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Water and soil conservation biobrick and water and soil conservation device composed thereof

A technology of bio-bricks and soil-breaking cones, applied in the direction of coastline protection, etc., can solve the problems of expansion of loose area, inability to fix measures, and inability to effectively reduce surface water erosion, so as to speed up the work process and strengthen the potential energy.

Pending Publication Date: 2021-11-19
阮正
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] Water conservancy capital construction projects are divided into three categories according to their functions and functions: public welfare, quasi-public welfare and operational; Among them, public welfare projects refer to social welfare management and services such as flood control, flood drainage, drought resistance, water and soil conservation, and water resource management. Functions, water conservancy projects that cannot get corresponding economic returns by themselves, such as dike projects, river improvement projects, safety construction of flood storage and detention areas, waterlogging, soil and water conservation ecological construction, water resource protection, drinking water for people and animals in poor areas, flood control communications, hydrological facilities, etc. The existing water and soil conservation bio-bricks and the water and soil conservation devices composed of them will have the following disadvantages when used:
[0003] At present, the most commonly used device to prevent soil erosion is geogrid. The function of geogrid is to fix part of the loose soil. When the soil breaking cone pushes the geogrid to slowly expand and embed the soil, it will produce corresponding vibrations on the loose soil. , carry out secondary loosening and outward expansion guidance, so that not only the grid cannot implement fixation measures for this part of the loose soil, but also causes the expansion of the loose area, which cannot effectively reduce surface water erosion in the later stage, and loses the original equipment's effect on water and soil conservation

Method used

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  • Water and soil conservation biobrick and water and soil conservation device composed thereof
  • Water and soil conservation biobrick and water and soil conservation device composed thereof
  • Water and soil conservation biobrick and water and soil conservation device composed thereof

Examples

Experimental program
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Effect test

Embodiment 1

[0027] Such as Figure 1-Figure 3 As shown, the present invention provides soil and water conservation bio-bricks and a soil and water conservation device composed thereof, the structure of which includes a mounting plate 1, bolts 2, through holes 3, soil breaking cone 4, and a grid 5, and the mounting plate 1 is threaded through bolts 2 In the through hole 3, the ground breaking cone 4 is fixedly connected under the through hole 3, and the bottom of the ground breaking cone 4 is provided with a grid 5, and the grid 5 includes a cross bar 51, a rubber sleeve 52, a row clip 53, a connection Pipe 54 and frame 55, the crossbar 51 is welded and connected in the frame 55 through the rubber sleeve 52, and is socketed and connected to the tip of the soil breaking cone 4, the rubber sleeve 52 is indirectly matched with a row clip 53 through the connecting pipe 54, and the The clamp 53 includes a storage device 531, a row plate 532, a row layer 533, a base 534, and a flat member 535, a...

Embodiment 2

[0029] Such as Figure 4-Figure 7 As shown, on the basis of Embodiment 1, the present invention combines the mutual cooperation of the following structural components. The flat member 535 includes a catch plate 351, a balance groove 352, a disc 353, a separation ball 354, and a collar 355. The plate 351 is obliquely welded and connected to the two ends of the balance groove 352 and the base 534. The two sides of the balance groove 352 are fixedly connected with the sleeve bracket 355, and the middle part is embedded with a disc 353, and the disc 353 is rolled and fitted with two A separation ball 354, the separation ball 354 is transitionally fitted between the sleeves 355, the storage device 531 includes an aeration chamber 311, a side hole row 312, a buckle structure 313, a protruding capsule 314, and a diaphragm 315. The aeration chamber 311 is socketed and connected between the collars 355 through the diaphragm 315, and a row of side holes 312 is embedded and connected on ...

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Abstract

The invention discloses a water and soil conservation biobrick and a water and soil conservation device composed thereof. The water and soil conservation biobrick structurally comprises a mounting disc, a bolt, a through hole, a soil breaking cone and a grating; the mounting disc is connected in the through hole through the bolt; the soil breaking cone is connected below the through hole; the grating is arranged on the soil breaking cone; the grating comprises a cross rod, a rubber sleeve, a row clamp, a connecting pipe and a frame; the cross rod is connected in the frame through the rubber sleeve and is connected with the soil breaking cone; the rubber sleeve is indirectly matched with the row clamp through the connecting pipe; a gathering device and a leveling part are arranged on the row clamp; and the gathering device and the leveling part are matched on a column layer. When the grating is slowly expanded to be embedded into soil, the gathering device pushes a row plate to shake in the column layer, and by means of the leveling part, a base slightly extends and is flatly laid in the rubber sleeve, so that the situation that the loose soil is stably compacted within a limited range is guaranteed, and the use level of equipment is maintained.

Description

technical field [0001] The invention relates to the technical field of soil and water conservation, in particular to biological bricks for soil and water conservation and a soil and water conservation device composed of them. Background technique [0002] Water conservancy capital construction projects are divided into three categories according to their functions and functions: public welfare, quasi-public welfare and operational; Among them, public welfare projects refer to social welfare management and services such as flood control, flood drainage, drought resistance, water and soil conservation, and water resource management. Functions, water conservancy projects that cannot get corresponding economic returns by themselves, such as dike projects, river improvement projects, safety construction of flood storage and detention areas, waterlogging, soil and water conservation ecological construction, water resource protection, drinking water for people and animals in poor ar...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): E02B3/14
CPCE02B3/14
Inventor 阮正封誉辉龚羿文
Owner 阮正