KR20230035903A - Thumb piles introduced with inclined and crossed prestress and construction method for self-supporting temporary retaining using the same - Google Patents

Abstract

The present invention relates to a thumb pile introduced with an inclined or cross type prestress and a stand-alone temporary earth retaining construction method using the same, which effectively suppress bending moment and horizontal displacement. The thumb pile comprises: a thumb pile formed of an H-beam with a certain length; brackets bolted and coupled to face each other; and a tension member fixed and installed to be inclined between the brackets.

Description

Thumb piles introduced with inclined and crossed prestress and construction method for self-supporting temporary retaining using the same}

The present invention relates to a thumb pile introduced with an inclined or cross-type prestress and a method for constructing a self-supporting temporary retaining wall using the same. Thumb piles introduced with inclined or cross-type prestress to effectively suppress the bending moment and horizontal displacement caused by the back earth pressure due to the increased stiffness by applying tension in advance to the steel wire and a self-supporting temporary earth retaining construction method using the same It is about.

Currently, the earth anchor method is widely used to maintain the retaining wall during deep excavation of the ground for the construction of underground structures.

Here, the earth anchor method described above inserts the adjacent site by 10M or more to settle the earth anchor, but if the use of the adjacent site is restricted, a strut or raker method must be applied for every 2.5m of excavation height. There are significant disadvantages in economic feasibility and construction conditions.

In addition, the conventional method using abutimbos and anchors densely installs the abutments at 2-3m intervals in the vertical direction of the excavation, resulting in a small working space and inconvenience in the use of heavy equipment. There are problems that cause considerable difficulties in construction due to invasion, damage to existing structures, and inflow of nearby groundwater.

Accordingly, in order to solve the above problems, a thumb pile introduced with an inclined prestress and a self-supporting temporary earth retaining construction method using the same have been proposed.

The thumb pile to which the conventional prestress is introduced is a thumb pile made of an H beam having a certain length; Brackets coupled to each other by bolting to face each other at a predetermined position of the thumb pile; It is characterized in that it consists of a tension member that is vertically fixedly installed between the brackets (200).

In addition, the conventional method for constructing a self-supporting temporary retaining wall using a prestressed thumb pile includes the steps of manufacturing a prestressed thumb pile (S 1); Forming a drilling hole by drilling a predetermined diameter and depth at regular intervals in the ground (S 2); Drive-inserting the thumb pile into which the prestress has been introduced into the drilling hole (S 3); Filling sand into the driven thumb pile (S4); Tensioning the tension member installed on the thumb pile (S5); It is characterized in that it consists of a step (S6) of installing an earth plate at the same time as excavating the front part of the thumb pile.

Conventional prestressed thumb piles configured as described above and the self-supporting temporary earth retaining construction method using the same are used when it is necessary to shorten the construction period by securing a working space, or when it is difficult to support with a prop or anchor in a building or civil structure. , When anchor construction is difficult due to encroachment on private property or underground installations, when there is a concern about damage caused by anchor construction, when work efficiency is remarkably reduced due to struts, or when other cases requiring shortening of the period and reduction of construction costs are applicable. There are advantages to being

However, the conventional prestressed thumb pile having the above configuration and the self-supporting temporary earth retaining construction method using the same have a problem in that a large horizontal displacement occurs on the rear surface due to earth pressure due to the eccentricity of the structure itself.

Patent Publication No. 10-2019-0036591

Accordingly, the present invention has been devised to solve the above problems, and in order to reduce the bending stress occurring in the self-supporting retaining wall, tension is applied in advance to a steel rod or steel wire intersecting on one side or on both sides to increase The purpose is to provide a thumb pile introduced with an inclined or crossed prestress to effectively suppress the bending moment and horizontal displacement caused by the back earth pressure due to the increased stiffness and a self-supporting temporary earth retaining construction method using the same.

The thumb pile introduced with the inclined prestress according to the present invention for achieving the above object is a thumb pile made of an H beam having a certain length; A bracket that is bolted to face each other across the upper end of one side of the thumb pile and the lower end of the other side; It is characterized in that it is composed of a tension member fixedly installed at an angle between the brackets.

In addition, the thumb pile introduced with the cross prestress according to the present invention for achieving the above object is a thumb pile made of an H beam having a certain length; A bracket that is bolted to face each other across one upper end and the other lower end of the thumb pile and the other upper end and one lower end; It is characterized in that it consists of a tension member that is fixedly installed to cross the X shape between the brackets.

In addition, the self-supporting temporary earth retaining construction method using the thumb pile introduced with the inclined or crossed prestress according to the present invention for achieving the above object is to manufacture the thumb pile (P2) introduced with the inclined or crossed prestress Step (S 1); Forming a drilling hole (H) by drilling a predetermined diameter and depth at regular intervals in the ground (G) (S 2); Drive-inserting the thumb pile (P2) into which the inclined or cross-type prestress is introduced into the drilling hole (H) (S 3); Filling sand into the driven thumb pile 100 (S 4); Tensioning the tension member installed on the thumb pile (S5); It is characterized in that it consists of a step (S 6) of installing an earth plate at the same time as excavating the front part of the thumb pile 100.

As described above, the thumb pile introduced with the inclined or cross-type prestress and the self-supporting temporary retaining construction method using the same according to the present invention are cross-installed on one side or on both sides to reduce the bending stress generated in the self-supporting retaining wall There is an effect of effectively suppressing the bending moment and horizontal displacement caused by the back earth pressure due to the increased rigidity by applying a tension force to the steel rod or steel wire in advance.

1 is a perspective view showing a thumb pile into which an inclined prestress is introduced according to the present invention;
2 is a front view showing a thumb pile into which an inclined prestress is introduced according to the present invention;
3 is a perspective view showing a bracket of a thumb pile into which an inclined prestress is introduced according to the present invention;
4 is an exemplary view showing a self-supporting temporary retaining wall using a thumb pile into which an inclined prestress is introduced according to the present invention;
5 is a perspective view showing a thumb pile into which cross prestress is introduced according to the present invention;
6 is a front view showing a thumb pile into which cross prestress is introduced according to the present invention;
7 is a perspective view showing a bracket of a thumb pile into which cross prestress is introduced according to the present invention;
Figure 8 is an exemplary view showing a self-supporting temporary retaining wall using a thumb pile into which cross-type prestress is introduced according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

[Thumb stake with inclined prestress]

1 is a perspective view showing a thumb pile to which an inclined prestress is introduced according to the present invention, and FIG. 2 is a front view showing a thumb pile to which an inclined prestress is introduced according to the present invention.

As shown in these figures, the thumb pile (P1) to which the inclined prestress is introduced according to the present invention has brackets ( 200) is installed, and the tension member 300 made of a steel bar or steel wire is installed in an inclined manner on the bracket 200, and at the same time, a tension force is applied in advance to reduce the bending moment and horizontal displacement generated by the back earth pressure of ground excavation. It is a structure designed to effectively suppress.

That is, the thumb pile (P1) to which the inclined prestress is introduced according to the present invention includes a thumb pile (100) made of an H beam having a certain length; A bracket 200 that is bolted to face each other across the upper end of one side of the pile 100 and the lower end of the other side; It is composed of a tension member 300 fixedly installed between the brackets 200 at an angle.

Here, the thumb pile 100 is an H-beam made of a flange and a web.

Also, as shown in FIG. 3, the bracket 200 is composed of an upper bracket 200a and a lower bracket 200b.

Here, the upper bracket (200a) and the lower bracket (200b) have the same shape and are fixed to the thumb pile 100 at one upper end and the other lower end by a fixing clip 250, a bolt 260, and a nut 270. .

In particular, the upper bracket (200a) and the lower bracket (200b) include a horizontal plate 210 formed in an elliptical shape having a constant thickness and curvature; a vertical plate 220 bent at right angles from the end of the horizontal plate 210 and formed in a rectangular shape; an inclined plate 230 disposed obliquely between the horizontal plate 210 and the vertical plate 220 and formed in a triangular shape, and a plurality of fixing holes 240 perforated to have a constant diameter in the horizontal plate; a fixing clip 250 for fixing the upper racket 200a and the lower bracket 200b to the thumb peg; It consists of a bolt 260 and a nut 270 fixedly installed through the lower portion of the fixing clip 250.

Here, the reason why the shapes of the horizontal plate 210, the vertical plate 220, and the inclined plate 230 are different is to prevent deformation of the bracket 200 due to the tension of the tension member 300 installed in the anchoring hole 240. This is to prevent and reduce the amount of steel.

That is, the upper bracket 200a and the lower bracket 200b include a horizontal plate 210, a vertical plate 220, an inclined plate 230, an anchoring hole 240, a fixing clip 250, a bolt 260, and a nut. (270) is an organically coupled member.

Here, the vertical plate 220 is thicker than the horizontal plate 210 and the inclined plate 230.

The reason why the vertical plate 220 is formed thicker in this way is to form a different thickness in order to efficiently tension the tension member 300 installed in the fixing hole 240 of the upper and lower brackets 200a and 200b, and to The flat plate 210 and the inclined plate 230 are formed to have the same thickness.

Meanwhile, when the inclined plate 230 is attached to the horizontal plate 210, a plurality of large inclined plates 230 are installed inside the horizontal plate 210, and a small inclined plate 230 is installed outside the large inclined plate 230. installed

The reason why the size of the inclined plate 230 is different in this way is that the size of the inclined plate 230 is increased in the part receiving a lot of force when the tension member 300 is tense, and the size of the inclined plate 230 is reduced in the part receiving less force. This is to prevent unnecessary waste of steel materials.

On the other hand, when the upper bracket 200a is installed on the thumb pile 100, the fixing clip 250 and the vertical plate 220 of the upper bracket 200a are aligned on the same horizontal line as the uppermost end of the thumb pile 100 It is fixedly installed with bolts 260 and nuts 270.

In addition, the lower bracket 200b is fixedly installed to the thumb peg 100 with a fixing clip 250, a bolt 260 and a nut 270 in a state of being maintained at a certain distance inclined downward from the upper bracket 200a.

Here, it is structurally advantageous for the lower bracket 200b to install the thumb pile 100 vertically at a position close to the lowermost end of the thumb pile 100, which is a position obliquely opposed to the upper bracket 200a.

In addition, when the length is too long between the upper bracket 200a and the lower bracket 200b, an intermediate spacer may be installed at a predetermined position on the thumb pile 100.

Meanwhile, the tension member 300 may be composed of a high-strength structural steel bar or steel wire, and is installed at an angle to the upper bracket 200a and the lower bracket 200b.

Hereinafter, a self-supporting temporary earth retaining construction using a thumb pile into which an inclined prestress is introduced according to the present invention configured as described above will be described.

Figure 4 is an exemplary view showing a self-supporting temporary retaining wall using a thumb pile into which an inclined prestress is introduced according to the present invention.

As shown in this figure, the self-supporting temporary earth retaining construction method using the thumb piles introduced with the inclined prestress according to the present invention comprises the steps of manufacturing the thumb piles (P1) introduced with the inclined prestress (S 1); Forming a drilling hole (H) by drilling a predetermined diameter and depth at regular intervals in the ground (G) (S 2); Drive-inserting the thumb pile (P1) into which the inclined prestress is introduced into the drilling hole (H) (S 3); Filling sand into the thumb pile (P1) into which the driven inclined prestress is introduced (S4); It consists of a step (S5) of tensioning the tension member 300 installed on the thumb pile (P1) into which the inclined prestress is introduced.

That is, the self-supporting temporary earth retaining construction method using the thumb pile introduced with the inclined prestress according to the present invention includes a thumb pile 100 made of an H beam having a certain length; A bracket 200 that is bolted to face each other across the upper end of one side of the pile 100 and the lower end of the other side; It is composed of a tension member 300 fixedly installed at an angle between the brackets 200, and the bracket 200 is composed of an upper bracket 200a and a lower bracket 200b, and the upper bracket 200a and the lower bracket 200b ) is a horizontal plate 210 made of an elliptical shape having a constant thickness and curvature; a vertical plate 220 bent at right angles from the end of the horizontal plate 210 and formed in a rectangular shape; an inclined plate 230 disposed obliquely between the horizontal plate 210 and the vertical plate 220 and formed in a triangular shape, and a plurality of fixing holes 240 perforated to have a constant diameter in the horizontal plate; a fixing clip 250 for fixing the upper racket 200a and the lower bracket 200b to the thumb peg; It consists of a bolt 260 and a nut 270 fixedly installed through the lower part of the fixing clip 250, and when the distance between the upper bracket 200a and the lower bracket 200b becomes too long, the thumb pile 100 An intermediate spacer can be installed at a predetermined position of, and the tension member 300 is made of a high-strength structural steel bar or steel wire, and a thumb pile (P1) to which an inclined prestress is introduced is manufactured, and a thumb pile to which the inclined prestress is introduced. After drilling the target ground (G) on which (P1) will be installed at regular intervals with a predetermined diameter and depth to form a drilling hole (H), a thumb pile (with inclined prestress introduced into the drilling hole H) ( After driving P1), sand is filled in the thumb pile P1 into which the inclined prestress is introduced, and then the tension member 300 installed on the thumb pile P1 into which the inclined prestress is introduced is placed in a predetermined amount. tension with the power of

Here, in the driving driving step (S3), the thumb pile (P1) into which the inclined prestress is introduced is driven into the drilling hole (H) in a state in which the direction of the bracket (200) faces the back surface of the excavation.

That is, the reason why the insertion direction of the thumb pile (P1) into which the inclined prestress is introduced is installed in the direction of the back of the excavation is to reduce the bending stress generated in the self-supporting retaining wall, one upper end and the other side of the thumb pile 100 A bracket 200 is installed at the bottom, and a tension member 300 is installed on the bracket 200 to form a thumb pile P1 into which an inclined prestress is introduced, and then a tension force is applied in advance to reduce the earth pressure on the back of the excavated ground. In order to reduce the bending moment and horizontal displacement generated by the prestress by the tension member 300 on the back side of the thumb pile (P1) into which the inclined prestress is introduced, the thumb pile (P1) into which the inclined prestress is introduced This is to resist the back earth pressure by tensioning after insertion.

In the self-supporting temporary earth retaining construction method using the thumb pile introduced with the inclined prestress according to the present invention consisting of the steps as described above, the bracket 200 is installed at the upper end of one side and the lower end of the other side of the earth retaining thumb pile 100, The number of braces installed There is an effect of reducing construction costs and improving constructability by reducing the construction period and reducing the amount of steel used due to the increase in the efficiency of equipment work by securing a wide working space by significantly reducing the

[Thumb peg with alternating prestress]

5 is a perspective view showing a thumb pile in which cross-type prestress is introduced according to the present invention, and FIG. 6 is a front view showing a thumb pile in which cross-type prestress is introduced according to the present invention.

As shown in these figures, the thumb pile (P2) introduced with cross prestress according to the present invention is one upper end and the other lower end and the other upper end of the thumb pile 100 to reduce the bending stress generated in the self-supporting retaining wall A bracket 200 is installed at the lower end of the fruit side, and a tension member 300 made of a steel bar or steel wire is installed in a crosswise manner on the bracket 200, and at the same time, a tension force is applied in advance to generate pressure from the back of the ground excavation It is a structure designed to effectively suppress the bending moment and horizontal displacement.

That is, the thumb pile (P2) to which the cross prestress is introduced according to the present invention includes a thumb pile (100) made of an H beam having a certain length; A bracket 200 that is bolted to face each other across one upper end and the other lower end and the other upper end and one lower end of the thumb pile 100; It consists of a tension member 300 fixedly installed to cross the brackets 200 in an X shape.

Here, the thumb pile 100 is an H-beam made of a flange and a web.

Also, as shown in FIG. 7, the bracket 200 is composed of an upper bracket 200a and a lower bracket 200b.

Here, the upper bracket (200a) and the lower bracket (200b) have the same shape and have a fixing clip 250, a bolt 260, and a nut 270 at one upper end, the other lower end, and the other upper end and one lower end of the thumb pile 100. ) is fixed by

In particular, the upper bracket (200a) and the lower bracket (200b) include a horizontal plate 210 formed in an elliptical shape having a constant thickness and curvature; a vertical plate 220 bent at right angles from the end of the horizontal plate 210 and formed in a rectangular shape; an inclined plate 230 disposed obliquely between the horizontal plate 210 and the vertical plate 220 and formed in a triangular shape, and a plurality of fixing holes 240 perforated to have a constant diameter in the horizontal plate; a fixing clip 250 for fixing the upper racket 200a and the lower bracket 200b to the thumb peg; It consists of a bolt 260 and a nut 270 fixedly installed through the lower portion of the fixing clip 250.

Here, the reason why the shapes of the horizontal plate 210, the vertical plate 220, and the inclined plate 230 are different is to prevent deformation of the bracket 200 due to the tension of the tension member 300 installed in the anchoring hole 240. This is to prevent and reduce the amount of steel.

That is, the upper bracket 200a and the lower bracket 200b include a horizontal plate 210, a vertical plate 220, an inclined plate 230, an anchoring hole 240, a fixing clip 250, a bolt 260, and a nut. 270 is an organically coupled member.

Here, the vertical plate 220 is thicker than the horizontal plate 210 and the inclined plate 230.

The reason why the vertical plate 220 is formed thicker in this way is to form a different thickness in order to efficiently tension the tension member 300 installed in the fixing hole 240 of the upper and lower brackets 200a and 200b, and to The flat plate 210 and the inclined plate 230 are formed to have the same thickness.

Meanwhile, when the inclined plate 230 is attached to the horizontal plate 210, a plurality of large inclined plates 230 are installed inside the horizontal plate 210, and a small inclined plate 230 is installed outside the large inclined plate 230. installed

The reason why the size of the inclined plate 230 is different in this way is that the size of the inclined plate 230 is increased in the part receiving a lot of force when the tension member 300 is tense, and the size of the inclined plate 230 is reduced in the part receiving less force. This is to prevent unnecessary waste of steel materials.

On the other hand, when the upper bracket 200a is installed on the thumb pile 100, the fixing clip 250 and It is fixedly installed with bolts 260 and nuts 270.

In addition, the lower bracket 200b is fixedly installed to the thumb peg 100 with a fixing clip 250, a bolt 260 and a nut 270 in a state of being maintained at a certain distance inclined downward from the upper bracket 200a.

Here, it is structurally advantageous for the lower bracket 200b to install the thumb peg 100 vertically at a position close to the lowermost end of the thumb peg 100, which is a position obliquely opposed to the upper bracket 200a.

In addition, when the length is too long between the upper bracket 200a and the lower bracket 200b, an intermediate spacer may be installed at a predetermined position on the thumb pile 100.

On the other hand, the tension member 300 may be composed of a high-strength structural steel bar or steel wire, and is installed at an angle to the upper bracket 200a and the lower bracket 200b.

Hereinafter, a self-supporting temporary earth retaining construction using a thumb pile introduced with cross prestress according to the present invention configured as described above will be described.

8 is an exemplary view showing a self-supporting temporary retaining wall using a thumb pile into which cross-type prestress is introduced according to the present invention.

As shown in this figure, the self-supporting temporary earth retaining construction method using the cross prestressed thumb piles according to the present invention comprises the steps of manufacturing a cross prestressed thumb pile (P2) (S 1); Forming a drilling hole (H) by drilling a predetermined diameter and depth at regular intervals in the ground (G) (S 2); Drive-inserting the thumb pile (P2) into which the cross prestress is introduced into the drilling hole (H) (S 3); Filling sand into the pile (P2) to which the driving prestress is introduced (S4); It consists of a step (S5) of tensioning the tension member 300 installed on the thumb pile (P2) to which the cross prestress is introduced.

That is, the self-supporting temporary earth retaining construction method using the thumb piles introduced with cross prestress according to the present invention includes thumb piles 100 made of H beams having a certain length; A bracket 200 that is bolted to face each other across one upper end and the other lower end and the other upper end and one lower end of the thumb pile 100; The brackets 200 are composed of tension members 300 fixedly installed to cross each other in the shape of an X. The brackets 200 are composed of an upper bracket 200a and a lower bracket 200b, and the upper bracket 200a and the lower bracket 200b. Bracket (200b) and a horizontal plate 210 made of an oval shape having a constant thickness and curvature; a vertical plate 220 bent at right angles from the end of the horizontal plate 210 and formed in a rectangular shape; an inclined plate 230 disposed obliquely between the horizontal plate 210 and the vertical plate 220 and formed in a triangular shape, and a plurality of fixing holes 240 perforated to have a constant diameter in the horizontal plate; a fixing clip 250 for fixing the upper racket 200a and the lower bracket 200b to the thumb peg; It consists of a bolt 260 and a nut 270 fixedly installed through the lower part of the fixing clip 250, and when the distance between the upper bracket 200a and the lower bracket 200b becomes too long, the thumb pile 100 An intermediate spacer can be installed at a predetermined position of, and the tension member 300 is made of a cross prestressed thumb pile (P2) composed of a high-strength structural steel bar or steel wire, and the cross prestressed thumb pile is introduced. After drilling the target ground (G) to install (P2) at regular intervals with a predetermined diameter and depth to form a drilling hole (H), a thumb pile in which cross prestress is introduced into the drilling hole (H) ( P2) is driven, and after filling sand into the thumb pile (P2) into which the cross-type prestress is introduced, the tension member 300 installed on the thumb pile (P2) into which the cross-type prestress is introduced is placed at a predetermined level. tension with the power of

The self-supporting temporary earth retaining construction method using the thumb pile introduced with cross prestress according to the present invention consisting of the steps described above is a bracket (200 ) is installed, and a tension member 300 made of a steel bar or steel wire is installed crosswise on the bracket 200 to apply tension to the tension member 300 to support the earth pressure. Thumb pile (P2) introduced with cross-type prestress By introducing, there is an effect of reducing construction costs and improving constructability by reducing the construction period and reducing the amount of steel used due to the increase in the efficiency of equipment work by securing a wide work space by significantly reducing the number of brace installations.

Preferred embodiments described in the detailed description of the present invention are illustrative and not limiting, the scope of the present invention is shown by the appended claims, and all modifications that fall within the meaning of those claims do not apply to the present invention. will be included

100: thumb peg 200: bracket
200a: upper bracket 200b: lower bracket
210: horizontal plate 220: vertical plate
230: inclined plate 240: fixer
250: fixing clip 260: bolt
270: nut 300: tension member
G: ground H: drilled hole
P1: Thumb pile with inclined prestress
P2: Thumb pile with cross prestress introduced

Claims (9)

A thumb pile 100 made of an H beam having a certain length;
A bracket 200 that is bolted to face each other across the upper end of one side of the pile 100 and the lower end of the other side;
A thumb pile introduced with an inclined prestress, characterized in that it is composed of a tension member 300 that is fixedly installed at an angle between the brackets 200. According to claim 1,
The bracket 200 is composed of an upper bracket 200a and a lower bracket 200b, and the upper bracket 200a and the lower bracket 200b are formed of a horizontal plate 210 having an elliptical shape having a certain thickness and curvature, and ; a vertical plate 220 bent at right angles from the end of the horizontal plate 210 and formed in a rectangular shape; an inclined plate 230 disposed obliquely between the horizontal plate 210 and the vertical plate 220 and formed in a triangular shape, and a plurality of fixing holes 240 perforated to have a constant diameter in the horizontal plate; a fixing clip 250 for fixing the upper racket 200a and the lower bracket 200b to the thumb peg; A thumb pile introduced with prestress, characterized in that composed of a bolt 260 and a nut 270 fixedly installed through the lower part of the fixing clip 250. A thumb pile 100 made of an H beam having a certain length;
A bracket 200 that is bolted to face each other across one upper end and the other lower end and the other upper end and one lower end of the thumb pile 100;
A thumb pile introduced with cross-type prestress, characterized in that it is composed of a tension member 300 fixedly installed in an X shape between the brackets 200. According to claim 3,
The bracket 200 is composed of an upper bracket 200a and a lower bracket 200b, and the upper bracket 200a and the lower bracket 200b are formed in an elliptical shape having a constant thickness and curvature. a horizontal plate 210; a vertical plate 220 bent at right angles from the end of the horizontal plate 210 and formed in a rectangular shape; an inclined plate 230 disposed obliquely between the horizontal plate 210 and the vertical plate 220 and formed in a triangular shape, and a plurality of fixing holes 240 perforated to have a constant diameter in the horizontal plate; a fixing clip 250 for fixing the upper racket 200a and the lower bracket 200b to the thumb peg; A thumb pile introduced with cross prestress, characterized in that composed of a bolt 260 and a nut 270 fixedly installed through the lower part of the fixing clip 250. Manufacturing a thumb pile (P1) with an inclined prestress or a thumb pile (P2) with a crossed prestress (S 1);
Forming a drilling hole (H) by drilling a predetermined diameter and depth at regular intervals in the ground (G) (S 2);
driving an inclined prestressed thumb pile (P1) or a cross prestressed thumb pile (P2) into the drilling hole (H) (S3);
Filling sand into the driven inclined prestressed pile (P1) or the pile (P2) introduced with cross-type prestress (S4);
The step (S5) of tensioning the tension member 300 installed on the inclined prestressed thumb pile (P1) or the crossed prestressed thumb pile (P2) is introduced with an inclined or crossed prestress A self-supporting temporary earth retaining method using thumb piles. According to claim 5,
The thumb pile (P1) to which the inclined prestress is introduced is a thumb pile 100 made of an H beam having a certain length; A bracket 200 that is bolted to face each other across the upper end of one side of the pile 100 and the lower end of the other side; A self-supporting temporary earth retaining construction method using a thumb pile introduced with an inclined or crossed prestress, characterized in that it consists of a tension member 300 that is fixedly installed at an angle between the brackets 200. According to claim 6,
The bracket 200 is composed of an upper bracket 200a and a lower bracket 200b, and the upper bracket 200a and the lower bracket 200b are formed in an elliptical shape having a constant thickness and curvature. a horizontal plate 210; a vertical plate 220 bent at right angles from the end of the horizontal plate 210 and formed in a rectangular shape; an inclined plate 230 disposed obliquely between the horizontal plate 210 and the vertical plate 220 and formed in a triangular shape, and a plurality of fixing holes 240 perforated to have a constant diameter in the horizontal plate; a fixing clip 250 for fixing the upper racket 200a and the lower bracket 200b to the thumb peg; Self-supporting temporary earth retaining construction method using a thumb pile introduced with an inclined or crossed prestress, characterized in that composed of a bolt 260 and a nut 270 fixedly installed through the lower part of the fixing clip 250. According to claim 5,
The thumb pile (P2) to which the cross prestress is introduced is a thumb pile 100 made of an H beam having a certain length; A bracket 200 that is bolted to face each other across one upper end and the other lower end and the other upper end and one lower end of the thumb pile 100; A self-supporting temporary earth retaining construction method using a thumb pile introduced with an inclined or crossed prestress, characterized in that it consists of a tension member 300 fixedly installed to cross in an X shape between the brackets 200. According to claim 8,
The bracket 200 is composed of an upper bracket 200a and a lower bracket 200b, and the upper bracket 200a and the lower bracket 200b are formed in an elliptical shape having a constant thickness and curvature. a horizontal plate 210; a vertical plate 220 bent at right angles from the end of the horizontal plate 210 and formed in a rectangular shape; an inclined plate 230 disposed obliquely between the horizontal plate 210 and the vertical plate 220 and formed in a triangular shape, and a plurality of fixing holes 240 perforated to have a constant diameter in the horizontal plate; a fixing clip 250 for fixing the upper racket 200a and the lower bracket 200b to the thumb peg; Self-supporting temporary earth retaining construction method using a thumb pile introduced with an inclined or crossed prestress, characterized in that composed of a bolt 260 and a nut 270 fixedly installed through the lower part of the fixing clip 250.

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