Meteorological linkage vertical greening intelligent irrigation device

The intelligent irrigation system, which integrates soil moisture sensors and meteorological monitoring devices, solves the problem of inflexible irrigation in vertical greening, achieves precise irrigation, and ensures healthy plant growth.

CN224343943UActive Publication Date: 2026-06-12SHANGHAI JINMAO BUILDING DECORATION CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANGHAI JINMAO BUILDING DECORATION CO LTD
Filing Date
2025-05-26
Publication Date
2026-06-12

AI Technical Summary

Technical Problem

Existing vertical greening irrigation systems are difficult to adjust flexibly according to the actual water needs of plants and environmental changes, resulting in poor plant growth and even over-irrigation or drought-induced wilting.

Method used

The intelligent irrigation device, which is linked to weather conditions, integrates soil moisture sensors, weather monitoring racks, and controllers. By monitoring soil moisture and weather conditions, it automatically adjusts the irrigation process to meet the needs of plants.

Benefits of technology

It enables flexible adjustment of irrigation based on the actual water requirements of plants and environmental changes, ensuring plant growth, avoiding over-irrigation or drought-induced wilting, and improving irrigation efficiency and water resource utilization.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224343943U_ABST
Patent Text Reader

Abstract

The utility model discloses a meteorological linkage's vertical greening intelligent irrigation device, including water storage tank, the front of water storage tank is provided with controller, and the one side electric connection of controller has data line, and one end electric connection of data line has soil moisture sensor, and the top fixed connection of water storage tank has mounting seat, and the top fixed connection of mounting seat has meteorological monitoring frame, and the outside of meteorological monitoring frame is fixed connection respectively with cross and mounting support, and the top of cross installs temperature sensor, illumination intensity sensor, rainfall sensor and air humidity sensor respectively, and the one end of mounting support is installed with wind speed sensor, and the side fixed connection of water storage tank has water outlet pipe, and one end fixed connection of water outlet pipe has water pump machine, make irrigation device can according to plant actual water demand situation and environmental change flexible adjustment irrigation demand to guarantee plant growth condition, avoid appearing over irrigation or drought wilting phenomenon.
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Description

Technical Field

[0001] This utility model relates to the field of irrigation device technology, specifically a weather-linked intelligent irrigation device for vertical greening. Background Technology

[0002] Vertical greening, as an important component of urban ecological construction, plays a crucial role in improving urban microclimate, increasing green area, and reducing building energy consumption. With the rapid development of meteorological monitoring and intelligent control technologies, the development of meteorological-linked intelligent irrigation devices for vertical greening to achieve precise irrigation has become key to improving the maintenance level of vertical greening.

[0003] However, existing vertical greening irrigation methods have many drawbacks, such as low efficiency of manual irrigation, serious waste of water resources, and difficulty in flexibly adjusting timed irrigation according to the actual water needs of plants and environmental changes, resulting in poor plant growth and even problems such as over-irrigation or drought and wilting. Utility Model Content

[0004] To address the shortcomings of existing technologies, this utility model provides a weather-linked intelligent irrigation device for vertical greening, which solves the problem that existing irrigation devices are difficult to adjust flexibly according to the actual water needs of plants and environmental changes, resulting in poor plant growth, or even over-irrigation or drought and wilting.

[0005] To achieve the above-mentioned objectives, this utility model is implemented through the following technical solution:

[0006] A weather-linked intelligent irrigation device for vertical greening includes a water storage tank. A controller is mounted on the front of the water storage tank, and a data cable is electrically connected to one side of the controller. One end of the data cable is electrically connected to a soil moisture sensor. A mounting base is fixedly connected to the top of the water storage tank, and a weather monitoring frame is fixedly connected to the top of the mounting base. A cross and a mounting bracket are fixedly connected to the outside of the weather monitoring frame. A temperature sensor, a light intensity sensor, a rainfall sensor, and an air humidity sensor are respectively mounted on the top of the cross. A wind speed sensor is mounted on one end of the mounting bracket. A water outlet pipe is fixedly connected to one side of the water storage tank, and a water pump is fixedly connected to one end of the water outlet pipe.

[0007] Preferably, a water filling trough is provided on the top side of the water storage tank away from the mounting base, and the water storage tank has a hollow structure.

[0008] Preferably, the output end of the water pump is fixedly connected to a water delivery pipe, and a solenoid valve and a flow meter are respectively installed on the outside of the water delivery pipe.

[0009] Preferably, one end of the water supply pipe is fixedly connected to an irrigation pipe, and a sprinkler head is fixedly connected to the outside of the irrigation pipe.

[0010] Preferably, the water storage tank is made of stainless steel and has a smooth outer surface.

[0011] Preferably, the meteorological monitoring frame is vertically erected on top of the mounting base, and the meteorological monitoring frame is a telescopic structure.

[0012] This utility model provides a weather-linked intelligent irrigation device for vertical greening, which has the following beneficial effects:

[0013] 1. This utility model's meteorological-linked intelligent irrigation device for vertical greening utilizes a controller, soil moisture sensor, and meteorological monitoring frame. The soil moisture sensor monitors the moisture content of the planting soil. When the soil moisture falls below a set threshold, the controller activates the irrigation module. The rainfall sensor monitors rainfall, and the monitored data is transmitted to the controller. When the rainfall sensor detects rainfall and the rainfall reaches a certain threshold, the controller determines that the current soil moisture content is sufficient and automatically shuts off irrigation. Simultaneously, the wind speed sensor on the meteorological monitoring frame monitors wind speed and direction, while the temperature and air humidity sensors monitor meteorological temperature and humidity. The light intensity sensor monitors the light intensity of the greening. If high air temperature, low humidity, high light intensity, high wind speed, and soil moisture fall below a set threshold are detected, the controller activates the irrigation module. During irrigation, when the soil moisture sensor detects that the soil moisture has reached a suitable set range, irrigation automatically stops. This allows the irrigation device to flexibly adjust irrigation needs according to the actual water requirements of the plants and environmental changes, thereby ensuring plant growth and preventing over-irrigation or drought-induced wilting. Attached Figure Description

[0014] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0015] Figure 2 This is a partial structural schematic diagram of the meteorological monitoring frame of this utility model;

[0016] Figure 3 This is a partial structural schematic diagram of the water pump of this utility model;

[0017] Figure 4 This is a partial structural diagram of the controller of this utility model.

[0018] In the diagram: 1. Water storage tank; 2. Controller; 3. Data cable; 4. Soil moisture sensor; 5. Mounting base; 6. Weather monitoring frame; 7. Cross-shaped support; 8. Mounting bracket; 9. Wind speed sensor; 10. Temperature sensor; 11. Light intensity sensor; 12. Rainfall sensor; 13. Air humidity sensor; 14. Water outlet pipe; 15. Water pump; 16. Water delivery pipe; 17. Solenoid valve; 18. Flow meter; 19. Irrigation pipe; 20. Sprinkler head; 21. Water filling tank. Detailed Implementation

[0019] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present utility model without creative effort are within the protection scope of the present utility model.

[0020] Please see Figure 1-4 This utility model provides a weather-linked intelligent irrigation device for vertical greening, which includes a water storage tank 1, a weather monitoring frame 6, and a water pump 15. A controller 2 is installed on the front of the water storage tank 1. A data cable 3 is electrically connected to one side of the controller 2. A soil moisture sensor 4 is electrically connected to one end of the data cable 3. A mounting base 5 is fixedly connected to the top of the water storage tank 1. A weather monitoring frame 6 is fixedly connected to the top of the mounting base 5. A cross 7 and a mounting bracket 8 are fixedly connected to the outside of the weather monitoring frame 6. A temperature sensor 10, a light intensity sensor 11, a rainfall sensor 12, and an air humidity sensor 13 are installed on the top of the cross 7. A wind speed sensor 9 is installed at one end of the mounting bracket 8. A water outlet pipe 14 is fixedly connected to one side of the water storage tank 1. A water pump 15 is fixedly connected to one end of the water outlet pipe 14.

[0021] In this embodiment, a water filling trough 21 is provided on the top side of the water storage tank 1 away from the mounting base 5. The water storage tank 1 has a hollow structure, and the water filling trough 21 makes it convenient for staff to add water to the water storage tank 1.

[0022] In this embodiment, a water delivery pipe 16 is fixedly connected to the output end of the water pump 15. A solenoid valve 17 and a flow meter 18 are respectively installed on the outside of the water delivery pipe 16. The opening and closing of the water delivery pipe 16 can be controlled by the solenoid valve 17, and the irrigation water source can be recorded by the flow meter 18.

[0023] In this embodiment, an irrigation pipe 19 is fixedly connected to one end of the water supply pipe 16, and a sprinkler head 20 is fixedly connected to the outside of the irrigation pipe 19. When water flows into the irrigation pipe 19, the irrigation pipe 19 delivers the water to the sprinkler head 20, and the sprinkler head 20 sprays the water onto the green area.

[0024] In this embodiment, the water storage tank 1 is made of stainless steel. The outer surface of the water storage tank 1 is smooth. Water can be stored through the water storage tank 1, and the water storage tank 1 made of stainless steel is more robust and durable.

[0025] In this embodiment, the meteorological monitoring frame 6 is vertically installed on the top of the mounting base 5. The meteorological monitoring frame 6 is a telescopic structure, and its height can be adjusted so that the height of the monitoring components can be adjusted according to the monitoring requirements.

[0026] When using the intelligent irrigation device for vertical greening, staff add water to the water storage tank 1 for water preparation. At the same time, a soil moisture sensor 4 is installed in the soil of the greening area to monitor the moisture of the planting soil. Meanwhile, the wind speed sensor 9 on the weather monitoring frame 6 monitors the wind speed and direction, while the temperature sensor 10 and the air humidity sensor 13 monitor the weather temperature and humidity. The light intensity sensor 11 monitors the light intensity of the greening, and the rainfall sensor 12 monitors the rainfall. The monitored data are transmitted to the controller 2.

[0027] When irrigation is detected, the water pump 15 operates, drawing water through the outlet pipe 14. The water enters the water delivery pipe 16, and simultaneously the solenoid valve 17 opens, allowing water to flow into the irrigation pipe 19 and be sprayed onto the green area from the sprinkler head 20. Meanwhile, the flow meter 18 measures the water usage. When the soil moisture sensor 4 detects that the soil moisture has reached a set threshold, the water pump 15 stops operating, and the solenoid valve 17 closes. This completes the usage process of this utility model. This utility model has a simple structure and is safe and convenient to use.

[0028] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A weather-linked intelligent irrigation device for vertical greening, characterized in that: The system includes a water storage tank (1), a controller (2) is mounted on the front of the water storage tank (1), a data cable (3) is electrically connected to one side of the controller (2), a soil moisture sensor (4) is electrically connected to one end of the data cable (3), a mounting base (5) is fixedly connected to the top of the water storage tank (1), a meteorological monitoring frame (6) is fixedly connected to the top of the mounting base (5), a cross (7) and a mounting bracket (8) are fixedly connected to the outside of the meteorological monitoring frame (6), a temperature sensor (10), a light intensity sensor (11), a rainfall sensor (12) and an air humidity sensor (13) are respectively mounted on the top of the cross (7), a wind speed sensor (9) is mounted at one end of the mounting bracket (8), a water outlet pipe (14) is fixedly connected to one side of the water storage tank (1), and a water pump (15) is fixedly connected to one end of the water outlet pipe (14).

2. The meteorological-linked intelligent irrigation device for vertical greening according to claim 1, characterized in that: The top of the water storage tank (1) is provided with a water filling trough (21) on the side away from the mounting base (5), and the water storage tank (1) is a hollow structure.

3. The meteorological-linked intelligent irrigation device for vertical greening according to claim 1, characterized in that: The output end of the water pump (15) is fixedly connected to a water delivery pipe (16), and a solenoid valve (17) and a flow meter (18) are respectively installed on the outside of the water delivery pipe (16).

4. The meteorological-linked intelligent irrigation device for vertical greening according to claim 3, characterized in that: One end of the water supply pipe (16) is fixedly connected to an irrigation pipe (19), and a sprinkler head (20) is fixedly connected to the outside of the irrigation pipe (19).

5. The meteorological-linked intelligent irrigation device for vertical greening according to claim 1, characterized in that: The water storage tank (1) is made of stainless steel and has a smooth outer surface.

6. The meteorological-linked intelligent irrigation device for vertical greening according to claim 1, characterized in that: The meteorological monitoring frame (6) is vertically installed on the top of the mounting base (5), and the meteorological monitoring frame (6) is a telescopic structure.