CN216164157U - A structure for falling zone plant promotes - Google Patents

Abstract

The utility model relates to a structure for lifting plants in a falling zone, which belongs to the technical field of ecological river levee structures and comprises an ecological floating bed, wherein the ecological floating bed comprises a plurality of floating bed skeleton rods which are connected to form a frame structure, a connecting joint is arranged between two adjacent floating bed skeleton rods, a polyethylene net which is fixedly connected with the floating bed skeleton rods in a winding mode is arranged in each floating bed skeleton rod, a movable connecting shaft is arranged at the upper end of each floating bed skeleton rod, the movable connecting shaft and the floating bed skeleton rods are fixedly connected through a bolt hoop, and fixing piles which are movably sleeved with the movable connecting shafts in a limiting mode are arranged at two ends of each movable connecting shaft. Has the characteristics of compact structure, ecological protection and high resource utilization rate. The problem of river levee be easily washed by river water and cause soil erosion is solved.

Description

A structure for falling zone plant promotes

Technical Field

The utility model relates to the technical field of ecological river levee structures, in particular to a structure for lifting plants in a hydro-fluctuation belt.

Background

Large lakes and reservoirs often produce fixed hydro-fluctuation zones along with the rise and fall of water levels. As the water level continues to fall, the falling zones stand out, sometimes creating a serious ecological crisis. The hydro-fluctuation belt is a phenomenon which is specific to rivers, lakes and reservoirs. After a lake is formed or a reservoir is built, the water level is high in winter, the flood control water level is reduced in summer, and the land exposed by the water level fall is the hydro-fluctuation belt.

The hydro-fluctuation belt is also called a hydro-fluctuation area and refers to an area where the reservoir area is periodically exposed to the water surface by the submerged land due to seasonal water level fluctuation of the reservoir. The vegetation restoration of the hydro-fluctuation belt is a difficult point of domestic and foreign research, is a world-level problem, and is required to find amphibious plants which are drought-resistant in summer, flooding-resistant in winter and scouring-resistant in winter and fix a certain amount of soil for rooting and growing of the plants.

The treatment of hydro-fluctuation belts is an important part of the ecological protection of lakes or reservoirs. After the hydro-fluctuation belt is formed, most plants originally growing in the area are difficult to survive under deep flooding for almost half a year. With the water wash, the area begins to become bald, even bald. The previous environmental protection function is basically lost, more pollutants enter the water body, and the eutrophication degree of the reservoir area is increased. Without the vegetation barrier, the water and soil loss is increasingly serious under the condition that the reservoir area is flushed by river water along the bank. From the ecological environment of the water area, the hydro-fluctuation belt must be treated and lifted.

Disclosure of Invention

The utility model mainly solves the defects of water loss and soil erosion, poor ecological environment and resource waste in the prior art, and provides a structure for lifting the plants in the hydro-fluctuation belt, which has the characteristics of compact structure, ecological protection and high resource utilization rate. The problem of river levee be easily washed by river water and cause soil erosion is solved.

The technical problem of the utility model is mainly solved by the following technical scheme:

the utility model provides a structure for falling zone plant promotes, includes ecological bed that floats, ecological bed that floats including connecting a plurality of bed skeleton poles that are frame construction, be equipped with the attach fitting between two adjacent bed skeleton poles, bed skeleton pole in be equipped with and be connected fixed polyethylene net with bed skeleton pole looks winding type, bed skeleton pole upper end be equipped with swing joint axle, swing joint axle and bed skeleton pole between be connected fixedly through the bolt staple bolt, the swing joint axle both ends all be equipped with the movable joint axle movable spacing spud pile that cup joints mutually.

The polyethylene net is used for bearing and protecting aquatic plants in the ecological floating bed. The framework rod of the floating bed is assembled by adopting a PE pipe and a connecting joint to form a framework structure. When the river rises, the ecological floating bed floats on the water surface through the movable connecting shaft movably sleeved and fixed with the fixed pile. When the river water moves down, the aquatic plants on the ecological floating bed consolidate the hydro-fluctuation belt of the river bank, and the influence of rain wash on water and soil loss is prevented.

Preferably, a water suction pump is arranged on the outer side of the ecological floating bed, a water inlet pipe is arranged at one end of the water suction pump, a water supply pipe is arranged at the other end of the water suction pump, and a drip irrigation pipe communicated with the water supply pipe is arranged on the ecological floating bed.

Preferably, the suction pump side be equipped with the solar battery of suction pump looks circuit intercommunication, solar battery upper end be equipped with solar panel, solar panel and solar battery between be equipped with steering bracket, solar battery and suction pump between be equipped with external cable.

Preferably, the drip irrigation pipe adopts a connecting hose, and a plurality of drip pipe spray heads which are distributed at equal intervals and communicated with the drip irrigation pipe are arranged on the drip irrigation pipe.

Preferably, the fixing pile comprises a timber pile, a rotating shaft seat movably connected with the movable connecting shaft in a limiting sleeved mode is arranged at the upper end of the timber pile, and the rotating shaft seat and the timber pile are fixedly sleeved in a threaded mode.

Preferably, ground nails are arranged on two outer sides of the timber pile, fixing ear nails which are connected and fixed with the timber pile in a threaded inserting and embedding manner are arranged on two side edges of the timber pile, and steel wires are arranged between the fixing ear nails and the ground nails.

Preferably, the connecting joint adopts two-way, three-way and four-way according to the connecting position of the framework rods of the floating bed. The connecting joint adopts the bed skeleton of floating of four angles of ecological bed of floating of two-way structural connection to connect, and the connecting joint adopts the bed skeleton of floating on four limits of three-way structural connection ecological bed of floating to connect, and the connecting joint adopts other bed skeleton of floating in the four-way structural connection ecological bed of floating to connect.

The utility model can achieve the following effects:

compared with the prior art, the structure for lifting the plants in the hydro-fluctuation belt has the characteristics of compact structure, ecological protection and high resource utilization rate. The problem of river levee be easily washed by river water and cause soil erosion is solved.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic structural view of the ecological floating bed in the present invention.

Fig. 3 is a schematic structural view of a spud in the present invention.

Fig. 4 is a schematic view of the structure of the drip irrigation pipe of the present invention.

In the figure: solar storage battery 1, solar panel 2, turn to support 3, external cable 4, inlet tube 5, suction pump 6, delivery pipe 7, ecological bed 8 that floats, drip irrigation pipe 9, spud pile 10, swing joint axle 11, bolt staple bolt 12, attach fitting 13, float bed skeleton 14, polyethylene net 15, stake 16, pivot seat 17, fixed ear nail 18, steel wire 19, ground nail 20, burette shower nozzle 21.

Detailed Description

The technical scheme of the utility model is further specifically described by the following embodiments and the accompanying drawings.

Example (b): as shown in fig. 1-4, a structure for lifting plants in a falling zone comprises an ecological floating bed 8, a water suction pump 6 is arranged on the outer side of the ecological floating bed 8, a solar storage battery 1 which is in circuit communication with the water suction pump 6 is arranged on the side edge of the water suction pump 6, a solar panel 2 is arranged at the upper end of the solar storage battery 1, a steering support 3 is arranged between the solar panel 2 and the solar storage battery 1, and an external cable 4 is arranged between the solar storage battery 1 and the water suction pump 6. A water inlet pipe 5 is arranged at one end of the water suction pump 6, a water supply pipe 7 is arranged at the other end of the water suction pump 6, and a drip irrigation pipe 9 communicated with the water supply pipe 7 is arranged on the ecological floating bed 8. The drip irrigation pipe 9 adopts a connecting hose, 168 drip irrigation nozzles 21 which are distributed at equal intervals and communicated with the drip irrigation pipe 9 are arranged on the drip irrigation pipe 9.

The ecological floating bed 8 comprises 22 floating bed framework rods 14 which are connected to form a frame structure, a connecting joint 13 is arranged between every two adjacent floating bed framework rods 14, and the connecting joint 13 adopts two-way, three-way and four-way connection according to the connecting positions of the floating bed framework rods 14. Be equipped with in the bed of floating skeleton hack lever 14 and be connected fixed polyethylene net 15 with bed of floating skeleton hack lever 14 looks wound form, bed of floating skeleton hack lever 14 upper end is equipped with swing joint axle 11, and swing joint axle 11 is connected fixedly through bolt staple bolt 12 with bed of floating skeleton hack lever 14 within a definite time, and 11 both ends of swing joint axle all are equipped with the fixed pile 10 that cup joints with 11 movable spacing of swing joint axle. The fixing pile 10 comprises a timber pile 16, a rotating shaft seat 17 movably connected with the movable connecting shaft 11 in a limiting sleeved mode is arranged at the upper end of the timber pile 16, and the rotating shaft seat 17 and the timber pile 16 are fixedly connected in a sleeved mode in a threaded mode. Ground nails 20 are arranged on two outer sides of the timber pile 16, fixing ear nails 18 which are fixedly connected with the timber pile 16 in a threaded inserting manner are arranged on two side edges of the timber pile 16, and steel wires 19 are arranged between the fixing ear nails 18 and the ground nails 20.

To sum up, this a structure for falling zone plant promotes has compact structure, protects ecology and resource utilization is high characteristics. The problem of river levee be easily washed by river water and cause soil erosion is solved.

It is obvious to a person skilled in the art that the utility model is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the essential characteristics of the utility model. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

In summary, the above description is only an embodiment of the present invention, but the structural features of the present invention are not limited thereto, and any changes or modifications within the scope of the present invention by those skilled in the art are covered by the present invention.

Claims (7)

1. A structure for lifting a hydro-fluctuation belt plant is characterized in that: including ecological bed (8) that floats, ecological bed (8) including connecting a plurality of bed skeleton poles (14) that are frame construction, be equipped with between two adjacent bed skeleton poles (14) and connect (13), bed skeleton pole (14) in be equipped with and be connected fixed polyethylene net (15) with bed skeleton pole (14) looks winding type, bed skeleton pole (14) upper end be equipped with swing joint axle (11), swing joint axle (11) and bed skeleton pole (14) between be connected fixedly through bolt staple bolt (12), swing joint axle (11) both ends all be equipped with movable joint axle (11) the spacing spud pile (10) that cup joints of movable joint axle (11) looks movable.

2. A structure for the lifting of hydro-fluctuation belt plants as claimed in claim 1, wherein: ecological bed (8) outside of floating be equipped with suction pump (6), suction pump (6) one end be equipped with inlet tube (5), the suction pump (6) other end be equipped with delivery pipe (7), ecological bed (8) of floating on be equipped with drip irrigation pipe (9) that are linked together with delivery pipe (7).

3. A structure for the lifting of hydro-fluctuation belt plants as claimed in claim 2, wherein: suction pump (6) side be equipped with solar cell (1) with suction pump (6) looks circuit intercommunication, solar cell (1) upper end be equipped with solar panel (2), solar panel (2) and solar cell (1) between be equipped with and turn to support (3), solar cell (1) and suction pump (6) between be equipped with external cable (4).

4. A structure for the lifting of hydro-fluctuation belt plants as claimed in claim 2, wherein: the drip irrigation pipe (9) adopts a connecting hose, and a plurality of drip pipe spray heads (21) which are distributed at equal intervals and communicated with the drip irrigation pipe (9) are arranged on the drip irrigation pipe (9).

5. A structure for the lifting of hydro-fluctuation belt plants as claimed in claim 1, wherein: the fixing pile (10) comprises a timber pile (16), a rotating shaft seat (17) movably connected with the movable connecting shaft (11) in a limiting and sleeved mode is arranged at the upper end of the timber pile (16), and the rotating shaft seat (17) and the timber pile (16) are fixedly connected in a sleeved mode in a threaded mode.

6. A structure for the lifting of hydro-fluctuation belt plants as claimed in claim 5, wherein: stake (16) two outsides be equipped with ground nail (20), stake (16) both sides limit be equipped with stake (16) looks screw thread formula insert inlay and connect fixed ear nail (18), fixed ear nail (18) and ground nail (20) between be equipped with steel wire (19).

7. A structure for the lifting of hydro-fluctuation belt plants as claimed in claim 1, wherein: the connecting joint (13) adopts two-way, three-way and four-way according to the connecting position of the frame rod (14) of the floating bed.

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