KR20090080393A - Ground excavation and support method using cutting force of steel plate and rotating wire saw - Google Patents

Abstract

The present invention is to cut the ground using a wire saw (WIRE SAW) that is supported along the periphery of the side surface of the annular iron plate of a certain size to be inserted into the ground in the ground excavation and support method for installing the ground passage structure The steel plate is continuously pushed into the cut space and installed through the ground, and the adjacent part is installed through the steel plate in the same way, and then the spaced parts between the steel plates are connected and fixed by connecting steel. After completely separating into a space of a predetermined size, while pre-injecting the structure formed in the outside into the space to excavate the ground of the separated space on the front of the structure together to be able to install the passage structure in the ground.

Description

The ground excavation and support method with the cutting force of a rotating wire saw and a steel plate}

The present invention is excavated by cutting the ground using a wire saw (WIRE SAW) that is supported along the periphery of the annular iron plate of a certain size to be inserted into the ground in the ground excavation and support method for installing the ground passage structure And support structure.

The present invention is excavated by cutting the ground using a wire saw (WIRE SAW) that is supported along the periphery of the annular iron plate of a certain size to be inserted into the ground in the ground excavation and support method for installing the ground passage structure And support structure.

WIRE SAW consists of sintered metal bits and steel cables (wires) passing through them as shown below. The diameter of the conventional wire saws, which are already commercialized, is usually 10 to 12 mm in diameter, with 50 to 60 bits per 1M cable mounted at regular intervals and connected to the drive wheels in an annular fashion. A series of ldler wheels is used to orient the machine to the cutting object. The wire is driven by the rotational movement of the drive wheel, and the drive wheel is settled in a carrier assembly or a rack & pinion system and rotated by a hydraulic motor or an electric motor. The cutting operation of the object is performed by the side of the bit while maintaining the tension of the wire by the backward movement of the drive wheel by the hydraulic motor or the electric motor.

<Picture of WIRE SAW>

Conventional ground excavation and support method uses a method of rotating a rod with a cutting bit on a head in a circular steel pipe with a driving machine to dig the ground and press through a circular steel pipe into the ground. As a method, at least the thickness of the circular steel pipe is not properly excavated, so it is very difficult to press the steel pipe with the resistance of the unexcavated ground of the steel pipe front side, especially when the length of the excavation is long, artificially excavating the unexcavated ground of the steel pipe front side, If it is not removed, it is almost impossible to press the steel pipe due to the resistance of the side and front part of the steel pipe, and even if the remaining excavation part of the front part is to be excavated by manpower, the worker must excavate in the steel pipe. Diameter must also be quite large and accordingly There were many unreasonable factors, such as larger cross-sectional area, unfavorable stability, and increased amount of ground excavation, which increased construction period and construction cost.

The present invention, in order to solve the above-described problems, in the ground excavation and support method for the installation of ground passage structure, the ground structure of the ground structure is connected and installed using a steel plate rather than a circular steel pipe, so the area occupied by the ground structure is reduced. And

In order to use the wire saw (WIRE SAW) in the ground excavation was converted as follows.

That is, when cutting an object by a generally rotating wire saw, when drawing a wire saw using a drive to continuously rotate the wire saw as shown below. Since the clamping force acts toward the center of rotation, this force causes friction between the side of the metal bit attached to the wire saw at regular intervals and the object, and the object is scraped off and cut off as a result. .

However, in the above figure, the object 100 that can support the rotation of the wire saw (WIRE SAW) is placed on the part where the object to be cut is placed, and the bearing 30 is installed to reduce the friction therebetween and the wire saw (WIRE). When pushing the rotary support 100 of the SAW in one direction (PUSH) as shown in the figure below, the wire saw (WIRE SAW) and the bearing 30 is rotated together so that the rotary support 100 of the wire saw (WIRE SAW) The side contacting the wire SAW in the pushing direction without damage to the side part will be cut continuously.

By applying the above principle, the thickness of the steel plate to be inserted into the ground to excavate the ground is the same as the diameter of the wire saw (WIRE SAW) and is supported along the circumference of the side of the annular iron plate of a certain width, the wire saw (WIRE) By cutting and excavating the ground using SAW), the ground resistance is indented by injecting steel plates with the same thickness but smaller width (the size of the width of the connecting steel minus the width overlapping with the prosthetic plate). It is possible to significantly reduce the pressure, so that the indentation is smooth, and the connecting steel does not exceed the excavation section, so the indentation is easy, so the cross section of the ground structure of the ground does not exceed the excavation section for the insertion of the ground support. This made it easy.

And as shown in Figure 2, the wire saw (WIRE SAW) support portion 20 is installed on the side of the front circumference of the iron plate in contact with a predetermined interval to rotate the wire saw (WIRE SAW) 10 when rotating with The bearing 30 installed between the side surface can be rolled in place and the wire saw 10 does not deviate from the rotating shaft when the wire saw rotates.

On the other hand, since the steel plate is used as the structural member of the ground support, the cross section secondary moment is smaller than the circular steel pipe with a certain diameter, which is disadvantageous in structure. As it is installed in contact with each other, it is structurally not a problem for the support of the excavated upper ground, and minute gaps between the steel plate and the structure and partial small spaces that may occur between the steel plate and the ground are installed at regular intervals in the structure and the steel plate after the structure installation. One hole was used for filling through pressure grouting operations inside the structure.

In the ground excavation and support method for installation of underground passage structure,

WIRE SAW (WIRE SAW) Rotating around the side of the prosthetic plate when press-fitted into the ground using the annular iron plate 50 having the same diameter and thickness and having a predetermined width as the main retainer. Cut the ground by using) and make the maximum cross-sectional area of the press-fitted prosthetic plate easier than the excavated cross-sectional area so that the press-fitted prosthetic plate can be easily pushed in, and connect the press-fitted prosthetic boards with connecting hardware to connect the door or arch. You can create fully connected support structures.

As described above, the present invention is connected and installed using a steel plate rather than a circular steel pipe generally used in the ground excavation and support method for installing the ground passage structure, resulting in a reduced thickness of the support structure. To reduce the area occupied by the support structure,

The thickness of the steel plate to be inserted into the ground is the same as the diameter of the wire saw, and the ground is cut and excavated by using a rotating wire saw (WIRE SAW) that is supported along the periphery of the side of the annular prosthetic plate of a certain width. Compared with the excavated section, the steel plate with the same thickness but less width is press-fitted, so the resistance of the ground can be reduced considerably, so that the press-fitting is smooth and the connecting steel does not exceed the excavation-section, so the press-fitting is easy. The excavation cross section was not exceeded to reduce the excavation cross section while making the press fitting easier.

In addition, as the ground excavation method uses cutting force by the rotation of the wire saw, the excavation applied to the general underground excavation method does not require the installation of vertical walls by facilities such as temporary facilities in the state of the original ground. You can just excavate.

In addition, since the steel plate is used as the structural member of the ground support, the cross section secondary moment is smaller than that of the circular steel pipe with a certain diameter, which is disadvantageous in structure. As it is installed, it is structurally not a problem for the support of the excavated upper ground.

In general, the ground excavation and geotechnical methods generate some relaxation and voids of the surrounding ground, and the cross-sectional area and excavation cross-sectional area of the indentation member are the same, so that the relaxation of the surrounding ground and the occurrence of voids can be reduced as much as possible. In order to prepare for the formation of voids, after the installation of the ground-passing structure, the holes were pre-installed at regular intervals in the structure and the steel plate to be filled by pressurized grouting in the structure.

Referring to the configuration of the present invention with reference to the accompanying drawings as follows. However, the technical scope of the present invention is not limited by the following description.

One cross-section completed by applying the ground excavation and support method using the iron plate and wire saw (WIRE SAW) 10 of the present invention can be seen in Figure 1, the construction sequence of the ground excavation and support method As shown in FIG. 13, a wire saw (WIRE SAW) 10 and a support part 20 of the wire saw (WIRE SAW) are provided on the side end portion 40 of the iron plate over the entire length of the wire saw. Step 10 of installing the annular support plate 50 having a thickness and the same width as the diameter of the (10) to the front of the ground to be excavated (Fig. 10), the wire saw (WIRE SAW) 10 to the drive device Step by excavating the ground while rotating along the side of the iron plate by pressing the prosthetic plate (Fig. 11), first remove the round prosthetic plate portion of the outer exposed rear portion of the iron plate is press-fitted and the support 20 of the wire saw (WIRE SAW) And rectangular bearings with bearings 30 installed over the entire length of both sides. After connecting the steel plate, connect the round prosthetic plate to the rear part so that the entire flat shape of the prosthetic plate is the same as before, but the center part becomes longer in the longitudinal direction and the wire SAW (10) is extended Step of installing to extend to the length (Fig. 12), the step of repeatedly pressing the iron plate repeatedly through the ground (Fig. 13), the step of removing the wire saw (WIRE SAW) 10, of the installed iron plate Pressing and digging the prosthetic plate portion 50, in which the excavation device of the wire saw is installed again in the adjacent portion, penetrating through the ground, and two sets of wires at the end of the adjacent iron plate portion 50 installed through the ground. Installing the connecting hardware (70, 80) while pushing and removing the support portion 20 of the saw (WIRE SAW) to the connecting hardware (70, 80) having the same length as the straight portion of the support prosthesis, ground support work After this is complete Excavating and removing the ground at the front of the structure at the same time by pressing and pressing the structure made from the outside to the steel plate on the upper side and both sides. It characterized in that it is made sequentially, including the step of performing a pressure grouting operation on the outside of the structure through a hole installed in the.

The support part 20 of the wire saw (WIRE SAW) has a projection 130 facing inward at one end of both side surfaces 120 so that the support part 20 is inserted into the grooves 60 installed on both sides of the iron plate so that the support part 20 faces the side of the iron plate. Rotation is possible, but not to fall from side to side, at the end of the other side is provided with an arc-shaped concave portion 110 that can support the wire saw (WIRE SAW) 10 is installed, both sides of the right direction In close contact with the adjacent support 20, all the support parts are in contact with the periphery of the side of the iron plate to support the wire saw (WIRE SAW) 10 while being able to rotate constantly in an annular shape together.

Figure 1 is a schematic diagram showing the complete standard excavation and support of the present invention to complete the installation of the support by connecting the entire prosthetic plate is complete.

Figure 2 is a schematic view showing the shape of the wire saw (WIRE SAW) and the attachment portion of the annular press-fitted iron plate ground penetration portion and the rear portion.

3 is a schematic cross-sectional view of a horizontal press-fitted iron plate and wire saw (WIRE SAW) and attachments;

FIG. 4 is a partial enlarged view of one side of FIG. 2 schematically illustrating one side of a cross section in which a horizontal press-fitted iron plate, a wire saw, and an accessory are installed; FIG.

FIG. 5 is a schematic view of one side of a cross section in which a horizontal press-fitted iron plate, wire saw (WIRE SAW) and accessories are installed; FIG.

FIG. 6 is a schematic view showing a sectional proximity portion in which a press-fitted iron plate installed by excavating the ground subsequent to the press-fitted iron plate installed by excavating the ground horizontally and its accessories is installed; FIG.

FIG. 7 is a view schematically illustrating a cross section in which connecting prostheses are connected by installing connecting hardware in a vicinity of two sets of press-fitted iron plates installed by excavating the ground horizontally; FIG.

8 is a view schematically showing a cross-sectional configuration of the horizontally installed iron plate and the vertically installed support plate.

9 is a view schematically showing a cross-sectional configuration in which the connecting portion is connected to the portion where the horizontal support plate and the vertical support plate is installed vertically.

10 is a schematic view showing a plane and a cross-sectional view of the first installation of a set of support plate to excavate and install the ground horizontally.

FIG. 11 is a view schematically showing a plane and a cross-sectional view of a set of support steel plates pressed into the ground in one step to excavate and install the ground horizontally; FIG.

FIG. 12 is a view schematically showing in plan and cross-sectional view a configuration in which an additional support plate is connected in a longitudinal direction to a pair of support plates that are press-fitted into the ground as a step to install and drill the ground horizontally; FIG.

FIG. 13 is a view schematically showing a plan view and a cross-sectional view of a set of prosthetic plates which are installed by excavating and penetrating the ground horizontally; FIG.

FIG. 14 is a schematic illustration of a cross section of a wire saw support; FIG.

15 is a view schematically showing a cross section of the connecting steel of the prosthetic plate.

<Brief description of symbols for the main parts of the drawings>

10: wire saw (WIRE SAW) 20: wire saw (WIRE SAW) support

30: bearing 40: bearing support of the side of the prosthetic plate

50: support iron plate 60: wire saw support fixing groove of the support plate

70: adjacent horizontal prosthetic plate connection hardware

80: connecting hardware of horizontal and vertical support plate 90: object to be cut

100: rotating support object of the wire saw (WIRE SAW)

110: recess for supporting wire saw

120: side of the wire saw (WIRE SAW) support

130: end right angle projection of the side of the wire saw (WIRE SAW) support

140: side of the connecting steel of the support plate

150: right angle projection at the end of the side of the connecting steel of the prosthetic plate

Claims (5)

In the ground excavation and support method for installation of underground passage structure,  WIRE SAW (WIRE SAW) Rotating around the side of the prosthetic plate when press-fitted into the ground using the annular iron plate 50 having the same diameter and thickness and having a predetermined width as the main retainer. Cut the ground by using) and make the maximum cross-sectional area of the press-fitted prosthetic plate less than the excavated cross-sectional area so that the press-fitted prosthetic plate can be easily pressed, and connect the press-fitted prosthetic boards with connecting hardware with Ground excavation and support method using cutting force of iron plate and rotating wire saw (WIRE SAW) characterized by making fully connected support structure.  The method of claim 1,  Using the annular iron plate with the same diameter and thickness as the wire saw and having a certain width as the main material, the maximum cross section of the support plate is smaller than the cross section of the ground excavated by the rotation cutting force of the wire saw. Ground excavation and support method using the cutting force of the iron plate and the rotating wire saw (WIRE SAW), characterized in that to reduce the friction of the ground as much as possible to press through the ground easily.  The method of claim 1,  Before punching by drilling holes in the body of iron plate used as the main supporting material of the ground at regular intervals, connect bolts etc. to the hole so that it can be used for fixing the direction of the steel plate and supporting it and preventing deformation while pressing it. Ground excavation and support method using the cutting force of the steel plate and the rotating wire saw (WIRE SAW), characterized in that the pressure grouting filling of the surrounding ground in the structure after the underground passage structure installation through these holes.  The method of claim 1,  Support portion 20 of the wire saw (WIRE SAW) is a bearing installed on both sides of the steel plate so that the rotating wire saw (WIRE SAW) 10 can be smoothly rotated by smoothly reducing the friction along the side of the support plate (30) grooves installed on both sides of the iron plate by having a projection 130 facing inward at both ends 120 of the side to be rotated together with the wire saw (WIRE SAW) and the press-fitted iron plate wrapped in a U-shape (60). ), The support unit 20 can be rotated along the side of the iron plate, but not to be separated from the side of the iron plate or to fall from side to side. On the opposite side, the wire saw (WIRE SAW) is installed and the wire saw (WIRE SAW) An arc-shaped recess 110 is provided so as not to be separated from the center of rotation, and both sides of the rotation direction are in close contact with adjacent supports, and all supports are contacted around the side of the steel plate to support the wire saw. Ground excavation and support method using cutting force of iron plate and rotating wire saw (WIRE SAW), characterized in that the structure can rotate in an annular shape.  The method of claim 4, wherein The connecting hardware (70, 80) having the same length as the straight portion of the support plate installed in order to connect the entire longitudinal direction of the installed steel plates press-fitted into the ground, two sets of adjacent wire saws temporarily left in the ground after pressing the steel plate Two sets of side surfaces 140 in which bearing supports of the prosthetic plate are inserted in both sides of the left and right sides in the rotational direction so that the support parts 20 of the wire SAW can be pushed out of the ground and connected to each other. At the end thereof, a right angle protrusion 150 toward the side of the prosthetic plate is inserted into a groove in the adjacent iron plate, and the prosthetic plates are connected to each other and fixed to each other. Excavation and Supporting Method Using Cutting Forces.

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