CN208639114U - The plug-in tree planting structure of rock side slope - Google Patents

Abstract

The utility model discloses a kind of plug-in tree planting structures of rock side slope, slope surface is equipped with the slope surface intake chamber in radiation wire shaped, the radiation point of slope surface intake chamber concentrates on the root hole for placing plant growth soil, is distributed several root holes in slope surface, root hole is plug-in in rock side slope.The utility model proposes a kind of to plant the structure of green plant on rock side slope, and the utility model is safe and reliable, durable, and combines together naturally, ecosystem stability enhancing.

Description

The plug-in tree planting structure of rock side slope

Technical field

The utility model relates to a kind of structure for being suitble to plant green plant on rock side slope, in particular to a kind of rock side slopes Plug-in tree planting structure.

Background technique

On-site investigation is utilized according to Chinese soil, by October 31st, 1996, the naked rock gravel ground area in the whole nation was 103534.5 thousand hectares (155301.8 ten thousand mu).It is mainly distributed on to naked rock gravel northwest, there are 69779.1 thousand hectares, Zhan Quan The naked rock gravel of state the gross area 67.4%.The naked rock gravel in Provinces (regions) it is most with Xinjiang, have 48 508.7 thousand hectares, Zhan Quan The 46.9% of state.Naked rock gravel soil is utilized to be difficult.

Green plant is planted on rock side slope at present to be all made of in slope surface and lay metal, and is fixed with anchoring piece, is then existed Planting plants in side slope, last covered non-woven fabrics etc. are retained.

At present on rock side slope planting plants method there are metal costs high, environment easy to pollute, plant take root it is difficult, at Low disadvantage living.Therefore, it is necessary to a kind of structure or methods of planting plants, and the ecological ring of rock side slope can preferably be transformed Border.

Utility model content

The utility model proposes a kind of for the green deficiency for planting implantation methods of existing rock side slope, proposes a kind of new green Pattern of farming is planted, ecosystem stability is enhanced.

The technical solution adopted in the utility model is: the plug-in tree planting structure of rock side slope, and slope surface is equipped with linear in radiating The radiation point of the slope surface intake chamber of shape, slope surface intake chamber concentrates in the plants planter for placing plant growth soil, Several plants planters are distributed in slope surface, plants planter is by being hung on rock side slope outside fixed support device.

Plant growth slot is equipped with above the plants planter.

The fixed support device has the support post of support platform, and support post is perpendicular to ground or for the whistle The support beam of mouth, support beam are parallel to ground.

The plants planter is the peviform structure of anti-oxidant, the corrosion resistant special substance with edge, section Product is triangle or quadrangle.

The plant is drought-enduring low crowntree.

The utility model proposes a kind of to plant the structure of green plant on rock side slope, and the utility model is safe and reliable, resistance to Long, it and combines together naturally, ecosystem stability enhancing.

Detailed description of the invention

Fig. 1 is that the fixation device of rock side slope planting plants is the side structure schematic diagram of support beam.

Fig. 2 is that the fixation device of rock side slope planting plants is the positive structure schematic of support beam.

Fig. 3 is the I view of Fig. 1.

Fig. 4 is the enlarged structure schematic diagram of plants planter.

The fixation device of Fig. 5 rock side slope planting plants is the side structure schematic diagram of support post.

Fig. 6 is that the fixation device of rock side slope planting plants is the positive structure schematic of support post.

Fig. 7 is the I view of Fig. 5.

Icon note is as follows: 1- rock side slope, 2- slope surface, 3- slope surface intake chamber, 4- plants planter, the fixed support dress of 5- It sets, 41- plant growth slot, 51- support post, 52- support platform, 53- support beam.

Specific embodiment

The plug-in tree planting structure of rock side slope and method are further described with reference to the accompanying drawing.

This plug-in tree planting structure of rock side slope, slope surface 2 be equipped in radiation wire shaped slope surface intake chamber 3, slope surface into It is the through flow velocity that can slow down natural precipitation on rock side slope that certain radian, which is presented, in sink 3, so that rainwater can be maximum Change enters in plants planter 4, and the radiation point of slope surface intake chamber 3 concentrates on the plant species for placing plant growth soil The top of planting apparatus 4, can collect natural precipitation in this way, provide moisture for plant, Late Irrigation is greatly saved Cost.The depth of plants planter 4 is determined according to the extent of the root system of different plants, several plant species are distributed in slope surface 2 Planting apparatus 4, plants planter 4 are dislocatedly distributed, and provide enough spaces for plant growth, plants planter 4 passes through fixation Rock side slope is hung on outside support device 5.

Enough spaces are needed in view of plant grows up, plant growth slot is set in the top of plants planter 4 41.Other than above-mentioned slope surface intake chamber 3 can provide moisture for plant, the plant of plantation can also be using high-order water tower drop It fills.Natural precipitation can be collected in this way, provide moisture for plant.The cost of Late Irrigation is greatly saved.Slope surface into Sink 3 solves the problems, such as the collection of the moisture of natural precipitation, if plant needs moisture just to use high-order water without natural precipitation Tower trickle irrigation keeps the skin wet.

Fixed support device 5 have support platform 52 support post 51, support post 51 perpendicular to ground or for The support beam 53 at the whistle mouthful, support beam 53 are parallel to ground.Plants planter 4 is anti-oxidant, corrosion-resistant with edge Special substance peviform structure, sectional area be triangle or quadrangle.

The plug-in tree-planting method of rock side slope, its step are as follows:

A. smooth to needing 1 slope surface 2 of rock side slope of planting plants to carry out；

B. fixed support device 5 is fixed on rock side slope 1；

C. plants planter 4 is placed in fixed support device 5, to make to be hung on rock matter side outside plants planter 4 Slope 1 determines the depth of plants planter 4 according to the extent of the root system of different plants；

D. the slope surface intake chamber 3 in radiation wire shaped is built in slope surface 2, certain radian, which is presented, in slope surface intake chamber 3 is Through flow velocity of the natural precipitation on rock side slope can be slowed down, enter plants planter 4 so that rainwater can maximize In, the radiation point of slope surface intake chamber 3 concentrates in the plants planter 4 for placing plant growth soil；

E. soil needed for being put into plant growth in plants planter 4；

F. planting plants.

Soil stabilizer and granule agent are added in the plants planter 4 of step E.

After soil needed for step E is put into plant growth, plant growth slot 41 is dug out above plants planter.

Plants planter 4 is the peviform structure with edge, and sectional area is triangle or quadrangle.

Plant is drought-enduring low crowntree.

Embodiment one: tree-planting method is embedded in the plug-in tree planting structure of rock side slope using rock side slope and plants cypress:

A. smooth to needing 1 slope surface 2 of rock side slope of planting plants to carry out；

B. four support beams 53 with the whistle mouthful are fixed on rock side slope 1；

C. sectional area is placed in the support with the whistle mouthful in the edge of the plants planter 4 of the peviform structure of quadrangle On crossbeam 53, to make to be hung on rock side slope 1 outside plants planter 4, planting is determined according to the extent of the root system of cypress The depth of device 4；

D. the slope surface intake chamber 3 in radiation wire shaped is built in slope surface 2, certain radian, which is presented, in slope surface intake chamber 3 is Through flow velocity of the natural precipitation on rock side slope can be slowed down, enter plants planter 4 so that rainwater can maximize In, the radiation point of slope surface intake chamber 3 concentrates in the plants planter 4 for placing plant growth soil；

E. soil needed for being put into cypress growth in plants planter 4；

F. soil stabilizer and granule agent are placed, in the soil of plants planter 4 to enhance the survival rate of cypress；

G. kind plants cypress.

Embodiment two: as shown in Figure 1, 2, 3, tree-planting method is embedded in the plug-in tree planting structure of rock side slope using rock side slope Upper plantation Fructus Forsythiae:

A. smooth to needing 1 slope surface 2 of rock side slope of planting plants to carry out；

B. two support beams 53 with the whistle mouthful (not shown) are fixed on rock side slope 1；

C. the edge of the plants planter 4 of sectional area peviform structure triangular in shape is placed in the support with the whistle mouthful On crossbeam 53, to make to be hung on rock side slope 1 outside plants planter 4, planting is determined according to the extent of the root system of Fructus Forsythiae The depth of device 4；

D. the slope surface intake chamber 3 in radiation wire shaped is built in slope surface 2, certain radian, which is presented, in slope surface intake chamber 3 is Through flow velocity of the natural precipitation on rock side slope can be slowed down, enter plants planter 4 so that rainwater can maximize In, the radiation point of slope surface intake chamber 3 concentrates in the plants planter 4 for placing plant growth soil；

E. soil needed for being put into Fructus Forsythiae growth in plants planter 4；

F. soil stabilizer and granule agent are placed, in the soil of plants planter 4 to enhance the survival rate of cypress；

G. kind plants Fructus Forsythiae.

Embodiment three: tree-planting method is embedded in the plug-in tree planting structure of rock side slope using rock side slope and plants cypress:

A. smooth to needing 1 slope surface 2 of rock side slope of planting plants to carry out；

B. four support posts 51 with support platform 52 are fixed on rock side slope 1；

C. sectional area is placed in the edge of the plants planter 4 of the peviform structure of quadrangle with support platform 52 Support post 51 on, to make to be hung on rock side slope 1 outside plants planter 4, determined and planted according to the extent of the root system of cypress The depth of species planting apparatus 4；

D. the slope surface intake chamber 3 in radiation wire shaped is built in slope surface 2, certain radian, which is presented, in slope surface intake chamber 3 is Through flow velocity of the natural precipitation on rock side slope can be slowed down, enter plants planter 4 so that rainwater can maximize In, the radiation point of slope surface intake chamber 3 concentrates in the plants planter 4 for placing plant growth soil；

E. soil needed for being put into cypress growth in plants planter 4；

F. soil stabilizer and granule agent are placed, in the soil of plants planter 4 to enhance the survival rate of cypress；

G. kind plants cypress.

Example IV: as shown in Figure 4,5, 6, tree-planting method is embedded in the plug-in tree planting structure of rock side slope using rock side slope Upper plantation Fructus Forsythiae:

A. smooth to needing 1 slope surface 2 of rock side slope of planting plants to carry out；

B. two support posts 51 with support platform 52 are fixed on rock side slope 1；

C. the edge of the plants planter 4 of sectional area peviform structure triangular in shape is placed in support platform 52 Support post 51 on, two angles are placed in support platform 52, the third angle by rock side slope 1 support, to make planting It is hung on rock side slope 1 outside device 4, the depth of plants planter 4 is determined according to the extent of the root system of Fructus Forsythiae；

D. the slope surface intake chamber 3 in radiation wire shaped is built in slope surface 2, certain radian, which is presented, in slope surface intake chamber 3 is Through flow velocity of the natural precipitation on rock side slope can be slowed down, enter plants planter 4 so that rainwater can maximize In, the radiation point of slope surface intake chamber 3 concentrates in the plants planter 4 for placing plant growth soil；

E. soil needed for being put into Fructus Forsythiae growth in plants planter 4；

F. soil stabilizer and granule agent are placed, in the soil of plants planter 4 to enhance the survival rate of Fructus Forsythiae；

G. kind plants Fructus Forsythiae.

Claims (6)

1. the plug-in tree planting structure of rock side slope, it is characterised in that: slope surface is equipped with the slope surface intake chamber in radiation wire shaped, slope surface The radiation point of intake chamber concentrates in the plants planter for placing plant growth soil, several plants are distributed in slope surface Planting unit, plants planter is by being hung on rock side slope outside fixed support device.

2. the plug-in tree planting structure of rock side slope according to claim 1, it is characterised in that: on the plants planter Side is equipped with plant growth slot.

3. the plug-in tree planting structure of rock side slope according to claim 1, it is characterised in that: the fixed support device is Support post with support platform, support post is perpendicular to ground or is the support beam with the whistle mouthful, and support beam is parallel In ground.

4. the plug-in tree planting structure of rock side slope according to claim 1, it is characterised in that: the plants planter is Peviform structure with edge, sectional area are triangle or quadrangle.

5. the plug-in tree planting structure of rock side slope according to claim 1, it is characterised in that: in the plants planter Between be equipped with catch basin.

6. the plug-in tree planting structure of rock side slope according to claim 1, it is characterised in that: the plant is drought-enduring low Crowntree.