An irrigation device for barley cultivation
By designing underground water storage tanks and intelligently controlled irrigation devices, the problem of insufficient water storage capacity in barley cultivation in arid areas has been solved, enabling water storage during the rainy season and effective irrigation during dry periods, thereby improving water resource utilization efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GANSU PEIYU LONGFA AGRICULTURAL TECHNOLOGY CO LTD
- Filing Date
- 2025-06-06
- Publication Date
- 2026-06-30
AI Technical Summary
In the process of barley cultivation in arid regions, the existing technology of water storage ponds has poor water storage capacity, which makes it easy to run out of water during irrigation. In addition, water resources evaporate quickly in arid areas and are difficult to replenish effectively.
Design an irrigation device that includes an underground water storage tank, a water receiving plate, a water filter box, and a water pump. The device collects rainwater using the water receiving plate and a drain outlet, filters impurities through the water filter box, is powered by a solar power panel, and achieves intelligent control by combining water level sensors and water quality sensors. The water pump then extracts water for irrigation.
By storing water during the rainy season and reducing water evaporation, effective irrigation can be ensured during dry periods, improving water resource utilization efficiency and intelligent equipment management.
Smart Images

Figure CN224419598U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of barley planting technology, specifically to an irrigation device for barley planting. Background Technology
[0002] Barley is characterized by its early maturity, drought resistance, cold tolerance, tolerance to poor soil, strong adaptability, stable yield, ease of cultivation, and relatively short growing season. It is a highly adaptable crop, particularly to cold and poor soil conditions. Barley is mainly divided into spring barley and winter barley.
[0003] In the process of barley cultivation, some areas are planted in arid regions with low rainfall. As a result, when supplementing irrigation, the irrigation canals are prone to running out of water, leading to frequent water shortages. Current technology often involves digging water tanks to store water, but in arid areas, the water in these tanks evaporates quickly and has poor water storage capacity. Utility Model Content
[0004] The technical problem to be solved by this utility model is to provide an irrigation device for barley cultivation, addressing the shortcomings mentioned in the background art.
[0005] To solve the above-mentioned technical problems, the technical solution provided by this utility model is as follows: an irrigation device for barley planting, including a metal water storage tank and an equipment box buried underground. The top of the water storage tank is provided with multiple support structures, and the top of the multiple support structures is provided with an inclined water receiving plate structure. The end of the water receiving plate structure is provided with a water outlet, and the bottom of the water receiving plate structure is provided with a water guide pipe that matches the water outlet. The ends of the multiple water guide pipes are provided with a water filter box that communicates with the inside of the water storage tank.
[0006] The equipment box is equipped with a water pump at the bottom, and the water pump has a water pumping pipe that communicates with the bottom of the water storage tank and a water outlet pipe that extends to the outside.
[0007] Furthermore, the top of the outer side of the water receiving plate structure is provided with a baffle plate, and the lower side of the baffle plate is provided with multiple drainage outlets, which can be used for water storage and drainage of excess water.
[0008] Furthermore, the top of the drain outlet is equipped with a filter screen structure to facilitate the filtration of larger debris.
[0009] Furthermore, the bottom of the water filter box is equipped with multiple cloth filter screen structures that communicate with the inside of the water storage tank, which can perform secondary filtration of rainwater and prevent excessive impurities from entering the water storage tank.
[0010] Furthermore, the inner side of the water storage tank is provided with multiple auxiliary reinforcing ribs to ensure the overall strength of the water storage tank.
[0011] Furthermore, the water filter box is provided with a first sealing cover on the front side, and the equipment box is provided with a second sealing cover on the top, which allows for maintenance and repair work.
[0012] Furthermore, the top of the water receiving plate structure is equipped with a solar power supply panel, and the bottom of the solar power supply panel is set higher than the drain outlet to facilitate solar power supply operations.
[0013] Furthermore, a power supply control cabinet is provided below the water receiving plate structure, an electric control valve is provided on the water guide pipe, a water level sensor is provided in the water storage tank, a one-way valve is provided on the water outlet pipe, and a water quality sensor is provided on the water pumping pipe, which facilitates the improvement of the equipment's intelligence.
[0014] The advantages of this utility model for irrigating barley plants compared with the prior art are as follows: This device uses a water storage tank buried underground and a top water receiving structure to store water during the rainy season. With the help of sealing, it can reduce water evaporation in arid areas and pump water for irrigation when needed. Attached Figure Description
[0015] Figure 1 This is a schematic diagram of the first structure of an irrigation device for barley cultivation.
[0016] Figure 2 This is a schematic diagram of the second structure of an irrigation device for barley cultivation.
[0017] Figure 3 This is a cross-sectional structural diagram of an irrigation device for barley cultivation.
[0018] As shown in the figure: 1. Water storage tank; 2. Equipment box; 3. Support structure; 4. Water receiving plate structure; 5. Water baffle; 6. Leak outlet; 7. Filter screen structure; 8. Water guide pipe; 9. Water filter box; 10. Solar power supply panel; 11. Electrically controlled valve; 12. Cloth cover filter screen cylinder structure; 13. Water pump; 14. Pumping pipe; 15. Water outlet pipe; 16. Water quality sensor; 17. One-way valve; 18. Water level sensor; 19. Auxiliary reinforcing support rib; 20. Drain outlet; 21. First sealing cover; 22. Second sealing cover; 23. Power supply control cabinet. Detailed Implementation
[0019] The present invention will now be described in further detail with reference to the accompanying drawings.
[0020] Combined with appendix Figure 1-3An irrigation device for barley cultivation includes a metal water storage tank 1 buried underground and an equipment box 2. The water storage tank 1 has multiple auxiliary reinforcing ribs 19 on its inner side. The top of the water storage tank 1 has multiple support structures 3, and the tops of the multiple support structures 3 share an inclined water receiving plate structure 4. The end of the water receiving plate structure 4 has a drain outlet 6, and the bottom of the water receiving plate structure 4 has a water guide pipe 8 that matches the drain outlet 6. The ends of the multiple water guide pipes 8 are connected to a water filter box 9 that communicates with the inside of the water storage tank 1. The equipment box 2 contains… A water pump 13 is provided at the bottom. The water pump 13 has a water pumping pipe 14 connected to the bottom of the water storage tank 1 and a water outlet pipe 15 extending to the outside. The above structure is used to make full use of the water storage and can be used for irrigation when needed. Alternatively, the water pump 13 can be omitted, and only a water pipe connected to the bottom of the water storage tank 1 can be provided. Then, an external water pump can be used to pump water when needed. However, due to water level, it is necessary to ensure that the water pump can pump water when the water level is higher than the water level. This setting can reduce the overall cost of the equipment.
[0021] The water receiving plate structure 4 has a baffle plate 5 on its outer top. The lower side of the baffle plate 5 has multiple drain outlets 20. The baffle plate 5 ensures that water gathers and flows into the work area from the drain outlet 6. At the same time, the drain outlets 20 prevent excessive water accumulation. The top of the drain outlet 6 has a filter screen structure 7. The bottom of the water filter box 9 has multiple cloth cover filter screen cylinder structures 12 that are connected to the inside of the water storage tank 1. The filter screen structure 7 can filter larger impurities, and the cloth cover filter screen cylinder structure 12 can filter fine particles to prevent excessive entry into the water storage tank 1. The structure of the cloth cover filter screen cylinder structure 12 is a mesh cylinder with a cloth cover that can filter fine particles attached to the outside, and the inside is connected to the inside of the water storage tank 1.
[0022] The water filter box 9 is provided with a first sealing cover 21 on the front side, and the equipment box 2 is provided with a second sealing cover 22 on the top, which facilitates regular maintenance and cleaning.
[0023] The top of the water receiving plate structure 4 is equipped with a solar power supply panel 10, and the bottom of the solar power supply panel 10 is set higher than the drain outlet 20. The bottom of the water receiving plate structure 4 is equipped with a power supply control cabinet 23. The power supply control cabinet 23 needs to be equipped with a battery, a controller and an adapter for the solar power supply panel 10 to facilitate solar charging, power supply and control of equipment components. This is a common circuit setting, so it will not be described in detail. The water guide pipe 8 is equipped with an electric control valve 11. The water storage tank 1 is equipped with a water level sensor 18. The water outlet pipe 15 is equipped with a one-way valve 17. The electric control valve 11 and the one-way valve 17 can ensure internal sealing during daily water storage to prevent pollution. The water level sensor 18 can sense the water level. The water level sensor 18 is a common resistive liquid level sensor. The water pumping pipe 14 is equipped with a water quality sensor 16. The water quality sensor 16 is a common water quality detector on the market and can prevent serious water quality deterioration.
[0024] The present invention and its embodiments have been described above. This description is not restrictive, and the accompanying drawings are only one embodiment of the present invention; the actual structure is not limited thereto. In conclusion, if those skilled in the art are inspired by this description and design similar structures and embodiments without departing from the inventive spirit of the present invention, such designs should fall within the protection scope of the present invention.
Claims
1. An irrigation device for barley cultivation, comprising a metal water storage tank (1) buried underground and an equipment box (2), characterized in that: The water storage tank (1) is provided with multiple support structures (3) on the top. The multiple support structures (3) are provided with an inclined water receiving plate structure (4) on the top. The water receiving plate structure (4) is provided with a water outlet (6) at the end. The water receiving plate structure (4) is provided with a water guide pipe (8) at the bottom to cooperate with the water outlet (6). The ends of the multiple water guide pipes (8) are provided with a water filter box (9) that communicates with the inside of the water storage tank (1). The equipment box (2) is equipped with a water pump (13) at the bottom. The water pump (13) is equipped with a water pumping pipe (14) that communicates with the bottom of the water storage tank (1) and a water outlet pipe (15) that extends to the outside.
2. The irrigation device for barley cultivation according to claim 1, characterized in that: The water receiving plate structure (4) has a baffle plate (5) on the top of its outer side, and the baffle plate (5) has multiple drain outlets (20) on its lower side.
3. The irrigation device for barley cultivation according to claim 1, characterized in that: The top of the drain outlet (6) is provided with a filter screen structure (7).
4. The irrigation device for barley cultivation according to claim 1, characterized in that: The bottom of the water filter box (9) is provided with multiple cloth-covered filter cylinder structures (12) that are connected to the water storage tank (1).
5. The irrigation device for barley cultivation according to claim 1, characterized in that: The water storage tank (1) is provided with multiple auxiliary reinforcing support ribs (19) on its inner side.
6. The irrigation device for barley cultivation according to claim 1, characterized in that: The water filter box (9) is provided with a first sealing cover (21) on the front side, and the equipment box (2) is provided with a second sealing cover (22) on the top.
7. An irrigation device for barley cultivation according to claim 2, characterized in that: The water receiving plate structure (4) is provided with a solar power supply plate (10) on the top, and the bottom of the solar power supply plate (10) is set higher than the drain outlet (20).
8. The irrigation device for barley cultivation according to claim 1, characterized in that: The water receiving plate structure (4) is equipped with a power supply control cabinet (23) below it, the water guide pipe (8) is equipped with an electric control valve (11), the water storage tank (1) is equipped with a water level sensor (18), the water outlet pipe (15) is equipped with a one-way valve (17), and the water pumping pipe (14) is equipped with a water quality sensor (16).