The present invention generally relates to a method for manufacturing geologic gradation featuring disaster prevention and ecologic function, and more particularly to the formation of an underground ecologic gradation layer in or under surface paving of a road, a yard, or a vacant land, whereby when rainwater falling on the ground surface above the gradation layer permeates downward, the rainwater can be effectively and efficiently conducted into and preserved in the gradation layer for storing and preserving water in a short period, reducing the risk of flooding and providing an excellent propagation environment for microbial strains and protozoa inhabiting in earth, thereby helping maintaining soil wet and thus realizing regulation of temperature and humidity of the surroundings and improving quality of earth.
As the soil has the function of absorbing water, and can vaporize humidity when contacting the atmosphere in a dry or hot environment to generate a heat exchange effect with the atmosphere, and may automatically regulate the humidity so as to avoid the occurrence of heat island effect.
For conventional techniques of underground gradation, it is common to use engineering gradation materials for road construction or the on-site earth, including aggregates, soils, or gravels, or a mixture of water permeable concrete for filling. Although this allows for permeation of rainwater therethrough and the gradation layer serves as a support for the upper-side paving, yet in case of extremely heavy precipitation on the ground surface of such a conventional gradation structure, the conventional gradation layer is not capable of quickly draining the rainwater, leading to significant accumulation of rainwater on the ground surface and thus causing flood disasters.
Formation of an ecologic gradation layer that allows for effective water permeation and water preservation is of vital importance. This is because proper water preservation will help improving earth ecologic environment and this creates a beneficial survival environment for microorganisms and earth protozoa inhabiting in earth. The microorganisms inhabiting in earth generally include bacteria (eubacteria and archaea), fungi (filamentous fungi and yeasts), and algae. The earth protozoa include for example amoeba and ciliates. There are a huge number of ciliates existing in earth, and they make a great contribution for decomposition of organic substances. Insects, including ants, centipedes, aphids, and mites, help moving soils or digests residual body portions of organisms and thus providing organic substances. Earthworms may help formation of soil pellets, which are good for air ventilation and water draining. Nematodes help digesting organic matters or other small creatures. There are also vertebrates inhabiting in earth, such as mice, which dig and loosen soil, and provide excrements for fertilizing earth. They are also a member of an underground food chain.
Earth microorganisms play an important role in keeping quality of earth, and also cast significant influence for the environment of the Earth. The existence of earth organisms is a vital factor for change and quality of earth environment.
In view of the above discussed issue, the present invention aims to provide a method for manufacturing geological gradation layer featuring disaster prevention and ecologic function, which converts an underground gradation layer into an ecological gradation layer to activate organic substances contained in soil and improve global warming problem.
Thus, an objective of the present invention is to provide a method for manufacturing geological gradation layer featuring disaster prevention and ecologic function, which allows rainwater permeating downward from surface paving to be efficiently collected and preserved, in order to reduce the risk of flood disasters and to make replenishment for underground water resources that help supplying water in a draughty period.
Another objective of the present invention is to provide a method for manufacturing geological gradation layer featuring disaster prevention and ecologic function, which upgrades an underground gradation layer into an ecological gradation layer, which ensures high water content so that when the outside temperature gets high, water contained in the gradation layer is converted into vapor to be released to the atmosphere in order to regulate surrounding temperature and humidity and thus eliminate or alleviate heat island effect and improve the global warming problem.
A further objective of the present invention is to provide a method for manufacturing geological gradation layer featuring disaster prevention and ecologic function, which allows the underground soil to provide an excellent inhabiting environment for a large number of microorganisms and earth protozoa, whereby with the microorganisms and the protozoa being effectively cultured and an excellent propagation environment being formed, the microorganisms and protozoa inhabiting in earth may help decomposing organic substances, promoting nitrification, performing de-nitrification, activating soil, and improving earth ecologic environment.
To achieve the above objectives, the present invention provides a for manufacturing geological gradation layer featuring disaster prevention and ecologic function, which uses on-site earth or engineering gradation materials commonly adopted in road construction, including aggregates, soils, gravels, or a mixture of water permeable concrete, and most importantly, added with uniquely arranged hollow bodies to form an ecological gradation layer. The ecological gradation layer provides an effect of supporting ground surface and also provides the functions of water storage, water preservation, and improving earth, whereby earth microorganisms and earth protozoa may establish a beneficial survival environment in earth, making the gradation layer exhibiting the characteristics of high water content and prompting breeding of microorganisms. When the temperature of the atmosphere gets high, water contained in soil may be released as vapor to alleviate the heat island effect and when rainwater precipitates, the rainwater can be collected and stored for use in draughts, thereby reducing the risk of flooding.
The foregoing objectives and summary provide only a brief introduction to the present invention. To fully appreciate these and other objects of the present invention as well as the invention itself, all of which will become apparent to those skilled in the art, the following detailed description of the invention and the claims should be read in conjunction with the accompanying drawings. Throughout the specification and drawings identical reference numerals refer to identical or similar parts.
Many other advantages and features of the present invention will become manifest to those versed in the art upon making reference to the detailed description and the accompanying sheets of drawings in which a preferred structural embodiment incorporating the principles of the present invention is shown by way of illustrative example.
The following descriptions are exemplary embodiments only, and are not intended to limit the scope, applicability or configuration of the invention in any way. Rather, the following description provides a convenient illustration for implementing exemplary embodiments of the invention. Various changes to the described embodiments may be made in the function and arrangement of the elements described without departing from the scope of the invention as set forth in the appended claims.
Referring to
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The earth used in the gradation layer may comprise aggregates, soils, gravels, or a mixture of water permeable concrete, and additionally and selectively comprising other gradation materials that are of no harm to the environment. The hollow bodies 31 that show specific functions are preferably in the form of sphere, for a spherical structure is more resistant to compression stress from any direction and provides the greatest void volume in the gradation layer. However, the hollow body 31 may adopt other shapes.
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The disaster-prevention water-storage hollow body is applied by mixing the hollow bodies 31 having shelling forming through apertures 32 in the gradation layer 30, whereby in case of extremely high precipitation falling on the ground surface, when the surface paving 60 conducts the rainwater downwards, the hollow interior space of each of the hollow bodies 31 contained in the gradation layer 30 provides a space for collection of water by having water that is absorbed in the gradation layer 30 through the apertures 32 of the shells into the interior space of the hollow body, so that protection against risk of local flooding can be done in a short period. When surface water permeation is no longer in progress, with a sufficient time lapse, penetration gradually conducts the water into the underground soil stratum 20 and the underground water stratum 10. With the temporal storage of water in the disaster-prevention water-storage hollow bodies and then gradually released, the ground surface may acquire an effect of efficient water drain and replenishment of underground water resources in a short period.
The earth-improvement hollow body is constructed by depositing a carbon-contained substance 33, such as active carbon or binchotan, or an earth-improvement agent desired for improvement of local earth, in the interior space thereof With the earth-improvement hollow bodies mixed in the gradation layer, the carbon-contained substance 33 functions to absorb and activate acidifying substance or harmful substance entraining water that penetrates downward and passes through the earth-improvement hollow bodies or that contained in the surrounding soil, so as to realize improvement of earth quality.
The microorganism-culture hollow body is constructed by depositing selected microbial strains 34 in the interior space thereof to serve as an excellent culture site for a large quantity of microorganisms. With the microorganism-culture hollow bodies mixed in the gradation layer, microorganisms can be effectively cultured and an improved environment for propagation is provided. The earth microorganisms so cultured can help decomposing organic substance contained in the soil, prompting nitrification, performing de-nitrification, and improving ecological environment of earth.
The water-keeping hollow body is constructed by filling a water absorption substance 35 in the interior space thereof, such as sponge or other water absorptive materials that are not decomposable by microorganisms, so that when the water-keeping hollow bodies are mixed in the gradation layer, the water absorption substance 35 helps to absorb water when water flows through the hollow bodies so as to keep water from flowing away from the earth that ensures sufficient supply of water for survival and propagation of microorganisms and also improving water preservation and increasing water content in dry area. In case of high temperature on the ground surface, the high content of water in the earth allows water to be converted into vapor that is then released to the environment for heat exchange with the environment so that the heat island effect can be eliminated or alleviated.
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In summary, the gradation layer according to the present invention is effective in collecting and storing rainwater that falls on and permeates downward through ground surface into the gradation layer, where the gradation layer, when being saturated with the rainwater, guides the rainwater through the apertures formed in shells of the hollow bodies into the bodies to be stored therein. As such, the water so stored can be supplied for survival of earth microorganisms and earth protozoa in time of earth being dried. Further, regulation of temperature and humidity through the underground water can be realized especially in a dried area to maintain living of plants and prevent desertification. In hot time, the wet earth can release vapor to the atmosphere for regulating the temperature of the atmosphere. As such, a method for manufacturing geological gradation featuring disaster prevention and ecologic function is provided.
It will be understood that each of the elements described above, or two or more together may also find a useful application in other types of methods differing from the type described above.
While certain novel features of this invention have been shown and described and are pointed out in the annexed claim, it is not intended to be limited to the details above, since it will be understood that various omissions, modifications, substitutions and changes in the forms and details of the device illustrated and in its operation can be made by those skilled in the art without departing in any way from the spirit of the present invention.
Number | Date | Country | Kind |
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099130439 | Sep 2010 | TW | national |