JP2010095941A - Installation method for precast pile - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method for constructing piles in the ground having a polluted layer using precast piles. <P>SOLUTION: The ground 1 includes the polluted layer 10, a non-permeating layer 20 positioned below the polluted layer 10, and a support layer 30 positioned below the non-permeating layer 20. The ground 1 is excavated until its lower part reaches the non-permeating layer 20 from the ground surface. Sediment in the excavated part is replaced with mud mortar 41, and an excavation hole 50 is formed by excavating in such a way that it passes through the mud mortar 41 and its lower end reaches the support layer 30 after the replaced mud mortar 41 is hardened. The precast pile 70 is installed in the excavation hole 50. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a method for installing an existing pile in a ground provided with a contaminated layer and a non-permeable layer below the contaminated layer.

  Conventionally, for example, as shown in FIG. 4, from the ground surface downward, a contaminated layer 10 including the contaminated soil 11, a non-permeable layer 20 such as a clay layer, a support layer 30, When the pile is driven in the ground 1 provided with the all-casing method (for example, so that the contaminated soil 11 of the contaminated layer 10 does not diffuse into the support layer 30 when excavating the ground 1 to form the excavation hole, A cast-in-place pile is constructed using Non-Patent Document 1).

That is, as shown in FIG. 5A, the casing 210 is inserted into the ground 1 so that the lower end reaches the impermeable layer 20 or a position deeper than that, and the casing 210 is excavated by the bucket 220 as shown in FIG. 5B. Then, the excavation hole 221 is drilled until the lower end reaches the support layer. Next, as shown in FIG. 5C, the rebar cage 222 is inserted into the excavation hole 221. Next, as shown in FIG. 5D, the tremely pipe is inserted into the excavation hole 221, and concrete 222 is placed in the excavation hole 221 while the casing 210 is pulled up. And the cast-in-place pile 223 can be constructed | assembled because the placed concrete 222 hardens | cures. According to this construction method, in order to excavate the inside of the casing 210, the contaminated soil 11 of the contaminated layer 10 falls into the support layer 30 through the excavation hole 221, or the contaminated water from which the contaminant contained in the contaminated soil 11 has dissolved. Can be prevented from flowing out to the support layer 30, and the diffusion of contaminants can be prevented.
Public Building Association, Building Construction Supervision Guidelines 2007 (first volume), Architectural Publishing Center, Inc. September 20, 2007, p. 251

  By the way, in recent years, in order to reduce the construction cost, it is widely used to use a built-up pile as a pile foundation, and it is desired that the built-up pile is used also in the ground including a contaminated layer. Currently, the pre-boring method using an auger machine is widely used as a method for installing a prefabricated pile, and there is also an auger machine equipped with a casing similar to the all-casing method. However, such an auger machine cannot perform excavation to the support layer while holding the casing with the lower end reaching the clay layer. For this reason, the existing pile could not be used in the ground with the contaminated layer.

  This invention is made | formed in view of said problem, The objective is to be able to install an existing pile in the ground which has a contaminated layer.

  The installation method of the existing pile of this invention is a method of installing an existing pile on the ground provided with the contaminated layer, the non-permeable layer located below the contaminated layer, and the support layer located below the non-permeable layer. And excavating the ground to a position below the upper surface of the non-permeable layer, replacing the excavated portion of earth and sand with poor cementitious material, and the substituted cementitious material comprising: After hardening, a drilling step that forms a drilling hole that penetrates the hardened cementitious material and the lower end reaches the support layer, and a pile installation step that installs a prefabricated pile in the drilling hole, It is characterized by providing.

  In the above method, in the drilling step, the ground may be excavated by a full turning excavator.

  Moreover, the installation method of the existing pile of this invention installs an existing pile in the ground provided with the contaminated layer, the non-permeable layer located under the said contaminated layer, and the support layer located under the said non-permeable layer. A soil cement pillar construction step for constructing a soil cement pillar that penetrates through the contaminated layer and has a lower end reaching below the upper surface of the impermeable layer; and passes through the soil cement pillar, the lower end of the soil cement pillar. It comprises a drilling step for forming a drilling hole so as to reach the support layer, and a pile installation step for installing an existing pile in the drilling hole.

  According to the present invention, a column body made of mud mortar or soil cement is constructed so that the lower end reaches the non-permeable layer, a drill hole is formed in the column body, and an existing pile is placed in the drill hole. Therefore, it is possible to prevent the contaminants in the contaminated layer from falling on the support layer and to prevent the contaminants from diffusing.

<First embodiment>
Hereinafter, the first embodiment of the installation method of the existing pile of this invention is described in detail, referring drawings.
FIG. 1 is a vertical cross-sectional view showing a pile installed by the installation method for an existing pile according to this embodiment. As shown in the figure, the ground 1 on which the existing piles are installed includes a contaminated layer 10, a non-permeable layer 20, and a support layer 30 from the surface downward.

  The contaminated layer 10 is a ground containing at least a contaminated soil 11 containing a contaminant. In the contaminated layer 10, there are underground faults 12 such as bedrock and existing piles.

  The non-permeable layer 20 is a non-permeable formation such as a clay layer, for example. Since the non-permeable layer 20 is interposed between the contaminated layer 10 and the support layer 30, even if the contaminant in the contaminated layer 10 is dissolved in the ground water, the ground water from which the contaminant is dissolved out is It is held in the contamination layer 10 and does not reach the support layer 30.

  In the ground pile including the contaminated layer 10 as described above, the lower end of the prefabricated pile according to the present embodiment is not diffused into the support layer 30 and the lower end is in the support layer 30. This is a method for installing the prefabricated pile 70 to reach.

Hereinafter, the installation method of the ready-made pile of this embodiment is demonstrated, referring FIG. 2A-FIG. 2E.
First, as shown in FIG. 2A, the first excavation hole 40 is drilled by the all-turn excavator 100 until the lower end reaches the impermeable layer 20, and the earth and sand in this portion is excavated. At this time, even if the underground fault 12 exists in the contaminated layer 10, the all-turn excavator 100 has the ability to cut the underground fault 12. The first excavation hole 40 can be drilled without digging up 12.

Next, as shown in FIG. 2B, mud mortar having a compressive strength of about 5 to 10 kg / cm ² when the excavated soil generated in the first excavated hole 40 by drilling the ground 1 is hardened. Replace with 41. When the substituted mud mortar 41 is hardened, a pillar body 42 made of the hardened mud mortar 41 is constructed so as to penetrate the contaminated layer 10 and reach the non-permeable layer 20 at the lower end.

  After the mud mortar 41 is hardened, a pre-made pile is installed by the pre-boring method. That is, first, as shown in FIG. 2C, the second excavation hole 50 is excavated so that the lower end reaches the support layer 30 through the column 42 by the earth auger 101. At this time, the column body 42 has a lower end reaching the impermeable layer 20, and the second excavation hole 50 is drilled so as to penetrate the column body 42. It can prevent falling to the support layer 30. Further, the impermeable layer 20 is located below the contaminated layer 10, and has a water shielding property when the mud mortar 41 is cured, and the lower end of the column body 42 made of the cured mud mortar 41 reaches the impermeable layer 20. Therefore, it is possible to prevent the groundwater from which the pollutant in the contaminated soil 11 has melted from flowing into the support layer 30 through the second excavation hole 50.

  Next, as shown in FIG. 2D, the earth auger 101 is pulled up from the second excavation hole 50 while pouring the cement milk 60 into the second excavation hole 50 from the tip of the earth auger 101.

  Next, as shown in FIG. 2E, the pre-made pile 70 is inserted into the second excavation hole 50 by the lifting machine 102. And since the cement milk 60 in the 2nd excavation hole 50 hardens | cures, the existing pile 70 will be fixed to the ground 1, and installation of the existing pile 70 will be completed.

  According to the present embodiment, the mud mortar 41 is placed so that the lower end reaches the water impermeable layer 20, and the second excavation hole 50 is so penetrated that the mud mortar 41 is cured. Therefore, the prefabricated pile 70 is installed in a state in which the contaminated soil 11 and the groundwater from which the contaminants have dissolved from the contaminated soil 11 are prevented from reaching the support layer 30 through the second excavation hole 50. It can be performed.

  Further, since the first excavation hole 40 is drilled using the all-round excavator 100, even when there is an underground fault 12 in the ground, the underground excavation 12 is cut and the first excavation hole 40 is cut. Can be drilled.

In this embodiment, the pillar body 42 is composed of the hardened mud mortar 41. However, the pillar body 42 is not limited to this, and has a strength capable of drilling with the earth auger 101 (compression strength of about 5 to 10 kg / cm ² ). Any poor cement-based material can be used in place of the mud mortar 41.

  In the present embodiment, the column body 42 whose bottom end reaches the water impermeable layer 20 is constructed. However, the present invention is not limited to this, and the bottom end of the column body 42 may extend to a deeper position. The lower end of the column body 42 only needs to reach a position deeper than the upper surface of the water impermeable layer 20.

<Second embodiment>
Hereinafter, 2nd embodiment of the installation method of the ready-made pile of this invention is described, referring drawings. In the first embodiment, the first excavation hole 40 whose lower end reaches the impermeable layer 20 is formed, and the mud mortar 41 is placed in the first excavation hole 40. In the present embodiment, Instead, the soil cement pillar is constructed so that the lower end reaches the water impermeable layer 20. In the present embodiment, it is assumed that there is no underground fault inside the contaminated layer 10.

Drawing 3A-Drawing 3E are figures for explaining the installation method of the existing pile of this embodiment.
First, as shown in FIG. 3A, for example, the excavator 103 such as a three-axis auger machine forms the first excavation hole 140 in the ground 1 so that the lower end reaches the non-permeable layer, and excavates the ground 1. As a result, cement milk is injected into the excavated residual soil generated in the first excavation hole 140, and the excavation residual soil and the cement milk are mixed and stirred to form the soil cement 141 in the first excavation hole 140, and the lower end is not A soil cement pillar 142 that reaches the water permeable layer 20 is constructed. In addition, when using a 3 axis | shaft auger machine like this embodiment, the substantially square-shaped soil cement pillar 142 can be constructed | assembled by digging over several rows in the left-right direction of FIG. 3A. .

  Next, as shown in FIG. 3B, the earth auger 101 penetrates the soil cement pillar 142 and drills the second excavation hole 50 so that the lower end reaches the support layer 30. At this time, since the soil cement pillar 142 is interposed between the second excavation hole 50 and the contaminated layer 10, the contaminated soil 11 of the contaminated layer 10 passes through the second excavation hole 50 as in the first embodiment. Thus, it is possible to prevent the groundwater from reaching the support layer 30 or from the contaminated soil 11 from flowing out the contaminated soil from flowing into the support layer 30 through the second excavation hole 50.

  Here, when the second excavation hole 50 is drilled, the soil cement 141 generated by drilling the soil cement pillar 142 falls into the second excavation hole 50. Since these soil cements 141 are formed by mixing and stirring cement milk with the excavation residual soil generated when the second excavation hole 50 is excavated, the soil cement 141 contains the contaminated soil 11. However, since the soil cement 141 is hardened integrally with the state in which the contaminant is encapsulated therein, it is possible to prevent the contaminant from flowing out to the support layer 30.

  Next, as shown in FIG. 3C, the earth auger 101 is pulled up from the second excavation hole 50 while pouring cement milk 60 into the second excavation hole 50 from the tip of the earth auger 101.

  Next, as shown in FIG. 3D, the ready-made pile 70 is inserted into the second excavation hole 50. And the cement milk 60 in the 2nd excavation hole 50 will harden | cure, and as shown to FIG. 3E, the ready-made pile 70 will be fixed to the ground 1. FIG.

  According to this embodiment, the same effect as that of the first embodiment can be obtained. Furthermore, when the contamination concentration of the contaminated layer 10 is low, the soil cement 141 generated when the second excavation hole 50 is drilled. Can be disposed of as industrial waste. For this reason, compared with the case where excavated soil is disposed as contaminated soil as in the prior art, disposal costs can be reduced.

  In the present embodiment, the soil cement column 142 whose bottom end reaches the water impermeable layer 20 is constructed. However, the present invention is not limited to this, and the soil cement column 142 whose bottom end reaches a deeper position is used. Excavation may be performed. In short, it is only necessary that the lower end of the soil cement column 142 reaches a position deeper than the upper surface of the impermeable layer 20.

  In each of the above embodiments, the case where the impermeable layer 20 is directly below the contaminated layer 10 has been described. However, the present invention is not limited to this, and the impermeable layer 20 may be present at a position deeper than the contaminated layer 10. For example, the present invention can be applied if the mud mortar 41 is placed or the soil cement 141 is constructed so that the lower end reaches the impermeable layer 20.

  Moreover, although each said embodiment demonstrated the case where the contaminated layer 10 exists in the surface of the ground 1, it is not restricted to this, Even if it is a case where the contaminated layer 10 exists in the ground, this invention is applied. Can do.

It is a vertical sectional view which shows the pile installed by the installation method of the ready-made pile of 1st Embodiment. It is a vertical sectional view (the 1) for explaining the installation method of the existing pile of a 1st embodiment. It is a vertical sectional view (the 2) for explaining the installation method of the existing pile of a 1st embodiment. It is a vertical sectional view (the 3) for explaining the installation method of the existing pile of a 1st embodiment. It is a vertical sectional view (the 4) for explaining the installation method of the existing pile of a 1st embodiment. It is a vertical sectional view (the 5) for explaining the installation method of the ready-made pile of a 1st embodiment. It is a vertical sectional view (the 1) for explaining the installation method of the existing pile of a 2nd embodiment. It is a vertical sectional view (the 2) for explaining the installation method of the existing pile of a 2nd embodiment. It is a vertical sectional view (the 3) for explaining the installation method of the existing pile of a 2nd embodiment. It is a vertical sectional view (the 4) for explaining the installation method of the existing pile of a 2nd embodiment. It is a vertical sectional view (the 5) for explaining the installation method of the existing pile of a 2nd embodiment. It is a vertical sectional view showing the ground having a contaminated layer. It is the vertical sectional view for explaining the installation method of the pile using a casing (the 1). It is the vertical sectional view for explaining the installation method of the pile using a casing (the 2). It is the vertical sectional view for explaining the installation method of the pile using a casing (the 3). It is a vertical sectional view for explaining the installation method of the pile using a casing (the 4).

Explanation of symbols

1 ground 10 contaminated layer 11 contaminated soil 12 underground fault 20 impermeable layer 30 support layer 40 first excavation hole 41 mud mortar 50 second excavation hole 60 cement milk 70 ready-made pile 100 full swirl excavator 101 earth auger 102 lifting Heavy machine 103 Excavator 140 Excavation hole 141 Soil cement 142 Column

Claims (3)

It is a method of installing a prefabricated pile on a ground having a contaminated layer, a non-permeable layer located below the contaminated layer, and a support layer located below the non-permeable layer,
Excavating the ground to a depth position below the upper surface of the non-permeable layer, and exchanging the earth and sand of the excavated portion with poor cementitious material,
Drilling step of forming a drilling hole that penetrates through the cured cementitious material and the lower end reaches the support layer after the substituted cementitious material is cured;
A pile installation step of installing a pre-made pile in the excavation hole. It is the installation method of the ready-made pile of Claim 1,
In the drilling step, the ground is excavated by a full-spinning excavator, and the method for installing an existing pile is characterized. It is a method of installing a prefabricated pile on a ground having a contaminated layer, a non-permeable layer located below the contaminated layer, and a support layer located below the non-permeable layer,
A soil cement pillar construction step for constructing a soil cement pillar that penetrates the contaminated layer and has a lower end reaching below the upper surface of the impermeable layer;
Drilling step that penetrates the soil cement pillar and forms a drilling hole so that the lower end reaches the support layer;
A pile installation step of installing a pre-made pile in the excavation hole.