CN211158599U - Multi-dimensional splicing assembly and splicing structural plate - Google Patents
Multi-dimensional splicing assembly and splicing structural plate Download PDFInfo
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- CN211158599U CN211158599U CN201921993537.7U CN201921993537U CN211158599U CN 211158599 U CN211158599 U CN 211158599U CN 201921993537 U CN201921993537 U CN 201921993537U CN 211158599 U CN211158599 U CN 211158599U
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Abstract
The utility model discloses a multidimension degree concatenation subassembly and concatenation structural slab, including the concatenation strip, be equipped with a plurality of first concatenation holes and a plurality of second concatenation hole on the concatenation strip, a plurality of first concatenation holes and a plurality of second concatenation holes are arranged in the extending direction of concatenation strip; the central axis of the first splicing hole is parallel to the vertical direction; the central axis of the second splicing hole is parallel to the horizontal direction. The splicing structure plate comprises at least three splicing strips, the end parts of the splicing strips are mutually connected and enclose a splicing space, splicing plates are fixed in the splicing space, and a plurality of third splicing hole assemblies are arranged on the splicing plates.
Description
Technical Field
The utility model relates to a building blocks technical field especially relates to a multidimension degree concatenation subassembly and concatenation structural slab.
Background
At present, the current building block teaching aid beam or board only have a plane or the hole site of a dimension to be used for the connection between the building blocks, and this structure that leads to is that the class structure of building on the market is dull and uninteresting, and the molding is coarse, lacks creativity and appeal, is unfavorable for building block type education trade development and the cultivation of child imagination.
SUMMERY OF THE UTILITY MODEL
In order to overcome prior art not enough, one of the purposes of the utility model provides a multidimension degree concatenation subassembly has the hole site in two dimensions on its same concatenation strip, and mosaic structure is more various.
The second purpose of the utility model is realized by adopting the following technical scheme: the splicing structure plate formed by at least three splicing strips and splicing plates has hole sites in two dimensions, so that the splicing and building structure is more diverse.
A multi-dimensional splicing assembly comprises a splicing strip, wherein a plurality of first splicing holes and a plurality of second splicing holes are formed in the splicing strip, and the first splicing holes and the second splicing holes are arranged in the extending direction of the splicing strip; the central axis of the first splicing hole is parallel to the vertical direction; the central axis of the second splicing hole is parallel to the horizontal direction.
Preferably, the plurality of first splicing holes and the plurality of second splicing holes are distributed in a staggered manner on the splicing strip.
Preferably, one second splicing hole is distributed between every two adjacent first splicing holes.
The second purpose of the utility model is realized by adopting the following technical scheme:
the splicing structure plate comprises at least three splicing strips, the end parts of the splicing strips are mutually connected and enclose a splicing space, splicing plates are fixed in the splicing space, and a plurality of third splicing hole assemblies are arranged on the splicing plates.
Preferably, the third splicing hole assembly comprises a plurality of round holes, and the round holes of the third splicing hole assemblies are distributed in the width direction of the splicing plate; and the third splicing hole assemblies are arranged in the length direction of the splicing plate.
Preferably, the third splicing hole assembly comprises a plurality of square holes, and the square holes of each third splicing hole assembly are distributed in the width direction of the splicing plate; and the third splicing hole assemblies are arranged in the length direction of the splicing plate.
Preferably, the plurality of third splicing hole assemblies are arranged in the length direction of the splicing plate; one of them group of adjacent two sets of third concatenation hole subassemblies includes a plurality of round holes, and another group of adjacent two sets of third concatenation hole subassemblies includes a plurality of square holes and a plurality of round hole, and a plurality of square holes and a plurality of round hole distribute at the width direction of splice plate.
Preferably, the round holes and the square holes of the third splicing hole assembly are distributed in a staggered manner in the width direction of the splicing plate.
Preferably, the number of the splicing strips is four, and the end parts of the four splicing strips are mutually connected and enclose the splicing space; the splicing plates are fixedly connected with the four splicing strips.
Compared with the prior art, the beneficial effects of the utility model reside in that: its multidimension degree concatenation subassembly has the hole site in two dimensions on its same concatenation strip, and mosaic structure is more various.
In addition, the edge of splicing structure board is enclosed by at least three concatenation strip, and first concatenation hole and the second concatenation hole that has on the concatenation strip make splicing structure board can be in horizontal linking up, also can be in vertical linking up, and mosaic structure is stable, and the concatenation style is more various, and expansibility is better, the cordwood system teaching of being convenient for.
Drawings
Fig. 1 is a schematic structural view of the present invention;
FIG. 2 is another schematic structural diagram of the present invention;
fig. 3 is another schematic structural diagram of the present invention.
In the figure: 10. splicing the strips; 11. a first mating hole; 12. a second splicing hole; 20. splicing plates; 21. a circular hole; 22. and (4) square holes.
Detailed Description
The invention will be further described with reference to the accompanying drawings and specific embodiments:
as shown in fig. 1, fig. 2 and fig. 3, the multi-dimensional splicing assembly includes a splicing strip 10, wherein a plurality of first splicing holes 11 and a plurality of second splicing holes 12 are disposed on the splicing strip 10, and the plurality of first splicing holes 11 and the plurality of second splicing holes 12 are specifically arranged in an extending direction of the splicing strip 10. And the central axis of the first splicing hole 11 is parallel to the vertical direction; the central axis of the second mating hole 12 is parallel to the horizontal direction.
On the basis of the structure, use the utility model discloses a multidimension degree concatenation subassembly can be used for building blocks splice plate 20 with above-mentioned concatenation strip 10, has the hole site in two dimensions on its same concatenation strip 10, and the central axis of first concatenation hole 11 is parallel with vertical direction promptly, and the central axis of second concatenation hole 12 is parallel with the horizontal direction, so, can splice concatenation strip 10 or building blocks splice plate 20 accessible building blocks connecting block in two dimensions of horizontal direction or vertical direction, and mosaic structure is more various.
Preferably, the plurality of first splicing holes 11 and the plurality of second splicing holes 12 are distributed in a staggered manner on the splicing strip 10, and specifically, in the present embodiment, one second splicing hole 12 is distributed between every two adjacent first splicing holes 11. When the concatenation was built, can splice horizontal building block strip and vertical building block strip simultaneously, horizontal building block strip and vertical building block strip are crisscross to be built, and the pattern is more various. Of course, two or more second splicing holes 12 may be distributed between the two first splicing holes 11, and the selection is specifically performed according to actual needs.
This embodiment still provides a concatenation structural slab, including at least three concatenation strip 10, the tip of each concatenation strip 10 links up each other and encloses into the concatenation space, is fixed with splice plate 20 in the concatenation space, specifically is equipped with a plurality of third concatenation hole subassemblies at splice plate 20.
On this structure basis, the edge of splice structure board is enclosed by at least three concatenation strip 10, and first concatenation hole 11 and second concatenation hole 12 that have on concatenation strip 10 make splice structure board can transversely link up, also can be in vertical linking up, and the mosaic structure is stable, and the concatenation style is more various, and the expansibility is better, the cordwood system of being convenient for teaching. So, splice structure board accessible concatenation strip 10 carries out multidimension and links up, is equipped with a plurality of third concatenation hole subassemblies on the splice plate 20, can splice on splice plate 20 and build, the teaching of being convenient for.
Specifically, include a plurality of round holes 21 at a plurality of third concatenation hole subassemblies, a plurality of round holes 21 of each third concatenation hole subassembly distribute at the width direction of splice plate 20, and a plurality of third concatenation hole subassemblies are arranged at the length direction of splice plate 20, so, when using, can splice the terminal portion for cylindrical building blocks on splice plate 20.
Of course, the third splicing hole assemblies include a plurality of square holes 22, the square holes 22 of each third splicing hole assembly are distributed in the width direction of the splice plate 20, and the third splicing hole assemblies are arranged in the length direction of the splice plate 20. When in use, the building blocks with square column ends can be spliced on the splice plates 20.
In addition, the third splicing hole assemblies are arranged in the length direction of the splicing plate 20, one of the two adjacent third splicing hole assemblies comprises a plurality of round holes 21, the other of the two adjacent third splicing hole assemblies comprises a plurality of square holes 22 and a plurality of round holes 21, and the plurality of square holes 22 and the plurality of round holes 21 in the third splicing hole assembly are distributed in the width direction of the splicing plate 20. So, can splice cylinder building block strip on splice plate 20, also can splice square post building block strip, building block building pattern is more various.
More specifically, the round holes 21 and the square holes 22 of each third splicing hole assembly are distributed in the width direction of the splicing plate 20 in a staggered manner, that is, the cylindrical building block strips or the square cylindrical building block strips can be spliced at intervals in the width direction of the splicing plate 20, so that the patterns are more diversified.
Preferably, four splicing strips 10 are arranged, and the end parts of the four splicing strips 10 are mutually connected and enclose a splicing space; splice plate 20 and four concatenation strip 10 rigid couplings, the splice plate 20 structure that encloses promptly is the direction, and stable in structure and rule are convenient for later stage and are built.
Various other modifications and changes may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such modifications and changes are intended to fall within the scope of the claims.
Claims (9)
1. The multi-dimensional splicing assembly is characterized by comprising a splicing strip, wherein a plurality of first splicing holes and a plurality of second splicing holes are formed in the splicing strip, and the first splicing holes and the second splicing holes are arranged in the extending direction of the splicing strip; the central axis of the first splicing hole is parallel to the vertical direction; the central axis of the second splicing hole is parallel to the horizontal direction.
2. The multi-dimensional tiling assembly of claim 1, wherein the first plurality of tiles and the second plurality of tiles are staggered across the tile.
3. The multi-dimensional splicing assembly of claim 2, wherein one second splicing hole is arranged between every two adjacent first splicing holes.
4. A spliced structural panel comprising at least three splice strips as claimed in any one of claims 1 to 3, the ends of each splice strip being joined to one another and defining a splice space, a splice plate being secured within the splice space, the splice plate being provided with a plurality of third splice hole assemblies.
5. The splice structure panel of claim 4, wherein the third splice hole assembly comprises a plurality of circular holes, the plurality of circular holes of each third splice hole assembly being distributed across the width of the splice panel; and the third splicing hole assemblies are arranged in the length direction of the splicing plate.
6. The splice structure panel of claim 4, wherein the third splice hole assembly comprises a plurality of square holes, the plurality of square holes of each third splice hole assembly being distributed across the width of the splice panel; and the third splicing hole assemblies are arranged in the length direction of the splicing plate.
7. The splice structure panel of claim 4, wherein a plurality of third splice hole assemblies are arranged along a length of the splice panel; one of them group of adjacent two sets of third concatenation hole subassemblies includes a plurality of round holes, and another group of adjacent two sets of third concatenation hole subassemblies includes a plurality of square holes and a plurality of round hole, and a plurality of square holes and a plurality of round hole distribute at the width direction of splice plate.
8. The splice structure panel of claim 7, wherein the round holes and the square holes of the third splice hole assembly are staggered across the width of the splice panel.
9. The splice structure panel of claim 4, wherein there are four splice bars, the ends of the four splice bars being joined to each other and enclosing the splice space; the splicing plates are fixedly connected with the four splicing strips.
Priority Applications (1)
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CN201921993537.7U CN211158599U (en) | 2019-11-18 | 2019-11-18 | Multi-dimensional splicing assembly and splicing structural plate |
Applications Claiming Priority (1)
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CN201921993537.7U CN211158599U (en) | 2019-11-18 | 2019-11-18 | Multi-dimensional splicing assembly and splicing structural plate |
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CN211158599U true CN211158599U (en) | 2020-08-04 |
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CN201921993537.7U Active CN211158599U (en) | 2019-11-18 | 2019-11-18 | Multi-dimensional splicing assembly and splicing structural plate |
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2019
- 2019-11-18 CN CN201921993537.7U patent/CN211158599U/en active Active
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