CN211734905U - Spliced water seepage brick - Google Patents
Spliced water seepage brick Download PDFInfo
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- CN211734905U CN211734905U CN201922041188.5U CN201922041188U CN211734905U CN 211734905 U CN211734905 U CN 211734905U CN 201922041188 U CN201922041188 U CN 201922041188U CN 211734905 U CN211734905 U CN 211734905U
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Abstract
A spliced water seepage brick is mainly suitable for parks, squares and sidewalks and is formed by splicing 7 convex bricks and 6-8 flat bricks, wherein the flat bricks are positioned on the convex bricks, and the long edges, the short edges, the long edges and the short edges of the flat bricks are connected in sequence to form a hexagonal prism; the convex brick consists of a base layer and a hexagonal prism convex layer, and the convex layer is positioned on the base layer; the flat bricks are positioned on the base layer of the 7 convex bricks and are embedded into the gaps between the convex layers, and the flat bricks are flush with the convex layers. The water seepage grooves are formed by splicing the base layer bricks to drain water in time. Let the soil in the city reach the water-permeable function, strengthened the water content of earth's surface soil for the water in the air and the mutual replenishment exchange between earth's surface water and the groundwater three utilize sleet precipitation, replenish the groundwater resources that the city exhausted day by day.
Description
Technical Field
The invention belongs to the field of municipal environment-friendly building materials. The utility model particularly relates to a mosaic structure infiltration brick mainly is applicable to park, square, pavement etc. provides one kind and builds each other through surface course brick body and basic unit's brick and form the infiltration groove, in time walks the water drainage, does not influence the infiltration brick that ground is level and smooth, pleasing to the eye simultaneously again.
Background
Along with the development of urbanization, the progress of science and technology and the frequency of human activities, more and more ground in the place of people's life are hardened, especially people's footpath, square, park, these should be that people also are replaced by clay brick, cement, pitch ground with the close place of nature, these ground again the not equidimension, lose the water permeability completely even for the soil water content in city reduces, make can't satisfy the mutual replenishment exchange between moisture in the air and surface water and groundwater three, make city groundwater resources exhaustively exhausted day by day.
Disclosure of Invention
The invention provides a water seepage brick with a splicing structure, which has high water drainage speed.
The water permeable brick is made of cement, stone, sand and pigment powder as raw materials, and is formed by ball milling through a ball mill and high-pressure molding through a hydraulic brick making machine.
A spliced water seepage brick is characterized by being formed by splicing 7 convex bricks and 6-8 flat bricks, wherein the flat bricks are positioned on the convex bricks, and the flat bricks are formed by connecting 3 long sides and 3 short sides in sequence into a hexagonal prism; the convex brick consists of a base layer and a hexagonal prism convex layer, and the convex layer is positioned on the base layer; the flat bricks are positioned on the base layer of the 7 convex bricks and are embedded into the gaps between the convex layers, and the flat bricks are flush with the convex layers.
The length of the long side of the flat brick is 125mm, the length of the short side of the flat brick is 50mm, and the thickness of the flat brick is 60 mm.
The base layer consists of a hexagonal prism and a hexagonal frustum, and the hexagonal frustum is positioned on the hexagonal prism, coaxial and integrated.
The hexagonal prism is a regular hexagonal prism with the side length of 50mm, and the hexagonal frustum is a regular hexagonal frustum with the lower bottom edge length of 130 mm, the upper bottom edge length of 80mm and the height of 60 mm.
The basic layer brick bodies are mutually arranged to leave a certain gap to ensure that water can pass through, and chamfers at the upper edges of the lower-step regular hexagon bodies are spliced to form a water chute.
The azimuth angle between the hexagonal prism and the hexagonal prism table is coaxial rotation of 30 degrees.
According to the invention, the upper layer brick body and the base layer brick body are built to form the whole ground, a plurality of vertical gaps which penetrate through the brick bodies and are perpendicular to the ground can be formed between the upper layer brick body and the base layer brick body, and the base layer brick bodies are spliced to form the water seepage grooves to drain water in time.
The invention solves the problems that the water seepage brick in the prior art has the possibility of blockage of the water seepage gaps, has increasingly poor water seepage effect along with the prolonging of the service time, and even loses the water seepage function.
The invention can rapidly drain water, increase the water content of soil in cities, supplement underground water resources, increase the relative humidity of the earth surface, mutually supplement and exchange the water in the air with the earth surface water and the underground water, improve the ecological environment of the cities, improve the growth conditions of ground plants and promote ecological balance.
Drawings
FIG. 1 is a plan view of a water-permeable brick of the present invention;
FIG. 2 is a cross-sectional view of a water permeable brick of the present invention;
FIG. 3 is a view of the upper course brick of the present invention;
FIG. 4 is a view of the base course tile of the present invention;
FIG. 5 is a view of the base course tile of the present invention;
in the figure, 1-flat brick, 2-convex brick, 3-convex layer, 4-base layer, 5-hexagonal prism, 6-hexagonal prism table, 7-gap and 8-aqueduct.
Detailed Description
FIG. 1, FIG. 2 show, a concatenation infiltration brick, characterized by is formed by 7 protruding bricks 2 and the 1 concatenation of 8 flat bricks, and flat brick 1 is located on the basic unit of protruding brick 2, the hexagonal prism is connected to constitute by 3 long limits and 3 minor faces long limit, minor face, long limit, minor face in proper order by the flat brick.
As shown in fig. 4 and 5, the convex brick 2 consists of a base layer 4 and a hexagonal prism convex layer 3, wherein the convex layer 3 is positioned on the base layer 4; 8 flat bricks are positioned on the base layer of the 7 convex bricks and are embedded into the gaps between the convex layers, and the flat bricks are flush with the convex layers.
As shown in FIG. 3, the length of the long side of the flat brick is 125mm, the length of the short side is 50mm, and the thickness is 60 mm.
The base layer 4 consists of a hexagonal prism 5 and a hexagonal frustum 6, and the hexagonal frustum 6 is positioned on the hexagonal prism 5, coaxial and integrated.
The hexagonal prism is a regular hexagonal prism with the side length of 50mm, and the hexagonal frustum is a regular hexagonal frustum with the lower bottom edge length of 130 mm, the upper bottom edge length of 80mm and the height of 60 mm.
7 convex bricks are built into a whole through cement mortar, 8 flat bricks are built into a whole through cement mortar and are built together with the connected convex bricks through the cement mortar;
the hexagonal prisms of the convex brick base layer are mutually arranged to leave a gap of 3mm, so that water can pass through the hexagonal prisms of the convex brick base layer, and the hexagonal prism tables are spliced to form a water chute with an angle of 110 degrees.
Claims (4)
1. A spliced water seepage brick is characterized by being formed by splicing 7 convex bricks and 6-8 flat bricks, wherein the flat bricks are positioned on the convex bricks, and the flat bricks are formed by connecting 3 long sides and 3 short sides in sequence into a hexagonal prism; the convex brick consists of a base layer and a hexagonal prism convex layer, wherein the convex layer is positioned on the base layer and is built by cement; the flat bricks are positioned on the base layer of the 7 convex bricks and are embedded into the gaps between the convex layers, and the flat bricks are flush with the convex layers.
2. The splicing water permeable brick as claimed in claim 1, wherein the length of the long side of the flat brick is 125mm, the length of the short side is 50mm, and the thickness is 60 mm.
3. The splicing water permeable brick as claimed in claim 1, wherein the base layer is composed of hexagonal prism and hexagonal frustum, and the hexagonal prism is coaxially and integrally positioned on the hexagonal frustum.
4. The splicing water seepage brick as claimed in claim 3, wherein the hexagonal prism is a regular hexagonal prism with a side length of 50mm, and the hexagonal frustum is a regular hexagonal frustum with a lower bottom edge length of 130 mm, an upper bottom edge length of 80mm and a height of 60 mm.
Priority Applications (1)
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CN201922041188.5U CN211734905U (en) | 2019-11-24 | 2019-11-24 | Spliced water seepage brick |
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CN201922041188.5U CN211734905U (en) | 2019-11-24 | 2019-11-24 | Spliced water seepage brick |
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CN211734905U true CN211734905U (en) | 2020-10-23 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110863403A (en) * | 2019-11-24 | 2020-03-06 | 山西尚风科技股份有限公司 | Spliced water seepage brick |
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2019
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110863403A (en) * | 2019-11-24 | 2020-03-06 | 山西尚风科技股份有限公司 | Spliced water seepage brick |
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Address after: 030032 floor 18, block B, times Freedom Plaza, No. 190, Longxing street, Shanxi Demonstration District, Taiyuan City, Shanxi Province Patentee after: Shangfeng Technology Co.,Ltd. Address before: 030006 18 / F, block B, times Freedom Plaza, 190 Longxing street, Shanxi demonstration zone, Taiyuan City, Shanxi Province Patentee before: SHANXI SHANGFENG TECHNOLOGY Co.,Ltd. |