JP2014156698A - Foundation reinforcement method and reinforcement structure - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method and a structure capable of easily and sufficiently reinforcing a foundation provided with a soil-retaining wall.SOLUTION: The reinforcement method of the foundation G provided with the soil-retaining wall 10 comprises a process of forming a drilled hole 11 in the foundation G from the soil-retaining wall 10, a process of injecting an outer grout material X1 into the drilled hole 11, a process of inserting an injection pipe 20 having a plurality of injection holes 22 at an interval in the axial direction into the drilled hole 11, a process of injecting a diameter expanding grout material X2 into the foundation G via the injection holes 22 provided in the injection pipe 20, a process of injecting an inner grout material X3 into the injection pipe 20, a process of inserting a tension member 31 into the injection pipe 20 and a process of fixing a base end part of the tension member 31 to the soil-retaining wall 10, and also comprises a process of inserting a bar material 41 into an injection area X2a of the diameter expanding grout material X2 from above the foundation G before solidifying the diameter expanding grout material X2.

Description

  The present invention relates to a ground reinforcing method and a reinforcing structure, and particularly relates to a case where a soil retaining wall is provided on the ground.

  As the earth retaining method for preventing the ground from collapsing, for example, there is a self-supporting earth retaining method. This construction method prevents the ground from collapsing by the bending resistance of the earth retaining wall made of steel sheet piles, etc., and is a very simple construction method, but the force to prevent the ground from collapsing (earth retaining force) is weak. In view of this, there are a cut beam type earth retaining method, an anchor type earth retaining method, a preserving type earth retaining method, and the like, and further, an improved method or the like has been proposed (for example, see Patent Document 1).

  However, there are only a few places where the beam-type earth retaining method can be applied, and the anchor-type earth retaining method does not sufficiently improve the earth retaining force. Have the problem of becoming.

JP 2009-19373 A

  The main problem to be solved by the present invention is to provide a construction method and structure capable of easily and sufficiently reinforcing the ground provided with the earth retaining wall.

The present invention for solving this problem is as follows.
[Invention of Claim 1]
A ground reinforcement method with earth retaining walls,
Injecting a grout material from the earth retaining wall into the ground and inserting a tensile material;
Fixing the base end portion of the tensile material to the earth retaining wall,
And before the grouting material solidifies, it has a step of inserting a rod material into the injection region of the grouting material from the ground.
A ground reinforcement method characterized by this.

[Invention of Claim 2]
A ground reinforcement method with earth retaining walls,
Forming a hole in the ground from the earth retaining wall;
Injecting an outer grout material into the hole,
Inserting an injection tube having a plurality of injection holes spaced axially into the hole;
Injecting a grouting material for diameter expansion into the ground through each injection hole provided in the injection pipe;
Injecting an inner grout material into the injection tube;
Inserting a tensile material into the injection tube;
Fixing the base end portion of the tensile material to the earth retaining wall,
And, before the diameter expansion grout material is solidified, it has a step of inserting a bar material into the injection area of the diameter expansion grout material from the ground.
A ground reinforcement method characterized by this.

[Invention of Claim 3]
A ground reinforcement structure with earth retaining walls,
A solidified body extending from the earth retaining wall into the ground;
A tensile material extending in the axial direction in the solidified body and having a base end fixed to the retaining wall;
A bar that extends from above the ground into the ground and intersects the solidified body;
The ground reinforcement structure characterized by having.

(Main effects)
According to the present invention, since the grout material penetrates into the ground and solidifies to form a solidified body (ground improvement body), the strength of the ground itself is improved. Moreover, since various resistances such as shear resistance and bending resistance are applied to the ground from the ground improvement body, the ground can be easily and sufficiently reinforced.

  According to the present invention, the construction method and structure can easily and sufficiently reinforce the ground provided with the retaining wall.

It is sectional drawing of the ground provided with a retaining wall. It is sectional drawing which shows the state which formed the drilling hole in the ground provided with a retaining wall. It is the III-III sectional view taken on the line of FIG. It is sectional drawing which shows the state which inject | poured the outer grout material in the drilling hole. It is sectional drawing which shows the state which inserted the injection tube in the drilling hole. It is sectional drawing which shows the state which injected the grout material for diameter expansion through the injection pipe. It is the VII-VII sectional view taken on the line of FIG. It is sectional drawing which shows the state which inject | poured the inner grout material in the injection tube. It is the IX-IX sectional view taken on the line of FIG. It is sectional drawing which shows the state which inserted the tension material in the injection tube. It is sectional drawing which shows the state which fixed the base end part of the tension material. It is sectional drawing which shows the state which inserted the bar in the injection | pouring area | region of the grout material for diameter expansion. It is the XIII-XIII sectional view taken on the line of FIG. It is a top view which shows the state which inserted the bar in the injection | pouring area | region of the grout material for diameter expansion.

  Next, modes for carrying out the invention will be described. In addition, below, as shown in FIG. 1, the case where the ground G provided with the existing earth retaining wall 10 which consists of a steel sheet pile, a concrete pile, a steel pipe pile, etc. is reinforced is demonstrated to an example. However, the present invention can also be applied to the case where the earth retaining wall 10 is constructed itself. In this case, the earth retaining method for the ground G can be obtained by constructing the earth retaining wall 10 and reinforcing the ground G. It becomes earth retaining structure.

  In the reinforcing method of this embodiment, a grout material is injected from the earth retaining wall 10 into the ground G, and a tensile material is inserted. More specifically, first, for example, as shown in FIGS. 2 and 3, drilling is started from the retaining wall 10, and the cylindrical drilling hole 11 is formed in the ground G. The formation of the hole 11 can be performed by casing hole or the like, or can be performed while injecting hole water such as fresh water.

  The drilling diameter L1 and the drilling length L2 of the drilling hole 11 can be appropriately set according to the required reinforcing force (holding force) or the like. For example, the drilling diameter L1 is 9 to 15 cm and the drilling length L2 is It can be set to 3 to 10 m. Moreover, although the drilling hole 11 can be formed in a horizontal direction as in the illustrated example, it is formed, for example, so as to be inclined by 0 to 45 ° with respect to the horizontal plane according to the main dynamic collapse line of the ground G or the like. You can also. Further, although not specifically shown, the drilling holes 11 can be formed in plural according to the nature of the ground, the required reinforcing force, construction costs, etc., for example, at appropriate intervals in the vertical and horizontal directions, Usually, a plurality are formed. Reference numeral 32 denotes a pedestal arranged for the purpose of protecting the retaining wall 10 and facilitating fixing processing, which will be described later, and covers the mouth of the hole 11 from above the retaining wall 10.

  After forming the hole 11, next, as shown in FIG. 4, when the casing is drilled in the hole 11, the outer grout material X 1 made of cement paste, mortar, or the like is injected into the casing. . The outer grout material X1 is a grout material that fills a space between the inner wall surface of the hole 11 and the injection tube 20 inserted into the hole 11.

  The injection of the actor grout material X1 can be performed by an “injection pipe method” performed using an injection pipe, a “dough pickling method” in which injection is performed in advance with the drilling, or the like. Further, the outer grout material X1 can be injected along with the insertion of an injection tube 20 described later, or after the injection tube 20 is inserted.

  Once the outer grout material X1 has been injected into the hole 11, the injection tube 20 is then inserted (built) into the hole 11 as shown in FIG. The injection tube 20 is constructed, for example, by connecting a plurality of unit tubes in the axial direction, and the peripheral wall 21 of each unit tube is appropriately spaced in the axial direction, for example, at an interval of 50 to 100 cm. A plurality of injection holes 22 are formed. The plurality of injection holes 22 are covered with a rubber sleeve 23, and the rubber sleeve 23 has a check valve structure that separates from the injection hole 22 when injecting a diameter expansion grout material X <b> 2 described later. As the injection pipe 20 having such a configuration, there is an injection pipe or the like as an existing member (device), and the injection pipe can also be used in this embodiment.

  The injection tube 20 is left in the ground G as will be described later. Therefore, the diameter and length of the injection tube 20 can be appropriately set according to the required reinforcing force and the like. For example, the diameter is 4 to 9 cm, and the length of each unit tube is 1 to 2 m. it can.

  After inserting the injection tube 20 into the drilling hole 11, next, as shown in FIGS. 6 and 7, the diameter expansion grout material X2 made of cement paste or the like in the ground G through each injection hole 22 provided in the injection tube 20. Inject. In this injection, if necessary, water division (injection) can be performed in advance. Further, the injection of the diameter expansion grout material X2, or the water split injection and the expansion of the diameter expansion grout material X2 can be repeated a plurality of times in order to increase the injection diameter L3.

  By the injection of the diameter expansion grout X2, the ground G around the injection pipe 20 is improved, and the strength of the ground G itself is improved. Therefore, if necessary, the diameter expansion grout material X2 and the ground G can be stirred and mixed by a stirring blade or the like that rotates about the axis, so that the ground strength can be improved uniformly.

  The injection of the diameter expansion grout material X2 can be performed by inserting a double packer device (injection jig) into the injection tube 20, for example. When this double packer device is used, the grouting material X2 for diameter expansion is discharged only from the injection hole 22 located between the two packers, and a wider range of injection at any position is possible.

  When the injection of the diameter expansion grout material X2 is completed, the inner grout material X3 made of cement paste or the like is then injected into the injection pipe 20 as shown in FIGS. This injection can be performed, for example, using an injection pipe.

  When the inner grout material X3 filled in the injection tube 20 is solidified, the injection tube 20 and a tensile material 31 described later are integrated. Therefore, for example, the inner grout material X3 can be injected after the tensile material 31 is inserted first, or the tensile material 31 can be inserted and the inner grout material X3 can be injected in parallel.

  After injecting the inner grout material X3 and filling the injection tube 30 with the inner grout material X3, next, as shown in FIG. 10, a tensile material 31 is inserted into the injection tube 20. The tensile material 31 is a member that transmits a tensile force, and a member used as a so-called tendon, for example, a PC steel wire, a PC steel strand, a PC steel rod, or the like can be used. However, if you use a bar that does not bend or bend easily, such as a PC steel rod, you can expect not only tensile resistance but also shear resistance and bending resistance, and higher reinforcement. Power (holding power) can be obtained.

  It is preferable to insert the tension member 31 by using, for example, a lantern spacer so that the tension member 31 is positioned at the axial center of the injection tube 20. Moreover, the front-end | tip part of the tension | tensile_strength material 31 can also be connected and fixed to a backup work similarly to having conventionally connected the front-end | tip part of a tie rod to a back work, for example. When this connection fixing is performed, the reinforcing force of the ground G is further improved.

  When the insertion of the tension member 31 is completed, next, as shown in FIG. 11, the base end (head) of the tension member 31 is fixed to the retaining wall 10, and if necessary, tension is applied to the tension member 31. . In this embodiment, the tension member 31 is fixed using the bearing plate 33 and the nut 34.

  In the above method, since the diameter expansion grout material X2 penetrates into the ground G and solidifies to form a solidified body (ground improved body), the strength of the ground G itself is improved. Therefore, according to this form, the reinforcement effect more than giving various resistance with respect to the ground G can be anticipated. Of course, in this embodiment, the tensile resistance of the tensile material 31, the shear resistance of the injection tube 20, the bending resistance, etc. are not lost. Further, the solidified body obtained by solidifying the diameter expansion grout material X2 also develops its resistance, compression resistance, and the like.

  Furthermore, in this embodiment, as shown in FIGS. 12 to 14, the rod 41 is inserted from the ground G into the ground G before the diameter-growing grout material X <b> 2 is solidified. This insertion is performed such that the bar 41 pierces the injection region X2a of the diameter expansion grout material X2 or passes through the injection region X2a. By this insertion, the solidified body obtained by solidifying the grouting material X2 for diameter expansion and the bar 41 cross each other, and the resistance of the resistor composed of the solidified body or the tensile material 31 is extremely large. It becomes. Therefore, the reinforcing force of the ground G is further improved, and if necessary, the construction such as a construction work can be omitted.

  A plurality of rods 41 can be arranged (inserted) at an appropriate interval in the axial direction of the injection tube 20, for example, at an interval of 50 to 200 cm. Further, the bar 41 can be inserted on both sides of the injection tube 20 as shown in FIG.

  Furthermore, in the illustrated example, a plurality of bar members 41 are inserted vertically, but depending on the main dynamic collapse line or the like of the ground G, for example, a part or all thereof is inclined by 0 to 45 ° with respect to the vertical plane. It can also be inserted. Of course, the bar 41 can be inserted into a region other than the injection region X2a of the diameter-grouting material X2.

  INDUSTRIAL APPLICABILITY The present invention can be applied as a ground reinforcing method and a reinforcing structure provided with earth retaining walls.

  DESCRIPTION OF SYMBOLS 10 ... Earth retaining wall, 11 ... Drilling hole, 20 ... Injection pipe, 22 ... Injection hole, 31 ... Tensile material, 32 ... Base, 41 ... Bar material, G ... Ground, X1 ... Outer grout material, X2 ... For diameter expansion Grout material, X3 ... Inner grout material.

Claims (3)

A ground reinforcement method with earth retaining walls,
Injecting a grout material from the earth retaining wall into the ground and inserting a tensile material;
Fixing the base end portion of the tensile material to the earth retaining wall,
And before the grouting material solidifies, it has a step of inserting a rod material into the injection region of the grouting material from the ground.
A ground reinforcement method characterized by this. A ground reinforcement method with earth retaining walls,
Forming a hole in the ground from the earth retaining wall;
Injecting an outer grout material into the hole,
Inserting an injection tube having a plurality of injection holes spaced axially into the hole;
Injecting a grouting material for diameter expansion into the ground through each injection hole provided in the injection pipe;
Injecting an inner grout material into the injection tube;
Inserting a tensile material into the injection tube;
Fixing the base end portion of the tensile material to the earth retaining wall,
And, before the diameter expansion grout material is solidified, it has a step of inserting a bar material into the injection area of the diameter expansion grout material from the ground.
A ground reinforcement method characterized by this. A ground reinforcement structure with earth retaining walls,
A solidified body extending from the earth retaining wall into the ground;
A tensile material extending in the axial direction in the solidified body and having a base end fixed to the retaining wall;
A bar that extends from above the ground into the ground and intersects the solidified body;
The ground reinforcement structure characterized by having.

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