CN110747708B

CN110747708B - Three-dimensional landscaping construction method

Info

Publication number: CN110747708B
Application number: CN201911062847.1A
Authority: CN
Inventors: 不公告发明人
Original assignee: Hunan Dongfangxing Garden Construction Co ltd
Current assignee: Hunan Dongfangxing Garden Construction Co ltd
Priority date: 2019-11-04
Filing date: 2019-11-04
Publication date: 2021-09-07
Anticipated expiration: 2039-11-04
Also published as: CN110747708A

Abstract

The invention provides a three-dimensional landscaping construction method, which belongs to the field of landscaping construction and comprises the following steps: constructing a base layer: cleaning and leveling the pavement of the construction area to form a base layer; water path laying: paving a water pipe in a construction area, and paving cement mortar on a base layer to form a bonding layer; and (3) pavement construction: paving road bricks on the bonding layer to form a road surface; and (3) greening structure construction: the method comprises the following steps of arranging a greening structure on a road surface, wherein the greening structure comprises a base and a greening frame placed on the base; greening construction: and filling soil in the planting groove and planting green plants. By adopting the construction method, the construction of the greening facilities can be rapidly carried out in the garden, a very beautiful greening landscape can be formed, and the construction method is very convenient to use and maintain at the later stage and has lower cost.

Description

Three-dimensional landscaping construction method

Technical Field

The invention relates to the field of greening construction, in particular to a three-dimensional landscaping construction method.

Background

Gardens need the afforestation facility of multiple different forms to make up the collocation in design and work progress to form better more unique scene, the afforestation facility in the gardens leads to afforestation facility construction slower because the design is good enough when being under construction reason such as, and the later stage is used convenient inadequately.

Disclosure of Invention

In view of the above, the present invention provides a three-dimensional landscaping construction method to solve the problems in the prior art.

The invention is realized by the following steps:

a three-dimensional landscaping construction method comprises the following steps:

constructing a base layer: cleaning and leveling the pavement of the construction area to form a base layer;

water path laying: paving a water pipe in a construction area, and paving cement mortar on a base layer to form a bonding layer;

and (3) pavement construction: paving road bricks on the bonding layer to form a road surface;

and (3) greening structure construction: the greening structure is arranged on the road surface and comprises a base and a greening frame placed on the base, wherein the greening frame comprises an annular first frame body, an annular second frame body and an annular third frame body, the second frame body is positioned on the inner side of the first frame body, the second frame body is positioned above the first frame body, the third frame body is positioned on the inner side of the second frame body, the third frame body is positioned above the second frame body, and planting grooves are formed in the first frame body, the second frame body and the third frame body;

greening construction: and filling soil in the planting groove and planting green plants.

Optionally, the water conveying pipe is provided with an upward convex control section, and the control section is provided with a water valve; the base is hollow structure, control section and water valve extend to inside the base, the outside of base is provided with the control gate.

Optionally, a horizontal first partition plate is arranged inside the first frame body, a first planting groove is formed above the first partition plate, and a first water storage groove is formed below the first partition plate; a horizontal second partition plate is arranged in the second frame body, a second planting groove is formed above the second partition plate, and a second water storage groove is formed below the second partition plate; a horizontal third partition plate is arranged in the third frame body, a third planting groove is formed above the third partition plate, and a third water storage groove is formed below the third partition plate.

Optionally, the second frame body is connected with the third frame body through at least three groups of rotary supporting mechanisms; the rotary supporting mechanism comprises a sliding pipe, a sliding chute, a first supporting pipe, a second supporting pipe and a through pipe;

the third frame body comprises an outer side plate and a peripheral plate surrounding the outer side plate, a space is formed between the peripheral plate and the outer side plate, the peripheral plate is obliquely provided with the sliding groove, the first supporting pipe is horizontally arranged on the outer side plate and faces to the top end of the sliding groove, the outer side plate is provided with a water delivery hole, the water delivery hole is communicated with the third water storage tank, the second supporting pipe is arranged on the outer side of the water delivery hole, the second supporting pipe and the water delivery hole are coaxially arranged, and the second supporting pipe faces to the bottom end of the sliding groove;

the inboard of second support body sets up the slide pipe, just the one end intercommunication of slide pipe the groove is planted to the second, slide pipe sliding connection in the spout, the inside siphunculus of pegging graft of slide pipe, the length of siphunculus is greater than the length of slide pipe, when the slide pipe slides to the top of spout the tip of siphunculus can insert first stay tube, when the slide pipe slides to the bottom of spout the tip of siphunculus can insert the second stay tube and pass the water infusion hole.

Optionally, the heights of the second frame body and the third frame body are the same, and when the end of the through pipe is inserted into the first supporting pipe, the top of the second frame body is flush with the top of the third frame body; the water conveying hole is located above the bottom of the third water storage tank, and the water conveying hole is located below the third partition plate.

Optionally, the inboard of siphunculus is provided with annular retaining ring, the retaining ring is located the inslot is planted to the second, water delivery hole department is connected with the sealing washer, the top of spout is the arc structure, the siphunculus inserts when first supporting tube the outer wall of slide pipe is laminated with the top of spout mutually.

Optionally, the inner side of the third frame body is provided with a plurality of pipe joints, the end of the water pipe is connected with a vertical water supply pipe, and the top end of the water supply pipe is connected with the pipe joints through a plurality of hoses.

Optionally, the thickness of the bonding layer is at least 30 cm, and the ratio of cement to mortar in the cement mortar is 1: 3.

The construction method for the three-dimensional landscaping can be used for quickly constructing the greening facilities in the garden, forming a very beautiful greening landscape, and is very convenient to use and maintain at the later stage and low in cost.

Drawings

The description includes the following figures, the contents shown are respectively:

FIG. 1 is a schematic structural diagram of a three-dimensional landscaping construction method according to an embodiment of the present invention after pavement laying;

FIG. 2 is a schematic structural diagram of a three-dimensional landscaping construction method according to an embodiment of the present invention;

FIG. 3 is a schematic top view of a greening frame in the three-dimensional landscaping construction method provided in the embodiment of the present invention;

fig. 4 is a schematic view of a main structure of a greening frame in the three-dimensional landscaping construction method provided in the embodiment of the present invention, where three frame bodies are arranged at the same height;

fig. 5 is a schematic front view of a second frame in the three-dimensional landscaping construction method provided in the embodiment of the present invention;

fig. 6 is a schematic cross-sectional structural view illustrating a connection between a second frame and a third frame in the three-dimensional landscaping construction method provided in the embodiment of the present invention, where the two frames are equal in height;

fig. 7 is a schematic cross-sectional view illustrating a connection between a second frame and a third frame in the three-dimensional landscaping construction method according to the embodiment of the present invention, where the third frame is at a higher position;

FIG. 8 is a schematic structural view illustrating a through pipe inserted into a water inlet hole in the three-dimensional landscaping construction method according to the embodiment of the present invention;

FIG. 9 is a schematic cross-sectional view illustrating a third frame body in the three-dimensional landscaping construction method according to the embodiment of the present invention;

fig. 10 is a schematic structural view illustrating a connection between a third frame and a water supply pipe in the three-dimensional landscaping construction method according to the embodiment of the present invention.

Labeled as: the greening frame comprises a base layer 11, a water conveying pipe 12, a binding layer 13, a pavement 14, a base 15, a greening frame 16, a first frame body 17, a second frame body 18, a third frame body 19, a control section 20, a water valve 21, a water conveying pipe 22, a hose 23, a control door 24, a first planting groove 25, a second planting groove 26, a third planting groove 27, a third partition plate 28, a third water storage groove 29, a rotating support mechanism 30, a sliding pipe 31, a sliding groove 32, a first support pipe 33, a second support pipe 34, a through pipe 35, an outer side plate 36, a peripheral plate 37, a water conveying hole 38, a retainer ring 39, a sealing ring 40, a pipe joint 41, a second partition plate 42, a second water storage groove 43, a water absorbing device 44 and a water conveying hole 45.

Detailed Description

The following detailed description of the embodiments of the present invention will be given with reference to the accompanying drawings for a purpose of helping those skilled in the art to more fully, accurately and deeply understand the concept and technical solution of the present invention and to facilitate its implementation.

The embodiment provides a three-dimensional landscaping construction method, by adopting the construction method, the construction of greening facilities in a garden can be quickly carried out, a very beautiful greening landscape can be formed, and the construction method is very convenient to use and maintain at the later stage and is low in cost.

As shown in fig. 1 to 10, the three-dimensional landscaping construction method includes the following steps:

constructing a base layer: cleaning and leveling a pavement 14 in a construction area to form a base layer 11; when the road surface cleaning agent is used for cleaning garbage, hay, leaves, tree roots and the like on the road surface, so that subsequent construction is facilitated, higher parts are shoveled, and lower parts are filled.

Water path laying: paving a water pipe 12 in a construction area, and paving cement mortar on a base layer 11 to form a bonding layer 13; the water pipe 12 is a metal pipe or a plastic pipe, and the water pipe 12 is communicated with tap water. The thickness of the bonding layer 13 is at least 30 cm, the proportion of cement to mortar in cement mortar is 1:3, and the bonding layer 13 can be firmly bonded with the ground and firmly support the road bricks.

And (3) pavement construction: paving road bricks on the bonding layer 13 to form a road surface 14;

and (3) greening structure construction: a greening structure is arranged on the pavement 14, the greening structure comprises a base 15 and a greening frame 16 placed on the base 15, the greening frame 16 comprises an annular first frame body 17, an annular second frame body 18 and an annular third frame body 19, the second frame body 18 is positioned on the inner side of the first frame body 17, the second frame body 18 is positioned above the first frame body 17, the third frame body 19 is positioned on the inner side of the second frame body 18, the third frame body 19 is positioned above the second frame body 18, and planting grooves are formed in the first frame body 17, the second frame body 18 and the third frame body 19;

The base 15 is used for supporting the greening frame 16 to have a certain height, so that the green plants can have a certain height, the green vegetation can be prevented from being trampled, and people can enjoy the green vegetation conveniently. The greening frame 16 is a composite structure, and has three frame bodies concentrically arranged, and the adjacent frame bodies are movably connected, so that each frame body can be positioned at the same height, and each frame body can be opened in a staggered manner.

As shown in fig. 1, the water pipe 12 has an upward convex control section 20, and the control section 20 has a water valve 21; the base 15 is a hollow structure, the control section 20 and the water valve 21 extend into the base 15, and the control door 24 is disposed outside the base 15.

The base 15 is a hollow column structure, the control section 20 extends to the inside of the base 15, the outside of the base 15 is an outer side plate 36, and the outer side plate 36 is provided with a control door 24. The water pipe 12 is connected with tap water, and when irrigation is needed, the control door 24 is opened, and irrigation can be started by opening the water valve 21. The control section 20 and the water valve 21 are arranged inside the base 15, so that non-workers cannot see the control section 20 and the water valve 21, the non-workers can be effectively prevented from operating, and a protection effect can be achieved.

The greening frame 16 can be prefabricated or assembled on site. The structure of the greening frame 16 is flexible and adjustable, so that the greening frame can be conveniently transported and used. Under the condition of other non-use conditions such as transportation and storage, the three frame bodies are moved to be positioned at the same height, so that the whole greening frame 16 has a compact structure, small overall height and small occupied space. When using, place first support body 17 on base 15, with second support body 18 upwards removal messenger second support body 18 be higher than first support body 17, move third support body 19 upwards again and make it be higher than second support body 18, make afforestation frame 16 present multilayer structure, all be provided with in each support body and plant the groove, plant the inslot and can fill soil, can plant green planting, also can directly place cultivated in a pot planting the inslot. The multi-layer greening frame 16 can form a multi-layer three-dimensional greening structure in the garden, and is very attractive.

As shown in fig. 3 and 4, a horizontal first partition is arranged inside the first frame 17, a first planting groove 25 is formed above the first partition, and a first water storage groove is formed below the first partition; a horizontal second partition plate 42 is arranged in the second frame body 18, a second planting groove 26 is formed above the second partition plate 42, and a second water storage groove 43 is formed below the second partition plate 42; a horizontal third clapboard 28 is arranged in the third frame body 19, a third planting groove 27 is formed above the third clapboard 28, and a third water storage groove 29 is arranged below the third clapboard 28.

All be provided with planting groove and catch basin in each support body, make each support body all have the retaining function, can save a large amount of water in the catch basin after the watering, supply slowly to use in the future, can effectively reduce afforestation frame 16's irrigation frequency, the energy saving, the cost is saved.

As shown in fig. 5-8, the second frame 18 is connected to the third frame 19 through at least three sets of rotation support mechanisms 30; the rotary supporting mechanism 30 comprises a slide pipe 31, a chute 32, a first supporting pipe 33, a second supporting pipe 34 and a through pipe 35; the third frame 19 comprises an outer side plate 36 and a peripheral plate 37 surrounding the outer side plate 36, a space is formed between the peripheral plate 37 and the outer side plate 36, the peripheral plate 37 is obliquely provided with a chute 32, the first support pipe 33 is horizontally arranged on the outer side plate 36, the first support pipe 33 faces the top end of the chute 32, the outer side plate 36 is provided with a water delivery hole 38, the water delivery hole 38 is communicated with the third water storage tank 29, the second support pipe 34 is arranged outside the water delivery hole 38, the second support pipe 34 is coaxially arranged with the water delivery hole 38, and the second support pipe 34 faces the bottom end of the chute 32;

the inboard of second support body 18 sets up slide pipe 31, and the one end intercommunication second planting groove 26 of slide pipe 31, slide pipe 31 sliding connection in spout 32, slide pipe 31 is inside to be pegged graft there is siphunculus 35, the length of siphunculus 35 is greater than the length of slide pipe 31, the tip of siphunculus 35 can insert first stay tube 33 when slide pipe 31 slides to the top of spout 32, the tip of siphunculus 35 can insert second stay tube 34 and pass water delivery hole 38 when slide pipe 31 slides to the bottom of spout 32.

Each support body is connected to the rotation supporting mechanism 30 that sets up above-mentioned structure for each support body can be connected steadily, and it is very convenient when opening second support body 18 and third support body 19, and rotation supporting mechanism 30 has the water delivery function, makes each inside intercommunication of support body, can irrigate three support body synchronous simultaneously when irrigating, and is more convenient.

The second frame body 18 and the third frame body 19 are connected through three sets of rotation supporting mechanisms 30, and the first frame body 17 and the second frame body 18 are also connected through three sets of rotation supporting mechanisms 30. Only one set of the rotation supporting mechanism 30 between the third frame body 19 and the second frame body 18 is described for convenience of description.

The sliding groove 32 is obliquely and arcuately arranged on the outer side of the third frame body 19, the sliding pipe 31 is fixedly arranged on the inner side of the second frame body 18, and the sliding pipe 31 is inserted into the sliding groove 32, so that the sliding groove 32 can move along the sliding pipe 31, and the third frame body 19 can complete the lifting action. The third frame 19 has an outer plate 36 and a peripheral plate 37 wrapping the outer plate 36, so that a certain distance is formed between the outer plate 36 and the peripheral plate 37, the sliding tube 31 can more extend between the outer plate 36 and the peripheral plate 37, the connection between the sliding tube 31 and the sliding groove 32 is more stable, and the sliding is more smooth. And the configuration of the outer side plate 36 and the outer peripheral plate 37 facilitates the arrangement of the first support tube 33 and the second support tube 34.

The first supporting tube 33 is arranged at a position close to the top end of the sliding chute 32, when the sliding tube 31 slides to the top end of the sliding chute 32, the through tube 35 is moved, the end part of the through tube 35 can be inserted into the first supporting tube 33, and through the connection between the first supporting tube 33 and the through tube 35 and the connection between the sliding tube 31 and the sliding chute 32, the supporting and connecting effects are realized, so that the third frame body 19 can be kept stable. Similarly, when the slide tube 31 slides to the bottom position of the slide groove 32, the end of the through tube 35 can be inserted into the second support tube 34, and the third frame 19 can be stably supported at a higher position by the support of the second support tube 34 to the through tube 35.

The through pipe 35 and the sliding pipe 31 are communicated with the second planting groove 26, the second supporting pipe 34 and the water conveying hole 38 are communicated with the third water storage groove 29, when the through pipe 35 is inserted into the second supporting pipe 34 and the water conveying hole 38, the third frame body 19 is supported, the third water storage groove 29 is communicated with the second planting groove 26, when irrigation is carried out, when the water level in the third water storage groove 29 rises to the position of the water conveying hole 38, water flow can enter the through pipe 35 through the water conveying hole 38, and then the water flow enters the second planting groove 26. Then the water flow can enter the first planting groove 25 and the first water storage groove through the sliding support mechanism between the first frame body 17 and the second frame body 18.

The heights of the second frame body 18 and the third frame body 19 are the same, and when the end part of the through pipe 35 is inserted into the first supporting pipe 33, the top of the second frame body 18 is flush with the top of the third frame body 19; the water delivery hole 38 is located above the bottom of the third reservoir 29, and the water delivery hole 38 is located below the third partition 28. This structure enables the slide pipe 31 to be completely arranged between the frame bodies, so that the whole greening frame 16 has a very regular structure.

When the third frame body 19 needs to be lifted, the through pipe 35 is pulled outwards to separate the through pipe 35 from the first supporting pipe 33, at this time, the third frame body 19 can be rotated to enable the sliding pipe 31 to slide in the sliding groove 32, and the sliding groove 32 is obliquely arranged, so that the third frame body 19 can finish lifting action in the rotating process. When the slide pipe 31 slides to the bottom end of the slide groove 32, the slide pipe 31 can be aligned with the second support pipe 34, the slide pipe 31 is pushed, and the end of the slide pipe 31 can be inserted into the second support pipe 34 and further into the water delivery hole 38.

Due to the structure, the third frame body 19 and the second frame body 18 can be conveniently and smoothly moved to a higher position, and time and labor can be saved during irrigation.

As shown in fig. 8, an annular retainer ring 39 is disposed on the inner side of the through pipe 35, the retainer ring 39 is located in the second planting groove 26, a sealing ring 40 is connected to the water delivery hole 38, the top end of the chute 32 is in an arc-shaped structure, and the outer wall of the sliding pipe 31 is attached to the top end of the chute 32 when the through pipe 35 is inserted into the first supporting pipe 33. The retainer ring 39 is arranged to prevent the through pipe 35 from being completely inserted into the slide pipe 31, so that the through pipe 35 can be pulled outwards conveniently in subsequent use. The sealing ring 40 is arranged at the position of the water conveying hole 38, so that the sealing ring 40 is tightly attached to the outer wall of the through pipe 35, water flow cannot leak from the joint of the water conveying hole 38 and the through pipe 35, the greening frame 16 and the lower part of the base 15 can be kept dry, and the road surface 14 cannot be wet and slippery.

As shown in fig. 10, a plurality of pipe joints 41 are provided inside the third frame body 19, a vertical water supply pipe 22 is connected to an end of the water supply pipe 12, and the pipe joints 41 are connected to a top end of the water supply pipe 22 through a plurality of hoses 23.

A plurality of pipe joints 41 are arranged on the inner side of the third frame body 19, and the pipe joints 41 are connected to the outer side of the third planting groove 27; when the water way is paved, a vertical water supply pipe 22 is connected to the end of the delivery pipe, the water supply pipe 22 is positioned in the middle of the greening frame 16, a plurality of hoses 23 are connected to the top end of the water supply pipe 22, and a pipe joint 41 is connected to each hose 23. Through the structure, the water conveying pipe 12 is directly connected with the greening structure, water flow can directly enter the interior of the greening structure when the water valve 21 is opened, and water resources can be effectively saved.

As shown in fig. 6 and 7, a plurality of water through holes 45 are formed in the third partition plate 28, a water absorbing device 44 is arranged at a part of the water through holes 45, the water absorbing device 44 comprises a fixing head and a water absorbing cotton thread, a through hole is formed in the middle of the fixing head, the fixing head comprises a limiting portion and a connecting portion from top to bottom, the bottom of the limiting portion is attached to the top of the third partition plate 28, the connecting portion penetrates through the water through holes 45, the water absorbing cotton thread penetrates through the through hole, the top of the water absorbing cotton thread is located above the third partition plate 28, and the bottom of the water absorbing cotton thread is attached to the bottom of the third water storage tank 29.

The first and second partitions 42 are also provided with water passing holes 45 and water absorbing devices 44, and only the related structure of the third partition 28 is described for convenience of description.

Before the soil filling, a water absorption device 44 is provided at the partial water passage hole 45. The water absorbing device 44 is not shown in fig. 3, 9 and 10.

The water absorption device 44 having the above structure allows smooth moisture transfer between the planting tank and the water storage tank. The first, second and

third partitions

28, 42 are identical in structure and are provided with water passing holes 45 and water absorbing devices 44.

The arrangement of the limber holes 45 enables water in the planting tank to flow into the water storage tank quickly on one hand, and the water absorption device 44 is convenient to arrange on the other hand. The water absorbing device 44 has a fixing head for connecting a water absorbing cotton thread, the fixing head has a limiting portion, the diameter of the bottom of the limiting portion is larger than that of the connecting portion, the limiting portion does not penetrate through the water passage hole 45, the limiting portion can be placed on the third partition 28, the diameter of the connecting portion is substantially consistent with that of the water passage hole 45, the connecting portion can be inserted into the water passage hole 45, and the stability of the fixing head can be ensured. The cotton thread that absorbs water passes the perforation, makes its top be located planting the inslot, after filling soil in planting the inslot, can absorb water from the catch basin through the cotton thread that absorbs water. The longer bottom of cotton thread that absorbs water is laminated in the bottom of catch basin, makes the cotton thread that absorbs water can absorb moisture as much as possible.

The greening frame 16 provided by the present embodiment may be configured as a structure with more than three layers, or may be a structure with four layers, five layers or more layers. The construction method provided by the embodiment can be applied to the interior of gardens, and can also be applied to other areas needing greening facilities, such as roadside, in green lands, in cells and the like.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. A three-dimensional landscaping construction method is characterized by comprising the following steps:

and (3) greening structure construction: the greening structure is arranged on the road surface and comprises a base and a greening frame placed on the base, wherein the greening frame comprises an annular first frame body, an annular second frame body and an annular third frame body, the second frame body is positioned on the inner side of the first frame body, the second frame body is positioned above the first frame body, the third frame body is positioned on the inner side of the second frame body, the third frame body is positioned above the second frame body, and planting grooves are formed in the first frame body, the second frame body and the third frame body; the water conveying pipe is provided with an upward convex control section, and the control section is provided with a water valve; the base is of a hollow structure, the control section and the water valve extend into the base, and a control door is arranged outside the base;

greening construction: filling soil in the planting groove and planting green plants;

a horizontal first partition plate is arranged in the first frame body, a first planting groove is formed above the first partition plate, and a first water storage groove is formed below the first partition plate; a horizontal second partition plate is arranged in the second frame body, a second planting groove is formed above the second partition plate, and a second water storage groove is formed below the second partition plate; a horizontal third partition plate is arranged in the third frame body, a third planting groove is formed above the third partition plate, and a third water storage groove is formed below the third partition plate;

the second frame body is connected with the third frame body through at least three groups of rotating support mechanisms; the rotary supporting mechanism comprises a sliding pipe, a sliding chute, a first supporting pipe, a second supporting pipe and a through pipe; the third frame body comprises an outer side plate and a peripheral plate surrounding the outer side plate, a space is formed between the peripheral plate and the outer side plate, the peripheral plate is obliquely provided with the sliding groove, the first supporting pipe is horizontally arranged on the outer side plate and faces to the top end of the sliding groove, the outer side plate is provided with a water delivery hole, the water delivery hole is communicated with the third water storage tank, the second supporting pipe is arranged on the outer side of the water delivery hole, the second supporting pipe and the water delivery hole are coaxially arranged, and the second supporting pipe faces to the bottom end of the sliding groove;

2. A three-dimensional landscaping construction method according to claim 1, wherein the second frame body and the third frame body have the same height, and the top of the second frame body is flush with the top of the third frame body when the end of the through pipe is inserted into the first support pipe; the water conveying hole is located above the bottom of the third water storage tank, and the water conveying hole is located below the third partition plate.

3. A three-dimensional landscaping construction method according to claim 1, wherein an annular retainer ring is arranged on the inner side of the through pipe, the retainer ring is positioned in the second planting groove, a seal ring is connected to the water delivery hole, the top end of the chute is in an arc structure, and the outer wall of the sliding pipe is attached to the top end of the chute when the through pipe is inserted into the first supporting pipe.

4. A three-dimensional landscaping construction method according to claim 3, wherein a plurality of pipe joints are arranged on the inner side of the third frame body, a vertical water supply pipe is connected to the end of the water supply pipe, and the top end of the water supply pipe is connected to the pipe joints through a plurality of hoses.

5. The three-dimensional landscaping construction method according to claim 1, wherein the thickness of the bonding layer is at least 30 cm, and the ratio of cement to mortar in the cement mortar is 1: 3.