CN110024588A

CN110024588A - A kind of installation method of slope plants growth controller

Info

Publication number: CN110024588A
Application number: CN201910245070.6A
Authority: CN
Inventors: 李绍才; 李付斌; 孙海龙
Original assignee: Sichuan Sanhe Slope Technology Co Ltd
Current assignee: Chengdu Mingfu Horticulture Co ltd
Priority date: 2019-03-28
Filing date: 2019-03-28
Publication date: 2019-07-19
Anticipated expiration: 2039-03-28
Also published as: CN110024588B

Abstract

The invention discloses a kind of installation method of Plant growth control device more particularly to a kind of installation methods of slope plants growth controller.The invention includes multiple substrates mutually spliced, any substrate includes the particle belt mutually spliced and moisture collection control unit, the particle band is used for through control Water Flux, to sending suitable quantity of water to root system of plant, Phytoextraction amount of water is helped to be grown；The moisture collection control unit is for collecting and water conservancy diversion moisture, comprising the following steps: 1. makes particle band, and seed grain and matrix granule are put into particle band；2. particle band and moisture collection control unit are stitched together, substrate is made；3. multiple substrates are stitched together, moisture controller is made.By decomposing the manufacturing process of Plant growth control device in the invention, difficulty of processing is reduced, equipment cost is reduced；And substep continuous-flow type is processed, and can more ensure the quality of product.

Description

A kind of installation method of slope plants growth controller

Technical field

The present invention relates to a kind of installation method of Plant growth control device more particularly to a kind of slope plants growth controllers Installation method.

Background technique

The artificial plant ecosystem refers to certain or certain on the basis of the natural or non-natural ecosystem according to the mankind The ecosystem that a little demands construct, participated in and maintained by plant.In general, the building of the artificial plant ecosystem is to pass through structure The equipment of adjusting and controlling growth and cultivation can be carried out to plant to carry out by building.Pland ecosystem on the basis of the non-natural ecosystem System building, the growing environment needed for mainly imitating plant in its natural state using relevant man-made derice, so that plant It can grow within the system and the circulation of system is maintained to operate.

Currently, in terms of plant ecological environment reparation, the existing difficult ecological environment for being suitable for plant growth including building. Since many regions have complicated microhabitat, when repairing the plant ecological environment of the region, constructed plant is raw State environment need to adapt to a variety of and complicated microhabitats.Microhabitat be small scale inhabited for creatures live or the ring of growth and development Border, according to the division different from of its scale of different situations.Specifically for the Karst region for accounting for Chinese national territorial area, your pupil About several meters of the scale in border.The Yu Xiao signature of Yunnan Normal University passes through the your pupil to stone forest national geological parks in its Master's thesis Border is analyzed, and the method for the revegetation suitable for specific microhabitat is proposed, to realize Karst region on the whole Preparation restores.Therefore, the introducing of microhabitat concept is right for how to construct a kind of efficient plant ecological controller or device For the recovery of vegetation or the artificial breeding of vegetation, it is very important.

When building is suitble to the plant ecological controller or device of different microhabitats, it is required that plant is to specific small Habitat has adaptive ability.That is, this ecosystem is conducive to the sprouting and growth of plant, while making plant as early as possible Adapt to locating natural environment.In this respect, those skilled in the art have carried out some positive explorations.Gyeonggi's property of the institution of South Korea The group of pulling together provided in its patent WO 2016/167440 it is a kind of it is based on foamed concrete, for the artificial of plant growth Biological soil gathers materials, which, which gathers materials, can make plant enough to the growth of plant offer under the conditions of no soil Moisture and plant nutrient.106386086 A of CN equally also provides the product of moisture needed for plant growth.Although CN 102577872 102960097 A of A, CN, " adaptation Journal of Sex Research of the slope-protecting plant in plant coiled material " and " plant web matrix Middle water-retaining agent dehydration characteristic research " further exploration has been carried out, it can get conducive to plant seed germination and give birth to inside it Long device, however device obtained in these researchs is required to that the matrix of soil or Seed Germination and growth is added.Root According to common sense, different plant seed germination growths generally requires specific soil or its alternative.Therefore, such device is undoubtedly It is to be difficult to apply in the plant culture work with slope surface microhabitat area, required plant ecological controller can not be constructed.Separately Outside, due to needing to add soil or as the matrix of soil alternative, the weight of this kind of device is usually larger, and large area uses When, higher cost is difficult to use in slope surface.

In conclusion how to construct, the less dependence soil of one kind or artificial substratum, low cost, labor management is less, is suitable for Various plants growth, the slope plants Ecological Control device for being easy to building and maintenance, are that this field is needed instantly.

Summary of the invention

In order to solve problem above, the object of the present invention is to provide a kind of installation methods of slope plants growth controller.

In order to achieve the goal above, the technical solution adopted by the present invention:

A kind of installation method of slope plants growth controller, including multiple substrates mutually spliced, any substrate It include the particle belt that mutually splices and moisture collection control unit,

The particle band is used for through control Water Flux, to sending suitable quantity of water to root system of plant, plant is helped to inhale Amount of water is taken to be grown；

The moisture collection control unit is used to collect and water conservancy diversion moisture,

The following steps are included:

1. making particle band, and seed grain and matrix granule are put into particle band；

2. particle band and moisture collection control unit are stitched together, substrate is made；

3. multiple substrates are stitched together, moisture controller is made.

Preferably, the particle belt includes the evaporation barrier layer from top to bottom set gradually, for water layer, layer rhizogenous, water Bag layer and moisture control layer, the evaporation barrier layer offer the water supply hole being sequentially communicated for water layer and water storage bag,

The step 1. the following steps are included:

On water bag layer be die cut or be punched or Spurs by way of aperture form lower seepage hole I, water supply hole, stretch root hole I, the size of moisture control layer as required is cut off in flakes, the water bag layer of aperture is fixed on moisture control layer by gluing Side, then by way of thermal compression welding by the edge of moisture control layer with the hot weld of water bag layer to together；

Aperture is carried out by way of being die cut or being punched on layer rhizogenous and forms welding hole location, then by the life after aperture In flakes, the layer rhizogenous cut is fixed on above water bag layer with gluing for the size cutting of root layer as required；

Evaporation barrier layer aperture by way of being die cut or being punched is formed into seepage hole II and germinal aperature I, it will be for water layer Aperture is carried out by way of being die cut or being punched forms welding hole location, then cutting into for the size of water layer as required by aperture Piece is fixed on what is cut on evaporation barrier layer for water layer gluing；

It is glued in a manner of spiral linear or atomized spray on for water layer, seed grain, matrix granule is uniform Be arranged in sizing after on water layer；

It will evaporation barrier layer and water bag layer at for the welding hole location on water layer and layer rhizogenous in such a way that hot spot welds Hot weld is carried out, so that evaporation barrier layer and water bag layer are in carry out at sash shape, then by the edge for evaporating barrier layer and water bag layer Hot weld is compound.

Preferably, the moisture collection control unit includes the water temperature layer above evaporation barrier layer, the water temperature layer It is mixed and made into water storage bag with water bag layer,

The step 2. the following steps are included:

By water temperature layer, aperture is formed into seepage hole I, germinal aperature II by way of being die cut or being punched, then by water temperature layer with It is interrupted heat weldable mode and folds sizing；

Water stream channel branch is formed by spray foam particle, hot-melt adhesive granules or hot melt adhesive item in particle band upper surface Support floating-point, folded water temperature layer and particle band aligned, and by shape be U-shaped hot pressing complex method by water temperature layer, Water bag layer is combined with each other, then by water temperature layer of the hot weld after compound, the U-shaped incision among hot weld Combined Welding seam of water bag layer, To form water storage bag.

Preferably, the moisture collection control unit further includes the water guide layer below water storage bag, and is set to water guide The water blocking layer of layer lower section, is equipped with cavity between the water guide layer and water blocking layer, the cavity is filled with web, cloth, fiber Blanket forms permeable layer,

The step is 2. further comprising the steps of:

By water guide layer be die cut or be punched or Spurs by way of aperture form lower seepage hole I and stretch root hole II, by aperture Water guide layer and water storage bag align and water storage bag lower surface is compounded in by the compound mode of hot pressing, under hot pressing recombination site is located at At seepage hole I, seepage hole I under the U-shaped encirclement of hot weld；

By water blocking layer be die cut or be punched or Spurs by way of aperture formation stretch root hole III, by the water blocking layer of aperture It aligns with water guide layer and is stitched together by the compound mode in edge and middle section hot pressing.

Preferably, the substrate setting is square on the net in reinforcing fiber,

The step 3. the following steps are included:

Any two substrate is spliced by heat weldable mode；

Spliced substrate is arranged in the upper surface of reinforcing fiber net by way of viscose glue.

Preferably, the step is 3. further comprising the steps of:

Bound edge is carried out using enhanced film in the side of moisture controller, and by heat weldable mode by enhanced film Weld together with moisture controller；

Bound edge is carried out using enhancing coating in the side of reinforcing fiber net, and coating will be enhanced by heat weldable mode Weld together with reinforcing fiber net.

Beneficial effects of the present invention:

1, in the present invention, by decomposing the manufacturing process of Plant growth control device, difficulty of processing is reduced, is reduced Equipment cost；And processed by substep continuous-flow type, it can more ensure the quality of product.

2, it in the present invention, formed by way of aperture into seepage hole, lower seepage hole, water supply hole, stretch root hole, ensured duct Connection and reliability.

3, it in the present invention, is mainly carried out using heat weldable mode compound between layers of material, can ensure the processing of product Quality, but the use for reducing adhesives reduces production cost.

4, in the present invention, some materials are used using sheet of mode is cut off, and reduce the usage amount of material.

Detailed description of the invention

Fig. 1 is 1. step of the invention is schemed；

Fig. 2 is 2. step of the invention is schemed；

Fig. 3 is 3. step of the invention is schemed；

Fig. 4 is a kind of structural schematic diagram of the Plant growth control device in the present invention；

Fig. 5 is a moisture control unit schematic diagram in A-A cross-sectional view in Fig. 4；

Fig. 6 is a moisture control unit schematic diagram in B-B cross-sectional view in Fig. 4；

Fig. 7 is a kind of structural schematic diagram of the Plant growth control device in the present invention；

Fig. 8 is a moisture control unit schematic diagram in C-C cross-sectional view in Fig. 7；

Fig. 9 is a moisture control unit schematic diagram in D-D cross-sectional view in Fig. 7；

In figure: 1, water temperature layer；1-1, enter seepage hole I；1-2, germinal aperature I；2, barrier layer is evaporated；2-1, enter seepage hole II；2-2, Germinal aperature II；2-3, water supply hole；3, for water layer；4, water bag layer；4-1, hole I of taking root；4-2, lower seepage hole I；4-3, enter seepage hole III；5, Water guide layer；5-1, hole II of taking root；5-2, lower seepage hole II；5-3, enter seepage hole IV；6, enhance net；7, enhance band；8, water stream channel branch Support floating-point；9, water storage bag；10, layer rhizogenous；11, matrix granule；12, seed grain；13, moisture control layer；14, permeable layer；15, Water blocking layer；15-1, hole III of taking root；16, moisture barrier dam.

Specific embodiment

To make the objectives, technical solutions, and advantages of the present invention clearer, the present invention is made into one with reference to the accompanying drawing Step illustrates.In the description of the present invention, it is to be understood that, term " on ", "lower", "front", "rear", "left", "right", "top", The orientation or positional relationship of the instructions such as "bottom", "inner", "outside" is to be based on the orientation or positional relationship shown in the drawings, merely to just In description the present invention and simplify description, rather than the device or element of indication or suggestion meaning must have a particular orientation, with Specific orientation construction and operation, therefore be not considered as limiting the invention.

Embodiment one

A kind of installation method for slope plants growing plants growth controller, including multiple bases mutually spliced Material, any substrate include the particle belt mutually spliced and moisture collection control unit,

The following steps are included:

1. making particle band, and seed grain 12 and matrix granule 11 are put into particle band；

3. multiple substrates are stitched together, Plant growth control device is made.

In the process, it is made by the way that Plant growth control device is decomposed 3, reduces the difficulty of production, simultaneously Can be wide by adjusting the whole picture of the quantity adjustment plant ecological controller of substrate splicing, it is easy to use.

Embodiment two

The particle belt includes the evaporation barrier layer 2 from top to bottom set gradually, for water layer 3, layer rhizogenous 10, water bag layer 4 and moisture control layer 13, the evaporation barrier layer 2 offer the water supply hole 2-3 being sequentially communicated for water layer 3 and water storage bag 9,

The step 1. the following steps are included:

On water bag layer 4 be die cut or be punched or Spurs by way of aperture formed lower I 4-2 of seepage hole, water supply hole 2-3, Root hole I is stretched, the size of moisture control layer 13 as required is cut off in flakes, the water bag layer 4 of aperture is fixed on water by gluing The top of sub-control preparative layer 13, then by way of thermal compression welding by the edge of moisture control layer 13 with 4 hot weld of water bag layer to together；

Aperture is carried out by way of being die cut or being punched on layer rhizogenous 10 and forms welding hole location, then will be after aperture The size cutting of layer rhizogenous 10 as required is fixed on 4 top of water bag layer with gluing in flakes, by the layer rhizogenous 10 cut；

The evaporation aperture by way of being die cut or being punched of barrier layer 2 is formed into I 1-2 of II 2-1 of seepage hole and germinal aperature, Aperture will be carried out by way of being die cut or being punched for water layer 3 form welding hole location, then by aperture for water layer 3 as required Size cutting in flakes, is fixed on what is cut on evaporation barrier layer 2 for 3 gluing of water layer；

It is glued in a manner of spiral linear or atomized spray on for water layer 3, by seed grain 12, matrix granule 11 Uniformly be arranged in sizing after on water layer 3；

It will evaporation barrier layer 2 and water at for the welding hole location on water layer 3 and layer rhizogenous 10 in such a way that hot spot welds Bag layer 4 carries out hot weld, so that evaporation barrier layer 2 and water bag layer 4 are in that then will evaporate barrier layer 2 and water bag layer 4 at sash shape It is compound that edge carries out hot weld.

In the process, sash shape fixed seed grain 12, matrix granule 11 are formed by the compound mode of hot weld, reduced It is fixed with the usage amount of adhesive and the intensity requirement of adhesive, while being applied by way of spiral linear or atomized spray Glue reduces the usage amount of adhesive, reduces production cost.Lower I 4-2 of seepage hole is formed by aperture, water supply hole 2-3, stretches root Hole I after entering I 1-2 of II 2-1 of seepage hole and germinal aperature, then has ensured by the contraposition of compound tense the connectivity in duct.By by moisture Control layer 13 uses after cutting off in flakes, reduces the usage amount of 13 material of moisture control layer, further, is cut by gluing fixation It is broken into piece moisture control layer 13, is convenient for subsequent processing.

Embodiment three

The moisture collection control unit includes the water temperature layer 1 set on 2 top of evaporation barrier layer, the water temperature layer 1 and water Bag layer 4 is mixed and made into water storage bag 9,

The step 2. the following steps are included:

By water temperature layer 1, aperture is formed into I 1-1 of seepage hole, II 2-2 of germinal aperature by way of being die cut or being punched, then by water Warm layer 1 by be interrupted it is heat weldable in a manner of fold sizing；

Water stream channel branch is formed by spray foam particle, hot-melt adhesive granules or hot melt adhesive item in particle band upper surface Floating-point 8 is supportted, folded water temperature layer 1 and particle band are aligned, and by being U-shaped hot pressing complex method by water temperature layer in shape 1, water bag layer 4 is combined with each other, then water temperature layer 1, water bag layer 4 of the hot weld after compound is U-shaped among hot weld Combined Welding seam It cuts, to form water storage bag 9.

In the process, by heat weldable mode that folded water temperature layer 1 is fixed, convenient for keeping rolling over during following process Folded shape invariance shape.Water stream channel branch is formed by way of spray foam particle, hot-melt adhesive granules or hot melt adhesive tape simultaneously Floating-point 8 is supportted, successional production is convenient for, improves production efficiency.

Example IV

The moisture collection control unit further includes the water guide layer 5 below water storage bag 9, and is set under water guide layer 5 The water blocking layer 15 of side, is equipped with cavity between the water guide layer 5 and water blocking layer 15, the cavity is filled with web, cloth, fiber Blanket forms permeable layer 14,

The step is 2. further comprising the steps of:

By water guide layer 5 be die cut or be punched or Spurs by way of aperture formed and lower I 4-2 of seepage hole and stretch root hole II, will The water guide layer 5 and water storage bag 9 of aperture align and are compounded in 9 lower surface of water storage bag, the compound position of hot pressing by the compound mode of hot pressing At lower I 4-2 of seepage hole, I 4-2 of seepage hole under the U-shaped encirclement of hot weld；

By water blocking layer 15 be die cut or be punched or Spurs by way of aperture formation stretch root hole III, by blocking water for aperture Layer 15 is aligned with water guide layer 5 and is stitched together by the compound mode in edge and middle section hot pressing.

In the process, by surrounding lower I 4-2 of seepage hole for hot weld is U-shaped, forming water stream channel pass through moisture can only Lower I 4-2 of seepage hole carries out lower infiltration, ingenious to solve the problems, such as the connectivity of moisture.And each layer is carried out by the compound mode of hot weld It is compound, using the hot weld performance guarantee quality of material, reduce cost.

Embodiment five

The substrate setting is square on the net in reinforcing fiber,

The step 3. the following steps are included:

Any two substrate is spliced by heat weldable mode；

In the process, the splicing of substrate is carried out by heat weldable mode, not only ensure that the compound quality of product, but also reduce Composite cost, and can quickly be produced；Reinforcing fiber net and spliced substrate are subjected to compound, solution by way of gluing Web of having determined not can be carried out the compound Complex Problem of hot weld.

Embodiment six

The step is 3. further comprising the steps of:

Bound edge is carried out using enhanced film in the side of reinforcing fiber net, and coating will be enhanced by heat weldable mode Weld together with reinforcing fiber net.

In the process, by the setting of hot weld bound edge film, keep the side of moisture controller uniformly neat, and can reinforcement increasing Adhesive strength between strong web and substrate.

It is worth noting that, hot melt adhesive or solvent type glue can be used in the glue.

It is worth noting that, a kind of slope plants growth controller of the invention, including following two structure:

A kind of slope plants growth controller, as Figure 4-Figure 6, controller are spliced by multiple inclined moisture control units It forms；

Moisture control unit includes the water temperature layer 1 set gradually from outside to inside, evaporation barrier layer 2, for water layer 3, water bag layer 4, water guide layer 5, enhancing net 6, are connected between each layer by the compound mode of hot weld and are combined with each other, and,

The enhancing band 7 of fixed water temperature layer 1 and enhancing 6 both ends of net,

The water stream channel of water stream channel supports floating-point 8 between part water temperature layer 1 and evaporation barrier layer 2 in support,

Lower part water temperature layer 1 is set and evaporates the water storage bag 9 between barrier layer 2,

Layer rhizogenous 10 between upper part water supply layer 3 and water bag layer 4 is set,

For the matrix granule 11 and seed grain 12 filled between water layer 3 and layer rhizogenous 10,

Moisture control layer 13 between layer rhizogenous 10 and water bag layer 4 is set, and moisture control layer 13 is by degradable waterproof Material is made, and degradation time is 1-3, for example, modified starch base polyethylene film.

Preferably, it is partially respectively arranged on water temperature layer 1 and evaporation barrier layer 2 into I 1-1 of seepage hole and entering II 2-1 of seepage hole, with And II 2-2 of I 1-2 of germinal aperature and germinal aperature being mutually aligned, enter I 1-1 of seepage hole be provided with along slope direction it is multiple；Evaporate barrier layer 2 ends offer connection water storage bag 9 and the water supply hole 2-3 for water layer 3；Life is partially respectively arranged on water bag layer 4 and water guide layer 5 It I 4-1 of root hole and takes root II 5-1 of hole, part is respectively arranged with close to 9 end of water storage bag on water bag layer 4 and water guide layer 5 is mutually aligned Lower I 4-2 of seepage hole and lower II 5-2 of seepage hole, moisture control layer 13 are covered on lower I upper end 4-2 of seepage hole.

Preferably, water temperature layer 1, evaporation barrier layer 2, water bag layer 4 and water guide layer 5 are waterproof, opaque, anti-aging Thin-film material, such as PVDF laminated film, foil laminated film；It is made for water layer 3 of water-absorbing material, such as water imbibition cloth, nothing The materials such as woven fabric, cordage；Enhancing net 6 and enhancing band 7 are made of high-intensitive and anti-aging material, as glass fiber mesh, The materials such as cloth；Layer rhizogenous 10 is made of burlap, vegetable fiber blanket, rock wool blanket and/or nonwoven cloth material；Matrix granule 11 is by fertilizer Material, fungicide, plant growth regulator, disease and pest control agent and/or organic matter Material cladding form；It is wrapped inside seed grain 12 Include seed, fungicide, plant growth regulator and disease and pest control agent.

A kind of slope plants growth controller, as Figure 7-9, controller are spliced by multiple inclined moisture control units It forms；

Moisture control unit includes the water temperature layer 1 set gradually from outside to inside, evaporation barrier layer 2, for water layer 3, water bag layer 4, water guide layer 5, permeable layer 14, water blocking layer 15, enhancing net 6, are connected between each layer by the compound mode of hot weld and are combined with each other, And

Moisture barrier dam 16 between water guide layer 5 and water blocking layer 15 is set.

Preferably, it is partially respectively arranged on water temperature layer 1 and evaporation barrier layer 2 into I 1-1 of seepage hole and entering II 2-1 of seepage hole, with And II 2-2 of I 1-2 of germinal aperature and germinal aperature being mutually aligned, enter I 1-1 of seepage hole be provided with along slope direction it is multiple；Evaporate barrier layer 2 ends offer connection water storage bag 9 and the water supply hole 2-3 for water layer 3；Partially divide on water bag layer 4, water guide layer 5 and water blocking layer 15 It is not provided with I 4-1 of hole of taking root, II 5-1 of hole and III 15-1 of hole of taking root of taking root, part is close to water storage bag on water bag layer 4 and water guide layer 5 9 ends are respectively arranged with I 4-2 of lower seepage hole being mutually aligned and lower II 5-2 of seepage hole；It is set respectively on the water bag layer 4 and water guide layer 5 on top Be equipped be mutually aligned enter III 4-3 of seepage hole and enter IV 5-3 of seepage hole, moisture barrier dam 16 is close to entering IV 5-3 of seepage hole.

Preferably, water temperature layer 1, evaporation barrier layer 2, water bag layer 4, water guide layer 5 and water blocking layer 15 are waterproof, impermeable Light, anti-aging thin-film material, such as PVDF laminated film, foil laminated film；It is made for water layer 3 of water-absorbing material, such as inhales The materials such as aqueous cloth, non-woven fabrics, cordage；Enhancing net 6 and enhancing band 7 are made of high-intensitive and anti-aging material, such as The materials such as glass fiber mesh, cloth；Layer rhizogenous 10 is made of burlap, vegetable fiber blanket, rock wool blanket and/or nonwoven cloth material；Matrix Particle 11 is formed by fertilizer, fungicide, plant growth regulator, disease and pest control agent and/or organic matter Material cladding, seed 12 inside of grain includes seed, fungicide, plant growth regulator and disease and pest control agent；Permeable layer 14 by web, cloth and/ Or fibrous blanket material is made；Moisture barrier dam 16 is made up of hot weld or coating gluing water guide layer 5 and permeable layer 14.

The basic principles, main features and advantages of the present invention have been shown and described above.The technology of the industry Personnel are it should be appreciated that the present invention is not limited to the above embodiments, and the above embodiments and description only describe this The principle of invention, without departing from the spirit and scope of the present invention, various changes and improvements may be made to the invention, these changes Change and improvement all fall within the protetion scope of the claimed invention.The claimed scope of the invention by appended claims and its Equivalent thereof.

Claims

1. a kind of installation method of slope plants growth controller, it is characterised in that: any including multiple substrates mutually spliced The substrate includes the particle belt mutually spliced and moisture collection control unit,

The particle band is used for through control Water Flux, to sending suitable quantity of water to root system of plant, helps Phytoextraction suitable Amount moisture is grown；

The following steps are included:

1. making particle band, and seed grain (12) and matrix granule (11) are put into particle band；

3. multiple substrates are stitched together, moisture controller is made.

2. a kind of installation method of slope plants growth controller according to claim 1, it is characterised in that: the particle Belt includes the evaporation barrier layer (2) from top to bottom set gradually, for water layer (3), layer rhizogenous (10), water bag layer (4) and water Sub-control preparative layer (13), evaporation barrier layer (2) offer the water supply hole (2- being sequentially communicated for water layer (3) and water storage bag (9) 3)。

The step 1. the following steps are included:

On water bag layer (4) be die cut or be punched or Spurs by way of aperture form lower seepage hole I (4-2), water supply hole (2- 3) root hole I, is stretched, the size of moisture control layer (13) as required is cut off in flakes, the water bag layer (4) of aperture is solid by gluing It is scheduled on above moisture control layer (13), then by the edge of moisture control layer (13) and water bag layer (4) by way of thermal compression welding Hot weld is to together；

Aperture is carried out by way of being die cut or being punched on layer rhizogenous (10) and forms welding hole location, then by taking root after aperture In flakes, the layer rhizogenous cut (10) is fixed on above water bag layer (4) with gluing for the size cutting of layer (10) as required；

Evaporation barrier layer (2) aperture by way of being die cut or being punched is formed into seepage hole II (2-1) and germinal aperature I (1-2), Aperture will be carried out by way of being die cut or being punched for water layer (3) and forms welding hole location, then by aperture for water layer (3) according to needing The size cutting wanted in flakes, is fixed on what is cut in evaporation barrier layer (2) for water layer (3) gluing；

It is glued in a manner of spiral linear or atomized spray on for water layer (3), by seed grain (12), matrix granule (11) Uniformly be arranged in sizing after on water layer (3)；

Hot spot weld by way of at for the welding hole location on water layer (3) and layer rhizogenous (10) will evaporate barrier layer (2) and Water bag layer (4) carry out hot weld so that evaporation barrier layer (2) and water bag layer (4) be at sash shape, then will evaporation barrier layer (2) It is compound that hot weld is carried out with the edge of water bag layer (4).

3. a kind of installation method of slope plants growth controller according to claim 2, it is characterised in that: the moisture Collecting control unit includes the water temperature layer (1) above evaporation barrier layer (2), and the water temperature layer (1) mixes with water bag layer (4) Water storage bag (9) are made,

The step 2. the following steps are included:

By water temperature layer (1), aperture is formed into seepage hole I (1-1), germinal aperature II (2-2) by way of being die cut or being punched, then will Water temperature layer (1) by be interrupted it is heat weldable in a manner of fold sizing；

Water stream channel support is formed by spray foam particle, hot-melt adhesive granules or hot melt adhesive item in particle band upper surface to float Point (8) aligns folded water temperature layer (1) and particle band, and by being U-shaped hot pressing complex method by water temperature layer in shape (1), water bag layer (4) is combined with each other, then by water temperature layer (1) of the hot weld after compound, water bag layer (4) in hot weld Combined Welding seam Between U-shaped incision, to form water storage bag (9).

4. a kind of installation method of slope plants growth controller according to claim 3, it is characterised in that: the moisture Collecting control unit further includes being set to the water guide layer (5) of water storage bag (9) below, and be set to the water blocking layer below water guide layer (5) (15), cavity is equipped between the water guide layer (5) and water blocking layer (15), the cavity is filled with web, cloth, tapetum fibrosum shape At permeable layer (14),

The step is 2. further comprising the steps of:

By water guide layer (5) be die cut or be punched or Spurs by way of aperture form lower seepage hole I (4-2) and stretch root hole II, will The water guide layer (5) of aperture and water storage bag (9) align and are compounded in water storage bag (9) lower surface, hot pressing by the compound mode of hot pressing Recombination site is located at lower seepage hole I (4-2), seepage hole I (4-2) under the U-shaped encirclement of hot weld；

By water blocking layer (15) be die cut or be punched or Spurs by way of aperture formation stretch root hole III, by the water blocking layer of aperture (15) it aligns with water guide layer (5) and is stitched together by the compound mode in edge and middle section hot pressing.

5. a kind of installation method of slope plants growth controller according to claim 1, it is characterised in that: the substrate Setting is square on the net in reinforcing fiber,

The step 3. the following steps are included:

Any two substrate is spliced by heat weldable mode；

6. a kind of installation method of slope plants growth controller according to claim 5, it is characterised in that: the step 3. further comprising the steps of:

Bound edge is carried out using enhanced film in the side of moisture controller, and by heat weldable mode by enhanced film and water Sub-controller welds together；

Bound edge is carried out using enhancing coating in the side of reinforcing fiber net, and coating will be enhanced by heat weldable mode and increased Strong web welds together.

7. a kind of installation method of slope plants growth controller according to claim 1, it is characterised in that: the matrix Particle (11) is formed by fertilizer, fungicide, plant growth regulator, disease and pest control agent and/or organic matter Material cladding, described It include seed, fungicide, plant growth regulator and disease and pest control agent inside seed grain (12).