CN209975538U - Dredged silt sintering-free ceramsite concrete plant-growing building block - Google Patents

Abstract

The utility model discloses a dredge building block of living is planted to silt sintering-free haydite concrete, including top building block and end building block, the top building block include that central authorities have the building block body of first through-hole and be located the left inserted block of building block body, the pressure notes have the grass seed and be equipped with a plurality of second through-hole in the gap of inserted block, the right side of building block body is equipped with the slot that link up mutually with first through-hole, the top of first through-hole is equipped with the arch of round slope, the central authorities of end building block are equipped with the third through-hole. The manufacturing cost is low, and the environment is friendly; the two building blocks are piled and matched to play a role in stabilizing the side slope of the roadbed and preventing the landslide from being unstable; soil can be filled in the first through hole and the third through hole, the first through hole can be completely shielded after the inserting block is inserted into the inserting groove, and the root of the germinated grass seeds is positioned on the bottom surface of the inserting block, so that the strong rainfall erosion can be effectively resisted; the inclined bulge can block sand overflowing from the inside of the first through hole and slow down the loss of the filled soil.

Description

Dredged silt sintering-free ceramsite concrete plant-growing building block

[ technical field ] A method for producing a semiconductor device

The utility model relates to a building material's technical field, especially a dredged silt sintering-free haydite concrete vegetation building block's technical field.

[ background of the invention ]

The protection of the roadbed slope mainly protects the roadbed slope from being eroded by rainwater or damaged by long-term erosion, thereby protecting the integral stability of the roadbed slope. There are a great deal of drawbacks in traditional grout rubble protection, include: large stone consumption, low construction efficiency, difficult maintenance and repair, old and monotonous appearance, and is not suitable for landscape greening. With the development and change of economy and society, the development of novel ecological protection structures is urgently needed.

In recent years, a large amount of dredging sludge is generated in river dredging, secondary pollution is easily generated by common methods of hydraulic filling, mud dumping and stacking filling, and harmless treatment is necessary. Along with the gradual shortage of natural resources and the rapid increase of solid wastes, people can recycle dredged sludge, a sintering-free ceramsite process is adopted to produce hollow concrete blocks, soil is directly filled in holes of the blocks and plants are planted when the concrete blocks are used, but the problem of poor soil fixing capacity of the surfaces of the blocks exists, and when snow melts and rainstorm is concentrated or the water flow speed is high, due to the poor water flow impact resistance, grass and thin-layer soil are easily washed away by rainwater and run off, water and soil are not easily preserved, and the planting effect is poor.

[ Utility model ] content

The utility model aims to solve the problems in the prior art, provides a sludge non-sintered ceramsite concrete vegetation block, can prepare the sludge into a top block and a bottom block by adopting a non-sintered technology, has low cost and is environment-friendly; the two building blocks are piled and matched to play a role in stabilizing the side slope of the roadbed and preventing the landslide from being unstable; soil can be filled in the first through hole and the third through hole, the first through hole can be completely shielded after the inserting block is inserted into the inserting groove, and the root of the germinated grass seeds is positioned on the bottom surface of the inserting block, so that the strong rainfall erosion can be effectively resisted; the inclined bulge can block sand overflowing from the inside of the first through hole and slow down the loss of the filled soil.

For realizing above-mentioned purpose, the utility model provides a dredge building block of haydite concrete vegetation of silt sintering-free, including top building block and end building block, the top building block have the building block body of first through-hole and be located the left inserted block of building block body including central authorities, the pressure notes have grass seeds and are equipped with a plurality of second through-hole in the gap of inserted block, building block body's right side is equipped with the slot that link up mutually with first through-hole, the top of first through-hole is equipped with the arch of round slope, the central authorities of end building block are equipped with the third through-hole.

Preferably, the position and the size of the slot correspond to those of the insert block, the top building blocks are connected front and back through the insertion of the insert block and the slot, the protrusion is positioned on the insert block, and the first through hole can be completely shielded after the insert block is inserted.

Preferably, the included angle between the protrusion and the horizontal line is 30-45 degrees.

Preferably, the building block body and the insert block are of an integral structure, and a gap is formed at the joint of the insert block and the building block body.

Preferably, the front side and the rear side of the top building block and the bottom building block are respectively and uniformly provided with a first pressing groove and a second pressing groove.

The utility model has the advantages that: the utility model adopts the non-sintering technology to prepare the dredged sludge into the top building block and the bottom building block, and has low cost and environmental protection; the two building blocks are piled and matched to play a role in stabilizing the side slope of the roadbed and preventing the landslide from being unstable; soil can be filled in the first through hole and the third through hole, the first through hole can be completely shielded after the inserting block is inserted into the inserting groove, and the root of the germinated grass seeds is positioned on the bottom surface of the inserting block, so that the strong rainfall erosion can be effectively resisted; the inclined bulge can block sand overflowing from the inside of the first through hole and slow down the loss of the filled soil.

The features and advantages of the present invention will be described in detail by embodiments with reference to the accompanying drawings.

[ description of the drawings ]

FIG. 1 is a top view of a top block;

FIG. 2 is a front cross-sectional view of the top block;

FIG. 3 is a top view of the bottom block;

FIG. 4 is a front view of the bottom block;

figure 5 is a top view of two top blocks connected front to back.

In the figure: 1-top block, 11-block body, 111-first through hole, 112-protrusion, 113-slot, 114-first pressing groove, 12-insertion block, 121-second through hole, 122-notch, 2-bottom block, 21-third through hole and 22-second pressing groove.

[ detailed description ] embodiments

Referring to fig. 1 to 5, the utility model relates to a dredged silt sintering-free ceramsite concrete vegetation block, which comprises a top block 1 and a bottom block 2, wherein the top block 1 comprises a block body 11 with a first through hole 111 at the center and an insert block 12 positioned at the left side of the block body 11, grass seeds are injected into the gap of the insert block 12 and a plurality of second through holes 121 are arranged, a slot 113 communicated with the first through hole 111 is arranged at the right side of the block body 11, a circle of inclined bulge 112 is arranged at the top of the first through hole 111, a third through hole 21 is arranged at the center of the bottom block 2, the position and size of the slot 113 correspond to the insert block 12, a plurality of top blocks 1 are connected back and forth through the insertion of the insert block 12 and the slot 113, the bulge 112 is positioned above the insert block 12, the insert block 12 can completely shield the first through hole 111 after being inserted, the included angle between the bulge 112 and the horizontal line is 30-45 degrees, the building block body 11 and the insert block 12 are of an integral structure, a gap 122 is formed at the joint of the insert block 12 and the building block body 11, and a first pressing groove 114 and a second pressing groove 22 are uniformly formed in the front side and the rear side of the top building block 1 and the bottom building block 2 respectively.

The utility model discloses the working process:

the utility model relates to a dredge silt sintering-free haydite concrete vegetation building block at the course of the work, at first build by laying bricks or stones end building block 2 and pack earth in third through-hole 21, then, build by laying bricks or stones top building block 1 on top layer's end building block 2. After each top block 1 is placed, filling soil into the first through hole 111, and then inserting the insert 12 of the next top block 1 into the slot 113 of the previous top block 1 until the building of the top block is completed. Finally, the outer insert 12 of the top block 1 located at the very edge is knocked down along the notch 122. Grass seeds are injected into the inserting blocks 12, and can take roots and germinate after a period of water spraying maintenance. The root hairs of the grass seeds penetrate into the first through holes 111 along the gaps of the insert blocks 12 and extend downwards, and water and air can enter the interior of the building block along the second through holes 122.

The utility model adopts the non-sintering technology to prepare the dredged sludge into the top building block and the bottom building block, and has low cost and environmental protection; the two building blocks are piled and matched to play a role in stabilizing the side slope of the roadbed and preventing the landslide from being unstable; soil can be filled in the first through hole and the third through hole, the first through hole can be completely shielded after the inserting block is inserted into the inserting groove, and the root of the germinated grass seeds is positioned on the bottom surface of the inserting block, so that the strong rainfall erosion can be effectively resisted; the inclined bulge can block sand overflowing from the inside of the first through hole and slow down the loss of the filled soil.

The above-mentioned embodiment is right the utility model discloses an explanation, it is not right the utility model discloses a limited, any right the scheme after the simple transform of the utility model all belongs to the protection scope of the utility model.

Claims (5)

1. A dredged silt sintering-free ceramsite concrete vegetation building block is characterized in that: including top building block (1) and end building block (2), top building block (1) have building block body (11) of first through-hole (111) and be located left inserted block (12) of building block body (11) including central authorities, the pressure is annotated in the gap of inserted block (12) has grass seeds and is equipped with a plurality of second through-hole (121), the right side of building block body (11) is equipped with slot (113) that link up mutually with first through-hole (111), the top of first through-hole (111) is equipped with arch (112) of round slope, the central authorities of end building block (2) are equipped with third through-hole (21).

2. The dredged sludge non-sintered ceramsite concrete vegetation block as claimed in claim 1, wherein the dredged sludge non-sintered ceramsite concrete vegetation block comprises: the position and the size of the slot (113) correspond to those of the insert block (12), the top building blocks (1) are connected front and back through the insertion of the insert block (12) and the slot (113), the protrusion (112) is positioned on the insert block (12), and the insert block (12) can completely shield the first through hole (111) after being inserted.

3. The dredged sludge non-sintered ceramsite concrete vegetation block as claimed in claim 1, wherein the dredged sludge non-sintered ceramsite concrete vegetation block comprises: the included angle between the bulge (112) and the horizontal line is 30-45 degrees.

4. The dredged sludge non-sintered ceramsite concrete vegetation block as claimed in claim 1, wherein the dredged sludge non-sintered ceramsite concrete vegetation block comprises: the building block body (11) and the insert block (12) are of an integral structure, and a gap (122) is formed in the joint of the insert block (12) and the building block body (11).

5. The dredged sludge non-sintered ceramsite concrete vegetation block as claimed in claim 1, wherein the dredged sludge non-sintered ceramsite concrete vegetation block comprises: the front side and the rear side of the top building block (1) and the bottom building block (2) are respectively and uniformly provided with a first pressing groove (114) and a second pressing groove (22).

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