CN114352121A

CN114352121A - Blue carbon ecosystem habitat restoration structure and use method thereof

Info

Publication number: CN114352121A
Application number: CN202111226141.1A
Authority: CN
Inventors: 程传国; 赵沧海; 徐伟; 徐玫
Original assignee: Second Institute of Oceanography MNR
Current assignee: Second Institute of Oceanography MNR
Priority date: 2021-10-21
Filing date: 2021-10-21
Publication date: 2022-04-15
Anticipated expiration: 2041-10-21
Also published as: CN114352121B

Abstract

The invention discloses a habitat restoration structure of a blue carbon ecosystem and a using method thereof, belonging to the technical field of environment restoration structures, the L-shaped clamping piece is clamped through a clamping spring, the position of the fixing screw rod in the arc-shaped notch is adjusted and then fixed through a fixing nut, the rotatable adjusting leg is unfolded, the second adjusting ground inserting positioning rod is adjusted to be inserted into the ground to form a side position supporting structure, the wind blows the blades of the generating fan to drive the rotating shaft to move, the rotating shaft drives the wind driven generator to generate electricity, the rotation of the rotating rod is driven when the elastic protective belt is blown by wind power, the generator generates electricity through the rotation of the rotating rod, the generated energy can be used for in-situ experiments such as real-time monitoring of a blue carbon ecosystem, rainwater is stored by water storage through the water storage disc, and the stored fresh water can adapt to coastal vegetation with low salinity.

Description

Blue carbon ecosystem habitat restoration structure and use method thereof

Technical Field

The invention relates to an environment restoration structure, in particular to a blue carbon ecosystem habitat restoration structure, and also relates to a use method of the environment restoration structure, in particular to a use method of the blue carbon ecosystem habitat restoration structure, and belongs to the technical field of environment restoration structures.

Background

The world's marine life is able to fix 55% of the total carbon, and the marine blue carbon sink, especially mangrove, saltmarsh and sea weeds, is able to capture and store most of the carbon buried in marine sediments, which is blue carbon.

The mode that adopts to blue carbon ecosystem environmental remediation among the prior art often is that blue carbon ecosystem environmental remediation is carried out to the mode of afforestation, perhaps salvage and restore marine pollutants, and this kind of mode is first the cost is higher, consumes time longer, secondly to having the problem that higher stormy waves very easily leads to the damage of the trees of planting, in addition to salvage and restore the equipment that adopts and influence blue carbon ecosystem environmental remediation more easily for this equipment itself, designs a blue carbon ecosystem habitat restoration structure and application method for this and optimizes the improvement above-mentioned problem.

Disclosure of Invention

The invention mainly aims to provide a habitat restoration structure of a blue carbon ecosystem and a using method thereof, wherein a device is carried to the vicinity of the blue carbon ecosystem to be restored, the device is inserted according to the current framework of the blue carbon ecosystem to form a protective fence so as to maintain the habitat of the blue carbon ecosystem from being damaged by marine environment, the device is inserted in a mode that an auxiliary support rod is pulled out to be tightly stretched by an elastic protective belt and then is inserted into the ground by an insertion cone, a first articulated support leg is unfolded, a first adjusting insertion positioning rod is adjusted to a proper length by rotating a second adjusting handle, then the first adjusting insertion positioning rod and a main support rod are inserted into the ground for fixing, when the main support rod and the first adjusting insertion positioning rod are fixed, a hammer is used for impacting an impact disc for fixing, and when the auxiliary support rod is unfolded, an L-shaped clamping piece is clamped on a lifting adjusting rod, carry out L type fastener screens through the screens spring, then fix through fixation nut in the position of arc notch through adjusting clamping screw, but launch rotation regulation leg, adjust the second and adjust and insert ground locating lever and make it insert the structure that constitutes side position support to ground, blow the power generation fan leaf through wind-force and drive the pivot motion, drive aerogenerator through the pivot and generate electricity, the rotation of drive bull stick when wind-force blows the elasticity protecting band, the rotation through the bull stick makes its generator generate electricity, it stores the rainwater and prepares the use to carry out the retaining through the catch basin.

The purpose of the invention can be achieved by adopting the following technical scheme:

a habitat restoration structure of a blue carbon ecosystem comprises a main support rod, a clamping groove is formed in one side of the main support rod, an auxiliary support rod is sleeved on the inner side of the clamping groove, a generator assembly is arranged inside the auxiliary support rod, an elastic protection belt is sleeved on the outer side of the generator assembly and penetrates through the side portion of the auxiliary support rod, the other end of the elastic protection belt is fixed in the middle of the clamping groove, a water storage disc is mounted at the top of the main support rod, an impact frame assembly is mounted in the middle of the top of the water storage disc, wind power generation assemblies are arranged on two sides of the top of the water storage disc, side handles are mounted at the tops of two sides of the water storage disc, a conical fixing member is mounted at the bottom of the auxiliary support rod, a first angle-adjustable fixing leg assembly is hinged to the upper middle of the outer side of the main support rod through a fixing hinge seat, an adjusting plate is mounted in the middle of the outer side of the main support rod, and a rotatable hinge assembly is arranged on the adjusting plate in a penetrating manner, and the rotatable hinge assembly is provided with a second angle-adjustable fixed leg assembly, a clamping assembly is arranged below the outer side of the main support rod and is matched with the first angle-adjustable fixed leg assembly, an elastic limiting assembly is arranged above the outer side of the main support rod, an L-shaped clamping piece is installed at the top of the outer side of the auxiliary support rod and is matched with the elastic limiting assembly, and an air detector is installed at the top of the outer side of the L-shaped clamping piece.

Preferably, the conical fixing part comprises a base plate and an insertion cone, the base plate is installed at the bottom of the auxiliary supporting rod, the insertion cone is installed at the bottom of the base plate, and the insertion cone is located inside the auxiliary supporting rod and fixed on the base plate to form the generator assembly.

Preferably, the generator assembly comprises a rotating rod, a generator and a clockwork spring, the generator is installed at the top of the chassis, the rotating rod is installed at the output end of the generator, the clockwork spring is fixedly sleeved on the outer side of the rotating rod, and an elastic protective belt is arranged on the outer side of the clockwork spring.

Preferably, the striking frame subassembly includes connecting rod and striking dish, and the connecting rod is installed to catch basin inner bottom middle part department to install the striking dish at the top of connecting rod, and the rubber inoxidizing coating has been laid at the top of striking dish.

Preferably, the wind power generation assembly comprises an L-shaped side lever, a power generation fan blade rotating shaft and a wind driven generator, the L-shaped side lever is installed on two sides of the top of the water storage disc, the wind driven generator is arranged in the inner top of the L-shaped side lever, the output end of the wind driven generator penetrates through the L-shaped side lever and is installed with the rotating shaft, and the power generation fan blade is installed at the other end of the rotating shaft.

Preferably, the first angle-adjustable fixed leg assembly comprises a first hinged supporting leg, a first adjusting ground insertion positioning rod, a first adjusting handle and a first inner threaded hole, the middle of one side of the fixed hinged seat is hinged with the first hinged supporting leg, the end part of the first hinged supporting leg is provided with the first inner threaded hole, the inner side of the first inner threaded hole is meshed with the first adjusting ground insertion positioning rod, and the top of the first adjusting ground insertion positioning rod is provided with the first adjusting handle.

Preferably, rotatable articulated subassembly includes that arc notch, fixation nut, clamping screw and regulation articulate the seat, and the arc notch is seted up on the regulating plate, and the inboard of arc notch runs through and is equipped with the fixation screw, and the clamping screw runs through the outside tip meshing that the arc notch was run through to have a fixation nut, and the bottom of clamping screw is installed and is adjusted articulated the seat to the inboard of adjusting articulated seat articulates there is the adjustable fixed leg subassembly of second angle.

Preferably, the second angle-adjustable fixed leg assembly comprises a rotatable adjusting leg, a second adjusting ground-inserting positioning rod, a first adjusting handle and a second inner threaded hole, one end of the rotatable adjusting leg is hinged to the inner side of the adjusting hinge seat, the other end of the rotatable adjusting leg is provided with the second inner threaded hole, the inner side of the second inner threaded hole is meshed with the second adjusting ground-inserting positioning rod, and the top of the second adjusting ground-inserting positioning rod is provided with the first adjusting handle.

Preferably, the screens subassembly includes U type screens seat, spacing notch, spacing spring and elasticity kelly, and U type screens seat is fixed in the outside middle part department of main tributary vaulting pole, and spacing notch has been seted up to the both sides of U type screens seat, and the inboard cover of spacing notch is equipped with spacing spring, and spacing spring's inboard is equipped with the elasticity kelly, and the tip of elasticity kelly is the tapered structure.

Preferably, the elastic limiting assembly comprises a clamping spring, an outer fixing barrel and a lifting adjusting rod, the outer fixing barrel is installed above the outer side of the main support rod, the clamping spring is installed at the inner bottom of the outer fixing barrel, the lifting adjusting rod is installed at the top of the clamping spring, the lifting adjusting rod is located on the inner side of the outer fixing barrel, and the L-shaped clamping piece is matched with the lifting adjusting rod.

Preferably, side handles are installed on two sides of the top of the water storage disc, protective sleeves are sleeved on the outer sides of the side handles, flexible solar panels are laid on two sides of each elastic protective belt, and steel cable connecting pieces are installed above the outer sides of the main support rods.

A use method of a habitat restoration structure of a blue carbon ecosystem comprises the following steps:

step 1: the device is carried to the position near a blue carbon ecosystem needing to be repaired, and the device is inserted according to the current blue carbon ecosystem architecture to form a protective fence;

step 2: the device is inserted in a mode that the auxiliary supporting rod is pulled out until the elastic protective belt is tightened and then is inserted into the ground through the inserting cone;

and step 3: after the first hinged supporting leg is unfolded, the first adjusting inserting positioning rod is adjusted to be in a proper length by rotating the second adjusting handle, and then the first adjusting inserting positioning rod and the main supporting rod are inserted into the ground for fixing;

and 4, step 4: when the main support rod and the first adjusting ground inserting positioning rod are fixed, a hammer is adopted to impact an impact disc for fixing;

and 5: the L-shaped clamping piece is clamped on the lifting adjusting rod by the unfolding auxiliary supporting rod, and the L-shaped clamping piece is clamped by the clamping spring;

step 6: the position of the fixing screw rod in the arc-shaped notch is adjusted and then fixed through the fixing nut, the rotatable adjusting leg is unfolded, and the second adjusting ground inserting positioning rod is adjusted to be inserted into the ground to form a side position supporting structure;

and 7: the wind blows the blades of the generating fan to drive the rotating shaft to move, and the rotating shaft drives the wind driven generator to generate electricity;

and 8: the rotating rod is driven to rotate when the elastic protective belt is blown by wind power, and the generator generates electricity through the rotation of the rotating rod;

and step 9: rainwater is stored by the water storage disc, and the stored fresh water can be suitable for coastal vegetation with low salinity;

step 10: and the air detector is adopted for environment detection and supplies power to the air detector through the generated electric energy.

The invention has the beneficial technical effects that:

the invention provides a habitat restoration structure of a blue carbon ecosystem and a using method thereof, wherein a device is carried to the vicinity of the blue carbon ecosystem to be restored, the device is inserted according to the current blue carbon ecosystem architecture to form a protective fence so as to maintain the habitat of the blue carbon ecosystem from being damaged by marine environment, the device is inserted in a mode that an auxiliary support rod is pulled out to be tightly stretched by an elastic protective belt and then is inserted into the ground by an insertion cone, a first hinged support leg is unfolded, a first adjusting insertion positioning rod is adjusted to a proper length by rotating a second adjusting handle, then a first adjusting insertion positioning rod and a main support rod are inserted into the ground for fixing, when the main support rod and the first adjusting insertion positioning rod are fixed, an impact disc is impacted by a hammer, and an L-shaped clamping piece is clamped on a lifting adjusting rod when the auxiliary support rod is unfolded, carry out L type fastener screens through the screens spring, then fix through fixation nut in the position of arc notch through adjusting clamping screw, but launch rotation regulation leg, adjust the second and adjust and insert ground locating lever and make it insert the structure that constitutes side position support to ground, blow the power generation fan leaf through wind-force and drive the pivot motion, drive aerogenerator through the pivot and generate electricity, the rotation of drive bull stick when wind-force blows the elasticity protecting band, the rotation through the bull stick makes its generator generate electricity, it stores the rainwater and prepares the use to carry out the retaining through the catch basin.

Drawings

FIG. 1 is a perspective view of the entire apparatus of a preferred embodiment of a habitat restoration structure of a blue carbon ecosystem and a method for using the same according to the present invention;

FIG. 2 is an exploded view of a first perspective three-dimensional construction of a preferred embodiment of a blue carbon ecosystem habitat restoration structure and method of use thereof in accordance with the present invention;

FIG. 3 is an exploded view of a second perspective view of a preferred embodiment of a blue carbon ecosystem habitat restoration structure and method of use thereof in accordance with the present invention;

FIG. 4 is an enlarged view of the structure at a point a of a preferred embodiment of a blue carbon ecosystem habitat restoration structure and method of use thereof in accordance with the present invention;

FIG. 5 is a perspective view of a hinged support leg assembly in accordance with a preferred embodiment of a blue carbon ecosystem habitat restoration structure and method of use in accordance with the present invention;

FIG. 6 is a schematic structural view of a support leg fastener according to a preferred embodiment of a habitat restoration structure of a blue carbon ecosystem and a method for using the same;

FIG. 7 is a schematic view of a device body combined to form a fence structure according to a preferred embodiment of the habitat restoration structure of a blue carbon ecosystem and a using method thereof of the present invention;

FIG. 8 is a schematic view of a combination fastener structure according to a preferred embodiment of a habitat restoration structure of a blue carbon ecosystem and a method for using the same;

fig. 9 is a top view of a blue carbon ecosystem environment remediation architecture in accordance with a preferred embodiment of a blue carbon ecosystem environment remediation method in accordance with the present invention.

In the figure: 1-impact disc, 2-connecting rod, 3-water storage disc, 4-L-shaped side lever, 5-generating fan blade, 6-main supporting rod, 7-auxiliary supporting rod, 8-steel cable connecting piece, 9-L-shaped clamping piece, 10-lifting adjusting rod, 11-outer fixed cylinder, 12-first hinged supporting leg, 13-first adjusting ground positioning rod, 14-first adjusting handle, 15-inserting cone, 16-rotating rod, 17-generator, 18-chassis, 19-second adjusting handle, 20-second adjusting ground positioning rod, 21-rotatable adjusting leg, 22-elastic protective belt, 23-clamping groove, 24-U-shaped clamping seat, 25-elastic clamping rod, 26-adjusting plate, 27-adjusting hinged seat and 28-fixing screw rod, 29-arc notch, 30-fixed nut, 31-fixed hinged seat, 32-limit notch, 33-limit spring, 34-position-limit spring, 35-side handle and 36-air detector.

Detailed Description

In order to make the technical solutions of the present invention more clear and definite for those skilled in the art, the present invention is further described in detail below with reference to the examples and the accompanying drawings, but the embodiments of the present invention are not limited thereto.

As shown in fig. 1-9, the habitat restoration structure of a blue carbon ecosystem provided in this embodiment includes a main supporting rod 6, a clamping groove 23 is formed on one side of the main supporting rod 6, an auxiliary supporting rod 7 is sleeved on an inner side of the clamping groove 23, a generator assembly is disposed inside the auxiliary supporting rod 7, an elastic protective belt 22 is sleeved on an outer side of the generator assembly, the elastic protective belt 22 penetrates through a side portion of the auxiliary supporting rod 7, the other end of the elastic protective belt 22 is fixed at a middle portion inside the clamping groove 23, a water storage tray 3 is mounted on a top portion of the main supporting rod 6, an impact frame assembly is mounted in a middle portion of a top portion of the water storage tray 3, wind power generation assemblies are disposed on two sides of the top portion of the water storage tray 3, side handles 35 are mounted on top portions of two sides of the water storage tray 3, a conical fixing member is mounted on a bottom portion of the auxiliary supporting rod 7, a first angle-adjustable fixing leg assembly is hinged to an upper middle portion of an outer side of the main supporting rod 6 through a fixing hinge seat 31, the mid-mounting in the main tributary vaulting pole 6 outside has regulating plate 26, and run through on regulating plate 26 and be equipped with rotatable hinge subassembly, and be equipped with the adjustable fixed leg subassembly of second angle on the rotatable hinge subassembly, the below in the main tributary vaulting pole 6 outside is equipped with the screens subassembly, and the screens subassembly is mutually supported with the adjustable fixed leg subassembly of first angle, the top in the main tributary vaulting pole 6 outside is equipped with the spacing subassembly of elasticity, L type fastener 9 is installed at the top in the auxiliary supporting pole 7 outside, and L type fastener 9 is mutually supported with the spacing subassembly of elasticity, air detector 36 is installed at the top in the L type fastener 6 outside, the built-in temperature and humidity detection sensor of air detector 36 of adoption, PH value detection sensor and carbon dioxide detect the sensor.

The device is carried to the position near a blue carbon ecosystem needing to be repaired, the device is inserted to form a protective fence according to the current blue carbon ecosystem architecture, the device is inserted in a mode that the auxiliary support rod 7 is pulled out to the position near the blue carbon ecosystem needing to be repaired, the elastic protective belt 22 is tightened and then inserted to the ground through the insertion cone 15, the first adjusting ground positioning rod 13 and the main support rod 6 are inserted to the ground for fixing after the first hinged support leg 12 is unfolded and the first adjusting ground positioning rod 13 is adjusted to a proper length by rotating the second adjusting handle 19, the main support rod 6 and the first adjusting ground positioning rod 13 are fixed by impacting the impact disc 1 through a hammer, the L-shaped clamping piece 9 is clamped on the adjusting rod 10 when the auxiliary support rod 7 is unfolded, the L-shaped clamping piece 9 is clamped through the lifting spring 34, the position of the arc-shaped notch 29 through the adjusting fixing screw 28 is fixed through the fixing nut 30, the rotatable adjusting legs 21 are unfolded, the second adjusting ground inserting positioning rod 20 is adjusted to be inserted into the ground to form a side position supporting structure, the wind power blows the power generation fan blades 5 to drive the rotating shaft to move, the rotating shaft drives the wind driven generator to generate power, the elastic protection belt 22 is blown by the wind power to drive the rotating rod 16 to rotate, the generator 17 is driven to generate power through the rotation of the rotating rod 16, and the water storage disc 3 stores rainwater for standby use.

In this embodiment, the cone-shaped fixing member includes a base plate 18 and an insertion cone 15, the base plate 18 is installed at the bottom of the auxiliary support rod 7, the insertion cone 15 is installed at the bottom of the base plate 18, and a generator assembly is located inside the auxiliary support rod 7 and fixed on the base plate 18.

In this embodiment, the generator assembly includes a rotating rod 16, a generator 17 and a spring, the generator 17 is mounted on the top of the chassis 18, the rotating rod 16 is mounted on the output end of the generator 17, the spring is fixedly sleeved on the outer side of the rotating rod 16, and an elastic protective belt 22 is arranged on the outer side of the spring.

In this embodiment, striking frame subassembly includes connecting rod 2 and striking dish 1, and 3 inner bottom middle parts of retaining dish are installed connecting rod 2 to install striking dish 1 at the top of connecting rod 2, and the rubber inoxidizing coating has been laid at the top of striking dish 1.

In this embodiment, wind power generation subassembly includes L type side lever 4, the 5 pivots of electricity generation fan leaf and aerogenerator, and L type side lever 4 is installed to the both sides at 3 tops of catch tray to top embeds there is aerogenerator in L type side lever 4, and its this aerogenerator's output runs through L type side lever 4 and installs the pivot, and electricity generation fan leaf 5 is installed to the other end of pivot.

In this embodiment, the first angle-adjustable fixed leg assembly includes a first hinged support leg 12, a first adjusting ground-inserting positioning rod 13, a first adjusting handle 14 and a first inner screw hole, the middle part of one side of the fixed hinged seat 31 is hinged to the first hinged support leg 12, the end part of the first hinged support leg 12 is provided with the first inner screw hole, the inner side of the first inner screw hole is engaged with the first adjusting ground-inserting positioning rod 13, and the top of the first adjusting ground-inserting positioning rod 13 is provided with the first adjusting handle 14.

In this embodiment, the rotatable hinge assembly includes an arc-shaped notch 29, a fixing nut 30, a fixing screw 28 and an adjusting hinge seat 27, the arc-shaped notch 29 is opened on the adjusting plate 26, the fixing screw 28 is penetrated through the inner side of the arc-shaped notch 29, the fixing screw 28 is engaged with the fixing nut 30 through the outer end of the arc-shaped notch 29, the adjusting hinge seat 27 is installed at the bottom of the fixing screw 28, and a second angularly adjustable fixing leg assembly is hinged on the inner side of the adjusting hinge seat 27.

In this embodiment, the second angle-adjustable fixed leg assembly includes a rotatable adjusting leg 21, a second adjusting ground-inserting positioning rod 20, a first adjusting handle 14 and a second inner screw hole, one end of the rotatable adjusting leg 21 is hinged to the inner side of the adjusting hinge seat 27, the other end of the rotatable adjusting leg 21 is provided with the second inner screw hole, the inner side of the second inner screw hole is engaged with the second adjusting ground-inserting positioning rod 20, and the top of the second adjusting ground-inserting positioning rod 20 is provided with the first adjusting handle 14.

In this embodiment, the screens subassembly includes U type screens seat 24, spacing notch 32, spacing spring 33 and elasticity kelly 25, and U type screens seat 24 is fixed in the outside middle part department of main tributary vaulting pole 6, and spacing notch 32 has been seted up to the both sides of U type screens seat 24, and the inboard cover of spacing notch 32 is equipped with spacing spring 33, and the inboard of spacing spring 33 is equipped with elasticity kelly 25, and the tip of elasticity kelly 25 is the tapered structure.

In this embodiment, the elastic limiting component comprises a clamping spring 34, an outer fixing barrel 11 and a lifting adjusting rod 10, the outer fixing barrel 11 is installed above the outer side of the main support rod 6, the clamping spring 34 is installed at the inner bottom of the outer fixing barrel 11, the lifting adjusting rod 10 is installed at the top of the clamping spring 34, the lifting adjusting rod 10 is partially located on the inner side of the outer fixing barrel 11, and the L-shaped clamping piece 9 is matched with the lifting adjusting rod 10.

In this embodiment, side handles 35 are installed on both sides of the top of the water storage tray 3, a protective sleeve is sleeved on the outer side of each side handle 35, flexible solar panels are laid on both sides of each elastic protective belt 22, and a steel cable connecting piece 8 is installed above the outer side of each main support rod 6.

step 2: the device is inserted in a mode that the auxiliary supporting rod 7 is pulled out until the elastic protective belt 22 is tightened and then is inserted into the ground through the inserting cone 15;

and step 3: after the first hinged supporting leg 12 is unfolded, the first adjusting inserting positioning rod 13 is adjusted to be a proper length by rotating the second adjusting handle 19, and then the first adjusting inserting positioning rod 13 and the main supporting rod 6 are inserted into the ground for fixing;

and 4, step 4: the main support rod 6 and the first adjusting ground positioning rod 13 are fixed by striking the impact disc 1 with a hammer;

and 5: the L-shaped clamping piece 9 is clamped on the lifting adjusting rod 10 at the unfolding auxiliary supporting rod 7, and the L-shaped clamping piece 9 is clamped through the clamping spring 34;

step 6: the position of the fixing screw 28 on the arc-shaped notch 29 is adjusted and then fixed through the fixing nut 30, the rotatable adjusting leg 21 is unfolded, and the second adjusting inserting positioning rod 20 is adjusted to be inserted into the ground to form a side position supporting structure;

and 7: the wind blows the generating fan blade 5 to drive the rotating shaft to move, and the rotating shaft drives the wind driven generator to generate electricity;

and 8: when the elastic protective belt 22 is blown by wind power, the rotating rod 16 is driven to rotate, and the generator 17 of the elastic protective belt generates electricity through the rotation of the rotating rod 16;

and step 9: rainwater is stored in the water storage tray 3, and stored fresh water can be suitable for coastal vegetation with low salinity;

step 10: the air detector 36 is used for environmental detection and the air detector 36 is powered by the generated electric power.

The above description is only for the purpose of illustrating the present invention and is not intended to limit the scope of the present invention, and any person skilled in the art can substitute or change the technical solution of the present invention and its conception within the scope of the present invention.

Claims

1. The utility model provides a blue carbon ecosystem habitat restoration structure which characterized in that: comprises a main supporting rod (6), one side of the main supporting rod (6) is provided with a clamping groove (23), the inner side of the clamping groove (23) is sleeved with an auxiliary supporting rod (7), a generator component is arranged inside the auxiliary supporting rod (7), the outer side of the generator component is sleeved with an elastic protective belt (22), the elastic protective belt (22) penetrates through the side part of the auxiliary supporting rod (7), the other end of the elastic protective belt (22) is fixed at the middle part inside the clamping groove (23), the top of the main supporting rod (6) is provided with a water storage disc (3), the middle part of the top of the water storage disc (3) is provided with an impact frame component, the two sides of the top of the water storage disc (3) are provided with wind power generation components, the tops of the two sides of the water storage disc (3) are provided with side handles (35), the bottom of the auxiliary supporting rod (7) is provided with a conical fixing component, the middle upper part of the outer side of the main supporting rod (6) is hinged with a first angle adjustable fixing leg component through a fixing seat (31), there is regulating plate (26) at the mid-mounting in main tributary vaulting pole (6) outside to run through on regulating plate (26) and be equipped with rotatable hinge subassembly, and be equipped with the adjustable fixed leg subassembly of second angle on the rotatable hinge subassembly, the below in main tributary vaulting pole (6) outside is equipped with the screens subassembly, and the screens subassembly mutually supports with the adjustable fixed leg subassembly of first angle, and the top in main tributary vaulting pole (6) outside is equipped with the spacing subassembly of elasticity, and L type fastener (9) are installed at the top in the auxiliary stay pole (7) outside, and mutually support with the spacing subassembly of elasticity in L type fastener (9), and air detector (36) are installed at the top in L type fastener (6) outside.

2. The habitat restoration structure of a blue carbon ecosystem according to claim 1, wherein: the conical fixing piece comprises a base plate (18) and an inserting cone (15), the base plate (18) is installed at the bottom of the auxiliary supporting rod (7), the inserting cone (15) is installed at the bottom of the base plate (18), and a generator assembly is located inside the auxiliary supporting rod (7) and fixed on the base plate (18).

3. The habitat restoration structure of a blue carbon ecosystem according to claim 2, wherein: the generator assembly comprises a rotating rod (16), a generator (17) and a clockwork spring, the generator (17) is installed at the top of the chassis (18), the rotating rod (16) is installed at the output end of the generator (17), the clockwork spring is fixedly sleeved on the outer side of the rotating rod (16), and an elastic protective belt (22) is arranged on the outer side of the clockwork spring.

4. The habitat restoration structure of a blue carbon ecosystem according to claim 3, wherein: the striking frame subassembly includes connecting rod (2) and striking dish (1), and connecting rod (2) are installed to water storage dish (3) inner bottom middle part department to install striking dish (1) at the top of connecting rod (2), and the top of striking dish (1) has laid the rubber inoxidizing coating.

5. The habitat restoration structure of a blue carbon ecosystem according to claim 4, wherein: wind power generation subassembly includes L type side lever (4), electricity generation fan leaf (5) pivot and aerogenerator, and L type side lever (4) are installed to the both sides at water storage tray (3) top to top embeds there is aerogenerator in L type side lever (4), and its this aerogenerator's output runs through L type side lever (4) and installs the pivot, and electricity generation fan leaf (5) are installed to the other end of pivot.

6. The habitat restoration structure of a blue carbon ecosystem according to claim 5, wherein: the first-angle adjustable fixed leg assembly comprises a first hinged supporting leg (12), a first adjusting ground inserting positioning rod (13), a first adjusting handle (14) and a first inner threaded hole, the middle of one side of a fixed hinged seat (31) is hinged with the first hinged supporting leg (12), the end part of the first hinged supporting leg (12) is provided with the first inner threaded hole, the inner side of the first inner threaded hole is meshed with the first adjusting ground inserting positioning rod (13), and the top of the first adjusting ground inserting positioning rod (13) is provided with the first adjusting handle (14).

7. The habitat restoration structure of a blue carbon ecosystem according to claim 6, wherein: rotatable articulated subassembly includes arc notch (29), fixation nut (30), clamping screw (28) and regulation articulated seat (27), arc notch (29) are seted up on regulating plate (26), and the inboard of arc notch (29) is run through and is equipped with clamping screw (28), clamping screw (28) are run through the outside end meshing that arc notch (29) were run through to have clamping nut (30), the bottom of clamping screw (28) is installed and is adjusted articulated seat (27), and it has the adjustable fixed leg subassembly of second angle to articulate in the inboard of adjusting articulated seat (27).

8. The habitat restoration structure of a blue carbon ecosystem according to claim 7, wherein: the second angle-adjustable fixed leg assembly comprises a rotatable adjusting leg (21), a second adjusting ground insertion positioning rod (20), a first adjusting handle (14) and a second inner threaded hole, one end of the rotatable adjusting leg (21) is hinged to the inner side of an adjusting hinge seat (27), the other end of the rotatable adjusting leg (21) is provided with the second inner threaded hole, the inner side of the second inner threaded hole is meshed with the second adjusting ground insertion positioning rod (20), and the top of the second adjusting ground insertion positioning rod (20) is provided with the first adjusting handle (14).

9. The habitat restoration structure of a blue carbon ecosystem according to claim 8, wherein: the screens subassembly includes U type screens seat (24), spacing notch (32), spacing spring (33) and elasticity kelly (25), the outside middle part department at main tributary vaulting pole (6) is fixed in U type screens seat (24), spacing notch (32) have been seted up to the both sides of U type screens seat (24), the inboard cover of spacing notch (32) is equipped with spacing spring (33), and the inboard of spacing spring (33) is equipped with elasticity kelly (25), the tip of elasticity kelly (25) is the tapered structure.

10. The habitat restoration structure of a blue carbon ecosystem according to claim 9, wherein: the elastic limiting assembly comprises a clamping spring (34), an outer fixing barrel (11) and a lifting adjusting rod (10), the outer fixing barrel (11) is installed above the outer side of the main support rod (6), the clamping spring (34) is installed at the inner bottom of the outer fixing barrel (11), the lifting adjusting rod (10) is installed at the top of the clamping spring (34), the lifting adjusting rod (10) is partially located on the inner side of the outer fixing barrel (11), and the L-shaped clamping pieces (9) are matched with the lifting adjusting rod (10).