CN220449957U - Rural area water ecological restoration system - Google Patents

Abstract

The utility model provides a rural area water ecological restoration system which comprises a water collecting ditch assembly, a first biological treatment assembly, an ecological restoration assembly, an operation allocation assembly and an energy supply assembly, wherein the water collecting ditch assembly is arranged in a courtyard; the first biological treatment assembly is communicated with the inside of the water collecting ditch assembly; the ecological restoration assembly comprises a restoration pond communicated with the water collecting channel assembly, a control valve arranged on the restoration pond and a second biological treatment assembly communicated with the restoration pond; the repair pool comprises: the spiral ditch assembly is communicated with the water collecting ditch assembly through the water collecting ditch assembly at the other end; the operation allocation assembly is used for regulating and controlling the operation state of the water collecting ditch assembly and the ecological restoration assembly; the energy supply assembly is electrically connected with the operation allocation assembly. The rural area water ecological restoration system provided by the utility model realizes interception and guidance of rural scale small and scattered domestic sewage discharge, and reduces rural area non-point source pollution.

Description

Rural area water ecological restoration system

Technical Field

The utility model belongs to the technical field of water ecological restoration and environmental protection, and particularly relates to a rural area water ecological restoration system.

Background

The ecological restoration of rural water is unprecedented, and has important significance for guaranteeing the safety of rural drinking water, improving the living quality of residents, promoting the environmental protection and agricultural production. Therefore, the water ecological restoration system in rural areas has important application value.

Disclosure of Invention

The utility model aims to provide a rural area water ecological restoration system, and aims to solve the technical problems of unreasonable design, incomplete restoration, general restoration effect and the like of a restoration system in a rural water ecological restoration system in the prior art.

In order to achieve the above purpose, the utility model adopts the following technical scheme: provides a water ecological restoration system in rural areas,

the water collecting ditch assembly is arranged in the courtyard;

the first biological treatment assembly is communicated with the inside of the water collecting ditch assembly;

the ecological restoration assembly comprises a restoration pond communicated with the water collecting ditch assembly, a control valve arranged on the restoration pond and a second biological treatment assembly communicated with the restoration pond;

the energy supply assembly is electrically connected with the operation allocation assembly;

filter assembly, filter assembly is equipped with a plurality of groups, filter assembly includes:

the shell is movably connected with the water collecting channel assembly or the repairing pool or the water collecting channel assembly, a containing groove is formed in the shell, and a communication hole communicated with the containing groove is formed in the shell;

the driving piece is connected with the shell; the driving piece is provided with a first using state and a second using state;

the crushing structure is movably connected with the shell and is used for crushing objects in the accommodating groove under the drive of the driving piece in a first use state;

the walking assembly is connected with the shell and is used for driving the shell to move under the driving of the driving piece in the second use state.

Preferably, the water collecting tank further comprises a transfer tank assembly, one end of the transfer tank assembly is communicated with the water collecting tank assembly, and the other end of the transfer tank assembly is communicated with the water collecting tank assembly.

Preferably, the ecological restoration device further comprises an operation allocation component, wherein the operation allocation component is used for regulating and controlling the operation states of the water collecting ditch component and the ecological restoration component.

Preferably, the operation deployment assembly includes:

the water quality sensors are arranged and are electrically connected with the energy supply assembly; each water quality sensor is respectively arranged in any one structure of the water collecting ditch assembly, the repairing pool and the water collecting ditch assembly;

the speed measuring instrument is provided with a plurality of speed measuring instruments, and the speed measuring instruments are electrically connected with the energy supply assembly; each velocimeter is respectively arranged in any one structure of the water collecting ditch assembly, the repairing pool and the water collecting ditch assembly;

the water pumps are arranged and are electrically connected with the energy supply assembly; each water pump is respectively arranged in any one structure of the water collecting ditch assembly, the repairing pool and the water collecting ditch assembly;

and the control part is electrically connected with the water quality sensor, the velocimeter, the water pump and the energy supply assembly.

Preferably, the repair pool comprises: the repair pool comprises a repair pool body, one end of the repair pool body is communicated with the repair pool body, and the other end of the repair pool body is communicated with the water collecting ditch assembly through a water collecting ditch assembly.

Preferably, the water collecting tank further comprises a temperature control assembly, wherein the temperature control assembly is used for maintaining the temperature of the water body in the water collecting tank assembly, the repair tank and the water collecting tank assembly.

Preferably, the water collecting tank further comprises a temperature control assembly, wherein the temperature control assembly is used for maintaining the temperature of the water body in the water collecting tank assembly, the repair tank and the water collecting tank assembly.

Preferably, the temperature control assembly includes:

the lens structure is respectively arranged on the water collecting ditch assembly, the repairing pool and the water collecting ditch assembly;

the heating wires are respectively arranged on the water collecting ditch assembly, the repairing pool and the water collecting ditch assembly, and are electrically connected with an external power supply;

the heat preservation layer is arranged on the water collecting ditch assembly, the repairing pool and the water collecting ditch assembly.

Preferably, the spiral groove component comprises a spiral groove main body, the bottom elevation of the spiral groove main body gradually decreases from outside to inside, and a baffle is arranged on the inner side of the spiral groove main body.

The rural area water ecological restoration system provided by the utility model has the beneficial effects that: compared with the prior art, the rural area water ecological restoration system provided by the utility model has the advantages that interception and guidance of rural scale small and dispersed domestic sewage discharge are realized and non-point source pollution is reduced through the cooperation of the water collecting ditch assembly, the first biological treatment assembly, the ecological restoration assembly, the operation allocation assembly and the energy supply assembly. The first biological treatment assembly and the second biological treatment assembly treat domestic sewage by adopting comprehensive biological measures such as native plant algae, so that the treatment cost is reduced, secondary pollution is not easy to cause, and meanwhile, the local biological diversity is increased, and the local microclimate is effectively improved. The water is communicated with the micro water in the area, black and odorous water is avoided, the treated water reaching the standard is used for local ecological greening, flushing, cultivation and the like, and the water resource is effectively utilized through circulation. The method is capable of effectively utilizing the local existing resources according to the local topography, weather, plant growth and other rules, and effectively improving the rural water environment.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments or the description of the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a block flow diagram of a rural area water ecological restoration system according to an embodiment of the present utility model;

FIG. 2 is a schematic diagram of a rural area water ecological restoration system according to an embodiment of the present utility model; (first biological treatment component is not shown)

FIG. 3 is a schematic cross-sectional view of a repair pool used in a rural area water ecological restoration system according to an embodiment of the present utility model;

FIG. 4 is a schematic diagram illustrating a connection state between a first biological treatment component and a part of a water collection ditch component used in a rural area water ecological restoration system according to an embodiment of the present utility model;

FIG. 5 is a schematic diagram of a connection state of a first biological treatment assembly and another sump assembly used in a rural water ecological restoration system according to an embodiment of the present utility model;

FIG. 6 is a front view of FIG. 5;

FIG. 7 is a schematic diagram of another filter assembly for use in a rural water ecological restoration system according to an embodiment of the present utility model.

In the figure: 1. a sump assembly; 2. a first biological processing assembly; 3. repairing the pool; 31. repairing the pool main body; 32. a spiral groove assembly; 4. a control valve; 5. a second biological treatment assembly; 6. a catchment ditch assembly; 7. operating the deployment assembly; 71. a water quality sensor; 72. a velometer; 8. an energy supply assembly; 81. a solar panel; 82. an electricity storage structure; 9. a filter assembly; 91. a housing; 92. a driving member; 93. a crushing structure; 94. a walking assembly; 10. a transfer pond assembly; 100. and a temperature control assembly.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved more clear, the utility model is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Referring to fig. 1 to 7, a water ecological restoration system for rural areas according to the present utility model will now be described. The rural area water ecological restoration system comprises: the ecological restoration device comprises a water collecting ditch assembly 1, a first biological treatment assembly 2, an ecological restoration assembly, an operation allocation assembly and an energy supply assembly 8, wherein the water collecting ditch assembly 1 is arranged in a courtyard; the first biological treatment assembly 2 is communicated with the inside of the water collecting ditch assembly 1; the ecological restoration assembly comprises a restoration pond 3 communicated with the water collecting ditch assembly 1, a control valve 4 arranged on the restoration pond 3, and a second biological treatment assembly 5 communicated with the restoration pond 3; the repair cell 3 includes: a repair tank main body 31, a spiral ditch assembly 32 with one end communicated with the repair tank main body 31 and the other end communicated with the water collecting ditch assembly 1 through a water collecting ditch assembly 6; the operation allocation assembly 7 is used for regulating and controlling the operation state of the water collecting ditch assembly 1 and the ecological restoration assembly; the energy supply assembly 8 is electrically connected with the operation allocation assembly 7.

The water collecting ditch assembly 1 and the first biological treatment assembly 2 jointly form a household sewage collecting and treating assembly. The household sewage collection and treatment assembly is arranged by taking rural families as units. The water collecting ditch assembly 1 is distributed along the periphery of the courtyard. The first biological treatment components 2 are arranged on the water collecting channel component 1 and on two sides. The first biological treatment assembly 2 is primarily based on local native plants, including emergent aquatic, floating, submerged plants and algae. The sump assembly 1 is located in a border area of the yard (i.e. along a wall of the yard).

The water collecting ditch assembly 1 comprises a water collecting ditch main body, and the water passing capacity of the cross section of the water collecting ditch main body is represented by Q _{i collecting ditch} ＝max(Q _{i rain} ，Q _{i dirt} ) Where i is 1,2,3, …, n, typically in a rainy region, Q _{i rain} Mainly, in arid and rainless areas, Q _{i dirt} Mainly.

In this embodiment, the sump body is a U-shaped sump body. The sump assembly 1 further includes a top cover for capping the sump body. The top cover can be covered on the river reach where the sewage emits odor.

In this embodiment, the water collection channel body may have a pipe structure. The tube body is structurally provided with a slot for receiving the first biological treatment assembly 2. When the first biological treatment component 2 is connected with the pipe body structure, the root system of the plant in the first biological treatment component 2 can extend into the cavity of the pipe body structure. The root systems of the plants in the first biological treatment assemblies 2 arranged on the two sides of the tube body structure can also extend into the cavity of the tube body structure.

In the area range, a repairing pool main body 31 is arranged according to the topography and the original low-lying land and pond, and a spiral groove component 32 is arranged on the upper portion of the repairing pool main body 31. The provision of the spiral trough assembly 32 facilitates an extended sewage treatment time. The control valve 4 is provided on the spiral groove assembly 32 every 10-50 m. The repair tank 3 is provided with a second biological treatment component 5 on and around the repair tank. The second biological treatment assembly 5 can extend into the repair tank body 31 and the spiral groove assembly 32. The second biological treatment assembly 5 is primarily based on local plants, including emergent aquatic, floating, submerged plants and algae. The second biological treatment assembly 5 comprises highly functional native plants and algae.

The spiral ditch assembly 32 comprises a spiral ditch main body, and the height of the bottom of the spiral ditch main body is gradually reduced from outside to inside, so that the sewage treatment time is conveniently prolonged. The inner side of the spiral groove main body is provided with a baffle plate which is used for separating the spiral groove main body, and the baffle plate is made of corrosion-resistant and permeable materials with certain strength, such as steel plates, engineering plastics and the like.

The spiral groove body may be provided 2-4 turns according to the size of the repair tank body 31. Plants are planted in the spiral groove, so that the repairing contact surface is increased, and the repairing time is prolonged.

The operation allocation assembly 7 is arranged to realize the circulation restoration and the internal high-efficiency utilization of the sewage.

Compared with the prior art, the rural area water ecological restoration system provided by the utility model has the advantages that interception and guidance of rural scale small and dispersed domestic sewage discharge are realized and non-point source pollution is reduced through the cooperation of the water collecting ditch assembly 1, the first biological treatment assembly 2, the ecological restoration assembly, the operation allocation assembly 7 and the energy supply assembly 8. The first biological treatment assembly 2 and the second biological treatment assembly 5 treat domestic sewage by adopting comprehensive biological measures such as native plant algae, so that the treatment cost is reduced, secondary pollution is not easy to cause, and meanwhile, the local biological diversity is increased, and the local microclimate is effectively improved. The micro water bodies in the area are communicated, black and odorous water bodies are avoided, the treated standard water is used for local ecological greening, flushing, cultivation and the like, the efficient utilization of internal water is realized through circulation, and water resources are saved. The method is capable of effectively utilizing the local existing resources according to the local topography, weather, plant growth and other rules, and effectively improving the rural water environment.

In this embodiment, the water collecting tank assembly 10 further comprises a transfer tank assembly 10, one end of which is communicated with the water collecting tank assembly 1, and the other end of which is communicated with the water collecting tank assembly 6. The transfer pond assembly 10 serves as a collection. The repair pool 3 is communicated with the intermediate transfer pool assembly 10 through the catchment ditch assembly 6. Capacity Q of water passing of catchment body in catchment assembly 6 _{i converging channel} ＝max(Q _{i living pool} ，Q _{Pool in i} ) Wherein Q is _{i living pool} 、Q _{Pool in i} The water amounts of the repair ponds 3 connected with the catchment ditch assemblies 6 respectively.

The transfer pond assembly 10 is arranged according to the aspects of topography and the like, Q _{Pool in i} ≤Q _{i collecting ditch} The treatment of the plants in and around the pond is the same as the water collection sump.

As an embodiment of the present utility model, please refer to fig. 1 to 7 together, the operation allocation assembly 7 includes: the water quality sensor 71, the velocimeter 72, the water pump and the control member, the water quality sensor 71 is provided with a plurality of water quality sensors, and the water quality sensor 71 is electrically connected with the energy supply assembly 8; each water quality sensor 71 is respectively arranged in any one structure of the water collecting ditch assembly 1, the repairing pool 3 and the water collecting ditch assembly 6; the velocimeter 72 is provided with a plurality of velocimeters 72, and the velocimeter 72 is electrically connected with the energy supply assembly 8; each velocimeter 72 is respectively arranged in any one structure of the water collecting ditch assembly 1, the repairing pool 3 and the water collecting ditch assembly 6; the water pumps are arranged in a plurality and are electrically connected with the energy supply assembly 8; each water pump is respectively arranged in any one structure of the water collecting channel assembly 1, the repairing pool 3 and the water collecting channel assembly 6; the control member is electrically connected with the water quality sensor 71, the velocimeter 72, the water pump and the energy supply assembly 8.

And water quality monitoring, filtering, blocking and water pumping and draining equipment with inlet and outlet flow rates are arranged at the inlet and outlet of the repairing pool 3 and the transit pool assembly. The water quality sensor 71 is used for monitoring the water pollutant amount in real time at fixed points. The velocimeter 27 measures the flow rate, and the dam is used to control the water intake and output. Meanwhile, a water pump is arranged in the repairing pool main body 31 and the transfer pool assembly 10 and used for transferring water and draining water outwards between the repairing pool 3 and the catchment ditch assembly 6, between the transfer pool assembly 10 and the catchment ditch assembly 1 and the like, so that the circulating repairing of sewage and the efficient internal utilization are realized.

Water is needed to be measured and calculated:

R _{total (S)} ＝R _{Ecological system} +R _Flushing +R _{Cultivation method} ，R _{Ecological system} Mainly refers to the water demand of arbor and shrub around ditches and ponds. R is R _{Ecological system} ＝S·h·(θ _{Holding device} -θ _Apoptosis ) Wherein R is _{Ecological system} Is 1m around the ditch and the pool ² Ecological water demand in the range; s is the area of surrounding arbor and shrub; h is the depth of the plant root system, and the range is about 10 cm-80 cm; θ _{Holding device} Saturated water holding capacity for soil; θ _Apoptosis Is the water content of the soil withering.

On the basis of reaching the standard, the water supply priority is R _{Ecological system} ≥R _{Cultivation method} ≥R _Flushing 。

In rural area water ecological restoration system, through topography height Cheng Sheji and water pump drainage keep the slow flow of water.

As a specific implementation manner of the embodiment of the present utility model, please refer to fig. 1 to 7 together, the present utility model further includes a plurality of filter assemblies 9, wherein each filter assembly 9 is provided with a plurality of groups, and each filter assembly 9 may be respectively disposed on any one of the structures of the water collection ditch assembly 1, the repairing pool 3 and the water collection ditch assembly 6. The filtering component 9 filters and purifies the water flowing into the rural area aquatic restoration system, and reduces the risk of blockage.

In the present embodiment, the filter assembly 9 includes: the shell 91, the driving piece 92, the crushing structure 93 and the walking assembly 94, the shell 91 is movably connected with the water collecting ditch assembly 1 or the repairing pool 3 or the water collecting ditch assembly 6. The shape and the size of the shell 91 can be correspondingly adjusted according to the differences of the water collecting channel assembly 1, the repairing pool 3 and the water collecting channel assembly 6, the shell 91 is provided with a containing groove, and the shell 91 is provided with a communication hole communicated with the containing groove; the driving member 92 is connected to the housing 91; the driver 92 has a first use state and a second use state; the crushing structure 93 is movably connected with the shell 91, and the crushing structure 93 is used for crushing objects in the accommodating groove under the drive of the driving piece 92 in the first use state; the walking assembly 94 is connected with the housing 91, and the walking assembly 94 is used for driving the housing 91 to move under the driving of the driving member 92 in the second use state.

In the present embodiment, the frame 91 includes a frame body and a movable plate movably connected to the frame body. The upper end face and any side face of the frame body are open end faces. The movable plate has a first use state and a second use state. The movable plate in the first use state is in sealing connection with the side face of the frame body, and the side face is an opening end face. The movable plate in the second use state is connected with the upper end face. The frame body is provided with a groove component for limiting the movable plate.

The driving piece 92 comprises a motor fixedly connected with the shell 91, a screw rod arranged in the accommodating groove and one end of which is connected with the driving end of the motor, and a movable block in threaded connection with the screw rod, wherein the screw rod is connected with the driving end of the motor through a connecting component. The crushing structure 93 comprises a frame body matched with the accommodating groove, a crushing net fixed on the frame body, and a storage box movably connected with the main body of the frame body, wherein the storage box is used for storing sundries crushed by the crushing net. The frame body is connected with the movable block.

The filter assembly 9 is shown mounted to the sump assembly 1. The movable plate is in a first use state. The opening end face of the frame body at this time is an upper end face. The sewage containing impurities is poured from the opening end face of the frame 91, and the water directly flows into the water collecting channel assembly 1 through the communication hole of the shell 91. When the filter assembly 9 contains impurities (such as peel, plastic bag, etc.), the driving member 92 can be started, the driving member 92 drives the crushing structure 93 to move, the crushing structure 93 crushes the peel, then the frame 91 is washed, and the crushed peel flows into the storage box (not shown in fig. 7) under the action of water flow. The plastic bag cannot be crushed by the crushing structure 93. Can be taken out and thrown away after the pericarp is broken.

The travel assembly 94 includes travel wheels rotatably coupled to the frame 91.

The connection assembly has a first use state and a second use state. The connecting component in the first use state is connected with the screw rod. The connecting component in the second use state is connected with the travelling wheel.

The connecting assembly comprises a first connecting rod connected with the motor and a second connecting rod movably connected with the first connecting rod. One end of the second connecting rod, which is away from the first connecting rod, is provided with an engagement wheel. The engagement wheel is used for being engaged with the screw rod in a first use state. The engagement wheel is for engaging with the road wheel in the second use state. The first connecting rod is provided with two connecting positions, namely a first connecting position and a second connecting position. The second connecting rod is in a first use state when being connected with the first connecting position. The second connecting rod is in a second use state when being connected with the second connecting position.

As a specific implementation manner of the embodiment of the present utility model, please refer to fig. 1 to 7 together, the temperature control device 100 is further included, and the temperature control device 100 is used for maintaining the temperature of the water body in the water collection ditch assembly 1, the repair tank 3 and the water collection ditch assembly 6. The temperature control assembly 100 is provided to enable the water ecological restoration system in rural areas to be used normally in cold frozen areas.

In the present embodiment, the temperature control assembly 100 includes: the lens structure, the heating wire and the heat preservation layer are respectively arranged on the water collecting channel component 1, the repairing pool 3 and the water collecting channel component 6; the heating wires are respectively arranged on the water collecting channel assembly 1, the repairing pool 3 and the water collecting channel assembly 6 and are electrically connected with an external power supply; the heat preservation layer is arranged on the water collecting ditch assembly 1, the repairing pool 3 and the water collecting ditch assembly 6.

The system adopts wind energy, solar energy and storage battery to supply energy. The power supply assembly 8 includes: the solar panel 81, the fan power generation assembly and the power storage structure 82 are movably connected with the ground, the solar panel 81 is an arc-shaped plate body, the solar panel 81 has a first use state and a second use state, and the solar panel 81 in the first use state is in a vertical state with the ground; the solar panel 81 in the second use state covers part of structures of the water collecting ditch assembly 1, the repairing pool 3 and the water collecting ditch assembly 6; the fan power generation assembly is connected with the solar panel 81; the electric power storage structure 82 is respectively and electrically connected with the solar panel 81 and the fan power generation assembly; the power storage structure 82 is electrically connected to the heating wire. The shape of the solar panel 81 is not unique and may be selected according to the actual use requirements. The electric storage structure 82 is electrically connected with a motor, which is connected with the solar panel 81 through a rotating shaft assembly. When the solar panel 81 needs to move relative to the ground, the motor can control the rotation shaft assembly to operate so as to drive the solar panel 81 to rotate.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (7)

1. A rural area water ecological restoration system, comprising:

the water collecting ditch assembly (1) is arranged in the courtyard;

a first biological treatment assembly (2) in communication with the interior of the sump assembly (1);

the ecological restoration assembly comprises a restoration pond (3) communicated with the water collection ditch assembly (1), a control valve (4) arranged on the restoration pond (3) and a second biological treatment assembly (5) communicated with the restoration pond (3);

the operation allocation assembly (7) is used for adjusting and controlling the operation states of the water collecting ditch assembly (1) and the ecological restoration assembly;

the energy supply assembly (8) is electrically connected with the operation allocation assembly (7);

filter assembly (9), filter assembly (9) is equipped with a plurality of groups, filter assembly (9) include:

the shell (91) is movably connected with the water collecting channel assembly (1) or the repairing pool (3) or the water collecting channel assembly (6), a containing groove is formed in the shell (91), and a communication hole communicated with the containing groove is formed in the shell (91);

a driving member (92) connected to the housing (91); the drive (92) has a first use state and a second use state;

the crushing structure (93) is movably connected with the shell (91), and the crushing structure (93) is used for crushing objects in the accommodating groove under the drive of the driving piece (92) in a first use state;

the walking assembly (94) is connected with the shell (91), and the walking assembly (94) is used for driving the shell (91) to move under the driving of the driving piece (92) in the second use state.

2. A rural area water ecological restoration system as recited in claim 1, further comprising a transfer pond assembly (10) having one end in communication with said catchment ditch assembly (1) and the other end in communication with said catchment ditch assembly (6).

3. A rural area water ecological restoration system according to claim 2 wherein said operation deployment assembly (7) comprises:

the water quality sensors (71) are arranged in a plurality, and the water quality sensors (71) are electrically connected with the energy supply assembly (8); each water quality sensor (71) is respectively arranged in any one structure of the water collecting ditch assembly (1), the repairing pool (3) and the water collecting ditch assembly (6);

the speed measuring instruments (72) are arranged, and the speed measuring instruments (72) are electrically connected with the energy supply assembly (8); each velocimeter (72) is respectively arranged in any one structure of the water collecting ditch assembly (1), the repairing pool (3) and the water collecting ditch assembly (6);

the water pumps are arranged and are electrically connected with the energy supply assembly (8); each water pump is respectively arranged in any one structure of the water collecting ditch assembly (1), the repairing pool (3) and the water collecting ditch assembly (6);

and the control part is electrically connected with the water quality sensor (71), the velocimeter (72), the water pump and the energy supply assembly (8).

4. A rural area water ecological restoration system according to claim 3, wherein said restoration pool (3) comprises: the repair pool comprises a repair pool body (31), a spiral ditch assembly (32) with one end communicated with the repair pool body (31) and the other end communicated with the water collecting ditch assembly (1) through a water collecting ditch assembly (6).

5. A rural area water ecology restoration system as recited in claim 1 further comprising a temperature control assembly (100), wherein said temperature control assembly (100) is configured to maintain the temperature of the body of water within said catchment assembly (1), said restoration pond (3), said catchment assembly (6).

6. A rural area water ecological restoration system as recited in claim 5, wherein said temperature control assembly (100) comprises:

the lens structure is respectively arranged on the water collecting ditch assembly (1), the repairing pool (3) and the water collecting ditch assembly (6);

the heating wires are respectively arranged on the water collecting ditch assembly (1), the repairing pool (3) and the water collecting ditch assembly (6), and are electrically connected with an external power supply;

the heat preservation layer is arranged on the water collecting ditch assembly (1), the repairing pool (3) and the water collecting ditch assembly (6).

7. A rural area water ecology restoration system as recited in claim 4, wherein: the spiral groove assembly (32) comprises a spiral groove main body, the bottom elevation of the spiral groove main body gradually decreases from outside to inside, and a baffle is arranged on the inner side of the spiral groove main body.