CN213073705U - Soft fitment is with ecological perpendicular greening structure of indoor intelligence - Google Patents

Abstract

The utility model relates to a soft fitment is with ecological perpendicular afforestation structure of indoor intelligence, it includes afforestation frame and a plurality of planting units that are fixed in on the afforestation frame, it has the planting groove to plant the unit upper surface and open, it has the apopore that communicates with the planting groove bottom to plant the unit division, the afforestation frame is equipped with and is used for driping irrigation the pipe of driping irrigation that afforestation vegetation driped irrigation, it has a plurality of driping irrigation holes to drip irrigation the pipe division, the aqua storage tank has been placed to afforestation frame's bottom, apopore and aqua storage tank intercommunication, the one end of driping irrigation the pipe is connected with the circulating pump, circulating. This application has the planting inslot unabsorbed moisture by the apopore of planting tank bottom and discharge and flow back to the aqua storage tank in, flow back to the water in the aqua storage tank and be extracted again to driping irrigation intraductally by the circulating pump, realized retrieving the recycle with planting inslot unnecessary moisture to the cyclic utilization's of water effect has been improved.

Description

Soft fitment is with ecological perpendicular greening structure of indoor intelligence

Technical Field

The application relates to the field of indoor greening, in particular to an indoor intelligent ecological vertical greening structure for soft decoration.

Background

At present, indoor greening is an important means for indoor decoration and beautification, most countries in the world pay attention to indoor greening, and flowers and trees are arranged in internal spaces of public places, private residences, offices, hotels and restaurants; vertical greening is one of important indoor greening methods, and indoor vertical greening is a method of decorating an indoor space in a three-dimensional manner by using plants and other members.

Present, as the utility model patent of the chinese utility model patent of the grant publication number CN201620571584.2 discloses an indoor vertical greening frame, including the steelframe fossil fragments that a plurality of vertical fixation set up, transversely be provided with a plurality of steel sheets between the two adjacent steelframe fossil fragments, every steel sheet below all is equipped with the water conservancy diversion steel bay, the top of every steel sheet all is equipped with the water supply shower nozzle that drips irrigation that is used for watering for the green nursery stock cultivated in a pot, and the water conservancy diversion steel bay below of bottommost is equipped with the water drainage tank, and the water drainage tank is connected with the drain pipe, the utility model discloses a carry out intelligence to the green nursery stock cultivated in a pot and drip irrigation the feedwater, the unabsorbed moisture gets into the green nursery stock cultivated in a pot of lower one deck by the water conservancy diversion of refluence steel.

In view of the above-mentioned related technologies, the inventor believes that there is a drawback that the water recycling rate is low when the water is supplied by drip irrigation in the vertical greening frame.

SUMMERY OF THE UTILITY MODEL

In order to improve the cyclic utilization of water when driping irrigation, this application provides a soft fitment is with ecological perpendicular greening structure of indoor intelligence, adopts following technical scheme:

the utility model provides a soft fitment is with ecological perpendicular afforestation structure of indoor intelligence, includes afforestation frame and a plurality of planting unit that is fixed in on the afforestation frame, it has the planting groove to plant the unit upper surface, plants the inslot and plants afforestation vegetation, it has the apopore that communicates with planting groove bottom to plant the unit division, the afforestation frame is equipped with and is used for driping irrigation the pipe of driping irrigation that afforestation vegetation goes on driping irrigation, it has a plurality of driping irrigation holes to drip irrigation the pipe division, and it is located the top of planting the groove to drip irrigation the pipe, the aqua storage tank has been placed to the bottom of afforestation frame, apopore and aqua storage tank intercommunication, the one end of driping irrigation.

Through adopting above-mentioned technical scheme, when perpendicular greening structure begins the during operation, the circulating pump is taken out the water in the aqua storage tank to drip irrigation intraductally, it makes to drip irrigation intraductal pressure increase to drip irrigation after taking into water in the drip irrigation pipe, and then make water drip by driping irrigation the hole and drip irrigation the afforestation vegetation of planting the inslot, when the moisture overstock of planting the inslot is more, the water that does not absorb in the planting inslot is discharged and flows back to the aqua storage tank in by the apopore of planting tank bottom, it is intraductal to extract to drip irrigation by the circulating pump again to flow back to the water in the aqua storage tank, realized retrieving the reuse with planting the interior unnecessary moisture of inslot, thereby the cyclic utilization of water has been.

Preferably, the greening frame comprises a first fixing rod and a second fixing rod which are arranged in a hollow mode, the first fixing rod and the second fixing rod are arranged in the vertical direction and are parallel to each other, a plurality of horizontal supporting rods are fixedly connected between the first fixing rod and the second fixing rod, the hollow supporting rods are arranged, two ends of each hollow supporting rod are communicated with the first fixing rod and the second fixing rod respectively, planting units are located between every two adjacent supporting rods, drip irrigation pipes are located in cavities formed by the first fixing rod and the supporting rods, water storage grooves are located between the first fixing rod and the second fixing rod, through holes are formed in the lower surfaces of the supporting rods, and projections of the through holes towards the planting units are located on the planting grooves.

By adopting the technical scheme, the supporting rods are horizontally arranged, so that water uniformly flows out from the through holes during drip irrigation, and the drip irrigation of the greening vegetation by the drip irrigation pipes is more uniform; the drip irrigation pipe penetrates through the fixing rod and the supporting rod, so that the drip irrigation pipe is protected and supported, the drip irrigation pipe is not easy to damage, the service life of the drip irrigation pipe is prolonged, and meanwhile, the drip irrigation of greening vegetation in the planting groove is facilitated; the through-hole is located the setting of bracing piece lower surface for the water that drips and irritates the hole outflow and drip irrigation the afforestation vegetation by the through-hole.

Preferably, the below of apopore is provided with reflux unit, and reflux unit is used for collecting apopore exhaust water, reflux unit includes the hose, hose and the bracing piece intercommunication of planting the unit below.

Through adopting above-mentioned technical scheme, planting the inslot unabsorbed moisture by the apopore outflow and drip to reflux unit in after the afforestation vegetation is driped irrigation, then flow through the hose and flow into the bracing piece of planting the unit below, the water that flows into in the bracing piece is flowed out by the through-hole and is driped irrigation the afforestation vegetation that the inslot was planted to the next floor, improves the cyclic utilization of water and rates.

Preferably, reflux unit is still including the sieve dish that the level set up, and the sieve dish is located between apopore and the hose and leaves the clearance between sieve dish and the apopore, sieve dish and afforestation frame fixed connection, the sieve mesh that runs through is opened to the bottom of sieve dish, the bottom and the hose intercommunication of sieve mesh, sieve dish bottom is fixed with the filtration cotton of shutoff sieve mesh, filters the top that the cotton is located the sieve mesh, and the projection that the apopore faced the sieve dish is less than the surface area of sieve dish.

By adopting the technical scheme, unabsorbed water in the planting groove flows out from the water outlet hole after the greening vegetation is subjected to drop irrigation, and the unabsorbed water in the planting groove washes soil in the planting groove, so soil particles in the planting groove are carried in the water flowing out from the water outlet hole, the water flowing out from the water outlet hole and the soil particles carried by the water outlet hole fall on the screen disc together, and the water flows into the supporting rod below through the filter cotton and the hose after being filtered by the filter cotton, the soil particles are retained and accumulated on the screen disc, so that the soil particles carried in the water are not easy to block the hose and the supporting rod, and the water recycling is not easy to be influenced; due to the arrangement of the sieve tray, soil particles carried in water flowing out of the water outlet hole are accumulated on the sieve tray, so that the inside of the hose is not easily blocked due to the soil particles entering the hose, and the service life of the hose is prolonged; a gap is left between the sieve tray and the water outlet hole, so that the root of the greening plant can be ventilated through the air outlet hole; the apopore is less than the setting of screen tray for the soil particulate matter that the apopore flows can fully fall on the screen tray.

Preferably, the opening part of the water storage tank is provided with a baffle, one end of the baffle is hinged with the water storage tank, and the baffle covers the opening of the water storage tank.

By adopting the technical scheme, when branches and leaves of the greening vegetation fall down, the branches and leaves are not easy to fall into the water storage tank, the water storage tank is not easy to block the circulating pump to pump water in the water storage tank due to the falling of the branches and leaves, and the working state of the drip irrigation pipe is more stable; branches and leaves fall on the baffle, and the baffle is hinged, so that workers can conveniently clean the branches and leaves stacked on the baffle.

Preferably, the greening frame comprises a plurality of fixing plates located between the first fixing rod and the second fixing rod, the fixing plates are horizontally arranged and located between the two adjacent supporting rods, and the planting units are detachably connected with the fixing plates along the horizontal direction.

By adopting the technical scheme, the fixed plate is arranged to provide a fixed supporting point for the planting units, and the planting units are horizontally arranged, so that the greening vegetation is more uniformly drip-irrigated by the drip irrigation pipe; the planting unit and the fixing plate can be detachably connected, and replacement of greening vegetation and soil in the planting groove by workers is facilitated.

Preferably, the sieve tray includes the fixed block, and the fixed block can be dismantled with the fixed plate and be connected.

Through adopting above-mentioned technical scheme, afforestation vegetation is driped irrigation for a long time, and the soil granule that falls into the sieve tray increases and piles up on the sieve tray, and the fixed block can be dismantled with the fixed plate and be connected, has made things convenient for the staff to the dismantlement installation of sieve tray, and then makes things convenient for the staff to do recovery or clearance to accumulational soil particulate matter.

Preferably, the second fixing rod is communicated with the water storage tank, a return pipe is fixed between the first fixing rod and the second fixing rod and is located between the supporting rod close to the water storage tank and the water storage tank, one end of the return pipe is communicated with the second fixing rod, and the return pipe is communicated with a hose close to the water storage tank.

Through adopting above-mentioned technical scheme, plant in the inslot unabsorbed moisture flow and advance among the reflux unit of bottommost, through the hose inflow back flow, again by the back flow in the second dead lever, finally by the second dead lever inflow aqua storage tank, realize improving the cyclic utilization rate of water to planting the recovery of inslot unabsorbed moisture.

Preferably, the support rod is flexibly connected with a sealing plug, and the sealing plug is used for plugging the through hole.

Through adopting above-mentioned technical scheme, when the staff need dismantle and change the afforestation vegetation, earlier with the through-hole of sealed end cap shutoff in the afforestation vegetation top that needs to change, dismantle the planting unit at afforestation vegetation place again for the staff changes the afforestation vegetation in-process, the through-hole of this planting unit top is difficult for discharging water outside planting the groove, and the recovery of water is difficult for receiving the influence when driping irrigation.

Preferably, the baffle is provided with a feeding port, a feeding cover is hinged to the position, close to the feeding port, of the baffle, and the feeding cover covers the feeding port.

By adopting the technical scheme, due to the arrangement of the feed port, workers can conveniently apply fertilizer to the water in the water storage tank from the feed port, the fertilizer is dissolved in the water and flows out of the drip irrigation holes to fertilize the greening vegetation, and the fertilization and irrigation of the greening vegetation are facilitated; the setting of throwing the material lid, when the branch and leaf of afforestation vegetation withers, the branch and leaf is difficult to fall into the aqua storage tank by feed inlet department for the circulating pump is difficult to be drawn water because of the influence of branch and leaf jam.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when the water in the planting groove is accumulated and pressed more, unabsorbed water in the planting groove is discharged from the water outlet at the bottom of the planting groove and flows back to the water storage groove, and water flowing back to the water storage groove is pumped into the drip irrigation pipe by the circulating pump, so that redundant water in the planting groove is recycled, and the recycling rate of the water is improved;

2. after the greening vegetation is subjected to drop irrigation, unabsorbed water in the planting groove flows out from the water outlet and drops to the backflow device, then flows through the hose and flows into the supporting rod below the planting unit, and the water flowing into the supporting rod flows out from the through hole and is subjected to drop irrigation on the planting unit on the next layer, so that the cyclic utilization rate of the water is improved;

3. the setting of screen tray for soil particles who carries in the water that the apopore flows piles up on the screen tray, makes difficult because of getting into soil particles and blockking up in the hose, increases the life of hose.

Drawings

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

FIG. 2 is a schematic sectional view of the present embodiment;

fig. 3 is a partially enlarged schematic view of a portion a in fig. 2.

Description of reference numerals: 11. a first fixing lever; 12. a second fixing bar; 13. a support bar; 131. a through hole; 14. a fixing plate; 15. a return pipe; 21. planting grooves; 22. a water outlet hole; 3. a water storage tank; 4. a circulation pump; 5. a reflux device; 51. a sieve tray; 52. screening holes; 53. a hose; 54. filtering cotton; 6. a drip irrigation pipe; 61. drip irrigation holes; 7. a baffle plate; 8. a feeding cover; 9. a seal assembly; 91. a flexible cord; 92. and (6) sealing the plug.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses soft fitment is with ecological perpendicular greening structure of indoor intelligence. Referring to fig. 1, an indoor intelligent ecological vertical greening structure for soft decoration comprises a greening frame, a plurality of planting units fixed on the greening frame and a water storage tank 3 placed below the greening frame, wherein the greening frame comprises a first fixing rod 11, a second fixing rod 12, four supporting rods 13 and a backflow pipe 15, the first fixing rod 11 and the second fixing rod 12 are arranged in the vertical direction and are parallel to each other, the supporting rods 13 are horizontally arranged and are distributed in the vertical direction, two ends of the supporting rods 13 are respectively fixedly welded with the first fixing rod 11 and the second fixing rod 12, the first fixing rod 11, the second fixing rod 12 and the supporting rods 13 are all arranged in a hollow mode and are communicated with each other, and the backflow pipe 15 is located at the bottom of the greening frame; four fixing plates 14 are fixed between the first fixing rod 11 and the second fixing rod 12, the supporting rods 13 and the fixing plates 14 are arranged at intervals along the vertical direction, the fixing plates 14 are arranged along the horizontal direction, and two ends of each fixing plate 14 are respectively welded with the first fixing rod 11 and the second fixing rod 12; the water storage tank 3 is positioned between the first fixing rod 11 and the second fixing rod 12; the planting unit is fixedly connected with the fixing plate 14, a backflow device 5 is arranged below the planting unit, and the backflow device 5 is fixedly connected with the fixing plate 14.

The top of aqua storage tank 3 articulates there is baffle 7, and baffle 7 closing cap aqua storage tank 3, and one side that baffle 7 dorsad aqua storage tank 3 is fixed with first pull ring, and baffle 7 is opened has the dog-house, and the dog-house department of throwing articulates there is the material lid 8 of throwing that is used for the closing cap dog-house, and the one side that the material lid 8 dorsad aqua storage tank 3 of throwing is fixed with the second pull ring.

With reference to fig. 2 and 3, the planting unit that every fixed plate 14 set up along the horizontal direction at least fixedly, and open at the top of planting the unit has planting groove 21, plants the afforestation vegetation in the planting groove 21, and afforestation vegetation is not shown in the figure in this embodiment, and open the bottom of planting the unit has the apopore 22 with planting groove 21 intercommunication, and the bolt is passed through to one side that the planting unit is close to fixed plate 14 and fixed connection with fixed plate 14.

A drip irrigation pipe 6 is arranged in a cavity communicated with the first fixed rod 11 and the four support rods 13 in a penetrating manner, a plurality of drip irrigation holes 61 are formed in the pipe wall of the drip irrigation pipe 6, a circulating pump 4 is connected to one end, far away from the support rods 13, of the drip irrigation pipe 6, and the circulating pump 4 is placed in the water storage tank 3 and communicated with the water storage tank 3; the lower surface of the support rod 13 is provided with a through hole 131 for drip irrigation of greening vegetation in the planting groove 21, and the projection of the through hole 131 facing the planting unit is positioned on the planting groove 21; the backflow device 5 comprises a circular screen disc 51 and a hose 53, the screen disc 51 is located below the water outlet hole 22, a gap is reserved between the screen disc 51 and the water outlet hole 22, the surface of the screen disc 51 is arc-shaped, the arc-shaped opening of the screen disc 51 faces the water outlet hole 22, the projection of the water outlet hole 22 facing the screen disc 51 is smaller than the surface area of the screen disc 51, a screen hole 52 is formed in the bottom of the screen disc 51, filter cotton 54 is placed in the screen hole 52, the filter cotton 54 abuts against the inner wall of the screen hole 52, the bottom of the screen hole 52 is connected with the hose 53 through threads, threaded holes for communicating the hose 53 are formed in the tops of the support rod 13 and the backflow pipe 15, the screen disc 51 comprises a fixed block (not shown in the figure), the; the return pipe 15 is communicated with the second fixing lever 12, and the second fixing lever 12 is communicated with the water storage tank 3.

The supporting rod 13 is fixed with a sealing assembly 9 for plugging the through hole 131, the sealing assembly 9 is close to the through hole 131, the sealing assembly 9 comprises a sealing plug 92 and a flexible rope 91, one end of the flexible rope 91 is fixedly connected with the supporting rod 13, and one end of the flexible rope 91, far away from the supporting rod 13, is fixedly connected with the sealing plug 92.

The embodiment of the application provides an implementation principle of indoor intelligent ecological vertical greening structure for soft fitment is: the arrangement of the first fixing rod 11 and the second fixing rod 12 plays a supporting role for the supporting rod 13 and the fixing plate 14, so that the installation of the planting unit by workers is facilitated; the drip irrigation pipe 6 is arranged through the first fixing rod 11 and the supporting rod 13, so that the drip irrigation pipe 6 is protected by the first fixing rod 11 and the supporting rod 13 and is not easy to damage, and the service life of the drip irrigation pipe 6 is prolonged; the support rods 13 are horizontally arranged, so that water drained from the through holes 131 is uniform, and the drop irrigation of the greening vegetation in the planting grooves 21 is uniform; 22's of apopore, make and plant unabsorbed moisture in the groove 21 and discharge by apopore 22 when driping irrigation, reflux unit 5's setting, make unabsorbed moisture when driping irrigation advance reflux unit 5 by apopore 22 stream, reflux unit 5 is with in the bracing piece 13 of water drainage to below, and then make unabsorbed moisture be used for driping irrigation of lower floor's afforestation vegetation, improve the cyclic utilization of water, the setting of back flow 15 and second dead lever 12 intercommunication, make unabsorbed moisture finally flow into aqua storage tank 3, realize the recovery reuse of water, improve the cyclic utilization ratio of water.

Due to the fact that water which is not absorbed in the planting groove 21 washes soil in the planting groove 21, soil particles are carried in water flowing out of the water outlet hole 22, the water is filtered into the hose 53 through the sieve holes 52 and the filter cotton 54 and flows into the supporting rod 13 below, the soil particles are retained on the sieve disc 51, the hose 53 and the supporting rod 13 are not prone to being blocked due to the fact that the soil particles enter, the service life of the backflow device 5 is prolonged, the sieve disc 51 can bear the falling soil particles, and the soil particles can be recycled or cleaned by workers conveniently; a gap is reserved between the sieve tray 51 and the water outlet 22, so that the roots of the greening vegetation in the planting groove 21 can be ventilated through the water outlet 22; due to the arrangement of the sealing assembly 9, when workers change greening vegetation, the sealing assembly 9 is sealed at the through hole 131 above the changed green ring vegetation, so that water is not easy to drip out of the planting groove 21 through the through hole 131, and the drip irrigation is not uniform; due to the arrangement of the baffle 7, dead leaves falling from the greening vegetation are not easy to enter the water storage tank 3, and the circulating pump 4 is not easy to block when pumping water in the water storage tank 3; due to the arrangement of the feed inlet, the feeding of the fertilizer by workers is facilitated.

The staff first fills water into the water storage tank 3, then the power of the circulating pump 4 is connected to make the vertical greening structure start to work, at this time, the circulating pump 4 starts to pump the water in the water storage tank 3 into the drip irrigation pipe 6, the water in the drip irrigation pipe 6 is discharged from the drip irrigation hole 61 and flows into the through hole 131, then the water is discharged from the through hole 131 and falls into the planting tank 21, the soil in the planting tank 21 absorbs part of the water of drip irrigation, the unabsorbed water flushes the soil particles in the planting tank 21, then the water carries the soil particles out of the water outlet hole 22 and falls into the sieve tray 51, the water is filtered by the filter cotton 54 in the sieve mesh 52, the water flows into the hose 53 through the filter cotton 54, the soil particles are retained and accumulated on the sieve tray 51, then the water of the hose 53 flows into the cavity of the support rod 13 below the reflux device 5, and falls into the planting tank 21 of the next layer through the through hole 131, when the unabsorbe, enter the return pipe 15 by the hose 53, then enter the cavity of the second fixed link 12 by the return pipe 15 and finally flow to the water storage tank 3, the circulating pump 4 again pumps the unabsorbed water that flows back to the water storage tank 3 into the drip irrigation pipe 6 again to drip irrigation the greening vegetation.

When the worker dismantles and cleans the greening vegetation or the backflow device 5, the through hole 131 above the planting unit to be dismantled is sealed up by the sealing assembly 9, and then the bolt for fixing the planting unit or the backflow device 5 and the fixing plate 14 is dismantled.

When the worker has replaced the greening vegetation and cleaned the backflow device 5, the planting unit is fixed with the fixing plate 14 by the bolts, then the fixing block is fixed with the fixing plate 14 by the bolts, and finally the sealing plug 92 in the through hole 131 above the replaced planting unit is taken out.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a soft fitment is with ecological perpendicular greening structure of indoor intelligence, includes planting unit on afforestation frame and a plurality of afforestation frame that are fixed in, it has planting groove (21) to plant unit upper surface, plants in planting groove (21) and has afforestation vegetation, its characterized in that: plant the unit and open apopore (22) that have and plant groove (21) bottom intercommunication, afforestation frame is equipped with and is used for driping irrigation tub (6) of driping irrigation to afforestation vegetation, it has a plurality of driping irrigation holes (61) to drip irrigation tub (6) division, drips irrigation tub (6) and is located the top of planting groove (21), aqua storage tank (3) have been placed to afforestation frame's bottom, apopore (22) and aqua storage tank (3) intercommunication, the one end of driping irrigation tub (6) is connected with circulating pump (4), circulating pump (4) and aqua storage tank (3) intercommunication.

2. The indoor intelligent ecological vertical greening structure for soft decoration according to claim 1, is characterized in that: the greening frame comprises a first fixing rod (11) and a second fixing rod (12) which are arranged in a hollow way, the first fixing rod (11) and the second fixing rod (12) are both arranged along the vertical direction and are mutually parallel, a plurality of horizontally arranged supporting rods (13) are fixedly connected between the first fixing rod (11) and the second fixing rod (12), the supporting rods (13) are arranged in a hollow manner, two ends of each supporting rod (13) are respectively communicated with the first fixing rod (11) and the second fixing rod (12), the planting unit is positioned between two adjacent supporting rods (13), the drip irrigation pipe (6) is positioned in a cavity formed by the first fixing rod (11) and the supporting rods (13) in a communicated manner, the water storage tank (3) is positioned between the first fixing rod (11) and the second fixing rod (12), the lower surface of the supporting rod (13) is provided with a through hole (131), and the projection of the through hole (131) towards the planting unit is positioned on the planting groove (21).

3. The indoor intelligent ecological vertical greening structure for soft decoration according to claim 2, is characterized in that: the utility model discloses a plant unit, including apopore (22), the below of apopore (22) is provided with reflux unit (5), and reflux unit (5) are used for collecting apopore (22) exhaust water, reflux unit (5) include hose (53), and hose (53) and bracing piece (13) the intercommunication of planting the unit below.

4. The indoor intelligent ecological vertical greening structure for soft decoration according to claim 3, is characterized in that: reflux unit (5) are still including sieve dish (51) that the level set up, and sieve dish (51) are located between apopore (22) and hose (53) and sieve dish (51) and apopore (22) between leave the clearance, sieve dish (51) and afforestation frame fixed connection, open the bottom of sieve dish (51) has sieve mesh (52) that run through, the bottom and hose (53) the intercommunication of sieve mesh (52), sieve dish (51) bottom is fixed with filter pulp (54) of shutoff sieve mesh (52), and filter pulp (54) are located the top of sieve mesh (52), and apopore (22) are less than the surface area of sieve dish (51) towards the projection of sieve dish (51).

5. The indoor intelligent ecological vertical greening structure for soft decoration according to claim 1, is characterized in that: the opening part of aqua storage tank (3) is provided with baffle (7), the one end of baffle (7) is articulated with aqua storage tank (3), the opening of aqua storage tank (3) is sealed by baffle (7).

6. The indoor intelligent ecological vertical greening structure for soft decoration according to claim 4, is characterized in that: the greening frame comprises a plurality of fixing plates (14) located between a first fixing rod (11) and a second fixing rod (12), the fixing plates (14) are horizontally arranged and located between two adjacent supporting rods (13), and the planting units are detachably connected with the fixing plates (14) along the horizontal direction.

7. The indoor intelligent ecological vertical greening structure for soft decoration according to claim 6, is characterized in that: the sieve tray (51) comprises a fixed block, and the fixed block is detachably connected with the fixed plate (14).

8. The indoor intelligent ecological vertical greening structure for soft decoration according to claim 4, is characterized in that: the water storage device is characterized in that the second fixing rod (12) is communicated with the water storage tank (3), a return pipe (15) is fixed between the first fixing rod (11) and the second fixing rod (12), the return pipe (15) is located between a supporting rod (13) close to the water storage tank (3) and the water storage tank (3), one end of the return pipe (15) is communicated with the second fixing rod (12), and the return pipe (15) is communicated with a hose (53) close to the water storage tank (3).

9. The indoor intelligent ecological vertical greening structure for soft decoration according to claim 2, is characterized in that: the support rod (13) is flexibly connected with a sealing plug (92), and the sealing plug (92) is used for plugging the through hole (131).

10. The indoor intelligent ecological vertical greening structure for soft decoration according to claim 5, is characterized in that: the baffle (7) is provided with a feeding port, a feeding cover (8) is hinged to the position, close to the feeding port, of the baffle (7), and the feeding port is sealed and covered by the feeding cover (8).

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