not generate a built-in-for-use, and can be used for creating a more-purpose building blocks without creating barriers for children.

Furthermore, the movable connecting column 5 comprises a square connecting column body 5-1 and cylindrical connecting ends 5-2, the length of the outer diameter of each cylindrical connecting end 5-2 is equal to the side length of the square connecting column body 5-1, and the cylindrical connecting ends 5-2 are arranged at two ends of the square connecting column body 5-1. The cylindrical connecting end 5-2 is used for connecting and fixing building blocks, and the square connecting cylinder 5-1 can limit the movable connecting column 5 to prevent the movable connecting column from rotating in the using process.

Furthermore, the square connecting cylinder 5-1 is provided with four limiting ball springs 7, two of the four limiting ball springs 7 are symmetrically arranged on the square connecting cylinder 5-1 in a group, the cylindrical connecting end 5-2 is provided with a magnet 6, the movable through groove 1-1 is a square through groove, the shape and the size of the movable through groove are matched with those of the square connecting cylinder 5-1, two sides of the inner wall of the movable through groove 1-1 are provided with a first positioning hole 1-4, a second positioning hole 1-5, a third positioning hole 1-6, a fourth positioning hole 1-7, a fifth positioning hole 1-8 and a sixth positioning hole 1-9, the positioning holes are matched with the limiting ball springs 7, the distance between the first positioning hole 1-4 and the second positioning hole 1-5 is equal to that between the two limiting ball springs 7, the distance between the third positioning hole 1-6 and the fourth positioning hole 1-7 is equal to that between the two limiting ball springs 7, and the distance between the fifth positioning hole 1-8 and the sixth positioning hole 1-9 is equal to that between the two limiting ball springs 7. The positioning holes are matched with the limiting ball springs 7 to realize the position fixing of the movable connecting column 5 in the building block body and the position fixing after the movable connecting column is pushed out for use, the first positioning holes 1-4 and the second positioning holes 1-5 are used for the position fixing when the building block is not used, the third positioning holes 1-6 and the fourth positioning holes 1-7 are used for the position fixing after one side of the movable connecting column is pushed out, the fifth positioning holes 1-8 and the sixth positioning holes 1-9 are used for the position fixing after the other side of the movable connecting column is pushed out, the movable through groove 1-1 is a square through groove, the shape and the size of the movable through groove are matched with those of the square connecting column body 5-1, the rotation of the movable connecting column 5 can be effectively prevented, the dislocation of the limiting ball springs 7 and the positioning holes can be effectively prevented, and the positioning effect is ensured.

Furthermore, the two ends of the first building block body 1 are provided with detachable face covers 1-10, the face covers 1-10 are located in the stroke direction of the movable connecting column 5, the face covers 1-10 are provided with connecting limiting holes 1-3, the connecting limiting holes 1-3 are matched with the cylindrical connecting ends 5-2, the four side faces of the first building block body 1 are provided with connecting grooves 1-2, and the connecting grooves 1-2 are matched with the cylindrical connecting ends 5-2. The face cover 1-10 is clamped on the first building block body 1, a connection limiting hole 1-3 is formed in the face cover 1-10 and used for limiting the movable connecting column 5, the shape of the connection limiting hole 1-3 is matched with that of the cylindrical connecting end 5-2, when the movable connecting column 5 is pushed out excessively, the square connecting column 5-1 can be limited by the connection limiting hole 1-3, the movable connecting column 5 is not pushed out easily, when building blocks need to be subjected to extension modeling, the face cover 1-10 can be detached, the movable connecting column 5 is taken out, the extension connection of the building blocks is achieved, and modeling is more variable.

Further, the bottom of the connecting groove 1-2 is also provided with a magnet 6. The connecting groove 1-2 is also provided with a magnet 6 which is attracted with the magnet 6 on the movable connecting column 5, so that the connection between the building blocks can be reinforced, and the modeling stability is improved.

Further, the second building block body 2 comprises a first cone 2-1 and a second cone 2-2, the top of the first cone 2-1 is provided with a connector 2-1-1, the connector 2-1-1 is matched with the connecting groove 1-2, the lower half parts of the first cone 2-1 and the second cone 2-2 are identical in structure, the lower half part of the first cone 2-1 is provided with a tightening connector 2-1-2, the tightening connector 2-1-2 is composed of a plurality of arc-shaped plates 2-1-3, the upper half part of the second cone 2-2 is provided with a connecting cavity 2-2-1, the inner diameter of the opening of the connecting cavity 2-2-1 is matched with the outer diameter of the connector 2-1-1, the shape and size of the connecting cavity 2-2-1 are matched with the tightening connector 2-1-2, and the inner wall of the connecting cavity 2-2-1 is provided with an anti-slip strip 2-2. The second building block body 2 is used as a variable-form modeling piece and comprises a first cone body 2-1 and a second cone body 2-2, wherein the first cone body 2-1 is connected with a connecting cavity 2-2-1 on the second cone body 2-2 through a tightening type connector 2-1-2, when the tightening type connector 2-1-2 is clamped into the connecting cavity 2-2-1, an arc-shaped plate 2-1-3 is tightened firstly, and after the tightening type connector 2-1 is clamped into the connecting cavity 2-2-1, the arc-shaped plate 2-1-3 is loosened to be connected with an anti-slip strip 2-2-2, so that the second cone body 2-2 can rotate on the first cone body 2-1 and can be positioned to swing various curves or linear models.

Further, the third building block body 3 comprises a first connecting column 3-1 and a second connecting column 3-2, the outer diameters of the first connecting column 3-1 and the second connecting column 3-2 are matched with the inner diameter of the connecting groove 1-2, the first connecting column 3-1 and the second connecting column 3-2 are respectively provided with a connecting plate 3-1-1, the connecting plate 3-1-1 of the first connecting column 3-1 is provided with a connecting slotted hole 3-1-2, the connecting plate 3-1-1 of the second connecting column 3-2 is provided with a rotating connecting column 3-2-1, and the rotating connecting column 3-2-1 is matched with the connecting slotted hole 3-1-2. The third building block body 3 is used as a bending connecting piece, bending at different angles is realized by connecting the rotary connecting column 3-2-1 with the connecting groove hole 3-1-2, meanwhile, the outer diameters of the first connecting column 3-1 and the second connecting column 3-2 are matched with the inner diameter of the connecting groove 1-2, the building block body can be connected more conveniently, and the edge of the third building block body is provided with an arc-shaped corner, so that children are not easily injured.

The utility model discloses a theory of operation: in the embodiment, only one combination connection mode is illustrated, all the first building blocks 1 are cubes, four movable connecting columns 5 are arranged in the first building block 1 and can be arranged into other shapes according to needs, wherein the movable connecting columns 5 of the middle first building block 1 are horizontally and transversely arranged, the movable connecting columns 5 of the first building block 1 on the left side and the right side are vertically arranged with the movable connecting column 5 of the middle first building block 1, the two movable connecting columns 5 in the diagonal positions in the movable connecting column 5 of the middle first building block 1 are respectively pushed out in opposite directions and are connected with the connecting grooves 1-2 on the first building block 1 on the left side and the right side, when the two movable connecting columns 5 on the right side are pushed out to the positions of the third positioning holes 1-6, the limiting ball springs 7 on the upper part are clamped into the third positioning holes 1-6, the lower limiting ball spring 7 is clamped into the fourth positioning hole 1-7, when the two movable connecting columns 5 on the left side are pushed out to the sixth positioning hole 1-9, the upper limiting ball spring 7 is clamped into the sixth positioning hole 1-9, the lower limiting ball spring 7 is clamped into the fifth positioning hole 1-8, when the movable connecting columns 5 are not pushed, the upper and lower limiting ball springs 7 are clamped into the first positioning hole 1-4 and the second positioning hole 1-5 to fix the movable connecting columns 5, the second building block 2 comprises a first cone 2-1 and a second cone 2-2, the first cone 2-1 is connected with the first building block 1 through a connector 2-1-1, the first cone 2-1 is connected with a connecting cavity 2-2-1 on the second cone 2-2 through a tightening connector 2-1-2, the tightening type connector 2-1-2 is tightened when being clamped into the connecting cavity 2-2-1, the tightening type connector is loosened after being clamped into the connecting cavity 2-2-1 and is connected with the anti-slip strip 2-2-2, so that the second cone 2-2 can rotate on the first cone 2-1 and can be positioned and put into various shapes, and the fourth building block 4 is used as a decorative piece.

The above description is only for the purpose of illustrating the technical solutions of the present invention and not for the purpose of limiting the same, and other modifications or equivalent replacements made by those of ordinary skill in the art to the technical solutions of the present invention should be covered within the scope of the claims of the present invention as long as they do not depart from the spirit and scope of the technical solutions of the present invention.

Claims (8)

1. The utility model provides a novel building blocks combination toy of built-in spliced pole which characterized in that: the building block comprises a first building block body (1), a second building block body (2) and a third building block body (3), wherein a movable through groove (1-1) is formed in the first building block body (1), a movable connecting column (5) is formed in the movable through groove (1-1), the three first building block bodies (1) are connected in parallel, the middle first building block body (1) is connected with the first building block bodies (1) on two sides through the movable connecting column (5), the bottoms of the first building block bodies (1) on the left side and the right side are connected with the second building block body (2), the side surface of the first building block body (1) on the left side is further connected with the second building block body (2), the top of the first building block body (1) on the right side is connected with the third building block body (3), the third building block body (3) is connected with the fourth first building block body (1), and a fourth building block body (4) is arranged on the fourth first building block body (1).

2. The novel building block combined toy with built-in connecting columns as claimed in claim 1, wherein: the movable connecting column (5) comprises a square connecting column body (5-1) and a cylindrical connecting end (5-2), the length of the outer diameter of the cylindrical connecting end (5-2) is equal to the side length of the square connecting column body (5-1), and the cylindrical connecting end (5-2) is arranged at two ends of the square connecting column body (5-1).

3. The novel building block combined toy with built-in connecting columns as claimed in claim 2, wherein: the square connecting cylinder body (5-1) is provided with four limiting ball springs (7), the four limiting ball springs (7) are symmetrically arranged on the square connecting cylinder body (5-1) in a group, and the cylindrical connecting end (5-2) is provided with a magnet (6).

4. The novel building block combined toy with built-in connecting columns as claimed in claim 1, wherein: the movable through groove (1-1) is a square through groove, the shape and the size of the movable through groove are matched with those of a square connecting cylinder body (5-1), two sides of the inner wall of the movable through groove (1-1) are provided with a first positioning hole (1-4), a second positioning hole (1-5), a third positioning hole (1-6), a fourth positioning hole (1-7), a fifth positioning hole (1-8) and a sixth positioning hole (1-9), the positioning holes are matched with the limiting ball springs (7), the distance between the first positioning hole (1-4) and the second positioning hole (1-5) is equal to the distance between the two limiting ball springs (7), the distance between the third positioning hole (1-6) and the fourth positioning hole (1-7) is equal to the distance between the two limiting ball springs (7), and the distance between the fifth positioning hole (1-8) and the sixth positioning hole (1-9) is equal to the distance between the two limiting ball springs (7).

5. The novel building block combined toy with built-in connecting columns as claimed in claim 1, wherein: the building block is characterized in that detachable face covers (1-10) are arranged at two ends of the first building block body (1), the face covers (1-10) are located in the stroke direction of the movable connecting column (5), connection limiting holes (1-3) are formed in the face covers (1-10), the connection limiting holes (1-3) are matched with the cylindrical connecting end (5-2), connecting grooves (1-2) are formed in four side faces of the first building block body (1), and the connecting grooves (1-2) are matched with the cylindrical connecting end (5-2).

6. The novel building block combined toy with built-in connecting columns as claimed in claim 5, wherein: and the bottom of the connecting groove (1-2) is also provided with a magnet (6).

7. The novel building block combined toy with built-in connecting columns as claimed in claim 1, wherein: the second building block body (2) comprises a first cone (2-1) and a second cone (2-2), the top of the first cone (2-1) is provided with a connector (2-1-1), the connector (2-1-1) is matched with a connecting groove (1-2), the lower half parts of the first cone (2-1) and the second cone (2-2) are identical in structure, the lower half part of the first cone (2-1) is provided with a tightening connector (2-1-2), the tightening connector (2-1-2) is composed of a plurality of arc plates (2-1-3), the upper half part of the second cone (2-2) is provided with a connecting cavity (2-2-1), the inner diameter of the opening of the connecting cavity (2-2-1) is matched with the outer diameter of the connector (2-1-1), the shape and size of the connecting cavity (2-2-1) are matched with the tightening connector (2-1-2), and an anti-slip strip (2-2-2-2) is arranged on the inner wall of the connecting cavity (2-2-1).

8. The novel building block combined toy with built-in connecting columns as claimed in claim 1, wherein: the third building block body (3) comprises a first connecting column (3-1) and a second connecting column (3-2), the outer diameters of the first connecting column (3-1) and the second connecting column (3-2) are matched with the inner diameter of the connecting groove (1-2), the first connecting column (3-1) and the second connecting column (3-2) are respectively provided with a connecting plate (3-1-1), the connecting plate (3-1-1) of the first connecting column (3-1) is provided with a connecting slotted hole (3-1-2), the connecting plate (3-1-1) of the second connecting column (3-2) is provided with a rotating connecting column (3-2-1), and the rotating connecting column (3-2-1) is matched with the connecting slotted hole (3-1-2).

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