A landscape wall for landscaping

Abstract

The utility model relates to the technical field of landscaping, specifically relates to a landscape wall for landscaping, which comprises a fixed frame, a transmission module and an irrigation module. The fixed frame comprises a hollow wall, a crossbeam, a vertical beam and the like, a support plate connects the hollow wall and the vertical beam, the crossbeam is perpendicular to the vertical beam, a connecting plate connects the vertical beam and a filler wall plate; the transmission module comprises a first chain wheel, a second chain wheel, a chain, a rolling module and a motor, the chain wheels are connected by the chain, and the rolling module is connected with the chain; the irrigation module comprises a water storage tank, a water inlet pipe, a water pump and the like connected in sequence, the water storage tank is located at the top end of the hollow wall, main water supply pipes and the like are located at the front side of the filler wall plate, and a water outlet hole penetrates the vertical beam and the filler wall plate. The landscape wall can automatically adjust the position of plants and is convenient to maintain.

Description

Technical Field

[0001] This utility model relates to the field of landscaping technology, and more specifically, to a landscape wall for landscaping. Background Technology

[0002] In the field of landscaping, landscape walls, as important greening facilities, are commonly used in urban greening and park landscaping. With the development of vertical greening technology, they are transforming from decorative structures to functional ecological carriers. The design needs to take into account plant growth, landscape effect, and ease of maintenance, but traditional landscape walls have obvious shortcomings in application.

[0003] Traditional landscape walls use a fixed frame combined with planting troughs, with fixed planting positions. Maintenance requires manual climbing, which poses safety hazards and is inefficient. It is also difficult to adjust the light and ventilation conditions for the plants. Irrigation relies heavily on manual labor or fixed pipes, lacking precise control and easily leading to uneven irrigation and water waste. At the same time, the structure lacks flexibility in planting modules, drainage collection function, and stability of the supporting structure. The synergy between landscape and ecological functions also needs to be improved. Utility Model Content

[0004] In view of this, this utility model addresses the shortcomings of the existing technology by proposing a landscape wall for garden greening, aiming to solve the problem of the difficulty in maintaining traditional viewing walls.

[0005] This utility model provides a landscape wall for landscaping, comprising:

[0006] A fixed frame includes: a hollow wall, horizontal beams, vertical beams, connecting plates, support plates, and infill wall panels. Two support plates are provided, one end of each support plate is connected to the back side of the hollow wall, and the other ends of the two support plates are directly connected to one end of the vertical beam. The horizontal beams are perpendicularly connected to the vertical beams, and both ends of the horizontal beams are connected to the hollow wall. The connecting plates connect the vertical beams and the infill wall panels on both sides respectively. A transmission module includes: a first sprocket, a second sprocket, a chain, a rolling module, and a motor. The first sprocket is connected to the motor. The first sprocket and the second sprocket are connected by the chain, and the rolling module is connected to the chain. The first sprocket and the second sprocket are respectively located at both ends of the vertical beam. The irrigation module includes: a water storage tank, a water inlet pipe, a water pump, a water outlet pipe, a water outlet hole, a main water supply pipe, and a water spraying module connected in sequence. The water storage tank is set at the top of the hollow wall. The water storage tank, the water inlet pipe, and the main water supply pipe are vertically set on the front side of the infill wall panel. The water outlet hole is set on the vertical beam and passes through the vertical beam and the infill wall panel.

[0007] Furthermore, the inner wall of the hollow wall is provided with a groove, which is continuously arranged along the circumference of the inner wall of the hollow wall.

[0008] Furthermore, the rolling module is disposed within the groove. The rolling module includes: rollers, roller shafts, a fixed plate, a reinforcing plate, a mounting rod, and a sliding hole. The two ends of the reinforcing plate are bent, and the bent portion of the reinforcing plate is disposed between the rollers and the roller shaft. The reinforcing plate is integrally connected to the fixed plate. Four rollers are disposed on the front side of the fixed plate, and two adjacent rollers are disposed on the back side of the fixed plate. The four rollers are disposed within the groove, and the two adjacent rollers are in contact with the back side of the infill wall panel. The mounting rod is connected to the chain, and a planting module is connected to the sliding hole. The planting module is used for planting plants.

[0009] Furthermore, the planting module includes a sliding rod, a steel wire rope, and a circular tray. The sliding rod is slidably connected to the sliding hole. Several steel wire ropes are provided, with one end of each steel wire rope connected to the sliding rod and the other end of each steel wire rope circumferentially connected to the circular tray.

[0010] Furthermore, the chain is provided with a T-shaped plate, one end of which is provided with two symmetrical mounting holes that are connected to the chain, and the other end of which is provided with an assembly hole that is connected to the mounting rod.

[0011] Furthermore, a mounting plate is fixed at the connection between the top of the vertical beam and the horizontal beam, and the motor is mounted on the mounting plate.

[0012] Furthermore, both the vertical beam and the mounting plate are provided with through holes for matching the first sprocket.

[0013] Furthermore, the water spray module includes: an output pipe, a branch pipe, and a nozzle. The output pipe is connected to the main water supply pipe. A baffle is provided at the bottom end of the main water supply pipe. The baffle is connected to the filling wall panel. The side wall of the main water supply pipe is fixed to the filling wall panel by a fastening bracket. The side wall of the branch pipe is connected to one end of the output pipe. The nozzle is provided at both ends of the branch pipe.

[0014] Furthermore, a collection pool is provided at the bottom of the front side of the hollow wall, which is used to collect fallen leaves and dripping water.

[0015] Furthermore, a reinforcing rib is provided between the water storage tank and the back side of the hollow wall, and the reinforcing rib is used to support the water tank.

[0016] Compared with the prior art, the advantages of this utility model are as follows: the fixed frame forms a stable support structure through the connection of components such as support plates and crossbeams, providing a reliable load-bearing foundation for the entire landscape wall; the motor in the transmission module drives the sprocket and chain to rotate, enabling the rolling module to move the planting module, realizing automatic adjustment of the plant position and facilitating plant maintenance; in the irrigation module, components such as the water storage tank and water pump are connected in sequence, and the main water supply pipe and water spraying module are set on the front side of the infill wall panel, with the water outlet passing through the vertical beam and the infill wall panel, which can realize automatic irrigation of the plants, ensuring the water required for plant growth and improving the convenience and efficiency of irrigation. Attached Figure Description

[0017] Figure 1 A schematic diagram of the overall structure of the landscape wall provided for an embodiment of this utility model.

[0018] Figure 2 A schematic diagram of the back structure of the landscape wall provided in an embodiment of this utility model.

[0019] Figure 3 A schematic diagram of the back side structure of the landscape wall provided in an embodiment of this utility model.

[0020] Figure 4 A schematic diagram of the chain and T-shaped plate connection structure provided in an embodiment of this utility model.

[0021] Figure 5 A schematic diagram of the T-shaped plate structure provided in an embodiment of this utility model.

[0022] Figure 6 This is a schematic diagram of the rolling module structure provided in an embodiment of the present utility model.

[0023] Figure 7 This is a schematic diagram of the water spray module structure provided in an embodiment of the present utility model.

[0024] Figure 8 This is a schematic diagram of the planting module structure provided in an embodiment of the present utility model.

[0025] Among them: 10. Hollow wall; 101. Reinforcing rib; 102. Groove; 103. Collection pool; 104. First sprocket; 105. Second sprocket; 106. Crossbeam; 107. Mounting plate; 108. Motor; 109. Water outlet; 110. Support plate; 111. Connecting plate; 112. Vertical beam; 20. Water tank; 30. Planting module; 301. Sliding rod; 302. Circular tray; 303. Steel wire rope; 304. Ventilation hole; 40. Rolling module; 40 1. Roller; 402. Reinforcing plate; 403. Roller shaft; 404. Mounting rod; 405. Sliding hole; 406. Fixing plate; 50. Water spray module; 501. Output pipe; 502. Nozzle; 503. Diverter pipe; 60. Infill wall panel; 601. Main water supply pipe; 602. Baffle; 603. Fastening clamp; 70. Water pump; 701. Water outlet pipe; 702. Water inlet pipe; 80. Chain; 801. T-shaped plate; 8011. Assembly hole; 8012. Mounting hole. Detailed Implementation

[0026] The technical solutions of the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this application, and not all embodiments. Based on the embodiments of this application, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the scope of protection of this application.

[0027] In the description of this application, it should be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this application and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this application.

[0028] The terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance or implicitly specifying the number of technical features indicated. Therefore, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of this application, unless otherwise stated, "a plurality of" means two or more.

[0029] In the description of this application, it should be noted that, unless otherwise expressly specified and limited, the terms "installation," "connection," and "linking" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; and they can refer to the internal connection between two components. Those skilled in the art can understand the specific meaning of the above terms in this application based on the specific circumstances.

[0030] like Figure 1-8 As shown, a preferred embodiment of the present invention provides a landscape wall for landscaping, comprising:

[0031] The fixed frame includes: a hollow wall 10, a horizontal beam 106, a vertical beam 112, a connecting plate 111, a support plate 110, and an infill wall panel 60. Two support plates 110 are provided; one end of each support plate 110 is connected to the back side of the hollow wall 10, and the other ends of each support plate 110 are directly connected to one end of the vertical beam 112. The horizontal beam 106 is perpendicularly connected to the vertical beam 112, and both ends of the horizontal beam 106 are connected to the hollow wall 10. The connecting plate 111 connects the vertical beam 112 to the infill wall panel 60 on both sides. The transmission module includes: a first sprocket 104, a second sprocket 105, a chain 80, a rolling module 40, and a motor 108. The first sprocket 104 and the motor 108... The machine 108 is connected, the first sprocket 104 and the second sprocket 105 are connected by the chain 80, the rolling module 40 is connected to the chain 80, and the first sprocket 104 and the second sprocket 105 are respectively located at both ends of the vertical beam 112; the irrigation module includes: a water storage tank 20, a water inlet pipe 702, a water pump 70, a water outlet pipe 701, a water outlet hole 109, a main water supply pipe 601 and a water spraying module 50 connected in sequence. The water storage tank 20 is set at the top of the hollow wall 10. The water storage tank 20, the water inlet pipe 702 and the main water supply pipe 601 are vertically set on the front side of the infill wall panel 60. The water outlet hole 109 is set on the vertical beam 112 and passes through the vertical beam 112 and the infill wall panel 60.

[0032] It should be noted that the fixed frame, through the connection of components such as the support plate 110 and the crossbeam 106, forms a stable support structure, providing a reliable load-bearing foundation for the entire landscape wall. In the transmission module, the motor 108 drives the sprocket and chain 80 to rotate, enabling the rolling module 40 to move the planting module 30, realizing automatic adjustment of the plant position and facilitating plant maintenance. In the irrigation module, components such as the water storage tank 20 and the water pump 70 are connected in sequence. The main water supply pipe 601 and the water spray module 50 are located on the front side of the infill wall panel 60. The water outlet 109 passes through the vertical beam 112 and the infill wall panel 60, which can realize automatic irrigation of the plants, ensuring the water required for plant growth and improving the convenience and efficiency of irrigation.

[0033] In some embodiments of this application, the inner sidewall of the hollow wall 10 is provided with a groove 102, and the groove 102 is continuously arranged along the circumferential direction of the inner sidewall of the hollow wall 10.

[0034] It should be noted that the grooves 102 are continuously embedded along the inner circumference of the hollow wall 10, forming a closed track structure. This design provides a stable running track for the rolling module 40, ensuring that the planting module 30 maintains vertical balance during movement and avoids deviation or swaying. On the other hand, the continuous distribution of the grooves 102 enhances the overall structural strength of the hollow wall 10, reducing local stress concentration in the wall by dispersing the load on the rollers 401, thus extending its service life. In addition, the depth of the grooves 102 is precisely matched with the size of the rollers 401, which limits the risk of the rollers 401 derailing, reduces running friction resistance, and improves transmission efficiency.

[0035] In some embodiments of this application, the rolling module 40 is disposed in the groove 102. The rolling module 40 includes: rollers 401, rollers 403, fixing plate 406, reinforcing plate 402, mounting rod 404 and sliding hole 405. The two ends of the reinforcing plate 402 are bent, and the bent part of the reinforcing plate 402 is disposed between the rollers 401 and the rollers 403. The reinforcing plate 402 and the fixing plate 406 are connected as one piece. Four rollers 401 are disposed on the front side of the fixing plate 406, and two adjacent rollers 401 are disposed on the back side of the fixing plate 406. The four rollers 401 are disposed in the groove 102. The two adjacent rollers 401 are in contact with the back side of the filling wall panel 60. The mounting rod 404 is connected to the chain 80. The sliding hole 405 is connected to the planting module 30, which is used for planting plants.

[0036] It should be noted that the rolling module 40 solves the maintenance difficulty problem through the bidirectional six-roller 401 constraint system and curvature reinforcement structure. The four front rollers 401 are precisely embedded in the annular groove 102 of the hollow wall 10 to form a radial rigid track, completely eliminating the risk of derailment. The two back rollers 401 are closely attached to the back side of the infill wall panel 60 to build a circumferential force couple balance and offset the gravity overturning moment of the planting module 30. The bent end of the reinforcing plate 402 is embedded between the rollers 401 and the roller shaft 403 and is fixedly connected to the fixing plate 406 to form an "I" beam structure, which converts the dynamic load of the chain 80 into a distributed pressure flow, and the local stress of the groove 102 decreases. The mounting rod 404 transmits motion directly to the chain 80 through the T-shaped plate 801. The sliding hole 405 and the sliding rod 301 of the planting module 30 form a slidable connection, thereby simultaneously solving the defects of high risk in the maintenance of traditional landscape walls and achieving the goal of plant position adjustment and zero climbing maintenance.

[0037] In some embodiments of this application, the planting module 30 includes a sliding rod 301, a steel wire rope 303, and a circular tray 302. The sliding rod 301 is slidably connected to a sliding hole 405. Several steel wire ropes 303 are provided, with one end of each steel wire rope 303 connected to the sliding rod 301 and the other end of each steel wire rope 303 circumferentially connected to the circular tray 302.

[0038] It should be noted that the planting module 30 adopts an innovative configuration of flexible suspension + rigid guidance: the sliding rod 301 and the sliding hole 405 of the rolling module 40 form a sliding pair to achieve vertical positioning of the planting unit; several steel wire ropes 303 are radially connected to the sliding rod 301 and the periphery of the circular tray 302 to construct an adaptive suspension system. The flexibility of the steel wire ropes 303 allows the tray to self-adjust its tilt angle when subjected to wind or growth stress, ensuring uniform light exposure for the plants; the bottom design of the circular tray 302, combined with the bottom ventilation holes 304, provides drainage and anti-siltation functions, allowing excess irrigation water to drip down along the ventilation holes 304 to avoid water accumulation and root rot; at the same time, this modular design can eliminate the risk of manual climbing for maintenance, achieving the goal of maintaining plants without climbing.

[0039] In some embodiments of this application, a T-shaped plate 801 is provided on the chain 80. Two mounting holes 8012 are symmetrically provided at one end of the T-shaped plate 801, which are connected to the chain 80. An assembly hole 8011 is provided at the other end of the T-shaped plate 801, which is connected to the mounting rod 404.

[0040] It should be noted that the T-shaped plate 801 achieves structural optimization of power transmission through a dual-level standardized interface design: the two mounting holes 8012 symmetrically distributed at one end of the T-shaped plate 801 form a double-sided synchronous fixed connection with the chain links of the chain 80, completely eliminating the stress concentration and off-center load risks caused by single-point connection; the assembly hole 8011 at the other end of the T-shaped plate 801 forms an axial self-locking hinge with the mounting rod 404 of the rolling module 40, allowing the mounting rod 404 to produce a slight deflection at the turning point of the chain 80 while transmitting vertical driving force, avoiding mechanical jamming caused by rigid connection. This design ensures that the power of the motor 108 is efficiently converted into the precise displacement of the planting module 30.

[0041] In some embodiments of this application, a mounting plate 107 is fixed at the connection between the top of the vertical beam 112 and the horizontal beam 106, and the motor 108 is mounted on the mounting plate 107.

[0042] It should be noted that the mounting plate 107 is rigidly fixed at the connection between the vertical beam 112 and the horizontal beam 106, thus constructing a highly stable base for the power system. The motor 108 achieves axial drive through the mounting plate 107 and the first sprocket 104, avoiding the risk of tooth skipping and chain derailment caused by the skew of the traditional sprocket. This integrated design also allows maintenance personnel to perform maintenance on the motor 108 from a safe plane on the top of the wall.

[0043] In some embodiments of this application, both the vertical beam 112 and the mounting plate 107 are provided with through holes for matching the first sprocket 104.

[0044] It should be noted that the matching between the through holes ensures that the motor 108 can accurately transmit the axial force to the first sprocket 104, thereby realizing the rolling of the rolling module 40.

[0045] In some embodiments of this application, the water spray module 50 includes: an output pipe 501, a diversion pipe 503, and a nozzle 502. The output pipe 501 is connected to the main water supply pipe 601. A baffle 602 is provided at the bottom end of the main water supply pipe 601. The baffle 602 is connected to the infill wall panel 60. The side wall of the main water supply pipe 601 is fixed to the infill wall panel 60 by a fastening clamp 603. The side wall of the diversion pipe 503 is connected to one end of the output pipe 501. The nozzle 502 is provided at both ends of the diversion pipe 503.

[0046] It should be noted that the water spray module 50 achieves efficient irrigation through a three-dimensional pipeline structure and multi-point anchoring design: the output pipe 501 is vertically connected to the side wall of the main water supply pipe 601, directing the water flow to the horizontally arranged branch pipe 503; the nozzles 502 symmetrically installed at both ends of the branch pipe 503 form a bidirectional spray, ensuring uniform water distribution to the plants; the baffle 602 at the bottom of the main water supply pipe 601 is connected to the infill wall panel 60 by a fastening clamp 603, effectively suppressing pipe vibration; the fastening clamp 603 set on the side wall of the main water supply pipe 601 adopts a ring clamp structure, distributed at multiple points along the pipe axis, fixing the main water supply pipe 601 as a whole to the surface of the infill wall panel 60, avoiding the risk of traditional pipe falling off.

[0047] In some embodiments of this application, a collection pool 103 is provided at the bottom of the front side of the hollow wall 10, and the collection pool 103 is used to collect fallen leaves and dripping water.

[0048] It should be noted that the collection pool 103 is integrated into the bottom of the front and side of the hollow wall 10. The collection pool 103 collects rainwater dripping from the irrigation module and fallen leaves from plants; at the same time, the sealed cavity structure of the collection pool 103 prevents debris from leaking out, reducing cleaning. This design maintains the integrity of the landscape while completely eliminating the risk of secondary pollution during maintenance, achieving a synergistic innovation between ecology and functionality.

[0049] In some embodiments of this application, a reinforcing rib 101 is provided between the water storage tank 20 and the back side of the hollow wall 10, and the reinforcing rib 101 is used to support the water tank 20.

[0050] It should be noted that the reinforcing rib 101 achieves permanent and stable load bearing of the water storage tank 20 through a triangular mechanical topology structure. Its plate-shaped rib extends obliquely upward with the back side of the hollow wall 10 as the base, forming a rigid triangular support area with the bottom of the water storage tank 20, which transforms the self-weight of the water tank 20 and the full water load into the axial pressure of the hollow wall 10 body, preventing the water tank 20 from falling.

[0051] The working process of this utility model is as follows: the starting motor 108 drives the first sprocket 104 to rotate, and the chain 80 drives the second sprocket 105 to rotate synchronously, so that the chain 80 pulls the fixed T-shaped plate 801 to move; the T-shaped plate 801 is linked to the rolling module 40 through the mounting rod 404, so that the four rollers 401 on its front side roll along the annular groove 102 on the inner side wall of the hollow wall 10, while the two rollers 401 on its back side slide against the back of the filling wall panel 60, so as to realize the stable position of the rolling module 40 in the vertical direction. The plant module 30, connected to the sliding hole 405 of the rolling module 40, moves up and down to automatically adjust the plant position. During irrigation, the water pump 70 pumps water from the water storage tank 20 into the main water supply pipe 601 through the inlet pipe 702 and the outlet pipe 701. The water flows through the outlet hole 109 on the vertical beam 112 into the spray module 50, and is sprayed bidirectionally by the nozzles 502 at both ends of the diversion pipe 503 to irrigate the plants. Excess dripping water and fallen leaves fall into the collection pool 103 at the bottom of the hollow wall 10 for centralized treatment.

[0052] Obviously, those skilled in the art can make various modifications and variations to this utility model without departing from its spirit and scope. Therefore, if these modifications and variations fall within the scope of the claims of this utility model and their equivalents, this utility model also intends to include these modifications and variations.

Claims

1. A landscape wall for landscaping, characterized by, The utility model relates to a kind of vertical planting wall, including: Fixed frame, including: hollow wall, crossbeam, vertical beam, connecting plate, support plate and filling wallboard, two support plates are provided, one end of two support plates is connected with the back side of hollow wall, the other end of two support plates is directly connected and is connected with one end of vertical beam, crossbeam is connected between vertical beam, two ends of crossbeam are connected with hollow wall, connecting plate is connected with vertical beam and filling wallboard respectively on both sides of connecting plate; Transmission module, including: first sprocket, second sprocket, chain, rolling module and motor, first sprocket is connected with motor, first sprocket is connected with second sprocket by chain, rolling module is connected with chain, first sprocket and second sprocket are located at two ends of vertical beam respectively; Irrigation module, including: water storage tank, water inlet pipe, water pump, water outlet pipe, water outlet hole, main water pipeline and water spraying module connected in sequence, water storage tank is arranged at the top of hollow wall, water storage tank, water inlet pipe, main water pipeline are vertically arranged on the front side of filling wallboard, water outlet hole is arranged on vertical beam, water outlet hole passes through vertical beam and filling wallboard.

2. The landscape wall for landscaping according to claim 1, wherein The inner side wall of the hollow wall is embedded with a groove, and the groove is continuously arranged along the circumference of the inner side wall of the hollow wall.

3. The landscape wall for landscaping according to claim 2, wherein The rolling module is arranged in the groove, and the rolling module comprises: a roller, a roller shaft, a fixed plate, a reinforcing plate, a mounting rod, and a sliding hole. The reinforcing plate is bent at both ends. The bending part of the reinforcing plate is arranged between the roller and the roller shaft. The reinforcing plate and the fixed plate are integrated. Four rollers are arranged on the front side of the fixed plate. Two adjacent rollers are arranged on the back side of the fixed plate. Four rollers are arranged in the groove. Two adjacent rollers are in contact with the back side of the filling wallboard. The mounting rod is connected with the chain. The sliding hole is connected with a planting module. The planting module is used for planting plants.

4. The landscape wall for landscaping according to claim 3, wherein The planting module comprises a sliding rod, a steel wire rope, and a circular tray. The sliding rod is slidably connected with the sliding hole. The steel wire rope is provided with a plurality of steel wire ropes. One end of the plurality of steel wire ropes is connected with the sliding rod. The other end of the steel wire rope is connected with the circumference of the circular tray.

5. The landscape wall for landscaping according to claim 3, wherein A T-shaped plate is arranged on the chain. Two mounting holes are symmetrically arranged at one end of the T-shaped plate. The mounting holes are connected with the chain. An assembly hole is arranged at the other end of the T-shaped plate. The assembly hole is connected with the mounting rod.

6. The landscape wall for landscaping according to claim 1, wherein An installation plate is fixed at the connection between the top end of the vertical beam and the crossbeam. The motor is arranged on the installation plate.

7. The landscape wall for landscaping according to claim 6, wherein The vertical beam and the installation plate are both provided with through holes matched with the first sprocket.

8. The landscape wall for landscaping according to claim 1, wherein The water spraying module comprises an output pipe, a shunt pipe, and a spray head. The output pipe is connected with the main water pipeline. A baffle is arranged at the bottom end of the main water pipeline. The baffle is connected with the filling wallboard. The sidewall of the main water pipeline is fixed on the filling wallboard by a fastening frame. The sidewall of the shunt pipe is connected with one end of the output pipe. The spray head is arranged at both ends of the shunt pipe.

9. The landscape wall for landscaping according to claim 1, wherein The hollow wall is provided with a collecting pool at the bottom of the front side, which is used for collecting fallen leaves and dripping water.

10. The landscape wall for landscaping according to claim 1, wherein The water storage tank is provided with a reinforcing rib between the back side of the hollow wall, which is used to support the water tank.

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