Water-saving irrigation device for mango trees

By designing a water-saving irrigation device for mango trees that includes a bucket, a water collection tray, a shade net, and sprinkler components, the problems of high water consumption and uneven irrigation were solved, achieving efficient water saving and uniform irrigation.

CN224343945UActive Publication Date: 2026-06-12YUNNAN INST OF TROPICAL CROPS

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
YUNNAN INST OF TROPICAL CROPS
Filing Date
2025-06-04
Publication Date
2026-06-12

AI Technical Summary

Technical Problem

Existing agricultural irrigation systems consume a lot of water in mango tree cultivation, cannot effectively utilize natural rainfall, and the sprinkler height is not easy to adjust, resulting in uneven irrigation, which affects the healthy growth of crops and wastes water resources.

Method used

A water-saving irrigation device for mango trees was designed, comprising a bucket, a water collection tray, a shade net, a sweeping pole, a sprinkler assembly, and support legs. The bucket stores rainwater and additives, the shade net collects natural precipitation, the sprinkler assembly adjusts the coverage area, and the support legs improve stability, thus achieving efficient irrigation.

Benefits of technology

It achieves efficient use of water resources, reduces water waste, improves the uniformity of irrigation and the flexibility of coverage, and enhances the stability of the device.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model discloses a water-saving irrigation device for mango trees, including a bucket and a water collection tray. A mounting base is installed on the upper outer side of the bucket, and an additive container is threadedly connected to the top of the mounting base. The water collection tray is installed on top of the bucket and is embedded in the bucket. A shade net is installed above the water collection tray and is welded to the water collection tray. Compared with existing water-saving irrigation devices, this mango tree water-saving irrigation device stores irrigation water in the bucket. The mounting base allows additives from the additive container to be added to the bucket in the correct amount. The additive container can hold nutrients or pesticides as needed. When it rains, rainwater falls through the shade net into the water collection tray. The conical shape of the water collection tray reduces water evaporation, and the water in the tray flows into the bucket for storage, facilitating future irrigation. Falling mango tree leaves are blocked by the shade net, preventing blockage of the water collection tray. Fan blades, driven by natural wind, rotate a sweeping rod, which sweeps leaves off the shade net, resulting in better water collection.
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Description

Technical Field

[0001] This utility model relates to the field of mango tree planting technology, specifically a water-saving irrigation device for mango trees. Background Technology

[0002] Agricultural irrigation devices refer to equipment and systems used for irrigating farmland. Irrigation devices are mainly used to extract and transport water from water sources to the roots of crops, thereby meeting the plants' water needs. Depending on the irrigation method, there are various irrigation devices such as flood irrigation, submersion irrigation, sprinkler irrigation, and drip irrigation. Among them, sprinkler irrigation has a lower cost and a wider range of applications, so it is more widely used in agricultural crop irrigation. Agricultural irrigation is a crucial link in agricultural production, directly affecting the growth, yield, and quality of crops. Mango trees often need watering during their growth process, which consumes a lot of water resources, thus requiring a water-saving irrigation device for mango trees.

[0003] The existing patent, CN222583238U, entitled "Agricultural Water-Saving Irrigation Device," relates to the field of irrigation devices and specifically provides an agricultural water-saving irrigation device. This utility model includes a support component, a water storage component, and an adjustment component. The support component includes a telescopic column, the bottom of which is fixedly connected to a base. The bottom of a connecting frame is fixedly connected to the top of a connecting base. Two sets of connecting pipes are provided inside the connecting frame, and a nozzle connecting valve is provided on the front side of each connecting pipe. An adjustment disc is provided on the left end of the connecting frame. Through the cooperation of the support component and the adjustment component, this invention solves the technical problem that existing sprinkler irrigation devices can provide water to agricultural crops within a certain range, but as crops grow, their height changes. If the sprinkler height is not adjusted, irrigation will be uneven, causing crops to accumulate in the soil with more moisture, which not only affects the healthy growth of crops but also wastes water. The overall structure is simple and easy to use, improving the uniformity of sprinkler irrigation and reducing water waste.

[0004] The aforementioned device can provide irrigation water for agricultural crops within its range, but it relies on external water sources for irrigation, resulting in significant water consumption. It cannot effectively utilize natural rainfall and cannot adequately meet people's needs. In response to these issues, technological innovations are being implemented based on existing water-saving irrigation devices. Utility Model Content

[0005] The purpose of this invention is to provide a water-saving irrigation device for mango trees to solve the problems mentioned in the background art.

[0006] To achieve the above objectives, this utility model provides the following technical solution: a water-saving irrigation device for mango trees, comprising a bucket and a water collection tray. An installation base is installed on the upper outer side of the bucket, and an additive tank is threadedly connected to the upper part of the installation base. The water collection tray is installed on the upper part of the bucket, and the water collection tray is embedded in the bucket. A shade net is installed on the upper part of the water collection tray, and the shade net is welded to the water collection tray.

[0007] Furthermore, a sweeping rod is rotatably connected to the top of the shade net, and a fan blade is installed above the sweeping rod. The fan blade is blown by the natural wind, causing the sweeping rod to rotate and sweep the leaves off the shade net, resulting in better water collection.

[0008] Furthermore, a lead screw is installed on the lower periphery of the barrel, and the lead screw is rotatably connected to the barrel. Rotating the lead screw drives the ring pipe to rise and fall, which makes it easier to change the irrigation coverage area and improves the irrigation effect.

[0009] Furthermore, a sprinkler assembly is installed around the lead screw, and the sprinkler assembly is threadedly connected to the lead screw.

[0010] Furthermore, the sprinkler assembly includes a ring pipe and sprinklers, with the sprinklers installed around the periphery of the ring pipe. The ring pipe delivers water to each sprinkler, which irrigates the surrounding mango trees.

[0011] Furthermore, a connecting hose is installed below the ring pipe, and a water pump is installed at one end of the connecting hose. The water pump draws water out and delivers it to the ring pipe through the connecting hose.

[0012] Furthermore, the bottom of the barrel is equipped with support legs, which are welded to the barrel. The bottom of the support legs is large to prevent them from sinking into the wet ground, thus providing better support.

[0013] Compared with the prior art, the beneficial effects of this utility model are as follows: irrigation water is stored in the tank, and the mounting base can add the additives from the additive tank to the tank in the required amount. The additive tank can hold nutrients or insecticides as needed. When it rains, rainwater falls into the water collection tray through the shade net. The water collection tray is conical to reduce water evaporation. The water in the water collection tray flows into the tank for storage, which is convenient for future irrigation work. The leaves of the mango tree are blocked by the shade net to prevent clogging of the water collection tray. The fan blades are blown by the natural wind, which drives the sweeping bar to rotate. The sweeping bar sweeps the leaves off the shade net, resulting in better water collection. The water pump draws water out and delivers it to the ring pipe through the connecting hose. The ring pipe delivers water to each nozzle, which irrigates the surrounding mango trees. Rotating the screw drives the ring pipe to rise and fall, which makes it easy to change the irrigation coverage area and improves the irrigation effect. The base of the support leg is large, which prevents the support leg from sinking into the wet ground and provides better support.

[0014] 1. This utility model stores irrigation water in a bucket. The mounting base allows the additives from the additive tank to be added to the bucket in the correct amount. The additive tank can hold nutrients or pesticides as needed. When it rains, rainwater falls through the shade net into the water collection tray. The water collection tray is cone-shaped to reduce water evaporation. The water in the water collection tray flows into the bucket for storage, which facilitates future irrigation work. Mango tree leaves are blocked by the shade net to prevent clogging of the water collection tray. The fan blades are blown by the natural wind, which drives the sweeping bar to rotate. The sweeping bar sweeps the leaves off the shade net, resulting in better water collection.

[0015] 2. The water pump of this utility model draws water and delivers it to the ring pipe through the connecting hose. The ring pipe delivers the water to each nozzle, and the nozzle irrigates the surrounding mango trees. Rotating the screw drives the ring pipe to rise and fall, which makes it easy to change the irrigation coverage area and improves the irrigation effect. The base of the support leg is large, which prevents the support leg from sinking into the wet ground and provides better support. Attached Figure Description

[0016] Figure 1 This is a three-dimensional structural diagram of a water-saving irrigation device for mango trees according to the present invention;

[0017] Figure 2 This is a three-dimensional cross-sectional view of the bucket body of a water-saving irrigation device for mango trees according to this utility model;

[0018] Figure 3 This is a three-dimensional structural diagram of the bottom surface of a water-saving irrigation device for mango trees according to this utility model.

[0019] In the diagram: 1. Tank body; 2. Water collection tray; 3. Shade net; 4. Sweeping bar; 5. Fan blade; 6. Mounting base; 7. Additive tank; 8. Lead screw; 9. Sprinkler assembly; 901. Ring pipe; 902. Sprinkler head; 10. Connecting hose; 11. Water pump; 12. Support leg. Detailed Implementation

[0020] like Figure 1-3As shown, a water-saving irrigation device for mango trees includes a bucket body 1 and a water collection tray 2. A mounting base 6 is installed on the upper outer side of the bucket body 1, and an additive tank 7 is threadedly connected to the upper part of the mounting base 6. The water collection tray 2 is installed on top of the bucket body 1, and the water collection tray 2 and the bucket body 1 are embedded together. A shade net 3 is installed above the water collection tray 2, and the shade net 3 is welded to the water collection tray 2. A sweeping rod 4 is rotatably connected above the shade net 3, and a fan blade 5 is installed above the sweeping rod 4. Irrigation water is stored in the bucket body 1. The seat 6 allows the additives in the additive container 7 to be added to the bucket 1 in the correct amount. The additive container 7 can hold nutrients or insecticides as needed. When it rains, rainwater falls through the shade net 3 into the water collection tray 2. The water collection tray 2 is cone-shaped to reduce water evaporation. The water in the water collection tray 2 flows into the bucket 1 for storage, which is convenient for future irrigation. The leaves of the mango tree are blocked by the shade net 3 to prevent clogging of the water collection tray 2. The fan blade 5 is blown by the natural wind, which drives the sweeping rod 4 to rotate. The sweeping rod 4 sweeps the leaves off the shade net 3, resulting in better water collection.

[0021] like Figure 1-3 As shown, a sprinkler assembly 9 is installed around the lead screw 8, and the sprinkler assembly 9 is threadedly connected to the lead screw 8. The sprinkler assembly 9 includes a ring pipe 901 and a nozzle 902, and the nozzle 902 is installed around the ring pipe 901. A connecting hose 10 is installed below the ring pipe 901, and a water pump 11 is installed at one end of the connecting hose 10. A support leg 12 is installed below the tank body 1, and the support leg 12 is welded to the tank body 1. The water pump 11 draws water and delivers it to the ring pipe 901 through the connecting hose 10. The ring pipe 901 delivers water to each nozzle 902, and the nozzle 902 irrigates the surrounding mango trees. Rotating the lead screw 8 drives the ring pipe 901 to rise and fall, which facilitates changing the irrigation coverage area and improves the irrigation effect. The bottom surface of the support leg 12 is large, which prevents the support leg 12 from sinking into the wet ground and provides better support.

[0022] Working principle: When using this mango tree water-saving irrigation device, firstly, the irrigation water is stored in the tank 1. The mounting base 6 allows the additives in the additive tank 7 to be added to the tank 1 according to the specified amount. The additive tank 7 can hold nutrients or pesticides as needed. When it rains, rainwater falls through the shade net 3 into the water collection tray 2. The water collection tray 2 is cone-shaped to reduce water evaporation. The water in the water collection tray 2 flows into the tank 1 for storage, facilitating future irrigation. Falling mango tree leaves are blocked by the shade net 3 to prevent clogging of the water collection tray 2. The fan blades 5... Driven by natural wind, the sweeping bar 4 rotates, sweeping the leaves off the shade net 3, resulting in better water collection. The water pump 11 draws water out and delivers it to the ring pipe 901 through the connecting hose 10. The ring pipe 901 delivers water to each sprinkler head 902, which irrigates the surrounding mango trees. Rotating the screw 8 causes the ring pipe 901 to rise and fall, making it easy to change the irrigation coverage area and improving the irrigation effect. The support leg 12 has a large bottom surface, preventing it from sinking into the wet ground and providing better support.

Claims

1. A water-saving irrigation device for mango trees, comprising a bucket (1) and a water collection tray (2), characterized in that, An mounting base (6) is installed on the upper outer side of the barrel (1), and an additive tank (7) is threadedly connected to the upper part of the mounting base (6). The water collection tray (2) is installed on the upper part of the barrel (1), and the water collection tray (2) is embedded in the barrel (1). A screen (3) is installed on the upper part of the water collection tray (2), and the screen (3) is welded to the water collection tray (2).

2. The water-saving irrigation device for mango trees according to claim 1, characterized in that, A sweeping rod (4) is rotatably connected above the shielding net (3), and a fan blade (5) is installed above the sweeping rod (4).

3. The water-saving irrigation device for mango trees according to claim 1, characterized in that, A lead screw (8) is installed on the lower periphery of the barrel body (1), and the lead screw (8) is rotatably connected to the barrel body (1).

4. A water-saving irrigation device for mango trees according to claim 3, characterized in that, The screw (8) is surrounded by a sprinkler assembly (9), and the sprinkler assembly (9) and the screw (8) are connected by a thread.

5. A water-saving irrigation device for mango trees according to claim 4, characterized in that, The sprinkler assembly (9) includes a ring pipe (901) and a nozzle (902), and the nozzle (902) is installed on the periphery of the ring pipe (901).

6. A water-saving irrigation device for mango trees according to claim 5, characterized in that, A connecting hose (10) is installed below the ring pipe (901), and a water pump (11) is installed at one end of the connecting hose (10).

7. A water-saving irrigation device for mango trees according to claim 1, characterized in that, The barrel body (1) is equipped with a support leg (12) at the bottom, and the support leg (12) is welded to the barrel body (1).