CN220255335U - Intelligent water-saving irrigation device - Google Patents

Abstract

The utility model discloses an intelligent water-saving irrigation device, which comprises a cabinet, wherein a storage rack in an inverted T shape is arranged in the cabinet, a storage battery and a controller are respectively arranged at the left side and the right side of the storage rack, a water storage tank is arranged in the cabinet, the water storage tank is positioned below the storage rack, a bucket-shaped water collection tank is arranged at the top of the cabinet, a guide pipe is arranged at the water outlet of the water collection tank, the guide pipe penetrates through the storage rack and stretches into the water storage tank, a second water pump is arranged at the top of the water storage tank, a water inlet of the second water pump stretches into the bottom of the water storage tank through a water pipe, and a water outlet of the second water pump is connected with a main flow pipe through a flow control valve; the catch basin of the device can collect rainwater into the water storage tank, can practice thrift a large amount of water resources when waiting to irrigate next time, and the device transmits soil humidity condition to the controller through soil humidity sensor, and the controller carries out automatic irrigation according to soil condition control first water pump and second water pump, and the device can detain the irrigation pipe at the root periphery through tree irrigation structure.

Description

Intelligent water-saving irrigation device

Technical Field

The utility model relates to the technical field of water-saving irrigation, in particular to an intelligent water-saving irrigation device.

Background

Irrigation, namely water irrigation, is a technical measure for supplementing water needed by crops to the land, and in order to ensure normal growth of the crops, the crops must be supplied with sufficient water to ensure high and stable yield, and under natural conditions, the water requirement of the crops cannot be met due to insufficient precipitation or uneven distribution, so that the crops must be irrigated artificially to supplement the shortage of natural rainfall.

The existing irrigation mode is carried out through the flood irrigation or the spraying mode, a large amount of water resources are wasted, therefore, for example, an intelligent water-saving irrigation device is introduced in the publication No. CN217012117U, the device needs to adjust the irrigation range according to the actual condition in the use process, automatic irrigation cannot be realized according to the soil condition, and the device only realizes water saving by adjusting the number of the spray heads, so that the water-saving effect is not good.

Therefore, an intelligent water-saving irrigation device which can automatically irrigate according to soil humidity and has better water-saving effect is designed.

Disclosure of Invention

The utility model aims to provide an intelligent water-saving irrigation device aiming at the defects of the prior art so as to solve the problems in the background art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an intelligent water-saving irrigation device, includes the cabinet, cabinet internally mounted has the rack that is the shape of falling T, and both sides are provided with battery and controller respectively about the rack, are provided with the water storage tank in the cabinet, and the water storage tank is located the rack below, and the cabinet top is provided with the catch basin that is the bucket shape, and the pipe is installed to the delivery port of catch basin, and the pipe stretches into the water storage tank through the rack, and the water storage tank top is provided with the second water pump, and the water inlet of second water pump stretches into the water storage tank bottom through the water pipe, and the delivery port of second water pump passes through the flow control valve and is connected with the mainstream pipe;

preferably, be connected with a plurality of shunt tubes on the mainstream pipe, the delivery port and the tree irrigation structure of shunt tubes are connected, tree irrigation structure includes the three-way pipe, and the water inlet and the shunt tubes of three-way pipe are connected, and two delivery ports of three-way pipe are connected with the one end of first irrigation pipe and the one end of second irrigation pipe respectively through coupling hose, and the other end of second irrigation pipe is rotated through the one end of pivot and turnbuckle and is connected, and threaded hole has been seted up to the other end of turnbuckle, and the short screw rod is installed to the other end of first irrigation pipe, and the screw hole cooperation of short screw rod and turnbuckle, and the sprinkler is all installed to the inboard of first irrigation pipe and second irrigation pipe.

Preferably, the top of water storage tank is provided with first water pump, and the water inlet and the inlet tube of first water pump are connected, and the delivery port of first water pump stretches into the water storage tank through the water pipe, and hydraulic sensor is installed at water storage tank top, and hydraulic sensor's sensor terminal sets up in the water storage tank bottom.

Preferably, a soil humidity sensor is arranged outside the cabinet, and the soil humidity sensor is connected with the controller through a wire.

Preferably, the side wall of the water storage tank is provided with a first water outlet, and the first water outlet is positioned close to the top of the water storage tank.

Preferably, a cabinet door is installed at the cabinet opening of the cabinet, and second water outlets are formed in the side wall of the cabinet and the cabinet door and located close to the ground.

Preferably, the solar panel is installed on the water collecting tank through the support frame and is connected with the charging port of the storage battery.

Preferably, the storage battery, the solar panel, the first water pump, the second water pump, the flow control valve and the hydraulic sensor are all connected with the controller.

Preferably, the installation angle of the solar panel is 30-35 degrees, and the length and width of the solar panel are smaller than the length and width of the water collecting funnel of the water collecting tank.

Compared with the prior art, the utility model provides an intelligent water-saving irrigation device, which has the following beneficial effects:

1. according to the intelligent water-saving irrigation device, the soil humidity condition is transmitted to the controller through the soil humidity sensor, and the controller controls the first water pump and the second water pump to automatically irrigate according to the soil condition;

2. the water collecting tank of the intelligent water-saving irrigation device can collect rainwater into the water storage tank, so that a large amount of water resources can be saved when the intelligent water-saving irrigation device is used for next irrigation;

3. this intelligent water-saving irrigation device can detain the irrigation pipe at the root periphery through tree irrigation structure.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of the internal structure of the cabinet of the present utility model;

FIG. 3 is a schematic diagram of a water storage and control system according to the present utility model;

FIG. 4 is a schematic view of a tree watering structure according to the present utility model;

fig. 5 is a schematic view of the tree watering structure connector link according to the present utility model.

Reference numerals: 1. a cabinet; 2. a placing rack; 3. a storage battery; 4. a controller; 5. a water storage tank; 6. a water collecting tank; 7. a conduit; 8. a support frame; 9. a solar panel; 10. a first water pump; 11. a water inlet pipe; 12. a second water pump; 13. a flow control valve; 14. a main flow tube; 15. a hydraulic pressure sensor; 16. a sensor terminal; 17. a first drain port; 18. a wire; 19. a soil humidity sensor; 20. a cabinet door; 21. a second drain port; 22. a shunt; 23. a tree watering structure; 231. a three-way pipe; 232. a connecting hose; 233. a first irrigation pipe; 234. a second irrigation pipe; 235. a rotating shaft; 236. rotating buckle; 237. a short screw; 238. and (3) a water sprinkling nozzle.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1 to 5, in the present embodiment: an intelligent water-saving irrigation device comprises a cabinet 1, a storage rack 2 which is in an inverted T shape is arranged in the cabinet 1, a storage battery 3 and a controller 4 are respectively arranged on the left side and the right side of the storage rack 2, a water storage tank 5 is arranged in the cabinet 1, the water storage tank 5 is positioned below the storage rack 2, a bucket-shaped water collection tank 6 is arranged at the top of the cabinet 1, a solar panel 9 is arranged on the water collection tank 6 through a support frame 8, the installation angle of the solar panel 9 is 30-35 degrees, the length and width of the solar panel 9 are smaller than the length and width of a water collection funnel of the water collection tank 6, the solar panel 9 is connected with a charging port of the storage battery 3, a guide pipe 7 is arranged at a water outlet of the water collection tank 6, the guide pipe 7 penetrates through the storage rack 2 to extend into the water storage tank 5, a second water pump 12 is arranged at the top of the water storage tank 5, a water inlet of the second water pump 12 extends into the bottom of the water storage tank 5 through a water pipe, the water outlet of the second water pump 12 is connected with a main flow pipe (14) through a flow control valve 13, a soil humidity sensor 19 is arranged outside the cabinet 1, the soil humidity sensor 19 is connected with the controller 4 through a wire, the storage rack 2 is used for placing a storage battery 3 and the controller 4, the water storage tank 5 is used for storing irrigation water, the water storage tank 6 is used for collecting rainwater into the water storage tank 5 in rainy days, the solar panel 9 and the storage battery 3 are matched to convert solar energy into electric energy for storage, the storage battery 3 can provide partial power for the device, the effect of saving energy is achieved, the soil humidity sensor 19 is used for detecting soil humidity and transmitting detected data to the controller 4, the second water pump 12 is used for sucking water in the water storage tank 5 into the main flow pipe 14, and the flow control valve 13 is used for controlling the flow of water in the main flow pipe 14;

referring to fig. 4 and 5, the main flow pipe 14 is connected with a plurality of split pipes 22, water outlets of the split pipes 22 are connected with a tree irrigation structure 23, the tree irrigation structure 23 comprises a three-way pipe 231, water inlets of the three-way pipe 231 are connected with the split pipes 22, two water outlets of the three-way pipe 231 are respectively connected with one end of a first irrigation pipe 233 and one end of a second irrigation pipe 234 through connecting hoses 232, the other end of the second irrigation pipe 234 is rotatably connected with one end of a turnbuckle 236 through a rotating shaft 235, a threaded hole is formed in the other end of the turnbuckle 236, a short screw 237 is mounted at the other end of the first irrigation pipe 233, the short screw 237 can be matched with the threaded hole of the turnbuckle 236, and water spraying nozzles 238 are mounted at the inner sides of the first irrigation pipe 233, the second irrigation pipe 234 and the water spraying nozzles 238, so that the first irrigation pipe 233 and the second irrigation pipe 234 can be buckled on the periphery of a tree root through the cooperation of the turnbuckle 237 and the short screw 237.

Referring to fig. 3, a first water pump 10 is disposed at the top of the water tank 5, a water inlet of the first water pump 10 is connected with a water inlet pipe 11, a water outlet of the first water pump 10 extends into the water tank 5 through a water pipe, a hydraulic sensor 15 is mounted at the top of the water tank 5, a sensor terminal 16 of the hydraulic sensor 15 is disposed at the bottom of the water tank 5, a storage battery 3, a solar panel 9, the first water pump 10, a second water pump 12, a flow control valve 13 and the hydraulic sensor 15 are all connected with the controller 4, a first water outlet 17 is formed in a side wall of the water tank 5, the first water outlet 17 is located near the top of the water tank 5, water from a water source is pumped into the water tank 5 by the first water pump 10, the hydraulic sensor 15 and the sensor terminal 16 cooperate to sense the water pressure at the bottom of the water tank 5, and the first water outlet 17 acts as water discharge to prevent overfilling of the water in the water tank 5.

Referring to fig. 1, a cabinet door 20 is installed at a cabinet opening of the cabinet 1, and second water outlets 21 are respectively formed in a side wall of the cabinet 1 and the cabinet door 20, the second water outlets 21 are located near a ground, wherein the cabinet 1 and the cabinet door 20 function to protect components inside the device, and the second water outlets 21 function to drain water overflowed from the water storage tank 5 out of the cabinet 1.

The working principle and the using flow of the utility model are as follows: firstly, placing a first irrigation pipe 233 and a second irrigation pipe 234 on the periphery of a tree root, connecting the first irrigation pipe 233 and the second irrigation pipe 234 through the cooperation of a turnbuckle 236 and a short screw 237, inserting a soil humidity sensor 19 into soil near vegetation, when the soil humidity sensor 19 detects that the soil humidity is lower than a preset value, controlling to start a first water pump 10 by a controller 4, enabling the first water pump 10 to pump water into a water storage tank 5, enabling the first water pump 10 to be closed when a hydraulic pressure sensor 15 senses that the water pressure at the bottom of the water storage tank 5 reaches a preset maximum value for the first time, enabling a second water pump 12 to be opened, enabling water to enter a main flow pipe 14, enabling the water to enter the first irrigation pipe 233 and the second irrigation pipe 234 through a shunt pipe 22, enabling a watering spray head 238 to start watering trees, enabling the first water pump 10 to be opened again when the hydraulic pressure sensor 15 senses that the water pressure at the bottom of the water storage tank 5 reaches the preset minimum value, enabling the first water pump 10 to be closed until the water pressure reaches the preset maximum value again, and controlling to close the first water pump 10 and the second water pump 12 after the watering is finished; in rainy days, rainwater is introduced into the water storage tank 5 through the cooperation of the water collection tank 6 and the guide pipe 7, rainwater falling on the solar panel 9 can flow into the water collection tank 6 along the solar panel 9, when excessive rainwater in the water storage tank 5 overflows from the first water outlet 17, overflowed rainwater can be discharged from the second water outlet 21, and water in the water storage tank 5 is used when the water is irrigated next time.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (8)

1. An intelligent water-saving irrigation device, includes cabinet (1), its characterized in that: the novel water storage device is characterized in that a storage rack (2) which is in an inverted T shape is arranged in the cabinet (1), a storage battery (3) and a controller (4) are respectively arranged at the left side and the right side of the storage rack (2), a water storage tank (5) is arranged in the cabinet (1), the water storage tank (5) is located below the storage rack (2), a bucket-shaped water collecting tank (6) is arranged at the top of the cabinet (1), a guide pipe (7) is arranged at the water outlet of the water collecting tank (6), the guide pipe (7) penetrates through the storage rack (2) and stretches into the water storage tank (5), a second water pump (12) is arranged at the top of the water storage tank (5), a water inlet of the second water pump (12) stretches into the bottom of the water storage tank (5) through a water pipe, and a water outlet of the second water pump (12) is connected with a main flow pipe (14) through a flow control valve (13);

be connected with a plurality of shunt tubes (22) on mainstream pipe (14), the delivery port and the tree irrigation structure (23) of shunt tubes (22) are connected, tree irrigation structure (23) include three-way pipe (231), the water inlet and the shunt tubes (22) of three-way pipe (231) are connected, two delivery ports of three-way pipe (231) are connected with one end and the one end of second irrigation pipe (234) of first irrigation pipe (233) respectively through coupling hose (232), the other end of second irrigation pipe (234) is connected with the one end rotation of turnbuckle (236) through pivot (235), the screw hole has been seted up to the other end of turnbuckle (236), short screw (237) are installed to the other end of first irrigation pipe (233), and screw hole cooperation with turnbuckle (236) of short screw (237), watering shower nozzle (238) are all installed to the inboard of first irrigation pipe (233) and second irrigation pipe (234).

2. An intelligent water-saving irrigation apparatus according to claim 1, wherein: the top of water storage tank (5) is provided with first water pump (10), and the water inlet and the inlet tube (11) of first water pump (10) are connected, and the delivery port of first water pump (10) stretches into water storage tank (5) through the water pipe, and hydraulic sensor (15) are installed at water storage tank (5) top, and sensor terminal (16) of hydraulic sensor (15) set up in water storage tank (5) bottom.

3. An intelligent water-saving irrigation apparatus according to claim 1, wherein: the soil humidity sensor (19) is arranged outside the cabinet (1), and the soil humidity sensor (19) is connected with the controller (4) through a wire.

4. An intelligent water-saving irrigation apparatus according to claim 1, wherein: the side wall of the water storage tank (5) is provided with a first water outlet (17), and the first water outlet (17) is positioned at a position close to the top of the water storage tank (5).

5. An intelligent water-saving irrigation apparatus according to claim 1, wherein: the cabinet opening of the cabinet (1) is provided with a cabinet door (20), the side wall of the cabinet (1) and the cabinet door (20) are provided with second water outlets (21), and the second water outlets (21) are located at positions close to the ground.

6. An intelligent water-saving irrigation apparatus according to claim 1, wherein: the solar panel (9) is arranged on the water collecting tank (6) through the supporting frame (8), and the solar panel (9) is connected with a charging port of the storage battery (3).

7. An intelligent water-saving irrigation apparatus according to claim 1, wherein: the storage battery (3), the solar panel (9), the first water pump (10), the second water pump (12), the flow control valve (13) and the hydraulic sensor (15) are all connected with the controller (4).

8. An intelligent water-saving irrigation apparatus according to claim 6, wherein: the installation angle of the solar panel (9) is 30-35 degrees, and the length and width of the solar panel (9) are smaller than those of the water collecting funnel of the water collecting tank (6).