CN111742745A

CN111742745A - Novel vertical greening wall

Info

Publication number: CN111742745A
Application number: CN202010767774.2A
Authority: CN
Inventors: 郑宏元; 刘明珠; 圣倩倩; 胡鹏程; 成诚; 祝遵崚
Original assignee: Nanjing Guohao Decoration Installation Engineering Co ltd; Nanjing Forestry University
Current assignee: Nanjing Guohao Decoration Installation Engineering Co ltd; Nanjing Forestry University
Priority date: 2020-08-03
Filing date: 2020-08-03
Publication date: 2020-10-09

Abstract

The invention discloses a novel vertical greening wall, which comprises a planting groove module and a water-absorbent cotton placing groove module, wherein the front end surface of the planting groove module is provided with a planting groove, the bottom of the planting groove is provided with a through hole, the front end surface of the water-absorbent cotton placing groove module is provided with a water-absorbent cotton placing groove corresponding to the position of the planting groove, an irrigation pipeline is vertically arranged between the planting groove module and the water-absorbent cotton placing groove module, the top ends of the planting groove module and the water-absorbent cotton placing groove module are provided with water storage tanks, a pipe body of the irrigation pipeline is provided with pipeline units in a layering manner along the axial direction of the irrigation pipeline, the top end of the irrigation pipeline extends into the water storage tanks, water-absorbent cotton lines are arranged in the irrigation pipeline, the top ends of the water-absorbent cotton lines are connected with floating blocks, nutrient solution and water are respectively conveyed into the water storage tanks through a nutrient solution pipeline and a water pipeline at one side end of the planting groove module and the water-absorbent cotton, the point-to-point water storage can be used for irrigating plants, and water is saved.

Description

Novel vertical greening wall

Technical Field

The invention relates to an urban vertical greening facility, in particular to a novel vertical greening wall.

Background

In urban development, a large number of high-rise buildings are raised, the resources of a plane green land become short, and the vertical greening is developed. The vertical greening wall is used as an important mode for vertical greening, occupies small area, has various shapes, can beautify the environment and can cultivate the body and mind. The general vertical greening engineering quantity is large, a wall surface needs to be considered to be waterproof, plant selection, pipeline arrangement and other problems, maintenance cost is high, different plant habits are different, requirements for the environment are different, and the vertical greening wall cannot achieve an ideal effect.

Disclosure of Invention

In order to solve the above problems in the prior art, the present invention provides a novel vertical greening wall, which can be planted in a modularized manner, and ensure that each module is maintained differently according to different plants.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows: a novel vertical greening wall comprises a planting groove module and a water-absorbing cotton placing groove module, wherein a plurality of groups of planting grooves are vertically arranged on the front end face of the planting groove module, a plurality of through holes are formed in the bottom of each planting groove, a plurality of groups of water-absorbing cotton placing grooves corresponding to the positions of the planting grooves are vertically arranged on the front end face of the water-absorbing cotton placing groove module, an irrigation pipeline is vertically arranged between the planting groove module and the water-absorbing cotton placing groove module, after the planting groove module and the water-absorbing cotton placing groove module are spliced, the planting groove module and the water-absorbing cotton placing groove module are distributed on the ground and connected with the ground, the rear end face of the water-absorbing cotton placing groove module is fixedly connected with a wall, a water storage tank is arranged at the top ends of the planting groove module and the water-absorbing cotton placing groove module, pipe bodies of the irrigation pipeline are provided with pipe units corresponding to the positions of the water-absorbing cotton, irrigation conduit's top extends to in the water storage box, be provided with the cotton thread that absorbs water in the irrigation conduit, the top of cotton thread that absorbs water is connected with the piece that floats that can suspend the internal diameter is greater than the irrigation conduit internal diameter in the water storage box, the cotton thread that absorbs water passes pipeline unit extensible to the cotton of absorbing water and places the inslot, the vertical nutrient solution pipeline that is provided with of a side end of planting the groove module, the cotton vertical water pipeling that is provided with of a side end of putting the groove module that absorbs water, a water storage box side is provided with water input hole and nutrient solution input hole respectively, the top of nutrient solution pipeline is passed through connecting pipe and nutrient solution input hole and is connected, the top of water pipeling is passed through connecting pipe and water input hole and is connected, be provided with the valve on the preceding terminal surface.

As a further improvement of the invention, a water filter is arranged between the top end of the water pipeline and the water input hole.

As a further improvement of the invention, the planting grooves and the water-absorbent cotton placing grooves are distributed in a reticular chessboard shape, the inner diameters of the planting grooves are in a cylindrical shape gradually reduced from outside to inside, and the planting grooves are distributed on the planting groove modules in an inward inclined manner.

As a further improvement of the invention, the two side ends of the planting groove module and the absorbent cotton placing groove module are respectively provided with a semicircular pipeline hole which is respectively clamped with the nutrient solution pipeline and the water pipeline.

As a further improvement of the invention, the planting tank module and the absorbent cotton placing tank module are both made of cork wood.

As a further improvement of the invention, the nutrient solution pipeline and the water pipeline are positioned at the same side end.

Compared with the prior art, the invention has the following beneficial effects:

1. nutrient solution and water are respectively conveyed into the water storage tank through a nutrient solution pipeline and a water pipeline at one side end of the planting tank module and the absorbent cotton placing tank module, and then water and nutrients are downwards conveyed into the absorbent cotton placing tank along the irrigation pipeline through an absorbent cotton line in the water storage tank, so that the plants can be irrigated in a point-to-point manner, and water is saved;

2. through nutrient solution pipeline, water pipeling and the water storage box that every module set up alone, can adjust according to the demand of different module plants and carry irrigation water and nutrient solution, the plant of every module has obtained different maintenance, and the equipment is simple, convenient transportation.

Drawings

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

FIG. 2 is a schematic view of the disassembled structure of the single body of the present invention;

FIG. 3 is a schematic diagram of the monomer structure of the present invention;

FIG. 4 is a schematic view of a monomer cut-away structure of the present invention;

in the drawings: 1. a planting tank module; 2. a water absorbent cotton placing tank module; 3. an irrigation pipe 4 and a water storage tank; 5. a nutrient solution conduit; 6. a water conduit; 10. planting grooves; 20. a water absorbent cotton placing groove; 30. a piping unit; 31. absorbent cotton threads; 32. floating water blocks; 40. a water input aperture; 41. a nutrient solution infusion hole; 42. a valve; 60. a water filter.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention relates to a novel vertical greening wall, which comprises a planting groove module 1 and a water-absorbing cotton placing groove module 2, wherein a plurality of groups of planting grooves 10 are vertically arranged on the front end surface of the planting groove module 1, a plurality of through holes are formed in the bottom of the planting grooves 10, a plurality of groups of water-absorbing cotton placing grooves 20 corresponding to the positions of the planting grooves 10 are vertically arranged on the front end surface of the water-absorbing cotton placing groove module 2, an irrigation pipeline 3 is vertically arranged between the planting groove module 1 and the water-absorbing cotton placing groove module 2, after the planting groove module 1 and the water-absorbing cotton placing groove module 2 are spliced, the planting groove module 1 and the water-absorbing cotton placing groove module 2 are distributed and connected with the ground, and the rear end surface of the water-absorbing cotton placing groove module 2 is fixedly connected with the wall. The equal interval vertical arrangement of groove 20 is put to groove 10 and the cotton that absorbs water to every module is 7 rows, 6 rows, and the groove 20 one-to-one is put to module planting groove 10 and the cotton that absorbs water after the combination, can plant different plant species according to the design in planting the groove 10, and the cotton that absorbs water is placed alone in groove 20 and is used for absorbing moisture and nutrient to every cotton that absorbs water, can point-to-point water storage irrigation plant, using water wisely.

As shown in fig. 1, fig. 2, fig. 3, it is provided with water storage tank 4 to plant groove module 1 and the cotton 2 tops of putting of absorbing water groove module, irrigation pipe 3's pipe shaft is provided with along 3 axial layering of irrigation pipe with the corresponding pipeline unit 30 in the cotton 20 positions of putting of absorbing water groove, irrigation pipe 3's top extends to in the water storage tank 4, be provided with the cotton line 31 of absorbing water in the irrigation pipe 3, the top of the cotton line 31 of absorbing water is connected with the superficial water piece 32 that can suspend the internal diameter in the water storage tank and be greater than irrigation pipe 3 internal diameter, and the narrowest internal diameter of superficial water piece 32 is greater than irrigation pipe 3's internal diameter, and superficial water piece 32 can not fall into irrigation pipe 3 like this in, carries out the transmission of moisture and nutrient through the top of fixed connection cotton line 31 of absorbing water. The absorbent cotton thread 31 may extend into the absorbent cotton receiving groove 20 through the pipe unit 30. Irrigation pipe 3 can be vertical to be set up 4, set up 6 pipe unit 30 on every irrigation pipe 3, irrigation pipe 3 with plant groove module 2 and the cotton put groove module 2 of absorbing water and merge after, pipe unit 30 on irrigation pipe 3 can extend to the cotton put groove 20 of absorbing water in, irrigation pipe 3 is from last down being connected with the cotton line 31 of absorbing water, and during every pipe unit 30, all extend to pipe unit 30 outside again to the cotton line 31 of absorbing water in putting groove 20 of absorbing water, the inside cotton material that absorbs water that is of the cotton material of floating block 32 in the water storage tank 4, and connect the cotton line 31 of absorbing water, floating block 32 absorbs water and the nutrient solution rethread is buried on the cotton line 31 of absorbing water in irrigation pipe 3 of absorbing water in each cotton standing groove 20 of absorbing water.

As shown in fig. 1 and 2, a nutrient solution pipeline 5 is vertically arranged at one side end of the planting tank module 1, a water pipeline 6 is vertically arranged at one side end of the water-absorbing cotton placing tank module 2, a water input hole 40 and a nutrient solution input hole 41 are respectively arranged at one side end of the water storage tank 4, the top end of the nutrient solution pipeline 5 is connected with the nutrient solution input hole 41 through a connecting pipe, the top end of the water pipeline 6 is connected with the water input hole 40 through a connecting pipe, and a valve 42 is arranged on the front end surface of the water storage tank 4. The nutrient solution pipeline 5 and the water pipeline 6 are arranged in a separated way, the nutrient solution and the water are respectively conveyed to the water storage tank 4 to be mixed, and then the water and the nutrient are downwards conveyed to the water absorption cotton placing groove 20 along the irrigation pipeline 3 by the water absorption cotton line 31 in the water storage tank 4. The manual valve 42 can control the pressure and flow of the water flow, and can be adjusted correspondingly according to the plant condition in each module planting tank 10.

As shown in fig. 2 and 3, a water filter 60 is disposed between the top end of the water pipe 6 and the water inlet 40, and water is filtered before entering the water storage tank 4 for storage, so as to improve the purity of water and facilitate the growth of plants in the planting tank 10.

As shown in fig. 1 and 3, the planting grooves 10 and the absorbent cotton placing grooves 20 are distributed in a checkerboard shape, and the inner diameter of the planting grooves 10 is in a cylindrical shape gradually decreasing from outside to inside and is distributed on the planting groove modules 1 in an inward inclined manner, which is beneficial to planting plants.

As shown in fig. 2 and 3, both side ends of the planting groove module 1 and the absorbent cotton placing groove module 2 are provided with semicircular pipeline holes, and are respectively clamped with the nutrient solution pipeline 5 and the water pipeline 6. Through the setting in semicircle pipeline hole, can be better accomodate nutrient solution pipeline 5 and water pipeling 6, make whole module seem neater more.

Specifically, the planting groove module 1 and the water absorption cotton placing groove module 2 are both made of cork wood.

Specifically, the nutrient solution pipeline 5 and the water pipeline 6 are positioned at the same side end.

The implementation process comprises the following steps: the invention relates to 4 same modules which are respectively arranged into 2 groups from top to bottom, wherein the bottom ends of the irrigation pipelines 3 of the upper group are respectively connected with the water storage tanks 4 of the lower group and are communicated with each other, the redundant water of the modules of the upper group can flow into the water storage tanks 4 of the lower group, and the bottom ends of the irrigation pipelines 3 of the lower group are directly connected with the ground. Assemble each module earlier during the use, every external irrigation water of module and nutrient solution transmit to water storage box 4 through water pump through water pipeling 6 and nutrient solution pipeline 5 respectively, the cotton line 31 that absorbs water in the water storage box 4 transmits moisture and nutrient downwards along irrigation pipe 3, the final storage is on the cotton that absorbs water in putting groove 20 is put to the cotton that absorbs water, the root system of the plant of placing in planting groove 10 extends and climbs the cotton that absorbs water in the cotton standing groove 20 of absorbing water after passing the through-hole of bottom, can supply required moisture of plant and nutrient this moment, the plant removes the absorption according to the hydroscopicity of oneself, the plant of every module has obtained different maintenance.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a novel vertical greening wall which characterized in that: comprises a planting groove module (1) and a water-absorbing cotton placing groove module (2), wherein a plurality of groups of planting grooves (10) are vertically arranged on the front end face of the planting groove module (1), a plurality of through holes are formed in the bottom of the planting grooves (10), a plurality of groups of water-absorbing cotton placing grooves (20) corresponding to the positions of the planting grooves (10) are vertically arranged on the front end face of the water-absorbing cotton placing groove module (2), an irrigation pipeline (3) is vertically arranged between the planting groove module (1) and the water-absorbing cotton placing groove module (2), after the planting groove module (1) and the water-absorbing cotton placing groove module (2) are spliced, the planting groove module (1) and the water-absorbing cotton placing groove module (2) are distributed on the ground and connected with the ground, the rear end face of the water-absorbing cotton placing groove module (2) is fixedly connected with the wall, a water storage tank (4) is arranged at the top ends of the planting groove module (1) and the water-absorbing cotton placing groove, the irrigation pipe (3) is provided with a pipe unit (30) corresponding to the position of the water absorption cotton placing groove (20) in an axial layered manner along the irrigation pipe (3), the top end of the irrigation pipe (3) extends into the water storage tank (4), a water absorption cotton thread (31) is arranged in the irrigation pipe (3), the top end of the water absorption cotton thread (31) is connected with a floating block (32) which can be suspended in the water storage tank and has an inner diameter larger than that of the irrigation pipe (3), the water absorption cotton thread (31) penetrates through the pipe unit (30) and can extend into the water absorption cotton placing groove (20), a nutrient solution pipe (5) is vertically arranged at one side end of the planting groove module (1), a water pipe (6) is vertically arranged at one side end of the water absorption cotton placing groove module (2), an input hole (40) and a nutrient solution input hole (41) are respectively arranged at one side end of the water storage tank (4), the top of nutrient solution pipeline (5) is connected with nutrient solution input hole (41) through the connecting pipe, the top of water pipeline (6) is connected with water input hole (40) through the connecting pipe, be provided with valve (42) on the preceding terminal surface of water storage box (4).

2. A novel vertical greening wall as claimed in claim 1, wherein: a water filter (60) is arranged between the top end of the water pipeline (6) and the water input hole (40).

3. A novel vertical greening wall as claimed in claim 1, wherein: the planting grooves (10) and the water-absorbing cotton placing grooves (20) are distributed in a net-shaped chessboard mode, the inner diameters of the planting grooves (10) are cylindrical and gradually reduced from outside to inside, and the planting grooves are distributed on the planting groove modules (1) in an inward inclined mode.

4. A novel vertical greening wall as claimed in claim 1, wherein: both sides end of planting groove module (1) and the cotton that absorbs water and putting groove module (2) all is provided with semicircle pipeline hole, with nutrient solution pipeline (5) and water pipeling (6) block mutually respectively.

5. A novel vertical greening wall as claimed in claim 1, wherein: the planting groove module (1) and the water-absorbing cotton placing groove module (2) are both made of cork wood.

6. A novel vertical greening wall as claimed in claim 1, wherein: the nutrient solution pipeline (5) and the water pipeline (6) are positioned at the same side end.