CN104190092B - Building blocks - Google Patents
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- CN104190092B CN104190092B CN201410508651.1A CN201410508651A CN104190092B CN 104190092 B CN104190092 B CN 104190092B CN 201410508651 A CN201410508651 A CN 201410508651A CN 104190092 B CN104190092 B CN 104190092B
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- core component
- shrinkage pool
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- building blocks
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Abstract
The invention discloses building blocks, and belongs to the field of dimensional batten toys. The building blocks comprise first core components and joining elements, wherein each first core component is a regular hexahedron; each first core component is provided with a concave hole; a corresponding joining element is inserted into each first concave hole in the length direction; each concave hole is matched with each joining element; the width of each first concave hole is matched with the width of each joining element. The invention aims to provide the building blocks to realize three dimensional splice of the building block.
Description
Technical field
The present invention relates to three-dimensional jigsaw puzzle field, in particular to a kind of building blocks.
Background technology
Current building blocks interpolation is fairly simple, such as the classical high building blocks of pleasure in prior art, is characterized in happy high
Building blocks are provided with recessed interface and convex interface, are be combined with each other by the convex interface and recessed interface of two blocks of building blocks and realize splicing, this splicing
Mode is suffered from the drawback that:The high building blocks of existing pleasure are divided into the high building blocks of pleasure for being provided with recessed interface and the happy high product for being provided with convex interface
Wood, recessed interface or convex interface are only defined a face of the high building blocks of pleasure, therefore the high building blocks of existing pleasure are only capable of realizing two-dimentional splicing, nothing
Method realizes three-dimensional splicing.
The content of the invention
It is an object of the invention to provide a kind of building blocks, to realize the three-dimensional splicing of building blocks.
In a first aspect, a kind of building blocks that the present invention is provided, including:First core component and connecting elements, first core
Heart component is regular hexahedron, and the connecting elements is cuboid, and the every of first core component is simultaneously equipped with the first shrinkage pool,
The connecting elements is inserted along its length in first shrinkage pool, first shrinkage pool and the connecting elements form fit,
The width of first shrinkage pool is matched with the width of the connecting elements.
The technique effect that the present invention is realized:
Connecting elements is inserted in the first shrinkage pool of the first core component, makes connecting elements by the first shrinkage pool connection two the
One core component, the first core component is regular hexahedron, and it makes the every of the first core component per the first shrinkage pool is simultaneously equipped with
First shrinkage pool in one face can be inserted into connecting elements, so that the first core component can be along the vertical line direction of its any one side
Connect another first core component, realize the three-dimensional splicing of building blocks.
With reference to the first possible embodiment of first aspect, embodiments providing second may embodiment party
Formula, wherein, also including the second core component, second core component is triangular prism, and the bottom surface of the triangular prism and top surface are equal
For isosceles right triangle, the right angle edge lengths of the isosceles right triangle and second core component height and institute
The length of side for stating the first core component is equal, and the every of second core component is simultaneously equipped with the second shrinkage pool, the connecting elements
Insert along its length in second shrinkage pool, second shrinkage pool is matched with the connecting elements shape and width.Second core
Heart component is similar to the first core component, it is also possible to realize three-dimensional splicing, and in Modeling and Design, second core component
For constructing the modeling on roof.
With reference to the first possible embodiment of first aspect, the third possible embodiment party is embodiments provided
Formula, wherein, also including the 3rd core component, the 3rd core component be cylinder, two circles of the 3rd core component
The center in shape face is equipped with the 3rd shrinkage pool, and the 3rd shrinkage pool is matched with the connecting elements shape and width.Described 3rd
Core component is cylinder, in Modeling and Design, for the modeling of such as model such as bridge pier, rounded roof.
The first possible embodiment or second possible embodiment or the third possible enforcement with reference to first aspect
Mode, embodiments provides the 4th kind of possible embodiment, wherein, also including filling and leading up component, the component of filling and leading up
Length is less than the depth of first shrinkage pool, and the width and shape for filling and leading up component is matched with first shrinkage pool.It is described to fill out
One end of flat component is inserted in first shrinkage pool, and the other end for filling and leading up component will not expose first shrinkage pool, because
First shrinkage pool fills and leads up Components Shape and width is matched with described, fills and leads up component can to fill up described first recessed so described
Hole, and make the first core component surface will not be uneven.
With reference to the first possible embodiment of first aspect, the embodiment of the present invention additionally provides the 5th kind of possible embodiment party
Formula, wherein, wherein simultaneously it is provided with nine first shrinkage pools in six faces of first core component.
With reference to the first possible embodiment of first aspect, the embodiment of the present invention additionally provides the 6th kind of possible embodiment party
Formula, wherein, first shrinkage pool is located at the center of every one side of first core component.Increase connecting elements and the first core
The stability of heart component connection, reduces by the first core component and rocks.
With reference to second possible embodiment of first aspect, the embodiment of the present invention additionally provides the 7th kind of possible embodiment party
Formula, wherein, second shrinkage pool is located at the center of every one side of second core component.
With reference to the first possible embodiment of first aspect, the embodiment of the present invention additionally provides the 8th kind of possible embodiment party
Formula, wherein, also including the 4th core component, the 4th core component includes base plate, and the base plate is square, the base plate
The length of side it is equal with the length of side of first core component, the center of the base plate is provided with rectangular preiection, the rectangular preiection
Length less than first shrinkage pool depth, the width and shape of the rectangular preiection are matched with first shrinkage pool.
Other features and advantages of the present invention will be illustrated in the following description, also, the partly change from description
Obtain it is clear that or being understood by implementing the embodiment of the present invention.The purpose of the embodiment of the present invention and other advantages can pass through
Specifically noted structure is realizing and obtain in the description, claims and accompanying drawing write.
Description of the drawings
Fig. 1 shows a kind of front view structure figure of the first embodiment of the first core component of building blocks of the embodiment of the present invention;
Fig. 2 shows a kind of face upwarding assumption diagram of the first embodiment of the first core component of building blocks of the embodiment of the present invention;
Fig. 3 shows a kind of structure chart of the connecting elements of building blocks of the embodiment of the present invention;
Fig. 4 shows a kind of front view structure figure of the second core component of building blocks of the embodiment of the present invention;
Fig. 5 shows a kind of front view structure figure of the 3rd core component of building blocks of the embodiment of the present invention;
Fig. 6 shows a kind of structure chart for filling and leading up component of building blocks of the embodiment of the present invention;
Fig. 7 shows a kind of structure chart of the 4th core component of building blocks of the embodiment of the present invention;
Fig. 8 shows a kind of structure chart of the 5th core component of building blocks of the embodiment of the present invention;
Fig. 9 shows a kind of first embodiment structure chart of building blocks of the embodiment of the present invention;
Figure 10 shows a kind of second embodiment structure chart of building blocks of the embodiment of the present invention;
Figure 11 shows a kind of 3rd embodiment structure chart of building blocks of the embodiment of the present invention;
Figure 12 shows a kind of fourth embodiment structure chart of building blocks of the embodiment of the present invention;
Figure 13 shows a kind of the 5th example structure figure of building blocks of the embodiment of the present invention;
Figure 14 shows a kind of sixth embodiment structure chart of building blocks of the embodiment of the present invention;
Figure 15 shows a kind of the 7th example structure figure of building blocks of the embodiment of the present invention;
Figure 16 shows a kind of the 8th example structure figure of building blocks of the embodiment of the present invention;
Figure 17 shows a kind of second embodiment structure chart of the first core component of building blocks of the embodiment of the present invention;
Figure 18 shows a kind of front view structure figure of the 6th connecting elements of building blocks of the embodiment of the present invention;
Figure 19 shows a kind of front view structure figure of the 7th core component of building blocks of the embodiment of the present invention;
Figure 20 shows a kind of front view structure figure of the 8th core component of building blocks of the embodiment of the present invention;
Figure 21 shows a kind of face upwarding assumption diagram of the 8th core component of building blocks of the embodiment of the present invention;
Figure 22 shows a kind of face upwarding assumption diagram of the 7th core component of building blocks of the embodiment of the present invention;
Figure 23 shows a kind of face upwarding assumption diagram of the second core component of building blocks of the embodiment of the present invention;
Figure 24 shows a kind of face upwarding assumption diagram of the 3rd core component of building blocks of the embodiment of the present invention;
Figure 25 shows a kind of face upwarding assumption diagram of the 6th core component of building blocks of the embodiment of the present invention;
Figure 26 shows a kind of front view structure figure of the 9th core component of building blocks of the embodiment of the present invention;
Figure 27 shows a kind of face upwarding assumption diagram of the 9th core component of building blocks of the embodiment of the present invention;
Figure 28 shows a kind of front view structure figure of the tenth core component of building blocks of the embodiment of the present invention;
Figure 29 shows a kind of face upwarding assumption diagram of the tenth core component of building blocks of the embodiment of the present invention;
Figure 30 shows a kind of front view structure figure of the 11st core component of building blocks of the embodiment of the present invention;
Figure 31 shows a kind of face upwarding assumption diagram of the 11st core component of building blocks of the embodiment of the present invention;
Figure 32 shows a kind of front view structure figure of the 12nd core component of building blocks of the embodiment of the present invention;
Figure 33 shows a kind of face upwarding assumption diagram of the 12nd core component of building blocks of the embodiment of the present invention;
Figure 34 shows a kind of front view structure figure of the 13rd core component of building blocks of the embodiment of the present invention;
Figure 35 shows a kind of face upwarding assumption diagram of the 13rd core component of building blocks of the embodiment of the present invention;
Figure 36 shows a kind of front view structure figure of the 14th core component of building blocks of the embodiment of the present invention;
Figure 37 shows a kind of face upwarding assumption diagram of the 14th core component of building blocks of the embodiment of the present invention;
Figure 38 shows a kind of front view structure figure of the 15th core component of building blocks of the embodiment of the present invention;
Figure 39 shows a kind of face upwarding assumption diagram of the 15th core component of building blocks of the embodiment of the present invention;
Figure 40 shows a kind of front view structure figure of the 16th core component of building blocks of the embodiment of the present invention;
Figure 41 shows a kind of face upwarding assumption diagram of the 16th core component of building blocks of the embodiment of the present invention;
Figure 42 shows a kind of front view structure figure of the 17th core component of building blocks of the embodiment of the present invention;
Figure 43 shows a kind of face upwarding assumption diagram of the 17th core component of building blocks of the embodiment of the present invention;
Figure 44 shows a kind of structure chart of the cross section of the first shrinkage pool of building blocks of the embodiment of the present invention.
Specific embodiment
Below by specific embodiment and combine accompanying drawing the present invention is described in further detail.
Fig. 1 shows the front view structure figure of the first embodiment of the first core component of the embodiment of the present invention, and Fig. 3 shows
The structure chart of the connecting elements of the embodiment of the present invention, the embodiment of the present invention includes the first core component 100 and connecting elements 200,
First core component 100 is regular hexahedron, and the every of first core component 100 is simultaneously equipped with the first shrinkage pool 101, institute
State connecting elements 200 and insert first shrinkage pool 101, first shrinkage pool 101 and the shape of the connecting elements 200 along its length
Shape is matched, and the width of first shrinkage pool 101 is matched with the width of the connecting elements 200.
The length of side of the first core component 100 described in the embodiment of the present invention be 1.8cm, first shrinkage pool 101 it is transversal
Face is square, and the length of side of first shrinkage pool 101 is 0.6cm, and each side of first shrinkage pool 101 is equipped with projection,
The raised height is 0.2cm, lower than the plane of first core component 100 at the opening of first shrinkage pool 101
0.12cm.First shrinkage pool 101 of every one side of first core component 100 is connected with the first shrinkage pool 101 to side, connection
Mode be that by a round tube, it is foursquare cuboid that the connecting elements 200 is bottom surface, the connecting elements 200
The bottom surface length of side be 0.36cm, the height of the connecting elements 200 is 0.8cm.As shown in Fig. 2 first core component 100
Bottom surface be provided with nine the first shrinkage pools 101, the center in other faces of first core component 100 is provided with first shrinkage pool
101.Nine the first shrinkage pools 101 of the bottom surface of first core component 100, make the bottom surface of first core component 100 with
When other described first core components 100 pass through 200 grafting of connecting elements, only have with the bottom surface of first core component 100
One the first shrinkage pool 101 is compared, and mode is more flexible.
As shown in Fig. 4 and Figure 23, the embodiment of the present invention also includes the second core component 300, second core component 300
For triangular prism, the bottom surface of the triangular prism and top surface are isosceles right triangle, the right-angle side of the isosceles right triangle
The height of length and second core component 300 is 1.8cm, therefore second core component 300 is made up of five faces,
This five faces include two facings, a rectangle face and two isosceles right triangle faces, second core component
300 every one side can be provided with the second shrinkage pool 301, and only the two of second core component 300 in the embodiment of the present invention
The center in individual facing and a rectangle face arranges the second shrinkage pool 301, and the connecting elements 200 is inserted along its length
In second shrinkage pool 301, second shrinkage pool 301 is matched with the shape of the connecting elements 200 and width, second shrinkage pool
301 is completely the same with the shape and structure and size of first shrinkage pool 101.
As shown in Fig. 5 and Figure 24, the embodiment of the present invention also includes the 3rd core component 400, the 3rd core component 400
For cylinder, the center of two rounded faces of the cylinder is equipped with the 3rd shrinkage pool 401, the 3rd core component 400
The diameter of two rounded faces be 3cm, the 3rd shrinkage pool 401 is complete with the shape and structure and size of first shrinkage pool 101
It is complete consistent.
As shown in fig. 6, the embodiment of the present invention also includes filling and leading up component, the component of filling and leading up is described including the first base plate 502
First base plate 502 is cuboid, and the top surface of first base plate 502 and bottom surface are square, the top of first base plate 502
The length of side of face and bottom surface is 0.6cm, a height of 0.12cm of first base plate 502, in the top surface of first base plate 502
The first rectangular preiection 501 is provided with the heart, the cross section of first rectangular preiection 501 is square, first rectangular preiection
The 501 cross section length of side is 0.36cm, and the height of first rectangular preiection 501 is 0.4cm.By first rectangular preiection
In 501 insertions, first shrinkage pool 101, first base plate 502 is promoted to make first rectangular preiection 501 fully-inserted described
In first shrinkage pool 101, due at the height of first base plate 502 and the opening of first shrinkage pool 101 with first core
The surface height difference of heart component 100 is equal, so the component of filling and leading up can fill and lead up first shrinkage pool 101, makes described first
The surface of core component 100 smooths.First rectangular preiection 501 inserts described the of the one side of the first core component 100
When in one shrinkage pool 101, because the width of first rectangular preiection 501 is matched with the width of first shrinkage pool 101, described
One base plate 502 is covered at the opening of first shrinkage pool 101, therefore first rectangular preiection 501 cannot be from the first of the face
Take out in shrinkage pool 101, can only by stretch in the first shrinkage pool 101 of the opposite face of first core component 100 bar or its
His instrument, through the circular pipe as described in Figure 44, first rectangular preiection 501 is released.
As shown in fig. 7, the embodiment of the present invention also includes the 4th core component, the 4th core component includes the second base plate
602, second base plate 602 is cuboid, and the top surface of second base plate 602 and bottom surface are square, second bottom
The top surface of plate 602 and the length of side of bottom surface are 1.8cm, a height of 0.12cm of second base plate 602, second base plate 602
The center of top surface be provided with the second rectangular preiection 601, the cross section of second rectangular preiection 601 is square, described the
The length of side of the cross section of two rectangular preiections 601 is 0.36cm, and the height of second rectangular preiection 601 is 0.4cm.Described 4th
Core component is adopted fills and leads up component identical mode with described, insert first core component 100 nine first of bottom
One of the center of shrinkage pool 101, fills and leads up in this way nine the first shrinkage pools 101 of the bottom of first core component 100.
In addition, as shown in figure 8, the embodiment of the present invention also includes the 5th core component 402, the 5th core component 402
For semicylinder, a diameter of 1.8cm of the semi circular surface of the 5th core component 402, the 5th core component 402 it is a height of
0.6cm, the center of two semi circular surfaces of the 5th core component 402 is provided with the 4th shrinkage pool 403, and the 4th of two semi circular surfaces the
The connection of shrinkage pool 403 constitutes groove, and the length of the groove is 0.6cm, by two the 5th core components 402 along semi circular surface
Straight line alignment splicing, the then new shrinkage pool that the 4th shrinkage pool 403 of described two 5th core components 402 is formed and described the
One shrinkage pool shape and structure and size are completely the same.
As shown in figure 9, the spliced structure chart of the 5th core component 402 and connecting elements 200, chooses two the 5th cores
Heart component 402 and a connecting elements 200, connecting elements 200 is kept flat, by the 4th shrinkage pool of the 5th core component 402
403 along one end of the length direction insertion connecting elements 200 of connecting elements 200, by the 4th of another the 5th core component 402 the
Shrinkage pool 403 inserts the other end of connecting elements 200 along the length direction of connecting elements 200.
As shown in Figure 10, one end of connecting elements 200 is inserted the first shrinkage pool of a side of the first core component 100
In 101, the other end of the connecting elements 200 is inserted in the first shrinkage pool 101 of another the first core component 100, realized
Two the first core components 100 splice.
As shown in figure 11, after the one-dimensional splicing of multiple first core components 100 is realized by the way of Figure 10, then wherein
First core component 100 top surface by connecting elements 200 connect another first core component 100, realize it is many
The two dimension splicing of individual first core component 100.
As shown in figure 12, the two dimension splicing of multiple first core components 100 is realized by the way of Figure 11, it is different from Figure 11
, the other end of connecting elements 200 for inserting first shrinkage pool 101 in a face of first core component 100 of Figure 12 exposes
First shrinkage pool 101.
As shown in figure 13, with reference to Figure 11 and Figure 12, by the connecting elements 200 for exposing first shrinkage pool 101 in Figure 12
In first shrinkage pool 101 of any one the first core component 100 in insertion Figure 11, multiple first core components 100 are realized
Three-dimensional splicing.
As shown in figure 14, with reference to by the way of Figure 10-13, multiple first core components 100 are passed through into connecting elements 200
Splicing, wherein, as shown in Figure 14 described fills and leads up the first base plate of component 502 fills and leads up first core component 100 first
Shrinkage pool 101, the surface for making the first core component 100 smooths.
As shown in figure 15, with reference to by the way of Figure 10-14, multiple first core components 100 are passed through into connecting elements 200
Tower-like BUILDINGS MODELS is spliced into, first shrinkage pool 101 on each surface of the tower-like BUILDINGS MODELS is filled and led up the of component
One base plate 502 is filled and led up.
As shown in figure 16,300, five the 3rd core structures of multiple first core component, 100, two the second core components are chosen
Part 400, it is multiple fill and lead up component, multiple 4th core components and multiple connecting elements 200, by connecting elements 200 by multiple
One core component 100 splices, and constitutes the body of wall in Modeling and Design, then two the second core components 300 are spliced multiple first
The body of wall top that core component 100 is spliced to form constitutes the pitched roof in Modeling and Design, and the 3rd core component 400 is spliced
Other tops for the body of wall being spliced to form in multiple first core components 100, constitute monolayer rounded roof, then by two the 3rd cores
Heart component 400 splices other tops for the body of wall being spliced to form in multiple first core components 100, constitutes double-layer circular roof.
In addition, shown in Figure 17, the structure chart of second embodiment of first core component 100, area compared to Figure 1
It is not that the top surface of first core component 100 is not provided with the first shrinkage pool 101, but in first core component 100
The center of top surface is provided with the 3rd rectangular preiection 102, and the 3rd rectangular preiection 102 is that bottom surface is foursquare cuboid, institute
The bottom surface length of side for stating the 3rd rectangular preiection 102 is 0.36cm, and the height of the 3rd rectangular preiection 102 is 0.4cm.
Furthermore, as shown in Figure 18 and Figure 25, the embodiment of the present invention also includes the 6th core component 103, the 6th core
Component 103 is cuboid, and the bottom surface of the 6th core component 103 and top surface are square, the bottom of the 6th core component 103
Face and the top surface length of side are 1.8cm, and the bottom surface of the 6th core component 103 is provided with nine the first shrinkage pools 101, the 6th core
The top surface of heart component 103 is provided with five the first shrinkage pools 101, five the first shrinkage pools 101 of the top surface of the 6th core component 103
Respectively positioned at the 6th core component 103 top surface foursquare center and four apexes, the 6th core structure
Each side in four sides of part 103 is equipped with first shrinkage pool 101, four of the 6th core component 103
First shrinkage pool 101 of side is arranged on the center of side and near the position of top surface.Figure 18 includes four connecting elements
200, in the first shrinkage pool 101 of four apexes for inserting the top surface of the 6th core component 103 respectively.
Furthermore, as indicated in figures 19 and 22, the embodiment of the present invention also includes the 7th core component 104, the 7th core
Component 104 is cuboid, and the bottom surface of the 7th core component 104 and top surface are square, the bottom of the 7th core component 104
Face and the top surface length of side are 0.6cm, and the bottom surface of the 7th core component 104 and top surface are equipped with the first shrinkage pool 101, Figure 19
In, the connecting elements 200 is inserted in the first shrinkage pool 101 of the top surface of the 7th core component 104.
Furthermore, as shown in Figure 20 and Figure 21, the embodiment of the present invention also includes the 8th core component 105, the 8th core
Component 105 is square, and the length of side of the 8th core component 105 is 0.6cm, the bottom surface of the 8th core component 105 and
Top surface is equipped with the first shrinkage pool 101.
Furthermore, by shown in the 7th core component 104 or Figure 20 shown in the 6th core component 103, Figure 19 shown in Figure 18
The simple change of the 8th core component 105 can form various core components, for example change the 6th core component 103 or the 7th core
The height of component 104, the bottom surface length of side or the top surface length of side, also or change the 6th core component 103 or the 7th core component 104
The 9th core component 106, such as Figure 28 and Figure 29 in the position of the setting of the first shrinkage pool 101 and number etc., such as Figure 26 and Figure 27
In the tenth core component 107, the 11st core component 108 such as in Figure 30 and Figure 31, the such as in Figure 32 and Figure 33 the 12nd
The 14th core component in the 13rd core component 110 in core component 109, such as Figure 34 and Figure 35, such as Figure 36 and Figure 37
111st, such as in Figure 38 and Figure 39 the 16th core component 113 in the 15th core component 112, such as Figure 40 and Figure 41, such as scheme
The 17th core component 114 in 42 and Figure 43 is by the 7th core shown in the 6th core component 103, Figure 19 shown in Figure 18
The simple change of the 8th core component 105 gained shown in heart component 104 or Figure 20.Such as the 9th core component 106 is exactly by
The bottom surface of seven core components 104 and top surface are changed into length for 1.2cm, the rectangle that width is 0.6cm, the 9th core component 106
Top surface and bottom surface be equipped with two the first shrinkage pools 101.
In addition, the 6th core component 103, the 7th core component 104, the 8th core component 105, the 9th core component 106,
Tenth core component 107, the 11st core component 108, the 12nd core component 109, the 13rd core component the 110, the 14th
Core component 111, the 15th core component 112, the 16th core component 113 and the 17th core component 114 and connecting elements
200 coordinate, and are equally capable of the modeling figure of pie graph 11-15, the 6th core component 103, the 7th core component 104, the 8th core
Component 105, the 9th core component 106, the tenth core component 107, the 11st core component 108, the 12nd core component 109,
13rd core component 110, the 14th core component 111, the 15th core component 112, the 16th core component 113 and the tenth
Seven core components 114 and the first core component 100, the second core component 300, the 3rd core component 400, the 4th core component,
5th core component 402 and connecting elements 200 coordinate, and the structure of Figure 16 can be constituted in the same manner.
Obviously, those skilled in the art using the connecting elements 200, fill and lead up component, the first core component 100,
Two core components 300, the 3rd core component 400, the 4th core component, the 5th core component 402, the 6th core component 103,
Seven core components 104, the 8th core component 105, the 9th core component 106, the tenth core component 107, the 11st core component
108th, the 12nd core component 109, the 13rd core component 110, the 14th core component 111, the 15th core component 112,
16th core component 113 and the 17th core component 114 to realize multiple combination mode and can be constituted multiple combination model, this
Within protection scope of the present invention.
In addition, the size of each component in a kind of embodiment of building blocks of the invention is only the size of various embodiments
In one kind, those skilled in the art read the embodiment of the present invention on the basis of, moreover it is possible to obtain sizes, this is at this
Within bright protection domain.
The preferred embodiments of the present invention are the foregoing is only, the present invention is not limited to, for the skill of this area
For art personnel, the present invention can have various modifications and variations.It is all within the spirit and principles in the present invention, made any repair
Change, equivalent, improvement etc., should be included within the scope of the present invention.
Claims (5)
1. a kind of building blocks, it is characterised in that include:First core component and connecting elements, first core component is positive six
Face body, the connecting elements is cuboid, and the every of first core component is simultaneously equipped with the first shrinkage pool, the connecting elements
Insert along its length in first shrinkage pool, first shrinkage pool and the connecting elements form fit, first shrinkage pool
Width match with the width of the connecting elements;
Wherein, the cross section of first shrinkage pool is square, and described each medial surface of first shrinkage pool is provided with to described the
The prominent strip projected parts in one shrinkage pool middle part, the direction for inserting first shrinkage pool along the connecting elements of the strip projected parts is prolonged
Stretch, it is foursquare cuboid that the connecting elements is bottom surface;
Also include filling and leading up component, the component of filling and leading up is including the first base plate and the first rectangular preiection, the top surface of first base plate
Center be provided with the first rectangular preiection, the height of first base plate is equal at the opening of first shrinkage pool and described first
The difference in height on the surface of core component, when first rectangular preiection is inserted in first shrinkage pool, first base plate cover
Residence is stated at the opening of the first shrinkage pool, so that the first core component surface is smooth, wherein, the width of the opening is less than institute
The width of the first base plate is stated, is being inserted on the direction of first shrinkage pool along the component of filling and leading up, first rectangular preiection
Projected area of the projected area less than first base plate;
The bottom surface of first core component is provided with nine the first shrinkage pools, and nine first shrinkage pools are arranged into the matrix that three row three is arranged
Cloth;
Also include multiple cuboids, the length and width and height of each cuboid are the three of the length of side of first core component
/ N, at least one face of each cuboid is provided with the first shrinkage pool described at least one, wherein, N is 1,2 or 3;
Also include the second core component, second core component is triangular prism, and the bottom surface of the triangular prism and top surface are
The height of waist right angled triangle, the right angle edge lengths of the isosceles right triangle and second core component is with described
The length of side of one core component is equal, and the every of second core component is simultaneously equipped with the second shrinkage pool, and the connecting elements is along long
Degree direction is inserted in second shrinkage pool, and second shrinkage pool is matched with the connecting elements shape and width;
Also include the 3rd core component, the 3rd core component be cylinder, two rounded faces of the 3rd core component
Center be equipped with the 3rd shrinkage pool, the 3rd shrinkage pool is matched with the connecting elements shape and width.
2. building blocks according to claim 1, it is characterised in that the length for filling and leading up component is less than first shrinkage pool
Depth, the width and shape for filling and leading up component is matched with first shrinkage pool.
3. building blocks according to claim 1, it is characterised in that first shrinkage pool is located at the every of first core component
Center simultaneously.
4. building blocks according to claim 1, it is characterised in that second shrinkage pool is located at the every of second core component
Center simultaneously.
5. building blocks according to claim 1, it is characterised in that also including the 4th core component, the 4th core component
Including base plate, the base plate is square, and the length of side of the base plate is equal with the length of side of first core component, the base plate
Center be provided with rectangular preiection, the length of the rectangular preiection less than first shrinkage pool depth, the rectangular preiection
Width and shape are matched with first shrinkage pool.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201410508651.1A CN104190092B (en) | 2014-09-28 | 2014-09-28 | Building blocks |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201410508651.1A CN104190092B (en) | 2014-09-28 | 2014-09-28 | Building blocks |
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| CN104190092A CN104190092A (en) | 2014-12-10 |
| CN104190092B true CN104190092B (en) | 2017-04-26 |
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| CN201410508651.1A Expired - Fee Related CN104190092B (en) | 2014-09-28 | 2014-09-28 | Building blocks |
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Families Citing this family (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| KR20180133404A (en) * | 2016-04-18 | 2018-12-14 | 치스윅 이노베이션즈 리미티드 | Structured toy |
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| JP2010279671A (en) * | 2009-06-08 | 2010-12-16 | Takeshi Awata | Assembling block |
| CN201823317U (en) * | 2009-12-24 | 2011-05-11 | 瞿芸芳 | Cube-shaped combined building block |
| CN103429305A (en) * | 2012-02-06 | 2013-12-04 | 株式会社爱迪可 | Connectable block |
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| CN104190092A (en) | 2014-12-10 |
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