A new type of environmentally friendly irrigation device for landscaping.

By designing an environmentally friendly irrigation device with a mobile base and fixed components, the problems of low water collection efficiency and poor adaptability of existing garden and greening irrigation devices have been solved. This has enabled efficient and flexible rainwater collection and precise irrigation, saving water resources and improving equipment stability and water quality.

CN224419624UActive Publication Date: 2026-06-30GUANGDONG GREEN FOREST GARDEN CONSTR CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
GUANGDONG GREEN FOREST GARDEN CONSTR CO LTD
Filing Date
2025-06-27
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

The existing irrigation devices for landscaping are poorly designed, have low water collection efficiency, and lack effective filtration measures, leading to blockages and water waste. Furthermore, they cannot flexibly adjust the irrigation range and water volume, making it difficult to adapt to the irrigation needs of different areas.

Method used

An environmentally friendly irrigation device was designed, comprising a mobile base, a water collection cylinder, a collection plate, and a fixing component. It can be easily moved by casters, and the water collection cylinder is fixed by a threaded drive design of a support rod and a fixing arc clamp. The water collection cylinder has a filter screen that initially filters rainwater, and the water pump delivers it to a high-pressure nozzle for precise irrigation.

Benefits of technology

It improves rainwater collection efficiency and water resource utilization, reduces equipment shaking and clogging, enables flexible irrigation operations, saves municipal water, ensures clean irrigation water quality, and adapts to the irrigation needs of different areas.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224419624U_ABST
    Figure CN224419624U_ABST
Patent Text Reader

Abstract

This utility model relates to the field of landscaping technology and discloses a novel environmentally friendly irrigation device for landscaping, including a movable base, a water collection cylinder, a collection plate, and a fixing component. A connecting cylinder and a water collection cylinder are installed at the top of the movable base. The fixing component inside the connecting cylinder consists of a support rod, a rotating handle, and fixed arc clamps. Threaded engagement causes the four fixed arc clamps to form a ring, firmly clamping and fixing the water collection cylinder, ensuring stable operation of the device. A protective cylinder is installed at the top of the water collection cylinder, with a filter screen installed inside to initially filter impurities such as leaves and mud from rainwater. A receiving plate is fitted outside the protective cylinder, and its bottom collection box is connected to the water collection cylinder through a water inlet hole, achieving efficient rainwater collection. A water pump inside the protective cylinder is connected to the water collection cylinder and a high-pressure nozzle at the top through a delivery pipe, pressurizing and spraying the filtered rainwater. Combined with the nozzle angle adjustment function, precise irrigation is achieved, effectively collecting and purifying rainwater for landscaping irrigation, achieving an energy-saving and environmentally friendly landscaping irrigation effect.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model relates to the field of landscaping technology, specifically a new type of environmentally friendly irrigation device for landscaping. Background Technology

[0002] As a crucial component of urban ecological environment construction, landscaping plays a vital role in regulating climate, purifying air, and beautifying the environment. With the acceleration of urbanization and the increasing demand for livable environments, urban green spaces are constantly expanding, leading to a surge in water consumption for irrigation. Traditional irrigation methods relying on municipal water supply not only consume large amounts of freshwater resources but also increase the pressure on urban water supply systems. Meanwhile, frequent extreme weather events are exacerbating water shortages in some areas. Therefore, developing environmentally friendly irrigation devices with rainwater harvesting and efficient utilization functions has become an urgent need for achieving sustainable development in landscaping and alleviating urban water shortages.

[0003] Currently available landscaping irrigation devices suffer from technical defects. On the one hand, traditional rainwater harvesting devices have unreasonable structural designs, low water collection efficiency, and lack effective filtration measures, resulting in excessive impurities in the collected rainwater, which can easily clog irrigation pipes and increase equipment maintenance costs. On the other hand, most irrigation devices use fixed nozzles, making it impossible to flexibly adjust the irrigation range and water volume according to the water requirements of plants. This not only wastes water resources but may also affect plant growth due to uneven water distribution in certain areas. Furthermore, existing equipment is mostly fixedly installed, making it difficult to adapt to the irrigation needs of different areas. For large-area landscaping areas, multiple sets of devices need to be repeatedly constructed, resulting in idle and wasted resources. These technical bottlenecks seriously restrict the green development of the landscaping industry. Therefore, we propose a new type of environmentally friendly irrigation device for landscaping. Utility Model Content

[0004] (a) Technical problems to be solved

[0005] In view of the shortcomings of the existing technology, this utility model provides a new type of environmentally friendly irrigation device for landscaping, which solves the above-mentioned problems.

[0006] (II) Technical Solution

[0007] To achieve the above-mentioned objectives, this utility model provides the following technical solution: A novel environmentally friendly irrigation device for landscaping, comprising a movable base, a water collection cylinder, a collection plate, and a fixing component. The top of the movable base is respectively provided with a connecting cylinder and a water collection cylinder. The connecting cylinder is provided with a fixing component inside. The water collection cylinder is fixed by the fixing component. The top of the water collection cylinder is provided with a protective cylinder. The inside of the water collection cylinder is provided with a filter screen. The inside of the protective cylinder is provided with a water pump. The inlet of the water pump is connected to a delivery pipe. The outer side of the protective cylinder is fitted with a collection plate. The bottom of the collection plate is inserted into the inside of the water collection cylinder. The top of the protective cylinder is provided with a high-pressure nozzle, which is connected to the water pump through the delivery pipe.

[0008] Preferably, the bottom of the mobile base is provided with multiple casters, the top center of the mobile base is provided with a placement ring, the inside of the placement ring is installed with a water collection cylinder, and the top of the mobile base is provided with four connecting cylinders symmetrical about the central axis.

[0009] Preferably, the fixing assembly includes a support rod, a rotating handle, and a fixing arc clamp. The top end of the support rod is provided with a rectangular fixing block, and the fixing block has a through internal thread. The cylindrical surface of the rotating handle has an external thread, which engages with the internal thread. The back of the fixing arc clamp is provided with a connecting ring, and the end of the rotating handle is rotatably installed inside the connecting ring.

[0010] Preferably, the end of the support rod is inserted into the inside of the connecting cylinder and welded for fixation. Four central axis symmetrical fixed arc clamps form a complete ring, thereby clamping and fixing the water collection cylinder.

[0011] Preferably, the top of the water collecting cylinder is provided with a protective cylinder, and four centrally symmetrical support plates are fixed between the protective cylinder and the water collecting cylinder. Placement holes are opened between adjacent support plates. The bottom of the collecting plate is provided with four centrally symmetrical collecting boxes. Multiple arc-shaped water inlet holes are opened at the bottom of the collecting boxes. Threaded holes are opened at the top of adjacent collecting boxes and on the end face of the support plates.

[0012] Preferably, the bottom end of the collection box is inserted into the placement hole between adjacent support plates, and is fixedly installed by bolts passing through the support plates and threaded holes in sequence. The top of the protective cylinder is provided with a support frame, and the end of the high-pressure nozzle is inserted into the inside of the support frame. The connection port of the end of the high-pressure nozzle is connected to the outlet of the water pump through a delivery pipe.

[0013] (III) Beneficial Effects

[0014] Compared with the prior art, this utility model provides a novel environmentally friendly irrigation device for landscaping, which has the following beneficial effects:

[0015] 1. This new type of environmentally friendly irrigation device for landscaping uses a threaded transmission design of support rods, rotating handles and fixed arc clamps in the fixed components. The four fixed arc clamps can quickly form a complete ring, firmly clamping and fixing the water collection cylinder to the mobile base, preventing shaking and displacement during device operation, and ensuring the stability of irrigation operations. At the same time, the insertion and bolt fixing method between the collection box at the bottom of the collection plate and the support plate enhances the overall structural connection strength and extends the service life of the equipment.

[0016] 2. This new type of environmentally friendly irrigation device for landscaping features water-saving irrigation. The collection plate and the water inlet design of the collection box can efficiently collect rainwater. After preliminary filtration by the filter screen inside the water collection cylinder, the water is pumped to the high-pressure nozzle for precise irrigation. This process makes full use of natural precipitation, reduces reliance on municipal water, and the filter screen intercepts impurities such as leaves and mud, ensuring water quality, improving water resource utilization, and achieving energy-saving and environmentally friendly landscaping irrigation. Attached Figure Description

[0017] Figure 1 This is a schematic diagram of the structure of this utility model;

[0018] Figure 2 This is a cross-sectional view of the structure of this utility model;

[0019] Figure 3 This is a schematic diagram of the fixing component structure of this utility model;

[0020] Figure 4 This is a schematic diagram of the water collection cylinder structure of this utility model;

[0021] Figure 5 This is a schematic diagram of the collecting plate structure of this utility model.

[0022] In the diagram: 1. Movable base; 2. Connecting cylinder; 3. Support rod; 4. Rotating handle; 5. Fixed arc clamp; 6. Water collection cylinder; 7. Collection plate; 8. Filter screen; 9. Protective cylinder; 10. Water pump; 11. High-pressure nozzle; 12. External thread; 13. Fixing block; 14. Internal thread; 15. Support plate; 16. Support frame; 17. Collection box; 18. Water inlet. Detailed Implementation

[0023] 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.

[0024] Please see Figure 1-5A novel environmentally friendly irrigation device for landscaping includes a mobile base 1, a water collection cylinder 6, a collection plate 7, and a fixing component. The top of the mobile base 1 is respectively provided with a connecting cylinder 2 and a water collection cylinder 6. The fixing component is provided inside the connecting cylinder 2, and the water collection cylinder 6 is fixed by the fixing component. The top of the water collection cylinder 6 is provided with a protective cylinder 9. The inside of the water collection cylinder 6 is provided with a filter screen 8. The inside of the protective cylinder 9 is provided with a water pump 10. The inlet of the water pump 10 is connected to a delivery pipe. The collection plate 7 is sleeved on the outside of the protective cylinder 9. The bottom of the collection plate 7 is inserted into the inside of the water collection cylinder 6. The top of the protective cylinder 9 is provided with a high-pressure nozzle 11, which is connected to the water pump 10 through the delivery pipe.

[0025] Furthermore, the bottom of the mobile base 1 is equipped with multiple casters, and the top center of the mobile base 1 is equipped with a placement ring. A water collection cylinder 6 is installed inside the placement ring. The top of the mobile base 1 is equipped with four central axis symmetrical connecting cylinders 2, which realizes flexible movement of the device and positioning and installation of components, meets the irrigation needs of different areas, and improves the ease of use.

[0026] Furthermore, the fixing assembly includes a support rod 3, a rotating handle 4, and a fixing arc clamp 5. The top of the support rod 3 is provided with a rectangular fixing block 13, and the fixing block 13 has a through internal thread 14. The cylindrical surface of the rotating handle 4 has an external thread 12, which is threadedly engaged with the internal thread 14. The back of the fixing arc clamp 5 is provided with a connecting ring, and the end of the rotating handle 4 is rotatably installed inside the connecting ring. The components are linked through the threaded engagement, providing stable support for the water collection cylinder 6 and ensuring the stability of the device operation.

[0027] Furthermore, the end of the support rod 3 is inserted into the inside of the connecting cylinder 2 and welded to fix it. The four central axis symmetrical fixing arc clamps 5 form a complete ring, thereby clamping and fixing the water collection cylinder 6, enhancing the overall structural strength, preventing the water collection cylinder 6 from shaking and shifting, and ensuring the normal operation of irrigation.

[0028] Furthermore, a protective cylinder 9 is provided at the top of the water collection cylinder 6, and four centrally symmetrical support plates 15 are fixed between the protective cylinder 9 and the water collection cylinder 6. Placement holes are opened between adjacent support plates 15. Four centrally symmetrical collection boxes 17 are provided at the bottom of the collection plate 7. Multiple arc-shaped water inlet holes 18 are opened at the bottom of the collection boxes 17. Threaded holes are opened at the top of adjacent collection boxes 17 and the end face of the support plates 15, respectively, to construct a rainwater collection channel, create conditions for rainwater collection and preliminary filtration, and improve rainwater collection efficiency.

[0029] Furthermore, the bottom end of the collection box 17 is inserted into the placement hole between the adjacent support plates 15, and is fixedly installed by bolts passing through the support plates 15 and the threaded holes in sequence. The top of the protective cylinder 9 is provided with a support frame 16, and the end of the high-pressure nozzle 11 is inserted into the inside of the support frame 16. The connection port of the end of the high-pressure nozzle 11 is connected to the outlet of the water pump 10 through a delivery pipe, realizing the effective connection between the rainwater collection system and the irrigation system, and ensuring that the filtered rainwater is pressurized by the water pump 10 and then accurately irrigated through the high-pressure nozzle 11.

[0030] Structural Description:

[0031] Mobile base 1: Mobile base 1 is the basic support and moving structure of the device. The bottom universal wheels facilitate flexible movement, and the top ring and connecting cylinder are used for component installation and positioning.

[0032] Connecting cylinder 2: Connecting cylinder 2 is the mounting carrier for the fixed component. It is symmetrically distributed on the top of the movable base along the central axis, providing a fixed connection base for the support rod.

[0033] Support rod 3: Support rod 3 is a support component of the fixed assembly. Its end is welded to the connecting cylinder, and the top fixing block is provided with internal thread for connecting the rotating handle.

[0034] Rotating handle 4: Rotating handle 4 is the transmission component of the fixed assembly. It drives the fixed arc clamp to move to fix the water collection cylinder by engaging with the internal thread of the support rod through the external thread.

[0035] Fixed arc clamp 5: Fixed arc clamp 5 is the clamping component of the water collecting cylinder. Four symmetrically distributed rings are formed, and the water collecting cylinder is stably clamped by rotating the handle.

[0036] Rainwater collection cylinder 6: Rainwater collection cylinder 6 is the core component for rainwater storage. It is equipped with a filter screen inside for preliminary filtration, and the top is connected to a protective cylinder. The bottom is fixed by a movable base.

[0037] Collection plate 7: Collection plate 7 is a key component for rainwater collection. It is fitted onto the protective cylinder on the outside, and the bottom collection box guides rainwater into the collection cylinder through the water inlet.

[0038] Filter screen 8: Filter screen 8 is a filter component inside the water collection cylinder, used to intercept impurities such as leaves and mud in rainwater to ensure the cleanliness of subsequent irrigation water;

[0039] Protective cylinder 9: Protective cylinder 9 is a protective structure for components such as water pumps. It is fixed to the water collection cylinder by a support plate, connected to a collection plate on the outside, and a high-pressure nozzle is installed at the top.

[0040] Pump 10: Pump 10 is an irrigation power component, installed inside the protective cylinder, and pressurizes and delivers the filtered rainwater in the collection cylinder to the high-pressure nozzle through the delivery pipe;

[0041] High-pressure sprinkler head 11: The high-pressure sprinkler head 11 is an irrigation actuator, installed on the support frame at the top of the protective cylinder, and connected to the water pump through the delivery pipe to achieve precise rainwater spraying;

[0042] External thread 12: External thread 12 is the transmission structure of the rotating handle, which mates with the internal thread of the support rod fixing block to realize displacement transmission when the rotating handle rotates;

[0043] Fixed block 13: Fixed block 13 is the connecting structure at the top of the support rod, and is provided with a through internal thread for cooperating with the external thread of the rotating handle to realize the transmission and fixing function;

[0044] Internal thread 14: Internal thread 14 is the transmission structure on the fixed block, which mates with the external thread of the rotating handle and drives the fixed arc clamp to move through the thread transmission.

[0045] Support plate 15: Support plate 15 is the connecting component between the protective cylinder and the water collection cylinder. It is symmetrically distributed along four central axes, providing structural support and providing placement holes for installing the collection plate.

[0046] Support frame 16: Support frame 16 is a fixing component for the high-pressure nozzle. It is installed on the top of the protective cylinder and is used to position and support the high-pressure nozzle to ensure its stable operation.

[0047] Collection box 17: Collection box 17 is the water collection component at the bottom of the collection plate. It has multiple water inlet holes and is fixed in place with the support plate to guide rainwater into the water collection cylinder.

[0048] Water inlet 18: Water inlet 18 is the rainwater inlet at the bottom of the collection box. It is arc-shaped to facilitate the rapid flow of rainwater into the collection cylinder and improve collection efficiency.

[0049] Working Principle: The mobile base 1 serves as the foundation and mobile carrier for the entire device. Multiple casters at its bottom provide flexible mobility, allowing workers to easily move the device to different landscaping areas to meet diverse irrigation needs. A placement ring at the top center positions the water collection cylinder 6. Four symmetrically distributed connecting cylinders 2 provide the mounting base for the fixing components. These fixing components, consisting of a support rod 3, a rotating handle 4, and fixing arc clamps 5, play a crucial role in stabilizing the water collection cylinder 6. The end of the support rod 3 is welded to the inside of the connecting cylinder 2. The fixing block 13 at the top has internal threads 14, which engage with the external threads 12 on the cylindrical surface of the rotating handle 4. When fixing the water collection cylinder 6, rotating the rotating handle 4 causes the fixing arc clamps 5 to move towards the center due to threaded transmission. The four fixing arc clamps 5 ultimately form a complete ring, tightly clamping the water collection cylinder 6 to prevent it from shaking or shifting during operation. The water collection cylinder 6 and its associated structure are responsible for rainwater collection. A protective cylinder at the top of the water collection cylinder 6... The protective cylinder 9 and the water collection cylinder 6 are fixedly connected by four centrally symmetrical support plates 15. The bottom of the collection plate 7, which is sleeved on the outside of the protective cylinder 9, is provided with four collection boxes 17. The bottom of the collection box 17 has multiple arc-shaped water inlet holes 18. When it rains, the rainwater first falls on the collection plate 7, then flows along the plate surface into the collection box 17, and enters the water collection cylinder 6 through the water inlet holes 18. The filter screen 8 inside the water collection cylinder 6 performs preliminary filtration of the rainwater, intercepting larger impurities such as leaves and mud in the rainwater, ensuring that the water quality entering the subsequent stages is consistent. For cleaning and irrigation, the water pump 10 and the high-pressure nozzle 11 work together. The water pump 10 inside the protective cylinder 9 is connected to the water collection cylinder 6 through the delivery pipe. Its inlet draws rainwater that has been preliminarily filtered from the water collection cylinder 6. After the water pump 10 pressurizes the rainwater, it is delivered to the high-pressure nozzle 11 at the top through the delivery pipe. The high-pressure nozzle 11 is installed inside the support frame 16. The spray angle and range can be adjusted according to actual needs to spray the pressurized rainwater in a mist or column form, evenly covering the garden green area and achieving efficient irrigation.

[0050] 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 new type of environment-friendly irrigation device for landscaping, comprising a mobile base (1), a water collecting cylinder (6), a collecting plate (7) and a fixing assembly, characterized in that: The top of the mobile base (1) is provided with a connecting cylinder (2) and a water collecting cylinder (6). The connecting cylinder (2) is provided with a fixing component. The water collecting cylinder (6) is fixed by the fixing component. The top of the water collecting cylinder (6) is provided with a protective cylinder (9). The inside of the water collecting cylinder (6) is provided with a filter screen (8). The inside of the protective cylinder (9) is provided with a water pump (10). The inlet of the water pump (10) is connected to a delivery pipe. The outside of the protective cylinder (9) is fitted with a collection plate (7). The bottom of the collection plate (7) is inserted into the inside of the water collecting cylinder (6). The top of the protective cylinder (9) is provided with a high-pressure nozzle (11). The high-pressure nozzle (11) is connected to the water pump (10) through the delivery pipe.

2. The environment-friendly irrigation device for landscaping according to claim 1, characterized in that: The bottom of the mobile base (1) is provided with multiple universal wheels, and the top center of the mobile base (1) is provided with a placement ring. A water collection cylinder (6) is installed inside the placement ring. The top of the mobile base (1) is provided with four central axis symmetrical connecting cylinders (2).

3. The novel environmentally friendly irrigation device for landscaping as described in claim 1, characterized in that: The fixing assembly includes a support rod (3), a rotating handle (4), and a fixing arc clamp (5). The top of the support rod (3) is provided with a rectangular fixing block (13), and the fixing block (13) is provided with a through internal thread (14). The cylindrical surface of the rotating handle (4) is provided with an external thread (12), and the external thread (12) and the internal thread (14) are threaded together. The back of the fixing arc clamp (5) is provided with a connecting ring, and the end of the rotating handle (4) is rotatably installed inside the connecting ring.

4. The environment-friendly irrigation device for landscaping of claim 3, characterized in that: The end of the support rod (3) is inserted into the inside of the connecting cylinder (2) and welded to fix it. The four central axis symmetrical fixed arc clamps (5) form a complete ring, thereby clamping and fixing the water collection cylinder (6).

5. The environment-friendly irrigation device for landscaping according to claim 1, characterized in that: The top of the water collection cylinder (6) is provided with a protective cylinder (9), and four central axis symmetrical support plates (15) are fixed between the protective cylinder (9) and the water collection cylinder (6). Placement holes are opened between adjacent support plates (15). The bottom of the collection plate (7) is provided with four central axis symmetrical collection boxes (17). Multiple arc-shaped water inlet holes (18) are opened at the bottom of the collection boxes (17). Threaded holes are opened at the top of adjacent collection boxes (17) and the end face of the support plate (15).

6. The environment-friendly irrigation device for landscaping according to claim 5, characterized in that: The bottom end of the collection box (17) is inserted into the placement hole between the adjacent support plate (15). The bolts are used to fix the box by passing through the support plate (15) and the threaded hole in sequence. The top of the protective cylinder (9) is provided with a support frame (16). The end of the high-pressure nozzle (11) is inserted into the inside of the support frame (16), and the connection port of the end of the high-pressure nozzle (11) is connected to the outlet of the water pump (10) through a delivery pipe.