OA18417A - Hard road construction method for natural groundwater recharge. - Google Patents

Abstract

The present invention discloses a hard pavement construction method for natural groundwater recharge. The method comprises the following steps: drilling to an underground shallow sand zone water storage layer (12) on a flattened earth floor (1), filling holes (2) with sand, inserting rod-shaped tools (4) into the holes (2) filled with the sand, pouring concrete to form a concrete foundation layer (5) with a flat surface, removing the rod-shaped tools, continuously filling the holes with the sand to be flush with a plane of the concrete foundation layer (5), sanding and compacting on the concrete foundation layer (5), then directly arranging pavement bricks (7) on a sand surface in an unbonded manner to form a hard pavement, and enabling rain and snow water on the hard pavement to pass through cracks of the pavement bricks (6), rapidly and naturally recharge to the underground shallow sand zone water storage layer (12) via the holes (2) and slowly permeate to an underground deep sand zone water storage layer (14).

Description

The présent invention relates to a hard pavement construction method for natural groundwater recharge on a watertight concrète foundation layer, and particularly relates to a hard pavement construction method capable of enabling natural rainfall to rapidly recharge to an underground shallow sand zone water storage layer and further be naturally filtered and permeated to an underground deep sand zone water storage layer through a clay layer.

BACKGROUND

At présent, for a known hard pavement construction method for urban roads, squares and residential areas, concrète pouring and bonding is mostly used, and surface water is completely isolated from groundwater; permeable holes are reserved through concrète pouring, so that pavement water can slowly permeate to a surface soil layer through the holes; however, a water perméation effect is extremely poor, a natural recharge rate of rainwater is extremely low, a slightly great rainfall may cause surface gathered water, and natural water cannot rapidly recharge underground; a pervious concrète and pervious asphalt construction method is also used, while water permeability rétention time is short, a phenomenon that water perméation holes are often blocked after construction within several months occurs, and construction cost is high; and further, a permeable cernent brick laying method is used, and since permeable cernent bricks are coarse in grain, poor in bonding fastness, low in pressure résistance and easy to break, and due to closure property of foundation treatment, the permeable cernent bricks hâve limited water absorbing capacity, and gathered water is still caused when a heavy rain appears. A largearea pavement gathered water problem on hard pavements similar to the urban roads, the squares and the residential areas is still a worldwide problem. Particularly important, an underground water level is gradually declined, and a framework rôle of water in soil is gradually lost. In order to enable city underground to hâve a sponge-like water absorption function, manners of digging to form ponds, implementing underground water storage projects and the like are adopted in the

InteIIectuaI Property Attorney OAPI ACCREdlTEd AQENT

DESCRIPTION prior art, causing that construction cost is extremely high, territorial resources are wasted, stagnant ponds are often formed, maintenance cost is high, an environmental beautification degree is low, and even the ponds become stinking ditches influencing the environment.

SUMMARY

The présent invention provides a hard pavement construction method for natural groundwater recharge in order to realize the following purposes that gathered water does not exist on largearea hard pavements of urban roads, squares and residential areas and the like on rainy days, natural rainfall can rapidly recharge to an underground shallow sand zone water storage layer and be naturally filtered and permeated to an underground deep sand zone water storage layer through a clay layer, groundwater is effectively supplemented, a groundwater pollution problem caused by artificial direct recharge of a deep groundwater layer is avoided, pedestrians can walk on the pavement while automobiles and other heavy means of transportation can run and be parked on the pavement, and a “sponge city” is really realized rapidly at low price and high efficiency so that urban and rural lands made from concrète hâve a natural water underground recharge effect of mountains, rivers, lakes, seas, fields and forests.

A solution for solving technical problems in the présent invention is as follows: in an industrial under-development period in the past, a weil is dug underground by several meters to reach the shallow sand zone water storage layer when groundwater is abundant, thereby obtaining highquality groundwater. But nowadays, particularly in a city, a weil is often dug by dozens of meters and even several hundred meters, so as to obtain an idéal groundwater source. A soil structure is in vein belt distribution and includes several layers of various clay zones and a layer of sand zone from ground to underground. The sand zone is an optimal water storage layer and also an optimal diversion layer of water, so a water getting source of the dug weil must be on the sand zone layer. Along with exhaustion of groundwater resources, the sand zones are penetrated to perform deep digging one after another for getting water. According to this theory, the natural rainfall on the ground can be guided to the underground shallow sand zone layer through a manner of filling holes with sand, so that a drainage speed is high, construction cost is low, and natural groundwater perméation and recharge are reasonably guided and accelerated. The above

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DESCRIPTION method is a core content and a technical innovation for solving hard pavement drainage and natural groundwater recharge in the présent invention. A spécifie solution is as follows: holes are drilled orderly or disorderly on a flattened earth floor to reach a sand zone layer at a proper underground depth or a sand zone layer which pénétrâtes through multiple shallow sand zone water storage layers, is once stored with water or still contains water now, and a thickness and sand grains of the sand zone layer are enough for water storage and diversion. A hole diameter of the drilled hole is 5-100 cm, a hole distance is 0.5-20 m, and the hole is filled with sand. A size and a depth of the hole shall be favorable for drainage and cost minimization, and the larger the hole is, the more the consumed manual labor is, and the more the filled sand is. The drilled hole is filled with sand to reach the earth floor; a circular stick or a stick of any shape or a rod-shaped tool of other materials is inserted into the hole filled with the sand on the basis of filling the hole with the sand; and the rod-shaped tool is removed after concrète is poured, thereby forming a concrète foundation layer with a fiat surface in which holes are distributed. More drainage holes are favorable for drainage of the pavement after completion. A thickness of the concrète foundation layer can be determined according to bearing gravity used by the pavement. The holes are continuously filled with the sand to reach a plane of the concrète foundation layer, and a sand layer with a thickness of 2-30 cm is laid on the concrète foundation layer. The sand layer performs effects of absorbing water, guiding water and absorbing a pressure of pavement bricks, a thickness of the sand layer can be determined according to précipitation, and due to large rainfall at a time and frequent rainfall, the thickness of the sand layer is relatively larger. The pavement bricks are directly arranged on a surface of the sand layer orderly or disorderly in an unbonded layer to form the hard pavement, a crack of every two pavement bricks is 1-50 mm, the cracks are filled with sand, water is injected densely, rain and snow water on the hard pavement passes through cracks of the pavement bricks and naturally recharges to the underground shallow sand zone water storage layer via the holes, and the natural rain and snow water is rapidly and temporarily stored through one or more underground shallow sand zone layers and then slowly permeates to the deep sand zone water storage layer through the clay layer, thereby supplementing the underground water source. The concrète foundation layer, the sand and the pavement bricks are fixed on an edge of the hard pavement by using gravel, so that natural displacement and loss of the pavement can be avoided. A drainage channel which is 1-5 cm lower than the pavement bricks is made on an inner side of the gravel on the edge of the hard

DESCRIPTION pavement, so that the gathered water which cannot be rapidly and naturally recharged to the underground shallow sand zone water storage layer is drained into a rainwater well, so that the drainage channel serves as a standby drainage canal under a condition that the drainage holes cannot meet drainage when the rainfall is large.

The présent invention has benefits as follows: the natural rainfall rapidly recharges to the underground shallow sand zone water storage layer and is further naturally filtered and slowly permeated to the underground deep sand zone water storage layer through a soil layer on basis of ensuring road bearing capacity. When the construction method in the présent invention is used for constructing urban and rural hard pavements in a large area, important environmental protection problems that natural groundwater recharge cannot be realized and city settlement cannot be retarded are effectively solved, and a groundwater pollution problem caused by artificial direct deep groundwater recharge can be avoided. Meanwhile, a prefabricated member does not need to be manufactured in the présent invention, thereby decreasing manual loss and energy consumption. A high-efficiency low-cost environmental-friendly and energy-saving urban and rural hard pavement construction innovation mode is an optimal construction mode for complying with nature and realizing a sponge city.

BRIEF DESCRIPTION OF DRAWINGS

The présent invention is further described below in combination with drawings and embodiments.

Fig. 1 is a top view for drilling on a flattened earth floor to form holes and filling sand;

Fig. 2 is a top view for filling holes with sand and inserting a rod-shaped tool;

Fig. 3 is top view of a poured concrète foundation layer;

Fig. 4 is a top view for removing a rod-shaped tool and filling holes with sand;

Fig. 5 is a top view for laying sand on a concrète foundation layer;

Fig. 6 is a top view of laid pavement bricks, gravel and a drainage channel; and Fig. 7 is a structural sectional view from pavement bricks to groundwater layer.

In the figures: (1) flattened earth floor; (2) hole; (3) sand; (4) rod-shaped tool; (5) concrète foundation layer; (6) pavement brick crack; (7) pavement brick; (8) gravel; (9) drainage channel;

DESCRIPTION (10) rainwater well; (11) shallow soil layer; (12) shallow sand zone water storage layer; (13) clay layer; and (14) deep sand zone water storage layer.

DETAILED DESCRIPTION

Fig. 1 and Fig. 2 show preferred embodiments: a flattened earth floor (1) is drilled underground to form holes (2), sand (3) is filled, and a rod-shaped tool (4) is inserted.

As shown in Fig. 3 and Fig. 4, after concrète is poured, a concrète foundation layer (5) is formed, the rod-shaped tool (4) is removed, the holes (2) are formed, the sand (3) is filled, and water is injected densely.

In Fig. 5 and Fig. 6, the sand (3) is laid on a plane of the concrète foundation layer (5), water is injected densely, pavement bricks (7) are orderly arranged on a horizontal plane, pavement brick cracks (6) among the pavement bricks (7) are filled with the sand (3), and water is injected densely to form a hard pavement. The concrète foundation layer (5), the sand (3) and the pavement bricks (7) are fixed by gravel (8) on an edge of the hard pavement, and a drainage channel (9) is formed on an inner side of the gravel (8), so that gathered water with superleakage capacity can be drained into a rainwater well (10).

As shown in Fig. 7, rainwater on the hard pavement rapidly leaks to the shallow soil layer (11) and the shallow sand zone water storage layer (12) through the pavement brick cracks (6) among the pavement bricks (7) via the holes (2), is filtered by a clay layer (13) and slowly leaks to a deep sand zone water storage layer (14).

Claims (7)

1. A hard pavement construction method for natural groundwater recharge, comprising the following steps: drilling to an underground shallow sand zone water storage layer on a flattened earth floor, filling holes with sand to the earth floor, inserting rod-shaped tools into the holes filled with the sand, pouring concrète to form a concrète foundation layer with a fiat surface, removing the rod-shaped tools, continuously filling the holes with the sand to be flush with a plane of the concrète foundation layer, sanding and compacting on the concrète foundation layer, then directly arranging pavement bricks on a sand surface in an unbonded manner to form a hard pavement, and enabling rain and snow water on the hard pavement to pass through cracks of the pavement bricks, rapidly and naturally recharge to the underground shallow sand zone water storage layer via the holes and slowly permeate to an underground deep sand zone water storage layer.

2. The construction method according to claim 1, wherein holes are drilled orderly or disorderly on the flattened earth floor to reach a sand zone layer at a proper underground depth or a sand zone layer which pénétrâtes through multiple shallow sand zone water storage layers; a hole diameter is 5-100 cm; and a hole distance is 0.5-20 m.

3. The construction method according to claim 1, wherein a circular stick or a stick of any shape or a rod-shaped tool of other materials consistent with the drilled holes in shape and size is inserted into the hole filled with the sand; and the rod-shaped tool is removed after the poured concrète foundation layer is dry and hard; and the holes consistent with the holes of the drilled holes in shape and size are formed in the concrète foundation layer.

4. The construction method according to claim 1, wherein the holes are filled with the sand, water is injected densely, and a sand layer with a thickness of 2-30 cm is laid on the concrète foundation layer to form a plane.

5. The construction method according to claim 1, wherein the pavement bricks are directly arranged on a surface of the sand layer orderly or disorderly in an unbonded layer to form the hard pavement; a crack of every two pavement bricks is 1-50 mm; the cracks are filled with sand; and water is injected densely.

6. The construction method according to claim 1, wherein a concrète foundation layer, the sand and the pavement bricks are fixed on an edge of the hard pavement by using gravel, so that natural displacement and loss of the pavement is avoided.

7. The construction method according to claim 1, wherein a drainage channel which is 1-5 cm lower than the pavement bricks is used on the edge of the hard pavement, so that the gathered water which cannot be rapidly and naturally recharged to the underground shallow sand zone water storage layer is drained into a rainwater well.