CN209768508U - Water planting vertical greening system - Google Patents

Abstract

the utility model discloses a perpendicular greening system of water planting for indoor perpendicular greening system technical field, including a plurality of planting modules that the group structure is the same, mounting bracket and hydrologic cycle module, plant the module and install on the mounting bracket, plant the module including planting the groove and installing the planting board in planting the groove, the equipartition has planting hole on planting the board, plants the groove and installs on the mounting bracket, hydrologic cycle module and planting module intercommunication. The utility model has the advantages of easy observation of the root of the plant, timely adjustment of the water consumption and no decay of the root of the plant.

Description

Water planting vertical greening system

Technical Field

The utility model belongs to the technical field of indoor vertical greening system, concretely relates to water planting vertical greening system.

Background

Vertical greening is also called three-dimensional greening internationally, and means that different conditions of the vertical field are fully utilized, climbing plants and other plants are selected to be planted and attached or paved on various structures and other spatial structures, indoor greening utilizes plants and other components to decorate indoor space in a three-dimensional mode, most of the existing indoor vertical greening systems adopt soil to cultivate shade-resistant leaf-watching plants, and have the advantage of convenient management, however, plant roots are planted in the soil, when the soil humidity is too high, the roots are easy to rot, the growth condition of the roots is not easy to observe at the first time, and the problem that the plants are easy to rot from the roots to die is easily caused.

the utility model provides an announcement number is CN 205681978U's patent discloses an indoor perpendicular afforestation frame, including the steelframe fossil fragments of a plurality of fixed settings, transversely be provided with a plurality of steel sheets between the two adjacent steelframe fossil fragments, the plane that two adjacent steelframe fossil fragments of steel sheet formed has certain inclination relatively, be equipped with at least one trompil that is used for placing the afforestation nursery stock cultivated in a pot on the steel sheet, every steel sheet below all is equipped with the water conservancy diversion steel groove, the top of every steel sheet all is equipped with the water spray nozzle that feeds with driping irrigation that is used for watering for the afforestation nursery stock cultivated in a pot, all drip irrigation the water spray nozzle and link to each other.

The prior art provides an indoor perpendicular afforestation frame with drip irrigation water supply nozzle, has the intelligence and drips irrigation the advantage of feedwater for the nursery stock, but, the unable accurate control of soil moisture of planting the nursery stock, if drip irrigation the feedwater too much, the nursery stock root in the soil is rotten under humid environment easily, thereby people can not directly see the root growth condition in the soil and drip irrigation the adjustment, leads to the plant to rot from the root easily and dies.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the growth condition of the inside root of plant of difficult observation soil that exists among the prior art, the root of plant is rotten necrotize not enough easily in the soil of crossing wet, and provide a perpendicular greening system of water planting, adopt the water planting technique to cultivate the plant, the root of plant is observed easily, can in time adjust the water consumption, and the root of plant is not perishable.

The above technical purpose of the present invention can be achieved by the following technical solutions:

The utility model provides a vertical greening system of water planting, includes a plurality of groups planting module and the mounting bracket that the structure is the same, plants the module and installs on the mounting bracket, and it still includes the hydrologic cycle module, plants the module including planting the groove and installing the planting board in planting the groove, and the equipartition has planting hole on the planting board, plants the groove and installs on the mounting bracket, hydrologic cycle module and planting module intercommunication.

Through the technical scheme, water or nutrient solution is contained in the planting groove space below the planting plate, the roots of the plants are pressed at the bottom of the planting groove by matrixes such as sand, gravel or ceramsite, the seedling parts penetrate through the planting holes and extend to the upper part of the planting plate, when the plants have poor development, the planting plate can be taken down from the planting groove to observe the growth condition of the roots, the water level in the planting groove is timely adjusted through the water circulation system, and the possibility of rotting of the roots of the plants is reduced; on the other hand, the planting plate provides a supporting and righting effect for the seedling part of the plant, so that the seedling part is not easy to topple, and the plant can grow in a normal shape.

More preferably: the planting module further comprises a clamping strip, the clamping strip is of a rectangular frame structure integrally formed with the inner wall of the planting groove, and the planting plate is horizontally placed on the clamping strip.

Through above-mentioned technical scheme, plant the board and lay in planting the groove through card strip level, plant the simple dismouting of board, the convenience is observed planting the root of a plant in the groove.

More preferably: the planting device is characterized in that a water inlet hole is formed in one side of the planting groove, a water outlet hole is formed in the other side, opposite to the water inlet hole, of the planting groove, the water inlet hole is formed in the lower portion of the clamping strip, and the water outlet hole is formed in the position, close to the bottom of the planting groove.

Through the technical scheme, the water inlet hole is formed below the clamping strip, so that the water in the planting groove can be reduced from flowing back to a pipeline communicated with the water inlet hole from the water inlet hole; the apopore sets up in the bottom that is close to planting the groove, when carrying out hydrologic cycle, can make the whole changes of water in planting the groove, can not cause waste water to remain because the delivery port is too high.

More preferably: the water circulation module comprises a water tank, a water pump, a water inlet pipe, a water outlet pipe and an intermediate pipe, wherein the water tank and the water pump are both arranged on the mounting frame, one end of the water inlet pipe is connected with the water pump, the other end of the water inlet pipe is inserted into the water inlet hole, one end of the water outlet pipe is inserted into the water outlet hole, the other end of the water outlet pipe is communicated with the water tank, and the water tank.

Through above-mentioned technical scheme, deposit water in the water tank, the water pump is drawn into the planting groove along the inlet tube with the water in the water tank through the intermediate pipe, and when changing water, waste water flows out through the outlet pipe and plants the groove, gets back to in the water tank again, carries out the periodic replacement to the water in the water tank and can guarantee that the water in planting the groove is dry and clean.

More preferably: a water filter is arranged between the water outlet pipe and the water tank, one end of the water filter is communicated with the water outlet pipe, and the other end of the water filter is communicated with the water tank through a middle pipe.

Through the technical scheme, the water filter is arranged between the water outlet pipe and the water tank, so that the wastewater flowing out of the water outlet pipe flows back to the water tank again after being filtered and purified by the water filter, the water is recycled, and the trouble of regularly replacing the water in the water tank is avoided.

More preferably: the joint of the water pump and the water inlet pipe is provided with a water inlet valve.

According to the technical scheme, when the water pump sends water into the planting groove, the water inlet valve is opened, so that the water pumped from the water tank is sent into the water inlet pipeline by the water pump and finally sent into the planting groove; when the height of the water inlet hole is not reached in the planting groove, the water inlet valve is closed, water in the planting groove can be prevented from flowing back through the water inlet pipe to the water pump, and the water pump is kept anhydrous in the non-working state.

More preferably: the joint of the water filter and the water outlet pipe is provided with a water outlet valve.

Through the technical scheme, the water outlet hole is arranged at the position close to the bottom of the planting groove, when water exists in the planting groove, the water flows down along the water outlet pipe, the water outlet valve is closed at the moment, the water in the planting groove can be prevented from flowing into the water filter, and therefore the water level in the planting groove is stably kept at a certain height; when water needs to be changed, the water outlet valve is opened, so that the wastewater in the planting tank flows into the water filter along the water outlet pipe for filtering and purification.

more preferably: the mounting bracket includes vertical support and with vertical support integrated into one piece's bottom support, is provided with the mounting groove on the vertical support, and one side of planting the groove is equipped with the kink, and in the mounting groove was gone into to the kink card, the bottom support level was settled subaerial, and water tank, water pump and water purifier all settled on the bottom support.

Through the technical scheme, the bent part is arranged on one side of the planting groove and is inserted into the vertical support, so that the planting groove is easy to disassemble and assemble, the planting groove is convenient to take down and clean, and the neatness is kept; place water tank, water pump and water purifier on with vertical support integrated into one piece's the bottom support, the weight pressure of water tank, water pump and water purifier is on the bottom support, helps the tendency of empting that the groove was planted in the balanced installation of mounting bracket brought, helps the stability of whole perpendicular greening system of water planting.

To sum up, the utility model discloses following beneficial effect has:

the traditional soil cultivation type indoor vertical greening system is improved into a water cultivation type vertical greening system, the roots of plants are pressed at the bottom of a planting groove by matrixes such as sand, gravel or ceramsite and the like, so that the plants are soaked in water, the detachable planting plate can be taken down when needed, the growth condition of the roots of the plants below the planting plate can be conveniently observed, the water level height in the planting plate is adjusted by a water circulation module, the roots of the plants are always in a proper water level, and the roots of the plants are not easy to rot; the water filter in the water circulating system purifies and recycles the waste water in the planting tank, and the trouble of frequently replacing water in the water tank is avoided.

Drawings

FIG. 1 is a schematic view of the overall structure of embodiment 1;

FIG. 2 is a schematic structural view of a planting module 1 in example 1;

Fig. 3 is a schematic structural view of a water circulation module 3 of embodiment 1;

FIG. 4 is an enlarged schematic view of region A in FIG. 3;

FIG. 5 is an enlarged schematic view of the area B in FIG. 3;

Fig. 6 is a schematic structural view of the mount 2 in embodiment 1.

in the figure, 1, planting module; 11. planting grooves; 111. a water inlet hole; 112. a water outlet hole; 113. a bending section; 12. planting a plate; 121. planting holes; 13. clamping the strip; 2. a mounting frame; 21. a vertical support; 22. a bottom bracket; 211. mounting grooves; 22. a chassis; 3. a water circulation module; 31. a water tank; 32. a water pump; 321. a water inlet valve; 33. a water inlet pipe; 34. a water outlet pipe; 35. an intermediate pipe; 36. a water filter; 361. and a water outlet valve.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

A water culture vertical greening system is shown in figure 1 and comprises a planting module 1, a mounting frame 2 and a water circulation module 3, wherein the water circulation module 3 is communicated with the planting module 1.

As shown in fig. 2, the planting module 1 includes a planting groove 11 and a planting plate 12, one end of which is provided with a bending part 113 and is shaped like a bucket, a clamping strip 13 which is integrally formed with a groove body of the planting groove 11 is arranged along the inner wall of the planting groove 11, the clamping strip 13 is shaped like a horizontal frame, and the planting plate 12 is detachably placed on the clamping strip 13; the side walls of two ends of the planting groove 11 are respectively provided with a water inlet hole 111 and a water outlet hole 112, the water inlet hole 111 is positioned below the clamping strip 13, the water outlet hole 112 is arranged at a position, close to the bottom, of the planting groove 11, and two ends of the water circulation module 3 are respectively connected with the water inlet hole 111 and the water outlet hole 112; planting holes 121 for righting the seedling parts of the plants are uniformly distributed on the planting plate 12. The roots of the plants are pressed at the bottom of the planting groove 11 by matrixes such as water planting sand, gravel or ceramsite and soaked in water in the planting groove 11, the seedling parts of the plants penetrate through the planting holes 121 and extend to the upper part of the planting plate 12, when the plants are poor in development, the planting plate 12 can be taken down to observe the growth condition of the roots in the water, the water level in the planting groove 11 is adjusted through the circulating module 3, the roots of the plants are in the optimal water depth, and the possibility of rotting of the roots of the plants is reduced.

As shown in fig. 3, the water circulation system includes a water tank 31, a water pump 32, a water inlet pipe 33 and a water outlet pipe 34, one end of the water inlet pipe 33 is connected with the water pump 32, a water inlet valve 321 (see fig. 4) is arranged at the connection position, the other end is fixed on the water inlet hole 111 in a sealing manner, one end of the water outlet pipe 34 is communicated with the water tank 31, the other end is fixed on the water outlet hole 112 in a sealing manner, and a middle pipe 35 is arranged between the; in order to realize the recycling of the water in the planting tank 11, a water filter 36 is further arranged between the water outlet pipe 34 and the water tank 31, one end of the water filter 36 is connected with the water outlet pipe 34, a water outlet valve 361 (see fig. 5) is arranged at the connection position, and the other end of the water filter 36 is communicated with the water tank 31 through an intermediate pipe 35.

When water is changed, the water outlet valve 361 is opened, wastewater in the planting groove 11 flows into the water filter 36 through the water outlet pipe 34, the wastewater flows to the water tank 31 after being filtered and purified by the water filter 36, after the wastewater in the planting groove 11 is basically discharged, the water outlet valve 361 is closed, the water inlet valve 321 is opened, the water pump 32 is started again, clean water in the water tank 31 is pumped into the water inlet pipe 33 by the water pump 32, the clean water finally flows into the planting groove 11, the planting groove 11 finishes water change, and therefore the roots of plants can be in clean water for a long time and are not easy to rot.

As shown in fig. 6, the mounting frame 2 includes a vertical support 21 and a bottom support 22 integrally formed with the vertical support 21, a mounting groove 211 fitted with the bending part 113 of the planting groove 11 is provided on the vertical support 21, the bending part 113 is inserted into the mounting groove 211 and is clamped and fixed, and the planting groove 11 is clamped into the mounting groove 211 through the bending part 113 and is suspended on the vertical mounting frame 2; the bottom support 22 is horizontally placed on the ground, the water tank 31, the water pump 32 and the water filter 36 are all arranged on the bottom support 22, the bottom support 22 is pressed on the ground by the weight of the water tank 31 and the water, the water pump 32 and the water filter 36 in the water tank, the tendency of toppling over of the mounting frame 2 caused by the fact that the planting groove 11 is hung on the vertical support 21 can be overcome, and in addition, the planting groove 11 is made of glass fiber reinforced plastic materials with light weight and high strength in order to reduce the toppling over tendency of the mounting frame 2.

In the embodiment, the detachable planting plate 12 is placed on the planting groove 11, the planting holes 121 are formed in the planting plate 12, the planting plate 12 can be taken down when needed, the growth condition of the plant roots below the planting plate 12 is observed, and the water level height in the planting plate 12 is adjusted by using the water circulation module 3, so that the plant roots are always in a proper water level and are not easy to rot; the water filter 36 in the water circulation system purifies and recycles the wastewater in the planting tank 11, so that the trouble of frequently replacing water in the water tank 31 is avoided; the planting tank 11 suspended on the vertical support 21 through the bending part 113 can be periodically taken down for cleaning, so that the roots of the plants are always in a clean environment and are not easy to rot.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Claims (8)

1. The utility model provides a vertical greening system of water planting, includes the same planting module (1) of a plurality of group structures and mounting bracket (2), it installs to plant module (1) on mounting bracket (2), characterized by: it still includes hydrologic cycle module (3), plant module (1) including planting groove (11) and installing plant board (12) in planting groove (11), the equipartition has planting hole (121) on planting board (12), it installs to plant groove (11) on mounting bracket (2), hydrologic cycle module (3) with plant module (1) intercommunication.

2. The hydroponic vertical greening system of claim 1, wherein: the planting module (1) further comprises a clamping strip (13), the clamping strip (13) is of a rectangular frame structure integrally formed with the inner wall of the planting groove (11), and the planting plate (12) is horizontally placed on the clamping strip (13).

3. The hydroponic vertical greening system of claim 2, wherein: plant groove (11) one side and seted up inlet opening (111), plant groove (11) with apopore (112) have been seted up to the opposite side that inlet opening (111) are relative, inlet opening (111) set up card strip (13) below, apopore (112) set up and are being close to plant the bottom position in groove (11).

4. The hydroponic vertical greening system of claim 3, wherein: water circulation module (3) include water tank (31), water pump (32), inlet tube (33), outlet pipe (34) and intermediate pipe (35), water tank (31), water pump (32) are all settled on mounting bracket (2), inlet tube (33) one end with water pump (32) are connected, and the other end inserts in inlet opening (111), outlet pipe (34) one end inserts in apopore (112), the other end with water tank (31) intercommunication, water tank (31) with through intermediate pipe (35) intercommunication between water pump (32).

5. The hydroponic vertical greening system of claim 4, wherein: a water filter (36) is further arranged between the water outlet pipe (34) and the water tank (31), one end of the water filter (36) is communicated with the water outlet pipe (34), and the other end of the water filter is communicated with the water tank (31) through the middle pipe (35).

6. The hydroponic vertical greening system of claim 4, wherein: and a water inlet valve (321) is arranged at the joint of the water pump (32) and the water inlet pipe (33).

7. The hydroponic vertical greening system of claim 5, wherein: and a water outlet valve (361) is arranged at the connection part of the water filter (36) and the water outlet pipe (34).

8. the hydroponic vertical greening system of claim 4, wherein: mounting bracket (2) include vertical support (21) and with vertical support (21) integrated into one piece's bottom support (22), be provided with mounting groove (211) on vertical support (21), one side of planting groove (11) is equipped with kink (113), kink (113) card is gone into in mounting groove (211), bottom support (22) level is settled subaerial, water tank (31), water pump (32) and water purifier (36) all settle on bottom support (22).