Garden greening micro-sprinkling tape winding and cleaning equipment
By designing a garden greening micro-spraying tape winding and cleaning equipment, the problem of low micro-spraying tape storage efficiency and cleaning difficulty is solved by utilizing the coordinated cleaning of annular spray pipes, lower scrapers and guide rollers, thereby improving construction efficiency and equipment reliability.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ANHUI QINYU CONSTR ENG CO LTD
- Filing Date
- 2025-07-28
- Publication Date
- 2026-06-23
AI Technical Summary
The existing technology for micro-spray tape is not convenient to store when it is rolled up. The storage efficiency is low, there is a lack of special tools, and manual cleaning is required after outdoor use, which increases the maintenance burden and poses a risk of nozzle blockage.
Design a garden greening micro-spray tape winding and cleaning device. Combining a reel and cleaning device, it achieves automatic cleaning through the coordinated action of annular spray pipe, lower scraper, upper scraper and guide roller, avoiding spray hole clogging and improving winding efficiency and cleaning effect.
It enables automatic cleaning of micro-spraying belts, reduces manual operation, improves construction efficiency, extends equipment life, reduces operation and maintenance costs, and adapts to the flexibility requirements of garden construction.
Smart Images

Figure CN224394335U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of greening device technology, and in particular to a garden greening micro-spray tape winding and cleaning device. Background Technology
[0002] In landscaping construction and maintenance, micro-sprinkler tape has become an important tool for construction teams to handle temporary greening projects due to its low cost, easy deployment, and reusability. For example, when cultivating seedlings in nurseries in spring or arranging festive landscapes, construction teams can quickly lay micro-sprinkler tape to meet irrigation needs. After the project is completed, it can be easily rolled up and transferred to the next site, avoiding the limitations of traditional buried sprinkler systems that require long-term fixed installation. Compared with rotary sprinklers that require complex installation, the flexible laying method of micro-sprinkler tape significantly lowers the construction threshold, making it especially suitable for short-term projects with limited budgets and tight schedules.
[0003] However, the construction team discovered the following practical problems during use: First, the storage efficiency is insufficient. Currently, the placement and removal of the micro-spraying tape relies on manual operation, and there is a lack of specialized tools. A lot of time is spent organizing the equipment when relocating and deploying it. Second, after outdoor use, the tape is stained with mud and other dirt, which requires manual cleaning, increasing the maintenance burden on the construction team. In view of the actual needs of the construction team in terms of project efficiency, labor costs, and equipment reliability, it is necessary to optimize the storage convenience and laying stability of the micro-spraying tape to improve its practicality in landscaping construction scenarios. Utility Model Content
[0004] To address the aforementioned problems, this utility model provides a garden greening micro-spraying tape winding and cleaning device, which solves the problem of micro-spraying tape winding and unwinding relying on manual operation and lacking special tools. At the same time, it solves the problem of micro-spraying tape not being automatically cleaned during winding, which may cause blockage of the micro-spraying tape nozzles.
[0005] The technical solution of this utility model is as follows:
[0006] A garden greening micro-spraying tape winding and cleaning device includes a reel for winding the micro-spraying tape. Connecting plates are symmetrically arranged on both sides of the reel. The reel shaft passes through one of the connecting plates and is connected to a hand crank at the end. A push handle is provided on the upper part of the connecting plate. The lower part of the connecting plate is connected to a rear wheel and a front support frame respectively. A cleaning device is provided at the front end of the support frame.
[0007] The cleaning device includes a mounting frame connected to a support frame, an annular spray pipe is installed inside the mounting frame, a number of nozzles are spaced apart on the inner circle of the annular spray pipe, the water outlet end of the nozzle faces the micro-spray belt, a lower scraper is provided on the side of the annular spray pipe, the micro-spray belt passes through the annular spray pipe and is supported upward by the lower scraper.
[0008] The mounting frame also includes spaced-apart upper scrapers and guide rollers. The upper scrapers press against the upper surface of the micro-spray belt, and the guide rollers support the micro-spray belt upwards. The cleaning device effectively removes impurities from the surface of the micro-spray belt through the combined action of spraying and scraping, preventing the spray holes from clogging, improving the uniformity of spraying, ensuring the irrigation effect of landscaping, and reducing damage to the micro-spray belt caused by impurities and wear, thus extending its service life.
[0009] Furthermore, one of the connecting plates is provided with a sliding spring pin, and the reel is provided with a through hole that matches the sliding spring pin. The sliding spring pin cooperates with the through hole to realize quick locking and unlocking of the reel and prevent the reel from rotating after winding.
[0010] Furthermore, the support frame is U-shaped and includes two parallel, spaced-apart uprights and a bottom support crossbar for connecting the two uprights. The cleaning device is hinged to the bottom support crossbar via a damped rotary joint. The cleaning device is foldable, which reduces the equipment's footprint and facilitates equipment transportation.
[0011] Furthermore, the mounting frame includes two parallel connecting pipes spaced apart. One end of each connecting pipe is hinged to the bottom support crossbar via the damping rotary joint, and the other end is bolted to a mounting base, facilitating assembly, disassembly, and maintenance.
[0012] Furthermore, the annular nozzle is installed between two corresponding mounting seats. The water inlet pipe of the annular nozzle passes through one of the mounting seats and is connected to a quick-connect fitting. The lower scraper is installed at the front end of the mounting seat. After assembly, the lower scraper is located at the axial center of the annular nozzle. The micro-spray belt passes through the middle of the annular nozzle after passing the lower scraper, ensuring that there are no dead corners in the cleaning when the micro-spray belt passes through the annular nozzle.
[0013] Furthermore, mounting plates are symmetrically provided on one side of the two connecting pipes near the damping rotary joint. The upper scraper and guide roller are installed between the two corresponding mounting plates. The mounting plates are provided with L-shaped mounting grooves with openings in the vertical sections. The guide rollers enter from the vertical sections of the corresponding two L-shaped mounting grooves and rotate to the bottom of the horizontal section for installation.
[0014] Furthermore, the outer side of the mounting plate is provided with a latch, and the latch has a groove that cooperates with the guide roller. The groove is located at the horizontal section of the L-shaped mounting groove. The latch provides secondary fixation for the guide roller to prevent it from shifting due to vibration or external force during equipment operation.
[0015] Furthermore, the upper scraper has a wave-shaped flow guide structure, which is used to guide the scraped material to both sides. The wave-shaped flow guide structure prevents scraped impurities from accumulating on the surface of the micro-spray belt, prevents impurities from re-attaching or being rolled into the reel, and improves the thoroughness of cleaning.
[0016] The beneficial effects of this utility model are as follows:
[0017] 1. This utility model links the cleaning device with the reel, so that the micro-spray tape is automatically sprayed and scraped during winding, eliminating the need for a separate cleaning process, saving time, improving work efficiency, and meeting the timeliness requirements of garden construction.
[0018] 2. This utility model forms a three-dimensional cleaning system by installing an annular spray pipe, a lower scraper, an upper scraper, and a guide roller within the mounting frame. This achieves a synergistic effect of spraying and scraping, effectively removing impurities from the surface of the micro-spray belt and preventing the spray nozzles from becoming clogged.
[0019] 3. This utility model has a lower scraper installed on the side of the annular nozzle. After assembly, the lower scraper is located in the axial middle position of the annular nozzle. The micro-spray belt passes through the middle of the annular nozzle after passing the lower scraper, ensuring that there are no dead corners when the micro-spray belt passes through the annular nozzle.
[0020] 4. This utility model reduces the equipment footprint by designing the cleaning device as a foldable (damped rotating joint), facilitating transportation and relocation (such as rapid movement between nurseries and green belts), and enhancing its adaptability to various landscaping construction scenarios. Attached Figure Description
[0021] Figure 1 This is a schematic diagram of the structure of this utility model.
[0022] Figure 2 This is a schematic diagram of the cleaning device structure of this utility model. Figure 1 .
[0023] Figure 3 This is a schematic diagram of the cleaning device structure of this utility model. Figure 2 .
[0024] Figure 4 This is a schematic diagram of the mounting plate and locking structure of this utility model.
[0025] Figure 5 This is a schematic diagram of the folded structure of the cleaning device of this utility model.
[0026] Figure 6 This is a schematic diagram of the installation of the sliding spring pin of this utility model.
[0027] Reference numerals: 1. Reel; 2. Connecting plate; 3. Hand crank; 4. Push handle; 5. Wheel; 6. Support frame; 7. Cleaning device; 7-1. Annular nozzle; 7-1.1. Quick connector; 7-2. Lower scraper; 7-3. Upper scraper; 7-4. Guide roller; 7-5. Mounting base; 7-6. Mounting plate; 7-6.1. Locking buckle; 8. Sliding spring pin; 9. Damped rotary joint. 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 of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments.
[0029] like Figures 1 to 6 As shown, a garden greening micro-spraying tape winding and cleaning device includes a reel 1 for winding the micro-spraying tape. Connecting plates 2 are symmetrically arranged on both sides of the reel 1. The reel 1's shaft passes through one of the connecting plates 2 and is connected to a hand crank 3 at the end. A push handle 4 is provided on the upper part of the connecting plate 2. The lower part of the connecting plate 2 is connected to the rear wheel 5 and the front support frame 6 respectively. A cleaning device 7 is provided at the front end of the support frame 6.
[0030] The cleaning device 7 includes a mounting frame connected to the support frame 6. An annular nozzle 7-1 is installed inside the mounting frame. The inner ring of the annular nozzle 7-1 is provided with several nozzles at intervals. The water outlet of the nozzles faces the micro-spray belt. A lower scraper 7-2 is provided on the side of the annular nozzle 7-1. The micro-spray belt passes through the annular nozzle 7-1 and is supported upward by the lower scraper 7-2.
[0031] The mounting frame also includes spaced-apart upper scraper bars 7-3 and guide rollers 7-4. The upper scraper bars 7-3 press against the upper surface of the micro-spray belt, and the guide rollers 7-4 support the micro-spray belt upwards. The cleaning device 7 effectively removes impurities from the surface of the micro-spray belt through the combined action of spraying and scraping, preventing the spray holes from clogging, improving the uniformity of spraying, ensuring the irrigation effect of landscaping, and reducing damage to the micro-spray belt caused by wear from impurities, thus extending its service life.
[0032] Furthermore, one of the connecting plates 2 is provided with a sliding spring pin 8, and the reel 1 is provided with a through hole that matches the sliding spring pin 8. The sliding spring pin 8 cooperates with the through hole to realize the quick locking and unlocking of the reel 1, preventing the reel 1 from rotating after winding.
[0033] Furthermore, the support frame 6 is U-shaped in general, including two parallel and spaced uprights and a bottom support crossbar for connecting the two uprights. The cleaning device 7 is hinged to the bottom support crossbar through a damped rotating joint 9. The cleaning device 7 adopts a folding method, which reduces the equipment's footprint and facilitates equipment transportation.
[0034] Furthermore, the mounting frame includes two parallel connecting tubes spaced apart. One end of each connecting tube is hinged to the bottom support crossbar via a damped rotary joint 9, and the other end is bolted to a mounting base 7-5, facilitating assembly, disassembly, and maintenance.
[0035] Furthermore, the annular nozzle 7-1 is installed between two corresponding mounting seats 7-5. The water inlet pipe of the annular nozzle 7-1 passes through one of the mounting seats 7-5 and is connected to a quick-connect fitting 7-1.1. The lower scraper 7-2 is installed at the front end of the mounting seat 7-5. After assembly, the lower scraper 7-2 is located at the axial center of the annular nozzle 7-1. The micro-spray belt passes through the lower scraper 7-2 and then through the center of the annular nozzle 7-1, ensuring that there are no dead corners in the cleaning when the micro-spray belt passes through the annular nozzle 7-1.
[0036] Furthermore, mounting plates 7-6 are symmetrically provided on one side of the two connecting pipes near the damping rotary joint 9. An upper scraper 7-3 and a guide roller 7-4 are installed between the two corresponding mounting plates 7-6. The mounting plates 7-6 are provided with L-shaped mounting grooves. The vertical section of the L-shaped mounting groove is open. The guide roller 7-4 enters from the vertical section of the two corresponding L-shaped mounting grooves and rotates to the bottom of the horizontal section for installation.
[0037] Furthermore, the outer side of the mounting plate 7-6 is provided with a latch 7-6.1. The latch 7-6.1 is provided with a groove that cooperates with the guide roller 7-4. The position of the groove corresponds to the horizontal section of the L-shaped mounting groove. The latch 7-6.1 provides secondary fixation for the guide roller 7-4 to prevent it from shifting due to vibration or external force during equipment operation.
[0038] Furthermore, the upper scraper 7-3 has a wave-shaped flow guide structure, which is used to guide the scraped material to both sides. The wave-shaped flow guide structure prevents scraped impurities from accumulating on the surface of the micro-spray belt, prevents impurities from re-adhering or being rolled into the reel 1, and improves the thoroughness of cleaning.
[0039] The above description is only a preferred embodiment of the present utility model, but the protection scope of the present utility model is not limited thereto. Any equivalent substitutions or changes made by those skilled in the art within the technical scope disclosed in the present utility model, based on the technical solution and the inventive concept of the present utility model, should be included within the protection scope of the present utility model.
Claims
1. A garden greening micro-spraying tape winding and cleaning device, comprising a reel for winding the micro-spraying tape, connecting plates symmetrically arranged on both sides of the reel, a reel shaft passing through one of the connecting plates and connected to a hand crank at its end, a push handle provided on the upper part of the connecting plate, and the lower part of the connecting plate connected to a rear wheel and a front support frame, characterized in that, The front end of the support frame is equipped with a cleaning device; The cleaning device includes a mounting frame connected to a support frame, an annular spray pipe is installed inside the mounting frame, a number of nozzles are spaced apart on the inner circle of the annular spray pipe, the water outlet end of the nozzle faces the micro-spray belt, a lower scraper is provided on the side of the annular spray pipe, the micro-spray belt passes through the annular spray pipe and is supported upward by the lower scraper. The mounting frame also includes spaced-apart upper scrapers and guide rollers. The upper scrapers press against the upper surface of the micro-spraying belt, and the guide rollers support the micro-spraying belt upwards.
2. The garden greening micro-sprinkler tape winding and cleaning equipment according to claim 1, characterized in that, One of the connecting plates is provided with a sliding spring pin, and the reel is provided with a through hole that matches the sliding spring pin.
3. The garden greening micro-sprinkler belt winding and cleaning equipment according to claim 1, characterized in that, The support frame is U-shaped and includes two parallel, spaced-apart uprights and a bottom support crossbar for connecting the two uprights. The cleaning device is hinged to the bottom support crossbar via a damped rotary joint.
4. The garden greening micro-sprinkler belt winding and cleaning equipment according to claim 3, characterized in that, The mounting frame includes two parallel connecting tubes spaced apart. One end of each connecting tube is hinged to the bottom support crossbar via the damping rotary joint, and the other end is connected to a mounting base.
5. A garden greening micro-sprinkler belt winding and cleaning device according to claim 4, characterized in that, The annular nozzle is installed between two corresponding mounting seats. The water inlet pipe of the annular nozzle passes through one of the mounting seats and is connected to a quick-connect fitting. The lower scraper is installed at the front end of the mounting seat. After assembly, the lower scraper is located at the axial center of the annular nozzle.
6. A garden greening micro-sprinkler belt winding and cleaning device according to claim 4, characterized in that, The two connecting pipes are symmetrically provided with mounting plates on one side near the damping rotary joint. The upper scraper and guide roller are installed on the two corresponding mounting plates at intervals. The mounting plates are provided with L-shaped mounting grooves with openings in the vertical sections. The guide rollers enter from the vertical sections of the corresponding two L-shaped mounting grooves and rotate to the bottom of the horizontal section for installation.
7. A garden greening micro-sprinkler belt winding and cleaning device according to claim 6, characterized in that, Each mounting plate is equipped with a latch on its outer side, and the latch has a groove that cooperates with the guide roller. The position of the groove corresponds to the horizontal section of the L-shaped mounting groove.
8. A garden greening micro-sprinkler belt winding and cleaning device according to claim 6, characterized in that, The upper scraper has a wave-shaped flow guide structure, which is used to guide the scraped material to both sides.