KR101224202B1 - Method structure levelling - Google Patents

Abstract

PURPOSE: A structure leveling method is provided to reduce construction time and costs by correcting the inclination of a structure through the re-tensioning of a tension member. CONSTITUTION: A structure leveling method is as follows. The level of a structure(1) is checked during/after construction(S10). If the right portion of the structure is inclined, multiple excavation holes(10) are formed in the left portion of the structure(S20). Tension members(20) are inserted into the excavation holes, and high-strength mortar(30) is put into the excavation holes and cured(S30). A tensioner(40) is connected to each tension member and loads a vertical load on a foundation(1a) of the structure(S40). The tension members are tensioned until the leveling of the structure is completed. [Reference numerals] (AA) Soft layer; (BB) Rock layer

Description

Structure leveling method {METHOD STRUCTURE LEVELLING}

The present invention relates to a method for leveling a structure, and more particularly, a method for leveling a structure that can shorten the air and prevent safety accidents by leveling the structure by pressing a relatively upper portion of the structure downward when the structure is tilted. It is about.

Due to poor construction of houses, buildings, etc. and uneven settlement of the soft ground, the structure may not be leveled, so the structure may be inclined to one side.

As such, when the structure is used in an inclined state, a large accident may occur due to the occurrence of a crack and collapse of the structure. Therefore, the level of the structure is checked using a horizontal level, and the cycle of the structure is prevented in advance. Safety diagnosis is made.

As shown in FIG. 1, the leveling of the structure 1 is confirmed by placing the level 2 on the structure 1, and if the structure 1 is inclined to one side, a repair work for adjusting the leveling of the structure 1. Is enforced.

The leveling method of the structure according to the prior art, the bottom of the structure 1 (relatively lower when the structure 1 is inclined relative to the ground) and breaks, and install the hydraulic jack (3) in the open space By raising the inclined portion down through the hydraulic jack (3), filling the empty space caused by the rise of the structure (1) with concrete, repair mortar, etc. to lay the foundation of the structure (1).

According to the structure leveling method according to the prior art, it is necessary to dig for the installation of the hydraulic jack (3), and to use the hydraulic jack (3) to raise the structure (1) from the bottom to the top requires a large force There is a problem that concrete, repair mortar, etc. should be placed in the empty space under the structure (1), all the work such as pretreatment work for the installation of the hydraulic jack (3), installation and operation of the hydraulic jack (3) Since the inclination of the structure 1 may proceed because the inclination of 1) is made, there is a problem that a safety accident occurs.

In addition, since the conventional method is a one-time, when the inclination of the structure as a result of the periodic safety diagnosis has to perform the same work as the initial work, there is a problem that the air is long and the huge construction cost is lost.

An object of the present invention is to provide a structure leveling method for leveling a structure by pressing a relatively upper portion of the structure downward when the structure is inclined.

In the structure leveling method according to the present invention, a plurality of excavation holes penetrating through the ground of the foundation and the bottom of the structure formed in the bottom of the structure, the first drilling of the excavation hole on the opposite side inclined downward from the base end of the structure Step 1; A second step of fixing the removable tension member on the ground by installing a removable tension member inside the drilled hole drilled through the first step and curing the filler in the excavation hole; Tensioning the removable tension member installed in the second step to lower a portion of the foundation end on which the tension member is installed among the foundation ends of the structure to adjust the leveling of the structure; And a fourth step of removing the removable tension member from the excavation hole after the third step.

According to the structure leveling method according to the present invention, since the structure is leveled by pressing a relatively upper portion of the structure inclined to one side, compared to the prior art, it is not necessary to dig for the installation of the hydraulic jack, backfilling of the empty space, so the air is removed. It can be shortened, even if the structure is inclined, all the work is done on the opposite side of the inclination can prevent the collapse of the structure during the operation, and can prevent accidents in advance.

In addition, when the tilt occurs in the structure as a result of the periodic safety diagnosis of the structure can be compensated for the tilt through the re-tension of the tension material can minimize the cost and shorten the air.

In addition, the tension member and the filling material can prevent the collapse of the structure because it can prevent the settlement and tilt of the structure by performing the function of the pile supporting the structure.

1 is a conceptual diagram showing a structure leveling method according to the prior art.
2 is a process diagram of the structure leveling method according to the present invention.

Structure leveling method according to the present invention is as follows.

(S10) Structure leveling survey.

During the building process of the structure 1 or after completion of construction, the leveling of the structure 1 is investigated, and for example, the leveling of the structure 1 is investigated by using a known level 2 (including tilt sensor etc.). .

(S20) drilling holes.

When the right side of the drawing reference structure 1 is inclined downward, a plurality of drilling holes 10 are drilled on the left side of the structure 1. Since the present invention is to adjust the leveling of the structure (1) by lowering the relatively upward of the structure (1), if the left side is inclined downward to drill the excavation hole (10) on the right side opposite to the left side.

A plurality of excavation holes 10 are drilled at a predetermined distance from each other to adjust the leveling, and the excavation holes 10 are the base end 1a of the structure 1 (where the base end 1a is the tension member 20). It is not formed separately to install the, but is not necessarily limited to the base end (1a)] and through the soft layer is formed to the rock layer. This is because, when the tension member 20 is settled in the soft layer, the structure 1 is settled due to the settlement of the soft layer.

Since the excavation hole 10 is drilled through a well-known puncher, detailed description of the drilling operation will be omitted.

(S30) Tension material installation.

The tension member 20 is installed in the excavation hole 10.

The tension member 20 is for forcibly lowering the inclined portion of the structure 1 for leveling the structure 1, and steel wires, steel bars, steel pipes, and the like may be used.

Insert the tension member 20 into the excavation hole 10, the head is inserted so as to protrude above the base end (1a) of the structure (1), when the tension member 20 when the tension member 20 is pulled into the excavation hole ( The tension member 20 is fixed so as not to be drawn out in 1).

The tension member 20 is fixed to the excavation hole 10 by curing the high strength mortar 30 as a filling material in the excavation hole 10 as a method for fixing the tension member 20. The high-strength mortar 30 is cured in the excavation hole 10 to firmly fix the tension member 20 and penetrate into the rock layer, thereby integrating the excavation hole 10, the tension member 20 and the rock layer into a tensile material ( In addition to fixing 20) firmly, when the tension member 20 is a permanent type, it also functions to firmly support the structure (1).

High-strength mortar may be injected entirely into the excavation hole 10, or may be injected only to a portion for fixing the tension member (20).

(S40) tensile.

When the installation of the tension member 20 is completed, the tensioner 40 is connected to the tension member 20, and a vertical load is applied to the base end 1a of the structure 1 through the tensioner 40. As the vertical load is applied to the structure 1 through the tensioner 40, the structure 1 is lowered by increasing the stress in the ground under the structure 1.

Simultaneously with the tensioning using the tensioner 40, the horizontal system 2 is checked, and the tensioning material 20 is tensioned until the leveling of the structure 1 is completed to adjust the leveling of the structure 1.

The leveling of the structure 1 is completed through the above process.

On the other hand, after completing the leveling in this way, the inclination of the structure (1) may occur due to settlement of the ground, etc., check the leveling of the structure (1) through the periodic safety diagnosis.

When it is determined that the inclination of the structure 1 is determined as a result of leveling, the tensioning material 20 may be re-tensioned to adjust the leveling of the structure 1. Of course, if the inclination occurred in the place where the tension member 20 is not installed, the tension member 20 is installed and used by the above-described method.

On the other hand, the tension member 20 is divided into permanent and removable, in the case of the removable tension member may be removed from the excavation hole 10 after the completion of the leveling of the structure (1).

1: structure, 1a: foundation
10: digging hole, 20: tension member
30: filler, 40: tensioner

Claims (3)

Drilling a plurality of excavation holes penetrating the foundation end formed in the bottom of the structure and the ground of the structure bottom, and drilling the excavation holes on the opposite side inclined downward among the foundation ends of the structure;
A second step of fixing the removable tension member on the ground by installing a removable tension member inside the drilled hole drilled through the first step and curing the filler in the excavation hole;
Tensioning the removable tension member installed in the second step to lower a portion of the foundation end on which the tension member is installed among the foundation ends of the structure to adjust the leveling of the structure;
And a fourth step of removing the removable tension member from the drilling hole after the third step. delete delete

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