Multifunctional garden vertical plant wall structure

By incorporating an inverted trapezoidal trough and irrigation trough design, combined with a rapid cleaning device, the problem of easy clogging in the irrigation system of vertical green walls is solved, achieving efficient and low-cost green wall management and cleaning.

CN224319952UActive Publication Date: 2026-06-05ZHEJIANG XINCHUANG PLANNING & ARCHITECTURAL DESIGN CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHEJIANG XINCHUANG PLANNING & ARCHITECTURAL DESIGN CO LTD
Filing Date
2025-05-26
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

Existing vertical green walls have complicated irrigation system maintenance and are prone to clogging, resulting in high installation and maintenance costs, affecting aesthetics and occupying a large area.

Method used

It adopts an inverted trapezoidal trough and irrigation trough design, combined with a rapid cleaning device, including a metal trough plate, cover plate and cleaning brush, to achieve efficient cleaning through synchronous connection plate.

Benefits of technology

It simplifies the irrigation and management process of green walls, reduces maintenance difficulty and costs, improves cleaning efficiency, and maintains aesthetics while saving space.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224319952U_ABST
    Figure CN224319952U_ABST
Patent Text Reader

Abstract

The utility model provides a kind of multi-functional garden vertical plant wall structure, including vertical wall, several modular flower pots and irrigation device, the vertical wall has several inverted trapezoidal grooves on the side wall surface, and the inverted trapezoidal groove between two adjacent rows forms a load-bearing beam, the load-bearing beam has several flow-through grooves for irrigation water flow, and the several flow-through grooves are each provided with a quick cleaning device for preventing clogging and dredging of the groove wall.
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, and in particular to a multifunctional vertical plant wall structure for gardens. Background Technology

[0002] Vertical greening refers to the selection of suitable plants and the application of various technical means to cover the surfaces of structures, buildings, and other spatial structures with green plants, thereby extending the plants into the space. Vertical greening includes wall greening, pergola greening, fence greening, balcony greening, slope greening, etc.

[0003] In wall greening, some plant walls use sloping walls to save costs and facilitate planting and watering. However, such plant walls not only affect the aesthetics but also increase the area occupied. Vertical green walls are too expensive to install and irrigate, and the irrigation system requires frequent maintenance to avoid blockages. The maintenance of the irrigation system for vertical green walls is also cumbersome and inconvenient, making the choice of green wall structure a dilemma that urgently needs improvement. Utility Model Content

[0004] To address the shortcomings of the aforementioned technologies, this utility model provides a multifunctional vertical garden plant wall structure, comprising a vertical wall, several modular flower pots, and an irrigation device. The modular flower pots are installed on the surface of the vertical wall, and the irrigation device is located at the top of the vertical wall. Several inverted trapezoidal grooves matching the shape and size of the modular flower pots are formed on one side of the vertical wall. A load-bearing beam is formed between adjacent rows of inverted trapezoidal grooves. The irrigation device includes a water tank, water pipes, a water pump, an irrigation trough, and several irrigation pipes. The irrigation trough is fixedly located at the top of the vertical wall. The water tank is connected to the irrigation trough via the water pump and water pipes. The irrigation trough is connected to the inverted trapezoidal groove at the very top of the vertical wall via several irrigation pipes. Several flow channels for irrigation water circulation are formed on the load-bearing beam, and each flow channel is equipped with a rapid cleaning device to prevent blockage and unblock the channel walls.

[0005] By adopting the above technical solution, several inverted trapezoidal grooves with an angle are set on the vertical wall. When arranging green plants, modular flower pots only need to be placed into the inverted trapezoidal grooves without the need for additional auxiliary fixing devices. Furthermore, by setting several irrigation troughs on the load-bearing beams, the irrigation water flowing from the irrigation device located at the top of the vertical wall can flow down from the top and through the irrigation troughs to the green plants in the next inverted trapezoidal groove. In order to prevent the irrigation troughs from being blocked, easy-to-operate and easy-to-maintain cleaning devices are set in the irrigation troughs, thus solving the problems of difficult irrigation and management of green walls.

[0006] Further features of this invention: The rapid cleaning device includes a metal trough plate, a cover plate, and a cleaning brush. The shape and size of the metal trough plate match the flow channel. The metal trough plate is fixedly installed inside the flow channel. The two ends of the cover plate are slidably engaged with the two side walls of the metal trough plate. A through hole is provided near the bottom of the cover plate. A threaded hole matching the through hole is opened at the tail of the cleaning brush. The cleaning brush is detachably connected to the cover plate by means of mounting screws passing through and engaging with the threaded hole.

[0007] By adopting the above technical solution, the rapid cleaning device includes a metal trough plate, a cover plate, and a cleaning brush. The shape and size of the metal trough plate match the flow channel. The metal trough plate is fixedly installed in the flow channel. The two ends of the cover plate are slidably engaged with the two side walls of the metal trough plate. A through hole is provided near the bottom of the cover plate. A threaded hole matching the through hole is opened at the tail of the cleaning brush. The cleaning brush is detachably connected to the cover plate by the engagement of the mounting screw and the threaded hole. By embedding the metal trough plate in the flow channel and then cleaning the metal trough plate with the cleaning brush, cleaning is made easier. When cleaning, simply push the cover plate up and down back and forth to drive the cleaning brush to clean the surface of the metal trough plate from bottom to top and wipe away the dirt. When cleaning is not needed, the cover plate naturally droops under the action of gravity and completely covers the metal trough plate.

[0008] A further feature of this invention is that the cover plate is also provided with a push block for facilitating the up-and-down movement of the cover plate.

[0009] By adopting the above technical solution, since the cover plate is also provided with a push block for easy up and down pushing of the cover plate, cleaning can be carried out simply by standing on the ground and using a rod to hold the push block, which reduces the difficulty of cleaning.

[0010] A further feature of this invention is that adjacent cover plates on the load-bearing beam are connected by synchronous connecting plates.

[0011] By adopting the above technical solution, since the adjacent cover plates on the load-bearing beam are connected by synchronous connecting plates, all cover plates can be moved by pushing one cover plate, and all metal channels on the same load-bearing beam can be cleaned at the same time, thus improving the cleaning efficiency. Attached Figure Description

[0012] Appendix Figure 1 This is a schematic diagram of a multifunctional vertical plant wall structure for gardens, according to a specific embodiment of this utility model.

[0013] Appendix Figure 2 This is a partial exploded view of a multifunctional vertical plant wall structure for gardens, according to a specific embodiment of this utility model.

[0014] Appendix Figure 3 This is a partial exploded view of a multifunctional vertical plant wall structure for gardens, according to a specific embodiment of this utility model.

[0015] 1-Vertical wall, 2-Modular flower pot, 3-Irrigation device, 4-Inverted trapezoidal groove, 5-Load-bearing beam, 6-Water tank, 7-Water pipe, 8-Water pump, 9-Irrigation trough, 10-Irrigation pipe, 11-Flow channel, 12-Quick cleaning device, 13-Metal trough plate, 14-Cover plate, 15-Cleaning brush, 16-Through hole, 17-Mounting screw, 18-Push block, 19-Synchronous connection plate. Detailed Implementation

[0016] like Figure 1-3 As shown, a multifunctional vertical garden plant wall structure includes a vertical wall 1, several modular flower pots 2, and an irrigation device 3. The modular flower pots are installed on the wall surface of the vertical wall, and the irrigation device is located at the top of the vertical wall. Several inverted trapezoidal grooves 4, matching the shape and size of the modular flower pots, are opened on one side of the vertical wall. A load-bearing beam 5 is formed between two adjacent rows of inverted trapezoidal grooves. The irrigation device includes a water tank 6, water pipes 7, water pump 8, irrigation trough 9, and several irrigation pipes 10. The irrigation trough is fixedly installed at the top of the vertical wall. The water tank is connected to the irrigation trough through the water pump and water pipes. The irrigation trough is connected to the inverted trapezoidal groove at the top of the vertical wall through several irrigation pipes. Several flow channels 11 for irrigation water flow are opened on the load-bearing beam. Each of the flow channels is equipped with a quick cleaning device 12 for preventing blockage and unblocking of the channel walls.

[0017] By setting several inverted trapezoidal grooves with an angle on the vertical wall, modular flower pots can be simply placed into the grooves when arranging greenery, without the need for additional auxiliary fixing devices. Furthermore, by setting several irrigation troughs on the load-bearing beams, irrigation water flowing from the irrigation device located at the top of the vertical wall can flow down from the top and through the irrigation troughs to the greenery in the next inverted trapezoidal groove. To prevent the irrigation troughs from becoming clogged, easy-to-operate and easy-to-maintain cleaning devices are installed inside the irrigation troughs, thus solving the problems of difficult irrigation and management of green walls.

[0018] The rapid cleaning device includes a metal trough plate 13, a cover plate 14, and a cleaning brush 15. The shape and size of the metal trough plate match the flow channel. The metal trough plate is fixedly installed in the flow channel. The two ends of the cover plate are slidably engaged with the two side walls of the metal trough plate. A through hole 16 is provided near the bottom of the cover plate. The tail of the cleaning brush has a threaded hole that matches the through hole. The cleaning brush is detachably connected to the cover plate by mounting screws 17 passing through and engaging with the threaded hole.

[0019] The rapid cleaning device includes a metal tray, a cover plate, and a cleaning brush. The shape and size of the metal tray match the flow channel. The metal tray is fixedly installed inside the flow channel. The two ends of the cover plate slide against the side walls of the metal tray. A through hole is provided near the bottom of the cover plate. A threaded hole matching the through hole is provided at the tail of the cleaning brush. The cleaning brush is detachably connected to the cover plate by mounting screws through the threaded hole. By embedding the metal tray in the flow channel and then cleaning the metal tray with the cleaning brush, cleaning becomes easier. When cleaning, simply push the cover plate up and down to move the cleaning brush from bottom to top to clean the surface of the metal tray and wipe away dirt. When cleaning is not needed, the cover plate naturally droops under the force of gravity and completely covers the metal tray.

[0020] The cover plate is also provided with a pusher block 18 for facilitating the up and down movement of the cover plate.

[0021] Since the cover plate is also equipped with a push block for easy up and down movement, cleaning can be carried out simply by standing on the ground and using a rod to hold the push block, which reduces the difficulty of cleaning.

[0022] The adjacent cover plates on the load-bearing beam are all connected by synchronous connecting plates 19.

[0023] Since adjacent cover plates on the load-bearing beam are connected by synchronous connecting plates, all cover plates can be moved by pushing one cover plate, and all metal channels on the same load-bearing beam can be cleaned at the same time, thus improving cleaning efficiency.

Claims

1. A multifunctional vertical plant wall structure for gardens, comprising a vertical wall, several modular flower pots, and an irrigation device, wherein the modular flower pots are installed on the surface of the vertical wall, and the irrigation device is located at the top of the vertical wall, characterized in that: Several inverted trapezoidal grooves matching the shape and size of modular flower pots are cut into one side of the vertical wall. A load-bearing beam is formed between two adjacent rows of inverted trapezoidal grooves. The irrigation device includes a water tank, water pipes, a water pump, an irrigation trough, and several irrigation pipes. The irrigation trough is fixedly installed at the top of the vertical wall. The water tank is connected to the irrigation trough through the water pump and water pipes. The irrigation trough is connected to the inverted trapezoidal groove at the top of the vertical wall through several irrigation pipes. Several flow channels for irrigation water flow are cut into the load-bearing beam. Each of the flow channels is equipped with a quick cleaning device to prevent blockage and unblock the channel walls.

2. A multifunctional vertical plant wall structure for gardens according to claim 1, characterized in that: The rapid cleaning device includes a metal trough plate, a cover plate, and a cleaning brush. The shape and size of the metal trough plate match the flow channel. The metal trough plate is fixedly installed in the flow channel. The two ends of the cover plate are slidably engaged with the two side walls of the metal trough plate. A through hole is provided near the bottom of the cover plate. A threaded hole matching the through hole is opened at the tail of the cleaning brush. The cleaning brush is detachably connected to the cover plate by mounting screws through the threaded hole.

3. A multifunctional vertical plant wall structure for gardens according to claim 2, characterized in that: The cover plate is also provided with a push block for facilitating the up and down movement of the cover plate.

4. A multifunctional vertical plant wall structure for gardens according to claim 2, characterized in that: The adjacent cover plates on the load-bearing beam are all connected by synchronous connecting plates.