KR20060092503A - Method for repairing the swept away parts of the concrete structure - Google Patents

Abstract

 The present invention is a method for filling a foamed polyurethane and crushed stone in the lost portion instead of concrete or mortar, the polyurethane is filled in the ground of the floor with the lost portion to form a reinforcement layer, and bonded to the concrete structure floor layer, protective wall And providing a method of alternately filling the crushed stone and the polyurethane on the polyurethane-filled reinforcing layer after the reinforcing layer is made.

 Polyurethane, lost part, firewall, concrete structure, reinforcement layer, polyurethane layer, crushed stone layer, ground

Description

 METHODE FOR REPAIRING THE SWEPT AWAY PARTS OF THE CONCRETE STRUCTURE}

 1 is a schematic longitudinal sectional view showing a state of a missing portion to which the method of the present invention is applied;

Figure 2 is a schematic enlarged longitudinal sectional view showing a method for repairing a lost portion in accordance with an embodiment of the present invention.

 U.S. Patent 3,878,686

 Japanese Patent Laid-Open No. 9-228371

 Japanese Patent Laid-Open No. 11-323904

 The present invention relates to a concrete structure, in particular to a concrete structure for protecting and using the ground adjacent to the river or the sea, and more particularly, the long-term exposure to river and sea runoff and waves The present invention relates to a method of repairing a lost portion formed by damage to the ground.

One prior art for repairing such lost parts is disclosed in US Pat. No. 3,878,686. This prior art provides controlled feeding and mixing of polyurethane foam forming components, such as isocyanates and polyols, and swelling agents, such as compressed or liquefied fluorocarbon gases, to pre-expand the foam forming components in the voids, and to provide a fluid tight bubble. A foaming grouting method for underground filling in which a foam foam material is formed and then the fluid foam material is released into the voids to fill the voids before the foam material is gelled (gelled).

This method has the disadvantage that not only complicated equipment must be mobilized but also expensive filling materials are introduced. In particular, such a prior art is not suitable as a method for repairing the lost part of the concrete structure in which the flow of the river or sea water flows in and out.

Another prior art is disclosed in Japanese Patent Laid-Open No. 9-228371.

This prior art involves the process of drilling a small hole in the ground near the government of the cavity in the ground, and filling the majority of the cavity in the ground by feeding soil into the small hole, and in the small hole, Feeding the coagulant slurry to be filled to fill the rest of the cavity into the ground; and, if necessary, feeding the precipitated neutral granular aggregate from the small holes and mixing the same into the coagulating slurry; It is a technique to sequentially perform the process of solidifying and stabilizing the filling of the cavity.

This conventional technology not only has a relatively long construction period such as supplying soil and pour water, but also may cause environmental pollution due to leakage of filling materials such as cement, thereby repairing lost parts of concrete structures in rivers and beaches. It is not suitable as a method of construction.

Another prior art is disclosed in Japanese Patent Laid-Open No. 11-323904.

This conventional technique is a method of filling underground cavities, which includes a process of drilling a small hole from the ground near the government of an underground cavity, a flowable filler including aggregate and fluidized fire, or aggregate and a coagulant slurry from the small hole. Filling the basement cavity by charging an aggregate or a foamed coagulation slurry from the small hole, and curing the stabilization of the filling in the basement cavity and simultaneously It includes the process of integrating a porous solid.

This prior art is a modification of the above-described Japanese Patent Laid-Open No. 9-228371, which also has a long construction period and no countermeasures against environmental pollution, and thus is not suitable as a method for repairing the lost part of a concrete structure.

 It is an object of the present invention to solve the above problems of the prior art and to provide a method for repairing the lost part of a concrete structure quickly and robustly while consuming minimal polyurethane at a simple and low cost.

Another object of the present invention is to provide a method for constructing a construction without environmental pollution in addition to the above object.

 The present invention relates to a method for repairing a lost portion formed in a concrete structure, comprising: conducting underground structure exploration to discover a lost portion, or investigating the state of the lost portion by a person or equipment entering or exiting through an entrance hole or an opening of the lost portion; Preparing a material necessary for repairing the lost portion based on the irradiated state and observation data of the soil around the lost portion; Excavating a hole having a thickness equal to or greater than the thickness of the concrete structure and having a predetermined depth on the ground facing the bottom of the concrete structure; Forming a bottom layer by foaming polyurethane under the horizontal direction of the protrusion of the concrete structure; Polyurethane is foamed into a rock or gap formed at the bottom of the hole below the ground, and the polyurethane is filled up to the upper level of the hole to form a base of the barrier wall, and the barrier is installed while the polyurethane is continuously foamed to install the barrier wall. Sealing the part; Forming a reinforcing layer having a predetermined thickness by foaming and applying polyurethane on the ground, the bottom layer, and the protrusion, except for the ground positioned at a predetermined depth in the surface to reinforce the stale soil; Injecting crushed stone through the plurality of injection holes on the reinforcing layer, injecting polyurethane with a constant thickness thereon, and injecting the crushed stone through the plurality of injection holes not infused with the crushed stone and the polyurethane; Injecting and foaming the polyurethane back into the space between the lower road and the crushed stone / polyurethane layer to form a road support layer; And closing the access holes and the plurality of injection holes formed on the road with asphalt or cement.

According to another aspect of the present invention, in addition to the above-described configuration, the polyurethane is applied to the entire surface of the security barrier to form an adhesive layer, and a known polyurethane finishing material that can harmonize with the surrounding color. Applying a coating agent to form a protective layer of the barrier, wherein the method comprises a method for repairing the lost portion formed in the concrete structure.

According to another aspect of the present invention, in addition to the above configuration, it consists of a method for repairing the loss portion formed in the concrete structure further comprising the step of drying the loss portion.

Preferred Embodiments for Carrying Out the Invention

Hereinafter, preferred embodiments of the present invention will be described with reference to FIGS. 1 and 2.

FIG. 1 illustrates a loss part 20 formed between a concrete structure and various ground surfaces, which are various concrete structures, and the loss part 20 is a ground 10 on the bottom surface of a concrete structure 50 of a river or sea. ) Is formed on the ground 10 in the interior of the concrete structure 50 (these loss portion is not necessarily limited to the loss portion of the concrete structure of the river or the sea, the loss portion existing in all concrete structures on the ground Concept). In order to maintain the concrete structure 50 on the ground 10, a protrusion 60 protruding inwardly from the bottom of the concrete structure 50 is integrally formed. However, this is not installed in all concrete structures. The reference numeral 30 is the ground surface, and the reference numeral 40 is an artificial building such as a road installed on the concrete structure 50.

In this embodiment, the material mainly used to repair the lost portion 20 is a crushed stone, such as polyurethane and gravel. This polyurethane has the property of hardening quickly, and can maintain rapid workability and airtightness in field construction.

The repairing method of the loss part 20 will be described with reference to FIG. 2.

In order to find the lost part 20, underground structure exploration is performed, and an entrance hole 70 through which a person or equipment can enter and exit the road 40 is opened, and a person and equipment enter and exit the lost part 20. Investigate the condition.

And the material required for repair of the loss part 20 is prepared.

The ground 12 under the concrete structure 50 excavates the hole 12 to a predetermined depth. This constant depth is preferably a depth above the rock layer in order to strengthen the foundation. This is also to form the base 13 for reinforcing and laying the concrete structure 50. Moreover, although the thickness of the hole 12 is shown to be the same as the thickness of the concrete structure 50 in FIG. 2, it is also preferred to make the foundation stronger by making it thicker than that thickness.

Thus, the hole 12 to form the base 13 is to foam the polyurethane on the rock to secure the barrier 64 to the bottom of the existing concrete structure 50 and the rock integrally.

In addition, the bottom of the protrusion 60 of the concrete structure 50 in the horizontal direction to foam the polyurethane to form a bottom layer 11 to support the protective wall 64 to be installed later from the inside strongly.

By filling the hole 12 with a polyurethane mixed with a foaming agent that causes a polyurethane to foam when a predetermined time elapses in a rock formed in the bottom of the hole 12 and the gap, and foaming the mixed polyurethane, Filled to the top level of the hole 12 to build the base 13 of the barrier wall 64, and mixed with the other blowing agent capable of instantaneously foaming the polyurethane into the polyurethane, and subsequently the base 13 ), Stacking while foaming the polyurethane until it comes into close contact with the bottom surface of the concrete structure to the same thickness as the existing concrete structure 50, against the flow of waves and the like to the protective wall (64) The loss part 20 is completely sealed.

 Here, the polyurethane has a property that can be adhered to the concrete or polyurethane with a high strength, it is integrated into the bottom layer 11 of the lower portion of the concrete structure 50 and built in the previous process.

In addition, the polyurethane is in a liquid state at the time of filling, and if a known blowing agent is added, it is foamed and cured as time passes. That is, when a foaming agent for foaming after a predetermined time is mixed with the polyurethane in the liquid phase, a chemical reaction occurs and foams and expands after a predetermined time, and after a predetermined time, curing becomes. After mixing the polyurethane in the liquid phase and the blowing agent to foam after a predetermined time, and filling the mixture into the hole 12, the mixture flows into the rock or crevice in the hole 12 in the liquid state When a predetermined time elapses, a chemical reaction occurs in the mixture, and a foaming action occurs. The base 13 of the barrier wall 64 expands in volume while being integrated into the rock or crevice. Will be built. The base wall 13 installed in this way has a base 13 integrated with the rock or stone, the upper portion of which is adhered to the bottom surface of the existing concrete structure with high adhesion, and the bottom surface thereof is formed by the bottom layer 11. Because it is supported, even if it is impacted by river runoff, sea waves or high water, seawater cannot penetrate between the existing concrete structure and the upper part of the barrier wall, and seawater penetrates between the base 13 of the barrier 64 and the rock or stones. In the state that can not be stably maintained on the ground (10) in the standing posture.

Polyurethane adhesive is applied to the entirety of the barrier wall 64 to form an adhesive layer 61, and a known coating agent that is a polyurethane finishing material that can be harmonized with the surrounding color on the adhesive layer 61, It is applied to a predetermined thickness to form a protective layer 62 of the barrier wall (64).

The known coating agent has the property of blocking ultraviolet rays and being elastically resistant to external impact, thereby protecting the polyurethane barrier 64 from ultraviolet rays, thereby increasing the durability of the barrier 64, Protect the barrier 64 from external impact.

When the bottom layer 11 and the barrier wall 64 is completed in this way, the moisture of the lost part 20 is removed. That is, it is preferable to remove moisture using a known dryer in order to further ensure the adhesiveness during the polyurethane filling described below.

Then, in order to reinforce the stagnant ground 10, except for the ground 10 located at a predetermined depth, preferably 300 to 400 mm, in the downward direction from the index 30 (except for the part later made of polyurethane Filled), on the ground 10, on the bottom layer 11, on the protrusions 60, foamed and applied to form a reinforcement layer 53 having a predetermined thickness, and then the back surface of the concrete structure 50 When visible, the polyurethane is foamed and applied to the inside except the back surface of the concrete structure 50 located at a predetermined depth, preferably, 300 to 400 mm in the downward direction from the ground surface 30, and a reinforcement layer having a predetermined thickness ( 53) to form a substantially V-shape as a whole.

Here, the polyurethane is in a liquid state at the time of application, and when a known blowing agent is added, it is foamed and cured as time passes.

After a certain period of time, a chemical reaction occurs in the mixture, which causes foaming to occur, digging into the cracks of the ground 10, the bottom layer 11, the protrusions 60, and the cracks of the concrete structure 50. On the ground 10, on the bottom layer 11, on the protrusions 60, and inside the concrete structure 50, the volume of the reinforcement layer 53 is formed, integrating with the high adhesive force of polyurethane, resulting in insolvency Reinforce the ground 10, the protrusion 60, the bottom of the concrete structure 50, and the concrete structure 50.

On the reinforcing layer 53, crushed stone, such as gravel, is preferably injected into a mountain shape through the plurality of filling holes 80. At this time, in order to inject the crushed stone in the acid shape, it is preferable to inject the crushed stone by crossing the plurality of filling holes 80 one by one. After the crushed stone is stacked to form a crushed stone layer 52 at a predetermined height, the polyurethane layer 51 is formed by injecting a polyurethane into a plurality of filling holes 80 into which the crushed stone is injected. At this time, as shown in FIG. 2, it is preferable that the polyurethane layer 51 is in contact with the polyurethane layer 53. This has the advantage of maintaining the crushed stone layer 52 firmly in a trust shape, but the present invention is not limited thereto in shape.

Then, the crushed stone is again injected to a certain height through the holes 80 other than the hole 80 injected as described above, and the polyurethane is filled in the valleys of the crushed stone again and fills all of the road below. This is for filling the loss part 20 solidly, saving the expensive material polyurethane. However, the present invention is not limited to this, and any injection method or injection shape can be used.

Finally, the access hole 70 and the plurality of filling holes 80 formed in the road are finished with asphalt or cement to restore the road to its original state.

As described above, the present invention has been described through the embodiments, but the present invention may be modified and modified in various ways other than these, and in particular, the loss parts may be repaired by appropriately changing the order of the above-described embodiments, and these modifications and modifications are included in the appended claims. Obviously, it belongs to the scope of the present invention described in.

 According to the present invention, it is possible to repair the lost part of the concrete structure quickly and inexpensively, and furthermore, by preventing the environmental pollution of the river or the sea during construction, it can exhibit an excellent effect on the conservation of the environment, such as the workplace of farmers and fishers adjacent to the river or the sea. It has a superior effect on protection.

Claims (3)

 As a method of repairing the lost portion formed in the concrete structure, Conducting an underground structure exploration to discover the lost part, or investigating the state of the lost part by accessing a person or equipment through an entrance hole or an opening part of the lost part; Preparing a material necessary for repairing the lost portion based on the irradiated state and observation data of the soil around the lost portion; Excavating a hole having a thickness equal to or greater than the thickness of the concrete structure and having a predetermined depth on the ground facing the bottom of the concrete structure; Forming a bottom layer by foaming polyurethane under the horizontal direction of the protrusion of the concrete structure; Polyurethane is foamed into a rock or gap formed at the bottom of the hole below the ground, and the polyurethane is filled up to the upper level of the hole to form a base of the barrier wall, and the barrier is installed while the polyurethane is continuously foamed to install the barrier wall. Sealing the part; Forming a reinforcing layer having a predetermined thickness by foaming and applying polyurethane on the ground, the bottom layer, and the protrusion, except for the ground positioned at a predetermined depth in the surface to reinforce the stale soil; Injecting crushed stone through the plurality of injection holes on the reinforcing layer, injecting polyurethane with a constant thickness thereon, and injecting the crushed stone through the plurality of injection holes not infused with the crushed stone and the polyurethane; Injecting and foaming the polyurethane back into the space between the lower road and the crushed stone / polyurethane layer to form a road support layer; And And closing the access holes and the plurality of injection holes formed on the road with asphalt or cement.  The protective film according to claim 1, wherein an adhesive layer is formed by applying an adhesive for polyurethane on the entire surface of the security barrier, and a known coating agent, which is a known finishing material for polyurethane, can be harmonized with the surrounding color. A method for repairing a lost portion formed in a concrete structure, further comprising the step of forming a protective layer.  The method of claim 1 or 2, further comprising the step of drying the lost portion.

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