KR20130090596A - Eco-composite type steel temporary construction and construction method thereof - Google Patents

Abstract

PURPOSE: An environmentally friendly riverside structure and a construction method thereof are provided to prevent environmental contamination without using cement and to construct the nature friendly structure using red clay. CONSTITUTION: An environmentally friendly riverside structure comprises struts (100), sheet piles (200), and cutoff collars. The struts are embedded into a bedrock layer (R). The sheet piles are embedded to the top of the bedrock layer or into a weathered rock layer and are arranged in front of the struts. The cutoff collars are installed between the struts on the bottom of the sheet piles and are composed of cementless red clay composites. The cementless red clay composites are composed of red clay powder, quicklime, and granite soil.

Description

Eco-friendly complex riverside facility and construction method {ECO-COMPOSITE TYPE STEEL TEMPORARY CONSTRUCTION AND CONSTRUCTION METHOD THEREOF}

The present invention relates to temporary installations for temporarily constructing underground structures such as bridge foundations, underground roadways, and buffer storage tank facilities. The present invention also relates to an environment-friendly complex riverside facility and a construction method for constructing a riverside facility having a water barrier to prevent leakage.

The retaining wall is installed to prevent the penetration of water and earth and sand into the excavated interior in order to construct foundations of piers and various structures, and it is common to form a retaining wall by installing earthen boards using wooden blocks. However, the earthen board made of wood had problems such as collapse of soil wall or leakage of water as problems such as corrosion and deformation caused by water occurred over time. Techniques for forming walls have been developed.

The wall wall using the sheet pile has the advantage that the wall is solid and suitable for reuse, and that a plurality of sheet piles can be continuously connected and installed by a simple coupling structure, making it easy to manufacture and install. However, the sheet pile has a problem in that it is difficult to hit hard strata such as hard rock due to the limitation of weak stiffness.

Accordingly, the present inventors have developed the 'pier direct foundation temporary installation and construction method thereof (Patent No. 637899) in 2004. The prior art is to infiltrate the sheet pile only up to a certain portion of the surface of the rock or weathered rock, and to support the sheet pile by incorporating a strut such as an H file from the front of the sheet pile to a predetermined depth of the rock, which is a supporting layer. Characterized in that the order wall is installed around the bottom surface of the sheet pile.

Due to this, the prior art can significantly shorten the air compared to the conventional method, thereby reducing the cost of construction by more than 60%, but there is a gap between the seat pile and the prop in construction, such a gap is the seat pile There was a limit in the structural stability as the and landlords did not behave at all against earth pressure, but individually.

In order to solve the above problems, the present inventors have again developed a 'composite river construction facility and its construction method (Patent No. 0884289)'. As shown in FIG. 1, the prior art proposes a method in which a belt is installed between the support post and the seat pile so that the support pillar can firmly support the seat pile. Specifically, in order to secure the coupling between the sheet pile and the support, the seat pile and the belt are combined with the supporting member, and the support and the sheet pile are combined with the synthetic connecting member so that the sheet file, the belt and the support behave as a single structure. The structural rigidity is maximized. On the other hand, by installing a soil plate 62 between the lower end of the sheet pile and the upper end of the rock layer and the cement mortar 64 is formed between the sheet pile and the soil plate to form a water barrier wall, to have the order function for the lower portion of the sheet pile In addition, by using the strength of the cement mortar to prevent the lower end of the sheet pile is pushed forward by the earth pressure.

However, the method of forming the order wall using the cement or concrete has a problem that causes environmental problems due to hexavalent chromium, ammonia, radon and other environmental pollutants generated in the cement mortar or concrete. When cement mortar or concrete is used as the order wall, it is not easy to dismantle the order wall, so the temporary facility is often landfilled with earth and sand after the internal structure construction. Even if the order wall is removed, there is still a problem of environmental pollution due to the disposal of cement.

The present invention is to solve the problems of the prior art, in order to prevent the environmental pollution that can occur by using cement concrete mortar, without the use of cement at all, the structure of the eco-friendly composite steel structure using the clay as the main material And to provide a construction method thereof.

In addition, it is intended to provide a means to reinforce the resistance to the lower edge of the sheet pile that can be weakened by not using cement in the order wall.

In addition, it is intended to provide a means for improving the adhesion between the sheet pile and the order wall and the cohesion between the ocher composition in order to improve the function of the order wall due to cement ocher.

According to the most preferred embodiment of the present invention for solving the above problems, a plurality of struts to be entered into the rock layer, the sheet pile to be entered to the upper surface of the rock layer or a part of the weathered rock from the front of the pillar, between the strut and the strut In the composite steel structure consisting of the order wall is installed around the lower end of the sheet pile, the order wall is provided with an eco-friendly composite river facility, characterized in that the cement ocher composition.

According to another preferred embodiment of the present invention, the cementless loess composition is made of calcined lime, masato is included in the plastic processed ocher powder, eco-friendly composite steel is provided, characterized in that it does not contain cement.

According to another preferred embodiment of the present invention, the order wall is made of any one or more of the wire mesh or steel fibers, such as steel fibers, rebar, cotton fibers, nylon yarn, plastic fibers or short fibers or cut pieces such as straw, mulberry pulp, etc. It is provided with an eco-friendly composite river, characterized in that the reinforcement member is further included.

According to another preferred embodiment of the present invention, the cementless ocher composition is provided with an eco-friendly complex steel structure, characterized in that the ocher adhesive is further included.

According to another preferred embodiment of the present invention, the ocher adhesive is plastic processed ocher powder; Lacquer extract, eggshell, rosin, linseed oil, starch, glue, briquette, tar, epoxy, acrylic, ethylene vinyl acetate, polyvinyl chloride, polyvinylacetate, polybutadiene, polyvinylidene chloride, polyurethane resin Any one or more than two; Provided is an eco-friendly complex riverside facility, characterized in that formed by mixing.

According to another preferred embodiment of the present invention, there is provided an environment-friendly composite steel structure, characterized in that the composite connecting member is installed between the lower end and the support of the sheet pile.

According to still another preferred embodiment of the present invention, a method for constructing a steel structure for constructing underground structures such as a pier foundation, the method comprising: a) incorporating a pillar, which is a pillar of a retaining wall, to a rock layer; b) driving a sheet pile on one side of the strut to access the top of the rock layer or some depth of the weathered rock; c) installing a strip in the transverse direction of the support; d) installing a support member at regular intervals between the sheet pile and the strip, and installing a composite connecting member at regular intervals between the sheet pile and the support, e) the support and support for the lower end of the seat pile Installing a barrier wall made of cementless ocher composition therebetween; Provided is a construction method of an environment-friendly composite river structure, characterized in that comprises a.

According to another preferred embodiment of the present invention, in installing the composite connecting member between the seat pile and the support in step d), the composite connecting member is necessarily installed between the lower end of the seat pile and the corresponding support Provided is a construction method of an eco-friendly complex riverside facility.

According to another preferred embodiment of the present invention, the order wall is provided with a construction method of the environment-friendly composite steel structure, characterized in that by forming the cement cement loess composition by spraying.

According to another preferred embodiment of the present invention, there is provided a construction method of an environment-friendly composite steel structure, characterized in that the wire mesh reinforcement member further installed in the order wall.

According to another preferred embodiment of the present invention, before installation of the order wall, construction of an eco-friendly composite steel structure, characterized in that the ocher adhesive is applied in advance to the bottom surface of the sheet pile to be installed the order wall and the excavation surface of the rock A method is provided.

The present invention does not use the cement at all, there is no problem such as environmental pollution that can occur in the cement, etc., by using the yellow soil can form a natural friendly structure beneficial to the human body and the environment, using a higher order using ocher adhesive You can expect the effect to secure the function.

1 is a perspective cross-sectional view of a conventional composite river structure.
Figure 2 is a flow chart of the construction method according to an embodiment of the environment-friendly composite steel structure of the present invention. (a) is the step of entering the strut, (b) is the step of entering the sheet pile, (c) is excavating and installing the band, the support member and the composite connecting member, (d) is to install the earth plate Step (e) shows each step of completing the trench.
Figure 3 is a perspective cross-sectional view of the composite connecting member installed in the lower end of the seat pile in the environment-friendly composite river installation of the present invention.
Figure 4 is a perspective cross-sectional view of the embodiment using the earth plate of the form of the laminated board fixed in the environment-friendly composite river installation of the present invention.
Figure 5 is a perspective cross-sectional view of an embodiment using the structure of the earth plate that can be removed in the future environment-friendly composite river installation of the present invention.
Figure 6 is a perspective cross-sectional view of an embodiment in which the plate-shaped reinforcement member is installed on the inner surface of the order wall in the environment-friendly composite river installation of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, however, it is to be understood that the present invention is not limited to the disclosed embodiments.

Eco-friendly composite river according to the present invention, a plurality of struts (100) to be entered into the rock layer, the sheet pile 200 to be entered to the upper surface of the rock bed or a part of the weathered rock from the front of the pillar (100), the support (100) Belt strip 300 is installed in the horizontal direction of the support, the support member 250 is installed between the sheet pile 200 and the belt sheet 300, the composite connection is installed between the sheet pile 200 and the support (100) In the composite riverbed facility consisting of a member 150, and the order wall 400 which is installed between the support post 100 and the support post 100 about the lower end of the sheet pile 200, the order wall 400 Is characterized by consisting of cementless ocher composition.

As shown in Figure 2, the eco-friendly complex riverfront facility, a) the step of incorporating the strut 100 to be a pillar of the earth wall to the rock layer; b) driving the sheet pile 200 on one side of the support 100 to access the upper surface of the rock layer or a part of the weathered rock; c) installing the strip 300 in the horizontal direction of the support (100); d) Install the support member 250 at regular intervals between the sheet pile 200 and the strip 300, and the synthetic connecting member 150 at regular intervals between the sheet pile 200 and the support (100) Step of installing, e) installing the order wall 400 made of cementless ocher composition between the strut 100 and the strut 100 around the lower end of the sheet pile 200; It is made, including. In the step a), the step of incorporating the holding 100 and the step of incorporating the sheet pile 200 in step b) may be changed in order according to the conditions of the site.

The support 100 is not only to support the seat pile 200, but also to dig deep into the rock to a certain portion or more depth so as to support the entire river installation, so that the support 100 is installed in advance After drilling, insert the strut 100 and install it by hitting it. The post 100 is preferably made of H-shaped steel, but other materials capable of maintaining and forming structural strength against earth pressure may be used.

Next, a seat pile 200 is installed on an outer side surface of the support 100 (a portion where an internal construction for installing a structure such as a pier proceeds is called an inner side), and the sheet pile 200 has a thin thickness. Since the area is wide, it is difficult to perforate the rock and install the seat pile 200, but it is preferable to drive the rock to a predetermined depth, but the strength is low enough to insert the seat pile 200 deep into the rock. Install to the extent that it fits in. The strut 100 inserted into the rock more than a predetermined depth serves to support the earth wall so as not to collapse to the inner side by receiving earth pressure from the outer side of the sheet pile 200 by a trench to be described later.

After the sheet pile 200 is installed, the inner side surface of the sheet pile 200 is excavated to a predetermined depth. The support pile 100 and the sheet pile (not to be pushed out to the inner side by the horizontal load such as the earth pressure of the back of the sheet pile 200 disappears the soil pile layer supporting the inner side of the sheet pile 200 due to the trench) It is necessary to firmly fix the 200, for this purpose to install a strip 300 in the horizontal direction of the support 100, and install the support member 250 between the sheet pile 200 and the strip 300.

In order to prevent the sheet pile 200 from being pushed by earth pressure, it is preferable that the construction without spaces between the pillar 100 and the sheet pile 200 is carried out. However, the pillar pile 100 and the sheet pile 200 are in close contact with each other. It is not so easy to proceed with the construction smoothly, it is preferable to construct at regular intervals between the prop 100 and the seat pile 200 for the convenience of construction. Due to this, there is a problem that the support 100 cannot firmly support the seat pile 200, but the support 100 is installed by installing the synthetic connection member 150 between the support 100 and the seat pile 200. The sheet pile 200 may be firmly supported. That is, the support member 250 and the synthetic connecting member 150 integrally operate the sheet pile 200, the support 100, and the strip 300 to fully support the horizontal load by the earth pressure or the like on the back of the sheet pile 200. Making it possible is no different from the complex riverbed of patent 888489. However, the present invention has an important technical feature that the synthetic connecting member 150 is necessarily installed between the lower end of the seat pile 200 and the support 100.

As previously seen, the composite river structure of the above patent No. 888489 has a fixed distance between the support 100 and the seat pile 200 to install a synthetic connection member 150 to support the back earth pressure of the seat pile 200, etc. Although it is possible to transmit to the 100, the order wall 400 is installed on the front of the lower end of the sheet pile 200 and the order wall 400 is formed of cement mortar or concrete with a high compressive strength, the sheet pile 200 ) Synthetic connecting member 150 is not installed at the lower end. On the contrary, in the present invention, as shown in FIG. 3, the order wall 400 is provided by necessarily installing a synthetic connection member 150 connected to the support 100 at the lower end of the seat pile 200 on which the order wall 400 is installed. Even if there is no support force capable of supporting the back soil pressure of the sheet pile 200, the phenomenon that the bottom surface of the sheet pile 200 is pushed out by the back soil pressure is not generated. The composite connecting member 150 installed at the lower end of the sheet pile 200 is buried in the ordered wall 400 to be placed in the future, and is dedicated to the horizontal load supporting function of the sheet pile 200, so that the order wall 400 considers only watertightness. It has the effect of using the material as a wide range of eco-friendly materials.

The order wall 400 of the eco-friendly material is preferably made of cementless ocher composition. The cementless ocher composition is prepared by mixing quicklime, masato, and the like with calcined ocher, which does not add any cement.

The ocher composition may further include an ocher adhesive to increase the binding force between the particles. The ocher adhesive is plastic processed ocher powder; Lacquer extract, eggshell, rosin, linseed oil, starch, glue, briquette, tar, epoxy, acrylic, ethylene vinyl acetate, polyvinyl chloride, polyvinylacetate, polybutadiene, polyvinylidene chloride, polyurethane resin Any one or more than two; Form by mixing. The tar, such as clothes extract, eggshell, rosin, linseed oil, starch, glue, briquettes, and birch, is a material that has traditionally been used for adhesion, and includes epoxy, acrylic, ethylene vinyl acetate, polyvinyl chloride, polyvinylacetate, Polybutadiene, polyvinylidene chloride, and polyurethane resins are industrially synthesized adhesive components. Especially, lacquer extract, rosin, linseed oil, etc. are eco-friendly and can improve the water repellency and at the same time obtain the adhesive effect. Preferred as a component.

The order wall 400 made of the ocher composition may insert a reinforcement member 450 therein to improve strength. The reinforcing member 450 may be a plate-like member such as wire mesh, a fiber reinforcement such as steel fiber, wire, pieces, cotton fiber, nylon yarn, plastic fiber, or short fibers or cut pieces such as rice straw, mulberry pulp Can be used.

The order wall 400 is a non-woven fabric 600 is laid on the protruding surface portion of the support 100 and the earth plate 500 is installed on the upper surface of the nonwoven fabric 600, the earth plate 500 and the sheet pile 200, earth plate ( 500) and by forming a space between the excavation surface of the rock and then pouring the cement ocher composition into the space. In the reinforcing member 450, a plate-like member such as a wire mesh is installed in advance before placing the cementless ocher composition, and the cut pieces such as steel fiber pieces are preferably mixed in advance before the cementing ocher composition is poured.

The earth plate 500 installed on the protruding surface portion of the support 100 may be a fixed type, may be a prefabricated type that can be removed after the completion of the construction, may be formed by stacking the plate, the whole It may be a plate member. Figure 4 shows an embodiment using the earth plate 500 of the form in which the plate is laminated and fixed, Figure 5 shows an embodiment using the structure of the earth plate 500 that can be removed in the future.

The order wall 400 may be constructed by spraying a cementless ocher composition. When spraying the order wall 400, the bottom surface of the sheet pile 200 on which the order wall 400 is to be installed and the excavation surface of the rock can be applied in advance to the ocher adhesive to increase the adhesive force with the cement ocher composition. . Of course, even if the spraying method is not the ocher adhesive can be applied in advance. By mixing the waterproofing material with the ocher adhesive may further increase the order function of the order wall 400 in the future.

As shown in FIG. 6, it is preferable to install a plate-shaped reinforcement member 450, such as a wire mesh, on the inner surface of the order wall 400. The reinforcing members such as wire mesh may be installed in advance before the construction of the cementless ocher composition, or may be installed between the steps of spraying. As such, when the order wall 400 is constructed by spraying, the configuration of the earth plate 500 may be unnecessary.

It is also possible to reinforce the ground and form the rear order wall 400 by grouting the back soil of the sheet pile 200 before installing the order wall 400. In this case, the rear order wall 400 is the sheet pile 200. Since the earth pressure and the water pressure of the back side correspond primarily, the construction of the order wall 400 on the front of the sheet pile 200 by the cementless ocher composition can be carried out more easily and precisely.

As described above, the eco-friendly complex riverfront facility of the present invention is a very beneficial structure in that the underground water is not contaminated by not using cement having strong toxicity to the buried car wall 400 at all.

The present invention has been described in detail above with reference to specific embodiments, but the above embodiments are merely examples for easy understanding of the present invention, and therefore, substitutions, additions, and modifications within the scope do not depart from the spirit of the present invention. Embodiments will also belong to the protection scope of the present invention as defined by the claims below.

100: prop 150: synthetic connecting member
200: sheet pile 250: support member
300: Belt 400: Order Wall
450: reinforcing member 500: earth plate
600: nonwoven fabric S: soil layer
R: rock bed

Claims (11)

A plurality of struts 100 entered to the rock bed, the sheet pile 200 to be entered from the front of the strut 100 to the upper surface of the rock layer or a part of the weathered rock, between the strut 100 and the strut 100 In the composite steel structure consisting of a water order wall 400 is installed around the lower end of the pile 200, the water order wall 400 is an environmentally friendly composite steel structure, characterized in that consisting of cementless loess composition According to claim 1, The cement cement loess composition is an eco-friendly composite steelwork facility characterized in that the calcined ocher powder is made of quicklime, masato is included, but does not contain cement The reinforcement member according to claim 1, wherein the order wall 400 includes at least one of steel or cotton fibers such as wire mesh or steel fiber, rebar, cotton fiber, nylon yarn, plastic fiber, or short fibers or cut pieces such as rice straw or mulberry pulp. Eco-friendly composite river facilities, characterized in that further comprises 450 According to claim 2, The cement cement loess composition Eco-friendly complex river facility characterized in that it further comprises an ocher adhesive liquid According to claim 4, wherein the ocher adhesive liquid is processed ocher powder; Lacquer extract, eggshell, rosin, linseed oil, starch, glue, briquette, tar, epoxy, acrylic, ethylene vinyl acetate, polyvinyl chloride, polyvinylacetate, polybutadiene, polyvinylidene chloride, polyurethane resin Any one or more than two; Eco-friendly complex riverside facility characterized in that formed by mixing According to any one of claims 1 to 5, Eco-friendly composite steel structure, characterized in that the synthetic connecting member 150 is installed between the lower end of the seat pile 200 and the support 100. In the method of construction of a riverfront facility for building underground structures such as bridge foundations,
a) accessing the strut 100, which is a pillar of the retaining wall, to the rock layer;
b) driving the sheet pile 200 on one side of the support 100 to access the upper surface of the rock layer or a part of the weathered rock;
c) installing the strip 300 in the horizontal direction of the support (100);
d) Install the support member 250 at regular intervals between the sheet pile 200 and the strip 300, and the synthetic connecting member 150 at regular intervals between the sheet pile 200 and the support (100) Installation steps,
e) installing an order wall 400 made of cementless ocher composition between the strut 100 and the strut 100 about the lower end of the sheet pile 200; Construction method of the eco-friendly complex riverside facility characterized in that it comprises a The method of claim 7, wherein in the step d) in installing the composite connecting member 150 between the seat pile 200 and the support 100, the composite connecting member 150 and the lower end of the sheet pile 200 Construction method of an eco-friendly composite steel structure, characterized in that the installation is necessarily between the corresponding support (100) The method of claim 7, wherein the order wall 400 is a construction method of eco-friendly composite steel structure, characterized in that by forming a cement cement composition by spraying 10. The construction method according to any one of claims 7 to 9, wherein a wire mesh reinforcement member 450 is further installed inside the order wall 400. According to claim 10, Eco-friendly complex type, characterized in that the ocher adhesive is applied in advance to the bottom surface of the sheet pile 200 to be installed in the order wall 400 and the excavation surface of the rock before installing the order wall 400 Construction method of riverside facility

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