CN202222193U - Ecological energy-saving, environment-friendly and sustainable plant system - Google Patents

Abstract

An ecological energy-saving, environment-friendly and sustainable plant system is characterized by comprising a water storage and supply module (1), a permeable isolating unit (2), a nutrient soil layer (4) and a drip irrigation system (3), wherein, a single or a plurality of water storage and supply modules (1) are combined into a base for planting plants, the base for planting plants are mounted on a roof or a soilless base, and the water storage and supply module (1) mainly comprises an upper module and a lower module which are in plug-in connection; the permeable isolating unit (2) is placed at the upper part of the base for planting plants, namely the water storage water supply module (1); the nutrient soil layer (4) is placed in a manner of surrounding the upper part of the permeable isolating unit (2); and the drip irrigation system (3) is mounted in the nutrient soil layer (4). The plant system has a simple structure and is convenient to manufacture, and plants need no artificial irrigation and maintenance under normal conditions.

Description

The sustainable type plant planting of ecological energy-saving environmental protection system

Technical field

The utility model relates to a kind of implant system, especially a kind of system at no soil site plant plantings such as roof, roofings, the sustainable type plant planting of specifically a kind of ecological energy-saving environmental protection system.

Background technology

The modern city building is stood in great numbers, and green coverage sharply descends, and the urban environment living condition continues to worsen, and people have had unprecedented showing great attention to environment and ecology.In urban construction and the evolution, increase the greenery patches, but greenery area still can not satisfy the demand of people to the greening construction land through variety of way.Roof greening is establishment city overall green space and the effective and the most direct measure of increase greenery area.

Experiment shows that the greening roof can make summer nice and cool, and winter is warm.Air-conditioning power consumption 20%～40% can be practiced thrift than low 2～4 ℃ of the indoor temperature that does not have in the house that the roof top garden is arranged summer; And building roof can be protected in the greening roof, enriches urban look, and research shows that the roof mean lifetime under greening covers is 40～50 years, and the life-span of exposed roofing has only 25 years.

Therefore be not only can the cooling and insulating effect for the meaning of development roof garden; And can beautify the environment, purify air, improve local microclimate; Can also compensate the greening ground that building takies; Improve the afforestation coverage rate of sub-district greatly, and the building that has a roof top garden also can attract house purchaser's sight more.

And the existing technology of roof greening be directly plant planting in the circular port of a mould; On the surface of covering mould after the plant growing, but because the restriction of the hole size of mould own, optional floristics is less; Later stage plants ' aesthetics property is relatively poor, and ecosystem benefit is not good.

For this reason, also have mould to be divided into two-layer up and down, the upper strata is the plantation space of earthing space and plant, and lower floor is the rainwater collection space.The shortcoming that this structure exists is: one, the size of mould decision thickness of soil, and thickness of soil then determines floristic selection; Two, a mould is exactly an independently unit of plantation, lacks and contact on every side, can not form a complete complex ecosystem, is unfavorable for the long term growth of plant; Three, a mould unit goes wrong, and will cause whole system to go wrong, and also make troubles to maintenance.

Above implant system also rainwater of ubiquity is collected and the problem of lack of water moisturizing the problem not high to the availability of rainwater.Therefore, designing a kind of can retaining can be to improve the plant growing cycle for plant provides the novel implant system of growth required water according to the plant growing needs again automatically, expands the key of varieties of plant.

Summary of the invention

The purpose of the utility model is to select limited shortcoming to less, the kind single with the serike kind of water storage space in the existing roof afforestation technology, designs that a kind of cost is low, the environmental protection of the convenient ecological energy-saving again of construction is continuable, can prolong the drought-resistant ability of roof greening and enriches the sustainable type plant planting of the ecological energy-saving environmental protection system of the plants landscape effect on roof.

The technical scheme of the utility model is:

The sustainable type plant planting of a kind of ecological energy-saving environmental protection system is characterized in that comprising:

One water accumulating and supplying module 1; Single or a plurality of water accumulating and supplying modules 1 are combined into the plant planting basis, and this plant planting basis is installed in the roof or does not have on the earth foundation, and this water accumulating and supplying module 1 mainly is made up of upper module and lower module; Upper module is pegged graft with lower module and is linked to each other; Upper module is provided with card article 6, and lower module is provided with draw-in groove 20, and card article 6 inserts in the draw-in groove 20; Described upper module comprises panel 22 and the load-bearing siphon tube 8 that links to each other with panel 22; Be provided with a space of placing water absorbing agent in the described load-bearing siphon tube 8, the barrel of load-bearing siphon tube 8 is provided with siphon hole 9, and the bottom of load-bearing siphon tube 8 directly is bearing on the inner bottom surface of lower module or is suspended on the inner bottom surface of lower module; Described lower module is by forming with the connection fastener 13 that is connected with adjacent water accumulating and supplying module with the storage box 12 that panel 22 matches; Connection fastener 13 is connected on the side of storage box 12, on one side relative with connection fastener 13, is provided with the groove 14 that the connection fastener 13 that supplies on the adjacent water accumulating and supplying module 1 inserts;

One permeable isolated location 2; This permeable isolated location 2 is placed on the top that the plant planting basis is a water accumulating and supplying module 1; Be used for preventing that root system of plant from getting into water accumulating and supplying module 1, the lower surface of permeable isolated location 2 contacts with water absorbing agent in the described load-bearing siphon tube 8 so that unnecessary water is being sent in the load-bearing siphon tube 8 or in the nutrition soil with its top of the suction of the water in the water absorbing agent;

One nutrition soil layer 4, this nutrition soil layer 4 is enclosed the top of putting at permeable isolated location 2, and plant 5 is planted on the nutrition soil layer 4, and the root system of plant 5 is positioned at the surface that nutrition soil layer 4 terminates in described permeable isolated location 2;

One drip irrigation system 3, it is installed in the nutrition soil layer 4, and described drip irrigation system 3 is made up of water pipe that has hole 21 and the nonwoven that is wrapped on the water pipe, and the water inlet of this water pipe links to each other with supply-water pump or water source.

The whole big up and small down terrace with edge structure of described upper module and lower module.

Described panel 22 is provided with infiltration hole 7.

The periphery of described panel 22 is provided with thickening edge closing bar 10.

The frustum structure that described load-bearing siphon tube 8 is big up and small down is provided with a holder cup bar 11 in its bottom outside.

The upper edge of described storage box 12 is provided with wing plate 23, and described groove 14 is positioned on the wing plate 23 with draw-in groove 20, and the top that is connected with edge sealing bar 15 and edge sealing bar 15 in the outside of wing plate 23 exceeds the upper surface of wing plate 23.

The inner bottom surface of described storage box 14 is provided with reinforcement 18, and outer bottom is provided with the cross or the groined type inner groovy 17 of ventilation usefulness.

The box wall of described storage box 14 is provided with spillway hole 19, and this spillway hole 19 is connected with drainage pipeline.

Described water absorbing agent is an earth, and described permeable isolated location 2 is a nonwoven.

Around the described plant planting basis framework is installed also, the bottom of this framework is with the roof or do not have earth foundation and link to each other, and its top is not less than the upper surface of nutrition soil layer.

The beneficial effect of the utility model:

1, it is no longer isolated that the utility model makes the structure between the continuable plant planting system, plays one's part to the full through being closely connected each other.Not only can cooling and insulating, and can beautify the environment, purify air, improve local microclimate, can also compensate the greening ground that building takies, improve the afforestation coverage rate in city greatly.

2, compare with original roof afforestation technology, the roof planting system architecture of the utility model is accurate, and weight capacity is strong; Original planting patterns is directly in the hole of plant planting in mould, and selectable floristics is less, and cropping pattern is single, is not easy to form a system of complex ecological group; And the cropping pattern earthing of the utility model is on mould; Whole soil horizon is an organic whole, be a system of complex ecological group, and thickness of earth-fill cover can reach about 60cm; Selectable floristics is more, so the plants landscape effect on roof also can be abundanter.

3, original roof greening is directly in the hole of plant planting in mould; Most space is occupied by plant planting in the mould, and water storage space is little, and the mould of the utility model is as storage box with whole box body; Water storage space increases, and has also prolonged the drought resisting phase of plant greatly simultaneously.

4, original mould must be connected to become whole competence exertion effect; The words that module goes wrong will cause whole system to go wrong; Though and the fundamental mechanism that the module of utilizing the utility model is formed is an integral body; But the fast water storage system of each mould is again separate, the situation that original mould occurs can not occur.

5, the utility model can be realized the effect of quadruple root resistance; The top blind flange and the bottom of nonwoven, mould have root resistance property; Utilize the water funk characteristic of root system of plant in addition; When in the soil during water saturation unnecessary water can penetrate in the catch basin (casing) of lower module, thereby can often reach state moisture in a kind of casing, and the water funk property of root system of plant will cause root system of plant can not extend to roofing automatically; So also played the effect of root resistance, significantly reduced the destruction of root system of plant the building roof.

6, the utility model is simple in structure, and is easily manufactured, can adopt mould to realize large-scale production; Can process by 100% high density polyethylene (HDPE) and polypropylene regenerated plastics; Ability uvioresistant, anti-aging, anti-impact pressure under normal circumstances need not man-made irrigation and maintenance, and the later maintenance expense is low.

7, the utility model is in light weight, is equivalent to conventional roof top garden 40-50%.

8, the utility model can be realized modularized production mode, is convenient to construction and promotes, and improves application speed and efficient.

9, the utility model is a kind of roofing ecological circulation system that is independent of building.

10, the built on stilts technology of the utility model employing is avoided directly contacting with the roof, and the inner groovy of bottom helps ventilating.

11, the utility model has been realized waterproof layer by layer, has powerful drainage function.

Description of drawings

Fig. 1 is the utility model plant planting system architecture sketch map.

Fig. 2 is that the water supply module that holds of the utility model makes up user mode plan structure sketch map.

Fig. 3 is the plan structure sketch map of the utility model lower module.

Fig. 4 be the utility model lower module look up structural representation.

Fig. 5 is the plan structure sketch map of the upper module of the utility model.

Fig. 6 is the a-a cross-sectional schematic of Fig. 2.

Fig. 7 is the b-b cross-sectional schematic of Fig. 3.

Fig. 8 is the c-c cross-sectional schematic of Fig. 5.

Embodiment

Below in conjunction with accompanying drawing and embodiment the utility model is further described.

Shown in Fig. 1-8.

The sustainable type plant planting of a kind of ecological energy-saving environmental protection system comprises:

One water accumulating and supplying module 1; Single or a plurality of water accumulating and supplying modules 1 are combined into plant planting basis (like Fig. 2); This plant planting basis is installed in the roof or does not have on the earth foundation, and this water accumulating and supplying module 1 mainly is made up of upper module (like Fig. 5) and lower module (like Fig. 3), and upper module and lower module can be processed by 100% high density polyethylene (HDPE) and the injection moulding of polypropylene regenerated plastics; Ability uvioresistant, anti-aging, anti-impact pressure, the whole big up and small down terrace with edge structure of described upper module and lower module.Upper module links to each other through pegging graft with lower module, and upper module is provided with card article 6, and lower module is provided with draw-in groove 20; Thereby card article 6 inserts the connection (as shown in Figure 2) that realizes both in the draw-in groove 20; Described upper module comprises panel 22 and the load-bearing siphon tube 8 that links to each other with panel 22, the frustum structure (seeing Fig. 6,8) that load-bearing siphon tube 8 is big up and small down, and panel 22 is provided with infiltration hole 7; Become can setting up of plate 22 to add the edge closing bar 10 of getting sun on every side, like Fig. 5; Be provided with a space of placing water absorbing agent (like earth) in the described load-bearing siphon tube 8; The barrel of load-bearing siphon tube 8 is provided with siphon hole 9; Tube is provided with a holder cup bar 11 (like Fig. 8) end, and the bottom of load-bearing siphon tube 8 directly is bearing on the inner bottom surface of lower module or is suspended on the inner bottom surface of lower module.Described lower module is by forming with the connection fastener 13 that is connected with adjacent water supply module with the storage box 12 that panel 22 matches; Connection fastener 13 is connected on the side of storage box 12, on one side relative with connection fastener 13, is provided with the groove 14 that the connection fastener that supplies on the adjacent water supply module inserts.The upper edge of described storage box 12 can be provided with wing plate 23 (like Fig. 6,7) during practical implementation, and described groove 14 is positioned on the wing plate 23 with draw-in groove 20, and the top that is connected with edge sealing bar 15 and edge sealing bar 15 in the outside of wing plate 23 exceeds the upper surface of wing plate 23.In addition, on the inner bottom surface of storage box 14, also can be provided with reinforcement 18 (Fig. 3), outer bottom is provided with the cross or the groined type inner groovy 17 (Fig. 4) of ventilation usefulness.The box wall of described storage box 14 is provided with spillway hole 19 (Fig. 7).

The permeable isolated location 2 that one usefulness nonwoven is made; This permeable isolated location 2 is placed on the top that the plant planting basis is a water accumulating and supplying module 1; Be used for preventing that root system of plant from getting into water accumulating and supplying module 1, the lower surface of permeable isolated location 2 contacts with water absorbing agent in the described load-bearing siphon tube 8 so that unnecessary water is being sent in the load-bearing siphon tube 8 or in the nutrition soil with its top of the suction of the water in the water absorbing agent;

One nutrition soil layer 4, this nutrition soil layer 4 is enclosed the top of putting at permeable isolated location 2, and plant 5 is planted on the nutrition soil layer 4, and the root system of plant 5 is positioned at the surface that nutrition soil layer 4 terminates in described permeable isolated location 2;

One drip irrigation system 3, it is installed in the nutrition soil layer 4, and described drip irrigation system 3 is made up of water pipe that has hole 21 and the nonwoven that is wrapped on the water pipe, and the water inlet of this water pipe links to each other with supply-water pump or water source.

One framework, this framework enclose be contained in plant planting basis around, the bottom of this framework is with the roof or do not have earth foundation and realize detachable the connection, its top is not less than the upper surface of nutrition soil layer.

Implant system by above five major parts are formed is as shown in Figure 1.

Details are as follows:

The whole implant system of the utility model can be divided into following which floor:

1. plant planting module; It is fundamental mechanism and storage box below the roof greening; It forms a plane through being connected of draw-in groove; But each mould is again a separate unit, and it can combine different roofings to splice, and the size of module can change with the requirement of roofing.It is to be processed by 100% high density polyethylene (HDPE) and polypropylene regenerated plastics, is a kind of environment-friendly materials that can be recycled, but uvioresistant, anti-aging, anti-impact is pressed, and under normal circumstances is a kind of roof planting modules that need not the environmental protection and energy saving of man-made irrigation and maintenance.

The plant planting module is divided into two parts up and down, and the first half is made up of top blind flange and 16 taper load-bearing pillars, and top blind flange has infiltration hole, connection fastener and thickening edge closing bar.Pyramidal structure and top blind flange are combined closely, and pyramidal structure bottom is the hole that network structure and wall arbitrarily are studded with the 2*2 millimeter about 10, and we insert soil in pyramidal structure, as the medium of conducting water, play the effect of load-bearing and siphon simultaneously; The top cover board then is a network structure, and the size of hole is the 4*4 millimeter, and the effect of hole has guaranteed that water can penetrate in the casing fast, can play certain root resistance effect again; The latter half of plant planting module is that the carrying container of the first half also is an independent storage box, mainly is made up of rainwater collecting box, cross recess, spillway hole, module combinations fastener and edge sealing bar.Under the situation that the moisture in the soil horizon reaches capacity, moisture penetrates in the casing of module through the infiltration hole fast, and after the water in casing arrived certain altitude, unnecessary water just flowed out from the spillway hole near the wall box top; And when the water content in the soil was less than certain value, the soil in the pyramidal structure was drawn into the moisture in the box through capillary generation siphon and plays the moistening irrigation effect in the soil, thereby had prolonged the drought resisting phase of plant 40%.

2. nonwoven is laid layer of non-woven fabric on the plant planting module, has both played the effect of filtering, and has reduced the leaching of soil again.

3. drip irrigation system, drip irrigation system is economized on water the most, can effectively reduce surface evaporation and rainwash.We arrange the 32mm feed pipe in soil, the hole of some diameter 5-10mm of the surface arrangement of water pipe wraps up water pipe with nonwoven again, and it is aging that water pipe is difficult for, and have guaranteed the permanence of drip irrigation system.In the process of using, also can in the source of feed pipe, add fertilizer, satisfy the needed nutrient of plant growing.

4. nutrition soil layer, the soil horizon of whole roofing is an integral body, moisture in the soil; Nutrients etc. influence each other, can also be according to the requirements of different roofings separately, and the wall thickness and the material that can change column structure in the plant planting module are regulated edaphic thickness; The thickest reaching about 60cm; More help the growth of plant, guaranteed the sustainability of roof view, the plants landscape effect on roof also so abundanter.

5. plant, thickness of soil can reach about 60cm, on the kind of plant, more selection can be arranged.To select the positive, evergreen, locality and heat-resisting cold-resistant plant is main, considers that simultaneously the area of roof greening is generally less, for it being arranged comparatively exquisite, can select the higher new varieties of some ornamental values for use, to improve the class of roof top garden.

The foundation structure of whole system is the plant planting module, and it is the core of whole system.Pyramidal structure is a most important component in module the first half, and it has two big functions:

One, pyramidal structure is being born the weight from soil and plant; The indirect again roof that is distributed to weight by the taper load-bearing pillar building; Can protect module itself not to be destroyed so effectively, we can be through thickness that changes pyramidal structure and the thickness that material is regulated upper layer of soil in addition;

Two, pyramidal structure is a siphoning installation; When the water content in the soil is less than certain value; Soil in the pyramidal structure will produce siphon through capillary the water in the casing is drawn into the drought resisting phase that has prolonged plant 40% in the soil, has practiced thrift curing time and maintenance cost greatly.

In order to make this rooftop zoology system can be fit to different soils thickness, the instructions for use on the roof of different field, the plantation module has following characteristics:

1. planting the size of planting module can select according to the condition on different roofs, and selectable size has 300*300,400*400 and 600*600 etc.;

2. according to building roof load-bearing condition; Thickness of earth covering can be regulated edaphic thickness through the wall thickness and the material that change column structure in the plant planting module; The thickest reaching about 60cm more helps the growth of plant, guaranteed the sustainability of roof view;

3. plant the shape of the bottom design across inner groovy of planting module, both made module built on stilts, be convenient to drain fast too much ponding; The roof is maintained the circulation of air and dry status, playing very big help aspect the growth of plant; Can reduce pressure again, improve the weight capacity on building roof the roof,

4. plant wall and the first half column construction of planting module the latter half casing and all be designed to taper, be beneficial to the stack of intermodule, convenient transportation and construction reduce construction area.

The utility model does not relate to all identical with the prior art prior art that maybe can adopt of part to be realized.

Claims (10)

1. the sustainable type plant planting of ecological energy-saving environmental protection system is characterized in that comprising:

One water accumulating and supplying module (1); Single or a plurality of water accumulating and supplying modules (1) are combined into the plant planting basis, and this plant planting basis is installed in the roof or does not have on the earth foundation, and this water accumulating and supplying module (1) mainly is made up of upper module and lower module; Upper module is pegged graft with lower module and is linked to each other; Upper module is provided with card article (6), and lower module is provided with draw-in groove (20), and card article (6) inserts in the draw-in groove (20); Described upper module comprises panel (22) and the load-bearing siphon tube (8) that links to each other with panel (22); Be provided with a space of placing water absorbing agent in the described load-bearing siphon tube (8), the barrel of load-bearing siphon tube (8) is provided with siphon hole (9), and the bottom of load-bearing siphon tube (8) directly is bearing on the inner bottom surface of lower module or is suspended on the inner bottom surface of lower module; Described lower module is by forming with the connection fastener (13) that is connected with adjacent water accumulating and supplying module with the storage box (12) that panel (22) matches; Connection fastener (13) is connected on the side of storage box (12), at the groove (14) that is provided with connection fastener (13) insertion that supplies on the adjacent water accumulating and supplying module (1) on one side relative with connection fastener (13);

One permeable isolated location (2); This permeable isolated location (2) is placed on the top that the plant planting basis is water accumulating and supplying module (1); Be used for preventing that root system of plant from getting into water accumulating and supplying module (1), the lower surface of permeable isolated location (2) contacts with water absorbing agent in the described load-bearing siphon tube (8);

One nutrition soil layer (4); This nutrition soil layer (4) is enclosed the top of putting in permeable isolated location (2); Plant (5) is planted on the nutrition soil layer (4), and the root system of plant (5) is positioned at the surface that nutrition soil layer (4) terminates in described permeable isolated location (2);

One drip irrigation system (3), it is installed in the nutrition soil layer (4), and described drip irrigation system (3) is made up of water pipe that has hole (21) and the nonwoven that is wrapped on the water pipe, and the water inlet of this water pipe links to each other with supply-water pump or water source.

2. the sustainable type plant planting of ecological energy-saving environmental protection according to claim 1 system is characterized in that the whole big up and small down terrace with edge structure of described upper module and lower module.

3. the sustainable type plant planting of ecological energy-saving environmental protection according to claim 1 system is characterized in that described panel (22) is provided with infiltration hole (7).

4. the sustainable type plant planting of ecological energy-saving environmental protection according to claim 1 system is characterized in that the periphery of described panel (22) is provided with thickening edge closing bar (10).

5. the sustainable type plant planting of ecological energy-saving environmental protection according to claim 1 system is characterized in that the frustum structure that described load-bearing siphon tube (8) is big up and small down, is provided with holder cup bar (11) in its bottom outside.

6. the sustainable type plant planting of ecological energy-saving environmental protection according to claim 1 system; The upper edge that it is characterized in that described storage box (12) is provided with wing plate (23); Described groove (14) and draw-in groove (20) are positioned on the wing plate (23), and the top that is connected with edge sealing bar (15) and edge sealing bar (15) in the outside of wing plate (23) exceeds the upper surface of wing plate (23).

7. the sustainable type plant planting of ecological energy-saving environmental protection according to claim 1 system is characterized in that the inner bottom surface of described storage box (14) is provided with reinforcement (18), and outer bottom is provided with the cross or the groined type inner groovy (17) of ventilation usefulness.

8. the sustainable type plant planting of ecological energy-saving environmental protection according to claim 1 system is characterized in that the box wall of described storage box (14) is provided with spillway hole (19), and this spillway hole (19) is connected with drainage pipeline.

9. the sustainable type plant planting of ecological energy-saving environmental protection according to claim 1 system is characterized in that described water absorbing agent is an earth, and described permeable isolated location (2) is a nonwoven.

10. according to the sustainable type plant planting of the ecological energy-saving environmental protection system that states of claim 1; It is characterized in that described plant planting basis around framework also is installed; The bottom of this framework is with the roof or do not have earth foundation and link to each other, and its top is not less than the upper surface of nutrition soil layer.

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