CN117403595A - Ecological bank protection and control system and control method thereof - Google Patents

Abstract

The invention discloses an ecological revetment and a control system and a control method thereof, and relates to the technical field of revetments. An ecological revetment comprising: a revetment body, the revetment body comprising: a horizontal portion and a declining portion connected; the horizontal part is provided with a street lamp and a wave blocking device, and the wave blocking device is close to the lower inclined part; the declining part is sequentially provided with a hydrophilic platform, an automatic garbage cleaning device, an ecological wave-absorbing area and foot guards from top to bottom; the hydrophilic platform bottom has offered outwards cavity, the cavity is provided with owc power generation facility, owc power generation facility with the street lamp with keep off unrestrained device electricity and be connected. The ecological bank protection is beneficial to ecological development, can improve urban landscapes and promote people to communicate with water.

Description

Ecological bank protection and control system and control method thereof

Technical Field

The invention relates to the technical field of revetments, in particular to an ecological revetment and a control system and a control method thereof.

Background

The revetment is to adopt engineering measures of manual reinforcement on the original coast slope to defend the invasion and the washing of waves and water flow and the action of groundwater, so as to maintain the stability of the coastline. The building forms of the revetment are similar to seawall, and the revetment can be divided into slope type revetment, steep wall type revetment (including vertical type) and revetment mixed by the slope type revetment and the steep wall type revetment.

At present, most of the revetments adopt hard protection structures, and the breakwater walls are erected on the tops of the revetments to form an amphibious barrier, so that most of the current revetments are unfavorable for ecological development, influence urban landscapes and obstruct people's water communication.

In view of this, the invention is specifically proposed.

Disclosure of Invention

The invention aims to solve the defects in the prior art, provides an ecological revetment which is beneficial to ecological development, can improve urban landscapes and promote water communication, and based on the ecological revetment control system and the ecological revetment control method.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

an ecological revetment comprising: a revetment body, the revetment body comprising: a horizontal portion and a declining portion connected;

the horizontal part is provided with a street lamp and a wave blocking device, and the wave blocking device is close to the lower inclined part;

the declining part is sequentially provided with a hydrophilic platform, an automatic garbage cleaning device, an ecological wave-absorbing area and foot guards from top to bottom;

the hydrophilic platform bottom has offered outwards cavity, the cavity is provided with owc power generation facility, owc power generation facility with the street lamp with keep off unrestrained device electricity and be connected.

Further, a shoulder pad is arranged on the horizontal portion at a position close to the declination portion, and the wave blocking device is located on one side, away from the declination portion, of the shoulder pad.

Further, the wave blocking device comprises: the breakwater comprises a breakwater, a supporting rod, a base, a lead screw guide rail 104 and driving equipment, wherein the breakwater is hinged to the horizontal portion, the top end of the breakwater can rotate towards the declining portion, the driving equipment is arranged on the horizontal portion, the lead screw guide rail 104 is arranged on the driving equipment, the base is arranged on the lead screw guide rail 104, and the supporting rod is hinged to the top end of the baffle plate and between the base.

Further, still be provided with second power generation facility on the horizontal part, second power generation facility with street lamp with keep off unrestrained device electricity and be connected, second power generation facility includes: solar panels and/or wind power plants.

Further, the hydrophilic platform comprises: the wave-eliminating device comprises a first step, a second step and wave-eliminating plants, wherein the first step transversely extends, the chamber is formed in the first step, the second step is located above the first step, the second step vertically extends, the second step is at least two rows, and the wave-eliminating plants are arranged between two adjacent rows of the second steps.

Further, the hydrophilic platform further comprises: and the impermeable layer is arranged below the wave-dissipating plants.

Further, the ecological wave-absorbing area is formed by combining a plurality of square hollow squares which are arranged horizontally and vertically.

Further, the revetment main part includes dyke core, bed course, back filtering layer and backfill, the dyke core is located bottommost, the bed course set up in constitute on the dyke core horizontal part with the portion that declines, the back filtering layer set up in the bed course on the horizontal part, the backfill set up in the back filtering layer is kept away from one side of portion that declines.

An ecological revetment control system applied to any one of the ecological revetments provided by the invention, the ecological revetment control system comprises: the system comprises an upper computer, a lower computer, a weather monitoring platform, a coast monitoring platform, a liquid level sensor, a pressure sensor and a photosensitive sensor;

the upper computer is electrically connected with the lower computer, a user interface is arranged on the upper computer, and the lower computer is electrically connected with the street lamp and the wave blocking device;

the meteorological monitoring platform and the coast monitoring platform are electrically connected with the upper computer;

the liquid level sensor and the pressure sensor are arranged on the automatic garbage cleaning device and are electrically connected with the lower computer;

the photosensitive sensor is arranged on the horizontal part and is electrically connected with the lower computer.

The invention provides an ecological bank protection control method which is applied to the ecological bank protection control system, and comprises the following steps:

calculating wave height and period according to the data monitored by the weather monitoring platform, calculating the target lifting height of the wave blocking device according to the wave height and the period, calculating the movement direction and movement speed according to the difference between the current height of the breakwater and the target lifting height, and controlling the wave blocking device to move to the target lifting height according to the movement direction and the movement speed;

monitoring the garbage collection condition in the automatic garbage cleaning device according to the data monitored by the liquid level sensor and the pressure sensor, and displaying the garbage collection condition through the user interface;

and monitoring the ambient light condition according to the photosensitive sensor, and controlling the street lamp according to the ambient light condition.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the ecological bank protection, the wave blocking device, the hydrophilic platform, the automatic garbage cleaning device, the ecological wave absorbing area and the foot protection are organically combined with the bank protection main body, so that ecological development is facilitated, urban landscapes can be improved, water communication of people is promoted, and disaster prevention performance, ecology performance, landscapes and economy performance can be considered on the premise of ensuring safety performance.

2. According to the ecological bank protection side, the wave blocking device can intelligently adjust the opening and closing angle according to the wave element database, adapt to different sea conditions, realize full-automatic wave blocking with high safety coefficient and low energy consumption by the optimal angle and gear, and have disaster prevention and ecology; the hydrophilic platform can be used for people to play, so that water communication of people is promoted; the automatic garbage cleaning device collects garbage by means of tide level change and sea wave movement, can be combined with a control program to remotely monitor garbage collection conditions, effectively solves the problem of garbage accumulation on the coast, protects the environment, improves the landscape and is beneficial to sustainable development; the ecological wave-absorbing region can be used for the growth of marine organisms and further promote ecological development; the owc power generation device utilizes ocean energy to perform green power generation, realizes energy source supply, solves the problem of inconvenient offshore power transmission and high manufacturing cost, and can be applied to the occasions of inconvenient power transmission such as islands by adopting the owc power generation device to perform power generation.

Drawings

FIG. 1 is a schematic diagram of a ecological bank protection in accordance with an embodiment;

FIG. 2 is a cross-sectional view of an embodiment of a ecological revetment;

FIG. 3 is a block diagram of a second embodiment of an ecological bank protection control system;

fig. 4 is a flowchart of a three-ecology revetment control method according to an embodiment.

In the figure: 1-wave blocking device, 101-wave blocking plate, 102-supporting rod, 103-base, 104-lead screw guide rail 104,2-hydrophilic platform, 201-first step, 202-second step, 203-wave eliminating plant, 3-garbage automatic cleaning device, 4-ecological wave eliminating area, 5-foot protector, 6-shoulder protector, 7-impermeable layer, 8-embankment core, 9-cushion layer, 10-inverted filter layer and 11-backfill.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

Embodiment one: an ecological revetment comprising: a revetment body, the revetment body comprising: a horizontal portion and a declining portion connected; the street lamp and the wave blocking device 1 are arranged on the horizontal part, and the wave blocking device 1 is close to the lower inclined part; the declining part is sequentially provided with a hydrophilic platform 2, an automatic garbage cleaning device 3, an ecological wave-absorbing area 4 and a foot protector 5 from top to bottom; the bottom of the hydrophilic platform 2 is provided with an outward cavity, the cavity is provided with a owc power generation device, and the owc power generation device is electrically connected with the street lamp and the wave blocking device 1.

The ecological bank protection of this embodiment will keep off unrestrained device 1 hydrophilic platform 2 automatic cleaning device of rubbish 3 ecological wave-absorbing region 4 with protect foot 5 organic combine in the bank protection main part is favorable to ecological development, and can improve urban landscape, promotes people's water communication, can consider disaster prevention nature, ecology, view nature and economic nature four sides performance under the prerequisite of guaranteeing the security performance.

Specifically, the wave blocking device 1 can intelligently adjust the opening and closing angle according to the wave element database, adapt to different sea conditions, realize full-automatic wave blocking with high safety coefficient and low energy consumption by the optimal angle and gear, and has disaster prevention and ecology; the hydrophilic platform 2 can be used for people to play, so that water communication of people is promoted; the automatic garbage cleaning device 3 collects garbage by means of tide level change and sea wave movement, and can be combined with a control program to remotely monitor garbage collection conditions, so that the problem of accumulation of near-shore garbage is effectively solved, the environment is protected, the landscape is improved, and the continuous development is facilitated; the ecological wave-absorbing region 4 can be used for the growth of marine organisms and further promote ecological development; the owc power generation device utilizes ocean energy to perform green power generation, realizes energy source supply, solves the problem of inconvenient offshore power transmission and high manufacturing cost, and can be applied to the occasions of inconvenient power transmission such as islands by adopting the owc power generation device to perform power generation.

In an alternative embodiment, a shoulder pad 6 is provided on the horizontal portion proximate to the declination portion, and the breakwater 101 is located on a side of the shoulder pad 6 remote from the declination portion.

In this alternative embodiment, the shoulder pad 6 is located between the wave deflector 1 and the declination portion, which increases the stability of the installation of the wave deflector 1.

In an alternative embodiment, the wave shield includes: the breakwater device comprises a breakwater 101, a supporting rod 102, a base 103, a lead screw guide rail 10414 and driving equipment, wherein the breakwater 101 is hinged to the horizontal portion, the top end of the breakwater 101 can rotate towards the declining portion, the driving equipment is arranged on the horizontal portion, the lead screw guide rail 10414 is arranged on the driving equipment, the base 103 is arranged on the lead screw guide rail 10414, and the supporting rod 102 is hinged between the top end of the baffle plate and the base 103.

In this alternative embodiment, when the driving device is started, the screw guide 10414 drives the base 103 to approach or separate from the breakwater 101, and when the base 103 moves near the breakwater 101, the top end of the breakwater 101 is driven to rotate upwards by the support rod 102; when the base 103 moves away from the breakwater 101, the top end of the breakwater 101 is driven to rotate downwards by the supporting rods 102, so that the opening and closing angle of the breakwater 101 is controlled.

In this alternative embodiment, the breakwater 101 is normally laid on the horizontal portion, and the man water interacts with the breakwater 101 to be lifted up in extreme weather, thereby realizing wave blocking.

In an alternative embodiment, a second power generation device is further disposed on the horizontal portion, and the second power generation device is electrically connected with the street lamp and the wave blocking device 1, and the second power generation device includes: solar panels and/or wind power plants.

In this alternative embodiment, the source of electric energy is increased by the second power generation device, so that the energy source supply is realized, and the problems of inconvenient offshore power transmission and high manufacturing cost are further solved. In the specific implementation, the owc power generation device and the second power generation device can be connected with a storage battery to supply power to the storage battery, and then the storage battery supplies power to the street lamp and the wave blocking device 1.

In an alternative embodiment, the hydrophilic platform 2 comprises: the wave-dissipating plant device comprises a first step 201, a second step 202 and wave-dissipating plants 203, wherein the first step 201 transversely extends, the chamber is formed in the first step 201, the second step 202 is located above the first step 201, the second step 202 vertically extends, the second step 202 is at least two rows, and the wave-dissipating plants 203 are arranged between two adjacent rows of the second steps 202.

In this alternative embodiment, the first step 201 may have multiple stages, and the chamber is disposed at the first step 201 at the lowest stage, and the owc power generation device is disposed in the chamber, and at the constant water level, the seawater is flushed into the chamber in the hydrophilic platform 2 and extrudes the internal gas, and the gas drives the generator in the owc power generation device to generate power; and when the water level is high, the gas in the cavity is discharged outwards by the principle of a communicating vessel, and the power generator in the owc power generation device is driven to generate power.

In this alternative embodiment, wave-dissipating plant 203 is comprised of one or more of suaeda salsa, typha gigantea, hay, reed, and scirpus.

In an alternative embodiment, the hydrophilic platform 2 further comprises: and a barrier layer 7, wherein the barrier layer 7 is arranged below the wave-eliminating plants 203.

In this alternative embodiment, the growth of the wave-attenuating plants 203 is facilitated by the barrier layer 7 retaining moisture.

In an alternative embodiment, the ecological wave-absorbing area 4 is formed by combining a plurality of square hollow squares which are arranged horizontally and vertically.

In this alternative embodiment, the spaces between adjacent said square hollow blocks, and the spaces between said square hollow blocks, are available for marine growth.

In an alternative embodiment, the revetment main body comprises a dike core 8, a cushion layer 9, a back filtering layer 10 and a backfill 11, wherein the dike core 8 is positioned at the bottommost part, the cushion layer 9 is arranged on the dike core 8 to form the horizontal part and the declination part, the back filtering layer 10 is arranged on the horizontal part in the cushion layer 9, and the backfill 11 is arranged on one side of the back filtering layer 10 away from the declination part.

Embodiment two: an ecological revetment control system for an ecological revetment according to any of the preceding embodiments, said ecological revetment control system comprising: the system comprises an upper computer, a lower computer, a weather monitoring platform, a coast monitoring platform, a liquid level sensor, a pressure sensor and a photosensitive sensor; the upper computer is electrically connected with the lower computer, a user interface is arranged on the upper computer, and the lower computer is electrically connected with the street lamp and the wave blocking device; the meteorological monitoring platform and the coast monitoring platform are electrically connected with the upper computer; the liquid level sensor and the pressure sensor are arranged on the automatic garbage cleaning device and are electrically connected with the lower computer; the photosensitive sensor is arranged on the horizontal part and is electrically connected with the lower computer.

In the ecological shoreside control system of the embodiment, the data monitored by the weather monitoring platform is used for controlling the wave blocking device; the liquid level sensor and the data monitored by the pressure sensor are used for remotely monitoring garbage collection conditions, so that fixed-point cleaning is facilitated; the data monitored by the photosensitive sensor is used for controlling the street lamp.

Embodiment III: an ecological bank protection control method is applied to the ecological bank protection control system in the second embodiment, and the ecological bank protection control method comprises the following steps:

step one: calculating wave height and period according to the data monitored by the weather monitoring platform, calculating the target lifting height of the wave blocking device according to the wave height and the period, calculating the movement direction and movement speed according to the difference between the current height of the breakwater and the target lifting height, and controlling the wave blocking device to move to the target lifting height according to the movement direction and the movement speed.

In this embodiment, a model may be constructed in advance according to big data, the model is input as a wave height and a period, and the model is output as a target lifting height of the wave blocking device, so as to realize control of the wave blocking device.

Step two: and monitoring the garbage collection condition in the automatic garbage cleaning device according to the data monitored by the liquid level sensor and the pressure sensor, and displaying the garbage collection condition through the user interface.

Step three: and monitoring the ambient light condition according to the photosensitive sensor, and controlling the street lamp according to the ambient light condition.

In the ecological bank protection side control system of the present embodiment, the order of the first step, the second step and the third step may be interchanged.

The above-mentioned embodiments are only preferred embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art should be able to apply equivalent substitutions or alterations to the technical solution and the inventive concept thereof according to the technical scope of the present invention disclosed herein, and all such modifications are included in the protection scope of the present invention.

Claims (10)

1. An ecological revetment, comprising: a revetment body, the revetment body comprising: a horizontal portion and a declining portion connected;

the horizontal part is provided with a street lamp and a wave blocking device, and the wave blocking device is close to the lower inclined part;

the declining part is sequentially provided with a hydrophilic platform, an automatic garbage cleaning device, an ecological wave-absorbing area and foot guards from top to bottom;

the hydrophilic platform bottom has offered outwards cavity, the cavity is provided with owc power generation facility, owc power generation facility with the street lamp with keep off unrestrained device electricity and be connected.

2. An ecological revetment according to claim 1, wherein a shoulder pad is provided on the horizontal section adjacent the declining section, and the wave blocking means is located on a side of the shoulder pad remote from the declining section.

3. An ecological revetment according to claim 1 or 2, wherein the wave blocking device comprises: the breakwater comprises a breakwater, a supporting rod, a base, a lead screw guide rail 104 and driving equipment, wherein the breakwater is hinged to the horizontal portion, the top end of the breakwater can rotate towards the declining portion, the driving equipment is arranged on the horizontal portion, the lead screw guide rail 104 is arranged on the driving equipment, the base is arranged on the lead screw guide rail 104, and the supporting rod is hinged to the top end of the baffle plate and between the base.

4. An ecological bank guard as claimed in claim 1 wherein a second power generation means is also provided on the horizontal portion, the second power generation means being electrically connected to the street lamp and the wave blocking means, the second power generation means comprising: solar panels and/or wind power plants.

5. An ecological revetment according to claim 1, wherein the hydrophilic platform comprises: the wave-eliminating device comprises a first step, a second step and wave-eliminating plants, wherein the first step transversely extends, the chamber is formed in the first step, the second step is located above the first step, the second step vertically extends, the second step is at least two rows, and the wave-eliminating plants are arranged between two adjacent rows of the second steps.

6. An ecological revetment according to claim 5, wherein said hydrophilic platform further comprises: and the impermeable layer is arranged below the wave-dissipating plants.

7. An ecological revetment according to claim 1, wherein said ecological wave-absorbing zone is formed by combining a plurality of horizontally and vertically arranged square hollow squares.

8. An ecological revetment according to claim 1, wherein the revetment body comprises a core, a cushion layer, a back filter layer and a backfill, the core is located at the bottommost part, the cushion layer is arranged on the core to form the horizontal part and the declination part, the back filter layer is arranged on the horizontal part in the cushion layer, and the backfill is arranged on one side of the back filter layer away from the declination part.

9. An ecological revetment control system for use in any of claims 1-8, said ecological revetment control system comprising: the system comprises an upper computer, a lower computer, a weather monitoring platform, a coast monitoring platform, a liquid level sensor, a pressure sensor and a photosensitive sensor;

the upper computer is electrically connected with the lower computer, a user interface is arranged on the upper computer, and the lower computer is electrically connected with the street lamp and the wave blocking device;

the meteorological monitoring platform and the coast monitoring platform are electrically connected with the upper computer;

the liquid level sensor and the pressure sensor are arranged on the automatic garbage cleaning device and are electrically connected with the lower computer;

the photosensitive sensor is arranged on the horizontal part and is electrically connected with the lower computer.

10. An ecological revetment control method applied to the ecological revetment control system of claim 9, the ecological revetment control method comprising the steps of:

calculating wave height and period according to the data monitored by the weather monitoring platform, calculating the target lifting height of the wave blocking device according to the wave height and the period, calculating the movement direction and movement speed according to the difference between the current height of the breakwater and the target lifting height, and controlling the wave blocking device to move to the target lifting height according to the movement direction and the movement speed;

monitoring the garbage collection condition in the automatic garbage cleaning device according to the data monitored by the liquid level sensor and the pressure sensor, and displaying the garbage collection condition through the user interface;

and monitoring the ambient light condition according to the photosensitive sensor, and controlling the street lamp according to the ambient light condition.