CN216088089U - Environment-friendly water conservancy agricultural irrigation device - Google Patents

Abstract

The utility model provides an environment-friendly water conservancy agricultural irrigation device, which is used for solving the problem of environment-friendly water conservancy agricultural irrigation devices. The rainwater collecting box is arranged on one side of the rainwater collecting and filtering tank to store rainwater in the rainwater collecting and filtering tank, so that the rainwater collecting and filtering tank is convenient to recycle in drought time, meanwhile, the farmland is prevented from being influenced by excessive rainwater, the port of the rainwater collecting and filtering tank is provided with the filtering plate, harmful substances in the rainwater are reduced, meanwhile, the device can be adjusted to different working states through the controller according to different periods, rain water storage and rain water reuse are performed in a targeted manner, further improving the recycling efficiency of the rainwater, and the manual movable irrigation mechanism is arranged to transmit the collected rainwater to the manual movable irrigation mechanism, so that the rainwater can rapidly move and irrigate farmlands needing irrigation in regions in a targeted manner, with the irrigation pipeline's in farmland full coverage spray organic combination, further promote rainwater utilization effect and farmland irrigation effect.

Description

Environment-friendly water conservancy agricultural irrigation device

Technical Field

The utility model relates to the technical field of environment-friendly water conservancy, in particular to an environment-friendly water conservancy agricultural irrigation device.

Background

China is a big agricultural country, and agricultural production can not leave the water resource, in current agricultural production process, can set up the farmland in the region that closes on the water source or use water resource conveyor to carry the water source to the farmland in usually and irrigate. Like this, when the arid appears in the region, will significantly reduce to the water resource of irrigation usefulness in farmland, the condition that the crops lack water resource irrigation appears, and then causes crops to subtract the output and even absolutely receives.

In response to such circumstances, researchers have also made certain improvements to existing irrigation systems, for example, the Chinese utility model patent 'No. CN212164484U, No. 2020.12.18' discloses an environmental protection irrigation system, based on the prior farmland irrigation pipeline, an open water collecting tank and a rainwater collecting and filtering system are arranged, in the drought period, under the condition that rivers are cut off, the water collecting tank is used for collecting filtered rainwater for irrigation, thus, although the problem of water shortage in the drought period is solved to a certain extent, the open water collecting tank is not beneficial to long-term storage of rainwater, and rain is collected in the drought period and rain is collected in the rainy period, so that the collected rain is basically evaporated when the rain is stored in the drought period and cannot meet long-term requirements, and only the condition of catchment is considered, when not considering the rainwater too much, the condition when open header tank can't satisfy the catchment needs.

Therefore, an environmental protection water conservancy agricultural irrigation device is urgently needed, when satisfying the rainwater and collecting the filtration demand, further strengthens the function that the rainwater storage was recycled, promotes water resource utilization efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model provides an environment-friendly water conservancy agricultural irrigation device, aiming at the technical problems of poor rainwater storage effect of a water collecting tank and small utilization range of a rainwater collecting system in the existing environment-friendly agricultural irrigation, the agricultural irrigation device is provided with an inverted trapezoidal open rainwater collecting and filtering tank for collecting and filtering rainwater, the rainwater collecting efficiency is high, a rainwater collecting tank is arranged on one side of the rainwater collecting and filtering tank, the rainwater can be conveniently collected and stored when the rainwater is too much, the subsequent use is convenient, the storage time is long, the utilization efficiency is high, a rainwater filtering control irrigation tank and a manual moving irrigation mechanism are arranged, the integral control of the device is convenient, the manual moving irrigation mechanism is used for quickly spraying the farmland when irrigation is too little water resource and irrigation cannot be carried out by using an irrigation pipeline, and the water resource utilization effect is improved.

In order to achieve the purpose, the technical scheme of the utility model is realized as follows:

an environment-friendly water conservancy agricultural irrigation device is arranged on a farmland and comprises a rainwater collecting and filtering tank, wherein the rainwater collecting and filtering tank is of an inverted trapezoidal structure and is positioned below the ground of the farmland, the side edge of the rainwater collecting and filtering tank is provided with a first filtering port and a rainwater collecting and filtering port, the bottom surface of the rainwater collecting and filtering tank is provided with a second filtering port, the first filtering port is communicated with an irrigation pipeline of the farmland through a first transmission pipeline, the second filtering port is communicated with the first transmission pipeline through a second transmission pipeline, two sides of the rainwater collecting and filtering tank are respectively provided with a rainwater collecting box and a rainwater filtering control irrigation box, the rainwater collecting box is communicated with the rainwater collecting and filtering port through a rainwater collecting driving mechanism, the rainwater filtering control irrigation box is provided with a manual irrigation port, the manual irrigation port is communicated with the first transmission pipeline, and the manual movable irrigation mechanism is detachably connected onto the manual irrigation port, the rainwater filtration control irrigation box is internally provided with a rainwater filtration control irrigation mechanism which is respectively communicated with the first transmission pipeline and the manual irrigation port, and the rainwater filtration control irrigation mechanism is connected with the rainwater collection driving mechanism.

Furthermore, the rainwater collecting and filtering port is provided with at least one input end, the input end is provided with at least one layer of filter plate, the rainwater collecting and filtering port is located on the upper portion of the side face of the rainwater collecting and filtering tank, the rainwater collecting and driving mechanism comprises a rainwater collecting pipeline and a collecting power assembly, the rainwater collecting and filtering port is communicated with the rainwater collecting tank through the rainwater collecting pipeline, and the collecting power assembly is arranged on the rainwater collecting pipeline and is respectively communicated with the rainwater collecting pipeline and the rainwater filtration control irrigation mechanism.

Furthermore, collect power component and include first water pump and first wire, first water pump is linked together and first water pump is connected with rainwater filtration control watering mechanism through first wire with rainwater collection pipeline.

Furthermore, the first filtering port and the second filtering port are provided with at least one input end, and the input end is provided with at least one layer of filtering plate.

Furthermore, rainwater filtration control watering mechanism includes controller and power supply subassembly, and the controller is located rainwater filtration control watering incasement, and the controller is connected with first water pump through first wire, and the controller is connected with the power supply subassembly, and the power supply subassembly is connected with first transmission pipeline and artifical watering port respectively.

Further, the power supply subassembly includes the battery, the second water pump, the third water pump, solar cell panel and second wire, the battery is installed in rainwater filtration control watering incasement, the battery is connected with first water pump through first wire, the battery passes through the second wire respectively with the controller, first water pump, second water pump and third water pump are connected, the controller is connected with second water pump and third water pump respectively through the second wire, solar cell panel installs on the top of rainwater filtration control watering case and solar cell panel is connected with the battery through the second wire, the second water pump is linked together with first transmission pipeline, the third water pump is linked together with artifical watering port.

Furthermore, artifical watering mechanism that removes includes rotatory winding mechanism, conveyer belt, removal supporting mechanism and shower head, and rotatory winding mechanism installs on removing supporting mechanism, and the conveyer belt winding is on rotatory winding mechanism, and the one end and the artifical port of watering of conveyer belt can be dismantled and be connected, and the shower head is installed on the other end of conveyer belt.

Further, rotatory winding mechanism includes swiveling wheel, rotatory handle and spacing subassembly, and the conveyer belt winding is on the swiveling wheel, and spacing subassembly setting is on the side of swiveling wheel, and rotatory handle is installed in one side of swiveling wheel, and the swiveling wheel is installed on removing supporting mechanism.

Further, spacing subassembly includes the baffle, and the baffle is installed on the side of swiveling wheel and the baffle is corresponding with the conveyer belt.

Furthermore, remove supporting mechanism and include support frame and universal wheel, the swiveling wheel is installed on the support frame, and the universal wheel is installed in the bottom of support frame.

The utility model has the beneficial effects that:

1. according to the utility model, the rainwater collecting box is arranged on one side of the rainwater collecting and filtering tank which is arranged in the inverted trapezoid opening, so that rainwater in the rainwater collecting and filtering tank is stored in the rainwater collecting box in a rainwater-rich period in rainy seasons, the rainwater can be conveniently recycled in drought time, and meanwhile, the rainwater is prevented from overflowing the rainwater collecting and filtering tank to influence farmlands due to excessive rainwater.

2. According to the utility model, the filtering plate is arranged on the port of the rainwater collecting and filtering tank, so that the collected rainwater is filtered, harmful substances in the rainwater are reduced, and the effectiveness of recycling the rainwater is improved.

3. The rainwater storage and rainwater recycling device can adjust the device to different working states through the controller according to the amount of rainwater in different periods, and can store rainwater and recycle rainwater in a targeted manner, so that the rainwater recycling efficiency is improved.

4. The utility model is designed with a manual moving irrigation mechanism, the input end of the manual moving irrigation mechanism is communicated with a manual irrigation port, the manual irrigation port is opened through a controller, rainwater in a first transmission pipeline is transmitted to the manual moving irrigation mechanism through the manual irrigation port, a user can rapidly move the manual moving irrigation mechanism and irrigate farmlands needing irrigation in a targeted manner in different areas, and the manual moving irrigation mechanism is organically combined with full-coverage spraying of irrigation pipelines of the farmlands, so that the rainwater utilization effect and the farmlands irrigation effect are further improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a cross-sectional view of the present invention.

Fig. 3 is a schematic structural view of the manually moving watering mechanism of the present invention.

In the figure, 1-farmland, 101-irrigation pipeline, 2-rainwater collection and filtration pool, 201-first filtration port, 202-rainwater collection and filtration port, 203-second filtration port, 3-rainwater collection tank, 301-rainwater collection pipeline, 302-first water pump, 303-first lead, 4-rainwater filtration control irrigation tank, 401-first transmission pipeline, 402-second transmission pipeline, 403-manual irrigation port, 5-controller, 501-storage battery, 502-second water pump, 503-third water pump, 504-solar panel, 505-second lead, 6-rotating wheel, 601-conveying belt, 602-spray head, 603-rotating handle, 604-baffle, 605-support frame, 606-universal wheel.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without inventive effort based on the embodiments of the present invention, are within the scope of the present invention.

An environment-friendly water conservancy agricultural irrigation device is arranged on a farmland 1 and comprises a rainwater collecting and filtering tank 2 as shown in figure 1, wherein the rainwater collecting and filtering tank 2 is of an inverted trapezoidal structure, the rainwater collecting and filtering tank 2 is positioned below the ground of the farmland 1, as shown in figure 2, the side edge of the rainwater collecting and filtering tank 2 is provided with a first filtering port 201 and a rainwater collecting and filtering port 202, the bottom surface of the rainwater collecting and filtering tank 2 is provided with a second filtering port 203, the first filtering port 201 is communicated with an irrigation pipeline of the farmland 1 through a first transmission pipeline 401, the second filtering port 203 is communicated with the first transmission pipeline 401 through a second transmission pipeline 402, a rainwater collecting box 3 and a rainwater filtration control irrigation box 4 which are respectively positioned at two sides of the rainwater collecting and filtering tank 2 are arranged on the farmland 1, the rainwater collecting box 3 is communicated with the rainwater collecting and filtering port 202 through a rainwater collection driving mechanism, an artificial irrigation port 403 is formed in the rainwater filtration control irrigation box 4, the artificial irrigation port 403 is communicated with the first transmission pipeline 401, an artificial moving irrigation mechanism is detachably connected to the artificial irrigation port 403, a rainwater filtration control irrigation mechanism is arranged in the rainwater filtration control irrigation box 4, the rainwater filtration control irrigation mechanism is respectively communicated with the rainwater collection driving mechanism, the first transmission pipeline 401 and the artificial irrigation port 403, and the rainwater filtration control irrigation mechanism is connected with the rainwater collection driving mechanism.

Specifically, in the present embodiment, the rainwater collection, filtration, storage and utilization are divided into the following two cases:

in the non-drought period, when raining, a user closes the first transmission pipeline 401 and the second transmission pipeline 402 through the rainwater filtration control irrigation mechanism in the rainwater filtration control irrigation box 4, opens the rainwater collection driving mechanism, and collects rainwater in the rainwater collection filter tank 2, and as the first transmission pipeline 401 and the second transmission pipeline 402 are closed, rainwater is gradually increased in the rainwater collection filter tank 2, and the water level rises. Rise to the rainwater when the water level and collect and filter port 202, the rainwater gets into the rainwater and collects and filter port 202 and filter, and the rainwater after the filtration gets into rainwater collecting box 3 and saves, makes things convenient for the arid period to recycle the rainwater, prevents simultaneously that the rainwater is too much, overflows rainwater and collects filtering ponds 2, influences farmland 1.

In the drought period, when raining, rainwater is less, a user opens the first transmission pipeline 401 and the second transmission pipeline 402 through the rainwater filtering control irrigation mechanism in the rainwater filtering control irrigation box 4, rainwater enters the rainwater collection and filtration tank 2, then directly enters the first transmission pipeline 401 and the second transmission pipeline 402 after being filtered through the first filtering port 201 and the second filtering port 203, and then enters the irrigation pipeline 101 of the farmland 1 to be communicated for irrigation of the farmland 1, so that the method is simple and convenient, and has a good recycling effect; when not raining, the first transmission pipeline 401 is opened through rainwater filtration control watering mechanism in rainwater filtration control watering case 4 to the user of service, drive mechanism is collected to second transmission pipeline 402 and rainwater, rainwater collection drive mechanism drives rainwater in rainwater collecting box 3 and gets into rainwater collection filtering ponds 2 after rainwater is collected and is filtered port 202 secondary filtration, and get into first transmission pipeline 401 and second transmission pipeline 402 after first filtration port 201 and second filtration port 203 filter, the watering pipeline 101 that gets into farmland 1 again is linked together and carries out the watering of farmland 1, effectually reuse the rainwater, and can effectively improve the arid condition in farmland.

Furthermore, it is worth explaining, sometimes, to the irrigation of farmland 1, there is the crisscross phenomenon that exists in non-required irrigation district and required irrigation district, at this moment, need the manual work to water, the user is linked together artifical removal watering mechanism's input and artifical watering port 403, open artifical watering port 403 through rainwater filtration control watering mechanism, rainwater in the first transmission pipeline 401 is transmitted to artifical removal watering mechanism through artifical watering port 403, the user can the quick travel, it is pertinent to watering farmland 1 that needs watering to divide the territory, spray organic combination with the full coverage of watering pipeline 101 of farmland 1, further promote rainwater utilization effect and farmland watering effect.

Further, as shown in fig. 2, the rainwater collection and filtration port 202 is provided with at least one input end and the input end is provided with at least one layer of filter plate, the rainwater collection and filtration port 202 is located on the upper portion of the side surface of the rainwater collection and filtration tank 2, the rainwater collection and drive mechanism comprises a rainwater collection pipeline 301 and a power supply assembly, the rainwater collection and filtration port 202 is communicated with the rainwater collection tank 3 through the rainwater collection pipeline 301, the collection power assembly is arranged on the rainwater collection pipeline 301 and is communicated with the rainwater collection pipeline 301 and the rainwater filtration control irrigation mechanism respectively.

Specific speaking, when need carry out rainwater collection or rainwater output, the filter on the input of rainwater collection filtration port 202 all can filter the rainwater, reduces the harmful substance in the rainwater, further promotes the availability of rainwater, and the user of service can open through rainwater filtration control watering mechanism and collect power component, makes things convenient for the rainwater to pass through rainwater collection pipeline 301 input or output for the rainwater is effectively stored or effectively exported in rainwater collecting box 3.

It should be noted that, in this embodiment, as shown in fig. 1, in this embodiment, the rainwater collection and filtration port 202 is provided with two input ends, and correspondingly, the number of the rainwater collection pipes 301 is also two, and a layer of filter plate is arranged on the input end, in other embodiments of the present invention, the rainwater collection and filtration port 202 may be provided with other numbers of input ends, other numbers of filter plates are arranged on the input ends, and other numbers of rainwater collection pipes 301 are arranged, as long as the purpose of the present invention is achieved.

It should be noted that in this embodiment, the rainwater collection and filtration port 202 is higher than the first filtration port 201, as long as the rainwater in the rainwater collection and filtration tank 2 can preferentially enter the first filtration port 201 and the second filtration port 203 when the rainwater does not need to be stored, so as to facilitate the irrigation of the rainwater.

Further, as shown in fig. 2, the power collecting assembly includes a first water pump 302 and a first wire 303, the first water pump 302 is connected to the rainwater collecting pipe 301, and the first water pump 302 is connected to the rainwater filtration and irrigation control mechanism through the first wire 303. The on-off of first water pump 302 can effectively control the on-off of rainwater collecting pipe 301, and the user uses rainwater filtration control watering mechanism and first wire 303 can effectively control the on-off of first water pump 302, convenience simple to use.

Further, as shown in fig. 2, the first filtering port 201 and the second filtering port 203 are provided with at least one input end and at least one layer of filtering plate is provided on the input end. First filtration port 201 and second filtration port 203 can effectively filter the rainwater through the filter of input, make things convenient for rainwater to recycle. In this embodiment, the first filtering port 201 and the second filtering port 203 are both provided with only one input end, and only one layer of filtering plate is provided on the input end, in other embodiments of the present invention, the first filtering port 201 and the second filtering port 203 may also be provided with other numbers of input ends, and the input ends may be provided with other numbers of filtering plates, as long as the purpose of the present invention is achieved.

Further, the rainwater filtration control irrigation mechanism comprises a controller 5 and a power supply assembly, wherein the controller 5 is positioned in the rainwater filtration control irrigation box 4, the controller 5 is connected with the first water pump 302 through a first lead 303, the controller 5 is connected with the power supply assembly, and the power supply assembly is respectively connected with the first transmission pipeline 401 and the manual irrigation port 403. When using, the staff can control the break-make of first water pump 302 and power supply subassembly through controller 5 to the break-make of control rainwater collection pipeline 301 and first transmission pipeline 401 conveniently controls the flow direction of rainwater, effectually recycles the rainwater.

Specifically, the power supply assembly comprises a storage battery 501, a second water pump 502, a third water pump 503, a solar panel 504 and a second lead 505, the storage battery 501 is installed in the rainwater filtration control watering box 4, the storage battery 501 is connected with the first water pump 302 through the first lead 303, the storage battery 501 is respectively connected with the controller 5, the first water pump 302, the second water pump 502 and the third water pump 503 through the second lead 505, the controller 5 is respectively connected with the second water pump 502 and the third water pump 503 through the second lead 505, the solar panel 504 is installed at the top end of the rainwater filtration control watering box 4, the solar panel 504 is connected with the storage battery 501 through the second lead 505, the second water pump 502 is communicated with the first transmission pipeline 401, and the third water pump 503 is communicated with the manual watering port 403. When using, solar cell panel 504 is under the shining of sunlight with solar energy conversion electric energy and storage in battery 501, battery 501 provides the electric energy for first water pump 302, second water pump 502 and third water pump 503, the opening and closing of first water pump 302, second water pump 502 and third water pump 503 are controlled to controller 5 to control rainwater collecting pipe 301, the break-make of first transmission pipeline 401 and artifical watering port 403, conveniently control the flow direction of rainwater, effectually recycle the rainwater.

Further, as shown in fig. 3, the manual moving irrigation mechanism includes a rotating winding mechanism, a conveyor belt 601, a moving support mechanism and a spray header 602, the rotating winding mechanism is mounted on the moving support mechanism, the conveyor belt 601 is wound on the rotating winding mechanism, one end of the conveyor belt 601 is detachably connected with the manual irrigation port 403, and the spray header 602 is mounted on the other end of the conveyor belt 601. Specifically, the rotary winding mechanism comprises a rotary wheel 6, a rotary handle 603 and a limiting assembly, the conveying belt 601 is wound on the rotary wheel 6, the limiting assembly is arranged on the side edge of the rotary wheel 6, the rotary handle 603 is arranged on one side of the rotary wheel 6, and the rotary wheel 6 is arranged on the movable supporting mechanism; the limiting assembly comprises a baffle 604, the baffle 604 is arranged on the side edge of the rotating wheel 6, and the baffle 604 corresponds to the conveying belt 601; the movable supporting mechanism comprises a supporting frame 605 and universal wheels 606, wherein the rotating wheel 6 is arranged on the supporting frame 605, and the universal wheels 606 are arranged at the bottom end of the supporting frame 605. When needs carry out artifical watering, the input of conveyer belt 601 is installed on artifical watering port 403, the user opens artifical watering port 403 through controller 5, the rainwater gets into conveyer belt 601, promote support frame 605, remove support frame 605 to suitable position through universal wheel 606, rotatory handle 603, control swiveling wheel 6 is rotatory, conveyer belt 601 length changes, baffle 604 carries on spacingly to conveyer belt 601, prevent that it from taking place to break away from, after the length of adjustment conveyer belt 601, use shower head 602 to spray the position that needs the watering, reach the purpose of pertinence watering.

It should be noted that in other embodiments of the present invention, a moving handle may be installed on the supporting frame 605 to facilitate a user to push the supporting frame 605, or an automatic moving controller may be installed between the universal wheel 606 and the supporting frame 605 to facilitate the user to automatically control the movement of the supporting frame 605, thereby further improving the working efficiency.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (10)

1. An environment-friendly water conservancy agricultural irrigation device is arranged on a farmland (1) and is characterized by comprising a rainwater collection and filtration tank (2), wherein the rainwater collection and filtration tank (2) is of an inverted trapezoidal structure, the rainwater collection and filtration tank (2) is positioned below the ground of the farmland (1), a first filtration port (201) and a rainwater collection and filtration port (202) are arranged on the side edge of the rainwater collection and filtration tank (2), a second filtration port (203) is arranged on the bottom surface of the rainwater collection and filtration tank (2), the first filtration port (201) is communicated with an irrigation pipeline (101) of the farmland (1) through a first transmission pipeline (401), the second filtration port (203) is communicated with the first transmission pipeline (401) through a second transmission pipeline (402), a rainwater collection box (3) and a rainwater filtration control irrigation box (4) are respectively arranged on the two sides of the rainwater collection and filtration tank (2), rainwater collecting box (3) are collected actuating mechanism and rainwater through the rainwater and are collected filtration port (202) and be linked together, be provided with artifical watering port (403) on rainwater filtration control watering case (4), artifical watering port (403) are linked together with first transmission pipeline (401), can dismantle on artifical watering port (403) and be connected with artifical removal watering mechanism, are provided with rainwater filtration control watering mechanism in rainwater filtration control watering case (4), and rainwater filtration control watering mechanism is linked together with first transmission pipeline (401) and artifical watering port (403) respectively, and rainwater filtration control watering mechanism collects actuating mechanism and rainwater and is connected.

2. The environmental protection water conservancy agricultural irrigation device of claim 1, characterized in that, the rainwater collection filtration port (202) is provided with at least one input end and the input end is provided with at least one layer of filter plate, the rainwater collection filtration port (202) is located at the upper side of the rainwater collection filtration pond (2), the rainwater collection driving mechanism comprises a rainwater collection pipeline (301) and a collection power component, the rainwater collection filtration port (202) is communicated with the rainwater collection tank (3) through the rainwater collection pipeline (301), the collection power component is arranged on the rainwater collection pipeline (301) and is respectively communicated with the rainwater collection pipeline (301) and the rainwater filtration control irrigation mechanism.

3. An eco-friendly water conservancy and agricultural irrigation device as claimed in claim 2, wherein the collection power assembly comprises a first water pump (302) and a first wire (303), the first water pump (302) is in communication with the rainwater collection pipe (301) and the first water pump (302) is connected to the rainwater filtration control irrigation mechanism via the first wire (303).

4. An eco-friendly water conservancy agricultural irrigation device according to claim 1 or 2 or 3, wherein the first and second filtering ports (201, 203) are each provided with at least one input and at least one layer of filtering plate is provided on the input.

5. An eco-friendly water conservancy and agricultural irrigation apparatus as claimed in claim 4, wherein the rainwater filtration control irrigation mechanism comprises a controller (5) and a power supply assembly, the controller (5) is located in the rainwater filtration control irrigation tank (4), the controller (5) is connected to the first water pump (302) via a first lead (303), the controller (5) is connected to the power supply assembly, and the power supply assembly is connected to the first transmission pipe (401) and the manual irrigation port (403), respectively.

6. The environmentally-friendly water conservancy agricultural irrigation device according to claim 5, wherein the power supply assembly comprises a storage battery (501), a second water pump (502), a third water pump (503), a solar panel (504) and a second lead (505), the storage battery (501) is installed in the rainwater filtration control irrigation box (4), the storage battery (501) is connected with the first water pump (302) through a first lead (303), the storage battery (501) is respectively connected with the controller (5), the first water pump (302), the second water pump (502) and the third water pump (503) through a second lead (505), the controller (5) is respectively connected with the second water pump (502) and the third water pump (503) through a second lead (505), the solar panel (504) is installed at the top end of the rainwater filtration control irrigation box (4) and the solar panel (504) is connected with the storage battery (501) through a second lead (505), the second water pump (502) is communicated with the first transmission pipeline (401), and the third water pump (503) is communicated with the manual irrigation port (403).

7. An environmentally friendly water conservancy agricultural irrigation device according to claim 5 or 6, wherein the manual moving irrigation mechanism comprises a rotary winding mechanism, a conveyor belt (601), a moving support mechanism and a spray head (602), the rotary winding mechanism is mounted on the moving support mechanism, the conveyor belt (601) is wound on the rotary winding mechanism, one end of the conveyor belt (601) is detachably connected with the manual irrigation port (403), and the spray head (602) is mounted at the other end of the conveyor belt (601).

8. An environmentally friendly water conservancy agricultural irrigation device according to claim 7, wherein the rotary winding mechanism comprises a rotary wheel (6), a rotary handle (603) and a limit component, the conveyor belt (601) is wound on the rotary wheel (6), the limit component is arranged on the side of the rotary wheel (6), the rotary handle (603) is arranged on one side of the rotary wheel (6), and the rotary wheel (6) is arranged on the movable supporting mechanism.

9. An eco-friendly water conservancy and agricultural irrigation device according to claim 8, wherein the limiting assembly comprises a baffle (604), the baffle (604) is mounted on the side of the rotating wheel (6) and the baffle (604) corresponds to the conveyor belt (601).

10. An environmentally friendly water conservancy agricultural irrigation device according to claim 8 or claim 9, wherein the movable support mechanism comprises a support frame (605) and universal wheels (606), the rotating wheel (6) is mounted on the support frame (605), and the universal wheels (606) are mounted at the bottom end of the support frame (605).

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