A movable garden maintenance drip irrigation frame

By incorporating bottom and top sprinkler heads, a water tank, a booster pump, and casters into the drip irrigation system, the problem of the single irrigation method in existing drip irrigation systems has been solved. This allows for the combination and precise adjustment of multiple irrigation methods, meeting the water requirements of different plants and improving the survival rate of shrubs and irrigation efficiency.

CN224320008UActive Publication Date: 2026-06-05SUZHOU BACKLIGHT ADVERTISING PLANNING SERVICE CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SUZHOU BACKLIGHT ADVERTISING PLANNING SERVICE CO LTD
Filing Date
2025-05-21
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

The existing drip irrigation system has a single irrigation method, which is difficult to meet the water requirements of different plants. In particular, it cannot spray the leaves of newly planted shrubs, which affects their survival rate.

Method used

A mobile garden maintenance drip irrigation rack was designed, which combines bottom and top sprinkler heads and has multiple irrigation modes, including bottom and top spraying. It is equipped with a water tank to provide an independent water source, and the height can be adjusted by adjusting rod and handwheel. A booster pump is used to increase water pressure. It also has casters and brakes for easy movement and stable parking.

Benefits of technology

It combines multiple irrigation methods to meet the diverse water requirements of different plants, improves the survival rate of newly planted shrubs, reduces dependence on external water sources, ensures the precision and uniformity of irrigation, and improves irrigation efficiency and effectiveness.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224320008U_ABST
    Figure CN224320008U_ABST
Patent Text Reader

Abstract

The utility model relates to the technical field of garden irrigation, especially relates to a movable garden maintenance drip irrigation frame, its technical scheme includes: base and irrigation subassembly, irrigation subassembly fixed mounting is in the base upper end surface, the base includes bottom plate, the bottom plate upper end surface rear end fixed mounting has the water storage tank, the water storage tank front end bottom intercommunication installation has the tee pipe, the tee pipe is away from the water storage tank one end intercommunication installation has the bottom shower head, the irrigation subassembly includes first adjusting frame and second adjusting frame, the second adjusting frame is wound with a section of intercommunication hose, the second adjusting frame is in the movable plug -in installation has the support frame, the intercommunication hose bottom with the opening of tee pipe top intercommunication installation, and the intercommunication hose is away from the tee pipe one end through the straight -through pipe intercommunication installation has the top shower head, the utility model has the advantages of multiple irrigation modes, can satisfy different plant diversification water requirement and can carry out overall maintenance to just plant shrub.
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Description

Technical Field

[0001] This utility model relates to the field of garden irrigation technology, specifically a movable garden maintenance drip irrigation rack. Background Technology

[0002] Drip irrigation for garden plants is an extremely efficient irrigation method. It uses drippers to precisely deliver water to the root zone of plants, essentially creating a customized "watering plan" for each plant, perfectly meeting its growth needs.

[0003] Extensive searching revealed CN222235978U, which discloses a movable garden maintenance drip irrigation frame. This frame includes a movable plate, connectors, a push rod, multi-section cylinders, and a drip irrigation frame. The movable plate consists of two parts, each connected to a connector on its rear side. These connectors are rotatably connected. A push rod is rotatably connected to the upper part of the upper connector. Each movable plate is connected to a multi-section cylinder, and the drip irrigation frame is connected to the telescopic rod of each cylinder. In this prior art device, the movable plate and the drip irrigation frame work together to irrigate the plants by surrounding them.

[0004] However, in practical use, its irrigation method is singular, relying solely on drip irrigation, which is insufficient to meet the water requirements of different plants. Especially for newly planted shrubs, they not only need water absorption through their roots but also require foliar spraying to keep the leaves moist, reduce water evaporation, and thus increase their survival rate. The current drip irrigation system cannot achieve this function. Therefore, a portable garden maintenance drip irrigation system is proposed to solve the above problems. Utility Model Content

[0005] The purpose of this utility model is to provide a portable garden maintenance drip irrigation rack with multiple irrigation methods, which can meet the diverse water requirements of different plants and provide comprehensive maintenance for newly planted shrubs. It solves the problem that existing drip irrigation racks have a single irrigation method, relying solely on drip irrigation, which makes it difficult to meet the water requirements of different plants, especially the inability to spray the leaves of newly planted shrubs to increase their survival rate.

[0006] To achieve the above objectives, the present invention provides the following technical solution: a movable garden maintenance drip irrigation rack, comprising a base and an irrigation component, wherein the irrigation component is fixedly installed on the upper end face of the base, the base includes a bottom plate, a water tank is fixedly installed on the rear end of the upper end face of the bottom plate, a three-way pipe is connected to the bottom front end of the water tank, and a bottom spray head is connected to the end of the three-way pipe opposite to the water tank.

[0007] The irrigation assembly includes a first adjusting frame and a second adjusting frame. The bottom of both the first adjusting frame and the second adjusting frame are fixedly connected to a three-way pipe. A section of connecting hose is wound around the second adjusting frame. A support frame is movably inserted into the second adjusting frame.

[0008] The bottom of the connecting hose is connected to the opening at the top of the tee pipe. The other end of the connecting hose is distributed along the support frame through positioning buckles. The end of the connecting hose opposite to the tee pipe is connected to the top spray head through a straight pipe.

[0009] Preferably, omnidirectional wheels are installed at the four corners of the lower end face of the base plate, and the omnidirectional wheels have a braking function. A push frame is fixedly installed on one side of the upper end face of the base plate, and the surface of the push frame is provided with an anti-slip coating.

[0010] The design incorporates casters at the four corners of the base plate's underside, each with a brake function, and a pusher fixed to one side of the base plate's upper surface with an anti-slip coating. These features enable convenient movement and stable parking of the drip irrigation system. The casters allow easy movement across different areas of the garden to reach designated irrigation locations; the brakes secure the equipment during irrigation, preventing slippage; the pusher facilitates pushing the equipment, and the anti-slip coating increases grip, enhancing safety and comfort during operation.

[0011] Preferably, a booster pump is fixedly installed on the three-way pipe, and the booster pump is driven by DC electricity.

[0012] The design incorporates a DC-driven booster pump fixedly installed on a T-junction pipe, thereby increasing irrigation water pressure. This booster pump enhances water flow dynamics, ensuring water can be smoothly sprayed from both the bottom and top sprinkler heads, guaranteeing irrigation coverage and intensity. Even in situations with insufficient water pressure, it can meet the irrigation needs of plants, improving irrigation effectiveness and efficiency.

[0013] Preferably, an adjusting rod is movably installed inside the first adjusting frame, and a screw hole is opened on the top of the outer wall of the first adjusting frame and an adjusting handwheel is threadedly installed thereon. One end of the adjusting handwheel passes through the first adjusting frame and contacts the adjusting rod but is not fixedly connected. The top of the adjusting rod is fixedly connected to the support frame.

[0014] In this design, an adjusting rod is movably installed within the first adjusting frame, and a screw hole is drilled in the top of the outer wall of the first adjusting frame to install an adjusting handwheel. One end of the handwheel passes through the first adjusting frame and contacts the adjusting rod but is not fixedly connected. The top of the adjusting rod is fixedly connected to the support frame, thus achieving precise adjustment of the irrigation height. When the operator rotates the adjusting handwheel, they can control the raising and lowering of the adjusting rod, which in turn drives the support frame, connecting hose, and top sprinkler head to rise or fall, adapting to the irrigation needs of plants at different heights. This ensures that irrigation water is accurately sprayed to the required parts of the plants, improving the targeting and effectiveness of irrigation.

[0015] Preferably, the water tank is made of corrosion-resistant and pressure-resistant plastic material, and is equipped with a water level monitoring device inside.

[0016] The design utilizes corrosion-resistant and compressive-strength plastic to construct the water tank, and incorporates an internal water level monitoring device. This ensures the tank's long-term usability and real-time water volume monitoring. The corrosion-resistant material prevents the tank from being eroded by irrigation water, extending its lifespan; the compressive strength ensures the tank is not easily deformed or damaged when full or subjected to external force. The water level monitoring device allows operators to easily monitor the water level, enabling timely replenishment and preventing irrigation interruptions due to water shortages, thus ensuring the continuity of irrigation operations.

[0017] Preferably, the top spray head is an adjustable spray head, and a rotary joint is provided at the connection between the top of the top spray head and the straight pipe.

[0018] The design incorporates adjustable top sprinkler heads and a swivel joint at the connection point between the top sprinkler head and the straight pipe, enabling flexible adjustment of the spray angle and range. Operators can manually adjust the angle of the top sprinkler heads according to the shape, size, and layout of the plants, altering the spray coverage and ensuring more even distribution of irrigation water. This prevents irrigation dead zones or localized over-irrigation, improving the uniformity and precision of irrigation and better meeting the irrigation needs of different plants.

[0019] Compared with the prior art, the beneficial effects of this utility model are as follows:

[0020] 1. This utility model combines multiple irrigation methods by incorporating bottom and top sprinkler heads. The bottom sprinkler head directly irrigates the plant roots, meeting their water absorption needs. The top sprinkler head, with its connecting hose, sprays water onto the plants from above, providing a sprinkler irrigation method in addition to drip irrigation. This solves the problem of the limited irrigation options in existing drip irrigation systems and meets the diverse water requirements of different plants. For newly planted shrubs, the top sprinkler head can spray water onto their leaves, keeping them moist, reducing water evaporation, and increasing their survival rate.

[0021] 2. This utility model is equipped with a water storage tank, which is connected to a three-way pipe, providing an independent water source for irrigation. This allows the drip irrigation system to work normally even when far from a fixed water source, reducing dependence on external water sources and solving the problem of inconvenience in using existing drip irrigation systems when far from a fixed water source. It ensures timely irrigation and maintenance for plants in different areas, including newly planted shrubs.

[0022] 3. In this utility model, the adjusting rod and adjusting handwheel inside the first adjusting frame work together. By rotating the adjusting handwheel, the raising and lowering of the adjusting rod can be controlled, thereby adjusting the height of the support frame and the top sprinkler head. This design achieves precise adjustment of irrigation height, allowing the sprinkler head to be adjusted to the optimal irrigation position according to the height characteristics of different plants, meeting the irrigation height needs of different plants. Especially for newly planted shrubs, it can better control the spray range and intensity, improve irrigation effectiveness, and solve the problem of insufficient precision in the height adjustment of existing drip irrigation frames. Attached Figure Description

[0023] Figure 1 This is a schematic diagram of the main structure of this utility model;

[0024] Figure 2 This is a schematic diagram of the base structure of this utility model;

[0025] Figure 3 This is a schematic diagram of the irrigation component structure of this utility model;

[0026] Figure 4 For the present utility model Figure 3 A magnified schematic diagram of the central part of the structure.

[0027] In the diagram: 1. Base; 11. Base plate; 12. Casters; 13. Push frame; 14. Booster pump; 15. Water tank; 16. T-pipe; 17. Bottom sprinkler head; 2. Irrigation assembly; 21. First adjustment frame; 22. Second adjustment frame; 23. Connecting hose; 24. Support frame; 25. Straight pipe; 26. Top sprinkler head; 27. Adjustment rod; 28. Positioning buckle; 29. ​​Adjustment handwheel. Detailed Implementation

[0028] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0029] Example 1

[0030] like Figure 1 , Figure 2 , Figure 3 and Figure 4As shown, one embodiment of this utility model is a movable garden maintenance drip irrigation rack, including a base 1 and an irrigation component 2. The irrigation component 2 is fixedly installed on the upper surface of the base 1. The base 1 includes a base plate 11. A water tank 15 is fixedly installed at the rear end of the upper surface of the base plate 11. A three-way pipe 16 is connected to the bottom of the front end of the water tank 15. A bottom spray head 17 is connected to the end of the three-way pipe 16 opposite to the water tank 15.

[0031] Irrigation assembly 2 includes a first adjusting frame 21 and a second adjusting frame 22. The bottom of both the first adjusting frame 21 and the second adjusting frame 22 are fixedly connected to the three-way pipe 16. A section of connecting hose 23 is wound around the second adjusting frame 22. A support frame 24 is movably inserted into the second adjusting frame 22.

[0032] The bottom of the connecting hose 23 is connected to the opening at the top of the tee pipe 16. The other end of the connecting hose 23 is distributed along the support frame 24 through the positioning buckle 28. The end of the connecting hose 23 away from the tee pipe 16 is connected to the top spray head 26 through the straight pipe 25.

[0033] Specifically, by setting up bottom sprinkler heads 17 and top sprinkler heads 26, multiple irrigation methods are combined. Bottom sprinkler heads 17 can directly irrigate the plant roots, meeting their water absorption needs. Top sprinkler heads 26, in conjunction with the connecting hose 23, can spray water onto the plants from above, realizing a sprinkler irrigation method in addition to drip irrigation. This solves the problem of the limited irrigation methods in existing drip irrigation systems and can meet the diverse water requirements of different plants. For newly planted shrubs, top sprinkler heads 26 can spray their leaves, keeping them moist, reducing water evaporation, and increasing their survival rate.

[0034] The water tank 15 is connected to the T-connector 16, providing an independent water source for irrigation. This allows the drip irrigation system to function normally even when far from a fixed water source, reducing dependence on external water sources and solving the problem of inconvenience in using existing drip irrigation systems when far from a fixed water source. It ensures timely irrigation and maintenance for plants in different areas, including newly planted shrubs.

[0035] The adjusting rod 27 and adjusting handwheel 29 within the first adjusting frame 21 work together. By rotating the adjusting handwheel 29, the raising and lowering of the adjusting rod 27 can be controlled, thereby adjusting the height of the support frame 24 and the top sprinkler head 26. This design achieves precise adjustment of irrigation height, allowing the sprinkler head to be adjusted to the optimal irrigation position according to the height characteristics of different plants, meeting the irrigation height needs of different plants. Especially for newly planted shrubs, it can better control the spray range and intensity, improve irrigation effectiveness, and solve the problem of insufficient precision in the height adjustment of existing drip irrigation frames.

[0036] Example 2

[0037] To ensure convenient movement and stable placement of the drip irrigation system, and to guarantee stable and efficient irrigation water pressure, ensuring good irrigation results regardless of the water source pressure, such as... Figure 2 As shown, in this embodiment, universal wheels 12 are installed at the four corners of the lower end face of the base plate 11. The universal wheels 12 have a braking function. A push frame 13 is fixedly installed on one side of the upper end face of the base plate 11. The surface of the push frame 13 is provided with an anti-slip coating.

[0038] In the design, the drip irrigation rack is easily moved and stably parked by means of casters 12 at the four corners of the lower end face of the base plate 11, which have a braking function, and a pusher 13 fixedly installed on one side of the upper end face of the base plate 11 with an anti-slip coating on its surface. The casters 12 allow the drip irrigation rack to be easily moved to different areas of the garden to reach the designated irrigation position; the braking function can fix the equipment during irrigation to prevent it from slipping; the pusher 13 makes it easy for the operator to push the equipment, and the anti-slip coating increases the friction when the operator holds the equipment, improving safety and comfort during the pushing process.

[0039] Furthermore, a booster pump 14 is fixedly installed on the three-way pipe 16, and the booster pump 14 is driven by DC electricity.

[0040] In the design, a booster pump 14 driven by DC electricity is fixedly installed on the three-way pipe 16, thereby increasing the irrigation water pressure. The booster pump 14 enhances the water flow dynamics, ensuring that water can be smoothly sprayed from the bottom sprinkler head 17 and the top sprinkler head 26, guaranteeing the coverage and intensity of irrigation. Even when the water source pressure is insufficient, it can meet the irrigation needs of plants and improve irrigation effect and efficiency.

[0041] Example 3

[0042] To achieve precise irrigation for plants of different heights, improve irrigation efficiency and quality, and fully meet the diverse water needs of various plants in the garden, such as... Figure 3 and Figure 4 As shown, in this embodiment, an adjusting rod 27 is movably installed inside the first adjusting frame 21. A screw hole is opened on the top of the outer wall of the first adjusting frame 21 and an adjusting handwheel 29 is threadedly installed. One end of the adjusting handwheel 29 passes through the first adjusting frame 21 and contacts the adjusting rod 27 but is not fixedly connected. The top of the adjusting rod 27 is fixedly connected to the support frame 24.

[0043] In this design, an adjusting rod 27 is movably installed within the first adjusting frame 21, and an adjusting handwheel 29 is threaded into a screw hole at the top of the outer wall of the first adjusting frame 21. One end of the adjusting handwheel 29 passes through the first adjusting frame 21 and contacts the adjusting rod 27 but is not fixedly connected. The top of the adjusting rod 27 is fixedly connected to the support frame 24, thus achieving precise adjustment of the irrigation height. When the operator rotates the adjusting handwheel 29, the adjusting rod 27 can be raised or lowered, thereby causing the support frame 24, the connecting hose 23, and the top sprinkler head 26 to rise or fall, adapting to the irrigation needs of plants at different heights. This ensures that irrigation water can be accurately sprayed onto the required parts of the plants, improving the targeting and effectiveness of irrigation.

[0044] Furthermore, the water tank 15 is made of corrosion-resistant and pressure-resistant plastic material, and is equipped with a water level monitoring device inside.

[0045] In this design, the water tank 15 is made of corrosion-resistant and compressive-strength plastic, and a water level monitoring device is installed inside, thus enabling long-term use of the water tank 15 and real-time monitoring of the water volume. The corrosion-resistant material prevents the water tank 15 from being eroded by irrigation water, extending its service life; the compressive strength ensures that the water tank 15 is not easily deformed or damaged when filled with water or subjected to certain external forces. The water level monitoring device allows operators to easily monitor the water level in the water tank 15, enabling timely replenishment and preventing irrigation interruptions due to water shortage, thus ensuring the continuity of irrigation work.

[0046] Furthermore, the top spray head 26 is an adjustable spray head, and a rotary joint is provided at the connection between the top of the top spray head 26 and the straight pipe 25.

[0047] In this design, the top sprinkler head 26 is set as an adjustable nozzle, and a rotary joint is installed at the connection between the top of the top sprinkler head 26 and the straight pipe 25, thereby enabling flexible adjustment of the spray angle and range. Operators can manually adjust the angle of the top sprinkler head 26 according to the shape, size, and layout of the plants, changing the spray coverage area so that irrigation water can be sprayed more evenly on the plants, avoiding irrigation dead zones or localized over-irrigation, improving the uniformity and precision of irrigation, and better meeting the irrigation needs of different plants.

[0048] In use, push the pusher 13 and use the casters 12 mounted at the four corners of the lower end face of the base plate 11 to move the drip irrigation rack to the area of ​​plants that need irrigation. After reaching the designated position, step on the brakes of the casters 12 to fix the equipment and prevent it from moving during irrigation.

[0049] Check the water level monitoring device inside the water tank 15 to confirm that there is sufficient water in the tank. If the water level in the tank is low, add water through the inlet. At the same time, check that all connections are secure, such as the connection between the T-connector 16 and the water tank 15, the bottom spray head 17, the first adjusting bracket 21, and the second adjusting bracket 22, and the connection between the connecting hose 23 and the T-connector 16 and the straight pipe 25, to ensure there are no leaks.

[0050] Rotate the adjusting handwheel 29 according to the plant's height. Since the adjusting handwheel 29 is threadedly connected to the first adjusting frame 21 and one end contacts the adjusting rod 27, rotating the handwheel 29 will raise or lower the adjusting rod 27 accordingly. The top of the adjusting rod 27 is fixedly connected to the support frame 24, thereby causing the support frame 24, the connecting hose 23 wound around it, and the top sprinkler head 26 to rise or fall, adjusting the top sprinkler head 26 to the optimal irrigation position suitable for the plant's height.

[0051] As for the top sprinkler head 26, since it is an adjustable sprinkler head and has a rotating joint at the connection between the top and the straight pipe 25, the angle of the sprinkler head can be manually adjusted according to the shape of the plant and its water requirements to determine the range and direction of the spray, making irrigation more precise and efficient.

[0052] Turn on the booster pump 14 to increase the water pressure using its DC-driven characteristic. Water in the storage tank 15 flows through the three-way pipe 16 to the bottom sprinkler head 17 and the connecting hose 23. The bottom sprinkler head 17 directly irrigates the plant roots, meeting their water needs. Water travels through the connecting hose 23 and the straight pipe 25 to the top sprinkler head 26, spraying the plant from above. This provides comprehensive irrigation for different parts of the plant, especially for newly planted shrubs, reducing water evaporation and improving survival rate.

[0053] After irrigation is complete, turn off the booster pump 14, release the brakes on the casters 12, and push the pusher 13 to move the equipment to a suitable storage location. Regularly clean and maintain the equipment, such as cleaning the nozzles, checking pipe connections, and inspecting the water tank 15 for damage, to ensure the equipment functions properly the next time it is used.

[0054] It will be apparent to those skilled in the art that this invention is not limited to the details of the exemplary embodiments described above, and that it can be implemented in other specific forms without departing from the spirit or essential characteristics of this invention. Therefore, the embodiments should be considered illustrative and non-limiting in all respects, and the scope of this invention is defined by the appended claims rather than the foregoing description. Thus, it is intended that all variations falling within the meaning and scope of equivalents of the claims be included within this invention. No reference numerals in the claims should be construed as limiting the scope of the claims.

Claims

1. A movable garden maintenance drip irrigation rack, comprising a base (1) and an irrigation component (2), wherein the irrigation component (2) is fixedly installed on the upper surface of the base (1), characterized in that: The base (1) includes a base plate (11), a water tank (15) is fixedly installed on the rear end of the upper surface of the base plate (11), a three-way pipe (16) is connected to the bottom of the front end of the water tank (15), and a bottom spray head (17) is connected to the end of the three-way pipe (16) away from the water tank (15). The irrigation assembly (2) includes a first adjusting frame (21) and a second adjusting frame (22). The bottom of the first adjusting frame (21) and the second adjusting frame (22) are fixedly connected to a three-way pipe (16). A connecting hose (23) is wound around the second adjusting frame (22). A support frame (24) is movably inserted inside the second adjusting frame (22). The bottom of the connecting hose (23) is connected to the opening at the top of the tee pipe (16). The other end of the connecting hose (23) is distributed along the support frame (24) through the positioning buckle (28). The end of the connecting hose (23) away from the tee pipe (16) is connected to the top spray head (26) through the straight pipe (25).

2. The movable garden maintenance drip irrigation rack according to claim 1, characterized in that, The bottom plate (11) is equipped with casters (12) at the four corners of its lower end face. The casters (12) have a braking function. A pusher (13) is fixedly installed on one side of the upper end face of the bottom plate (11). The surface of the pusher (13) is provided with an anti-slip coating.

3. A portable garden maintenance drip irrigation rack according to claim 1, characterized in that, A booster pump (14) is fixedly installed on the three-way pipe (16), and the booster pump (14) is driven by DC electricity.

4. A portable garden maintenance drip irrigation rack according to claim 1, characterized in that, An adjusting rod (27) is movably installed inside the first adjusting frame (21). A screw hole is opened on the top of the outer wall of the first adjusting frame (21) and an adjusting handwheel (29) is threadedly installed. One end of the adjusting handwheel (29) passes through the first adjusting frame (21) and contacts the adjusting rod (27) but is not fixedly connected. The top of the adjusting rod (27) is fixedly connected to the support frame (24).

5. A portable garden maintenance drip irrigation rack according to claim 1, characterized in that, The water tank (15) is made of corrosion-resistant and pressure-resistant plastic material, and is equipped with a water level monitoring device inside.

6. A portable garden maintenance drip irrigation rack according to claim 1, characterized in that, The top spray head (26) is an adjustable spray head, and a rotary joint is provided at the connection between the top of the top spray head (26) and the straight pipe (25).