A green growing system

Abstract

The utility model relates to the technical field of green environmental protection, propose a kind of green planting system, including water tank, fixed pot subassembly, water pump irrigation subassembly and planting pot;Fixed pot subassembly includes two or more than the pot body of upper and lower layer stack assembly, installation cavity for accommodating installation planting pot is equipped on each pot body, planting pot is set to left and right staggered adjacent to the upper and lower two layers of pot body, planting space is formed between the upper and lower adjacent to the upper and lower two layers of pot body;Each pot body is equipped with the irrigation end cooperation with the liquid outlet end of water pump irrigation subassembly, irrigation end is correspondingly set to the upper of planting pot installation place, liquid is delivered to each pot body by water pump irrigation subassembly of water tank, liquid is finally irrigated to the corresponding planting pot from the irrigation end of each pot body.In green planting system, there are multiple layers of high stacking and forming three-dimensional planting space, for user pruning, planting and viewing.

Description

Technical Field

[0001] This utility model relates to the field of green and environmentally friendly technology, specifically to a green planting system. Background Technology

[0002] Indoor ornamental plants play multiple important roles in improving the indoor environment. They not only add natural beauty to interior spaces through their rich forms, varied colors, and unique textures, but also inject vitality into the static environment through their dynamic growth processes, such as the unfolding of new leaves and the blooming of flower buds, thus creating a more vibrant and harmonious living or working atmosphere. By simulating the visual effects of natural ecosystems, these plants can effectively alleviate the sense of oppression felt by modern people in enclosed spaces, satisfying their psychological need for nature, thereby improving mood, reducing stress, and promoting overall physical and mental health. Furthermore, different varieties of ornamental plants can adapt to diverse decorating styles, from minimalist modern to classic elegance, enhancing the aesthetic level of a space through appropriate plant arrangements, making the environment more personalized and artistic.

[0003] Therefore, it is necessary to design a green planting system that can reduce manual watering and can grow a variety of plants. Utility Model Content

[0004] This utility model proposes a green planting system. The fixed pot assembly includes two or more pots that are stacked one on top of the other. The planting pots of the adjacent upper and lower pots are staggered to the left and right so that a planting space is formed between the upper and lower pots. The green planting system has multiple stacked layers to form a three-dimensional planting space for users to prune, plant and appreciate.

[0005] A green planting system designed for this purpose includes a water tank, a fixed pot assembly, a water pump irrigation assembly, and planting pots;

[0006] The fixed pot assembly includes two or more pots stacked vertically, each pot having an installation cavity for accommodating the planting pots. The planting pots of adjacent upper and lower pots are staggered horizontally, and a planting space is formed between the upper and lower parts of adjacent upper and lower pots.

[0007] Each pot is equipped with a watering end that matches the liquid outlet of the water pump irrigation component. The watering end is positioned above the planting pot installation location. The liquid in the water tank is delivered to each pot via the water pump irrigation component, and the liquid is finally poured from the watering end of each pot into the corresponding planting pot.

[0008] The basin includes a main body and an inclined section extending upward toward the main body; the mounting cavity is provided on the main body, and the inclined section is provided with an irrigation channel connecting to the watering end;

[0009] The main body is provided with a groove above the planting pot installation location, and a hollow tube is provided on the groove corresponding to the irrigation channel. The hollow tube has a cavity forming the watering end.

[0010] The inner side of the inclined section of the basin is provided with several spaced reinforcing ribs. The first end of each reinforcing rib abuts against the inner side of the inclined section, and the second end of each reinforcing rib abuts against the outer side of the irrigation channel. The several reinforcing ribs and the irrigation channel constitute a high-strength multi-rib structure to increase the mechanical strength of the basin.

[0011] The inclined section of the basin has a straight section. When the upper and lower basins are assembled, the main body of the upper basin is fixed on the straight section of the lower basin. The straight section and the assembled main body are provided with a positioning and fitting part and a fixing and mounting part so that the straight section and the assembled main body can be positioned and fixedly connected.

[0012] The bottom of the inclined section of the basin is provided with an installation channel, and a supplementary light is provided on the installation channel. The inner bottom wall of the inclined section is provided with a light-transmitting window corresponding to the position of the installation channel, and the light from the supplementary light can shine into the interior of the basin through the light-transmitting window.

[0013] The supplementary light includes an LED light and a transparent light tube, with the LED light installed inside the transparent light tube;

[0014] The basin is provided with an assembly cavity for connecting the installation channel. Two or more basins are stacked one on top of the other, and the installation channel of each basin is connected to the assembly cavity. The transparent light tube of the supplementary light passes through the installation channel and assembly cavity of each basin in sequence along the stacking direction, so that the supplementary light forms a continuous lighting structure between the multiple basins.

[0015] The basin is equipped with a fixing clip for fixing the transparent light tube.

[0016] The water pump irrigation assembly includes a water pump and a water supply pipe; two or more basins are stacked one on top of the other, and the water supply pipe passes through the installation channel and assembly cavity of each basin in sequence along the stacking direction, so that the water supply pipe forms a continuous water supply channel between the multiple basins.

[0017] The bottom wall of the main body of each basin has a perforation that connects to the irrigation channel of the lower basin. One end of the water supply pipe is connected to the output end of the water pump, the input end of the water pump is connected to the outlet of the water tank, and the other end of the water supply pipe extends to the uppermost basin.

[0018] When the water pump is started, the liquid in the water tank is transported to the top basin via the water pump and water supply pipe. The liquid then flows from top to bottom through the perforations and irrigation channels of each basin.

[0019] The top basin is located on the straight section of the uppermost basin. The top basin has a mounting compartment for installing the planting pot. The upper inner side of the top basin has a slot for fixing and installing the supplementary light. The slot is located above the installation location of the planting pot.

[0020] The top basin is equipped with a fixing groove for fixing the water supply pipe, and the fixing groove is connected to the installation channel of the lower basin.

[0021] The water tank is equipped with a liquid storage chamber for storing liquid, and a water pump is installed on the electrical compartment. A water level detector is installed in the liquid storage chamber.

[0022] The electrical compartment is equipped with a power supply and controller on the inside or outside. The power supply, water pump, and water level detector are all electrically connected to the controller.

[0023] The water tank is provided with a liquid inlet on the top or side that connects to the liquid storage compartment;

[0024] The green planting system consists of two or more systems arranged side by side. A connector is provided between the two side by side green planting systems. One end of the connector is connected to the upper pot of the green planting system, and the other end of the connector is connected to the lower pot of the other green planting system.

[0025] When two or more green planting systems are set up side by side, a connecting pipe assembly is provided between two adjacent water tanks to connect the water passages between the two water tanks. The connecting pipe assembly includes a connecting pipe and a fixing member. The connecting pipe passes through the two water tanks, and the fixing member is connected to the connecting pipe and abuts against the inner side of one water tank. A sealing member is provided between the fixing member and the outer side of one water tank.

[0026] When the power supply and / or controller are installed inside the electrical compartment of the water tank, the water tank is provided with a cover for opening and closing the electrical compartment.

[0027] The beneficial technical effects of this utility model are as follows:

[0028] The fixed pot assembly includes two or more pots stacked one on top of the other. The planting pots of adjacent upper and lower pots are staggered to the left and right to create a planting space between the upper and lower pots. The green planting system has multiple stacked layers to form a three-dimensional planting space for users to prune, plant and enjoy.

[0029] An irrigation channel is provided between the upper and lower pots. Each pot has a watering end above the planting pot installation point. Only one watering end is needed. The liquid will be accurately diverted from the upper pot to the lower pot. The liquid flows through the planting substrate into the next pot. After watering, there is no water accumulation or root soaking.

[0030] Each basin contains several reinforcing ribs and irrigation channels, forming a high-strength multi-rib structure to increase the mechanical strength of the basin. This allows the fixed basin components to form multiple stacked layers based on their own strength, eliminating the need for additional rib structures.

[0031] The space formed below the irrigation channel is used for the concealed installation of grow lights and water supply pipes. Because there is an installation channel at the bottom of the sloping section of the pot, the grow light will not shine directly into the eyes of the user when standing at the angle of viewing the plant. The grow light provides supplemental lighting to the plant at an angle above it.

[0032] The top pot has a mounting compartment for installing planting pots. The upper inner side of the top pot has a slot for fixing and installing supplemental lights. The slot is located above the planting pot mounting location. The topmost planting pot has a ring of slots for installing LED lights (supplemental lights), which provide supplemental lighting to the plants from the bottom without shining directly into their eyes. Attached Figure Description

[0033] Figure 1 This is a three-dimensional structural diagram of a green planting system according to an embodiment of the present invention.

[0034] Figure 2 This is a schematic diagram of the assembly and disassembly structure of a green planting system according to an embodiment of the present invention.

[0035] Figure 3 This is a three-dimensional structural diagram showing the assembly and disassembly of the upper and lower basins according to an embodiment of the present invention.

[0036] Figure 4 This is a schematic diagram of the three-dimensional structure of the upper and lower basins after assembly according to an embodiment of the present invention.

[0037] Figure 5 This is a schematic diagram of the three-dimensional cross-sectional structure of the upper and lower basins after assembly according to an embodiment of the present invention.

[0038] Figure 6 for Figure 5 Enlarged view of point A in the middle.

[0039] Figure 7 for Figure 5 Enlarged view of section B in the middle.

[0040] Figure 8 for Figure 5 Enlarged view of point C in the middle.

[0041] Figure 9 In one embodiment of this utility model, the basin body is provided with a perforation that connects to the irrigation channel.

[0042] Figure 10 This is a cross-sectional structural diagram of a green planting system according to an embodiment of the present invention.

[0043] Figure 11 This is a three-dimensional structural diagram of two green planting systems arranged side by side in one embodiment of the present invention.

[0044] Figure 12 This is a schematic diagram of the connection structure between the connector and the pots of two green planting systems according to an embodiment of the present invention.

[0045] Figure 13 for Figure 12 A magnified schematic diagram of a portion of the structure.

[0046] Figure 14 This is a schematic diagram of the structure of a connector according to an embodiment of the present invention.

[0047] Figure 15 This is a three-dimensional structural diagram of three green planting systems arranged side by side in one embodiment of the present invention.

[0048] Figure 16 This is a schematic diagram of the structure of a water tank with a cover according to an embodiment of the present invention.

[0049] Figure 17 This is a schematic diagram of a connecting pipe assembly between two adjacent water tanks according to an embodiment of the present invention.

[0050] Figure 18 for Figure 17 Enlarged view of point D in the middle. Detailed Implementation

[0051] The technical solutions of the present utility model will be clearly and completely described below with reference to the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. In order to make the above-mentioned objects, features and advantages of the present application more apparent and understandable, many specific details are set forth in the following description in order to provide a full understanding of the present application. However, the present application can be implemented in many other ways different from those described herein, and those skilled in the art can make similar improvements without departing from the spirit of the present application. Therefore, the present application is not limited to the specific embodiments disclosed below.

[0052] See Figures 1-18 A green planting system includes a water tank 1, a fixed pot assembly 2, a water pump irrigation assembly 3, and a planting pot 4;

[0053] The fixed pot assembly 2 includes two or more pot bodies 5 stacked in a vertical arrangement. Each pot body 5 is provided with an installation cavity 6 for accommodating and installing planting pots 4. The planting pots 4 adjacent to the upper and lower pot bodies 5 are staggered left and right, and a planting space 7 is formed between the upper and lower parts of the adjacent upper and lower pot bodies 5.

[0054] Each pot 5 is provided with a watering end 8 that cooperates with the liquid outlet of the water pump irrigation component 3. The watering end 8 is positioned above the installation location of the planting pot 4. The liquid in the water tank 1 is transported to each pot 5 through the water pump irrigation component 3, and the liquid is finally poured from the watering end 8 of each pot 5 into the corresponding planting pot 4.

[0055] The fixed pot assembly 2 includes two or more pots 5 stacked vertically. The planting pots 4 adjacent to the upper and lower pots 5 are staggered to the left and right so that a planting space is formed between the upper and lower pots 5. The green planting system has multiple stacked layers to form a three-dimensional planting space for users to prune, plant and enjoy.

[0056] The basin 5 includes a main body 9 and an inclined section 10 extending upward toward the main body 9; the mounting cavity 6 is provided on the main body 9, and the inclined section 10 is provided with an irrigation channel 11 that connects to the watering end 8;

[0057] The main body 9 is provided with a groove 28 above the planting pot 4. A hollow tube 29 corresponding to the irrigation channel 11 is provided on the groove 28. A cavity forming the irrigation end 8 is provided inside the hollow tube 29.

[0058] An irrigation channel 11 is provided between the upper and lower pots 5. Each pot 5 has a watering end 8 above the planting pot installation point. With only one watering end 8, the liquid will be precisely guided from the upper pot 5 to the lower pot 5. The liquid flows through the planting substrate into the lower pot 5, and there is no water accumulation or root soaking after watering. The liquid flows from top to bottom under the action of gravity, and the bottom of the planting pot 4 has drainage holes. The hollow tube 29 is fixed by the clamping groove 28 to ensure that the hollow tube 29 will not shift during watering and to ensure that the liquid is guided into the planting pot 4 below it.

[0059] The inclined section 10 of the basin 5 is provided with a number of spaced reinforcing ribs 12. The first end of each reinforcing rib 12 abuts against the inner side of the inclined section 10, and the second end of each reinforcing rib 12 abuts against the outer side of the irrigation channel 11. The number of reinforcing ribs 12 and the irrigation channel 11 constitute a high-strength multi-rib structure for increasing the mechanical strength of the basin 5.

[0060] Each basin 5 contains several reinforcing ribs 12, which, together with the irrigation channel 11, form a high-strength multi-rib structure to increase the mechanical strength of the basin. This allows the fixed basin assembly 2 to form multiple stacked layers based on its own strength, eliminating the need for an additional rib structure. Reinforcing ribs 12 are provided on both outer sides of the irrigation channel 11. The entire internal structure of the basin 5 can be integrally injection molded. An intermediate reinforcing rib is provided between two reinforcing ribs 12, and a groove forming the irrigation channel 11 is provided on the intermediate reinforcing rib.

[0061] The inclined section 10 of the basin 5 is provided with a straight section 13. When the upper and lower basins 5 are assembled, the main body 9 of the upper basin 5 is fixed on the straight section 13 of the lower basin 5. The straight section 13 and the assembled main body 9 are provided with a positioning and fitting part 14 and a fixing and mounting part 15 so that the straight section 13 and the assembled main body 9 can be positioned and fixedly connected.

[0062] The bottom of the main body 9 of the basin 5 is provided with a positioning groove forming a positioning mating part 14. The inner bottom wall of the main body 9 is provided with fixing screw holes. The straight section 13 of the basin 5 is provided with screw posts. When the upper and lower basins 5 are assembled, the positioning groove at the bottom of the main body 9 of the upper basin 5 is positioned on the top edge of the straight section 13 of the lower basin 5. The screw posts and fixing screw holes are correspondingly arranged. Screws are inserted into the fixing screws and screw posts to fix the upper basin 5 to the lower basin 5. The screw posts and fixing screw holes form a fixing mounting part 15. The basin 5 is provided with four screw posts and four fixing screw holes.

[0063] The bottom of the inclined section 10 of the basin 5 is provided with an installation channel 16, and a supplementary light 18 is provided on the installation channel 16. The inner bottom wall of the inclined section 10 is provided with a light-transmitting window 19 corresponding to the position of the installation channel 16, and the light from the supplementary light 18 can shine into the interior of the basin 5 through the light-transmitting window 19.

[0064] The installation channel 16 is located below the irrigation channel 11. The inner bottom wall of the inclined section 10 is provided with light-transmitting windows 19 on both outer sides of the irrigation channel 11. The inclined section 10 is inclined and extends upward towards the main body 9. When the user stands at the angle of viewing the plant, the light from the supplementary light 18 will not shine directly into the eyes. The supplementary light 18 provides supplementary light to the plant from an angle above it.

[0065] Multiple basins 5, which are provided with inclined ends 10 and main body 9, are stacked one on top of the other to form a zigzag arrangement.

[0066] The supplementary light 18 includes an LED light and a transparent light tube, with the LED light installed inside the transparent light tube;

[0067] The basin 5 is provided with an assembly cavity 20 for connecting the installation channel 16. Two or more basins 5 are stacked one on top of the other. The installation channel 16 of each basin 5 is connected to the assembly cavity 20. The transparent light tube of the supplementary light 18 passes through the installation channel 16 and the assembly cavity 20 of each basin 5 in sequence along the stacking direction, so that the supplementary light 18 forms a continuous lighting structure between the multiple basins 5.

[0068] The transparent light tube is used to protect the LED light, and the light from the LED light shines through the transparent light tube and the light-transmitting window 19 to supplement the light above the plant at an angle.

[0069] The basin 5 is provided with a fixing clip 21 for fixing the transparent light tube, so as to fix the transparent light tube and prevent the transparent light tube from shifting after installation.

[0070] The water pump irrigation assembly 3 includes a water pump 24 and a water supply pipe 17; two or more basins 5 are stacked one on top of the other, and the water supply pipe 17 passes through the installation channel 16 and assembly cavity 20 of each basin 5 in sequence along the stacking direction, so that the water supply pipe 17 forms a continuous water supply channel between the multiple basins 5.

[0071] The bottom wall of the main body 9 of each basin 5 is provided with a perforation 23 that connects to the irrigation channel 11 of the lower basin 5. One end of the water supply pipe 17 is connected to the output end of the water pump 24, the input end of the water pump 24 is connected to the outlet of the water tank 1, and the other end of the water supply pipe 17 extends to the uppermost basin 5.

[0072] When the water pump 24 is started, the liquid in the water tank 1 is transported to the uppermost basin 5 through the water pump 24 and the water supply pipe 17. The liquid then flows from top to bottom through the perforations 23 and irrigation channels 11 of each basin 5.

[0073] In this technical solution, a positioning structure is provided between the planting pot 4 and the mounting cavity 6 of the pot body 5, so that the drainage hole at the bottom of the planting pot 4 is set to correspond with the perforation 23. Even if they are not set to correspond, when the water accumulation in the pot body 5 reaches the corresponding level, the liquid enters the irrigation channel 11 of the lower pot body 5 from the perforation 23.

[0074] The top basin 22 is provided on the straight section 13 of the uppermost basin 5. The top basin 22 is provided with an installation compartment 25 for installing the planting basin 4. The upper inner side of the top basin 22 is provided with a slot 26 for fixing and installing the supplementary light 18. The slot 26 is located above the installation location of the planting basin 4.

[0075] The top pot 22 is provided with an installation compartment 25 for installing the planting pot 4. The upper inner side of the top pot 22 is provided with a slot 26 for fixing and installing the supplementary light 18 lamp. The transparent light tube is embedded in the slot 26. The slot 26 is located above the installation location of the planting pot 4. The topmost planting pot 4 is provided with a ring of slots for installing LED lights (supplementary light 18), which provide supplementary lighting to the plant from the bottom of the plant and will not shine directly into the eyes.

[0076] The top basin 22 is fixed to the straight section 13 of the basin body 5 by screws. The top basin 22 is provided with a drainage hole 41 communicating with the irrigation channel 11. The top basin 22 is provided with a locking groove 40 for fixing the water supply pipe 17.

[0077] The top basin 22 is provided with a fixing groove 27 for fixing the water supply pipe 17, and the fixing groove 27 is connected to the installation channel 16 of the lower basin 5.

[0078] The water tank 1 is equipped with a liquid storage chamber for storing liquid, and a water pump 24 is installed on the electrical compartment. A water level detector 30 is installed in the liquid storage chamber.

[0079] The water level detector 30 detects the water level in the storage compartment of water tank 1. When the water level is low, it can remind the user to add water through a buzzer and indicator light. Alternatively, water tank 1 can be connected to an external water source, which can be turned on to replenish water to water tank 1.

[0080] The electrical compartment and the liquid storage compartment are set up independently and separately. The electrical compartment is a relatively enclosed space. There are partitions on the top, left side, right side, front, back and bottom of the electrical compartment. So even if liquid drips from above the water tank 1, it will not enter the electrical compartment, or the electrical compartment is placed outside the water tank 1.

[0081] When the power supply 31 and / or controller 32 are installed inside the electrical compartment of the water tank 1, the water tank 1 is provided with a cover 44 for opening and closing the electrical compartment. When maintenance is required, the cover 44 can be rotated to open the electrical compartment of the water tank 1, or the cover 44 can be removed to open the electrical compartment of the water tank 1. The cover 44 can be located on the side or top of the water tank 1.

[0082] In this technical solution, the top of the water tank 1 is provided with a top cover, and a cover body 44 is provided above the electrical compartment corresponding to the top cover. The cover body 44 is rotatably or detachably installed on the top cover of the water tank 1.

[0083] The electrical compartment is equipped with a power supply 31 and a controller 32 on the inside or outside. The power supply 31, water pump 24, and water level detector 30 are all electrically connected to the controller 32. The supplementary light 18 is electrically connected to the controller 32 through a wire.

[0084] The water tank 1 is provided with a liquid inlet on the top or side that connects to the liquid storage chamber;

[0085] The green planting system has two or more units, which are arranged side by side. A connector 33 is provided between the two green planting systems. One end of the connector 33 is connected to the upper pot 5 of the green planting system, and the other end of the connector 33 is connected to the lower pot 5 of the other green planting system.

[0086] The outer side of the main body 9 of the basin 5 is provided with a first fixing screw hole 34 for fixed connection with the connector 33, and the bottom of the main body 9 of the basin 5 is provided with a second fixing screw hole 35 for fixed connection with the connector 33. The connector 33 is provided with a positioning insertion block 36 for insertion into the bottom of the main body 9, and the bottom of the main body 9 is provided with an insertion interface 37. The first fixing screw hole is located near the top of the outer side of the main body 9 so that the connector 33 is inclined in the connected state. The outer side of the main body 9 is provided with a positioning hole 38, and the connector 33 is provided with a positioning post 39 for insertion into the positioning hole 38.

[0087] The bottom of water tank 1 is equipped with wheels 42.

[0088] The top of the water tank 1 is equipped with a support rod 43 for supporting the basin body 5.

[0089] When two or more green planting systems are arranged side by side, a connecting pipe assembly 45 is provided between two adjacent water tanks 1 to connect the water passages between the two water tanks 1. The connecting pipe assembly 45 includes a connecting pipe 46 and a fixing member 47. The connecting pipe 46 passes through the two water tanks 1, and the fixing member 47 is connected to the connecting pipe 46 and abuts against the inner side of one water tank 1. A sealing member 48 is provided between the fixing member 47 and the outer side of one water tank 1.

[0090] Specifically:

[0091] When two water tanks 1 need to be connected side by side, each water tank 1 is provided with an installation slot 49 for inserting a connecting pipe 46. The connecting pipe 46 passes through the installation slot 49 from the inside of one water tank 1, and then a sealing element 48 (sealing ring) is fitted on the outside of the threaded post of the connecting pipe 46. Then, the installation slot 49 of the other water tank 1 is aligned with the threaded post of the connecting pipe 46, at which point the threaded post of the connecting pipe 46 is also located on the inside of the other water tank 1. Finally, the fixing element 47 (fastening nut) is fitted on the outside of the threaded post of the connecting pipe 46, so that the connecting pipe 46 is fixed between the two water tanks 1 and the sealing element 48 is pressed against the corresponding water tank 1 to prevent water leakage.

[0092] The above are merely preferred embodiments of the present utility model and are not intended to limit the present utility model. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present utility model shall be included within the protection scope of the present utility model.

Claims

1. A green planting system, characterized in that: Includes a water tank (1), a fixed pot assembly (2), a water pump irrigation assembly (3), and a planting pot (4); The fixed pot assembly (2) includes two or more pots (5) stacked in a vertical arrangement. Each pot (5) is provided with an installation cavity (6) for accommodating the planting pot (4). The planting pots (4) adjacent to the upper and lower pots (5) are staggered left and right, and a planting space (7) is formed between the upper and lower parts of the adjacent upper and lower pots (5). Each pot (5) is provided with a watering end (8) that cooperates with the liquid outlet of the water pump irrigation assembly (3). The watering end (8) is positioned above the planting pot (4) installation location. The liquid in the water tank (1) is transported to each pot (5) through the water pump irrigation assembly (3), and the liquid is finally poured from the watering end (8) of each pot (5) into the corresponding planting pot (4).

2. The green planting system according to claim 1, characterized in that: The basin (5) includes a main body (9) and an inclined section (10) extending upward toward the main body (9); the mounting cavity (6) is provided on the main body (9), and the inclined section (10) is provided with an irrigation channel (11) that connects to the watering end (8). The main body (9) is provided with a groove (28) above the planting pot (4) installation location. A hollow tube (29) corresponding to the irrigation channel (11) is provided on the groove (28). A cavity forming the watering end (8) is provided inside the hollow tube (29).

3. The green planting system according to claim 2, characterized in that: The inclined section (10) of the basin (5) is provided with a number of spaced reinforcing ribs (12). The first end of each reinforcing rib (12) abuts against the inner side of the inclined section (10), and the second end of each reinforcing rib (12) abuts against the outer side of the irrigation channel (11). The number of reinforcing ribs (12) and the irrigation channel (11) constitute a high-strength multi-rib structure for increasing the mechanical strength of the basin (5).

4. The green planting system according to claim 2, characterized in that: The inclined section (10) of the basin (5) is provided with a straight section (13). When the upper and lower basins (5) are assembled, the main body (9) of the upper basin (5) is fixed on the straight section (13) of the lower basin (5). The straight section (13) and its assembled main body (9) are provided with a positioning and fitting part (14) and a fixing and mounting part (15) so that the straight section (13) and its assembled main body (9) can be positioned and fixedly connected.

5. The green planting system according to claim 2, characterized in that: The bottom of the inclined section (10) of the basin (5) is provided with an installation channel (16), and a supplementary light (18) is provided on the installation channel (16). A light-transmitting window (19) is provided on the inner bottom wall of the inclined section (10) corresponding to the position of the installation channel (16), and the light of the supplementary light (18) can be irradiated into the interior of the basin (5) through the light-transmitting window (19).

6. The green planting system according to claim 5, characterized in that: The supplementary light (18) includes an LED light and a transparent light tube, with the LED light installed inside the transparent light tube; The basin (5) is provided with an assembly cavity (20) for connecting the installation channel (16). Two or more basins (5) are stacked on top of each other. The installation channel (16) of each basin (5) is connected to the assembly cavity (20). The transparent light tube of the supplementary light (18) passes through the installation channel (16) and assembly cavity (20) of each basin (5) in sequence along the stacking direction, so that the supplementary light (18) forms a continuous lighting structure between the multiple basins (5).

7. The green planting system according to claim 6, characterized in that: The basin (5) is provided with a fixing clip (21) for fixing the transparent light tube.

8. The green planting system according to claim 6, characterized in that: The water pump irrigation assembly (3) includes a water pump (24) and a water supply pipe (17); two or more basins (5) are stacked one on top of the other, and the water supply pipe (17) passes through the installation channel (16) and assembly cavity (20) of each basin (5) in sequence along the stacking direction, so that the water supply pipe (17) forms a continuous water supply channel between the multiple basins (5); Each basin (5) has a perforation (23) on the bottom wall of the main body (9) that connects to the irrigation channel (11) of the lower basin (5). One end of the water supply pipe (17) is connected to the output end of the water pump (24), the input end of the water pump (24) is connected to the outlet of the water tank (1), and the other end of the water supply pipe (17) extends to the uppermost basin (5). When the water pump (24) is started, the liquid in the water tank (1) is transported to the uppermost basin (5) through the water pump (24) and the water supply pipe (17). The liquid then flows from top to bottom through the perforations (23) and irrigation channels (11) of each basin (5).

9. The green planting system according to claim 8, characterized in that: The top basin (22) is provided on the straight section (13) of the uppermost basin (5). The top basin (22) is provided with an installation compartment (25) for installing the planting pot (4). The upper inner side of the top basin (22) is provided with a slot (26) for fixing and installing the supplementary light (18). The slot (26) is located above the installation location of the planting pot (4). The top basin (22) is provided with a fixing groove (27) for fixing the water supply pipe (17), and the fixing groove (27) is connected to the installation channel (16) of the lower basin (5).

10. The green planting system according to claim 1, characterized in that: The water tank (1) is equipped with a liquid storage chamber for storing liquid and a water pump (24) on the electrical compartment, and a water level detector (30) is installed in the liquid storage chamber. The electrical compartment is equipped with a power supply (31) and a controller (32) on the inside or outside. The power supply (31), water pump (24), and water level detector (30) are all electrically connected to the controller (32). The water tank (1) is provided with a liquid inlet on the top or side that connects to the liquid storage chamber; The green planting system has two or more, and the two or more green planting systems are arranged side by side. A connector (33) is provided between the two side by side green planting systems. One end of the connector (33) is connected to the upper pot (5) of the green planting system, and the other end of the connector (33) is connected to the lower pot (5) of the other green planting system. When two or more green planting systems are arranged side by side, a connecting pipe assembly (45) is provided between two adjacent water tanks (1) to connect the water passages between the two water tanks (1). The connecting pipe assembly (45) includes a connecting pipe (46) and a fixing member (47). The connecting pipe (46) passes through the two water tanks (1), and the fixing member (47) is connected to the connecting pipe (46) and abuts against the inner side of one water tank (1). A sealing member (48) is provided between the fixing member (47) and the outer side of one water tank (1). When the power supply (31) and / or controller (32) are installed inside the electrical compartment of the water tank (1), the water tank (1) is provided with a cover (44) for opening and closing the electrical compartment.

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