JP2005036568A - Bed protection/retaining wall structure - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide bed protection/retaining wall structure excellent in stable sitting efficiency and, at the same time, displaying purificatory action while ensuring priority in coupling joint efficiency to make more gentle to nature. <P>SOLUTION: Four sheets of cast iron-made plane frame 12 having a large number of openings are connected to each other to form a rectangular cage frame 10 with a predetermined height and, at the same time, a space 22 formed inside of the cage frame 10 is filled with a porous block body 24 as a filler forming a ceramics waste as a main raw material. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a revetment / retaining wall structure, and in particular, is used by being placed on a river shore or bottom of a river, and prevents shoreside or riverbed excavation to revet or revet a seafood or to inhabit seafood. It relates to a floor / retaining wall structure that gives place.

  Conventionally, riverbanks and floors, roads, land developments, mountainsides, etc. have been equipped with revetments or retaining walls to protect slopes and shoulders on revetments, roads, land developments, etc. It is provided as a soil stop for the purpose of consolidation, prevention of piers and abutments, or restoration of disasters and landslides, etc. It is constructed for various uses such as dams for construction and forestry construction, and fishing reefs.

  And as such a guard floor or a retaining wall structure, various things have been proposed conventionally, for example, in JP, 5-272118, A (patent documents 1), on a concrete foundation, A wood subsidence structure in which a wooden frame made of wooden caskets is integrally attached has been proposed. In addition, it has been clarified that the inside of such a wooden frame can be provided with a place of habitat for seafood by filling stones of various sizes such as chestnuts and crushed stones. Furthermore, it is said that the foundation concrete block is used, so it sits well, and because it is in close contact with the bottom of the river, it is said that it is effective in preventing scouring of the bottom of the river. Was difficult.

  On the other hand, JP 2000-64248 A (Patent Document 2) forms a hollow frame body by connecting a plurality of cast iron flat frames each having a plurality of openings, and the inside of the hollow frame body. A cage frame for a cast iron revetment or the like having a structure in which a filling space for crushed stone or cobblestone is formed has been proposed. And since the cast iron plane frame is used there, it is recognized that the strength of the cage frame can be remarkably increased and the stability and connectivity are also excellent.

  However, in any of the publications, the main focus is on the structure of the frame body, and the details of the filling material that is filled in the frame body have not been studied yet, and it has not been improved. There was room for. In particular, in recent years, river banks and riverbeds have been maintained with concrete for the purpose of revetment, etc., so the natural cleansing action of natural rivers has hardly functioned. The problem is that river pollution is increasing.

JP-A-5-272118 JP 2000-64248 A

  Here, in view of such circumstances, the present inventors have conducted various studies, and as a filling material, the use of a porous block body made of ceramic waste as a main raw material has an advantageous river purification effect. The present inventors have found that it can be improved and have completed the present invention.

  Accordingly, the problem to be solved by the present invention is that it is excellent in stable settling properties, and exhibits a purifying action while ensuring superiority in connection and workability or workability, and is more gentle in nature. To provide a wall structure.

  In order to solve the above-described problems, the first aspect of the present invention is to provide a plurality of cast iron plane frames having a plurality of openings and having a porous shape, and corresponding sides thereof. Using a cage frame of a predetermined height obtained by connecting at the part, in the space formed inside the cage frame, as a filling material, a porous block body formed using ceramic waste as a main raw material, The floor / retaining wall structure is characterized by being filled.

  Moreover, according to the 2nd aspect in the floor protection / retaining wall structure according to this invention, what is exhibiting columnar shape, cylindrical shape, or ball shape as said porous block body will be used advantageously.

  And according to the first aspect described above of the present invention, from the point where a block body having innumerable pores is employed as the filling material, compared to the case of using conventional crushed stones, etc., the river Thus, the purification action can be advantageously improved.

  That is, since the porous block body used in the present invention has innumerable pores, it acts like a filter, and pollutants such as organic substances existing in the river are removed from the river water. Adsorbs without blocking the flow. As a result, more pollutants are decomposed by bacteria or the like than before, and the river purification action is advantageously improved.

  In addition, since the porous block body is formed mainly from ceramic waste materials such as food and drinks and tiles, the porous block body itself does not become a pollution source that pollutes rivers, and moreover, industrial waste It is also possible to realize recycling of ceramic waste.

  Moreover, since such a porous block body is lighter than crushed stone or the like, it has the disadvantage that it is difficult to settle in rivers and is easily washed away. Since the inside of the height cage frame is filled as a filling material, such a drawback can be advantageously eliminated, and river purification can be advantageously achieved.

  In addition, since the cage frame filled with the porous block body as described above is made of cast iron, the iron and minerals eluted from the cast iron contribute to the production of animal and plant plankton and the growth of underwater plants and seafood. It works effectively, promotes the creation of a biotope space, and is friendly to nature. Further, the cast iron cage frame is sufficiently heavy so that, when the floor protection / retaining wall structure is installed, stable sinking can be realized. Since the cage frame is obtained by connecting a plurality of cast iron flat frames, the cage frame also has a feature that it is excellent in connection and connectivity and further in workability.

  Further, in the second aspect of the present invention, since a porous block body having a curved surface is used, a gap is formed between the block body and the block body when filling the inside of the cage frame. Is done. This void makes it easier for bacteria and the like to adhere to the porous block body, the purification action can be further improved, and a fishway is also formed, thereby creating a biotope more advantageously.

  Hereinafter, in order to clarify the present invention more specifically, the structure of the floor protection / retaining wall structure according to the present invention will be described in detail with reference to the drawings.

  First, FIG. 1 schematically shows one basic embodiment of a cage frame in a floor / retaining wall structure according to the present invention in a perspective view.

  In FIG. 1, a cage frame 10 is composed of four pieces of a cast iron flat frame 12 obtained by using a material such as ductile cast iron, and these are rectangular cage frames having a predetermined height. Thus, they are assembled by butting at their corresponding sides and connecting their butting corners here with bolts 14. In addition, each flat frame 12 made of cast iron has a lattice shape by providing a plurality of rectangular openings 16 penetrating in the thickness direction of the plate surface in a rectangular cast iron plate to form a porous shape. It is formed as a flat panel exhibiting the framework structure. In addition, an iron spread preventing member 18 is bridged between two plane frames 12 and 12 at the upper part of the cage frame 10 and fixed with bolts 20. The cage frame 10 is prevented from being deformed by these two spread preventing members 18, 18.

  As described above, in the cage frame 10 shown in FIG. 1, the cast iron is used as a material, so that basically no components that impair the natural environment are released. Minerals are effective in the production of animal and plant plankton and the growth of underwater plants and seafood, and have a tendency to promote the creation of biotope space, and are therefore friendly to nature. Further, the cast iron cage frame 10 as a whole is heavy, so that when it is installed, the cage frame 10 can be stably settled, and is sufficiently excellent in mechanical strength and highly robust. Is secured.

  Furthermore, since the cage frame 10 is obtained by connecting a plurality of cast iron flat frames 12, it also has a feature that it is excellent in its jointability and workability.

  Then, using such a cage frame 10, as in the conventional case, this is installed in a building place for a protective floor or retaining wall such as a river shore or floor, and a rectangular space 22 formed inside thereof. In addition, when the filling material is packed and filled, the intended floor protection or retaining wall structure is constructed.

  At this time, in the protection floor / retaining wall structure according to the present invention, a porous block body made of ceramic waste material as a main raw material is used as the filling material filled in the inner space 22 of the cage frame 10 in particular. It will be. As such a porous block body, for example, as shown in FIG. 2, a cylindrical body 24 having a cylindrical shape is advantageously used. Further, it goes without saying that the cylindrical body 24 is sized so as not to escape from the opening 16 provided in the plane frame 12 constituting the cage frame 10.

  More specifically, the above-described cylindrical body 24 is manufactured as follows, for example. That is, first, as a main raw material, ceramic waste such as eating and drinking equipment and tiles, which are industrial wastes, is pulverized to obtain coarse particles of about 1 mm to 10 mm. Since this coarse particle material is made of ceramic waste, it has a large number of pores of about 0.044 mm to 1 mm on its surface and is porous. Then, using such coarse particles as an aggregate, a small amount of a binder such as clay or glass is added thereto, and if necessary, an organic binder or an inorganic binder is added and kneaded, and then cylindrical. A porous cylindrical body 24 is obtained by molding and baking.

  The content of the ceramic waste material in the porous block body (cylindrical body 24) is not particularly limited, but preferably 60 to 90% by weight, more preferably 75 to 85% by weight, It is desirable to contain. This is because if the content of ceramic waste is reduced, it becomes impossible to produce a porous block body, and if it is too much, it becomes difficult to form a block shape.

  The raw material of the porous block body (cylindrical body 24) is an amount that does not impair the effects of the present invention as long as it does not adversely affect the environment other than the above-mentioned ceramic waste, binder, and binder. Various additives can be appropriately selected and used within the target range.

  Thus, as shown in FIGS. 3 to 5, such a porous cylindrical body 24 is filled in the inner space 22 of the cage frame 10 described above. As described above, when the floor protection / retaining wall is constructed using the porous cylindrical body 24 as the filling material, the river purification function is advantageously enhanced. Here, it goes without saying that the filling method (arrangement method) of the cylindrical bodies 24 is not limited at all, but, of course, the horizontal direction of the generatrix of the cylindrical bodies 24 is If there is an isotropy along the direction of the flow of water, water can easily pass and the flow can be adjusted freely.

  In other words, the cylindrical body 24 serving as the filling material has innumerable pores and thus has a very large surface area compared to crushed stone or the like. The cylindrical body 24 acts like a filter. As a result, more pollutants such as organic substances existing in the river are adsorbed on the surface of the particles of the cylindrical body 24 and the voids between the particles, while becoming a breeding bed for bacteria and the like. Then, the adsorbed pollutant is decomposed by bacteria or the like, washed away by running water of the river, and newly attached pollutant. By repeating this, the purification action of the river is effectively improved.

  As described above, the cylindrical body 24 is made of a coarse particle material of ceramic waste material, which is the main raw material, as an aggregate, and this is baked and hardened with a small amount of binder. It does not become a source of pollution that pollutes rivers.

  Furthermore, since such a cylindrical body 24 is obtained by recycling ceramic waste (industrial waste) that is disposed of in landfills, it has the advantage that the problem of disposal of industrial waste can be advantageously eliminated. You can do it. Moreover, since the ceramic waste is used as a raw material, it is possible to manufacture the porous body at a lower cost compared to the case of manufacturing the porous body using a raw material such as clay.

  In addition, since the above-described cylindrical body 24 is a porous body, it is lighter than crushed stone and the like, and when installed in a river as it is, it has a problem that it is difficult to be fixed and easily washed away. However, in the present invention, as the filling material, the cylindrical body 24 itself essentially has such a flow from being filled in and filling the interior 22 of the heavy cast iron cage frame 10. The ease problem can also be advantageously resolved.

  Further, in the cylindrical body 24, a space (inner hole) 26 penetrating in the axial direction is formed, and the surface is curved, so that the inner space 22 of the cage frame 10 is filled. A gap 28 is formed between the cylindrical body 24 and the cylindrical body 24. For this reason, the water of the river can easily flow into the inside of the floor protection / retaining wall structure by the voids 26 and the gaps 28, and therefore, the cylindrical body 24 is largely contaminated. Substances and bacteria are easily attached. Further, the void 26 and the gap 28 become a fishway, and a place for habitat of seafood is given.

  The exemplary embodiments of the present invention have been described in detail above. However, the embodiments are merely examples, and the present invention is limited in any way by specific descriptions according to such embodiments. It should be understood that it is not interpreted.

  For example, in the above-described embodiment, the cylindrical body 24 having a cylindrical shape is used as the filling material. However, if the porous block body is formed using ceramic waste as a main raw material, the river purification function is used. Therefore, the shape is not limited to a cylindrical shape, and the upper and lower corners of the cylinder are chamfered as shown in FIGS. 6 (a) and 6 (b). In addition to a ball shape and a rectangular parallelepiped shape, various shapes such as a rectangular tube shape, a polygonal tube shape, a spherical shape, and an elliptical spherical shape can be adopted. Note that, among other things, when filling the inside of the cage frame 10 made of cast iron, a shape that can form a gap between the block body and the block body, for example, a cylindrical shape, a cylindrical shape, or a ball shape having a curved surface If a porous block body having such a shape is adopted, contact between river water and the porous block body is increased, and a fishway is formed, making the biotope space even more advantageous. It becomes possible to create.

  In the above example, the space 22 formed inside the cage frame 10 is filled with only the cylindrical body 24 having the same shape, but it is also possible to fill a plurality of differently shaped porous block bodies. . Furthermore, it is not necessary to fill the inner space 22 of the cage frame 10 with only the porous block body, and it is possible to pack crushed stone together with the porous block body.

  Further, in FIGS. 1 and 3 to 5, the cage frame 10 is formed in a rectangular shape by four plane frames 12, and one surface of such a rectangular cage frame is formed by one plane frame 12. However, it is also possible to connect two or more plane frames to form one surface of a rectangular cage frame, an example of which is shown in FIG. 1 of Japanese Patent Application Laid-Open No. 2002-201656. Has been. Further, as a cage frame, not only a configuration using a single rectangular cage frame, but also a plurality of rectangular cage frames are integrally configured adjacently as shown in FIG. There is no problem even if it has a structure.

  Thus, in the present invention, the structure of the cage frame 10 as described above, the structure of the plurality of cast iron plane frames 12 constituting the cage frame 10 and the connection structure of such plane frames 12 are exemplified. It goes without saying that various known structures and systems can be adopted in addition to the structures and systems.

  Further, in the above example, the spread preventing member 18 is attached to the cage frame 10 so as to straddle between the opposed flat frames 12, 12. However, the spread preventing member 18 is used in the present invention. It is not essential.

  In addition, the material of the plane frame is not limited to the ductile cast iron as in the above embodiment, and other cast iron materials can be appropriately employed.

  In addition, although not listed one by one, the present invention can be implemented in a mode with various changes, modifications, improvements, and the like based on the knowledge of those skilled in the art. It goes without saying that all are included in the scope of the present invention without departing from the spirit of the invention.

  Hereinafter, representative examples of the present invention will be shown to clarify the present invention more specifically, but the present invention is not limited by the description of such examples. It goes without saying.

-Production of porous block-
Defective products such as tiles and eating utensils from tile factories and ceramic factories were collected and crushed. Then, sieving was carried out, and a part of the fine particle material of less than about 1 mm was reused as a tile material and the like, while a coarse particle material of about 1 to 10 mm was obtained as the main material of the porous block body.

  In addition, as other raw materials, feldspar and clay-like materials that were not applicable to the product were pulverized to 0.5 mm or less after drying.

  Then, 5 parts by weight of water was added to the mixture of the coarse particles of ceramic waste: 80 parts by weight, pulverized feldspar: 10 parts by weight, clay: 10 parts by weight, and caking additive: 0.5 parts by weight. Kneaded and molded into a flat plate shape of 230 mm square × thickness: 50 mm using a molding machine, and after drying, this is tunnel kiln, maximum temperature: 1250 ° C., kiln internal time: 80 hours required Then, firing was performed to prepare a porous block body.

  The water permeability coefficient, compressive strength, porosity, and average pore diameter of the obtained porous block were measured, and the results obtained are shown in Table 1 below.

  Moreover, using the obtained porous block body, the auxiliary | assistant ability of the purification | cleaning effect | action by this block body was test | inspected as follows.

<Measurement of NH ₃ -N (ammonia odor)>
Two tanks are prepared, one tank containing only the Takada River (Tajimi City, Gifu Prefecture), while the other tank contains the Takada River wastewater and the porous block obtained above. Contained the body. Then, after introducing 17 hours air to the two water tank, performs in a conventional manner to measure the NH ₃ -N (ammonia odor), the results obtained are shown in Table 2 below.

<Measurement of chemical oxygen demand (COD)>
Two tanks are prepared, one tank containing only the Takada River (Tajimi City, Gifu Prefecture), while the other tank contains the Takada River wastewater and the porous block obtained above. Contained the body. Then, COD was measured according to a conventional method, and the obtained results are shown in Table 2 below.

As is apparent from the results in Table 2, when the porous block body is used, NH ₃ —N (ammonia odor) and COD are effectively reduced. For this reason, it is considered that the porous block body contributes to the purification of water quality, and in the protection floor or retaining wall filled with such a porous block body, the purification function of the river is efficiently enhanced. It becomes possible.

It is a perspective explanatory view showing a basic example of a cage frame in the floor protection / retaining wall structure according to the present invention. It is explanatory drawing which shows an example of the porous block body used in the floor protection / retaining wall structure according to this invention. FIG. 3 is a front view showing an example of a floor protection / retaining wall structure according to the present invention in which a space inside the cage frame shown in FIG. 1 is filled with a plurality of porous block bodies shown in FIG. 2. FIG. 4 is a side view of the floor protection / retaining wall structure shown in FIG. 3. FIG. 4 is a plan view of the floor protection / retaining wall structure shown in FIG. 3. (A) And (b) is explanatory drawing which shows another example of the porous block body used in the floor protection / retaining wall structure according to this invention, respectively.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Basket frame 12 Plane frame 14,20 Bolt 16 Opening 18 Expansion prevention member 22 Space 24 Cylindrical body (porous block body)
26 void (inner hole)
28 Air gap

Claims (2)

  Using a cage frame of a predetermined height, which is obtained by connecting a plurality of cast iron flat frames in a porous form by providing a large number of openings at their corresponding sides, formed inside the cage frame. A protective floor / retaining wall structure characterized by filling a porous block body made of ceramic waste as a main raw material in the space to be filled. The floor protection / retaining wall structure according to claim 1, wherein the porous block body has a columnar shape, a cylindrical shape, or a ball shape.

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