CN112703918B - Ecological building wall greening system - Google Patents

Abstract

The application relates to an ecological building wall greening system, which comprises a unit curtain wall fixed on the side wall of a wall body and a greening mechanism arranged on one side of the unit curtain wall, which is far away from the wall body; the greening mechanism comprises a plurality of groups of supporting pieces which are vertically arranged along the unit curtain wall, the supporting pieces are of transparent plate-shaped structures, and the upper sides and the lower sides of the supporting pieces are bent towards the unit curtain wall; one side of the bent part at the lower side of the supporting piece, which is close to the unit curtain wall, forms a mounting groove of a U-shaped structure, and planting dishes are placed in the mounting groove; one side of the bent part at the upper side of the support piece, which is close to the unit curtain wall, forms an upper flow guide part; one side of the bent part on the lower side of the support member, which is far away from the unit curtain wall, forms a lower flow guide part; the upper diversion part diverts rainwater into the planting dish of the support part; the lower diversion part diverts rainwater to the planting dish of the support member on the lower side. This application has the effect that the structure is retrencied, multi-functional planting, improves the wind-resistance of plant, improves vegetation environment and rainwater utilization efficiency height.

Description

Ecological building wall greening system

Technical Field

The application relates to the field of greening of ecological buildings, in particular to a wall greening system of an ecological building.

Background

The ECO-building is called ECO (ECO-built) for short, and is essentially characterized in that substances and energy are circularly converted in a building ecosystem orderly by organizing various physical factors in the internal and external spaces of the building, so that a high-efficiency, low-consumption, waste-free, pollution-free and ecologically balanced building environment is obtained.

At present, the ecological building wall greening system is characterized in that a plurality of planting grooves are dispersedly hung and mounted on a wall body, soil is filled in the planting grooves, plants are planted in the planting grooves, and the plants on the wall body are mutually matched to realize a greening effect on the wall surface.

In practice, after a period of natural growth, after the soil in the planting groove runs off, the plants in the planting groove are installed in a distributed mode, so that the plants in the planting groove are weak in wind resistance and are easy to blow off; and the growth direction of the plants is not easy to control, so that the cleanness of the wall greening is reduced.

Disclosure of Invention

In order to improve the stability of wall greening system, this application provides an ecological building wall greening system.

The application provides an ecological building wall greening system adopts following technical scheme:

an ecological building wall greening system comprises a unit curtain wall fixed on the side wall of a wall body and a greening mechanism arranged on one side of the unit curtain wall, which is far away from the wall body; the greening mechanism comprises a plurality of groups of supporting pieces which are vertically arranged along the unit curtain wall, the supporting pieces are of transparent plate-shaped structures, and the upper sides and the lower sides of the supporting pieces are bent towards the unit curtain wall;

one side of the bent part at the lower side of the supporting piece, which is close to the unit curtain wall, forms a mounting groove of a U-shaped structure, and planting dishes are placed in the mounting groove; one side of the bent part at the upper side of the support piece, which is close to the unit curtain wall, forms an upper flow guide part; one side of the bent part on the lower side of the support member, which is far away from the unit curtain wall, forms a lower flow guide part;

the upper diversion part diverts rainwater into the planting dish of the support part; the lower diversion part diverts rainwater to the planting dish of the support member on the lower side.

By adopting the technical scheme, the planting dish is arranged in the mounting groove, and the plants and the soil in the planting dish are protected by the side wall of the supporting piece deviating from the unit curtain wall, so that the loss of the soil in the planting dish can be reduced; the wind resistance of the plants can be improved, so that the plants are not easy to blow off, and the stability of the wall greening system is improved; when the plants in the planting dish are protected, sunlight can shine on the plants through the transparent support piece, and the growth of the plants is facilitated;

in the rainy climate, one part of rainwater falling on the supporting piece can enter the planting dish along the upper diversion part to water the plants, and the other part of rainwater can flow to the lower side of the supporting piece along the lower diversion part and drip into the planting dish in the supporting piece at the lower side, so that the lower planting dish which is not easy to be watered by the rainwater can be watered by the rainwater;

in the plant growth process, the plants in the planting dish of the lower side supporting piece can grow upwards along the lower flow guide part of the upper side supporting piece and grow outwards between the upper flow guide part of the lower side supporting piece and the lower flow guide part of the upper side supporting piece, so that the plants in the planting dish grow more neatly, and the plants can be trimmed and managed by workers conveniently.

Optionally, the support member is a hollow structure, the end of the lower diversion part is provided with a connecting pipe, the connecting pipe is connected with a water source, and the lower end of the upper diversion part is provided with a water outlet nozzle.

By adopting the technical scheme, the water source is injected from the connecting pipe, and the water flows out of the water outlet spray head under the action of water pressure after passing through the cavity of the supporting piece, so that the plants in the planting dish at the lower side of the water outlet spray head are irrigated, the greening mechanism can be irrigated uniformly when the greening mechanism does not fall rain, and the irrigation efficiency is improved; the structure of the supporting piece is used for guiding flow, guiding growth, supporting and irrigating, so that the supporting piece is multifunctional, and parts of the greening mechanism can be simplified.

Optionally, the lower side of the support piece, which is located at the water outlet nozzle, is provided with a water receiving tank, and the edge of the water receiving tank, which is close to the planting dish, is provided with a water drop port.

By adopting the technical scheme, when irrigation is carried out, water for irrigation is firstly poured into the water receiving tank through the water outlet nozzle, and when the water receiving tank is full of water, the water overflows into the planting dish from the water dropping port to irrigate the plants; after the water in the water receiving tank stops watering at the water outlet nozzle, the air humidity between the supporting piece and the unit curtain wall can be increased through natural evaporation, and a more comfortable growing environment is provided for plants.

Optionally, the water receiving tank is connected with the side wall of the support piece in a rotating mode, and the rotating angle between the water receiving tank and the support piece is adjustable.

Through adopting above-mentioned technical scheme, through adjusting the turned angle between water receiving tank and the support piece, change the inclination of water receiving tank and the height of falling the mouth of a river to the volume after the water that changes the water receiving tank spills over from falling the mouth of a river changes the water volume that can supply to evaporate, thereby adjusts the ambient humidity in the afforestation mechanism.

Optionally, a supporting plate is rotatably connected to the side wall of the supporting member, and the supporting plate is arranged at the lower side of the water receiving tank; the outer cell wall downside of water receiving tank is provided with a plurality of support grooves with backup pad tip complex, and a plurality of support grooves are arranged along the direction of perpendicular to water receiving tank axis of rotation.

By adopting the technical scheme, the supporting plate supports the water tank through the supporting groove; the backup pad supports through the support groove to different positions to adjust the turned angle of water receiving tank, thereby adjust the environmental humidity in the afforestation mechanism.

Optionally, the supporting piece is rotatably connected with the unit curtain wall, the rotating axis of the supporting piece is positioned at the edge of the upper side of the mounting groove, which is far away from the unit curtain wall, and the rotating axis of the supporting piece is parallel to the unit curtain wall;

one side of the supporting piece close to the unit curtain wall is transversely provided with a limiting part; the unit curtain wall is provided with a supporting pipe for supporting the limiting part, the supporting pipe is arranged on one side, close to the supporting part, of the unit curtain wall, and the supporting pipe is supported on the lower side of the limiting part.

By adopting the technical scheme, after one side of the mounting groove is rotated upwards, the planting dish can be placed into the mounting groove or taken out of the mounting groove from the upper side of the supporting piece; after the planting ware is installed, a lateral supporting tube of the mounting groove is rotated, the mounting groove can also rotate downwards by itself under the action of gravity of the planting ware, so that the limiting part is driven to rotate towards the supporting tube, and the supporting piece is supported on the lower side of the limiting part through the supporting tube, so that the supporting piece is stably supported.

Optionally, the limiting part is communicated with the supporting part, and the connecting pipe is arranged at the lower side of the limiting part;

the upper side of the supporting tube is provided with a water filling port matched with the connecting tube, and the connecting tube is inserted into the supporting tube through the water filling port; the supporting tube is connected with a water source.

By adopting the technical scheme, when the limiting part rotates towards the supporting pipe and the supporting pipe is supported at the lower side of the limiting part, the connecting pipe is used for splicing the supporting pipe through the water filling port, the supporting pipe is used for filling irrigation water into the cavity of the supporting piece through the water filling port and the connecting pipe, and the irrigation water is used for irrigating plants in the planting dish at the lower side through the water outlet nozzle; the supporting tube can carry out limiting support on the limiting part and can also supply water to the supporting piece.

Optionally, the groove bottom of the mounting groove is provided with a water leakage hole, and the bottom of the planting dish is provided with a water leakage through hole.

Through adopting above-mentioned technical scheme, when the rainfall, unnecessary moisture can also spill the planting ware to the lower floor downwards through leaking hole and water leakage hole in the planting ware of upper strata to the planting ware that makes each layer all can receive comparatively even watering.

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

1. the support piece protects the plants and the soil in the planting dish, reduces soil loss and increases the wind resistance of the plants; meanwhile, sunlight can also irradiate on the plants through the transparent supporting pieces, so that the growth of the plants is facilitated; the growth of the plants in the planting dish can be more orderly, and the pruning and the management of workers are convenient;

2. by arranging the water outlet spray head, the connecting pipe and the supporting pipe, the supporting piece can also uniformly irrigate the plants; the supporting tube can stably support the supporting piece and can supply water to the supporting piece;

3. through setting up the water receiving tank, increase the air humidity between support piece and the unit curtain wall, provide more comfortable growing environment for the plant.

Drawings

FIG. 1 is a schematic perspective view of a greening system for ecological wall surfaces;

FIG. 2 is a sectional view of a unitized curtain wall of the ecological building wall greening system;

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

Description of reference numerals: 1. a wall body; 2. a unit curtain wall; 3. a greening mechanism; 31. a support member; 311. mounting grooves; 3111. a water leakage hole; 312. an upper flow guide part; 3121. a water outlet nozzle; 313. a lower flow guide part; 314. a limiting part; 3141. a connecting pipe; 3142. mechanical sealing; 32. supporting a tube; 321. a water injection port; 322. connecting grooves; 33. a humidity adjustment assembly; 331. a water receiving tank; 3311. a water drop port; 3312. a support groove; 332. a support plate; 34. planting dishes; 341. a water leakage through hole.

Detailed Description

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

The embodiment of the application discloses an ecological building wall greening system. Referring to fig. 1, the ecological building wall greening system comprises a unit curtain wall 2 fixedly installed on the side wall of a wall body 1 and a greening mechanism 3 arranged on one side of the unit curtain wall 2, which is far away from the wall body 1.

Referring to fig. 1 and 2, the greening mechanism 3 includes a plurality of sets of supporting members 31, and the plurality of sets of supporting members 31 are vertically arranged along the unit curtain wall 2; in the present embodiment, three sets of supporting members 31 are disposed in each set of unit curtain walls 2 for illustration. The supporting member 31 is a transparent plate-shaped structure, and the supporting member 31 may be made of transparent plastic for shaping.

Referring to fig. 2 and 3, the upper side and the lower side of the supporting member 31 are bent toward the unit curtain wall 2, and the bent portions are arc-shaped; the size of the bent portion of the lower side of the support 31 is larger than that of the bent portion of the upper side. One side of the bent part of the lower side of the support member 31, which is close to the unit curtain wall 2, forms a mounting groove 311 of a U-shaped structure, a planting dish 34 is placed in the mounting groove 311, and the contour of the lower side of the planting dish 34 is matched with the mounting groove 311.

Because the supporting piece 31 is made of transparent materials, under the condition that the supporting piece 31 does not block sunlight as much as possible, the supporting piece 31 deviates from the side wall of the unit curtain wall 2 to protect plants and soil in the planting dish 34, and therefore the loss of the soil in the planting dish 34 can be reduced; can also increase the wind resistance of the plants, so that the plants are not easy to blow off.

A water leakage hole 3111 is arranged at the bottom of the mounting groove 311, and a water leakage through hole 341 is arranged at the bottom of the planting dish 34; through the water leakage hole 3111 and the water leakage through hole 341, the excessive moisture in the soil of the planting dish 34 can be discharged, so that the air permeability of the soil is enhanced, thereby improving the comfort level of the growing environment of the roots of plants.

In order to facilitate the installation of the planting dish 34, two sides of the unit curtain wall 2 in the vertical direction are perpendicularly bent towards the side away from the wall body 1, two sides of the supporting piece 31 are rotatably supported between the bent parts at two sides of the unit curtain wall 2, the rotating axis of the supporting piece 31 is positioned at the edge of the upper side of the installation groove 311, which is far away from the unit curtain wall 2, and the rotating axis of the supporting piece 31 is parallel to the unit curtain wall 2; after the mounting groove 311 is rotated upward at one side, the planting dish 34 can be put into the mounting groove 311 or taken out from the mounting groove 311 from the upper side of the support member 31.

In order to stably support the supporting member 31, a limiting portion 314 is transversely extended from the supporting member 31 near the edge of the unitized curtain wall 2; a support pipe 32 for supporting the limiting part 314 is fixed on the unit curtain wall 2, and the support pipe 32 is arranged on one side of the unit curtain wall 2 close to the support 31. After the planting dish 34 is installed, one side of the installation groove 311 is rotated towards the support pipe 32; the mounting groove 311 can rotate downward by itself under the gravity of the planting dish 34, so as to drive the limiting portion 314 to rotate towards the supporting tube 32, and the supporting tube 32 is supported at the lower side of the limiting portion 314, so that the supporting member 31 is stably supported.

Referring to fig. 2, an upper diversion part 312 is formed at one side of the bent part of the upper side of the support 31 close to the unit curtain wall 2, and the upper diversion part 312 diverts rainwater into the planting dish 34 of the support 31 of the group; one side of the bent part of the lower side of the support member 31, which is away from the unit curtain wall 2, forms a lower diversion part 313, and the lower diversion part 313 diverts rainwater into the planting dish 34 of the support member 31 of the lower side.

The plants in the planting pot 34 of the lower supporting member 31 can grow upwards along the lower flow guiding portion 313 of the upper supporting member 31, so that the plants in the planting pot 34 can grow more orderly, and the plants can be trimmed and managed by workers.

In a rainy climate, a part of rainwater falling on the supporting member 31 can enter the planting dish 34 along the upper diversion part 312 to water plants, and the other part of rainwater can flow to the lower side of the supporting member 31 along the lower diversion part 313 and drip into the planting dish 34 in the supporting member 31 at the lower side, so that the lower planting dish 34 which is not easy to be watered by rainwater can be watered by rainwater; meanwhile, the excessive water in the upper planting dish 34 can be leaked out downwards through the water leakage holes 3111 and the water leakage holes 341, so that the planting dishes 34 in all layers can be watered more uniformly.

In order to make the plants irrigated more uniformly, the supporting member 31 is provided with a hollow structure; the lower end of the upper flow guide part 312 is provided with a plurality of water outlet nozzles 3121 for irrigation, and the water outlet nozzles 3121 are uniformly distributed along the rotation axis of the support 31; the lower end of the limiting part 314 is fixedly communicated with a connecting pipe 3141; a water injection port 321 matched with the connecting pipe 3141 is arranged at the upper side of the supporting pipe 32, and the connecting pipe 3141 is inserted into the supporting pipe 32 through the water injection port 321; a water source is connected to the support tube 32.

The supporting pipe 32 injects irrigation water into the cavity of the supporting member 31 through the water injection port 321 and the connecting pipe 3141, and the irrigation water then irrigates the plants in the lower planting dish 34 through the water outlet nozzle 3121; when the limiting part 314 rotates downwards, the connecting pipe 3141 is inserted into the water injection port 321, and at the moment, the supporting pipe 32 can limit and support the limiting part 314 and can supply water to the supporting part 31, so that the irrigation efficiency is improved.

In order to enable the connection pipe 3141 to be connected with the water injection port 321 more hermetically, the mechanical seal 3142 is installed at the connection end of the connection pipe 3141, the connection groove 322 with a circular ring structure is arranged on the outer side of the outer edge of the water injection port 321, the connection groove 322 is matched with the mechanical seal 3142, and the sealing performance of the connection position between the connection pipe 3141 and the water injection port 321 is enhanced through the connection between the mechanical seal 3142 and the connection groove 322.

For the unit curtain wall 2 with a wider width, the width of the supporting member 31 is also wider, and a plurality of groups of connecting pipes 3141 and water injection ports 321 can be arranged along the length direction of the supporting pipe 32 according to the water pressure requirement, so that the water pressure of the water at each position of the water outlet nozzle 3121 is more balanced during irrigation.

In order to maintain the humidity of the greening mechanism 3, a humidity adjusting assembly 33 is further provided on the support 31. The humidity adjustment assembly 33 includes a water receiving tank 331 for increasing humidity and a support plate 332 for supporting the water receiving tank 331.

The water receiving tank 331 is arranged at the lower side of the water outlet spray head 3121, the water receiving tank 331 is parallel to the mounting groove 311, and the edge of one side of the water receiving tank 331 close to the support 31 is rotatably hinged with the side wall of the support 31; the edge of the water receiving tank 331 close to one side of the unit curtain wall 2 is provided with a water drop port 3311, and the water drop port 3311 is positioned above the planting dish 34.

The water poured by the water outlet nozzle 3121 firstly enters the water receiving tank 331, and when the water receiving tank 331 is full of water, the water overflows from the water dropping port 3311 into the planting dish 34 to water the plants; after the water in the water receiving tank 331 stops watering at the water outlet spray head 3121, the air humidity between the supporting member 31 and the unit curtain wall 2 can be increased through natural evaporation, so as to provide a more comfortable growing environment for plants.

In order to support the water receiving tank 331, the support plate 332 is disposed at the lower side of the water receiving tank 331, and one side edge of the support plate 332 is hinged to the side wall of the support member 31, and the other side edge is a support end; a plurality of supporting grooves 3312 matched with the supporting ends of the supporting plates 332 are arranged on the lower side of the outer groove wall of the water receiving groove 331, and the plurality of supporting grooves 3312 are arranged along the direction perpendicular to the rotation axis of the water receiving groove 331. The support plate 332 supports the water tank 331 by the support grooves 3312; the support plate 332 adjusts the rotation angle of the water receiving tank 331 by supporting the support grooves 3312 at different positions, and changes the volume of the water in the water receiving tank 331 after overflowing from the drop port 3311, thereby adjusting the environmental humidity in the greening mechanism 3.

Referring to fig. 1, the unit curtain wall 2 may be arranged on the wall 1 according to a required greening area, and in this embodiment, two rows and three columns are taken as an example for description; the lower side of the unit curtain wall 2 in the lowest row is also bent and extended vertically on one side of the greening mechanism 3, rainwater falling from the supporting piece 31 can be collected, and a rainwater collecting system can be arranged on the lowest side for recycling the rainwater.

The implementation principle of the ecological building wall greening system in the embodiment of the application is as follows: the planting dish 34 is arranged in the mounting groove 311, and the plants and the soil in the planting dish 34 are protected through the side wall of the support piece 31 deviating from the unit curtain wall 2, so that the loss of the soil in the planting dish 34 can be reduced; the wind resistance of the plants can be improved, so that the plants are not easy to blow off; sunlight may also shine on the plants through the transparent support 31.

In a rainy climate, a part of the rainwater falling on the supporting member 31 can enter the planting dish 34 along the upper diversion part 312 to water the plants, and another part of the rainwater can flow to the planting dish 34 in the supporting member 31 at the lower side along the lower diversion part 313, so that the lower planting dish 34 which is not easy to be watered by the rainwater can also be watered by the rainwater.

When plants in the planting dish 34 grow, the plants in the planting dish 34 of the lower support member 31 can grow upwards along the lower flow guiding portion 313 of the upper support member 31, so that the plants in the planting dish 34 grow more orderly, and the trimming and the management of workers are facilitated.

When the plants need to be watered, the support pipe 32 injects watering water into the cavity of the support member 31 through the water injection port 321 and the connection pipe 3141, and the watering water then waters the plants in the lower planting dish 34 through the water outlet nozzle 3121.

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 (5)

1. The utility model provides an ecological building wall greening system, includes unit curtain wall (2) of fixing on wall body (1) lateral wall and sets up greening mechanism (3) that deviates from wall body (1) one side at unit curtain wall (2), its characterized in that: the greening mechanism (3) comprises a plurality of groups of supporting pieces (31), the supporting pieces (31) are vertically arranged along the unit curtain wall (2), the supporting pieces (31) are of transparent plate-shaped structures, and the upper side and the lower side of each supporting piece (31) are bent towards the unit curtain wall (2);

one side of the bent part at the lower side of the support member (31), which is close to the unit curtain wall (2), forms a mounting groove (311) with a U-shaped structure, and a planting dish (34) is placed in the mounting groove (311); an upper flow guide part (312) is formed at one side of the bent part at the upper side of the support (31) close to the unit curtain wall (2); one side of the bent part on the lower side of the support (31) departing from the unit curtain wall (2) forms a lower flow guide part (313);

the upper flow guiding part (312) guides rainwater into the planting dish (34) of the support piece (31); the lower diversion part (313) diverts rainwater into a planting dish (34) of the support (31) on the lower side;

the supporting piece (31) is of a hollow structure, the end part of the lower flow guide part (313) is provided with a connecting pipe (3141), and the lower end of the upper flow guide part (312) is provided with a water outlet spray head (3121);

the supporting piece (31) is rotatably connected with the unit curtain wall (2), the rotating axis of the supporting piece (31) is positioned at the edge of the upper side of the mounting groove (311) departing from the unit curtain wall (2), and the rotating axis of the supporting piece (31) is parallel to the unit curtain wall (2);

a limiting part (314) is transversely arranged on one side, close to the unit curtain wall (2), of the support piece (31); the unit curtain wall (2) is provided with a supporting pipe (32) for supporting the limiting part (314), the supporting pipe (32) is arranged on one side of the unit curtain wall (2) close to the supporting piece (31), and the supporting pipe (32) is supported on the lower side of the limiting part (314);

the limiting part (314) is communicated with the supporting piece (31), and the connecting pipe (3141) is arranged on the lower side of the limiting part (314);

a water injection port (321) matched with the connecting pipe (3141) is arranged on the upper side of the supporting pipe (32), and the connecting pipe (3141) is inserted into the supporting pipe (32) through the water injection port (321); the support tube (32) is connected with a water source.

2. The ecological building wall greening system of claim 1, wherein: the support piece (31) is provided with a water receiving tank (331) at the lower side of the water outlet spray head (3121), and a water dropping port (3311) is arranged at the edge of the water receiving tank (331) close to the planting dish (34).

3. The ecological building wall greening system of claim 2, wherein: the water receiving tank (331) is rotatably connected with the side wall of the support piece (31), and the rotating angle between the water receiving tank (331) and the support piece (31) is adjustable.

4. The ecological building wall greening system of claim 3, wherein: a supporting plate (332) is rotatably connected to the side wall of the supporting piece (31), and the supporting plate (332) is arranged on the lower side of the water receiving tank (331); a plurality of supporting grooves (3312) matched with the end parts of the supporting plates (332) are arranged at the lower side of the outer groove wall of the water receiving groove (331), and the supporting grooves (3312) are arranged along the direction vertical to the rotation axis of the water receiving groove (331).

5. The ecological building wall greening system as recited in any one of claims 1 to 4, wherein: the bottom of the mounting groove (311) is provided with a water leakage hole (3111), and the bottom of the planting dish (34) is provided with a water leakage through hole (341).

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