CN107574906A - A kind of highway water-saving system - Google Patents

A kind of highway water-saving system Download PDF

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Publication number
CN107574906A
CN107574906A CN201710801053.7A CN201710801053A CN107574906A CN 107574906 A CN107574906 A CN 107574906A CN 201710801053 A CN201710801053 A CN 201710801053A CN 107574906 A CN107574906 A CN 107574906A
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China
Prior art keywords
highway
water
closed conduit
seepage
catchments
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Granted
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CN201710801053.7A
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Chinese (zh)
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CN107574906B (en
Inventor
朱前涛
史宝光
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LANZHOU UNIVERSITY OF FINANCE AND ECONOMICS
Northwest Institute of Eco Environment and Resources of CAS
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Cold and Arid Regions Environmental and Engineering Research Institute of CAS
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Priority to CN201710801053.7A priority Critical patent/CN107574906B/en
Publication of CN107574906A publication Critical patent/CN107574906A/en
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02ATECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
    • Y02A20/00Water conservation; Efficient water supply; Efficient water use
    • Y02A20/108Rainwater harvesting

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Abstract

The invention provides a kind of highway water-saving system, it is particularly suitable for use in along arid, semiarid or desert highway, including:The water channel structure of both sides of highway is arranged at, catchmenting for both sides of highway is arranged at and closed conduit and is arranged at the pouring root system of both sides of highway.The highway water-saving system that other embodiments of the invention provide can also the sides of Zhi highways water channel structure, catchment closed conduit and pouring root system are set.Wherein, bearing of trend of the water channel structure along highway is set, and is configurable for collecting road surface rainwater.Bearing of trend of the closed conduit along highway that catchment is set, catchment closed conduit along positioned at the lower section of water channel structure and with water channel fabric connectivity.Highway water-saving system can safeguard the lasting operation of the half-dried area of arid and desert highway, avoid the secondary disaster and highway sand damage of torrential rain.Using this system, direct root water replenishment is given to both sides of highway plant, the natural procreation for plant time to live and both sides of highway plant bandwidth suffers from greatly facilitating effect.

Description

A kind of highway water-saving system
Technical field
The present invention relates to environment prevention and control field, in particular to a kind of highway water-saving system.
Background technology
At present, influenceed by global climate destabilizing factor, when betiding the torrential rain event in arid and semi-arid area in recent years There is generation, trigger many secondary disasters.How by arid and semi-arid region, torrential rain event and rainwash can be formed Rainwater-collecting and make full use of and be worth thinking.
The content of the invention
An object of the present invention is to provide a kind of highway water-saving system, and the highway water-saving system can improve arid half Arid biogeographic zone sand damage problem.
In order to solve the above-mentioned technical problem at least one in, the invention provides following technical scheme:
A kind of highway water-saving system, it is applied to along arid, semiarid or desert highway, including:
The water channel structure of the both sides of highway is arranged at, bearing of trend of the water channel structure along the highway is set, and It is configurable for collecting road surface rainwater;
The closed conduit that catchments of the both sides of highway is arranged at, bearing of trend of the closed conduit that catchments along the highway is set, institute State catchment closed conduit along positioned at the water channel structure lower section and with the water channel fabric connectivity;
The pouring root system of the both sides of highway is arranged at, the water inlet of the pouring root system is connected to the closed conduit that catchments Bottom.
Further, the bottom of the water channel structure is provided with multiple leakage mortises, and the water channel structure passes through the multiple leakage Mortise connects with the closed conduit that catchments;Length direction of the multiple leakage mortise along the water channel structure is intervally arranged.
Further, described catchment is additionally provided with thermal insulation layer between closed conduit and the water channel structure.
Further, the pouring root system includes being responsible for along the more drip irrigations that the length direction of the water channel structure is arranged, The every drip irrigation supervisor upwardly extends along the side away from highway substantially.
Further, the side wall of the every drip irrigation supervisor is also associated with the more drip irrigation extended obliquely out branch pipes.
Further, the highway water-saving system also includes overflow pipe, and the overflow pipe arrival end catchments with described To limit the peak level of the closed conduit that catchments, the port of export of the overflow pipe is connected to man-made lake or natural hollow for closed conduit connection Ground.
Further, the bottom of the closed conduit that catchments is additionally provided with leak device with the pouring root system junction, to subtract Delay the water to catchment in closed conduit to the pouring root system flow.
Further, the liquid level that the leak device is configured to catchment in closed conduit according to adjusts the speed of seepage Degree.
Further, the bottom wall of the closed conduit that catchments is downwardly extending multiple convex closures, the quantity of the convex closure with it is described The quantity of pouring root system corresponds, and the convex closure surrounds an infiltration chamber connected with the inner chamber of the closed conduit that catchments, described convex The bottom of bag and the pouring root system connectivity, the infiltration intracavitary be cascading from top to bottom flexible, retainer ring and Seepage floor group, the retainer ring are fixedly connected with the inwall of the convex closure, and the top surface of the retainer ring, which is provided with, to be radially extended Projection or groove so as to form water passage between the retainer ring and the flexure strip.
Further, the seepage floor group includes the first seepage floor and the second seepage floor stacked on top of one another, and described first oozes Drop ply and second seepage floor include water seepage and water proof portion, the water seepage of first seepage floor and second seepage The water proof portion position correspondence of layer, the water proof portion of first seepage floor are corresponding with the water seepage of second seepage floor;
When having water in the closed conduit that catchments, the bottom surface of the flexure strip contacts and pressed with the top surface of the seepage floor group; Gap between first seepage floor and second seepage floor catchmented according to closed conduit liquid level change and become Change.
Present invention also offers a kind of highway water-saving system, and it is applied to along arid, semiarid or desert highway, bag Include:
The water channel structure of the highway side is arranged at, bearing of trend of the water channel structure along the highway is set, and It is configurable for collecting road surface rainwater;
The closed conduit that catchments of the highway side is arranged at, bearing of trend of the closed conduit that catchments along the highway is set, institute State catchment closed conduit along positioned at the water channel structure lower section and with the water channel fabric connectivity;
The pouring root system of the highway side is arranged at, the water inlet of the pouring root system is connected to the closed conduit that catchments Bottom.
The beneficial effects of the invention are as follows:The highway water-saving system that the present invention is obtained by above-mentioned design can it is fully arid, The semiarid region even existing resource of desert area carry out sand damage control.The lasting fortune of the half-dried area of arid and desert highway can be safeguarded Battalion, avoid the secondary disaster and highway sand damage of torrential rain.Using this system, direct root water is given to both sides of highway plant Divide supply, the natural procreation for plant time to live and both sides of highway plant bandwidth suffers from greatly facilitating effect. Due to catchmenting, closed conduit is embedded in below earth's surface, and the moisture that the closed conduit that catchments can slow down arid and semi-arid area significantly quickly evapotranspires, and is utilized The storage of moisture and the self-restraint of soil.
Brief description of the drawings
, below will be to required use in embodiment in order to illustrate more clearly of the technical scheme of embodiment of the present invention Accompanying drawing be briefly described, it will be appreciated that the following drawings illustrate only certain embodiments of the present invention, therefore be not to be seen as It is the restriction to scope, for those of ordinary skill in the art, on the premise of not paying creative work, can be with root Other related accompanying drawings are obtained according to these accompanying drawings.
Fig. 1 is the schematic diagram for the highway water-saving system that embodiment of the present invention provides;
Fig. 2 is the enlarged drawing in II region in Fig. 1;
Fig. 3 is the state of flexure strip when having water in closed conduit of catchmenting;
Fig. 4 is the plan of the first seepage floor;
Fig. 5 is the plan of the second seepage floor.
Icon:10- highway water-saving systems;100- water channel structures;200- catchments closed conduit;210- thermal insulation layers;220- convex closures; 300- pouring root systems;310- drip irrigations are responsible for;320- drip irrigation branch pipes;330- overflow pipes;400- leak devices;410- flexure strips; 420- retainer rings;430- seepage floor groups;The seepage floors of 431- first;The seepage floors of 432- second;433- water seepages;434- water proofs portion; 500- highways;600- man-made lakes.
Embodiment
To make the purpose, technical scheme and advantage of embodiment of the present invention clearer, implement below in conjunction with the present invention Accompanying drawing in mode, the technical scheme in embodiment of the present invention is clearly and completely described, it is clear that described reality The mode of applying is a part of embodiment of the present invention, rather than whole embodiments.Based on the embodiment in the present invention, ability The every other embodiment that domain those of ordinary skill is obtained under the premise of creative work is not made, belongs to the present invention The scope of protection.Therefore, below the detailed description of the embodiments of the present invention to providing in the accompanying drawings be not intended to limit will The scope of the present invention of protection is sought, but is merely representative of the selected embodiment of the present invention.Based on the embodiment in the present invention, The every other embodiment that those of ordinary skill in the art are obtained under the premise of creative work is not made, belong to this Invent the scope of protection.
In the description of the invention, it is to be understood that term " " center ", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", " on ", " under ", "front", "rear", "left", "right", " vertical ", " level ", " top ", " bottom ", " interior ", " outer ", " up time The orientation or position relationship of the instruction such as pin ", " counterclockwise " are based on orientation shown in the drawings or position relationship, are for only for ease of Description is of the invention to be described with simplified, rather than the equipment or element of instruction or hint meaning must be with specific orientation, Yi Te Fixed azimuth configuration and operation, therefore be not considered as limiting the invention.
In addition, term " first ", " second " are only used for describing purpose, and it is not intended that instruction or hint relative importance Or the implicit quantity for indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can be expressed or Implicitly include one or more this feature.In the description of the invention, " multiple " are meant that two or more, Unless otherwise specifically defined.
In the present invention, unless otherwise clearly defined and limited, term " installation ", " connected ", " connection ", " fixation " etc. Term should be interpreted broadly, for example, it may be fixedly connected or be detachably connected, or integrally;It can be direct phase Even, it can also be indirectly connected by intermediary, can be that the connection of two element internals or the interaction of two elements are closed System.For the ordinary skill in the art, above-mentioned term in the present invention specific can be understood as the case may be Implication.
In the present invention, unless otherwise clearly defined and limited, fisrt feature second feature it " on " or it " under " Can directly it be contacted including the first and second features, it is not directly to contact but pass through it that can also include the first and second features Between other characterisation contact.Moreover, fisrt feature second feature " on ", " top " and " above " to include first special Sign is directly over second feature and oblique upper, or is merely representative of fisrt feature level height and is higher than second feature.Fisrt feature exists Second feature " under ", " lower section " and " following " fisrt feature that includes are immediately below second feature and obliquely downward, or be merely representative of Fisrt feature level height is less than second feature.
As shown in figure 1, embodiment of the present invention provides a kind of highway water-saving system 10, it is applied to arid, semiarid Or along desert highway 500, including:It is arranged at the water channel structure 100 of the both sides of highway 500, is arranged at catchmenting for the both sides of highway 500 Closed conduit 200 and the pouring root system 300 for being arranged at the both sides of highway 500.The highway water-saving system that other embodiments of the invention provide 10 can also the sides of Zhi highways 500 water channel structure 100, catchment closed conduit 200 and pouring root system 300 are set.
Wherein, bearing of trend of the water channel structure 100 along highway 500 is set, and is configurable for collecting the surface of highway 500 Rainwater.Bearing of trend of the closed conduit 200 along highway 500 that catchment is set, catchment closed conduit 200 along positioned at the lower section of water channel structure 100 simultaneously Connected with water channel structure 100.The water inlet of pouring root system 300 is connected to the bottom for the closed conduit 200 that catchments.
Inventor has found traditional Desertification Control means, gigantic project, cost height.Inventor has found fully to do Drought, the semiarid region even existing resource of desert area carry out sand damage control.In the present embodiment, take full advantage of arid, half-dried The drought-hit area even water collecting function of the highway 500 of desert area.
When torrential rain event or lasting catchment formation, rainwater rainwash is formed, and flows into highway from highway 500 The water channel structure 100 of 500 both sides, then the water inflow in water channel structure 100 are embedded in the closed conduit 200 that catchments below earth's surface, The plant of the both sides of highway 500 is supplied short of rain or arid when followed by, water in the closed conduit 200 that catchments.
The highway water-saving system 10 of present embodiment, the lasting operation of the half-dried area of arid and desert highway 500 can be safeguarded, is kept away Exempt from the secondary disaster and the sand damage of highway 500 of torrential rain.
Using this system, direct root water replenishment is given to the plants on both sides of highway 500, for plant time to live with And the natural procreation of the plants on both sides bandwidth of highway 500 suffers from greatly facilitating effect.
Due to catchmenting, closed conduit 200 is embedded in below earth's surface, and the closed conduit 200 that catchments can slow down the moisture in arid and semi-arid area significantly Quickly evapotranspire, utilize the storage of moisture and the self-restraint of soil.
Further, in the alternative embodiment of the present invention, the bottom of water channel structure 100 is provided with multiple leakage mortises and (schemed not Show), water channel structure 100 is connected by multiple leakage mortises with the closed conduit 200 that catchments;Length direction of multiple leakage mortises along water channel structure 100 It is intervally arranged.
Set leakage mortise on the one hand easy for construction, on the other hand also played actively to slowing down moisture evaporation in the closed conduit 200 that catchments Effect.The size and spacing distance for leaking mortise can need and set according to Specific construction, not be limited herein.
Further, in the alternative embodiment of the present invention, catchment and be additionally provided between closed conduit 200 and water channel structure 100 Thermal insulation layer 210.
Thermal insulation layer 210, which is arranged on, to catchment between closed conduit 200 and water channel structure 100, to prevent or slow down surface temperature Transmit downwards, the closed conduit 200 that avoids catchmenting is rapidly heated under high temperature and drought weather, so as to set thermal insulation layer 210 for preventing Or slow down moisture evaporation in the closed conduit 200 that catchments and play positive role.
Further, in the alternative embodiment of the present invention, pouring root system 300 is included along the length side of water channel structure 100 310 are responsible for more drip irrigations of arrangement, every drip irrigation supervisor 310 upwardly extends along the side away from highway 500 substantially.Drip irrigation is responsible for 310 water guiding highway 500 both sides that will catchment in closed conduit 200, and the root system of plant of the both sides of highway 500 is directly filled Irrigate.Drip irrigation supervisor 310 is embedded in below earth's surface, and the side wall of drip irrigation supervisor 310 is provided with multiple apertures, and water can be from drip irrigation Slowly oozed out in supervisor 310.
Further, in the alternative embodiment of the present invention, the side wall of every drip irrigation supervisor 310 be also associated with more it is oblique The drip irrigation branch pipe 320 of extension.
Structure and the drip irrigation supervisor 310 of drip irrigation branch pipe 320 are substantially close, and the diameter of drip irrigation branch pipe 320 can be with drip irrigation master The diameter of pipe 310 is identical can also be smaller than the diameter of drip irrigation supervisor 310.Multiple drip irrigation branch pipes 320 are set further to widen The area coverage of drip irrigation.
Further, in the alternative embodiment of the present invention, highway water-saving system 10 also includes overflow pipe 330, overflow The arrival end of pipeline 330 is connected with the closed conduit 200 that catchments to limit the peak level for the closed conduit 200 that catchments, the port of export of overflow pipe 330 It is connected to man-made lake 600 or natural depression.
Overflow pipe 330 can discharge excessive rainfall in time, and be received by man-made lake 600 or natural depression Collection, collected rainwater can be focused on and utilized.
The arrival end of overflow pipe 330 can control the highest catchmented in closed conduit 200 in the link position for the closed conduit 200 that catchments Water level, particular location can be set according to actual conditions., will when the water level in the closed conduit 200 that catchments exceedes default water level Man-made lake 600 or natural depression are discharged into from overflow pipe 330.
The secondary disaster that highway water-saving system 10 triggers when not only can effectively reduce torrential rain event, and to highway 500 serve preventive and therapeutic effect for the sand damages of both sides of the road.
Wherein, how easily, the rainwater that effectively utilizes collection be also a great problem.
Further, in the alternative embodiment of the present invention, bottom and the junction of pouring root system 300 of the closed conduit 200 that catchments Leak device 400 is additionally provided with, is flowed with slowing down the water to catchment in closed conduit 200 to pouring root system 300.
The closed conduit 200 that catchments slowly marginally enters pouring root system 300 by way of seepage, on the one hand can extend drip irrigation Time, another aspect leak device 400 can play a part of filtering, prevent pouring root system 300 to be blocked.
Inventor has found that it is also irrational to slow down rainwater simply into the speed of pouring root system 300, after raining In a period of time, due to rainwater large supply, the plants of the both sides of highway 500 is in a period of time with little need for pouring root system 300 Feed moisture.Based on this discovery, inventor is further improved to scheme.
Further, in the alternative embodiment of the present invention, leak device 400 is configured to basis and catchmented in closed conduit 200 Liquid level regulation seepage speed.
The liquid level to catchment in closed conduit 200 is higher, and the seepage velocity of leak device 400 is slower;The liquid to catchment in closed conduit 200 Position height is lower, and the seepage velocity of leak device 400 is faster.
Initial stage after rainfall, the plant of the both sides of highway 500 do not need water temporarily, over time the both sides of highway 500 Soil ponding it is fewer and fewer, plant also more needs water replenishment.
And the highway water-saving system 10 after the optimization is just agreeing with the demand, the initial stage after rainfall, due to the closed conduit 200 that catchments Interior liquid level is higher, and plant water requirement is few, and seepage velocity is very slow;The middle and later periods after rainfall, plant water requirement increase, seepage velocity Also due to the liquid level catchmented in closed conduit 200 is reduced and increased.It should be noted that seepage velocity and the relation for the closed conduit 200 that catchments It is not necessarily linear, and it is probably more parabolical form.When seepage velocity improves to a certain extent, then up just very Difficulty adds.
Further, referring to Fig. 2 and Fig. 3, in the alternative embodiment of the present invention, the bottom wall of the closed conduit 200 that catchments is to downward Stretch to form multiple convex closures 220, the quantity of convex closure 220 corresponds with the quantity of pouring root system 300, and convex closure 220 surrounds one and collection The infiltration chamber of the inner chamber connection of water closed conduit 200, the bottom of convex closure 220 connects with pouring root system 300, the intracavitary that seeps water from top to bottom according to Secondary stacking is provided with flexure strip 410, retainer ring 420 and seepage floor group 430, and retainer ring 420 and the inwall of convex closure 220 fix company Connect, the top surface of retainer ring 420 is provided with the projection radially extended or groove so that shape between retainer ring 420 and flexure strip 410 Into water passage.
The edge of flexure strip 410 is pressed in the top surface of retainer ring 420, radially prolongs because the top surface of retainer ring 420 is provided with The projection or groove stretched, and then water passage can be formed between flexure strip 410 and retainer ring 420, the water to catchment in closed conduit 200 Flexure strip 410 can be passed through and enter seepage floor group 430.The bottom surface of flexure strip 410 can be attached in seepage floor group 430, different During liquid level, water is different to the pressure of flexure strip 410 and seepage floor group 430, and the density of seepage floor group 430 is different, infiltration speed Degree is different.Flexure strip 410 can be made of rubber, have flexible and elasticity, and have sealing.
Further, as shown in Figures 4 and 5, in the alternative embodiment of the present invention, seepage floor group 430 includes stacked on top of one another The first seepage floor 431 and the second seepage floor 432, the first seepage floor 431 and the second seepage floor 432 include the He of water seepage 433 Water proof portion 434, the position correspondence of water proof portion 434 of the seepage floor 432 of water seepage 433 and second of the first seepage floor 431, the first seepage The water proof portion 434 of layer 431 is corresponding with the water seepage 433 of the second seepage floor 432.
Catchment in closed conduit 200 when having water, the bottom surface of flexure strip 410 contacts and pressed with the top surface of seepage floor group 430;First Gap between the seepage floor 432 of seepage floor 431 and second changes according to the change of the liquid level for the closed conduit 200 that catchments.
Because the water seepage 433 of the first seepage floor 431 and the second seepage floor 432 is to shift to install, seepage floor group 430 lacks The passage (side wall of convex closure 220 preferably does encapsulation process with seepage floor group 430) vertically directly connected, water from upper and During lower flowing, it is necessary to first vertically pass through the water seepage 433 of the first seepage floor 431, be horizontally through the He of the first seepage floor 431 Gap between second seepage floor 432, the water seepage 433 of the second seepage floor 432 can be reached, then ooze by control first The seepage velocity of gap can control seepage floor group 430 between the seepage floor 432 of drop ply 431 and second.
When liquid level is higher in the closed conduit 200 that catchments, the pressure that flexure strip 410 is subject to is larger, and flexure strip 410 is to the first seepage The pressure of the seepage floor 432 of layer 431 and second is larger, and the gap between the first seepage floor 431 and the second seepage floor 432 is smaller, oozes Saturating speed is smaller;Conversely, with liquid level reduction in the closed conduit 200 that catchments, seepage velocity increase.
Due to being provided with retainer ring 420 between flexure strip 410 and seepage floor group 430, flexure strip 410 will not fit in completely The top surface of first seepage floor 431, only center section are bonded with the top surface of the first seepage floor 431.So even in liquid level highest When, also there is a small amount of water to enter the first seepage floor 431.
It is further possible to raised or groove is set in the bottom surface of flexure strip 410, so that the first seepage floor 431 The bottom surface of top surface and flexure strip 410 forms water passage.Also or, set in the top surface of the first seepage floor 431 raised or recessed Groove.
The preferred embodiment of the present invention is the foregoing is only, is not intended to limit the invention, for this area For technical staff, the present invention can have various modifications and variations.Within the spirit and principles of the invention, that is made is any Modification, equivalent substitution, improvement etc., should be included in the scope of the protection.

Claims (10)

1. a kind of highway water-saving system, it is applied to along arid, semiarid or desert highway, it is characterised in that including:
Be arranged at the water channel structure of the both sides of highway, bearing of trend of the water channel structure along the highway is set, and by with It is set to for collecting road surface rainwater;
The closed conduit that catchments of the both sides of highway is arranged at, bearing of trend of the closed conduit that catchments along the highway is set, the collection Water closed conduit be located at the lower section of the water channel structure and with the water channel fabric connectivity;
The pouring root system of the both sides of highway is arranged at, the water inlet of the pouring root system is connected to the bottom of the closed conduit that catchments Portion.
2. highway water-saving system according to claim 1, it is characterised in that the bottom of the water channel structure is provided with multiple Mortise is leaked, the water channel structure is connected by the multiple leakage mortise with the closed conduit that catchments;The multiple mortise that leaks is along the water channel knot The length direction of structure is intervally arranged.
3. highway water-saving system according to claim 1, it is characterised in that the pouring root system is included along the water channel knot The more drip irrigations supervisor of the length direction arrangement of structure, the every drip irrigation supervisor upwardly extend along the side away from highway substantially.
4. highway water-saving system according to claim 3, it is characterised in that the side wall of the every drip irrigation supervisor is also connected with There are the more drip irrigation extended obliquely out branch pipes.
5. highway water-saving system according to claim 1, it is characterised in that the highway water-saving system also includes overflow pipe Road, the overflow pipe arrival end are connected with the closed conduit that catchments to limit the peak level of the closed conduit that catchments, the overflow The port of export of pipeline is connected to man-made lake or natural depression.
6. highway water-saving system according to claim 1, it is characterised in that the bottom of the closed conduit that catchments and the pouring root System junction is additionally provided with leak device, to slow down the water to catchment in closed conduit to the pouring root system flow.
7. highway water-saving system according to claim 6, it is characterised in that the leak device is configured to according to The speed for the liquid level regulation seepage catchmented in closed conduit.
8. highway water-saving system according to claim 7, it is characterised in that the bottom wall of the closed conduit that catchments extends downwardly shape Into multiple convex closures, the quantity of the quantity of the convex closure and the pouring root system corresponds, and the convex closure surrounds one and the collection The infiltration chamber of the inner chamber connection of water closed conduit, the bottom of the convex closure and the pouring root system connectivity, the infiltration intracavitary is from up to Under be cascading flexible, retainer ring and seepage floor group, the retainer ring be fixedly connected with the inwall of the convex closure, institute The top surface for stating retainer ring is provided with the projection radially extended or groove so as to be formed between the retainer ring and the flexure strip Water passage.
9. highway water-saving system according to claim 8, it is characterised in that the seepage floor group includes stacked on top of one another the One seepage floor and the second seepage floor, first seepage floor and second seepage floor include water seepage and water proof portion, described The water seepage of first seepage floor and the water proof portion position correspondence of second seepage floor, the water proof portion and institute of first seepage floor The water seepage for stating the second seepage floor is corresponding;
When having water in the closed conduit that catchments, the bottom surface of the flexure strip contacts and pressed with the top surface of the seepage floor group;It is described Gap between first seepage floor and second seepage floor catchmented according to closed conduit liquid level change and change.
10. a kind of highway water-saving system, it is applied to along arid, semiarid or desert highway, it is characterised in that including:
Be arranged at the water channel structure of the highway side, bearing of trend of the water channel structure along the highway is set, and by with It is set to for collecting road surface rainwater;
The closed conduit that catchments of the highway side is arranged at, bearing of trend of the closed conduit that catchments along the highway is set, the collection Water closed conduit along positioned at the water channel structure lower section and with the water channel fabric connectivity;
The pouring root system of the highway side is arranged at, the water inlet of the pouring root system is connected to the bottom of the closed conduit that catchments Portion.
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CN108487435A (en) * 2018-04-18 2018-09-04 安徽中疆环境科技有限公司 A kind of gardens construction based on water environment engineering accumulates irrigation equipment with rainwater

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