A mango tree irrigation system
By designing a mango tree irrigation system that collects rainwater using a water storage tank, conical plate, and sweeping components and delivers it to the individual sprinkler heads, the system solves the problems of high water consumption during the dry season and insufficient rainwater utilization during the rainy season, achieving water conservation and flexible irrigation.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- YUNNAN INST OF TROPICAL CROPS
- Filing Date
- 2025-06-10
- Publication Date
- 2026-06-12
Smart Images

Figure CN224343946U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of mango planting technology, specifically a mango tree irrigation system. Background Technology
[0002] Mango is a large, evergreen tree native to India, belonging to the Anacardiaceae family. Its leaves are leathery and alternate. The flowers are small, polygamous, yellow or pale yellow, and arranged in terminal panicles. The drupe is large, flattened, 5-10 cm long and 3-4.5 cm wide, yellow when ripe, sweet, and has a hard pit. Mango is a well-known tropical fruit, containing sugar, protein, and dietary fiber. It is exceptionally high in beta-carotene, a precursor to vitamin A, a rarity among fruits. It is also relatively high in vitamin C. Minerals, protein, fat, and carbohydrates are also major nutrients. Mangoes can be processed into juice, jam, canned goods, pickles, spicy pickles, mango milk powder, and candied fruit. Mango cultivation consumes a significant amount of water, necessitating a water-saving irrigation system.
[0003] The existing patent, CN215454453U, entitled "An Irrigation System for Orchard Planting," discloses an irrigation system for orchard planting. The system includes a water storage tank with a baffle movably connected to its top. The tank is connected to an inlet pipe, an outlet pipe, and an intermediate pipe. The intermediate pipe connects to an intermediate box, and a hopper is connected to one side of the top of the intermediate box. A first rotating shaft, connected to a first motor, is mounted on the first rotating shaft, which also has a stirring paddle. A liquid storage hopper is connected to the other side of the top of the intermediate box. Both the liquid storage hopper and the hopper are movably covered. A first filter screen with a rotating shaft hole is located inside the intermediate box. A second rotating shaft extends through the rotating shaft hole and is connected to a second motor. The second rotating shaft also has stirring blades. This system facilitates irrigation during mango tree planting.
[0004] The water in the storage tank of the above-mentioned device can be output through the outlet pipe for irrigation. However, the device relies on external water supply and has poor irrigation capacity in some areas during the dry and rainy seasons. It consumes a lot of water resources during the dry season and cannot utilize rainwater during the rainy season, which cannot meet people's needs. In view of the above situation, technological innovation is carried out on the basis of the existing irrigation system. Utility Model Content
[0005] The purpose of this invention is to provide a mango tree irrigation system to solve the problems mentioned in the background art.
[0006] To achieve the above objectives, this utility model provides the following technical solution: a mango tree irrigation system, comprising a water storage tank and a conical plate. A support is installed on the lower periphery of the water storage tank, and a water injection pipe is installed on the right side of the water storage tank. The conical plate is installed above the water storage tank, and a water collection hole is installed inside the conical plate. A shade net is installed above the conical plate, and a cleaning component is installed above the shade net. The small size of the water collection hole can reduce the natural evaporation of water, and fallen leaves will be blocked by the shade net to prevent clogging of the water collection hole.
[0007] Furthermore, the sweeping assembly includes a sweeping rod and a fan blade, with the fan blade mounted above the sweeping rod. The fan blade is rotated by the wind, and the sweeping rod sweeps the leaves that fall onto the shade net as the fan blade rotates, preventing them from accumulating and clogging the shade net.
[0008] Furthermore, a water pump is installed at the lower center of the water storage tank, and a main water pipe is connected to one side of the water pump. The water pump draws water from the water storage tank into the main water pipe, and multiple branch pipes are connected to the main water pipe.
[0009] Furthermore, a column is installed on the outer right side of the main water pipe, and a temperature and humidity sensor is installed on the upper end of the column. Multiple columns can be set according to the size of the field, and the main water pipe connects the columns in series.
[0010] Furthermore, a support is installed below the column, and a plug is welded below the support. The column is inserted into a suitable position through the plug, and the support improves the column's resistance to collapse.
[0011] Furthermore, a slider is installed on the periphery of the column, and a fastening knob is threaded to the lower periphery of the slider. The slider slides up and down on the column and is fixed in position by the fastening knob, thereby changing the height of the ring pipe to adjust the irrigation range.
[0012] Furthermore, an annular tube is installed above the outer periphery of the slider, and nozzles are installed around the outer periphery of the annular tube, with the nozzles evenly distributed around the outer periphery of the annular tube.
[0013] Furthermore, a branch pipe is installed above the ring pipe, and the branch pipe is embedded in the ring pipe. The branch pipe delivers water into the ring pipe, and the nozzles on the ring pipe spray water in all directions.
[0014] Compared with the prior art, the beneficial effects of this utility model are as follows: the water storage tank is placed in the field by a bracket, and the water storage tank is filled with water through the water inlet pipe. On rainy days, rainwater falls onto the conical plate through the shade net. The rainwater on the conical plate flows into the water storage tank through the water collection hole. The small water collection hole can reduce the natural evaporation of water. Fallen leaves are blocked by the shade net to prevent clogging of the water collection hole. The fan blades are driven to rotate by the wind. The sweeping rod sweeps the leaves that fall onto the shade net as the fan blades rotate, preventing them from accumulating and clogging the shade net, effectively reducing water consumption. The water pump pumps the water in the water storage tank to the main water pipe. Multiple branch pipes are connected to the main water pipe. The column is inserted into the appropriate position by the insertion rod. The support improves the column's resistance to lodging. The branch pipes deliver water to the ring pipe. The nozzles on the ring pipe spray water in all directions. The slider slides up and down on the column and is fixed in position by the fastening knob, thereby changing the height of the ring pipe to adjust the irrigation range. The temperature and humidity sensor monitors the temperature and humidity of each area, making it easy to adjust the irrigation plan.
[0015] 1. The water storage tank of this utility model is placed in the field by a bracket. The water storage tank is filled with water through the water inlet pipe. On rainy days, rainwater falls onto a conical plate through a shade net. The rainwater on the conical plate flows into the water storage tank through the water collection hole. The small water collection hole can reduce the natural evaporation of water. Fallen leaves are blocked by the shade net to prevent clogging of the water collection hole. The fan blades are rotated by the wind. The sweeping rod sweeps the leaves that fall onto the shade net as the fan blades rotate, preventing them from accumulating and clogging the shade net, thus effectively reducing water consumption.
[0016] 2. This utility model's water pump draws water from the storage tank into the main water pipe. Multiple branch pipes are connected to the main water pipe. The column is inserted into a suitable position via a rod. The support improves the column's resistance to lodging. The branch pipes deliver water into the ring pipe. The nozzles on the ring pipe spray water in all directions. The slider slides up and down on the column and is fixed in position by a fastening knob, thereby changing the height of the ring pipe to adjust the irrigation range. Temperature and humidity sensors monitor the temperature and humidity of each area, facilitating adjustments to the irrigation plan. Attached Figure Description
[0017] Figure 1 This is a three-dimensional structural diagram of a mango tree irrigation system according to the present invention;
[0018] Figure 2 This is a partial three-dimensional cross-sectional view of the water storage tank of a mango tree irrigation system according to the present invention.
[0019] Figure 3 This is a partial three-dimensional structural diagram of the ring pipe of a mango tree irrigation system according to the present invention.
[0020] In the diagram: 1. Water tank; 2. Water inlet pipe; 3. Bracket; 4. Conical plate; 5. Water collection hole; 6. Screen net; 7. Sweeping assembly; 701. Sweeping bar; 702. Fan blade; 8. Water pump; 9. Main water pipe; 10. Column; 11. Support; 12. Insert rod; 13. Slider; 14. Fastening knob; 15. Ring pipe; 16. Nozzle; 17. Branch pipe; 18. Temperature and humidity sensor. Detailed Implementation
[0021] like Figure 1 and Figure 2 As shown, a mango tree irrigation system includes a water storage tank 1 and a conical plate 4. A bracket 3 is installed around the lower periphery of the water storage tank 1, and a water inlet pipe 2 is installed on the right side of the water storage tank 1. The conical plate 4 is installed above the water storage tank 1, and a water collection hole 5 is installed inside the conical plate 4. A shade net 6 is installed above the conical plate 4, and a cleaning assembly 7 is installed above the shade net 6. The cleaning assembly 7 includes a cleaning rod 701 and a fan blade 702, and the fan blade 702 is installed above the cleaning rod 701. The water storage tank 1 is connected to the bracket... 3. Placed in the field, the water storage tank 1 is filled with water through the water inlet pipe 2. On rainy days, rainwater falls through the shade net 6 onto the conical plate 4. The rainwater on the conical plate 4 flows into the water storage tank 1 through the water collection hole 5. The small size of the water collection hole 5 can reduce the natural evaporation of water. Fallen leaves are blocked by the shade net 6 to prevent clogging of the water collection hole 5. The fan blade 702 is driven to rotate by the wind. The sweeping rod 701 sweeps the leaves that fall onto the shade net 6 as the fan blade 702 rotates, preventing them from accumulating and clogging the shade net 6, and effectively reducing water consumption.
[0022] like Figure 1 and Figure 3 As shown, a water pump 8 is installed at the lower center of the water storage tank 1, and a main water pipe 9 is connected to one side of the water pump 8. A column 10 is installed on the outer right side of the main water pipe 9, and a temperature and humidity sensor 18 is installed at the upper end of the column 10. A support 11 is installed below the column 10, and a plug rod 12 is welded to the lower part of the support 11. A slider 13 is installed on the outer periphery of the column 10, and a fastening knob 14 is threadedly connected to the lower outer periphery of the slider 13. A ring pipe 15 is installed above the outer periphery of the slider 13, and a nozzle 16 is installed on the outer periphery of the ring pipe 15. A branch pipe 17 is installed above the ring pipe 15, and the branch pipe... 17 and the ring pipe 15 are embedded together. The water pump 8 pumps water from the storage tank 1 to the main water pipe 9. Multiple branch pipes 17 are connected to the main water pipe 9. The column 10 is inserted into the appropriate position by the insertion rod 12. The support 11 improves the anti-collapse ability of the column 10. The branch pipes 17 deliver water to the ring pipe 15. The nozzles 16 on the ring pipe 15 spray water in all directions. The slider 13 slides up and down on the column 10 and is fixed in position by the fastening knob 14, thereby changing the height of the ring pipe 15 to adjust the irrigation range. The temperature and humidity sensor 18 monitors the temperature and humidity of each area to facilitate the adjustment of the irrigation plan.
[0023] Working principle: When using this mango tree irrigation system, firstly, the water storage tank 1 is placed in the field via the support 3. The water storage tank 1 is filled with water through the water inlet pipe 2. On rainy days, rainwater falls through the shade net 6 onto the conical plate 4. The rainwater on the conical plate 4 flows through the water collection hole 5 back into the water storage tank 1 for collection. The small size of the water collection hole 5 reduces the natural evaporation of water. Falling leaves are blocked by the shade net 6 to prevent clogging of the water collection hole 5. The fan blades 702 are rotated by the wind, and the sweeping rod 701 sweeps the leaves that fall onto the shade net 6 as the fan blades 702 rotate, preventing them from accumulating and clogging the shade net 6. To effectively reduce water consumption, the water pump 8 pumps water from the storage tank 1 to the main water pipe 9. Multiple branch pipes 17 are connected to the main water pipe 9. The column 10 is inserted into the appropriate position by the insertion rod 12. The support 11 improves the anti-collapse ability of the column 10. The branch pipes 17 deliver water to the ring pipe 15. The nozzles 16 on the ring pipe 15 spray water in all directions. The slider 13 slides up and down on the column 10 and is fixed in position by the fastening knob 14, thereby changing the height of the ring pipe 15 to adjust the irrigation range. The temperature and humidity sensor 18 monitors the temperature and humidity of each area to facilitate the adjustment of the irrigation plan.
Claims
1. A mango tree irrigation system, comprising a water storage tank (1) and a conical plate (4), characterized in that, A bracket (3) is installed on the lower periphery of the water storage tank (1), and a water injection pipe (2) is installed on the right side of the water storage tank (1). The conical plate (4) is installed above the water storage tank (1), and a water collection hole (5) is installed inside the conical plate (4). A screen (6) is installed above the conical plate (4), and a cleaning component (7) is installed above the screen (6).
2. The mango tree irrigation system according to claim 1, characterized in that, The cleaning assembly (7) includes a cleaning rod (701) and a fan blade (702), and the fan blade (702) is mounted on the top of the cleaning rod (701).
3. The mango tree irrigation system according to claim 1, characterized in that, A water pump (8) is installed in the lower middle part of the water storage tank (1), and a main water pipe (9) is connected to one side of the water pump (8).
4. The mango tree irrigation system according to claim 3, characterized in that, A column (10) is installed on the outer right side of the main water pipe (9), and a temperature and humidity sensor (18) is installed on the upper end of the column (10).
5. A mango tree irrigation system according to claim 4, characterized in that, A support (11) is installed below the column (10), and a plug rod (12) is welded below the support (11).
6. A mango tree irrigation system according to claim 4, characterized in that, A slider (13) is installed on the periphery of the column (10), and a fastening knob (14) is threadedly connected to the lower periphery of the slider (13).
7. A mango tree irrigation system according to claim 6, characterized in that, A ring tube (15) is installed above the periphery of the slider (13), and a nozzle (16) is installed around the periphery of the ring tube (15).
8. A mango tree irrigation system according to claim 7, characterized in that, A branch pipe (17) is installed above the ring pipe (15), and the branch pipe (17) and the ring pipe (15) are connected by an embedded connection.