The present invention relates to a water resource recycling system, particularly to a design provided on the ground surface, which is permeable such that the rain can be drawn into the underground to enhance the hydrous content of the soil, while the overflow water may be drawn to the groundwater stratum by the vertical drainpipe deeply drilled into the underground and be stored in the water reservoir after being filtered for an urgent need of water some day.
Generally, a concrete flooring according to the prior art is constructed by pouring a sufficient amount of concrete on the ground, paving the ground surface to flat and applying brick tiles. Given that concrete is impermeable and that the water on the brick tile surface cannot permeate into the soil under the concrete, a great amount of water would accumulate on the ground after a rush of rain, rendering flood disasters easily.
Besides, according to some research, if the rain cannot permeate into the soil after a long period of time, it will result in a heat island effect in the city and, in turn, affect the health of the people.
Meanwhile, as the rain cannot permeate into the ground soil, the groundwater will dry up due to not being supplemented. Accordingly, water resource protection has become an extremely import issue in many countries. There exists a need in efficiently solving the problem.
The primary object of the present invention is to provide a water resource recycling system which includes a highly permeable environmental concrete flooring which is applied to the ground surface so as to reduce the chances of water accumulation on the ground surface and recycle the rain completely.
The secondary object of the present invention is to provide a water resource recycling system which may draw the permeated water deep into the groundwater stratum to enrich the groundwater content and prevent the groundwater stratum from sagging due to the dried-up of the groundwater.
Another object of the present invention is to provide a water resource recycling system which has a vertical overflow duct extended deep into the groundwater stratum. The vertical overflow duct is connected to the water reservoirs of different water level such that the overflow in the vertical overflow duct can flow into each water reservoir and stored therein for future use on the ground surface by way of mechanical drawing.
For the above purposes, the water resource recycling system according to the present invention is characterized in that:
Given the above characteristics, the constructed flooring permits the rain on the concrete flooring be drawn into the underground and completely recycled as a resource. Not only the heat island effect can be prevented due to the increase of the water content in the soil, but also the groundwater can be stored in the water reservoirs pre-buried under the ground for the need in a draught or any urgent time.
The detailed construction and other characteristics of the present invention can be better understood by way of reading the following descriptions with reference to the accompanied drawings.
The special construction of the present invention includes applying a permeable flooring on the ground or reprocessing the impermeable flooring by drilling the drainpipes into the underground, so that the rain can permeate into the underground and be corrected for further use. For example, the construction of a permeable concrete flooring according to the invention includes the following steps.
As shown in
As shown in
Now refer to
To speed construction of the environmental permeable flooring according to the invention, sealing plugs 20 may be pre-inserted to the opening of the hollow pipes 10 in the plant, so as to prevent the concrete or other materials from entering into and being blocked in the pipes 10 at the time of construction. The sealing plugs 20 can be made of paper materials and adhered to the sealing formworks 50 by adhesive, whereas the sealing formworks 50 can be made of plastic film and combined with the sealing plugs 20 by automatic hot pressing. Furthermore, the sealing formworks 50 and the sealing plugs 20 can be made integrally and formed of high pressure injected plastic to become a sort of sealing formwork having a plurality of grilles 51, so that the concrete can be poured on the ground to form a flooring configuration. After the concrete flooring is accomplished, the sealing formworks can be removed, thereby speeding the construction and achieving the water drawing effect of the flooring.
As mentioned above, the drainpipe units of the permeable flooring according the invention include pipes 10 with a taper (or with fastening rings provided on the outer diameter), a upper frame 31 and a lower frame 32 respectively provided with holes to receive the pipes 10. Each hole has a diameter to match with the upper and lower diameters of the pipes 10 such that the pipes can be steadily engaged in the frame units. Besides, the sealing formworks 50 can be made of paper materials and adhered to the sealing plugs 20 by adhesive. Alternatively, the sealing formworks 50 can be made of plastic materials and formed integrally with the sealing plugs. The application of the drainpipe units to the ground to be constructed mainly includes the following steps: a) inserting the bottom end of drainpipes into the soil or pre-paving the sand/macadam layer 42; b) pouring concrete 41 on the ground; and c) removing the sealing formworks 50 (as shown in
Further refer to
Accordingly, when the a great amount of rain permeates into the vertical overflow duct 70, the overflowed rain in the macadam base 43 may be drawn deep into the underground or the groundwater stratum quickly, and if the collected water is too much, the filtered water will flow upward to the water reservoirs of different depth through to the vertical overflow duct 70, and be stored in the shallow level water reservoir 72 or the deep level water reservoir 73 for future use. Each water reservoir is connected to the ground surface by a water-drawing pipe 75 and provided on the outlet end of the water-drawing pipe a cap 76 which may have air-vents 76a for ventilating air out of the water reservoirs.
Therefore, when a great amount of rain accumulates in an area, it can be drained into the underground by the drainpipes, and permeates into the soil by the permeable flooring according to the invention, so as to prevent the city from floods and the groundwater stratum from dry up, as well as the stratum from sagging. Furthermore, the groundwater can be drawn into the overflow duct and stored in the water reservoirs for future use, for example, when in draught, the stored water can be drawn to the ground surface by the drawing pipes. And as the macadam base properly absorbs the rain to reach certain water content, the heat island effect can be prevented.
Also, as the intakes 64 on the water collecting cap 63 might be blocked after a period of time, a dredging pipe 67 with a upper cap 68 may be extended along the inner side of the upper vertical overflow duct 70a and above the water collecting cap 63, so that when in maintenance, the worker may remove the upper cap 68, insert a high pressure water injecting hose and flush the dredging pipe 67 with high pressure water. As the dirt blocked in the outlets 66 of the dredging pipe 67 has been flushed away, the permeation of the overflow duct can be ensured.
To achieve better water drawing, the space between the vertical overflow duct 70a and the dredging pipes 67 can be left empty as a well pipe deep into the ground without filling in any filtering stones or other artificial permeable materials such that the water can be lead quickly.
Again refer to
Besides, overflows 73b may be provided on the upper level of the deep level water reservoir 73a, so that the water can overflow to supplement the groundwater resource.
As shown, the embodiments according to the invention may alternatively have short conduits 77 which may be connected to drainpipe 75 to have the same function of water drawing.
As shown in
Concluded above, the present invention, after completing the construction, can achieve the following advantages:
Concluded above, the present invention discloses a water resource recycling system with environmental permeable concrete flooring constructed in a planned way and efficiently. The system may prevent the city from floods and heat island effect, as well as the lack of water resource in draught. In addition, the water stored in the water reservoirs can be used in secondary utility such as fire distinguishing, watering road trees, maintaining roads, cleaning, the environment, serving engineering need, etc. In view of the novelty and environmental concept embraced by the present invention, as well as the value applicable to the filed, the inventor claims the invention as specified in the following claims.
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3667236 | Rosene | Jun 1972 | A |
3837168 | Alsberg et al. | Sep 1974 | A |
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Number | Date | Country | |
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20040099414 A1 | May 2004 | US |