CN110214583B - Self-adaptive buoyancy tank for hydro-fluctuation belt of lake and reservoir and installation method thereof - Google Patents

Self-adaptive buoyancy tank for hydro-fluctuation belt of lake and reservoir and installation method thereof Download PDF

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Publication number
CN110214583B
CN110214583B CN201910558188.4A CN201910558188A CN110214583B CN 110214583 B CN110214583 B CN 110214583B CN 201910558188 A CN201910558188 A CN 201910558188A CN 110214583 B CN110214583 B CN 110214583B
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water
lake
buoyancy tank
reservoir
floating box
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CN110214583A (en
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刘伟
李臻
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China Renewable Energy Engineering Institute
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China Renewable Energy Engineering Institute
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    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01GHORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
    • A01G9/00Cultivation in receptacles, forcing-frames or greenhouses; Edging for beds, lawn or the like
    • A01G9/02Receptacles, e.g. flower-pots or boxes; Glasses for cultivating flowers

Abstract

The present disclosure provides a self-adaptive buoyancy tank for a hydro-fluctuation belt of a lake and a reservoir and an installation method thereof, the buoyancy tank comprising: a buoyancy tank body and a buoyancy tank cover; the floating box body can be used for planting plants and is used for containing water for the plants; the floating box cover is arranged on the floating box body; when the water level of the lake and the reservoir is high, the floating box body floats on the water surface, and the floating box cover is used for blocking waves and collecting water; when the water level of the lake and the reservoir is low, the floating box body falls on the bank slope of the lake and the reservoir, and the floating box cover is used for collecting water. The water level hydro-fluctuation period plant water consumption problem is solved; emergent aquatic plants and water-border plants are planted through the buoyancy tank rows, so that the problems of landscape and ecology around lakes and reservoirs are solved.

Description

Self-adaptive buoyancy tank for hydro-fluctuation belt of lake and reservoir and installation method thereof
Technical Field
The disclosure relates to the technical field of environmental protection, in particular to a self-adaptive buoyancy tank for a hydro-fluctuation belt of a lake and a reservoir and an installation method thereof.
Background
Most of lakes and reservoirs have operation scheduling rules, and are designed with normal water storage level, flood control high water level, dead water level, flood limit water level and other operation water levels, and different scheduling is carried out according to tasks of the reservoirs in different periods each year, so that the periphery of the lakes and reservoirs is exposed to the water surface in different periods of one year, and the inside of the lakes and reservoirs are submerged under water. When the water level is low, the ground around the lake and the reservoir is exposed, and the lake and the reservoir are hardly vegetation, are extremely disproportionate to the surrounding landscape, are ecologically fragile, and are extremely easy to run off. Aquatic plants are classified into submerged plants, emergent aquatic plants, floating plants and water edges, the submerged plants and the floating plants cannot live around a dried lake or reservoir, the water edges and emergent aquatic plants cannot live in a deep water area, the water level around the lake or reservoir changes greatly within one year, the water level alternates between deep water and dried water, and general plants are limited by living conditions such as water depth and can not survive in two states of water depth and drying basically. In order to solve the landscape and ecological problems of the peripheral relief area of the lake and reservoir, a technology which is suitable for the larger variation range of the peripheral water level of the lake and reservoir is needed to solve the problems.
BRIEF SUMMARY OF THE PRESENT DISCLOSURE
First, the technical problem to be solved
In view of the defects of the prior lake and reservoir that the ecology is fragile, the water and soil loss and the scenery is monotonous, the invention aims to provide the self-adaptive buoyancy tank of the hydro-fluctuation belt of the lake and the reservoir and the installation method thereof, plants are suspended on the water surface, and the buoyancy tank covers for blocking waves and collecting water, so that emergent aquatic plants can grow; the water tank is arranged for storing water, the baffle plate of the floating tank cover collects water and rain, and the water enters the soil body tank and the water body tank through the water inlet holes, so that the problem of plant water consumption in the water level hydro-fluctuation period is solved; emergent aquatic plants and water-border plants are planted through the buoyancy tank rows, so that the problems of landscape and ecology around lakes and reservoirs are solved.
(II) technical scheme
The present disclosure provides a lake and reservoir hydro-fluctuation belt self-adaptive buoyancy tank, comprising: a buoyancy tank body and a buoyancy tank cover; the floating box body can be used for planting plants and is used for containing water for the plants; the floating box cover is arranged on the floating box body;
when the water level of the lake and the reservoir is high, the floating box body floats on the water surface, and the floating box cover is used for blocking waves and collecting water; when the water level of the lake and the reservoir is low, the floating box body falls on the bank slope of the lake and the reservoir, and the floating box cover is used for collecting water.
In some embodiments of the present disclosure, the buoyancy tank interior comprises:
the soil body box is arranged at the upper part of the floating box body and used for storing planting soil, and the planting soil is used for planting emergent aquatic plants or water edge plants;
the water body box is arranged at the upper part of the floating box body and is used for containing plant water and is communicated with the soil body box so as to supply water to the plants;
the sealed air box is arranged at the lower part of the floating box body and is used for enabling the floating box body to float on the water surface.
In some embodiments of the disclosure, the bottom plate of the buoyancy tank is inclined, the bottom plate inclination angle is equal to the lake and reservoir side slope angle, and when the lake and reservoir water level is low, the plants planted by the buoyancy tank are vertically upward.
In some embodiments of the disclosure, the floating tank cover is provided with water inlets, and the water inlets are distributed at positions of the floating tank cover corresponding to the soil tank and the water tank, so that water bodies and rainwater in lakes and reservoirs are guaranteed to enter the soil tank and the water tank through the water inlets.
In some embodiments of the disclosure, an annular buoyancy tank cover top baffle is arranged around the buoyancy tank cover; when the water level of the lake and the reservoir is high, the top baffle plate of the buoyancy tank cover is used for blocking wind waves from impacting the plant roots; when the water level of the lake and the reservoir is low, the top baffle plate of the buoyancy tank cover is used for collecting rain and forming a water surface, so that the survival water of plants is ensured;
the floating box cover is provided with plant planting holes at positions corresponding to the soil box, geotechnical cloth is arranged below the plant planting holes and covers the soil of the soil box, so that water is guaranteed to enter while soil loss is prevented.
In some embodiments of the disclosure, the outer surface of the buoyancy tank bottom plate is provided with a transverse anti-slip rib and a longitudinal anti-slip rib; the horizontal anti-slip ribs are used for preventing the floating box body from sliding along the coast slope direction, and the longitudinal anti-slip ribs are used for preventing the floating box body from sliding along the coast slope direction perpendicular to the floating box body.
The present disclosure also provides a lake and reservoir hydro-fluctuation belt self-adaptive buoyancy tank row, comprising: a plurality of lake and reservoir hydro-fluctuation belts self-adaptive buoyancy tanks connected with each other; the adaptive buoyancy tank for the hydro-fluctuation belt of the lake and the reservoir is the adaptive buoyancy tank for the hydro-fluctuation belt of the lake and the reservoir according to any one of claims 1 to 6.
In some embodiments of the present disclosure, the adaptive buoyancy tank for a hydro-fluctuation belt of a lake or reservoir further comprises: hinge rods arranged on two side plates of the floating box body in the direction of the coastal slope and hinge shafts between two adjacent hinge rods; the hinge rods of two adjacent floating boxes are connected through a hinge shaft; the hinge rod of the floating box body closest to the bank slope is fixed on the bank slope mooring pile; the hinge shaft can only rotate in one dimension, and the rotating shaft is parallel to the water surface and perpendicular to the direction of the coastal slope.
In some embodiments of the present disclosure, the adaptive buoyancy tank for a hydro-fluctuation belt of a lake or reservoir further comprises: the side hinge shafts are arranged on the two side plates of the floating box body, which are perpendicular to the direction of the coastal slope, and the side hinge shafts of the two adjacent floating box bodies are connected together.
The disclosure also provides an installation method of the self-adaptive buoyancy tank row of the hydro-fluctuation belt of the lake and the reservoir, comprising the following steps:
s1: selecting a base plate inclination angle of the buoyancy tank according to the bank slope angle, and selecting a corresponding buoyancy tank according to the inclination angle;
s2: determining the type of the planting soil, and placing the planting soil in a soil box;
s3: installing a bank slope mooring pile, and fixing a floating box closest to the bank slope mooring pile;
s4: the floating box body is installed and connected on the water surface by a ship, and the water body box is filled.
(III) beneficial effects
(1) Emergent aquatic plants and water-border plants are planted through the buoyancy tank rows, so that the problems of landscape and ecology around the lakes and reservoirs are solved;
(2) The bottom plate of the floating box body is obliquely arranged, so that the floating box body is automatically adapted to a bank slope after the water level of a lake and a reservoir is eliminated, and the practicability and the reliability of the floating box body are enhanced;
(3) The water tank is arranged to store water, the floating tank cover baffle plate collects water and rain, and the water enters the soil tank and the water tank through the water inlet holes, so that the problem of plant water consumption in the water level hydro-fluctuation period is solved;
(4) The plants are suspended on the water surface, and the buoyancy tank cover keeps off waves and collects water, so that emergent aquatic plants can grow;
(5) The buoyancy tank body is made of cheap plastic or glass fiber reinforced plastic, so that the use cost is greatly reduced.
Drawings
Fig. 1 is a side view of a first embodiment of the present disclosure of a adaptive pontoon for a hydro-fluctuation belt.
Fig. 2 is another side view of a adaptive buoyancy tank for a hydro-fluctuation belt of a first embodiment of the disclosure.
Fig. 3 is a top view of a adaptive buoyancy tank for a hydro-fluctuation belt of a first embodiment of the disclosure.
Fig. 4 is a schematic top view illustrating an arrangement state of adaptive buoyancy tank rows of a hydro-fluctuation belt in a lake and reservoir according to a second embodiment of the disclosure.
Fig. 5 is a side view of an arrangement state of adaptive pontoon rows of a hydro-fluctuation belt of a lake and reservoir according to a second embodiment of the disclosure.
Fig. 6 is a flowchart of a method for installing an adaptive pontoon array for a hydro-fluctuation belt of a lake or reservoir according to a third embodiment of the disclosure.
[ symbolic description ]
1-a floating box cover top baffle; 2-floating box cover; 3-a buoyancy tank bayonet; 4-plant-growing holes; 5-geotextile; 6, a soil body box; 7-a water body box; 8-a hinge shaft; 9-hinging rod; 10-floating box body; 11-sealing an air box; 12-side hinge rod; 13-connecting holes; 14-water inlet holes; 15-bank slope mooring piles; 16-lateral anti-slip ribs; 17-longitudinal slip-resistant edges; 18-mooring points in a lake.
Detailed Description
The technical solutions in the embodiments of the present disclosure will be clearly and completely described below with reference to the embodiments and the drawings in the embodiments. It will be apparent that the described embodiments are merely some, but not all embodiments of the present disclosure. Based on the embodiments in this disclosure, all other embodiments that a person of ordinary skill in the art would obtain without making any inventive effort are within the scope of protection of this disclosure.
The first embodiment of the present disclosure provides a self-adaptive buoyancy tank for a hydro-fluctuation belt of a lake or reservoir, comprising: a buoyancy tank 10 and a buoyancy tank cover 2.
The buoyancy tank 10 is a sealed tank, the interior of which includes three areas: the upper part is transversely adjacent to the soil body box 6 and the water body box 7, the lower part is provided with a sealed air box 11, and the soil body box 6, the water body box 7 and the sealed air box 11 are mutually sealed.
The soil box 6 is used for storing planting soil and is used for planting emergent aquatic plants or water edge plants.
The water body box 7 is used for containing water, and the bottom of the water body box 7 can be communicated with the soil body box 6 through the through holes, so that the water of the water body box 7 can flow into the soil body box 6 through the through holes, and the water of planting soil is ensured. The soil body box 6 is communicated with the water body box 7 through connecting holes 13 on the adjacent side walls of the soil body box 6 and the water body box 7, and water in the water body box 7 flows into the soil body box 6 through the connecting holes 13 to supply for plant growth in the soil body box 6.
The sealed air tank 11 is filled with air for floating the buoyancy tank 10 on the water surface to maintain the floating performance of the buoyancy tank.
The bottom plate of the floating box body 10 is obliquely arranged, the inclination angle of the bottom plate (namely the included angle between the bottom plate and the water surface) is a, and the included angle a is equal to the side slope angle of the lake and the reservoir, so that plants at the top of the floating box body 10 can still vertically upwards when the water level of the lake and the reservoir is lowered.
The floating box cover 2 is used for avoiding soil loss and reducing water evaporation. The outer wall of the buoyancy tank body 10 is provided with buoyancy tank bayonets 3, and the buoyancy tank cover 2 is fixed on the buoyancy tank body 10 through the buoyancy tank bayonets 3 so as to improve connection performance.
The floating box cover 2 is provided with water inlet holes 14, and the water inlet holes 14 are distributed at positions of the floating box cover 2 corresponding to the soil box 6 and the water box 7. The water inlet holes 14 ensure that the soil body box 6 and the water body box 7 are communicated with the outside, so that water bodies and rainwater in lakes and reservoirs are ensured to enter the soil body box 6 and the water body box 7 through the water inlet holes 14 of the floating box cover 2.
The floating box cover 2 is also provided with plant planting holes 4 at positions corresponding to the soil box 6, geotechnical cloth 5 is arranged below the plant planting holes 4, the geotechnical cloth 5 is covered on the soil of the soil box 6, and water is guaranteed to enter while soil loss is prevented.
The periphery of the floating box cover 2 is provided with an annular floating box cover top baffle plate 1, so that the floating box cover 2 is arranged in a middle concave manner. When the water level of the lake and the reservoir is high, the buoyancy tank is in a suspension state, and the buoyancy tank cover top baffle plate 1 can be used for blocking wind waves from impacting the plant roots; when the water level of the lake and the reservoir is low, the buoyancy tank falls on the bank slope, and the buoyancy tank cover top baffle plate 1 is used for collecting rain and forming water surface, so that the survival water of plants is ensured.
The lake and reservoir hydro-fluctuation belt self-adaptive buoyancy tank of this embodiment sets up the water tank and deposits water, and buoyancy tank lid baffle water collection rain gets into soil body case and water tank through the inlet opening, has solved the water level and has fallen stage plant water problem. The plants are suspended on the water surface, and the buoyancy tank cover keeps off the waves and collects water, so that emergent aquatic plants can grow. The bottom plate of the floating box body 10 is obliquely arranged, so that the self-adaptive lake and reservoir water level can be self-adaptive to the bank slope after falling, and the practicability and reliability of the floating box body are enhanced.
The self-adaptive buoyancy tank of the hydro-fluctuation belt of the lake and the reservoir is characterized in that the size of the sealed air tank 11 is comprehensively determined according to the soil body volume weight, the plant weight and the water body weight in order to ensure that the buoyancy tank floats on one hand and control the volume of the buoyancy tank on the other hand. The plant-growing holes 4 determine the pore diameter according to the type and size of the plant. The buoyancy tank 10 is preferably made of cheap plastic or glass fiber reinforced plastic, so that the use cost is greatly reduced.
Further, the outer surface of the bottom plate of the buoyancy tank 10, i.e. the side facing the bank slope, is provided with lateral anti-slip ribs 16 and longitudinal anti-slip ribs 17. The transverse anti-slip ribs 16 are used for preventing the floating box from sliding along the direction of the coast on the bank slope, reducing mooring force, keeping the floating box stable, and the longitudinal anti-slip ribs 17 are used for preventing the floating box body 10 from sliding along the direction perpendicular to the direction of the coast on the bank slope, reducing swinging and keeping the floating box stable. The shape and orientation of the lateral 16 and longitudinal 17 anti-slip ribs may be determined according to the specifications of the bank slope.
The second embodiment of the present disclosure provides a self-adaptive buoyancy tank row for a hydro-fluctuation belt of a lake and a reservoir, comprising: a plurality of lake and reservoir hydro-fluctuation belts self-adaptive buoyancy tanks connected with each other.
The adaptive buoyancy tank for the hydro-fluctuation belt of the lake and the reservoir in the embodiment is different from the second embodiment in that the adaptive buoyancy tank further comprises: and a connecting mechanism.
The connecting mechanism comprises: hinge rods 9 arranged on two side plates of the floating box body 10 in the coast slope direction, and hinge shafts 8 between two adjacent hinge rods 9. The hinge rods 9 of two adjacent buoyancy tanks are connected through a hinge shaft 8. The lake and reservoir bank slopes are provided with bank slope mooring piles 15, and the hinge rods 9 of the floating boxes closest to the bank slopes are fixed to the bank slope mooring piles 15 to moor the floating box rows. In order to enhance the stability of the relative position of the floating box body 10 on the lake and reservoir, the outer surface of the bottom plate of the floating box body 10 is provided with mooring points 18 in the lake and reservoir, so that the floating box body is conveniently connected with the bottom of the lake and reservoir. Preferably, in order to prevent the buoyancy tank from swinging greatly, the external surfaces of the side plates of the buoyancy tank 10 are provided with mooring points 18 in the lake or reservoir at multiple points.
The hinge shaft 8 can only rotate in one dimension, the rotating shaft is parallel to the water surface and perpendicular to the direction of the coastal slope, so that the plane formed by rotating the hinge rod 9 is perpendicular to the water surface and parallel to the direction of the coastal slope, further, the vertical shoreline floating box 10 can be ensured to float up and down along with wind waves, left and right floating is avoided, the distance between floating boxes is kept, and collision of the floating boxes and damage to plants are avoided.
Further, the connection mechanism further includes: the side hinge rods 12 are arranged on two side plates of the floating box body 10 perpendicular to the coastal slope direction, and the side hinge rods 12 of two adjacent floating boxes are connected together. The distance between the floating boxes can be better kept through the side hinge rods 12, so that the floating boxes are prevented from colliding with each other, and plants are prevented from being injured.
The plants planted in the floating box body 10 count the elevation of the water level of the lake and the reservoir in different periods of one year according to the dispatching operation rule of the lake and the reservoir, and select the plant type according to the dry periods of different elevations of the bank slope; the emergent aquatic plants are required to have water depth of generally 0.2-0.6 m, and the water edge plants are generally smaller than 0.2 m; the water edge plants can be selected on the near shore side, and emergent plants can be selected on the far shore side. According to the weight of soil mass, the weight of plants, the weight of water body and the weight of the buoyancy tank, the volume of air body is calculated, and the volume proportion of the soil mass tank 6 and the water body tank 7 and the sealed air tank 11 arranged at the lower part is determined.
The third embodiment of the disclosure provides a method for installing an adaptive buoyancy tank row of a hydro-fluctuation belt of a lake or reservoir, comprising:
s1: selecting a base plate inclination angle of the buoyancy tank according to the bank slope angle, and selecting a corresponding buoyancy tank according to the inclination angle;
s2: determining the type of the planting soil, and placing the planting soil in a soil box;
s3: installing a bank slope mooring pile, and fixing a floating box closest to the bank slope mooring pile;
s4: the floating box body is installed and connected on the water surface by a ship, and the water body box is filled.
It should be noted that, in the drawings or the text of the specification, implementations not shown or described are all forms known to those of ordinary skill in the art, and not described in detail. Furthermore, the above definitions of the elements are not limited to the specific structures, shapes or modes mentioned in the embodiments, and may be modified or replaced simply by one skilled in the art, for example:
(1) Directional terms such as "upper", "lower", "front", "rear", "left", "right", etc. mentioned in the embodiments are merely directions referring to the drawings, and are not intended to limit the scope of the present disclosure;
(2) The above embodiments may be mixed with each other or other embodiments based on design and reliability, i.e. the technical features of the different embodiments may be freely combined to form more embodiments.
While the foregoing embodiments have been described in some detail for purposes of clarity of understanding, it will be understood that the foregoing embodiments are merely illustrative of the invention and are not intended to limit the invention, and that any modifications, equivalents, improvements, etc. that fall within the spirit and principles of the present disclosure are intended to be included within the scope of the present disclosure.

Claims (8)

1. The utility model provides a lake storehouse hydro-fluctuation belt self-adaptation buoyancy tank which characterized in that includes: a buoyancy tank body and a buoyancy tank cover; the floating box body can be used for planting plants and is used for containing water for the plants; the floating box cover is arranged on the floating box body;
the inside of the buoyancy tank body comprises:
the soil body box is arranged at the upper part of the floating box body and used for storing planting soil, and the planting soil is used for planting emergent aquatic plants or water edge plants;
the water body box is arranged at the upper part of the floating box body and is used for containing plant water and is communicated with the soil body box so as to supply water to the plants;
the sealed air box is arranged at the lower part of the floating box body and is used for floating the floating box body on the water surface;
the floating box cover is provided with water inlets which are distributed at positions of the floating box cover corresponding to the soil box and the water body box, so that water bodies and rainwater in lakes and reservoirs are guaranteed to enter the soil box and the water body box through the water inlets;
the bottom plate of the floating box body is obliquely arranged, the inclination angle of the bottom plate is equal to the slope angle of the lake and the reservoir, and when the water level of the lake and the reservoir is low, plants planted in the floating box body are vertically upwards;
when the water level of the lake and the reservoir is high, the floating box body floats on the water surface, and the floating box cover is used for blocking waves and collecting water; when the water level of the lake and the reservoir is low, the floating box body falls on the bank slope of the lake and the reservoir, and the floating box cover is used for collecting water.
2. A self-adaptive buoyancy tank for a hydro-fluctuation belt of a lake or reservoir as recited in claim 1, wherein the buoyancy tank body is made of plastic or glass fiber reinforced plastic.
3. A self-adaptive buoyancy tank for a hydro-fluctuation belt of a lake or reservoir as recited in claim 1, wherein the buoyancy tank cover is provided with an annular buoyancy tank cover top baffle plate at the periphery; when the water level of the lake and the reservoir is high, the top baffle plate of the buoyancy tank cover is used for blocking wind waves from impacting the plant roots; when the water level of the lake and the reservoir is low, the top baffle plate of the buoyancy tank cover is used for collecting rain and forming a water surface, so that the survival water of plants is ensured;
the floating box cover is provided with plant planting holes at positions corresponding to the soil box, geotechnical cloth is arranged below the plant planting holes and covers the soil of the soil box, so that water is guaranteed to enter while soil loss is prevented.
4. A self-adaptive buoyancy tank for a hydro-fluctuation belt of a lake or reservoir as recited in claim 1, wherein the outer surface of the bottom plate of the buoyancy tank body is provided with a transverse anti-slip rib and a longitudinal anti-slip rib; the horizontal anti-slip ribs are used for preventing the floating box body from sliding along the coast slope direction, and the longitudinal anti-slip ribs are used for preventing the floating box body from sliding along the coast slope direction perpendicular to the floating box body.
5. The utility model provides a lake storehouse hydro-fluctuation belt self-adaptation buoyancy tank row which characterized in that includes: a plurality of lake and reservoir hydro-fluctuation belts self-adaptive buoyancy tanks connected with each other; the adaptive buoyancy tank for the hydro-fluctuation belt of the lake and the reservoir is the adaptive buoyancy tank for the hydro-fluctuation belt of the lake and the reservoir according to any one of claims 1 to 4.
6. A lake and reservoir hydro-fluctuation belt self-adaptive buoyancy tank row in accordance with claim 5, wherein the lake and reservoir hydro-fluctuation belt self-adaptive buoyancy tank further comprises: hinge rods arranged on two side plates of the floating box body in the direction of the coastal slope and hinge shafts between two adjacent hinge rods; the hinge rods of two adjacent floating boxes are connected through a hinge shaft; the hinge rod of the floating box body closest to the bank slope is fixed on the bank slope mooring pile; the hinge shaft can only rotate in one dimension, and the rotating shaft is parallel to the water surface and perpendicular to the direction of the coastal slope.
7. A lake and reservoir hydro-fluctuation belt self-adaptive buoyancy tank row in accordance with claim 5, wherein the lake and reservoir hydro-fluctuation belt self-adaptive buoyancy tank further comprises: the side hinge shafts are arranged on the two side plates of the floating box body, which are perpendicular to the direction of the coastal slope, and the side hinge shafts of the two adjacent floating box bodies are connected together.
8. A method of installing an adaptive pontoon array for a hydro-fluctuation belt of a lake or reservoir as defined in any one of claims 5-7, comprising:
s1: selecting a base plate inclination angle of the buoyancy tank according to the bank slope angle, and selecting a corresponding buoyancy tank according to the inclination angle;
s2: determining the type of the planting soil, and placing the planting soil in a soil box;
s3: installing a bank slope mooring pile, and fixing a floating box closest to the bank slope mooring pile;
s4: the floating box body is installed and connected on the water surface by a ship, and the water body box is filled.
CN201910558188.4A 2019-06-25 2019-06-25 Self-adaptive buoyancy tank for hydro-fluctuation belt of lake and reservoir and installation method thereof Active CN110214583B (en)

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