CN215630597U - Assembled vertical greening module system - Google Patents

Abstract

The utility model provides an assembled vertical greening module system, which comprises: the system comprises a bracket module, a green plant base basin, a water inlet pipe, a micro-irrigation controller, a water drainage pipe, an angle code, a transverse connecting wedge block, a micro-irrigation pipe and a building structure; the bracket module is fixed on the building structure through the corner connector, and the green plant base basin is placed on the bracket module; the bracket modules are spliced and joggled through the transverse connecting wedge blocks; the cavity of the bracket module is provided with a micro-irrigation pipe; the micro-irrigation pipe is connected with the micro-irrigation controller; the micro-irrigation controller is connected with and installed on the water inlet pipe and the water outlet pipe. The utility model realizes the industrial production of standardized modules; the intelligent micro-irrigation control system is matched, and multi-path water level and humidity detection is carried out, so that multi-path electric valves are controlled to supply water in a multi-path mode, open water, scaling, mosquito breeding and water and corrosion prevention are achieved, and the intelligent micro-irrigation control system is suitable for various scenes; no welding, full assembly, no cutting and no waste generation.

Description

Assembled vertical greening module system

Technical Field

The utility model relates to the technical field of vertical greening assembly, in particular to an assembled vertical greening module system.

Background

With the development of society, the quality of life of people is improved, the requirements on the environment are increasingly improved, and the area available for greening is very limited due to the fact that cities are large in size and dense in population and high-rise buildings are continuously increased. People grow trees and grass on the ground, and also develop greening to a three-dimensional way, and vertical greening by utilizing climbing plants is imperative, so that the artistic effect of buildings is increased, the environment is more attractive, the occupied area is small, the effect is fast, the green vision rate is increased, the greening level is enriched, and the method has important significance for improving the urban environment and restoring ecological balance.

Dust-proof, cooling, noise-proof and energy-saving. The vertical greening can decorate and improve indoor microclimate, the indoor temperature with a green wall can be reduced by 1-2 ℃ compared with the indoor temperature without the green wall, the humidity is correspondingly increased by 10-15%, and the vertical greening can also isolate noise, absorb dust and reduce pollution. According to practical application and measurement, the dust content in the air can be reduced by 10% in places where the ipomoea cairica plants are vertically greened.

Beautiful appearance and good three-dimensional effect. The main material for vertical greening is liana, which is of various types, such as tendrils, adsorption, winding and barbs. The tips of the tendrils become tendrils which can be fixed on the railing and the shed frame, thus having beautiful appearance and economic value, such as grapes; the adsorption plants are provided with sucking discs to form air roots which can be attached to a wall to form a beautiful green wall, such as the mountain climbing tigers and the campsis grandiflora; the vine-wound objects of the wound plants grow upwards and are generally planted on the railings and the shed frames to form a beautiful and spectacular flower shed which plays a decorative role and also plays a dustproof role in cooling, such as honeysuckle and Lonicera taiwanensis; the plant with thorns is attached to the short wall or the railing.

The green space rate is increased, and the building area is saved. The vertical greening can make full use of every inch of land, and the greening area and the greening coverage rate are improved. The vertical greening with the scientific and reasonable structure can repay the occupied area of the building in an equal area or even several times, and the per-capita green area is improved by about 0.5 square meter.

Common indoor vertical greening plants are as follows: picrorhiza, scindapsus aureus, chlorophytum comosum, radix dictamni, radix puerariae lobatae, mini coconut, quebracho, anthurium palmatum, Lvbao, wild buckwheat, euonymus fortunei, ivy, Japanese honeysuckle, Parthenocissus tricuspidata, akebia quinata, Japanese ardisia, ampelopsis, trachelospermi, climbing fig, costus root, mysorethorn, wisteria, grape, kiwi fruit, vine rose, campsis grandiflora, leafflower, quisqualis indica, olzia, akebia stem, rose, honeysuckle, medlar, celastrus orbiculatus, yunnan jasmine and the like.

The existing similar product process flow is as follows: building structure need be done the waterproof layer, the preparation atress steelframe, hang the green tray of planting of dress, installation drip irrigation system, the lower part sets up the tray and the drain pipe of dripping, the process such as binding off is decorated by third party fine decoration unit again, the technology is complicated, need waterproof worker, the welder, green chemical industry, water electrician, many processes such as the decorator, the cross construction of a plurality of units is accomplished jointly, drip irrigation system's bright water is driped irrigation and is combined the fallen leaves, the tray drainage is easily stifled, the degree of difficulty is adjusted more to the control precision of dripping, be unfavorable for planting the not big plant of water yield demand difference, need meticulous maintenance, it is higher to build and fortune dimension cost.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is as follows: make up the not enough of above-mentioned dismouting inconvenience, technology complicacy, difficult drainage, provide an assembled vertical greening module system.

The technical problem of the utility model is solved by the following technical scheme:

the utility model provides an assembled vertical greening module system, which comprises: the system comprises a bracket module, a green plant base basin, a water inlet pipe, a micro-irrigation controller, a water drainage pipe, an angle code, a transverse connecting block, a micro-irrigation pipe and a building structure; the bracket module is fixed on the building structure through the corner connector, and the green plant base basin is placed on the bracket module; the bracket modules are spliced and joggled through the transverse connecting blocks; a micro-irrigation pipe is arranged in the cavity of the bracket module; the micro-irrigation pipe is connected with the micro-irrigation controller; the micro-irrigation controller is connected with and installed with the water inlet pipe and the water discharge pipe.

In some embodiments, the bracket module is made of PP, can be adjusted forwards and backwards, and can be adjusted to complete the coordinate positioning of the plane; the joggles are vertically assembled by a plurality of bracket modules, the joggles are assembled at the bottom and the joggles are assembled at the top, and therefore the brackets are provided for the green plant base basin.

In some embodiments, the green plant-based pot serves as a cultivation pot for green plants; and the side surface of the green planting base basin is provided with a micro irrigation hole.

In some embodiments, the corner brace secures the bottom bracket, the top bracket, and the side bracket to the building structure with screws.

In some embodiments, the bottom bracket is fixed on the building structure through the corner connector, can be adjusted forwards and backwards, adjusts the coordinates of the finished surface, and supports the bracket module through the upper end mortise so that the Susan bracket module does not swing forwards and backwards; the bottom bracket is connected with and provided with a bottom integrated water tank decorative line; the integrated basin moulding in bottom includes: water blocking line, integrated water tank decorative line and water discharging nozzle.

In some embodiments, the top bracket is fixed to the building structure through the corner connectors, the bracket module is supported through the lower end mortises, and the top integrated molding is fixed to the bottom bracket through the clamping grooves.

In some embodiments, the side bracket is fixed to the building structure through the corner connectors, can be adjusted back and forth, adjusts the coordinate positioning of the finished surface, supports the bracket module through the side mortise, and fixes the side integrated molding on the bottom bracket through the clamping groove.

In some embodiments, the integrated molding is fixed on the bottom bracket through a clamping groove; when the water retaining line is used at the bottom, the water retaining line is used for collecting water drops dropping due to cleaning or abnormal micro-irrigation system, collecting the dropping water through the inner cavity, discharging the dropping water through the drainage pipe and serving as the closing-up decoration of the complete system; when the micro-irrigation device is used on two sides and the top, the inner cavity of the micro-irrigation device is used as a wire groove of a micro-irrigation system and used as a closing-up decoration.

In some embodiments, the micro-irrigation controller is used for receiving signals of a water level sensor and a soil humidity sensor, and the micro-irrigation controller respectively controls the water inlet electric valve to start water supply through the manual gate valve; through opening and closing the motorised valve, send water to the horizontal micro-irrigation pipe of placing in the bracket module cavity by inferior inlet tube, water gets into green plant base basin by the micro-irrigation hole through corrosion-resistant fibre strip that absorbs water, guarantees green plant growth required moisture.

In some embodiments, the water level sensor is installed at the end of the horizontal micro-irrigation pipe, and the soil humidity sensor is installed in the soil of the green plant base pot; the manual gate valve is used for maintenance and is in a normally open state.

In some embodiments, the micro-irrigation controller provides multiple logic algorithm control, adapts to the water demand requirements of different green plants, adjusts the water supply amount and controls the time rhythm according to different plant growth conditions, and realizes an intelligent automatic green plant maintenance system.

In some embodiments, the water inlet pipe is divided into branches according to different green plant requirements, and each branch is provided with a manual gate valve and an electric valve; the electric valve receives the instruction sent by the micro-irrigation controller and is opened or semi-closed at proper time to carry out micro-irrigation operation.

In some embodiments, a micro-irrigation pipe is arranged in the cavity of the bracket module, the water supply amount is controlled by a micro-irrigation controller, and water enters the green plant base pot from the micro-irrigation hole through the corrosion-resistant water-absorbing fiber strips to ensure the moisture required by the growth of the green plants.

Compared with the prior art, the utility model has the advantages that: the standardized module industrial production is realized, the disassembly and the assembly are flexible, the weight is light, and the installation standards are consistent; the intelligent micro-irrigation control system is matched, and multi-path water level and humidity detection is carried out, so that multi-path electric valves are controlled to supply water in a multi-path mode, open water, scaling, mosquito breeding and water and corrosion prevention are achieved, and the intelligent micro-irrigation control system is suitable for various scenes; the whole engineering dry construction is completed, welding, full assembly, cutting and waste generation are avoided; one installation operator can easily complete all the procedures.

Drawings

FIG. 1 is a vertical greening floor plan of an embodiment of the present invention;

FIG. 2 is a cross-sectional view of vertical greening according to an embodiment of the present invention;

FIG. 3 is a vertical sectional view of the vertical greening according to the embodiment of the present invention;

FIG. 4 is a three-dimensional view of a cradle module of an embodiment of the utility model;

FIG. 5 is a cross-sectional view of a carrier module of an embodiment of the utility model;

FIG. 6 is a cross-sectional view of a bracket module, green plant base pot and micro-irrigation in accordance with an embodiment of the present invention;

FIG. 7 is a top view of a green plant base pot according to an embodiment of the present invention;

FIG. 8 is a cross-sectional view of a green plant base pot according to an embodiment of the present invention;

FIG. 9 is a three-dimensional view of a green plant base pot according to an embodiment of the present invention;

FIG. 10 is a schematic view of an angle code according to an embodiment of the present invention;

FIG. 11 is a schematic view of a bottom bracket of an embodiment of the present invention;

FIG. 12 is a schematic view of a top mount of an embodiment of the present invention;

FIG. 13 is a side view of a bracket according to an embodiment of the utility model;

FIG. 14 is a schematic view of an integrated molding according to an embodiment of the present invention;

FIG. 15 is a schematic view of a cradle module installation of an embodiment of the utility model;

FIG. 16 is a diagram of a micro-irrigation control system according to an embodiment of the utility model;

FIG. 17 is a diagram of a vertical greening micro-irrigation control system according to an embodiment of the present invention;

wherein, the parts have the following reference numbers:

the device comprises a bracket module (1), a green plant base basin (2), a water inlet pipe (3), a micro-irrigation controller (4), a drain pipe (5), an angle code (6), a transverse connecting block (7), an integrated decorative strip (8), a micro-irrigation water supply pipe (9), a micro-irrigation pipe (10), a building structure (11), a top support (12), a closing decorative strip (13), a screw (14), a bottom integrated water tank decorative strip (15), a water retaining line (151), an integrated water tank decorative strip (152), a drain nozzle (153), a decorative ground foot line (16), a green plant (17), a corrosion-resistant water absorption fiber strip (18), a bottom support (19), a side support (20), a bolt (23), a water level sensor (24), a soil humidity sensor (25), an electric valve (26), a manual gate valve (27), a micro-irrigation hole (28) and a secondary water inlet pipe (29).

Detailed Description

The utility model will be further described with reference to the accompanying drawings and preferred embodiments. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

It should be noted that the terms of orientation such as left, right, up, down, top and bottom in the present embodiment are only relative concepts to each other or are referred to the normal use state of the product, and should not be considered as limiting.

The utility model relates to an indoor and outdoor vertical greening system, standardized module industrial production, water resistance, corrosion resistance, good weather resistance, no steel frame structure, light logistics packaging and distribution, flexible arrangement, quick installation, no need of special process operation capability for operators, one-time training for post installation, simplicity, easiness for operation, support of DIY and consistent installation quality standard; the intelligent micro-irrigation control system of cooperation, detect through multichannel water level and humidity, multichannel control multichannel electric valve supplies water, be different from common drip irrigation system, the advantage is bright water-free, the scale deposit does not, do not tille the mosquito, be fit for the arrangement of the different humidity afforestation plants of polymorphic type, non-maintaining maintenance, extensively be applicable to modern official working CBD mansion, the hotel, the trade, the exhibition hall, the park, space wall afforestation such as house private garden, courtyard afforestation and house vertical greening, have the assembled, the dismouting is nimble, the full fitment, the lightweight, afforestation plant richenes and various characteristics such as, standardized in the building complete decoration system, integrate, modularization assembled component part article.

The embodiment of the utility model mainly comprises two parts: bracket module, slight irrigation intelligence control system.

A three-dimensional view of a first portion of the carrier module is shown in fig. 4, and a cross-sectional view of the carrier module is shown in fig. 5;

the second part is shown by micro-irrigation intelligent control system figures 16 and 17.

Referring to fig. 1, a vertical greening floor plan includes: the device comprises a bracket module 1, a green plant base basin 2, a water inlet pipe 3, a micro-irrigation controller 4, a water outlet pipe 5 and green plants 17; a green plant base basin 2 is arranged on the bracket module 1, and green plants 17 are planted on the green plant base basin 2;

the bracket module 1 is fixed on the building structure 11 through the corner connector 6, and the green plant base basin 2 is placed on the bracket module 1; the bracket modules 1 are spliced and joggled through the transverse connecting blocks 7; the corner brace 6 is a galvanized corner brace with 50 x 5.

A micro-irrigation pipe 10 is arranged in the cavity of the bracket module 1; the micro-irrigation pipe 10 is connected with the micro-irrigation controller 4;

the micro-irrigation controller 4 is connected with the water inlet pipe 3 and the water outlet pipe 5.

The micro-irrigation controller 4 is arranged on the adjacent wall surface and keeps consistent with other electrical control switches in height, such as about 1400mm, the installation method is the same as that of a common household distribution box, a special bottom box is reserved firstly, and a panel is arranged on the bottom box (a module which is processed and debugged in a factory);

the water inlet pipe 3 is connected with building tap water, and an electric valve 26 and a manual gate valve 27 installation box are arranged under the micro-irrigation controller 4 and at the height of about 300 mm;

the micro-irrigation pipe 10 is hidden in the cavity of the bracket module 1 and the integrated moulding 8;

the drain pipe decorative ground is reserved, is connected to a building drain main pipe, and is connected with the bottom integrated water tank decorative line 15 through a PCV hose to form an emergency drain system which can generate open water or be flushed due to the fault of the micro-irrigation system.

Referring to fig. 2, a vertical greening cross-sectional view includes: the device comprises a bracket module 1, a green plant base basin 2, drain pipes 5, 50X 5 galvanized corner connectors 6, transverse connecting blocks 7 and integrated decorative lines 8;

the integrated decorative molding 8 is arranged around the whole vertical greening system, is used as a decorative closing-in of the system and the surrounding wall surface, and is respectively arranged through the buckling structures of the bottom bracket 19 and the side bracket 20 of the top bracket 12; the cavity of the micro-irrigation pipe can be provided with a micro-irrigation pipe 10, and the bottom of the micro-irrigation pipe is integrated with the water tank decorative line 15, and the cavity has the function of a water collecting tank;

the micro-irrigation water supply pipe 9 is a micro-irrigation water source which is connected with a manual gate valve 27 and an electric valve 26, water is conveyed to the micro-irrigation pipe 10 according to the designed parameter water quantity, and the corrosion-resistant water absorption fiber strips 18 are used for introducing the water into the green plant base basin 2 to realize micro-irrigation.

Referring to fig. 3, a vertical greening vertical sectional view includes: the system comprises a bracket module 1, green plant base basins 2, 50 × 5 galvanized corner connectors 6, a building structure 11, a top support 12, a closing decorative line 13, a screw 14, a bottom integrated water tank decorative line 15 and a decorative ground foot line 16; the bottom integrated water tank decoration line 15 comprises a water blocking line 151, an integrated water tank decoration line 152 and a water discharging nozzle 153; the screw 14 is an M12 expansion screw.

And (3) integrating decorative lines on the periphery: the side surface, the top part and the bottom part are the same, the mounting brackets at the three positions have different closing-up joint position surfaces, cavities of the side surface and the top part can be used for arranging water pipes or electric circuits, and the middle bottom part is integrated with a water tank decorative line 15 cavity which also has the function of a water collecting tank; the most important function is surface decoration closing in, forming the whole system, and other units are not needed to complete together.

Referring to fig. 4 and 5, a three-dimensional view and a cross-sectional view of the bracket module 1 are respectively shown, which are important parts of the system of this patent, and the bracket module is made of PP, has waterproof, corrosion-proof, no scale, high strength and good weather-resistant performance, and is a stressed structure of the system; the two bracket modules 1 are vertically assembled into a joggle, the horizontally assembled joggle is connected with the joggle through a transverse connecting wedge 7, the joggle is assembled at the bottom, the joggle is assembled at the top, and a bracket is provided for the green plant foundation pot 2; the middle cavity part is provided with a micro-irrigation pipe 10.

Referring to fig. 6, a detailed cross-sectional view of the bracket module 1, the green plant base pot 2, and the micro-irrigation controller 4 is shown, which includes the green plant 17, the green plant base pot 2, the corrosion-resistant water-absorbing fiber strip 18, and the micro-irrigation pipe 10;

referring to fig. 7, 8 and 9, the structure of a green plant base pot 2, which is a top view, a sectional view and a three-dimensional view, respectively, is used as a cultivation pot for green plants 17 to provide nutrients for the growth of the green plants 17 and is placed on a bracket module 1;

referring to fig. 10, the galvanized corner connectors 6 of 50 × 5 are stressed connection structures of the whole vertical greening system, are uniformly distributed, and have stable structures; the bracket module 1 is used for connecting and fixing component parts such as a bottom bracket 19, a top bracket 12, a side bracket 20 and the like on a building structure 11 by using M12 expansion screws 14 and bolts 23; the bolt 23 is an M12 expansion bolt.

Referring to fig. 11, the bottom bracket 19 is fixed to the building structure 11 by means of the 50 x 5 galvanized corner connectors 6, can be adjusted back and forth, adjusts the coordinates of the finished surface, and supports the bracket module 1 by means of the tongue-and-groove at the upper end, so that the bracket module 1 does not swing back and forth;

referring to fig. 12, the top bracket 12 is fixed to the building structure 11 by means of the 50 x 5 galvanized corner connectors 6, and the top integrated molding 8 is fixed to the bottom bracket 19 by means of the lower tongue-and-groove bracket module 1;

referring to fig. 13, the side bracket 20 is fixed to the building structure 11 by the 50 × 5 galvanized corner connectors 6, can be adjusted back and forth, and adjusts the coordinate positioning of the finished surface, and the side integrated molding 8 is fixed to the bottom bracket 19 by the side tongue-and-groove bracket module 1;

referring to fig. 14, the integrated molding 8 is fixed on the bottom bracket 19 through a clamping groove; when used at the bottom, the utility model has three functions: the water blocking line 151 is used for collecting water drops dropping due to cleaning or micro-irrigation system malfunction, collecting the water drops through the inner cavity, discharging the water drops through the water discharging pipe 5, and serving as a closed decoration of a complete system; when the micro-irrigation system is used on two sides and the top, the inner cavity of the micro-irrigation system is used as a wire groove of the micro-irrigation system and is used as a closed decoration of the complete system;

referring to fig. 15, a bracket module mounting diagram includes, corner brace 6, rack module 1, M12 expansion screw 14, M12 expansion bolt 23; firstly, paying off the building structure 11, determining the installation position of the corner brace 6, positioning and drilling, fixing the corner brace 6 by using an M12 expansion bolt 23, fixing the support module 1 on the corner brace 6 by screws, and adjusting the front, back, left and right positions.

Referring to fig. 16, the intelligent micro-irrigation control system comprises a micro-irrigation controller 4 for receiving signals of a water level sensor 24 and a soil humidity sensor 25, wherein the water level sensor 24 is installed at the tail end of a horizontal micro-irrigation pipe, and the soil humidity sensor 25 is installed in soil of a green plant base pot; the water inlet electric valve 26 is controlled by the micro-irrigation controller 4 respectively, the water supply is started by M1-M …, the main water inlet pipe 3 is a phi 20PPR pipeline, water is delivered to the horizontal micro-irrigation pipe 10 arranged in the cavity of the bracket module 1 through a manual gate valve 27 (for maintenance and in a normally open state) by opening and closing the electric valve M26, the phi 4PPR pipeline 29 delivers the water to the green plant base basin 2 through the corrosion-resistant water absorption fiber strips 18 from the micro-irrigation holes 28, as shown in figure 10, the water required by the growth of the green plants 17 is ensured, no open water is accumulated, drought and waterlogging are avoided, and the ventilation and air permeation are avoided. The micro-irrigation water supply pipe 9 is a micro-irrigation water source connected with a manual gate valve 27 and an electric valve 26, water is conveyed to the micro-irrigation pipe 10 according to the designed parameter water quantity, and the corrosion-resistant water absorption fiber strips 18 introduce the water into the green plant base basin 2 to realize micro-irrigation.

The water micro-irrigation controller 4 provides a plurality of logic algorithm controls to adapt to the water demand requirements of different green plants, as shown in fig. 7. The water supply quantity is adjusted and the time rhythm is controlled according to different plant growth conditions, so that an intelligent automatic green plant maintenance system is realized;

referring to fig. 17, the vertical greening micro-irrigation system is a micro-irrigation water supply actuator, the main water inlet pipe is a phi 20PPR pipe 3, and the secondary water inlet pipe is a phi 4PPR pipe 29; the branch circuits can be divided according to different green plants 17, each branch circuit is provided with a manual gate valve 27, an electric valve 26, M1-M …, and a water supply electric valve M26 is used for carrying out micro-irrigation operation by opening or semi-closing a water supply electric valve M26 at proper time according to the instruction of a micro-irrigation control system shown in figure 16;

the water discharge pipe 5, the water inlet pipe 3, the corrosion-resistant water absorption fiber strip 18, the micro-irrigation pipe 10 and the like together form a supporting structure, a cultivation structure, a waterproof and corrosion-resistant structure, a decoration structure and an edge-closing structure of the vertical greening plant cultivation system.

The bracket module 1, the green plant base pot 2 and the micro-irrigation controller 4 are connected as shown in figure 6, a micro-irrigation pipe 10 is arranged in a cavity of the bracket 1, the water supply amount is controlled by a micro-irrigation control system and a vertical greening micro-irrigation system, water enters the green plant base pot from a micro-irrigation hole 28 through a corrosion-resistant water-absorbing fiber strip 18, and the moisture required by the growth of the green plant is ensured, no open water is accumulated, drought or waterlogging is avoided, and the green plant base pot is ventilated and breathable and has no root rot.

The whole greening finish surface verticality and horizontal adjustment, the up-and-down position adjustment of the 50 x 5 galvanizing corner connectors 6 on the building structure 11, the front-and-back position adjustment and the left-and-right height adjustment of the 50 x 5 galvanizing corner connectors 6 and the top support 12 can realize the up-and-down, left-and-right and front-and-back dimension adjustment, and the whole vertical greening horizontal and vertical finish surface coordinate positioning is adjusted.

The whole project is completed without involving operation, welding, full assembly, cutting and waste generation, and all materials can be manufactured in factories and installed in a joggling mode on site. All operations can be completed by one operation and installation type, and the quality is good, stable and consistent.

The foregoing is a more detailed description of the utility model in connection with specific preferred embodiments and it is not intended that the utility model be limited to these specific details. For those skilled in the art to which the utility model pertains, several equivalent substitutions or obvious modifications can be made without departing from the spirit of the utility model, and all the properties or uses are considered to be within the scope of the utility model.

Claims (9)

1. An assembled vertical greening module system, comprising: the device comprises a bracket module (1), a green plant base basin (2), a water inlet pipe (3), a micro-irrigation controller (4), a water discharge pipe (5), an angle code (6), a transverse connecting block (7), a micro-irrigation pipe (10) and a building structure (11);

the bracket module (1) is fixed on the building structure (11) through the corner connector (6), and the green plant base basin (2) is placed on the bracket module (1); the bracket modules (1) are spliced and connected through the transverse connecting blocks (7);

a micro-irrigation pipe (10) is arranged in the cavity of the bracket module (1); the micro-irrigation pipe (10) is connected with the micro-irrigation controller (4);

the micro-irrigation controller (4) is connected with the water inlet pipe (3) and the water outlet pipe (5).

2. The prefabricated vertical greening module system of claim 1, wherein: the bracket module (1) is made of PP (polypropylene), can be adjusted forwards and backwards, and is adjusted to complete the plane coordinate positioning; the joggles are vertically assembled by the plurality of bracket modules (1), the joggles are assembled at the bottom and at the top, and a bracket is provided for the green plant base basin (2).

3. The prefabricated vertical greening module system of claim 1, wherein: the green plant base pot (2) is used as a cultivation pot for green plants (17); and a micro irrigation hole (28) is arranged on the side surface of the green plant base basin (2).

4. The prefabricated vertical greening module system of claim 1, wherein: the corner connector (6) fixes the bottom support (19), the top support (12) and the side support (20) on the building structure (11) by screws (14).

5. The prefabricated vertical greening module system of claim 4, wherein: the bottom support (19) is fixed on the building structure (11) through the corner connector (6), can be adjusted forwards and backwards, adjusts the coordinates of the finished surface, and supports the bracket module (1) through a mortise at the upper end so that the Susan bracket module (1) does not swing forwards and backwards; the bottom bracket (19) is connected with and provided with a bottom integrated water tank decorative line (15); the bottom integrated sink trim line (15) includes: water blocking line (151), integrated water tank decorative line (152) and water discharging nozzle (153).

6. The prefabricated vertical greening module system of claim 4, wherein: the top support (12) is fixed on the building structure (11) through the corner connectors (6), the bracket module (1) is supported through a lower end mortise, and the top integrated decorative molding (8) is fixed on the bottom support (19) through a clamping groove.

7. The prefabricated vertical greening module system of claim 4, wherein: the side support (20) is fixed on the building structure (11) through the corner connectors (6), can be adjusted front and back, is adjusted to complete the plane coordinate positioning, and supports the bracket module (1) through the side mortise, and the side integrated decorative lines (8) are fixed on the bottom support (19) through the clamping grooves.

8. The prefabricated vertical greening module system of any one of claims 6 to 7, wherein: the integrated decorative moulding (8) is fixed on the bottom bracket (19) through a clamping groove; when the water retaining line is used at the bottom, the water retaining line (151) is used for collecting water drops dropping due to cleaning or micro-irrigation system malfunction, collecting the water drops through the inner cavity, discharging the water drops through the water discharging pipe (5) and serving as the closed decoration of a complete system; when the micro-irrigation device is used on two sides and the top, the inner cavity of the micro-irrigation device is used as a wire groove of a micro-irrigation system and used as a closing-up decoration.

9. The prefabricated vertical greening module system of claim 1, wherein: the micro-irrigation pipe (10) is arranged in the cavity of the bracket module (1), the water supply amount is controlled by the micro-irrigation controller (4), and water enters the green plant base basin (2) from the micro-irrigation hole (28) through the corrosion-resistant water-absorbing fiber strip (18), so that the water required by the growth of the green plant (17) is ensured.

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